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Permit M10-030 - INTERNAP NETWORK SERVICES
INTERNAP NETWORK SERVICES 3355 S 120 PL M10 -030 Parcel No.: 1023049082 Address: Suite No: Citylif Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Inspection Request Line: 206 - 431 -2451 Web site: http: / /www.ci.tukwila.wa.us 3355 S 120 PL TUKW MECHANICAL PERMIT Permit Number: Issue Date: Permit Expires On: M 10 -030 04/13/2010 10/10/2010 Tenant: Name: Address: INTERNAP NETWORK SERVICES 3355 S 120 PL , TUKWILA WA Owner: Name: SABEY CORPORATION Address: 12201 TUKVVILA INTL BLVD 4THFL , SEATTLE WA Contact Person: Name: KATHY MCINVALE Address: 250 WILLIAMS ST SUITE M -100 , ATLANTA GA Contractor: Name: BELLEVUE MECHANICAL INC Address: 1489 130TH AVENUE NE , BELLEVUE WA Contractor License No: BELLEMI984P5 Phone: Phone: 404 - 302 -9753 Phone: Expiration Date: 10/25/2010 DESCRIPTION OF WORK: MECHANICAL WORK TO SUPPORT NEW DATA CENTER. ROOF TOP AHU'S, INDOOR AC UNITS, CONDENSERS, EXHAUST SYSTEMS, GENERATORS, FUEL SYSTEMS, AND ASSOCIATED DUCT WORK. Value of Mechanical: 175,000.00 Type of Fire Protection: Fees Collected: $27,390.88 International Mechanical Code Edition: 2006 EQUIPMENT TYPE AND QUANTITY Furnace: <100K BTU 0 >100K BTU 0 Floor Furnace 0 Suspended/Wall/Floor Mounted Heater 0 Appliance Vent 0 Repair or Addition to Heat/Refrig /Cooling System.... 1 Air Handling Unit <10,000 CFM 0 >10,000 CFM 9 Evaporator Cooler 5 Ventilation Fan connected to single duct 0 Ventilation System 0 Hood and Duct 0 Incinerator: Domestic 0 Commercial/Industrial 0 Boiler Compressor: 0 -3 HP /100,000 BTU 21 3 -15 HP /500,000 BTU 2 15 -30 HP /1,000,000 BTU.. 0 30 -50 HP /1,750,000 BTU.. 5 50+ HP /1,750,000 BTU 0 Fire Damper 0 Diffuser 130 Thermostat 0 Wood/Gas Stove 0 Water Heater 0 Emergency Generator 3 Other Mechanical Equipment0 * *continued on next page ** doc: IMC -10/06 M10-030 Printed: 04 -13 -2010 • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Inspection Request Line: 206 - 431 -2451 Web site: http: / /wwwci.tukwila.wa.us Permit Number: M10 -030 Issue Date: 04/13/2010 Permit Expires On: 10/10/2010 Permit Center Authorized Signature: Date: 3-10 I hereby certify that I have read and examined this permit and know the same to be true and correct. All provisions of law and ordinances governing this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction or the pe ance of work. I am authorized to sign and obtain this mechanical permit. Signature: 42.4 Date: ¢//2//v Print Name: /v'1 f) . go 1a " This permit shall become null and void if the work is not commenced within 180 days from the date of issuance, or if the work is suspended or abandoned for a period of 180 days from the last inspection. doc: IMC -10/06 M10-030 Printed: 04 -13 -2010 • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206 - 431 -3665 Web site: http: / /www.ci.tukwila.wa.us PERMIT CONDITIONS Parcel No.: 1023049082 Address: Suite No: Tenant: 3355 S 120 PL TUKW INTERNAP NETWORK SERVICES Permit Number: Status: Applied Date: Issue Date: M10-030 ISSUED 03/02/2010 04/13/2010 1: ** *BUILDING DEPARTMENT CONDITIONS * ** 2: No changes shall be made to the approved plans unless approved by the design professional in responsible charge and the Building Official. 3: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center (206/431- 3670). 4: All permits, inspection records, and approved plans shall be at the job site and available to the inspectors prior to start of any construction. These documents shall be maintained and made available until final inspection approval is granted. 5: Readily accessible access to roof mounted equipment is required. 6: All construction shall be done in conformance with the approved plans and the requirements of the International Building Code or International Residential Code, International Mechanical Code, Washington State Energy Code. 7: Remove all demolition rubble and loose miscellaneous material from lot or parcel of ground, properly cap the sanitary sewer connections, and properly fill or otherwise protect all basements, cellars, septic tanks, wells, and other excavations. Final inspection approval will be determined by the building inspector based on satisfactory completion of this requirement. 8: Manufacturers installation instructions shall be available on the job site at the time of inspection. 9: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the Cityof Tukwila Permit Center. 10: All electrical work shall be inspected and approved under a separate permit issued by the City of Tukwila Building Department (206- 431 - 3670). 11: VALIDITY OF PERMIT: The issuance or granting of a permit shall not be construed to be a permit for, or an approval of, any violation of any of the provisions of the building code or of any other ordinances of the City of Tukwila. Permits presuming to give authority to violate or cancel the provisions of the code or other ordinances of the City of Tukwila shall not be valid. The issuance of a permit based on construction documents and other data shall not prevent the Building Official from requiring the correction of errors in the construction documents and other data. 12: ** *FIRE DEPARTMENT CONDITIONS * ** 13: The attached set of building plans have been reviewed by the Fire Prevention Bureau and are acceptable with the following concerns: 14: H.V.A.C. units rated at greater than 2,000 cfm require auto - shutdown devices. These devices shall be separately zoned in the alarm panel and local U.L. central station supervision is required. (City Ordinance #2051) 15: H.V.A.C. systems supplying air in excess of 2,000 cubic feet per minute to enclosed spaces within buildings shall be equipped with an automatic shutoff. Automatic shutoff shall be accomplished by interrupting the power source of the doc: Cond -10/06 M10 -030 Printed: 04 -13 -2010 ® • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206 - 431 -3665 Web site: http://www.ci.tukwila.wa.us air- moving equipment upon detection of smoke in the main return -air duct served by such equipment. Smoke detectors shall be labeled by an approved agency for air -duct installation and shall be installed in accordance with the manufacturer's installation instructions. (IIVIC 606.1, 606.2.1) 16: Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #2051) 17: Duct smoke detectors shall be capable of being reset from a single point near the alarm panel. (City Ordinance #2051) 18: Duct detectors shall send a supervisory signal only upon activation. (City Ordinance #2051) 19: All new fire alarm systems or modifications to existing systems shall have the written approval of The Tukwila Fire Prevention Bureau. No work shall commence until a fire department permit has been obtained. (City Ordinance #2051) (IFC 104.2) 20: Art electrical permit from the City of Tukwila Building Department Permit Center (206- 431 -3670) is required for this project. 21: An approved automatic fire sprinkler extinguishing system is required for this project. (City Ordinance #2050) (THE MINIMUM SPRINKLER DENSITY FOR THE GENERATOR ROOM TO BE .30/5,000 WITH MAX COVERAGE OF 100 SQ FT PER HEAD, PER IFC TABLE 3404.3.6.3(4). 22: Sprinklers shall be installed under fixed obstructions over 4 feet (1.2 m) wide such as ducts, decks, open grate flooring, cutting tables, shelves and overhead doors. (NFPA 13- 8.6.5.3.3) 23: All new sprinkler systems and all modifications to existing sprinkler systems shall have fire department review and approval of drawings prior to installation or modification. New sprinkler systems and all modifications to sprinkler systems involving more than 50 heads shall have the written approval of the W.S.R.B., Factory Mutual, Industrial Risk Insurers Kemper or any other representative designated and/or recognized by the City of Tukwila, prior to submittal to the Tukwila Fire Prevention Bureau. No sprinkler work shall commence without approved drawings. (City Ordinance #2050) 24: Generator installation shall comply with NFPA 30, Chapter 22, NFPA 110, NFPA 111 NFPA 37, and manufacturers installation guidelines. 25: The total number of fire extinguishers required for an extra hazard occupancy with Class A fire hazards is calculated at one extinguisher for each 1,000 sq. ft. of area. The extinguisher(s) should be of the "all purpose" (4A 40 B:C) dry chemical type. The travel distance to any extinguisher must be 75' or less. (IFC 906.3) (NFPA 10, 3 -2.1) 26: Portable fire extinguishers, not housed in cabinets, shall be installed on the hangers or brackets supplied. Hangers or brackets shall be securely anchored to the mounting surface in accordance with the manufacturer's installation instructions. Portable fire extinguishers having a gross weight not exceeding 40 pounds (18 kg) shall be installed so that its top is not more than 5 feet (1524 mm) above the floor. Hand -held portable fire extinguishers having a gross weight exceeding 40 pounds (18 kg) shall be installed so that its top is not more than 3.5 feet (1067 mm) above the floor. The clearance between the floor and the bottom of the installed hand -held extinguishers shall not be less than 4 inches (102 mm). (IFC 906.7 and IFC 906.9) 27: Fire extinguishers shall not be obstructed or obscured from view. In rooms or areas in which visual obstruction cannot be completely avoided, means shall be provided to indicate the locations of the extinguishers. (IFC 906.6) 28: Fire extinguishers require monthly and yearly inspections. They must have a tag or label securely attached that indicates the month and year that the inspection was performed and shall identify the company or person performing the service. Every six years stored pressure extinguishers shall be emptied and subjected to the applicable recharge procedures. If the required monthly and yearly inspections of the fire extinguisher(s) are not accomplished or the inspection tag is not completed, a reputable fire extinguisher service company will be required to conduct these required surveys. (NFPA 10, 4 -3, 4 -4) doc: Cond -10/06 M10 -030 Printed: 04 -13 -2010 • • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206 - 431 -3665 Web site: http: / /www.ci.tukwila.wa.us I hereby certify that I have read these conditions and will comply with them as outlined. All provisions of law and this work will be complied with, whether specified herein or not. The granting of this permit does not presume to give authority to violate or cancel the provision of any other work construction or the performance of work. Signature: Print Name: D • P2? Date: +11)2110 liLlr/,1 b • bolt/ ordinances governing or local laws regulating doc: Cond -10/06 M10 -030 Printed: 04 -13 -2010 • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206 - 431 -3665 Web site: http: / /www.ci.tukwila.wa.us 29: Contact The Tukwila Fire Prevention Bureau to witness all required inspections and tests. (City Ordinances #2050 and #2051) 30: Any overlooked hazardous condition and/or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. 31: These plans were reviewed by Inspector 511. If you have any questions, please call Tukwila Fire Prevention Bureau at (206)575 -4407. * *continued on next page ** doc: Cond -10/06 M10 -030 Printed: 04 -13 -2010 9D� CITY OF TUKWILA Community Development Department Public Works Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 http: //www. ci. tukwila. wa. us Building Permit No. Mechanical Permit No. Ivk .3D Plumbing/Gas Permit No. Public Works Permit No. Project No. (For office use only) Applications and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or by fax. * *Please Print ** SITE LOCATION x King Co Assessor's Tax No.: 418492995'00" [641)-31Y) Vieirq Site Address: 3355 S 120th Place Tukwila, WA 98168 Tenant Name: Internap Network Services Property Owners Name: Sabey Corporation Suite Number: Floor: New Tenant: ❑ Yes 123 ..No Mailing Address: 12201 Tukwila International Blvd 4th Floor Seattle WA 98168 City State Zip CONTACT PERSON — who do we contact when your permit is ready to be issued Name: Kathy Mclnvale Mailing Address: 250 Williams St Suite M -100 E -Mail Address: kmcinvale@internap.com Day Telephone: (404) 302 -9753 Atlanta GA 30303 City State Zip Fax Number: GENERAL CONTRACTOR INFORMATION — (Coutractor Information ,for Mechanical,(pg4) for Plumbing and Gas Piping (pg 5)) Company Name: BNBuilders, Inc Mailing Address: 2601 4th Ave Suite 350 Seattle WA 98121 Contact Person: Jason Limp E -Mail Address: jason.limp @bnbuilders.com Contractor Registration Number: BNBUll'990K3 City State Zip Day Telephone: (206) 719-6009 Fax Number: (206) 382 -3440 Expiration Date: 09/12/2011 ARCHITECT:OF RECORD —All plans must be wet - stamped by Architect of Record Company Name: Callison, LLC Mailing Address: 1420 5th Ave, Suite 2400 Contact Person: Bob Winfrey Seattle WA 98101 E -Mail Address: bob.winfrey@callison.com City State Day Telephone: (206) 623 -4646 Fax Number: (206) 623 -4625 Zip ENGINEER OF RECORD= All.plans must be wet stamped by Engineer of Record Company Name: Rubicon Professional services Mailing Address: 3350 riverwood parkway suite 1900 Atlanta GA 30339 Contact Person: Aaron Parkington E -Mail Address: H:Applications\Porns- Applications On Line\2009 Applications \1 -2009 - Permit Application.doc Revised: 1 -2009 bh City State Day Telephone: (678) 627 -8198 Fax Number: Zip Page 1 of 6 MECHANICAL PERMIT INFORMATION — 206 - 431 -3670 MECHANICAL CONTRACTOR INFORMATION Company Name: 13 Mailing Address: / City State Zip Contact Person: J c(50/1 �,1hp 1 4�G��� Day Telephone: '206 1I9 6.DO�i E -Mail Address: RS on, L,'M p e g l� (� v; (d✓s , C vM Fax Number: Contractor Registration Number: Expiration Date: Valuation of Mechanical work (contractor's bid price): $ 3,175,000 Scope of Work (please provide detailed information): Mechanical work to support new data center. Roof top AHU's, Indoor AC units, condensers, exhaust systems, generators, fuel systems, and associated duct work. Use: Residential: New .... ❑ Replacement .... ❑ Commercial: New .... ❑ Replacement .... ❑ Fuel Type: Electric IN Gas .... ❑ Other: b, C S e i Indicate type of mechanical work being installed and the quantity below: �v-L ( fd / 2 /1.Pt4y Unit Type: Qty Unit Type: Qty Unit Type: Qty Boiler /Compressor: Qty Furnace <100K BTU Air Handling Unit >10,000 CFM Q -I eg Fire Damper 0 -3 HP /100,000 BTU ?IA Furnace >100K BTU Evaporator Cooler 5 Diffuser apps,`. 1306 3 -15 HP /500,000 BTU Floor Furnace Ae 7 Ventilation Fan Connected to Single Duct ( f� Thermostat ,I QD 15 -30 HP /1,000,000 BTU Suspended/Wall/Floor Mounted Heater Y� 0 Ventilation System co Wood/Gas Stove �D T 30 -50 HP /1,750,000 BTU Sec Appliance Vent 0 Hood and Duct Emergency Generator 3eti 50+ HP /1,750,000 BTU 9' Repair or Addition to Heat/Refrig/Cooling System 905 Incinerator - Domestic f6 Other Mechanical Equipment is Air Handling Unit <10,000 CFM 0 Incinerator — Comm/Ind H:\Applications\Forms- Applications On Line \2009 Applications \1 -2009 - Permit Application.doc Revised: 1 -2009 bh Page 4 of 6 PERMIT APPLICATION NOTES — Applicable to all permits in this application Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Permit Center to comply with current fee schedules. Expiration of Plan Review — Applications for which no permit is issued within 180 days following the date of application shall expire by limitation. Building and Mechanical Permit The Building Official may grant one or more extensions of time for additional periods not exceeding 90 days each. The extension shall be requested in writing and justifiable cause demonstrated. Section 105.3.2 International Building Code (current edition). Plumbing Permit The Building Official may grant one extension of time for an additional period not exceeding 180 days. The extension shall be requested in writing and justifiable cause demonstrated. Section 103.4.3 Uniform Plumbing Code (current edition). I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OF WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER 7 AUTHORIZED AGENT: Signature: 2. Print Name: Mailing Address: ksky Z60/ 'i 75-z) Day Telephone: City Date: 3- 2-0 24°6 7/g 92 r5 Grp 6r h' /z State Zip Date Application Accepted: Date Application Expires: Staff Initials: H: Wpplicat ions \Forms - Applications On Line\2009 Applications \1.2009 - Permit Application.doc Revised: 1 -2009 bh Page 6 of 6 City of Tukwila Department of Community Development O G7 6300 Southcenter Boulevard, Suite #100 a > ` Tukwila, Washington 98188 Phone: 206 - 431 -3670 Fax: 206 - 431 -3665 Web site: http: / /www.ci.tukwila.wa.us Parcel No.: 1023049082 Address: 3355 S 120 PL TUKW Suite No: Applicant: INTERNAP NETWORK SERVICES RECEIPT Permit Number: Status: Applied Date: Issue Date: M10 -030 ISSUED 03/02/2010 04/13/2010 Receipt No.: Initials: User ID: Payee:, R10 -00905 LAW 1632 Payment Amount: $63.00 Payment Date: 05/21/2010 04:03 PM Balance: $0.00 JEFF PHILLIPS TRANSACTION LIST: Type Method Descriptio Amount Payment Cash Authorization No. ACCOUNT ITEM LIST: Description 63.00 Account Code Current Pmts MECHANICAL - NONRES 000.322.102.00.00 Total: $63.00 63.00 PAYMENT RFCFIVED doc: Receiot -06 Printed: 05 -21 -2010 • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Fax: 206 - 431 -3665 Web site: http: / /www.ci.tukwila.wa.us RECEIPT Parcel No.: 1023049082 Permit Number: M10 -030 Address: 3355 S 120 PL TUKW Status: APPROVED Suite No: Applied Date: 03/02/2010 Applicant: INTERNAP NETWORK SERVICES Issue Date: Receipt No.: R10 -00620 Initials: WER User ID: 1655 Payment Amount: $21,912.70 Payment Date: 04/13/2010 11:18 AM Balance: $0.00 Payee: B N BUILDERS TRANSACTION LIST: Type Method Descriptio Amount Payment Check 49939 21,912.70 Authorization No. ACCOUNT ITEM LIST: Description Account Code Current Pmts MECHANICAL - NONRES 000.322.102.00.00 21,912.70 Total: $21,912.70 doc: Receiot -06 Printed: 04 -13 -2010 • City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Fax: 206 -431 -3665 Web site: http://www.ci.tukwila.wa.us RECEIPT Parcel No.: 1023049069 Permit Number: M10 -030 Address: 3355 S 120 PL TUKW Status: PENDING Suite No: Applied Date: 03/02/2010 Applicant: INTERNAP NETWORK SERVICES Issue Date: Receipt No.: R10 -00370 Initials: User ID: Payee: WER 1655 Payment Amount: $5,478.18 Payment Date: 03/02/2010 03:58 PM Balance: $21,912.70 BNBUILDERS TRANSACTION LIST: Type Method Descriptio Amount Payment Check 49065 5,478.18 Authorization No. ACCOUNT ITEM LIST: Description Account Code Current Pmts PLAN CHECK - NONRES 000.345.830 5,478.18 Total: $5,478.18 PAYMENT RECEIVED doc: Receiot -06 Printed: 03 -02 -2010 /6, INSPECTION NO. INSPECTION RECORD Retain a copy with permit N4P. /11/D — 030 PERMIT NO. CITY OF TUKWILA BUILDING DIVISION "R-' 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Project;. -- A/ f e✓Ah 9 ,3 Type of Inspection: F/ A/ 4 Address: 374 S S S /aQ f'L Date Called: Special Instructions: Date Wanted: 7.- 27-./D a. Requester: Phone No: nApproved per applicable codes. 0 Corrections required prior to approval. 7 COMMENTS: �LG I� // ii r✓r9 / Dat /` Z 7 / b $60.00 REINSPECTI0 FEE REM ED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Receipt No.: 'Date: INSPECTION NO. INSPECTION RECORD Retain a copy with permit 1 PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 112" 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Project: Type of I ctiion:/ Type � Address: 33L55' s 42 0 Date Called: Special Instructions: Date Wanted: .- -7 — /40, — / O p.m. Requester: Phone No: 0206 — 9S/--c,576 Approved per applicable codes. Corrections required prior to approval. COMMENTS: p i n, veNe4 /7 6 oc ? IPA Ne y - Rppedvfo 7 Dam. -.I) ■ - :•6t.00 REINSPECTION Fl REQUIRED. Prior to inspection, fee must be p. Id at 6300 Southcenter lvd., Suite 100. Call to schedule reinspection. Receipt No.: Date: INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION x- 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 607/0 -430 Project:— / ,i/# ,1 ' (- Type of Inspection: )% /.fie ~ .1.15" ? / 7. Address: _33S S i420 -7-'L Date Called: Special Instructions: Date Wanted: 7_,3 -/U a.m. :m- Requester: Phone No: Approved per applicable codes. ElCorrections required prior to approval. `f COMMENTS: (- f� ?"2`' Via6 /i--/,<04/ -- A1p� /e.✓v c,,,/i caj Sir70 �e .S0ir/r WA/ • 4 / 0 1 44,efy c i /- 14i e A.--;',t, 4 / - Arr F�i`C/ �®'�1 /fS'dx/'N � �7C✓' � � Ai E� c( e W LY Inspe Date' 3 -it.) 00 REINSPECTION F E REQUIRED. P or to inspection, fee must be aid at 6300 Southcenter Blvd., Suite 100. Cell to schedule reinspection. Receipt No.: Date: x_.221. n,.. INSPECTION NO. INSPECTION RECORD Retain a copy with permit 11/1 10 - 0 j PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Project: ""7--, o .ki At Type of Inspection: i ?Pllr - 4.J /'/• p h / ? jvcdt - , 'Ai - 0 Address: 3SsS S. i20dL Date Called: / ?,O.J /iL are 1L ' V /41 1/ (r d — [ ovv ybr f f+ Special Instructions: Date Wanted: 6.- 3 v - I v Cm.F p.m. Requester: Phone No: NApproved per applicable codes. ❑Corrections required prior to approval. COMMENTS: (f:/) / ? jvcdt - , 'Ai - 0 �( / ?,O.J /iL are 1L ' V /41 1/ (r d — [ ovv ybr f f+ N Date: G -�d -/� rill .00 REINSPECTIO FEE REQUIRED. Prior to inspection, fee must be p. id at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Receipt No.: 'Date: INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION C' 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Alto- )30 Project: Typsof Inspection: Address: S r 't-L. L Date Called: Special Instructions: Date Wanted: - 2 —)0 --- a.m / p.m. Requester: Phone No: / ! ,4 q (' 0 Approved per applicable codes. Corrections required prior to approval. / ` COMMENTS: t'7 6D' eo c9.,,,,, p c e-te . I v- lL,x -✓ — d U /AY/ — Ra.,..• Date: .00 REINSPECTION FE $ REQUIRED. Prior to inspection, fee must be p at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Rece o t No.: Date: INSPECTION RECORD Retain a copy with permit PERMIT NO. CITY OF TUKWILA BUILDING DIVISION K-- 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Project: � � ) Type Inspection: Address: `P'. Date Called: 7 Special Instructions: 6 0 4 t' 15- 0(Z Date Wanted: 6,1,7_ fa `. Requester: Phone 0 ( 3 4 `1- 1 6 2. 2.. , Vr ❑ Approved per applicable codes. ❑ Corrections required prior to approval. /- COMMENTS: p A () G L.. o L v .c_.4 .—,. - c Cv004 St SAc v.... C m 1..-1 t` ,G \� ■ rJ •t kka" -} '741,1,1 Insp =sor: Date: to—I-7 —(d ri 60 .' 0 REINSPECTION F E REQUIRE ¢. Prior to inspection, fee must be ai • at 6300 Southcente Blvd., Suite 100. Call to schedule reinspection. Recei•t No.: 'Date: INSPECTION NO. INSPECTION RECORD Retain a copy with permit Iii lU -C'St° PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 14 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Project: Type of Inspection .. A Address: 33 SS S ,20Pc- Date Called: ) 1\ l.a...,,wc-f —, Special Instructions: -s. Date Wanted: (v—lj —/0 a /, w" Requester: Phone No: LIApproved per applicable codes. ❑ Corrections required prior to approval. COMMENTS. .. A 1 3 C dr.-4 4,3 Sr+1 r ; .,.a S — 0 ..ti,.. l.a_ 4 c — r e,„ ) 1\ l.a...,,wc-f —, 0. — L -s. t /1 i Date: .00 REINSPECTIO. FEE REQUIRED. Prior to inspection, fee must be d at 6300 Southce ter Blvd., Suite 100. Call to schedule reinspection. Re .f ipt No.: 'Date: INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 INSPECTION RECORD Retain a copy with permit M Q -o b PERMIT NO. (206)431 -3670 Project: Type of Inspection: . �./ 1'� Qi�41Y \— 1 P✓ h! 0, 7 Address: '21-3 STh S. t 70 (_., Date Called: Special Instructions: Date Waan�nted: I Requet€r Phone No: Approved per applicable codes. Corrections required prior to approval. COMMENTS: P Date: El ❑ $6 . 0 REINSPECTION FEE • EQUIRED. Pr' r to inspection, fee must be pad t 6300 Southcenter Blvd., Suite 100. all to schedule reinspection. Receidt/No.: Date: .. .. _�. _Mb . a. _ INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION R 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Project: Type o Inspection: Address: __ 355 5 2 o PL Date Called: Special Instructions: Date Wanted: a.m Requester: Phone No: 730 — 0 (n —' ` -7" ' 3c.96. LIApproved per applicable codes. [] Corrections required prior to approval. • COMME NTS: "749 /)2/61- /)2/61- Date —//- ; ,1 ri 60.' i REINSPECTION FEE R QUIRED /'Prior to inspection, fee must be ai ' at 6300 Southcenter Blvd. Suite 100. Call to schedule reinspection. Rece pt No.: Date: INSPECTION NO. INSPECTION RECORD Retain a copy with permit CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 PERMIT N (206)431 -3670 Project: _ `_l A, Typegf Inspection: In p `-v", Ades I / SS . - % 7-4 L,,, Date Called Special Instructions: Date Wanted: / (D _ Er't J p.m. Requester: Phone No: ❑ Approved per applicable codes. Corrections required prior to approval. / COMMENTS: )04 .24)./€ - d 70 L�JS X I pecto �.444.44.7 _4 0.11 REINSPECTION FEE REQ IRED. P for to inspection, fee must be al. at 6360 Southcenter Blvd., S ite 10 . Call to schedule reinspection. Date C' g -� Re ei•t No.: Date: INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION (- 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Project: t ` .— ' -104 e' i le,v, Ft. 7 / Type o f Inspection: © t — ' Ai Address: 3355 S Ito PL- Date Called: Special Instructions: �1.J 4 -7 Date Wanted: (o,, 4 -- i () a.m. p.m. Requester: T (3 T_i..iSu L. her Phone No: ElApproved per applicable codes. ❑ Corrections required prior to approval. COMMENTS: Ft. 7 / ID-. t- l .....5...." 6rOIJ E A -o �1.J 4 -7 IiOA0 't D 1.1- T (3 T_i..iSu L. her lnspec r: t Date: .00 REINSPECTION FEE R QUIRED. Prior to inspection, fee must be pdj�d at 6300 Southcenter Blvd. Suite 100. Call to schedule reinspection. Receifit No.: Date: INSPECTION NO. INSPECTION RECORD Retain a copy with permit Mk) -630 PERMIT NO. CITY OF TUKWILA BUILDING DIVISION le- 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3 Project: L) 3 — Type o Inspection: tKoLA 6 if" T-4k-f Mec,Z Address: 3355 S- /2.6 `. Date Called: V P Special on ct Instruis: _specs 0A Ix�b44 (L e cztd ; re A^ e."13 %D 41 im I' Yt r Date Wanted. 5 --2`7 /.' . a.m - / a Requester: Phone No: 20 6 -'73 0 -- 3'70_3 ElApproved per applicable codes. 0 Corrections required prior to approval. COMMENTS: GoA-FQ ej 54--t ( -- o L) 3 — .r 41€4 } V P ` 4 /I.�fDTj J4( I ate' � i41 Ins ,/td Date: S -2 El $60.00 REINSPECTION FEE REQUIRED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Receipt No.: 'Date: INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION '- 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Proms: Type of nspection /I'ej Address: 4 Itt. 335S5 .r( -19 Date Called: Special Instructions: Date Wanted: -''gym Requester: /! ' A n` /i / Phone No: 24 Co - 7 3 ° --3'03 ❑ Approved per applicable codes. U Corrections required prior to approval. COMMENTS: I'_ mss✓ /r/1 /! ' A n` /i / [4 "A../ 01 r- or fr4'17 / /111rr.07 i i "fti2t ctor: l ti ?L Date: s — ib .00 REINSPECTION FE REQUIRE‘ Prior to inspection, fee must be paid at 6300 Southcenter Bl d., Suite 100. Call to schedule reinspection. Receipt No.: Date: • INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 INSPECTION RECORD Retain a copy with permit MID —O3c7 PERMIT NO. Proles/ Type o Inspectio :,-_,-) do,,#-:4.),L,ye c'--e /_ Address S / ,A ` Date Called: imretf_.. Special Instructions: . Date Wanted: /7: a.r --'(J p.m. Requester: Phon.. J VJ 22 8. 0644 Approved per applicable codes. Corrections required prior to approval. j q COMMENTS: p � :,-_,-) do,,#-:4.),L,ye c'--e /_ 7 OVoit `o D 207" - Px ro imretf_.. Date: 0.00 REINSPECTION FEE EQUIRED!Prior to inspection, fee must be paid at.6300 Southcenter B d., Suite 100. Call to schedule reinspection. , eceipt No.: •- Date: INSPECTION NO. INSPECTION RECORD Retain a copy with permit IA�t/u -030 PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 9- 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 Project: _i_dtref tid(p Type of Inspection: kou-64- -3:Av Address 335' _ S • / ?-c) Date Called: Special Instructions: "530~4 4) ' 41;"'"-K - / 4 ' , s h 4 /-t ,7 '.i U Date Wanted: .-- a.m. S — it - to p.m. Requester: Phone No: 20(0 - 930 -3r?03 E] Approved per applicable codes. Corrections required prior to approval. COMMENTS: 7�r1 0 F, ox LI i9r/edDR5 - Si) 1,4 I..;A.�.�r `!i„-' //���9iJD , .-- ., - (4.)c�rJ/ + / r 33 S i/4 I t(%,/(/ �✓ ‘,NPi H fe/►/ AX i1A7l�-/ "530~4 4) ' 41;"'"-K - / 4 ' , s h 4 /-t ,7 '.i U - 17idoC'S -7--s--,- 6c,a -. ) rcl,/S- j oh,�/�.. L, ,,,rS _:.1.4(74 s /,4 ,? ()d' 7") 1"...6.-71 -/Z --- - Q K T o _7,vs,/ i 01 U' - ,) ,--CA 7 — 1. ref 'S / , �l3 �*"1, �+ / //Ili -, d" � ea ✓ , � y �/ spec Date: 5- 2 / -l(1i 0 REINSPECTION FE R rior to inspection, fee must be at 6300 Southcenter lvd., Suite 100. Call to schedule reinspection. EQUIRE . P e =ipt No.: Date: INSPECTION RECORD Retain a copy with permit INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila, WA 98188 (206)431 -3670 /t4 10 , 03 IC P Typg of InspLction: Address: 3355 '7-t $ Zo- --10L Date Called: g4,___ dypi - n3- CA__^- __cc - 71 rr . -- Special Instructions: `�%' (�� �ti/rj jvA . / U ” Pwxe Date Wanted • ;;11 a ^m. Requester: - (v - U c ! ? -( 0n Pr Phone No: 7C—'?3° _3 ?o3 ElApproved per applicable codes. Corrections required prior to approval. COMMENTS: par lyprOd.4-e c aJ.eA..s.A~ ter/ -- i «l (or /1-t1 01 (J€ I c_ (J&- fl - 3 -1, 3-3 Of` t,) ,esr— 4 3 -I- 3 -- c� fir j F- A, ul+ f ilia/i l cie, g4,___ dypi - n3- CA__^- __cc - 71 rr `'` TA c 2 2610:I , ,t.1 n, Ne Ti) L i e c.)47 6 U7 a r ,A-KOJesc 403 cLk-ie el- 2�•`_` c of pt AS W Ili A - (v - U c ! ? -( 0n Pr vyt t C - „,,-AS- ►N ri 4 D 6 of a 61 p of . L'1 pr: 61- ro Inspec or: _ ki Date: 5 0 $60.00 REINSPECTION FEE REOU'I ED. Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Receipt No.: Date: INSPECTION NUMBER CITY OF TUK WILA FI�1 INS PECTIN RECORD Rosin a copy with permit 444 Andover Park East, Tukwila, Wa. 981 PERMIT NUMBERS ENT �ru_s7��aan7 Project: , , .4-..,, Type of Inspection: HAtae, A. Sprinklers: Fire Alarm: Address: ; s Suite #: vlo 5 , i 2 c)-11-c4- Contact Person: I Ai/3 Special Instructions: ,; Phone No.: Approved per applicable cedes. Corrections required prior to approval COMMENTS: ti . ..-- Sprinklers: Fire Alarm: r Hood & Duct: Monitor: Pre -dire: Permits: ,; Occupancy Type: - J r or e 1()E_ r.7: 640-' m eiv Gi/1-'1/ iC-. fAAA r Sd i_iI ;'G� /.A, * ^1/cAr. � IA.. - Lk- �} v K i M u rot . de / /6 �} f 4, � , t., 4 .4 if irt,.� "x �' r: t ' !'a�--t:.� ". J y 'sx%; s =. ,-F /fix it'P J �'_% J 1 !0%/ j/ 1,. ,' `r� e' A e. ; ' df2 - {.e 44, }r�'r" 4,, -e, + j` (2) 4._ 11 r/6 I, 4; -- -; G ¢• .Po- LA/"' +, r-^= ri/eA.,. (_i.‘,+ ktA F 9 f red r.''''. Needs Shift Inspection: ti . ..-- Sprinklers: Fire Alarm: r Hood & Duct: Monitor: Pre -dire: Permits: ,; Occupancy Type: Inspector: ti . ..-- /1 1 r Hrs.: $80.00 REINSP OII FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department Call to schedule a reinspection. Word /Inspection Record Form:Doe 1/13/06 T.F.D. Form F.P. 113 INSPECTION NUMBER INSPECTION RECORD Retain a copy with permit PERMIT NUMBERS CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East, Tukwila, Wa. 98188 206- 575 -440 Pro { ' l J1 qty �� a p p 1, 1,4_ ; t � / Type of Inspection: Address: '3-35-5- Suite #: to `, . o P L Contact Person: 5 Special Instructions: Phone .No.: 2 06_ 13 if_ 0176 Approved per applicable codes. Eis corrections required prior to approval. COMMENTS: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: i Jt 4 v C t C., F. i L"%,...., e 5=° A Q.. -� 4a-7 .. ;c 04.._ p 4...,: , c k �d� .014 - ,+ /4 1 -- 4; c. a..G i a tc cl t. e...--‘. * ,,fi) Ait . A , G1 ye tR L ^* - e ? on - ✓' r,- r...-- ..,. ... /te. "4-.04-1- Needs Shift Inspection: Sprinklers: Fire Alarm: Hood & Duct: Monitor: Pre -Fire: Permits: Occupancy Type: Impeder: $80.00 REINSRE+t; iiON FEE REQUIRED. You will receive an invoice from the City of Tukwila Finance Department. Call to schedule a reinspection. Word /Inspection Record Form.Doc 1/13/06 T.F.D. Form F.P. 113 } AYE TESTING ENGINEERS, INC. Project No. L10137 Project Internap Data Center Phases III & IV Address 3355 South 120th Place, Tukwila, WA Permit No. M10 -030 Bldg Dept. City of Tukwila Owner Internap Engineer Engineers NW Architect Callison Contractor BN Builders Record No. 017 Date 5/24/10 Weather (indoors) Inspection Visual Sample(s) N/A Sege Office 20225 Cedar Valley Road Site 110 Lyrimood, WA 98036 ph 425.7429360 fmc 425.745.1737 Tacoma Office 10029 S. Tacoma Way Site E-2 Tacoma, WA 98499 ph 253.584.3720 fax 253.584.3707 PottiandORice 7911 NE 33rd Drive She 190 Portland, OR 97211 ph 503281.7515 fax 503281.7579 Visually inspected weldments installed on exhaust from generators (3) at A.1/3 -3.5, first floor. Welding was performed by WABO certified welders and found acceptable based on AWS D1.1 visual acceptance criteria and standard industry procedures. Inspection was performed by request of the City of Tukwila inspector and further documentation of welded connection may be required. Preliminary inspection Inspector: Carl Reynolds Reviewed by: Timothy G. Beckerle, P.E. Branch Manager Page 1 of 1 Plump Engineering, Inc. 914 E. Katella Avenue Anaheim, CA 92805 inc 714 - 385 -1835 FAX: 714- 385 -1834 •11111 INGIMll11Y1 III( MEMO Project: Sears - 1139 PEI Job # 081064 To Whom It May Concern: The use of Simpson XP can be used in lieu of Hilti epoxy. If you have any questions, please contact me. p Engineering, Inc. Richar ump, P.E. President ECEWWE . ,2010 DEPUiLG ARTMENT Date: June 2, 2010 Structural Engineering Client: Sears Holding Company 914 E. Katella Avenue Title: Sears 1139 - Tie Beam Anaheim, CA 92805 File: 081064 Date: April 24, 2010 Phone (714) 385 -1835 PLUMP ENGINEERING INC. Fax (714) 385 -1834 By: RP Sheet: SK1 (E) 8 "x20" CONCRETE COLUMN • (E) 10" CONCRETE WALL TYP> 1/4V HSS12x12x1 /4 • 3/4" FE x 18" SQ. w/ (4) 7/8 "0 ALL— THREAD THROUGH BOLTS (1 "0 HOLE THROUGH THE CONCRETE) w/ 5/8" x 18" SQ. BACKING PLATE Co--2,_I0 y •r Yancey Power Systems June 1, 2010 Rubicon Professional Services 3350 Riverwood Parkway Suite 1900 Atlanta, GA 30339 Reference: Internap Sabey Phase 3 Project Name: Internap Sabey Phase 3 Site Address: 3355 S. 120th Place Tukwila, WA Yancey Project #: 10 -0171 Mr. Jeff Scanlan RECE en 1 BU LLiN DEPARTMENT This is to certify that the supplied EM Products model JCS18- 200393 silencers (mufflers), the DME Inc. 8 "x8 "x18" wye flexible exhaust assemblies, and the DME Inc. nut, bolt, and gasket kits are correctly sized for use with the Caterpillar 2250 kW generator sets. The silencers, wye flexible assemblies, and gaskets are constructed of the proper material for this application and designed to withstand the full load rated exhaust temperature of 916 degrees F. Sincerely, Q \ Alvin Minor Yancey Power Systems Project Manager 259 Lee Industrial Blvd., Austell, GA 30168 • TEL: (770) 941 -2424 • FAX: (770) 941 -2411 AIRTEST Co., Inc. Test and Balance Report FIRM: Airtest Co Inc PO Box 86 Issaquah, WA 98027 PHONE: 425 - 313 -0172 FAX: 425- 313 -5735 PROJECT: Internap Data Center - Phase III - Intergate East 3355 120th Place Tukwila, WA 98168 DATE: 7/12/2010 PROJECT #: CONTACT: NOTES: Airtest Co Inc 1 of 47 AIRTEST Co., Inc. Roof Top Unit PROJECT: Internap Data Center - Phase Ill - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM/UNIT: RTU -3 -1 AREA: Data Center ; ;Unit Datav, u '� Unit Manufacturer McQuay Unit Model Number RDT130DLY Unit Serial Number FBOU100400294 00 RTU -3 -1 / Return Fan Fan Type / Class BI RTU -3 -1 / Supply Fan Fan Type / Class AF Test'Data �� r(�� - 3,,v4114 r ' . �'. .{...... X'b•Y� 4yq}u r'.•}.�l `a3 RTU -3 -1 / Return Fan Fan RPM Design 1070 RPM Fan RPM Actual 1076 RPM Motor RPM Actual 1775 RPM RTU -3 -1 I Supply Fan Fan RPM Design 986 RPM Fan RPM Actual 1041 RPM Motor RPM Actual 1780 RPM Electrical Test Data RTU -3 -1 I Return Fan Final Operating Hz 60 Hz Motor Volts 1 472 Volts Motor Volts 2 474 Volts Motor Volts 3 474 Volts Motor Amps 1 36.5 Amps Motor Amps 2 38.3 Amps Motor Amps 3 39.5 Amps RTU -3 -1 I Supply Fan Final Operating Hz 60 Hz Motor Volts 1 472 Volts Motor Volts 2 474 Volts Motor Volts 3 472 Volts Motor Amps 1 64.8 Amps Motor Amps 2 64.7 Amps Motor Amps 3 62.9 Amps Tested By: Mike Touchette Test Date: July 08, 2010 yr Er` f - ! ,.yE t °,w+:srv;.. ¢• „s• ssAl: Motor Data�• .: 1, .. .. o-,r,,,q.,.. �+` .., ... ..f., fi. ^ di' E '. - w.x.:. C.r s j` rf" w'.& w.;!". =a• . RTU -3 -1 I Return Fan Motor Manufacturer Baldor Motor HP 50 HP Motor RPM 1775 RPM Motor Frame 326T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 57 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT RTU -3 -1 / Supply Fan Motor Manufacturer Baldor Motor HP 75 HP Motor RPM 1780 RPM Motor Frame 365T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 85.9 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT x s t Sheave r' £ Data Fr RTU -3 -1 I Return Fan Drive Type Belt Belt Size 5VX900 Number of Belts 2 Motor Sheave 2Q5V97 Motor Sheave Bore 2 1/8 (Q1) in. Fan Sheave 2B5V160 Fan Sheave Bore 2 7/16 (B) in. Sheave Center Line 25 in. RTU -3 -1 / Supply Fan Drive Type Belt Belt Size 5VX830 Number of Belts 3 Motor Sheave 3B5V94 Motor Sheave Bore 2 3/8 (B) in. Fan Sheave 3B5V160 Fan Sheave Bore 2 3/16 (B) in. Sheave Center Line 21 in. Airtest Co Inc 2 of 47 AIRIEST Co., Inc. Roof Top Unit PROJECT: Intemap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM /UNIT: RTU -3 -1 (Cont.) Tested By: Mike Touchette AREA: Data Center Test Date: July 08, 2010 * Notes r, ;Test Pressures k r >� r External SP Design 1.50 in. wc External SP In Actual -1.65 in. wc External SP Out Actual 1.45 in. wc Tot Ext. SP Act 3.10 in. wc RTU -3 -1 I Return Fan Inlet SP -.18 in. wc. Discharge SP .31 in. wc. Ext. SP Act .49 in. wc. RTU -3 -1 / Supply Fan Inlet SP -1.65 in. wc. Discharge SP 1.45 in. wc. Ext. SP Act 3.1 in. wc. In.Test Data rox - Total CFM Design 49000 CFM Total CFM Actual 47419 CFM Outside Air CFM Design 750 CFM Return Air CFM Design 49000 CFM Return Air CFM Actual 48195 CFM OA Damper Pos Actual 100 % °..: wa*),,�" oa �t , 5 ' .filterData .Ji. S....1t P` .- +°d -'}. J <: 'AI,P, 4.':✓NUAS ... #' T..a 1:�J .fM._ RTU -3 -1 / Filter Bank Filter Manufacturer AAF Filter Type Mini Pleat Filter Quantity 44 Filter Size 16x20x4 RTU -3 -1 I Filter Bank , Filter Manufacturer AAF Filter Type Pleated Filter Quantity 44 Filter Size 16x25x2 Airiest Co Inc 3 of 47 AIRTEST Co.. Inc. Roof Top Unit PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: RTU -3 -2 AREA: Data Center ^7— :, "43, f W G "rt nit•wData 5j `s ,y �..,;.Ares a ti Unit Manufacturer McQuay Unit Model Number RDT130DLY Unit Serial Number FBOU100400293 00 RTU -3 -2 / Return Fan Fan Type l Class BI RTU -3 -2 / Supply Fan Fan Type / Class AF Test Data �. � it .. '%. .Otw -J.. .. ..F t�9.'+f.'Y°' , >X• •:s- .a.,,l .. 1:` � A <. RTU -3 -2 / Return Fan Fan RPM Design 1070 RPM Fan RPM Actual 1076 RPM • Motor RPM Actual 1775 RPM RTU -3 -2 / Supply Fan Fan RPM Design 986 RPM Fan RPM Actual 1041 RPM Motor RPM Actual 1780 RPM .. v... M l' . M✓EwY..b`1' `y {N.i Electtical Test'Datat�r� ' . tki :^;. .1.. '.. b}, ? ,%",.: RTU -3 -2 l Return Fan Final Operating Hz 60 Hz Motor Volts 1 474 Volts Motor Volts 2 474 Volts Motor Volts 3 472 Volts Motor Amps 1 35.1 Amps Motor Amps 2 38.1 Amps Motor Amps 3 38.5 Amps RTU -3 -2 / Supply Fan Final Operating Hz 60 Hz Motor Volts 1 473 Volts Motor Volts 2 474 Volts Motor Volts 3 474 Volts Motor Amps 1 63.8 Amps Motor Amps 2 63.5 Amps Motor Amps 3 64.0 Amps Tested By: Mike Touchette Test Date: July 08, 2010 7 - ` 7 *, -, -!fry y+e,�y; otoroDataL RTU -3 -21 Return Fan Motor Manufacturer Baldor Motor HP 50 HP Motor RPM 1775 RPM Motor Frame 326T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 57 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT RTU -3 -2 / Supply Fan Motor Manufacturer Baldor Motor HP 75 HP Motor RPM 1780 RPM Motor Frame 326T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 85.9 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT Wd kSheave'Data.t'�f m RTU -3 -2 / Return Fan- Drive Type Belt Belt Size 5VX900 Number of Belts 2 Motor Sheave 2Q5V97 Motor Sheave Bore 2 1/8 (Q1) in. Fan Sheave 2B5V160 Fan Sheave Bore 2 7/16 (B) in. Sheave Center Line 25 in. RTU -3 -2 I Supply Fan Drive Type Belt Belt Size 5VX830 Number of Belts 3 Motor Sheave 3B5V94 Motor Sheave Bore 2 3/8 (B) in. Fan Sheave 3B5V160 Fan Sheave Bore 2 3/16 (B) in. Sheave Center Line 21 in.. Airiest Co Inc 4 of 47 AIRTEST Co.. Inc. Roof Top Unit PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU -3 -2 (Cont.) Tested By: Mike Touchette AREA: Data Center Test Date: July 08, 2010 * Notes '� ? ,d rTrt 1j: .., .;...,P Test4Pressuret,,,, External SP Design 1.50 in. wc External SP In Actual -1.57 in. wc External SP Out Actual 1.44 in. wc Tot. Ext SP Act 3.01 in. wc RTU -3 -2 / Return Fan Inlet SP -.17 in. wc. Discharge SP .41 in. wc. Ext. SP Act .58 in. wc. RTU -3 -2 I Supply Fan Inlet SP -1.57 in. wc. Discharge SP 1.44 in. wc. Ext. SP Act 3.01 in. wc. .� AIr,Test DataV4. > `:* u4 Total CFM Design 49000 CFM Total CFM Actual 46790 CFM Outside Air CFM Design 750 CFM Return Air CFM Design 49000 CFM Return Air CFM Actual 49555 CFM OA Damper Pos Actual 100 % a� >,?; FilterDa RTU -3 -2 / Filter Bank Filter Manufacturer AAF Filter Type Mini Pleat Filter Quantity 44 Filter Size 16x20x4 RTU -3 -2 I Filter Bank Filter Manufacturer AAF Filter Type Pleated Filter Quantity 44 Filter Size 16x25x2 Airiest Co Inc 5 of 47 AIRIEST Co., Inc. Roof Top Unit PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: RTU -3 -3 AREA: Data Center Ti aNt Unit Manufacturer McQuay Unit Model Number RDT130DLY Unit Serial Number FBOU100400344 00 RTU -3-3/ Return Fan Fan Type / Class BI RTU -3-3 / Supply Fan Fan Type / Class AF e -vx 'iN �i.t. Sw... .:N estDaa ....tr..•... �"s:�4, - ii RTU -3 -31 Return Fan Fan RPM Design 1070 RPM Fan RPM Actual 1076 RPM Motor RPM Actual 1780 RPM RTU -3 -3 I Supply Fan Fan RPM Design 986 RPM Fan RPM Actual 1041 RPM Motor RPM Actual 1775 RPM �Electrical,�Tes iT ata; f � f RTU -3-31 Return Fan Final Operating Hz 60 Hz Motor Volts 1 474 Volts Motor Volts 2 471 Volts Motor Volts 3 474 Volts Motor Amps 1 35.8 Amps Motor Amps 2 37.6 Amps Motor Amps 3 38.0 Amps RTU -3-3 / Supply Fan Final Operating Hz 60 Hz Motor Volts 1 474 Volts Motor Volts 2 471 Volts Motor Volts 3 474 Volts Motor Amps 1 66.9 Amps Motor Amps 2 66.7 Amps Motor Amps 3 66.5 Amps Tested By: Mike Touchette Test Date: July 08, 2010 .... , A' RTU -3 -31 Return Fan Motor Manufacturer Baldor Motor HP 50 HP Motor RPM 1775 RPM Motor Frame 326T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 57 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT RTU -3 -3 / Supply Fan Motor Manufacturer Baldor Motor HP 75 HP Motor RPM 1780 RPM Motor Frame 365T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 85.9 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT Sheave Datay° RTU -3-31 Return Fan Drive Type Belt Belt Size 5VX900 Number of Belts 2 Motor Sheave 2Q5V97 Motor Sheave Bore 2 1/8 (Q1) in. Fan Sheave 2B5V160 Fan Sheave Bore 2 7/16 (B) in. Sheave Center Line 25 in. RTU -3-3 / Supply Fan Drive Type Belt Belt Size 5VX830 Number of Belts 3 Motor Sheave 3B5V94 Motor Sheave Bore 2 3/8 (B) in. Fan Sheave 3B5V160 Fan Sheave Bore 2 3/16 (B) in. Sheave Center Line 21 in. Tested By: Mike Touchette Test Date: July 08, 2010 .... , A' RTU -3 -31 Return Fan Motor Manufacturer Baldor Motor HP 50 HP Motor RPM 1775 RPM Motor Frame 326T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 57 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT RTU -3 -3 / Supply Fan Motor Manufacturer Baldor Motor HP 75 HP Motor RPM 1780 RPM Motor Frame 365T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 85.9 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT Sheave Datay° RTU -3-31 Return Fan Drive Type Belt Belt Size 5VX900 Number of Belts 2 Motor Sheave 2Q5V97 Motor Sheave Bore 2 1/8 (Q1) in. Fan Sheave 2B5V160 Fan Sheave Bore 2 7/16 (B) in. Sheave Center Line 25 in. RTU -3-3 / Supply Fan Drive Type Belt Belt Size 5VX830 Number of Belts 3 Motor Sheave 3B5V94 Motor Sheave Bore 2 3/8 (B) in. Fan Sheave 3B5V160 Fan Sheave Bore 2 3/16 (B) in. Sheave Center Line 21 in. Airiest Co Inc 6 of 47 AIRIEST Co., Inc. Roof Top Unit PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU -3 -3 (Cont.) Tested By: Mike Touchette AREA: Data Center Test Date: July 08, 2010 * Notes t, A.:0 a h..x.R.y 051..7'? �F ^ Test Pressures d xxr.�.m.. ,. - a. «r^T, X FC . • rx External SP Design 1.50 in. wc External SP In Actual -1.89 in. wc External SP Out Actual 1.25 in. wc Tot. Ext SP Act. 3.14 in. wc RTU -3-3 I Return Fan Inlet SP -.16 in. wc. Discharge SP .38 in. wc. Ext SP Act. .54 in. wc. RTU -3 -3 / Supply Fan Inlet SP -1.89 in. wc. Discharge SP 1.25 in. wc. Ext. SP Act 3.14 in. wc. ".:: AIr�Test, Data y x� y =c Total CFM Design 49000 CFM Total CFM Actual 48792 CFM Outside Air CFM Design 750 CFM Return Air CFM Design 49000 CFM Return Air CFM Actual 48025 CFM OA Damper Pos Actual 100 % FllterData RTU -3-3 / Filter Bank Filter Manufacturer AAF Filter Type Pleated Filter Quantity 44 Filter Size 16x25x2 RTU -3 -31 Filter Bank Filter Manufacturer AAF Filter Type Mini Pleat Filter Quantity 44 Filter Size 16x20x4 Airiest Co Inc 7 of 47 AIRTEST Co., Inc. Roof Top Unit PROJECT: Internap Data Center - Phase Ill - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM/UNIT: RTU -3 -4 AREA: Data Center • , ` � rUt Data'f : `4 ` } : 7 ni .rry.. un .�'.:�'`i .ter Unit Manufacturer McQuay Unit Model Number RDT130DLY Unit Serial Number FBOU100400709 00 RTU -3-41 Return Fan Fan Type / Class BI RTU -3-4 / Supply Fan Fan Type / Class AF �yy. .-, { uR ^ Test Ddta E'.4'i !'..L� -...+a .x�°. ,:3 .z4 •F- .e•..+. ..r.......�.o4iV.S ... RTU -3-41 Return Fan Fan RPM Design 1070 RPM Fan RPM Actual 1076 RPM Motor RPM Actual 1775 RPM RTU -3-4 / Supply Fan Fan RPM Design 986 RPM Fan RPM Actual 1041 RPM Motor RPM Actual 1780 RPM lectr cal Test Data, RTU -3 -41 Return Fan Final Operating Hz 60 Hz Motor Volts 1 472 Volts Motor Volts 2 474 Volts Motor Volts 3. 473 Volts Motor Amps 1 34.9 Amps Motor Amps 2 39.9 Amps Motor Amps 3 38.8 Amps RTU -3-41 Supply Fan Final Operating Hz 60 Hz Motor Volts 1 474 Volts Motor Volts 2 474 Volts Motor Volts 3 472 Volts Motor Amps 1 64.4 Amps Motor Amps 2 63.4 Amps Motor Amps 3 63.8 Amps Tested By: Mike Touchette Test Date: July 08, 2010 s w « >'Motor Data +` ,ryas RTU -3-41 Return Fan Motor Manufacturer Baldor Motor HP 50 HP Motor RPM 1775 RPM Motor Frame 326T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 57 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT RTU -3-4 / Supply Fan Motor Manufacturer Baldor Motor HP 75 HP Motor RPM 1780 RPM Motor Frame 326T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 85.9 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT 'heave. Data RTU -3-4 I Return Fan Drive Type Belt Belt Size 5VX900 Number of Belts 2 Motor Sheave 2Q5V97 Motor Sheave Bore 2 1/8 (Q1) in. Fan Sheave 2B5V160 Fan Sheave Bore 2 7/16 (B) in. Sheave Center Line 25 in. RTU -3-4 / Supply Fan Drive Type Belt Belt Size 5VX830 Number of Belts 3 Motor Sheave 3B5V94 Motor Sheave Bore 2 3/8 (B) in. Fan Sheave 3B5V160 Fan Sheave Bore 2 3/16 (B) in. Sheave Center Line 21 in. Airiest Co Inc 8 of 47 AIRTEST Co., Inc. Roof Top Unit PROJECT: Internap Data Center - Phase Ill - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM /UNIT: RTU -3 -4 (Cont.) Tested By: Mike Touchette AREA: Data Center Test Date: July 08, 2010 * Notes . `t3. *�' + �N. " �TestbPressures External SP Design 1.50 in. wc External SP In Actual -1.52 in. wc External SP Out Actual 1.44 in. wc Tot. Ext. SP Act. 2.96 in. wc RTU -3-41 Return Fan Inlet SP -.19 in. wc. Discharge SP .44 in. wc. Ext. SP Act. .63 in. wc. RTU -3-4 / Supply Fan Inlet SP -1.52 in. wc. Discharge SP 1.44 in. wc. Ext. SP Act. 2.96 in. wc. Y" rr� } - y+c4.� r r... I a7. ''3.. Air,Test #Data ,, ..F.. r ...rl? 1: F,•:ftor..v!%.6. r_-.1.,..‘!..t'•:4,7,4.; K 9r+1 A 4J,:fY ..:a�,a*°.'.fJa! Total CFM Design 49000 CFM Total CFM Actual 49707 CFM Outside Air CFM Design 750 CFM Return Air CFM Design 49000 CFM Return Air CFM Actual 49843 CFM OA Damper Pos Actual 100 % fi ,3 iIteriData'r RTU -3-41 Filter Bank Filter Manufacturer AAF Filter Type Mini Pleat Filter Quantity 44 Filter Size 16x20x4 RTU -3-4 / Filter Bank Filter Manufacturer AAF Filter Type Pleated Filter Quantity 44 Filter Size 16x25x2 Airiest Co Inc 9 of 47 AIRIEST Co., Inc. Roof Top Unit PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: RTU -3 -5 AREA: Data Center '{'` Unit`Da ta: w y' M 9>,t ... . t... ... Unit Manufacturer McQuay Unit Model Number RDT130DLY Unit Serial Number FBOU100400571 00 RTU -3 -5I Return Fan Fan Type / Class BI RTU -3 -5 / Supply Fan Fan Type I Class AF est Data 1E., -tai 4. .. RTU -3 -5 / Return Fan Fan RPM Design 1070 RPM Fan RPM Actual 1076 RPM Motor RPM Actual 1775 RPM RTU -3 -5 / Supply Fan Fan RPM Design 986 RPM Fan RPM Actual 1041 RPM Motor RPM Actual 1780 RPM w .rte{~ - =rarer , . tin . Electrical,Test Data t- ,r 7' .:,§+�4 'f..J.t?i7'Lf :Y>"l,,,14 :: ?f ',ui..._: r ?iv RTU -3 -5 / Return Fan Final Operating Hz 60 Hz Motor Volts 1 472 Volts Motor Volts 2 474 Volts Motor Volts 3 474 Volts Motor Amps 1 33.9 Amps Motor Amps 2 38.4 Amps Motor Amps 3 37.5 Amps RTU -3 -5 I Supply Fan Final Operating Hz 60 Hz Motor Volts 1 472 Volts Motor Volts 2 474 Volts Motor Volts 3 474 Volts Motor Amps 1 64.2 Amps Motor Amps 2 63.1 Amps Motor Amps 3 63.9 Amps Tested By: Mike Touchette Test Date: July 08, 2010 41 -1 Try y. ia. _..� .:�tt)s Lt MotoreData�r a�er�•,,�";'' i c . .+r.:,,, o^' . 2 , sr* : .ir#.r ".- ,-.xc" RTU -3 -51 Return Fan ' Motor Manufacturer Baldor Motor HP 50 HP Motor RPM 1775 RPM Motor Frame 326T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 57 Amps Motor Service Factor 1.15 VFD Model • Danfoss VLT RTU -3 -5 / Supply Fan Motor Manufacturer Baldor Motor HP 75 HP Motor RPM 1780 RPM Motor Frame 326T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 85.9 Amps Motor Service Factor 1.15 VFD Model Danfoss VLT r"eaveData, RTU -3 -5 / Return Fan Drive Type Belt Belt Size 5VX900 Number of Belts 2 Motor Sheave 2Q5V97 Motor Sheave Bore 2 1/8 (01) in. Fan Sheave 2B5V160 Fan Sheave Bore 2 7/16 (B) in. Sheave Center Line 25 in. RTU -3 -5 / Supply Fan Drive Type Belt Belt Size 5VX830 Number of Belts 3 Motor Sheave • 3B5V94 Motor Sheave Bore 2 3/8 (B) in. Fan Sheave 3B5V160 Fan Sheave Bore 2 3/16 (B) in. Sheave Center Line 21 in. Airtest Co Inc 10 of 47 AIRTEST Co.. Inc. Roof Top Unit PROJECT: Intemap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM/UNIT: RTU -3 -5 (Cont.) Tested By: Mike Touchette AREA: Data Center Test Date: July 08, 2010 est3Pressures4x' External SP Design 1.50 in. we External SP In Actual -1.50 in. wc External SP Out Actual 1.43 in. we Tot. Ext. SP Act. 2.93 in. we RTU -3 -51 Return Fan Inlet SP -.19 in. wc. Discharge SP .48 in. wc. Ext. SP Act. .67 in. wc. RTU -3 -5 / Supply Fan Inlet SP -1.50 in. wc. Discharge SP 1.43 in. wc. Ext. SP Act. 2.93 in. wc. N F�cAlrTest =Data. " Total CFM Design 49000 CFM Total CFM Actual 47190 CFM Outside Air CFM Design 750 CFM Return Air CFM Design 49000 CFM Return Alr CFM Actual 52573 CFM OA Damper Pos Actual 100 . � ,gyp �,. � � d .. Filter_'Data= ; ���• , t `a ..,� RTU -3 -5 I Filter Bank Filter Manufacturer AAF Filter Type Pleated Filter Quantity 44 Filter Size 16x25x2 RTU -3 -5 / Filter Bank Filter Manufacturer AAF Filter Type Mini Pleat Filter Quantity 44 Filter Size 16x20x4 Airtest Co Inc 11 of 47 Co., Inc. �� uu��~ Roof m�e*��o m Unit PROJECT: Intemap Data Center - Phase Ill - Intergate Eas DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM/UNIT: RTU-3-5 (Cont.) AREA: Data Center RTU-3-5 Supply Outlet Summary Tested By: Mike Touchette Test Date: July 08, 2010 * Notes 30-Jun-10 Mike Touchette All outlets were proportioned with a velgrid at supply openings, which is very turbulent. Proportioned with (4) RTU's at 60 HZ. Airtest Co Inc 8*-01^ Phase 3 Data Center Supply Opening 2*x80 11532 1650 12700 110.13 GA-02 Phase 3 Data Center Supply Opening 24 x 60 11532 1850 12*00 107.53 GA-03 Phase 3 Data Center Supply Opening 24 x 60 11532 1990 12400 107.53 SA-04 Phase n Data Center Supply Opening uuxao 11532 18*0 10575 91J0 Gx-05 Phase u Data Center Supply Opening 24 x60 11532 0 11625 100.81 SA-06 Phase3 Data Center Supply Opening o*xeo 11532 2100 11030 95.65 SA-07 Phase 3 Data Center Supply Opening 24 x 60 11532 1800 11*35 99.16 SA-08 Phase3 Data Center Supply Opening u*xeo 11532 1650 10875 94.30 uA-09 Phase u Data Center Supply Opening u*xoo 11532 1650 11810 102.41 e/-10 Phase 3 Data Center Supply Opening 24 x 60 11532 1580 10500 91.05 8A'11 Phase 3 Data Center Supply Opening 24 x 60 11532 1650 10400 90.18 Sx'12 Phase 3 Data Center Supply Opening 24 x 60 11532 1250 10500 91.05 aA'13 Phase n Data Center Supply Opening u*xVo 11*32 1000 10*00 90.18 SA-14 Phase 3 Data Center Supply Opening 24 x 60 11532 1250 10400 90.18 8A'15 Phase 3 Data Center Supply Opening 24 x 60 11532 1280 10*00 91o5 SA-16 Phase3 Data Center Supply Opening u*x*u 11532 1000 12000 10*.06 SA-17 Phase3 Data Center Supply Opening 24 x60 11532 1000 12375 107.31 * Notes 30-Jun-10 Mike Touchette All outlets were proportioned with a velgrid at supply openings, which is very turbulent. Proportioned with (4) RTU's at 60 HZ. Airtest Co Inc AIRIEST Co., Inc. Duct Traverse PROJECT: Intemap Data Center - Phase Ill - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: CRAC -3 -1 AREA: UPS Room Phase 3 Jnit Data Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Filter Bank Velgnd 25 in. 97 in. 1 13.470 sq. ft. 5 5 NOTES: Tested By: Mike Touchette Test Date: July 01, 2010 inal3Data' Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 3648 730 FPM 10250 CFM 9833 CFM 876 -0.28 in. wg. CRAC -3 -1 1- Jul -10 Mike Touchette AK= 16.84' x .85 = 13.47'sq Row I O U O U Duct Traverse Data Points O U leo O U 855 839 787 580 97 fi N Airiest Co Inc 13 of 47 IRTEST Co., Inc. Duct Traverse PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: CRAC -3 -2 AREA: UPS Room Phase 3 nit Data Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Filter Bank Velgrid 25 in. 97 in. 1 13.470 sq. ft. 5 5 NOTES: Tested By: Mike Touchette Test Date: July 01, 2010 ` /Final-Data,; Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 3756 751 FPM 10250 CFM 10116 CFM 880 -0.30 in. wg. Row 1 N 0 V Duct Traverse Data Points 0 a 0 0 V 834 792 T39 97 fi N Airtest Co Inc 14 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: CRAC -3 -3 AREA: UPS Room Phase 3 Unitaata ° Traverse Location Type of Traverse Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Filter Bank Rectangular Velgrid 25 in. 97 in. 1 13.470 sq. ft. 5 5 NOTES: Tested By: Mike Touchette Test Date: July 01, 2010 inal,Data Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 3856 771 FPM 10250 CFM 10385 CFM 877 -0.30 in. wg. Row 1 O V N O V Duct Traverse Data Points a O V 869 1 811 839 1 764 573 1 97 fi N N Airiest Co Inc 15 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Intemap Data Center - Phase Ill - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: CRAC -3-4 AREA: UPS Room Phase 3 Traverse Location Type of Traverse Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Filter Bank Rectangular Velgrid 25 in. 97 in. 1 13.470 sq. ft. 5 5 NOTES: Tested By: Mike Touchette Test Date: July 01, 2010 MFnalData Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 3694 739 FPM 10250 CFM 9954 CFM 876 -0.27 in. wg. Row 9 O V N O V Duct Traverse Data Points O v uo 789 698 566 97 fi N N Airtest Co Inc 16 of 47 AIRTEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: RTU -3 -1 (OSA) AREA: Data Center x:. ?{Unit Data Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular OSA Louver Velgrid 84 in. 120 in. 6 57.200 sq. ft. 5 30 NOTES: Tested By: Mike Touchette Test Date: July 02, 2010 Final'D Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 24870 829 FPM 49000 CFM 47419 CFM 1041 -1.45 in. wg. RTU -3 -1 (OSA) 30- Jun -10 Mike Touchette OSA louver 84" x 60"= 35' sq AK =28.6' 28.6' x 2 each = 57.2' sq 0 n Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 Duct Traverse Data Points '1 df t► 'o 0 v v c) 4D 0 752 959 1410 817 578 910 674 1072 1289 924 898 840 444 894 669 928 1247 L 533 626 591 529 935 m 498 1082 500 841 874 412 120 a O Airiest Co Inc 17 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: RTU -3 -1 (Return) AREA: Data Center Unittt Dai Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Duct Area Number of Rows Readings Per Row Total Readings Rectangular Return Opening Velgrid 60 in. 102 in. 42.500 sq. ft. 3 2 6 NOTES: Tested By: Mike Touchette Test Date: June 29, 2010 FinalDat Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 6805 1134 FPM 49000 CFM 48195 CFM 1076 -0.18 in. wg. Row 1 Row 2 Row 3 Duct Traverse Data Points r 0 V N 0 C.) 1208 1198 1050 1184] 1092 1077 102 m Airtest Co Inc 18 of 47 AIRTEST Co.. Inc. Duct Traverse PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: RTU -3 -2 (OSA) AREA: Data Center :Unit Data Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular OSA Louver Velgrid 84 in. 120 in. 6 57.200 sq. ft. 5 30 NOTES: Tested By: Mike Touchette Test Date: July 01, 2010 Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 24525 818 FPM 49000 CFM 46790 CFM 1041 -1.57 in. wg. RTU -3 -2 (OSA) 1- Jul -10 Mike Touchette OSA louver 84" x 60 "= 35' sq AK =28.6' 28.6' x 2 each = 57.2' sq O V Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 N O V Duct Traverse Data Points n O D V w O V T77 1244 612 589 854 695 930 1388 819 854 EMI 931 933 1149 798 692 686 1212 540 787 1059 425 901 412 120 00 Airiest Co Inc 19 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU -3 -2 (Return) AREA: Data Center nit:Data GS ".,.1+".:,137" Traverse Location Type of Traverse Test Instrument Used Outer Height Outer Width Duct Area Number of Rows Readings Per Row Total Readings Return Opening Rectangular Velgrid 60 in. 102 in. 42.500 sq. ft. 3 2 6 NOTES: Tested By: Mike Touchette Test Date: June 29, 2010 inaIData Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 6996 1166 FPM 49000 CFM 49555 CFM 1076 -0.17 in. wg. Row 1 Row 2 Row 3 Duct Traverse Data Points O V 0 v 1255 1207 1051 1280 1200 1003 102 0 Airiest Co Inc 20 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU -3 -3 (OSA) AREA: Data Center nitData Traverse Location Type of Traverse Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings OSA Louver Rectangular Velgrid 84 in. 120 in. 6 57.200 sq. ft. 5 30 NOTES: Tested By: Mike Touchette Test Date: July 01, 2010 inal"Data Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 25601 853 FPM 49000 CFM 48792 CFM 1041 -1.89 in. wg. RTU -3 -3 (OSA) 1- Jul -10 Mike Touchette OSA louver 84" x 60 "= 35' sq AK =28.6' 28.6' x 2 each = 57.2' sq O 0 Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 N O V Duct Traverse Data Points as O v c1 O v 963 984 1115 420 678 1031 649 1137 1041 545 748 1193 416 1194 612 1175 474 1189 889 761 687 1308 582 999 912 1081 120 OD Airtest Co Inc 21 of 47 AIRTEST Co., Inc. Duct Traverse PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: RTU -3 -3 (Return) AREA: Data Center Jnit {Data' Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Return Opening Velg rid 60 in. 102 in. 3 42.500 sq. ft. 2 6 NOTES: Tested By: Mike Touchette Test Date: June 29, 2010 inal Da Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 6780 1130 FPM 49000 CFM 48025 CFM 1076 -0.16 in. wg. Row 1 Row 2 Row 3 Duct Traverse Data Points O V N O V 1207 1062 1235 1169 983 102 Airiest Co Inc 22 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU -3 -4 (OSA) AREA: Data Center nit, Data Traverse Location Type of Traverse Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings OSA Louver Rectangular Velgrid 84 in. 120 in. 6 57.200 sq. ft. 5 30 NOTES: Tested By: Mike Touchette Test Date: July 02, 2010 maKlataa Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 26079 869 FPM 49000 CFM 49707 CFM 1041 -1.52 in. wg. RTU -3-4 (OSA) 1- Jul -10 Mike Touchette OSA louver 84" x 60 "= 35 sq AK =28.6' 28.6'x2 each = 57.2'sq O V Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 Duct Traverse Data Points d 1) O C) O V 1140 312 874 501 945 989 488 1130 844 454 1002 501 1019 991 611 1177 Ern 544 1159 1107 787 1181 634 1152 1256 1023 1202 120 m Airtest Co Inc 23 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase Ill - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: RTU -3-4 (Return) AREA: Data Center UnitiData Traverse Location Type of Traverse Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Return Opening Rectangular Velgrid 60 in. 102 in. 3 42.500 sq. ft. 2 6 NOTES: Tested By: Mike Touchette Test Date: June 29, 2010 Final; a ..;,6f7'.; t... Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 7040 1173 FPM 49000 CFM 49853 CFM 1076 -0.19 in. wg. Row 1 Row 2 Row 3 Duct Traverse Data Points O V N O 1188 1202 1199 1198 1205 1048 102 0 m Airiest Co Inc 24 of 47 AIRTES T Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU -3 -5 (OSA) AREA: Data Center r, Unit ;Datax.:; Traverse Location Type of Traverse Test Instrument Used Outer Height Outer Width Duct Area Number of Rows Readings Per Row Total Readings OSA Louver Rectangular Velgrid 84 in. 120 in. 57.200 sq. ft. 6 5 30 NOTES: Tested By: Mike Touchette Test Date: July 02, 2010 inal €Data. :tiY.''^•` CFA- '64 -!ti Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 24762 825 FPM 49000 CFM 47190 CFM 1041 -1.50 in. wg. RTU -3 -5 (OSA) 1- Jul -10 Mike Touchette OSA louver 84" x 60 "= 35 sq AK =28.6' 28.6' x 2 each = 57.2' sq I- O V Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 Duct Traverse Data Points N h 5 5 0 0 v w O O 752 959 1410 817 578 919 J 674 1072 1289 924 898 823 444 894 669 928 1247 477 626 591 529 935 1294 454 850 1082 500 841 874 KIM 120 a Airiest Co Inc 25 of 47 AIRTEST Co.. Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU -3 -5 (Return) AREA: Data Center nit Data:, : Traverse Location Type of Traverse Test Instrument Used Outer Height Outer Width Duct Area Number of Rows Readings Per Row Total Readings Return Opening Rectangular Velgrid 30 in. 204 in. 42.500 sq. ft. 1 7 7 NOTES: Tested By: Mike Touchette Test Date: June 29, 2010 • Firial,Dat ;a> Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 8659 1237 FPM 49000 CFM 52573 CFM 1076 -0.19 in. wg. Rawl Duct Traverse Data Points •- N P! V a f0 O O O 5 O 5 N O a 646 1073 1303 1541 1638 204 0 P! i Airtest Co Inc 26 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: RTU's outlet (4) AREA: Data Center • 'Unit ?Data Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Supply Duct Pitot -Tube 24 in. 60 in. 4 10.000 sq. ft. 10 40 NOTES: Tested By: Mike Touchette Test Date: July 06, 2010 FinalZata Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 45260 1132 FPM 11532 CFM 11320 CFM 1041 0.55 in. wg. Row Row Row Row 4 Duct Traverse Data Points w A v w m ti CO 0 0 1049 1033 f 1087 1054 1021 1035 1189 1099 986 1008 LEI m 1085 1041 1123 1335 1079 1145 1204 1114 1087 1101 1229 [1057 1135 1085 1314 1118 1199 1003 1380 1089 1088 1298 1209 60 1 1 N Airiest Co Inc 27 of 47 AIRTEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU's outlets (12 -15) AREA: Data Center YUnit ?Data Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Supply Duct Pitot -Tube 48 in. 80 in. 8 26.667 sq. ft. 8 64 NOTES: Tested By: Mike Touchette Test Date: July 06, 2010 S Final Data}' Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 102513 1602 FPM 46128 CFM 42721 CFM 1041 0.30 in. wg. • H o o o v Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 Row 7 Row 8 Duct Traverse Data Points a w 95 0 '5 '5 o o rJ 0 V 0 1679 1695 1601 18119 1743 1342 1920 19541 1387 1566 EMI 1793 1826 1606 1787 1845 1426 1655 1701 1603 1899 1899 1363 1665 1456 1369 1556 1621 1609 1685 1381 1376 1323 1342 1489 1604 1831 1395 EI 1369 1659 1743 1663 1921 14641 1398 1385 1566 1658 1398 1801 1906 1333 1331 1287 KIM 1603 1427 15991 1783 so J OD Airiest Co Inc 28 of 47 AIRIEST Co.. Inc. Duct Traverse PROJECT: Internap Data Center - Phase Ill - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU's outlets (16 -17) AREA: Data Center UnitiD'ata Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Supply Duct Pitot -Tube 36 in. 54 in. 9 13.500 sq. ft. 6, 54 NOTES: Tested By: Mike Touchette Test Date: July 06, 2010 Final ;Data Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 90213 1671 FPM 23064 CFM 22559 CFM 1041 0.45 in. wg. Row 1 Row 2 Row 3 Row 4 Row Row 6 Row 7 Row 8 Row 9 Duct Traverse Data Points O IO O CD O 1587 1669 1842 1855 1707 1835 1688 1452 1852] 1808 1895 1502 1571 1718 1720 1687 1827 EI 1584 1850 Ell 1585 1635 1703 1495 1899 1870 1855 EMI 1597 1561 1478 1549 1532 1871 1852 1698 EEO 1667 1511 x1717 1614 1717 1523 1557 1512 1597 1495 1534 1440 54 A Airiest Co Inc 29 of 47 AIRTEST Co.. Inc. Duct Traverse PROJECT: Intemap Data Center - Phase Ill - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: r N P! 1p SYSTEM /UNIT: RTU's outlets (6 -7) AREA: Data Center nit Data: Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Supply Duct Pitot -Tube 36 in. 54 in. 9 13.500 sq. ft. 6 54 NOTES: Tested By: Mike Touchette Test Date: July 09, 2010 inaI Data ' Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 95299 1765 FPM 23064 CFM 23828 CFM 1041 0.51 in. wg. Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 Row 7 Row 8 Row 9 Duct Traverse Data Points CD O O O O O O 1957 2499 1892 EI 2036 1889 1722 2090 2008 ci 2013 1398 1505 1797 1716 2074 1533 1741 2158 1562 1764 1859 2015 1843 1935 1529 1381 1312 1843 LEI 1870 1785 1443 16271 1457 1497 1473 1601 1827 KIM 1992 1451 2354 1662 1685 1611 1687 1729 1821 54 Airtest Co Inc 30 of 47 AIRTEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: RTU's outlets (8-11) AREA: Data Center Unit Data Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Supply Duct Pitot Tube 48 in. 80 in. 8 26.667 sq. ft. 8 64 NOTES: Tested By: Mike Touchette Test Date: July 06, 2010 • ,4,1/4.•41.47inaliwata•-•0&, Sum of Readings 105985 Average Reading (FPM) 1656 FPM Design Total Flow (CFM) 46129 CFM Actual Total Flow (CFM) 44161 CFM Fan RPM 1041 Static Pressure 0.41 in. wg. Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 Row 7 Row 8 Duct Traverse Data Points ra • vs• CO Tr "6 1725 1623 1599 1604 1810 2024 2019 ism] 1762 1489 1544 1513 1 1561 1883 2038 czi 1747 1466 1537 1459 1595 1830 1588 1345 1541 1576 1783 1515 1547 1277 1605 1499 1543 1701 1774 1607 1260 1478 1736 EI 1717 EMI 1649 1590 [1497 1889 1687 1526 1817 SIM 1908 1868 1789 16tH 80 00 Airtest Co Inc 31 of 47 AIRTEST Co., Inc. Duct Traverse PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: TF -3T -1 AREA: Transformer Room nitiData Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Discharge Duct Velgrid 26 in. 36 in. 2 5.850 sq. ft. 3 6 NOTES: Tested By: Mike Touchette Test Date: July 01, 2010 inal2Data 4 , Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 5865 978 FPM 5500 CFM 5721 CFM 502 -0.01 in. wg. TF -3T -1 1- Jul -10 Mike Touchette AK =6.5' x .9 = 5.85'sq Row 1 Row 2 Duct Traverse Data Points r O to O V 1027 S60 936 912 1036 1014 36 m Airtest Co Inc 32 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM/UNIT: TF -3T -2 AREA: Transformer Room nit:Dat Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Rectangular Discharge Duct Velg rid 26 in. 36 in. 2 5.850 sq. ft. 3 6 NOTES: Tested By: Mike Touchette Test Date: July 01, 2010 Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 5690 948 FPM 5500 CFM 5546 CFM 506 -0.01 in. wg. TF -3T -2 1- Jul -10 Mike Touchette AK =6.5' x .9 = 5.85'sq Row 1 Row 2 O ii Duct Traverse Data Points N O 0 1050 MO 944 0 1031 978 I 36 1 CD N Airtest Co Inc 33 of 47 AIRIEST Co., Inc. Duct Traverse PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: TF -3U -1 AREA: UPS Room Phase 3 nit 'Data Type of Traverse Traverse Location Test Instrument Used Outer Height Outer Width Duct Area Number of Rows Readings Per Row Total Readings Rectangular Discharge Duct Pitot -Tube 24 in. 46 in. 7.667 sq. ft. ' 8 4 32 NOTES: Tested By: Mike Touchette Test Date: June 30, 2010 inalhData Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 59863 1871 FPM 13000 CFM 14345 CFM 758 0.08 in. wg. O 0 Row I Row 2 Row 3 Row 4 Row 5 Row 6 Row 7 Row 8 Duct Traverse Data Points N O V O V O n 3802 1805 843 1578 2226 3077 1504 1146 834 SEM 772 1323 1896 2622 2056 1879 1317 1584 1W 2288 2506 2887 2219 2397 2672 2662 46 1 N Ainest Co Inc 34 of 47 AIRTEST Co., Inc. Duct Traverse PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: TF -3U -2 AREA: UPS Room Phase 3 nit?Data Traverse Location Type of Traverse Test Instrument Used Outer Height Outer Width Number of Rows Duct Area Readings Per Row Total Readings Discharge Duct Rectangular Pitot -Tube 24 in. 46 in. 8 7.670 sq. ft. 4 32 NOTES: Tested By: Mike Touchette Test Date: June 30, 2010 FinaIDatah Sum of Readings Average Reading (FPM) Design Total Flow (CFM) Actual Total Flow (CFM) Fan RPM Static Pressure 56041 1751 FPM 13000 CFM 13430 CFM 761 0.08 in. wg. 0 c, Row 1 Row 2 Row 3 Row 4 Row 5 Row 6 Row 7 Row 8 Duct Traverse Data Points N 0 C.) h 0 C) 0 u 2755 2006 2547 1887 2318 2659 2706 2995 2446 1196 2034 Ell 1372 1453 1618 2560 2301 912 768 969 970 2097 2500 1465 1924 1445 11601 936 1501 801 46 • N Airiest Co Inc 35 of 47 AIRTEST Co.. Inc. Fan Coil PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: CRAC -3 -1 AREA: UPS Room Phase 3 pr �t � .I�n it:Data y ^ . • .,..:s •. ut :,My;r•.. ..-;tr.: 1 -ac's ..1 Unit Location UPS Room Phase 3 Unit Manufacturer Stulz Unit Model Number VFS- 240 -DG -D Unit Serial Number 10190035 Unit Serves UPS Room Motor Manufacturer Baldor Motor HP 5 Motor RPM 1750 RPM Motor Frame 184T Motor Rated Volts 460 Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 6.6 Amps Motor Service Factor 1.15 xTest Datar.,�,n stir. Fan RPM Actual 876 RPM External SP Design .5 in. wc. SP Inlet Actual -.28 in. wc. SP Outlet Actual .27 in. wc. External SP Actual .55 in. wc. y x rt 'Electrical Test .Data �t.`_?�•::a.: :... �:� ...e,. r. ?pax � � �°-,�'., Drive Type Belt Drive Motor Sheave Model 2VP60 @ mid Motor Sheave Bore 1 1/8 in. Fan Sheave Model 2BK110H Fan Sheave Bore 1 3/16 (H) in. Belt Quantity 2 Belt Size B46 Sheave Center Line 11.5 in. Motor Volts T1 -T2 476 Volts Motor Volts T2 -T3 477 Volts Motor Volts T1 -T3 477 Volts Amps T1 6.6 Amps Amps T2 6.6 Amps Amps T3 6.7 Amps * Notes Tested By: Mike Touchette Test Date: July 09, 2010 't .y ', r ya t ---04,,y,--,-•,,,..!,!,v:, : . g�sr# • >m' ., MotorpData � b x a Motor Manufacturer Baldor Motor HP 5 Motor RPM 1750 RPM Motor Frame 184T Motor Rated Volts 460 Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 6.6 Amps Motor Service Factor 1.15 ` . ' K,hea'Xve :Da r�A E ,d: y Drive Type Belt Drive Motor Sheave Model 2VP60 @ mid Motor Sheave Bore 1 1/8 in. Fan Sheave Model 2BK110H Fan Sheave Bore 1 3/16 (H) in. Belt Quantity 2 Belt Size B46 Sheave Center Line 11.5 in. .. ,k. t -,:',S �M ji Air Test Datad t ,, ..,,,,. . 3r ... �'i Total Fan CFM Design 10250 CFM Total Fan CFM Act. 9833 CFM Filter Data Filter Manufacturer AmAir Filter Type Pleated Filter Qty - S1 5 Filter Size - S1 20x25x4 CRAC -3 -1 1- Jul -10 Mike Touchette Coil Pressures 67.8 PSI Entering 52.9 PSI Leaving Airiest Co Inc 36 of 47 AIRIEST Co., Inc. Fan Coil PROJECT: Internap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM /UNIT: CRAC -3 -2 AREA: UPS Room Phase 3 \ r Tt 1p+c '✓' 4i..i 'd ai I x ? , %� Urnt Data'o r ,,� ,c ..,+sar�r '°?Ar.51t .� .� ytc . ?ae3.x..,, cw, :,,,,..e •".w ;..,.:�+n.. Iat,.. Unit Location UPS Room Phase 3 Unit Manufacturer Stutz Unit Model Number VFS- 240 -DG -D Unit Serial Number 10190037 Unit Serves UPS Room Drive Type Belt Drive Motor Sheave Model 2VP60 @ mid Motor Sheave Bore 1 1/8 in. Fan Sheave Model 2BK110H Fan Sheave Bore 1 3/16 (H) in. Belt Quantity 2 Belt Size B46 Sheave Center Line 11.5 in. es a"�.. Tt Da a Total Fan CFM Design 10250 CFM Total Fan CFM Act. 10116 CFM Fan RPM Actual 880 RPM External SP Design .5 in. wc. SP Inlet Actual -.30 in. wc. SP Outlet Actual .22 in. wc. External SP Actual .52 in. wc. Filter Manufacturer AmAir Filter Type Pleated Filter Qty - S1 5 Filter Size - S1 20x25x4 ElectircaI tTe'st Data, .b,-,%taiBlt- .:s.:( ;1, ..... _. . � ... .., - ,.{iY,....Lk' ..i Motor Volts T1 -T2 476 Volts Motor Volts T2 -T3 477 Volts Motor Volts T1 -T3 477 Volts Amps T1 6.5 Amps Amps T2 6.6 Amps Amps T3 6.6 Amps * Notes Tested By: Mike Touchette Test Date: July 09, 2010 • y - * r tonData o 4 � ` �} _ `/��. :+ ,. .. tv..; t.... J ... _..o-%�.!"(�'.ti..�n�+ Motor Manufacturer Baldor Motor HP 5 Motor RPM 1750 RPM Motor Frame 184T Motor Rated Volts 460 Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 6.6 Amps Motor Service Factor 1.15 Sheave Data ` `� r,..,,,i,x. 'i er.. n�firy Drive Type Belt Drive Motor Sheave Model 2VP60 @ mid Motor Sheave Bore 1 1/8 in. Fan Sheave Model 2BK110H Fan Sheave Bore 1 3/16 (H) in. Belt Quantity 2 Belt Size B46 Sheave Center Line 11.5 in. s,,w a4 7} x :ia., •+ar... ce "s*'Sb`�:z "m - -.i ','%.� ks- p�'i..:c Air Test Data Total Fan CFM Design 10250 CFM Total Fan CFM Act. 10116 CFM Y k7" f r ,,,, i; j u,Fllter=Data.g ,;� .; �%�'.R��J`L Filter Manufacturer AmAir Filter Type Pleated Filter Qty - S1 5 Filter Size - S1 20x25x4 CRAC -3 -2 1- Jul -10 Mike Touchette Coil Pressures 67.7 PSI Entering 52.4 PSI Leaving Airtest Co Inc 37 of 47 AIRTEST Co., Inc. Fan Coil PROJECT: Internap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM/UNIT: CRAC -3 -3 AREA: UPS Room Phase 3 m 1,Umt Data A' �^ u M :g. ".�c �r�pt..i'ti7 - :F.#,rk ..9f'. a. , 5,.t.:':.r;.a_ Unit Location Unit Manufacturer Unit Model Number Unit Serial Number Unit Serves UPS Room Phase 3 Stulz VFS- 240 -DG -D 10190038 UPS Room Y� ^Test Data' :': ....i- .....y ....- .. kc � ?$Y. .,e..IFY :�.. Fan RPM Actual External SP Design SP Inlet Actual SP Outlet Actual External SP Actual 877 RPM ..5 in. wc. -.30 in. wc. .25 in. wc. .55 in. wc. ..r aa�.,. 4 ✓ ''?'}"Y h F % y � -if°° >,r Electrical Test Data Motor Volts T1 -T2 Motor Volts T2 -T3 Motor Volts T1 -T3 Amps T1 Amps T2 Amps T3 475 Volts 475 Volts 476 Volts 6.4 Amps 6.4 Amps 6.5 Amps Notes Tested By: Mike Touchette Test Date: July 09, 2010 CRAC -3 -3 1- Jul -10 Mike Touchette Coil Pressures 68.1 PSI Entering 51.1 PSI Leaving Airtest Co Inc 38 of 47 j# r.¢Data oto ',,,, x.. •;:.9 i .■.h �.,.. _��.. Motor Manufacturer Baldor Motor HP 5 Motor RPM 1750 RPM Motor Frame 184T Motor Rated Volts 460 Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 6.6 Amps Motor Service Factor 1.15 •{TUw Y t4 N'Y'ay,p } Sheave > >Datas ri i ^b x Drive Type Belt Drive Motor Sheave Model 2VP60 @ mid Motor Sheave Bore 1 1/8 in. Fan Sheave Model 2BK110H Fan Sheave Bore 1 3/16 (H) in. Belt Quantity 2 Belt Size B46 Sheave Center Line 11.5 in. ir TestData��'.y:� ..,..,„,44,4,,,,,,,. ., te. . !.: Total Fan CFM Design 10250 CFM Total Fan CFM Act. 10385 CFM a a'�F -iIter Data ,.1 Filter Manufacturer AmAir Filter Type Pleated Filter Qty - S1 5 Filter Size - S1 20x25x4 CRAC -3 -3 1- Jul -10 Mike Touchette Coil Pressures 68.1 PSI Entering 51.1 PSI Leaving Airtest Co Inc 38 of 47 AIRIEST Co.. Inc. Fan Coil PROJECT: Internap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM /UNIT: CRAC -3-4 AREA: UPS Room Phase 3 * Notes Tested By: Mike Touchette Test Date: July 09, 2010 ..:,"t+;5,i9 411P:, � Motor Data f ; F, . nitiDatai. :f. Unit Location UPS Room Phase 3 Unit Manufacturer Stutz Unit Model Number VFS- 240 -DG -D Unit Serial Number 10190036 Unit Serves UPS Room r u1 Nest Data { Fan RPM Actual 876 RPM External SP Design .5 in. wc. SP Inlet Actual -.27 in. wc. SP Outlet Actual .25 in. wc. External SP Actual .52 in. wc. z i ruyIi: CxCzbg1�3 • Electrical Test Data .^r Motor Volts T1 -T2 477 Volts Motor Volts T2 -T3 479 Volts Motor Volts T1 -T3 477 Volts Amps T1 6.4 Amps Amps T2 6.5 Amps Amps T3 6.6 Amps * Notes Tested By: Mike Touchette Test Date: July 09, 2010 ..:,"t+;5,i9 411P:, � Motor Data f ; F, . Motor Manufacturer Baldor Motor HP 5 Motor RPM 1750 RPM Motor Frame 184T Motor Rated Volts 460 Motor Phase 3 Motor Her 60 Hz Motor FL Amps 6.6 Amps Motor Service Factor 1.15 E(, t ?+p ai - '1%';, k i i><� "� p �u i t $heaveData �+"° . .^r .', •J';+, Drive Type Belt Drive Motor Sheave Model 2VP60 © mid Motor Sheave Bore 1 1/8 in. Fan Sheave Model 2BK110H Fan Sheave Bore 1 3/16 (H) in. Belt Quantity 2 Belt Size B46 Sheave Center Line 11.5 in. Air TestFData & .. .. ;i, Srt ., a. { < Total Fan CFM Design 10250 CFM Total Fan CFM Act. 9954 CFM 4 fir l FiltercData Ey. � . .. .d ..! -x..... -. d,. • Filter Manufacturer AmAir Filter Type Pleated Filter Qty - S1 5 Filter Size - S1 20x25x4 CRAC -3-4 1- Jul -10 Mike Touchette Coil Pressures 67.2 PSI Entering 51.5 PSI Leaving Airiest Co Inc 39 of 47 AI.RTEST Co., Inc. Fan Unit PROJECT: Internap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM/UNIT: TF -3T -1 AREA: Phase 3 Transformer Room 4 ` " Untt,Datar nS . zt ?. ,ea .x..,v):'•...e .,' id•¢.{,3',.„i,i +,^.'.,YP 3 ":� w.'. N 4 Unit Location 1st Floor Unit Serves Transformer Room Unit Manufacturer Greenheck Model Number BDF- 180- 20 -BH -X Serial Number 12053695 1004 Fan Type / Class FC y c su . ,.wx ,,,I, Test Datk, Fan RPM Design 629 RPM Fan RPM Actual 502 RPM External SP Design 1.0 in. wc SP In Actual -0.01 in. wc SP Out Actual 0.22 in. wc External SP Actual 0.23 in. wc • a�.. - Electrical TestiData Ys!'6a nit, t,.. ,:1,41:, s 440.r,i;.' Final Operating Hz 48 Hz Motor Volts 1 460 Volts Motor Volts 2 460 Volts Motor Volts 3 460 Volts Motor Amps 1 2.4 Amps Motor Amps 2 2.4 Amps Motor Amps 3 2.4 Amps * Notes Tested By: Mike Touchette Test Date: July 01, 2010 r , -- kr wa4-? a��Motor.Data i s ∎, Motor Manufacturer Baidor Motor HP 2 HP Motor RPM 1725 RPM Motor Frame 145T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 2.7 Amps Motor Service Factor 1.15 VFD Model ABB Sheave`Data Drive Type Belt Motor Sheave 1 VP40 @ mid Motor Sheave Bore 7/8 in. Fan Sheave AK84 Fan Sheave Bore 1 in. Belt Size AX63 Belt Quantity 1 Sheave Center Line 22 in. x. -s "1�;,�'isy lr Test,Datak. 4 � Total Fan CFM Des. 5500 CFM Total Fan CFM Act. 5721 CFM Aiitest Co Inc 40 of 47 AIRIEST Co., Inc. Fan Unit PROJECT: Internap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: TF -3T -2 AREA: Phase 3 Transformer Room ��,9,�� � i'." NifY Ji ticd�L��1, '. 4 �6�+. K, A .w ": �..:.U:ec {.Un tpaita.�'1 r;,'.3i..0 R.'- f, }vr °„1.'y Unit Location 1st Floor Unit Serves Transformer Room Unit Manufacturer Greenheck Model Number BDF- 180- 20 -BH -X Serial Number 12053696 1004 Fan Type / Class FC *yy s x Test {Dtai5,µ, Fan RPM Design 629 RPM Fan RPM Actual 506 RPM External SP Design 1.0 in. wc SP In Actual -0.01 in. wc SP Out Actual 0.21 in. wc External SP Actual 0.22 in. wc Electrical,Test Data at-*' >c., V.!.: At ....1_.4,> Final Operating Hz 48 Hz Motor Volts 1 460 Volts Motor Volts 2 460 Volts Motor Volts 3 460 Volts Motor Amps 1 2.4 Amps Motor Amps 2 2.4 Amps Motor Amps 3 2.4 Amps * Notes Tested By: Mike Touchette Test Date: July 01, 2010 Airiest Co Inc 41 of 47 .,?+. -.a:J: < ^y d xN. .b. ,ri rMotor Data: ! 'gip' Motor Manufacturer Baldor Motor HP 2 HP Motor RPM 1725 RPM Motor Frame 145T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 2.7 Amps Motor Service Factor 1.15 VFD Model ABB s y t p r f. 7'r 8. u fi �� =y '4Shgave.; a r 1 * 8 Drive Type Belt Motor Sheave 1VP40 © mid Motor Sheave Bore 7/8 in. Fan Sheave AK84 Fan Sheave Bore 1 in. Belt Size AX63 Belt Quantity 1 Sheave Center Line 22 in. Alr Test Data Total Fan CFM Des. 5500 CFM Total Fan CFM Act. 5546 CFM Airiest Co Inc 41 of 47 AIRIEST Co.. Inc. Fan Unit PROJECT: Internap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM/UNIT: TF -3U -1 AREA: Phase 3 UPS Room Economizer m4 N' Y•Q kP • f` gir4(y,+..S. UnitiData a a. Unit Location 1st Floor Unit Serves UPS Room Unit Manufacturer Greenheck Model Number BDF- 200 - 100 -BH -X Serial Number 12053699 1004 Fan Type I Class FC ,e; ,.. iTestData a3 o. Fan RPM Design 746 RPM Fan RPM Actual 758 RPM External SP Design 1.25 in. wc SP In Actual -0.32 in. wc SP Out Actual 0.13 in. wc External SP Actual 0.45 in. wc t u x Ele' ail calrTest Data' a,.,3>...S.,n .t...i-214.2."e2Ad,. .. "a >r,.;ft ^'.r a.'�J n Final Operating Hz 60 Hz Motor Volts 1 460 Volts Motor Volts 2 460 Volts Motor Volts 3 460 Volts Motor Amps 1 12.4 Amps Motor Amps 2 12.4 Amps Motor Amps 3 12.4 Amps * Notes Tested By: Mike Touchette Test Date: June 30, 2010 �..f a• e mMotor Dataxk it.7, a`^ A - . .2..... EiY v +•J ,i,..R.w .,,,,a,/,;,..„ 55i `tT•k.. Motor Manufacturer Baldor Motor HP 10 HP Motor RPM 1770 RPM Motor Frame 215T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 12.5 Amps Motor Service Factor 1.15 VFD Model ABB T,,,;°gcsr ,yy,;,„ ? y Sheave. a �"d," y*y� Drive Type Belt Motor Sheave 2VP7.0 @ mid Motor Sheave Bore 1 3/8 in. Fan Sheave 2AK14.0 Fan Sheave Bore 1 7/16 (Q) in. Belt Size AP87 Belt Quantity 2 Sheave Center Line 28.5 in. n 4.., ' Alr Test DatafA Total Fan CFM Des. 13000 CFM Total Fan CFM Act. 14345 CFM Airiest Co Inc 42 of 47 AIRTEST Co., Inc. Fan Unit PROJECT: Intemap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM /UNIT: TF -3U -2 AREA: Phase 3 UPS Room Economizer Notes Tested By: Mike Touchette Test Date: June 30, 2010 .•+R / Yf,, " S' "` ..4,,,i.', ske•.. ;,r l t Motor Data. $ . f 9e .✓,,..,..o d. . "a '''�"".'9iR^r fi• , T. .w „,N '•� w np 9k° „ta7+xY t • "t Uiiit�`Data, ", ,Z 4 y (Sheave Data > ; .. ..... .J b �h %J1i� .:'A..<A®...A.'4... ..!•l'.iq; ^t .. .. 4 ..v^`li>i&.'•� Unit Location 1st Floor Unit Serves UPS Room Unit Manufacturer Greenheck Model Number BDF- 200 - 100 -BH -X Serial Number '12053698 1004 Fan Type / Class FC , AiriTestnata .U. - � ,. �+� , �r �,.'�"e•'"yi a'7 deo �r Fr7'. � ", ax a- Nest Data x P Fan RPM Design 746 RPM Fan RPM Actual 761 RPM External SP Design 1.25 in. wc SP In Actual -0.3 in. wc SP Out Actual 0.11 in. we External SP Actual 0.41 in. wc �',• • • atr *�+r� r: , :; Electrical Test Data r 'r> •k .,.._4. 'EF 7 +�*e1.tff., -fi u bht dr : ;rXi wdr6'sR83.ej t ` Final Operating Hz 60 Hz Motor Volts 1 460 Volts Motor Volts 2 460 Volts Motor Volts 3 460 Volts Motor Amps 1 12.2 Amps Motor Amps 2 12.2 Amps Motor Amps 3 12.2 Amps Notes Tested By: Mike Touchette Test Date: June 30, 2010 .•+R / Yf,, " S' "` ..4,,,i.', ske•.. ;,r l t Motor Data. $ . f 9e .✓,,..,..o d. . "a '''�"".'9iR^r fi• , T. .w Motor Manufacturer Baldor Motor HP 10 HP Motor RPM 1770 RPM Motor Frame 215T Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 12.5 Amps Motor Service Factor 1.15 VFD Model ABB 4 y (Sheave Data > ; .. ..... .J b �h %J1i� .:'A..<A®...A.'4... ..!•l'.iq; ^t .. .. 4 ..v^`li>i&.'•� Drive Type Belt Motor Sheave 2VP7.0 @ mid Motor Sheave Bore 1 3/8 in. Fan Sheave 2AK14.0 Fan Sheave Bore 1 7/16 (Q) in. Belt Size AP87 Belt Quantity 2 Sheave Center Line 28.5 in. , AiriTestnata .U. Total Fan CFM Des. 13000 CFM Total Fan CFM Act. 13430 CFM Airiest Co Inc 43 of 47 AIRTEST Co., Inc. Fan Unit PROJECT: Intemap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM/UNIT: TF -S -1 AREA: Phase 3 Switchgear Room * Notes Tested By: Mike Touchette Test Date: July 01, 2010 ':M1: J: `"rl.R'V '.M• -qV:( otor Datay .>... ..H .f. '11 / �i v�.�,.� .A'i'`•'4X$+.SH ,,aUrnt Data' "��� ,, Motor Manufacturer Baldor Motor HP .75 HP Motor RPM 1725 RPM Motor Frame 56 Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 1.5 Amps Motor Service Factor 1.25 VFD Model ABB Unit Location 1st Floor Unit Serves Switchgear Room Unit Manufacturer Greenheck Model Number BCF -206 -7 Serial Number 12053701 1004 Fan Type / Class FC �.� Drive Type Belt Motor Sheave 1VP40 @ mid Motor Sheave Bore 5/8 in. Fan Sheave AK27 Fan Sheave Bore 3/4 in. Belt Size AP26 Belt Quantity 1 Sheave Center Line 9.25 in. r t Test Data i r T est Data .:.., �aa$^Xy.'�',�.�.'�. �12��....•7.:!:. Fan RPM Design 2304 RPM Fan RPM Actual 2322 RPM External SP Design 1.0 in. we T nor wa li a'3i - .ne a+ � ElectrlcalyTest Data^` a 4,,,, 2.:.i. =.,. .,<,.;,1,. r .t •: x'Y9 +•: .... . -A.i2 Final Operating Hz 55 Hz Motor Volts 1 472 Volts Motor Volts 2 473 Volts Motor Volts 3 474 Volts Motor Amps 1 1.5 Amps Motor Amps 2 1.5 Amps Motor Amps 3 1.5 Amps * Notes Tested By: Mike Touchette Test Date: July 01, 2010 ':M1: J: `"rl.R'V '.M• -qV:( otor Datay .>... ..H .f. :(Z .h.` J.AKMni Motor Manufacturer Baldor Motor HP .75 HP Motor RPM 1725 RPM Motor Frame 56 Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 1.5 Amps Motor Service Factor 1.25 VFD Model ABB d uve ata eave +u Sh D '� W � �.� Drive Type Belt Motor Sheave 1VP40 @ mid Motor Sheave Bore 5/8 in. Fan Sheave AK27 Fan Sheave Bore 3/4 in. Belt Size AP26 Belt Quantity 1 Sheave Center Line 9.25 in. i r T est Data .:.., �aa$^Xy.'�',�.�.'�. �12��....•7.:!:. Total Fan CFM Des. 1200 CFM Total Fan CFM Act. 1120 CFM TF -S -1 1- Jul -10 Mike Touchette No access to duct for static pressure readings. Airiest Co Inc 44 of 47 AIRTEST Co., Inc. Fan Unit PROJECT: Internap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM/UNIT: TF -S -2 AREA: Phase 3 Switchgear Room Unit;Datay���ayt Unit Location 1st Floor Unit Serves Switchgear Room Unit Manufacturer Greenheck Model Number BCF- 206- 7 -TH -X Serial Number 12053702 1004 Fan Type / Class FC 1J _ Test Data” Fan RPM Design 2304 RPM Fan RPM Actual 2318 RPM External SP Design 1.0 in. we 'WElectfICaliTest Daa` , "� �t i. e:4.t.l .,- %es:Ji.- 4f. v 1: '...?i%..... Final Operating Hz 55 Hz Motor Volts 1 473 Volts Motor Volts 2 473 Volts Motor Volts 3 474 Volts Motor Amps 1 1.5 Amps Motor Amps 2 1.5 Amps Motor Amps 3 1.5 Amps * Notes Tested By: Mike Touchette Test Date: July 01, 2010 „ta , risp, ot yo�rData'.,,�.: Motor Manufacturer Baldor Motor HP .75 HP Motor RPM 1725 RPM Motor Frame 56 Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor FL Amps 1.5 Amps Motor Service Factor 1.25 VFD Model ABB :.Sheave?Data r k ,,,;,,l .+x"O•- i ar r;f�'..f7. w`: , f .Yr wd Drive Type Belt Motor Sheave 1 VP40 @ mid Motor Sheave Bore 5/8 in. Fan Sheave AK27 Fan Sheave Bore 3/4 in. Belt Size AP26 Belt Quantity 1 Sheave Center Line 9.25 in. lr Test�Data z.. v ✓, b. N . 9 � 2t . 7 ` x v, ,,,, ;,,,, r Total Fan CFM Des. 1200 CFM Total Fan CFM Act. 1100 CFM TF -S -2 1- Jul -10 Mike Touchette No access to duct for static pressure readings. Airtest Co Inc 45 of 47 AIRTEST Co., Inc. Hydronic Pump PROJECT: Internap Data Center - Phase III - Intergate East DATE: 7/12/2010 LOCATION: Tukwila, WA CONTACT: PROJECT #: SYSTEM /UNIT: P -03 -1A AREA: UPS Room Phase 3 `•'» fit' i -�-• i a1 +k;=C." E' 'pp. �' Unit Dana ) ‘1;.,.::.-.., Location Roof Service UPS Room Phase 3 Pump Manufacturer Stulz Pump Model Number GPS -150 -D Pump Serial Number 1012231 Design GPM 288 GPM Pump Head 140 FT. H2O Required NPSH 6.5 FT. H2O s. ina"- ,_.l Test" Data e?&..33.+r. ri2.:t 'a .: .�°w'L.s: r Final GPM Design 288 GPM Final GPM Actual 410 GPM �' °:Elects cai,Tet�Data`sgr� Motor Volts 1 462 Volts Motor Volts 2 462 Volts Motor Volts 3 461 Volts Motor Amps 1 17.7 Amps Motor Amps 2 17.8 Amps Motor Amps 3 17.2 Amps P -03 -1A Balance Valve Summary Tested By: Mike Touchette Test Date: July 09, 2010 MotorqD.�ataf''T Motor Manufacturer Weg Motor Frame 215JM Motor HP 15 HP Motor RPM 3520 RPM Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor F.L. Amps 17.7 Amps Motor S.F. 1.15 Motor Seal Type Mechanical Pump Impeller Diam. 6.0 �h tY �, gMFG ' ,� 9 x '4 .b'ewf Water Test Data t: Valve Open GPM 410 GPM i f•'rv. ; Actual `j SDP . :7"1.r+ .11,-,-- ' System 1 ■Umt, k y,_ �+� �M7 ay a: tN ita._ .f ,}i Area.Served , FCF gym° iFT. "�:.t 's� _ °i•)�� "� -4° _ .'art �h tY �, gMFG ' ,� 9 x '4 .b'ewf - 4- Model f »d* ,( •f wt jA S¢e !! h ,g 9 t ? j "GPM Dx .a'gyr` F Designs i f•'rv. ; Actual `j SDP . y , IGPM Y & k.V.tua �,Aictual.= C 1MCBV a ' e t f i Setting P -03 -1A UPS Room Phase 3 Taco MPV 5,. 288 18.0 410 30 er . s lJ1c, �< SL ti ... '...i.r.. rNS�+.�.f%�i ... :nz .O w••_ _t -;,.1 cc ',_ , .__�++pp�QQ4.q r t xTotdls �;'(."�ri:.4y uy..x 1 i:YFa.,[ �,�,c, aS..r w.. P.a4. .. 7n > - 1:'v�f4 ..rr:r" ^...,.. r - ✓.✓ss *:: w•��al..[?Y,XV,,iYd.e z �, �m.{.d.N: riGT.Yr` 288 w ....a �a K t m :b'r� -� r �•...3 =410 .f;-:a •:x` 5 s• rr++- * Notes P -03 -1A 2- Jul -10 Mike Touchette Drycooler Pressure Drop DC -3 -1 = 12.1 PSID DC -3 -2 = 12.8 PSID P -03 -1A 28- Jun -10 Mike Touchette No gauges or pt ports across pump. Airtest Co Inc 46 of 47 AIRTEST Co., Inc. Hydronic Pump PROJECT: Intemap Data Center - Phase III - Intergate East LOCATION: Tukwila, WA PROJECT #: DATE: 7/12/2010 CONTACT: SYSTEM /UNIT: P -03 -1B AREA: UPS Room Phase 3 14 Data .{t :..7 t•°9t,...1 .•a� . >. v,F` .- uYC..�P. -. .s n. -:... .. Location Roof Service UPS Room Phase 3 Pump Manufacturer Stulz Pump Model Number GPS -150 -D Pump Serial Number 1012231 Design GPM 288 GPM Pump Head 140 FT. H2O Required NPSH 6.5 FT. H2O ,., FinahTest-Data <: Final GPM Design 288 GPM Final GPM Actual 410 GPM Electrical Test Data w Motor Volts 1 464 Volts Motor Volts 2 462 Volts Motor Volts 3 462 Volts Motor Amps 1 17.8 Amps Motor Amps 2 17.8 Amps Motor Amps 3 17.5 Amps P -03 -1B Balance Valve Summary Tested By: Mike Touchette Test Date: July 02, 2010 ,System 1 Unit? i`Jn^ t"S Y° �6 > ;Motor Data" .:1_ Z.. ...txr.,. ,,•I ,!...V. {d S:'9S Yaa -n sFF 'MFG . Motor Manufacturer Weg Motor Frame 215JM Motor HP 15 HP Motor RPM 3520 RPM Motor Rated Volts 460 Volts Motor Phase 3 Motor Hertz 60 Hz Motor F.L. Amps 17.7 Amps Motor S.F. 1.15 Motor Seal Type Mechanical Pump Impeller Diam. 6.0 +�4ry .4f 3�.4 Aymr'+.-,,s0, A.4 tit,, d.. NW •-∎!' = Water TettbData 'N,)F ,,ta....:f t; . ry ..&::.+%^'.. m w t i. 'j`•; .'4 s :;2i GPM }A...ctua.'a' Valve Open GPM 410 GPM P -03 -1B ,System 1 Unit? Area Served ' ,ti l \.3�? 'MFG . } Model . Size fl, GPM' :Design! .4. Actual i •7f..rk(x/'r i GPM }A...ctua.'a' GBV.Y„ 'Setti ng .y i •Nal gsiM P -03 -1B UPS Room Phase 3 Taco MPV 5' 288 18.2 410 30 4 .y. h3. X 1 rt `I. �x�.. '';�Totais. 4 �'°�"`.'�.., g, .C.... +:• '*:. -'' 1 .. . "... y ....n 4 !ms _� 288i..xd ... �.. ap.r .•410:.: ..,:.S�::a�%:` * Notes P-03-1B 28- Jun -10 Mike Touchette No gauges or pt ports across pump. Airiest Co Inc 47 of 47 m assaad [ngneedng Group £075 SW Avery Street Tualatin Oregon . 9702 Tel: 503 - 997 -4555. Fax: 503-486-5037 m assay doup gma n . corr STRUCTURAL CALCULATIONS FOR INTERNAP DATA CENTER HVAC BRACING [WIRES:3-6-20 11 PROJECT ADDRESS 3355 S. 120TH PLACE TUKWILA, WA 98168 PREPARED FOR ACME 330 SE SALMON ST PORTLAND, OR 97214 ECE VE % 2010 BU!LCiNG DEPARTMENT 4-pArkAAcV 4 assaad Engineering Group Project No Project Name Subject Date 1030 Sheet Internap Data Center HVAC Bracing Contents 5/15/2010 Engineer cp CONTENTS SCOPE CALCULATIONS Calculations Appendix C -1 A -1 Thru C -5 Thru A -21 Nk .z Engineering assaad Group Project No 1030 Sheet Project Name Internap Data Center HVAC Bracing Subject Scope Date 5/15/2010 Engineer cp SCOPE OF WORK Scope of work by M GROUP is limited to the following: .1. Lateral Bracing of existing trapeze. .2. There are four different runs (blue, red, yellow, and orange), each support HVAC ducts. Project Information: Project Zip Code: 98168 Seismic Category = D SS = 1.403 S1 = 0.484 SDI = 0.489 Short Period Spectral Acceleration, SDS = 0.935 Component Importance Factor, Ip = 1.5 Runs: Blue 44 lbs/ft Red 60 lbs/ft Yellow 95 lbs/ft Orange 40 lbs/ft massaad Engineering Group Project No 1030 Sheet Project Name Internap Data Center HVAC Bracing Subject Date 5/15/2010 Engineer cp CALCULATIONS Massaad Engineering Group Project No Project Name`/ 1±/1-4 Subject hee C/ c it ,n1. Date Engineer (// iM /c1 (, ;,-Ij e ih- brie d 0 r /4ev'f` yea- i A e.' l adi ‘e e(,/' rI 9,f ' m /g, II* f la 4/71/ ZJ1114f : 1i>v rig /l efe Aide/ i(l ); 6.7Ail/ 5o2: 1 ,D`Nct/er 11e , f 61 Pd �'``j/1 e !% /, iwr 4 II' (I/ (fe e 7Y2 ' 6F3e) �V jiduf e '1 Q? /led ion,' Ai G' (7(2 2/60 ! 7 p/ /Ct C ' /y 2 4 w-d i oc.F /./17/4 /rzce < 7S -di . jiff iS/ pi¼vizrn; 2 te� /716,-,ice /; - 22(0,44-ce 41-.) 7/7e "Pe) k 7 / /'v J � -- ,11x s 6,6h/iv d/ eo hl i 0` assaad Engineering Group Project No 1030 Sheet C- Z Project Name Internap Data Center HVAC Bracing Subject Seismic Calculations Date Engineer cp Project Zip Code: 98168 ASCE 7 -05, Section 13.3.1: Site Class = D Seismic Category = D Ss = 1.403 S� = 0.484 Spy = 0.489 Short Period Spectral Acceleration, Sos = 0.935 Component Amplification Factor, ap = 2.5 Component Response Modification Factor, Rp = 6 Component Importance Factor, Ip = 1.5 Height in Structure of Component Attachment, z = 1 Average Roof Height of Structure, h = 1 Seismic Design Force: AIL !MEP' 6Mitiz,ji MRS MEET T 50.1 Fp = 0.4 (ap) (Sos) Wp [1 +2 (z/h) l = 0.70 Wp Fp max = Fp min = (Rp / Ip) 1.6 (Sips) (IP) (WP) = 0.3 (SDs) (IP) (Wp) = 2.24 Wp > Fp 0.42 Wp <Fp Massaad Engineering Group Project No /1 30 Sheet ( 3 Project Name A'7U/10VJ474 ei /ikoi c Bj1A( /A1 Subject Date Engineer 97 4 ) Z9 (1f-W z 70, (AW To L co ,1 If (. /L4cc 4T77cl9 /M ? ) 1 /4Ax /17//k- iC'7 701571/1 7- A-/ 2 CI- AI (RACE ) 12 xf- 2c9.5 /6j (e4 c) 20,7# g6/ f GJ e 7 o A/6:786, (8Mcc /)TT4c/iiim0 /f .,: ' ) . 1/ ///! (e 1jficli assaad Engineering Group Project No /6).6 Sheet Y Project Name / %T1Z4% j 17/1 CR /fY4C 'M03 4 Subject Date Engineer. / iMit/hig Pk ) TO (o 179,1 / /''o Lola 4 I- 7% /h74r'2/d 5 ( ATE ZZ6o - -D' ZO , Zc? 7/f (e T6 la BoD (f7 ' 4 , T 4' / /Alt7 7) - ef ( /:‘/I/V, Zki) /127-4: ZD "72 7t, ' - 7 //t, ie f./ / 7/4 gib' #,/"/.A )�'CJ) g99#-;- 7-0 '7r) f4 k f/'(7A) (// 716 Al 1 COAOVU (76 LC6 P /4,164 -19461116 1 artiP, CG 'T/Ci+ Li 74000 G/lAhhe L (E -/24)4V /17 /v <IA I (fr %7( 5 /3.C> IATz 0.7 ("1519?'- `da74L.1; 1 rim /•9, tLos 214-611/ //Z3 F--/2/41,4/ ,'O evA `) ,.qtr gm/,A assaad Engineering Group Project No /.4' 36 Sheet C-k Project Name/WM/0VMM OA /Mt Subject Date Engineer fl (92 74( Md-r. 7(141a fifh /or ,-(1 7/le &id,/ bd no . Wiley 016-e 16t/9Z1 069 7' IPA" z ihx6eT, 4z,J114)-ace 6.7 49,1! , 7 1/1":,./(e z- 7jY /7 JP. 8.1- Vi . /11.1 3/11-4 -6ch jLt t it/t/ -171 -Y Aliiche-/C1 CI 4[6-E7-61,1j3q. 2 ,4) ) 7M / _ 0_3/ <1 7 ". Ot (.7j (3 e/e-1),) ac �, f /yr,. ,/,-/‘ /41/7(161/7E '16 1-ea ,4-0(140- ((/ fh d assaad Engineering Group Project No 1030 Sheet Project Name nternap Data Center HVAC Bracing Subject Date 5/15/2010 Engineer cp APPENDIX TOLCO FIG. 800 ATTACHMENT TO STEEL BEAM ( 0 � O. f MAX. HORIZONTAL SEISMIC LOAD W/ BRACE { 45-• (Lbs.) PERPENDICULAR TO BEAM 1424 PARALLEL TO BEAM 894 _ 'NOTES: V 1.) STRUCTURAL ENGINEER OF RECORD SHALL VERIFY ADEQUACY OF STRUCTURE TO RESIST ALL BRACE LOADS. 2.) FITS BEAM WITH FLANGE THICKNESS UP TO 1 114' AND WIDTH UP TO 18'. TIGHTEN UNTIL. BREAK -OFF BOLT HEAD COMES OFF SHOWN WITH 900 SERIES ATTACHMENT (ACROSS BEAM) TIGHTEN UNTIL WASHER IS FLAT (7YP) r -ti • A P P R O V E D Fixed Equipment Anchorage Office of Statewide Health Planning and Development OPA- 0300 July 21, 2003 TOLSTRUT A -12 AND A-12AW CHANNEL 1 sir I 1 5l8' Y Li. 718 ( - i- 318• 1 5I8' ALSO AVAILABLE IN: STAINLESS STEEL (304 & 316) ELEMENTS OF SECTION CHANNEL WEIGFfT LBSIFT. AREA OF SECTION SO, IN. AXIS X -X AXIS X X WS AXIS Y Y 1 IN. 4 3 S IN. R IN. L 1N. 4 S IN. 3 R IN. A.12 1.89 .583 .188 .036 .036 .203 ,581 .257 .055 .316 .064 .680 A-12AW 378 1.166 .920 .064 .566 .910 .514 .086 .632 .099 .680 = MOMENT OF I S = SECTION btODUUUS R = RADIUS OF GYRATION BEAM SPAN CHANNEL STYLE UNIFORM BEAM LOAD AND DEFLECTION AXIS X -X AXIS Y Y WS INCHES LBS INCHES 12' A -12 A-12AW 3.383 9.433 .014 .008 5,261 10,533 .018 .018 18" A-12 A-12AW 2,213 6.530 .031 .018 3,511 7,022 .036 .036 A-12 1,680 .055 2.833 .064 A-12AW 4.895 .033 5,266 .064 A-12 1.350 .086 2,107 .099 A-12AW 3.800 .050 4213 .099 A -12 1,125 .125 1,756 .143 A-12AW 3.100 :070 3,511 .143 a2' A-12 A-12AW 950 2,700 .168 .097 1,505 3.010 .195 ' .195 48• A-12 A-12AW 855 2,300 .225 .124 1,317 2,634 .254 .254 60• A.12 A-12AW 690 1.930 ,358 203 1,053 2,106 .397 .397 M. A-12 555 _594 878 .572 A-12AW 1.560 .284 1,756 .572 84" A-12 A-12AW 490 1,360 .693 .393 752 1,505 .779 .779 96* A -12 A-12AW 433 1.200 .915 .438 658 1,317 1.018 1.018 108• A -12 A -12AW 375 1,048 1.128 .644 585 1.170 1.288 1.288 120" A -12 A-12AW 335 953 1.382 .680 527 1,053 1.590 1.590 NOTES: FOR (P) PUNCHED CHANNEL REDUCE LOAD BY 10%. BEAM LOADS: LOADS LISTED ARE UNIFORMLY DISTRIBUTED. FOR LOADS CONCENTRATED AT CENTER OF SPAN MULTIPLY UNIFORM LOAD AT TABLE BY .5 ANDMUL?TPLY THE DEFLECTION AT TABLE BY .8, WHEN DEFLECTION IS NOT A FACTOR USE STRESS OF 25.000 PSI. WHEN DEFLECTION IS A FACTOR USE DEFLECTION OF (SPAN /240): ADEQUATE LATERAL BRACING~ 1S PROVIDED BY SUPPORTED PIPES, DUCTS. CONDUITS. OR CABLE TRAYS. A P P R O V E D Fixed Equipment Anchorage Office of Statewide Health Planning and Development OPA- 0300 July 21, 2003 WS SAMPSON 7A Oi'OLCO ZUBAIR SHEIKH STRUCTURAL ENGINEER S 4039 PAGE 12 - 17 DATE: .My 21, 2003 /} -3 TOLSTRUT E -12 AND E -12AW CHANNEL 6 u2" ELEMENTS OF SECTION 3 1/4" 3f18 3/4 ".6 CHANNEL WEIGHT S1FT' AREA OF SECTION SO. IN. AXIS X -X AXIS X-X LBS AXIS Y Y L IN. d 3 SIN. R114. L IN. 4 SIN. 3 R IN. E-12 3.08 .898 1.111 .099 .840 1,112 ,438 .050 .539 .099 .698 E-12A 6.12 1.796 6.344 .143 .143 1.920 1.879 .876 .168 .097 1.078 .195 .195 .698 I Q MOMENT OF INERTIA S = SECTION MODULUS R. RADIUS BEM! SPAN CHANNEL STYLE UNIFORM BEAM LOAD AND DEFLECTION AXIS X -X AXIS Y -Y LBS INCHES LBS INCHES 24" E-12 E -12AW 5.333 16,000 .055 .033 4,492 8,983 .064 .064 E-12 4.267 .086 3,593 .099 E-12AW 12,800 .050 7.187 .099 ar E-12 E -12AW 3,556 10,667 .125 .070 2,994 5.989 .143 .143 42" E -12 E -12A W 3,048 9.143 .168 .097 2.567 5,133 .195 .195 E -12 2.667 .225 2246 .254 E -12AW 8.000 .124 4.492 .254 E -12 2.133 .356 1,797 .397 E -12AW 6.400 .203 3.593 .397 n E -12 1.778 .594 1,497 .572 E -12AW 5.333 .284 2,994 .572 EL4, E -12 E -12AW 1.524 4.571 .693 .393 1.283 2,587 .779 .779 96' E-12 E -12AW 1,333 4.000 .915 .438 1.123 2.246 1.018 1.018 108" E -12 E -12AW 1,185 3.556 1.128 .644 998 1,996 1.288 1.288 120 E -12 E 12AW 1,087 3.200 1.382 .680 898 1.797 1.590 1.590 NOTES: FOR (P) PUNCHED CHANNEL. REDUCE LOAD BY 10%. GYRATION BEAM LOADS: LOADS LISTED ARE UNIFORMLY DISTRIBUTED. FOR LOADS CONCENTRATED AT CENTER OF SPAN MULTIPLY UNIFORM LOAD AT TABLE BY .5 ANDMULTIPLY THE DEFLECTION AT TABLE BY .8. WHEN DEFLECTION IS NOT A FACTOR USE STRESS OF 25.000 PSI. WHEN DEFLECTION IS A FACTOR USE DEFLECTION OF (SPAN /240). ADEQUATE LATERAL BRACING IS PROVIDED BY SUPPORTED PIPES. DUCTS, CONDUITS. OR CABLE TRAYS. A P P R O V E D Fixed Equipment Anchorage Office of Statewide Health PtannIng and Development OPA- 0300 July 219 2003 1375 SAMPSON AVENUE CORONA, CA. 02870 P: (009) 737.5599 P: 1909) 7374330 ®TOL�DMII ZUBAIR SHEIKH STRUCTURAL ENGINEER S 4039 PAGE: 12 -19 DATE: July 21, 2003 4 6' MAX. DISTANCE FROM TOP OF HANGER ROD TO FIRST STIFFENER TOLCO FIG. 98 ROD STIFFENER (MAX.) MAX. SPACING BETWEEN FIG. 98 (SEE CHART) f $' MAX. DISTANCE FROM TOP OF HANGER TO FIRST STIFFENER TOLSTRM A-12 CHANNEL (MAX.) f ROD SIZE MAX. ROD LENGTH WITHOUT STIFFENER MAX. SPACING BETWEEN TOLCO FIG. 98 318• 19- 13' Ur 25- 18- 518" 31' 23' 314• 37' 28- 7,8' 4r 33' 1' 1114" 6r 43' ROD STIFFENERS ARE REQUIRED ONLY ON HANGER AND TRAPEZE ASSEMBUES THAT NAVE SEISMIC BRACING ATTACHED AT OR WITHIN 4' OF THE ROO. A MINIMUM OF TWO STIFFENERS MUST BE INSTALLED. 'RECOMMENDED TORQUE IS 8 FT -LBS. (OR FINGER TIGHT PLUS ONE FULL TURN WITH A WRENCH). 318' THRU 718' ROD SIZE TOLCO FIG. 98 ROD STIFFENER. 'RECOMMENDED TORQUE 8 FT-LBS TOLSTRUT A-12 CHANNEL TOLCO FIG. 99 ALL THREAD ROD 1' THRU 1 -114* ROD SIZE TOLSTRUT A•12 CHANNEL TOLCO FIG. 99 ALL THREAD ROD TOLCO FIG. 98U ROO STIFFENER. e375 sMOnsa+AvE+nE I arTIOLCO CORONA, CA 02570 R (909)7374970 F: (904) 737.0330 eeauantdpIOCC7 ZUBAIR SHEIKH STRUCTURAL ENGINEER S 4039 PAGE: 11 -18 DATE: July 21, 2003 4 TOLCO FIG. 99 ALL THREAD ROD CUT TO LENGTH TOLCO FIG. 100 ALL THREAD ROD ORDER BY: FIG. NUMBER, ROD DIA. ROD LENGTH AND FINISH. ORDER BY: FIG. NUMBER, ROD DIA. AND FINISH_ ALSO AVAILABLE IN: STAINLESS STEEL (304 8 316) ROD SI2E DESIGN LOAD APPROX WEIGHT PER FT. 318' 610 29 112" 1,130 53' 518" 1.810 84 are 2.710 123 718" 3,770 169 ROD MEETS ASTM A307 SPECIFICATIONS. A P P R O V E D Fixed Equipment Anchorage Office of Statewide Health Phinsting and Development OPA- 0300 July 21, 2003 Vael Ox Yeass —. 16)32441106 F t57s3AAystJIAvENUE comm. CA.92879 > (901 67374226 W No, 4039 2 Fxp i2 31-03 rf Ix CA't ZUBAIR SHEIKH STRUCTURAL ENGINEER S 4039 PAGE. 12.9 DATE: July 21, 2003 TOLCO FIG. 980 UNIVERSAL SWIVEL SWAY BRACE ATTACHMENT TIGHTEN UNTIL SREAK•OFF BOLT HEAD COMES OFF MAXIMUM HORIZONTAL SEISMIC LOAD W/ BRACE {$ 45' 1,424 Lbs. BRACE MAY BE TOLSTRUT A-12 CHANNEL, SCH. 40 STEEL PIPE. OR OTHER APPROVED MEMBER UL TEST CRITERIA ALLOWS FOR MAXIMUM DESIGN LOAD OF 2,785 Lbs. (1,954 Lbs. HORIZONTAL LOAD) MAX. ROD SIZE 3!4". FOR LARGER ROO DIAMETERS USE FIG.980H STRUCTURAL ENGINEER S 4039 7 TOLCO FIG. 981 "FAST ATTACH" UNIVERSAL SWIVEL SWAY BRACE ATTACHMENT TIGHTEN NUT UNTIL GAP IS CLOSED BOTTOM ATTACHMENTS NOT SHOWN MAXIMUM HORIZONTAL SEISMIC LOAD W/ BRACE © 45' 1;424 Lbs. ... TIGHTEN UNTIL BREAK -OFF BOLT HEAD COMES OFF il II I 11 r 11 I r ./%/ra BRACE MAY BE PIPE. TOl.STRIJT CHANNEL. OR OTHER APPROVED MEMBER A P P R O V E D Fixed Equipment Anchorage Office of Statewide Health Planning and Dei a opmmt' OPA- 0300 July 21, 2003 Valid 531'3 Maxlrrs.rn ""' 1373 SAMPSON AVENUE CORONA, CA 92x78 P: (0)7374 F.(503) 7374330 BUJ StaahUN t915132445 PAGE: 11 -2 DATE: July 21.2003 MAXIMUM ALLOWABLE LENGTHS AND CONCENTRIC LOADS FOR BRACE MEMBERS TYPICAL LONGITUDINAL BRACE FOR SINGLE PIPE PIPE DIAMETER SCH. 40 STEEL PIPE MAXIMUM LENGTH MAXIMUM HORIZONTAL SEISMIC LOAD W/ BRACE 45' Os.) i' T-0' 1732 1114' 9'-0" 2345 11/2" 10'-4' 2802 2" 13' 4" 3769 TOLSTRUT SIZE MAXIMUM LENGTH MAXIMUM HORIZONTAL SEISMIC LOAD Wl BRACE @ 45' (Ubs.) A.12 9'-6" 2043 NOTES: 1.) MAXIMUM ALLOWABLE. LENGTHS AND CONCENTRIC LOADS WHEN LJR 200 2.) ALL LONGITUDINAL AND TRANSVERSE BRACING UTILIZING PIPE OR CHANNEL AS THE BRACING MEMBER HAS A TOLERANCE OF 21!2" FROM CENTER IN EITHER DIRECTION WITHOUT ADVERSELY AFFECTING THE GIVEN LOADS. now Load Ind Load Sonic ground Snow load - PO = 25 paf Basic roof now load - Pf m 25 psf Thermal factor - Ct = 1.0 Importance factor - to *► 1.0, Snow exposure factor -- Co = 1 .0 Drifting snow In not roquirod In the design. Ss = 1.403► S1 = 0.484, to = 1.5, Site Close "O' and Sol "D' ► quivalcnt Latorat F'crca Procoduro toed. Basic wind opoad (3 aoc.guot) a 85 (mph)- Exposure 8 importance factor Iw = 1.0, Intorno! preuuuro coefficient GCpi - + 0,18 Collateral loads were not, Included In uplift design LACIAMPARM )€RAL CONTRACTOR SHALL BE RES3ONSIBLE FOR AL PROVISIONS OF THE CURRENT ;TAHOARDS . THE GENERAL CONTRACTOR SHALL REV I E TIES STRUCTURAL. DRAWINGS tY NONCOMPLIANCE WITH OSHA STANDARDS. TAI{ I NG INTO ACCOUNT THE GENERAL CTOR' S MEANS AND t ET} OOS . THE GENERAL CONTRACTOR SHALL INFORM ERN OF ANY PL I ANC.E SO THE DRAWINGS MAY BE MODIFIED FOR COI L l A PRIOR TO ►UCT I ON . THE GENERAL CONTRACTOR IS TOTALLY RESPONS l BLE FOR LEANS AND M AS WELL AS JOBS 1 TE SAFETY ON THIS PROJECT. rnuvtut WA; ACCORDANCE BOLTS' (8 /: CODE -- STE:£ ALL WELDS 1 MINIMUM TEt PREOUAL I F I E EQUIPMENT SEE SPECIFl OPEN WEB J( STEEL EREC1 DO NOT Putt COMPLETE. MEMBERS DE! ECCENTRIC L (ENGINEER 1 p08Y -4�i PROVIDE HIE. DRAWINGS. F PER E.SR --16E Int t 1741 rnwr ASONFr assaad Engineering Group Project No Sheet A / 0 Project Name 4 CI /9ac Subject Date Engineer a -1- oykJ A-CT- --31b C4401r4TEZ_ E-Sg - -Z MiruN 0rJG,12-E1-- :---- 300o p'•; — - 1/2: k)f /1EMc. -rem 6i oik-1 = 0,75(0j44-S) (oN(- Azo-r A/q = Awc- eci,N Vc,rd itAlco (Ai intre K , 5r-----, ff4. . b _\( " 1-,_ H s , i 1 43000 (3.1s). \1/4. i si-vss-"F 2--,-- of &. 5. CI, - o) (..bN E.77= pu_LoJ r, [2, 900/ n z.- 3 1 1 E:Se. 0 OE ThBL 3 MgLg- 3 -FINE- 3 assaad Engineering Group Project No //7J Sheet A Al Project Name 421' "elgo L7*) IAA Subject Date Engineer Ch i:vemz... 3J -1-(.- \koL vvzs,p4 z- 30i 614 44 6-0NC...241.7-r:- 5 g-e--/k \-) 7- cP V610 -7- Aic, etv Auto j heire. Is I -,1` J-fc*C") 5197b* - 0)(519 "?..„ ci KyouT (.2.) S455- 46,:g tE 4 L-Ti k:Trs:-. 5i 0 tJ L-7; N.P.r17 9:4S1ArE. ..pak 01L7 1-F-c§ REPORT"" ESR -2502 Issued September 1, 2008 This report is subject to re- examination in one year. ICC Evaluation Service, Inc. www.icc- es.org Business /Regional Office • 5360 Workman Mill Road, Whittier, Califomia 90601 • (562) 699 -0543 Regional Office • 900 Montclair Road, Suite A, Birmingham, Alabama 35213 • (205) 599 -9800 Regional Office • 4051 West Flossmoor Road, Country Club Hills, Illinois 60478 • (708) 799 -2305 DIVISION: 03—CONCRETE Section: 03151 — Concrete Anchoring REPORT HOLDER: POWERS FASTENERS, INC. 2 POWERS LANE BREWSTER, NEW YORK 10509 (914) 235 -6300 or (800) 524 -3244 www.powers.com engineerimapowers.com EVALUATION SUBJECT: POWERS POWER - STUD'+ SD2 ANCHORS IN CRACKED AND UNCRACKED CONCRETE 1.0 EVALUATION SCOPE Compliance with the following codes: • 2006 International Building Code® (2006 IBC) • 2006 International Residential Code® (2006 IRC) • 2003 International Building Code® (2003 IBC) • 2003 International Residential Code® (2003 IRC) • 1997 Uniform Building Code' (UBC) Properties evaluated: Structural 2.0 USES The Powers Power -Stud+ SD2 anchor is used to resist static, wind and seismic tension and shear loads in cracked and uncracked normal- weight and structural sand - lightweight concrete having a specified compressive strength, f'c, of 2,500 psi to 8,500 psi (17.2 MPa to 58.6 MPa); and cracked and uncracked normal- weight or structural sand - lightweight concrete over steel deck having a minimum specified compressive strength, fa, of 3,000 psi (20.7 MPa). The anchoring system is an alternative to cast - in -place anchors described in Sections 1911 and 1912 of the 2006 IBC, Sections 1912 and 1913 of the 2003 IBC and Sections 1923.1 and 1923.2 of the UBC. The anchors may also be used where an engineered design is submitted in accordance with Section R301.1.3 of the 2006 IRC and 2003 IRC. 3.0 DESCRIPTION 3.1 Power -Stud+ SD2: Power -Stud+ SD2 anchors are torque - controlled, mechanical expansion anchors comprised of an anchor body, expansion wedge (clip), washer and hex nut. The anchor body is manufactured from medium carbon steel and has minimum 0.0002 -inch (5 pm) zinc plating. The expansion clip is manufactured from Type 316 stainless steel. The washer conforms to ASTM F 844. The hex nuts conform to ASTM A 563, Grade A. The Power -Stud+ SD2 anchor is illustrated in Figure 2. The anchor body is comprised of a high- strength rod threaded at one end and having a tapered mandrel at the other end. The tapered mandrel is enclosed by a three - section expansion clip which freely moves around the mandrel. The expansion clip movement is restrained by the mandrel taper and by a collar. The anchors are installed in a predrilled hole with a hammer. When torque is applied to the nut of the installed anchor on the threaded end of the anchor body, the mandrel at the other end of the anchor is drawn into the expansion clip, forcing it outward into the sides of the predrilled hole in the base material. Installation instructions and information are set forth in Section 4.3, Table 1 and Figure 1, and Figures 3 and 4. 3.2 Concrete: Normal- weight and structural sand - lightweight concrete must conform to Sections 1903 and 1905 of the IBC and UBC, as applicable. 3.3 Steel Deck Panels: Steel deck panels must comply with the requirements of ASTM A 653 and have a minimum base -metal thickness of 0.035 inch (20 gage). 4.0 DESIGN AND INSTALLATION 4.1 Strength Design: 4.1.1 General: Design strengths must be determined in accordance with ACI 318 -05 Appendix D (2006 IBC) or ACI 318 -02 Appendix D (2003 IBC) and this report. Design parameters are provided in Tables 3 and 4. The anchor design must satisfy the requirements in ACI 318 Sections D.4.1.1 and D.4.1.2. The value of f'c used in the calculations must be limited to 8,000 psi (55.2 MPa), maximum, in accordance with ACI 318 D.3.5. Strength reduction factors, 0, as given in ACI 318 Section D.4.4, and noted in Tables 3 and 4 of this report, must be used for load combinations calculated in accordance with Section 1605.2.1 of the IBC, Section 9.2 of ACI 318, or Section 1612.2.1 of the UBC. Strength reduction factors, 0, described in ACI 318 Section D.4.5 must be used for load combinations calculated in accordance with Appendix C of ACI 318 or Section 1909.2 of the UBC. Strength reduction factors, 0, corresponding to ductile steel elements may be used except for 3/8- inch - diameter (9.5 mm) anchors in shear, which have a strength reduction factor corresponding to brittle steel elements. An example calculation is provided in Figure 5. AS REPORTS -are nor to be construed as representing aesthetics or any other attributes not specifically addressed. nor are they to be construed as an ' endorsement of the subject of the report or a recommendation for its use. There is no warranty by ICC Evaluation Service, Inc., express or implied as to any finding or other matter in this report, or as to any product covered by the report. Copyright 2008 ua� Aoseftel4.vw Page 1 of 9 Page 2 of 9 ESR -2502 4.1.2 Requirements for Static Steel in Tension, Nsa: The nominal steel strength of a single anchor in tension, Nsa, is given in Table 3 of this report. The values of Nsa for single anchors given in Table 3 of this report must be used and not be derived by calculation. 4.1.3 Requirements for Static Concrete Breakout Strength in Tension, Na, or Ncbg: The nominal concrete breakout strength of a single anchor or group of anchors in tension, kb and Ncbg, must be calculated in accordance with ACI 318 Section D.5.2, with modifications as described in this section. The basic concrete breakout strength of a single anchor in tension, Nb, must be calculated according to ACI 318 Section D.5.2, using the values of he, and kcr as given in Table 3. The nominal concrete breakout strength in tension in regions where analysis indicates no cracking in accordance with ACI 318 Section D.5.2.6 must be calculated, with r//,,N = 1.0 and using the value of kuncr as given in Table 3. For anchors installed in the soffit of structural sand - lightweight or normal- weight concrete filled steel deck floor and roof assemblies, as shown in Figure 4, calculation of the concrete breakout strength in accordance with ACI 318 Section D.5.2 is not required (see Section 4.1.5). 4.1.4 Requirements for Critical Edge Distance: In applications where c< cat and supplemental reinforcement to control splitting of the concrete is not present, the concrete breakout strength in tension for uncracked concrete, calculated according to ACI 318 Section D.5.2, must be further multiplied by the factor (//cp,N given by the following equation: c (1) rpcp,N= cat whereby the factor yicp,N need not be taken as less than 1.5h For all other cases f//cp,N == 1.0. In lieu of ACI 318 coy Section D.8.6, values of cat provided in Table 3 of this report must be used. 4.1.5 Requirements for Static Pullout Strength in Tension, Npn: The pullout strength of a single anchor in tension in accordance with ACI 318 Section D.5.3 in cracked and uncracked concrete, Np,cr and Np,uncr, respectively, is given in Table 3. For all design cases, tPcp,N = 1.0. In accordance with ACI 318 Section D.5.3.2, the nominal pullout strength in cracked concrete must be adjusted by calculation according to the following equation: (2) NPn,Pc = Np,cr (.1, (Ib, psi) 2,500) n (fic)" Npn,rc = Np,cr (N, MPa) 17.2 Whereby the exponent n = 1/2 for all anchors with the exception of the 3/8- inch - diameter (9.5 mm) anchor size in cracked concrete, where n=1/3. In regions where analysis indicates no cracking in accordance with ACI 318 Section D.5.3.6, the nominal pullout strength in tension must be adjusted by calculation according to the following equation: fr \n c Jll (3) Npn,Pc = Np,uncr 2,500 (Ib, psi) fr In Npn,Pc = Np,uncr ( 17.2 ( (N, MPa) Whereby the exponent n = '/p for all anchors with the exception of the 3/8- inch - diameter (9.5 mm) anchor size in cracked concrete, where n=1/3. Where values for Np,cr or Np,uncr are not provided in Table 3, the pullout strength in tension need not be evaluated. The pullout strength in tension of the anchors installed in the soffit of structural sand - lightweight or nonnal- weight concrete filled steel deck floor and roof assemblies, as shown in Figure 4, is provided in Table 3. In accordance with ACI 318 Section D.5.3.2, the nominal pullout strength in cracked concrete must be calculated according to Eq. (2), whereby the value of Np,deckcr must be substituted for Np,cr. In regions where analysis indicates no cracking in accordance with ACI 318 Section 5.3.6, the nominal strength in uncracked concrete must be calculated according to Eq. (3), whereby the value of Np,deck,uncr must be substituted for Np,uncrand the values of 3,000 psi or 20.7 MPa must substitute for 2,500 psi or 17.2 MPa in the denominator. 4.1.6 Requirements for Static Steel Shear Capacity, Vsa: In lieu of the values of Vs as given in ACI 318 Section D.6.1.2(c), the values of Vsa for a single anchor given in Table 4 of this report shall be used and not be derived by calculation. The shear strength Vsa,deck of anchors installed in the soffit of structural sand - lightweight or normal weight concrete filled metal deck floor and roof assemblies, as shown in Figure 4, is given in Table 4. 4.1.7 Requirements for Static Concrete Breakout Strength in Shear, Vcb or Vcbg: The nominal concrete breakout strength of a single anchor or group of anchors in shear, Vcb or Vcbg, must be calculated in accordance with ACI 318 Section D.6.2, with modifications as described in this section. The basic concrete breakout strength of a single anchor in shear, Vb, must be calculated in accordance with ACI 318 Section D.6.2.2 using the value of ea given in Table 4. For anchors installed in the soffit of structural sand - lightweight or normal- weight concrete on steel deck floor and roof assemblies, as shown in Figure 4, calculation of the concrete breakout strength in accordance with ACI 318 Section D.6.2 is not required (see Section 4.1.6). 4.1.8 Requirements for Static Concrete Pryout Strength in Shear, Vcp or Vcpg: The nominal concrete pryout strength, Vcp or Vcpg, must be calculated in accordance with ACI 318 Section D.6.3, modified by using the value of kcp provided in Table 4 and the value of kb or keg, as calculated in accordance with Section 4.1.3 of this report. For anchors installed in the soffit of structural sand - lightweight or normal- weight concrete on steel deck floor and roof assemblies, as shown in Figure 4, calculation of the concrete pryout strength in accordance with ACI 318 Section D.6.3 is not required (see Section 4.1.6). 4.1.9 Requirements for Minimum Member Thickness, Minimum Anchor Spacing and Minimum Edge Distance: In lieu of ACI 318 Section D.8.3, values of cmin and smn as given in Table 1 of this report must be used. In lieu of ACI 318 Section D.8.5, minimum member thicknesses, hmn as given in Table 1 of this report must be used. Page 3 of 9 ESR -2502 For anchors installed through the soffit of steel deck assemblies, the anchors must be installed in accordance with Figure 4 and shall have an axial spacing along the flute equal to the greater of 3her or 1.5 times the flute width. 4.1.10 Requirements for Seismic Design: 4.1.10.1 General: For load combinations including seismic, the design must be performed according to ACI 318 Section D.3.3, as modified by Section 1908.1.16 of the 2006 IBC or the following: CODE ACI 318 SECTION D.3.3 SEISMIC REGION CODE EQUIVALENT DESIGNATION 2003 IBC and 2003 IRC Moderate or high seismic risk Seismic Design Categories C,D,E and F UBC Moderate or high seismic risk Seismic Zones 2B, 3 and 4 The nominal steel strength and nominal concrete breakout strength for anchors in tension, and the nominal concrete breakout strength and p gout strength for anchors in shear, must be calculated according to ACI 318 Sections D.5 and D.6, respectively, taking into account the corresponding values in Tables 3 and 4 of this report. The anchors comply with ACI 318 D.1 as ductile steel elements and must be designed in accordance with ACI 318 Section D.3.3.4 or D.3.3.5 except for %-inch-diameter (9.5 mm) anchors in shear, which must be designed in accordance with ACI 318 D.3.3.5. 4.1.10.2 Seismic Tension: The nominal steel strength and nominal concrete breakout strength for anchors in tension must be calculated according to ACI 318 Section D.5.1 and D.5.2, as described in Sections 4.1.2 and 4.1.3 of this report and in accordance with ACI 318 Section D.5.3.2. The appropriate value for nominal pullout strength in tension for seismic loads, Neq or NP,deck,u, described in Table 3 of this report, must be used in lieu of NPn. The values of Neq can be adjusted for concrete strength as follows: (4) Neq,rc = Neq '` (Ib, psi) (1J n Neq,rc = Neq f'c n (N, MPa) 17.2) whereby the exponent n = 1/2 for all anchors with the exception of the 3/8- inch - diameter (9.5 mm) anchor size in cracked concrete, where n = 1/3. If no values of Neq are given in Table 3, the static design strength values govern. 4.1.10.3 Seismic Shear: The nominal concrete breakout strength and pryout strength for anchors in shear must be calculated according to ACI 318 Section D.6.2 and D.6.3, as described in Sections 4.1.7 and 4.1.8 of this report and in accordance with ACI 318 Section D.6.1.2. The appropriate value for nominal steel strength in shear for seismic loads, Veq or Vsa,deck, described in Table 4 of this report must be used in lieu of Vsa. 4.1.11 Interaction of Tensile and Shear Forces: For loadings that include combined tension and shear, the design must be performed in accordance with ACI 318 Section D.7. 4.1.12 Structural Sand - lightweight Concrete: When anchors are used in structural sand - lightweight concrete, Nb, NPn, Vb and Vsp must be multiplied by 0.60, in lieu of ACI 318 Section D.3.4. 4.2 Allowable Stress Design (ASD): 4.2.1 General: Design values for use with allowable stress design load combinations calculated in accordance with Section 1605.3 of the IBC and Section 1612.3 of the UBC, shall be established using the following equations: (5) Tallowable,ASD (6) Vallowable,ASD where: Tallowable,ASD Vallowable,ASD ONn oc r Vn oc = Allowable tension load (Ibf or kN) = Allowable shear load (Ibf or kN) ¢Nn = Lowest design strength of an anchor or anchor group in tension as determined in accordance with ACI 318 Appendix D and 2006 IBC Section 1908.1.16. = Lowest design strength of an anchor or anchor group in shear as determined in accordance with ACI 318 Appendix D and 2006 IBC Section 1908.1.16. An example of allowable stress design values for illustrative purposes is shown in Table 5 a = Conversion factor calculated as a weighted average of the load factors for the controlling Toad combination. In addition, a shall include all applicable factors to account for non -ductile failure modes and required over - strength. 4.2.2 Interaction of Tensile and Shear Forces: The interaction shall be calculated and consistent with ACI 318 Appendix D Section D.7 as follows: For shear loads V 5 0.2Va11owabreASD, the full allowable load in tension shall be permitted. For tension loads T s 0.2Tallowable,ASD, the full allowable load in shear shall be permitted. QVn (7) For all other cases: T + V s 1.2 T allowable Vallowab /e 4.3 Installation: Installation parameters are provided in Table 1, Figure 1 and Figure 4. The Power -Stud+ SD2 must be installed according to manufacturer's published installation instructions and this report. Anchors must be installed in holes drilled into the concrete using carbide- tipped masonry drill bits complying with ANSI B212.15 -1994. The nominal drill bit diameter must be equal to that of the anchor size. The minimum drilled hole depth is given in Table 1. The predrilled hole must be cleaned free of dust and debris. The anchor must be hammered into the predrilled hole until the proper nominal embedment depth is achieved. The nut must be tightened against the washer until the torque values specified in Table 1 are achieved. For installation in the soffit of concrete on steel deck assemblies, the hole diameter in the steel deck must not exceed the diameter of the hole in the concrete by more than 1/8 inch (3.2 mm). For member thickness and edge distance restrictions for installations into the soffit of concrete on steel deck assemblies, see Figure 4. `! ! Page 4 of 9 ESR -2502 4.4 Special Inspection: Special inspection is required in accordance with Section 1704.13 of the IBC and Section 1701.5.2 of the UBC. The special inspector must be on the jobsite continuously during anchor installation to verify anchor type, anchor dimensions, concrete type, concrete compressive strength, drill bit type, hole dimensions, hole cleaning procedures, anchor spacing(s), edge distance(s), concrete member thickness, anchor embedment and tightening torque. Under the IBC, additional requirements as set forth in Sections 1705 and 1706 must be observed, where applicable. 5.0 CONDITIONS OF USE The Powers Power -Stud+ SD2 anchors described in this report comply with, or are suitable altematives to what is specified in, those codes listed in Section 1.0 of this report, subject to the following conditions; 5.1 The anchors must be installed in accordance with the manufacturer's published installation instructions and this report. In case of a conflict, this report govems. 5.2 Anchor sizes, dimensions, and minimum embedment depths are as set forth in this report. 5.3 Anchors must be installed in cracked and uncracked normal- weight concrete and structural sand - lightweight concrete having a specified compressive strength, fc, of 2,500 psi to 8,500 psi (17.2 MPa to 58.6 MPa); and cracked and uncracked normal weight or structural sand - lightweight concrete over steel deck having a minimum specified compressive strength, fc, of 3,000 psi (20.7 MPa). 5.4 The values of fc used for calculation purposes must not exceed 8,000 psi (55.2 MPa). 5.5 Strength design values must be established in accordance with Section 4.1 of this report. 5.6 Allowable design values must be established in accordance with Section 4.2 of this report. 5.7 Anchor spacing(s) and edge distance(s), as well as minimum member thickness, must comply with Table 1. 5.8 Prior to installation, calculations and details demonstrating compliance with this report must be submitted to the code official. The calculations and details must be prepared by a registered design professional where required by the statutes of the jurisdiction in which the project is to be constructed. 5.9 Since an 1CC -ES acceptance criteria for evaluating data to determine the performance of anchors subjected to fatigue or shock loading is unavailable at this time, the use of these anchors under such conditions is beyond the scope of this report. 5.10 Anchors may be installed in regions of concrete where cracking has occurred or where analysis indicates cracking may occur (ft > fr), subject to the conditions of this report. 5.11 Anchors may be used to resist short-term loading due to wind or seismic forces, subject to the conditions of this report. 5.12 Where not otherwise prohibited in the code, Power - Stud+ SD2 anchors are permitted for use with fire - resistance- rated construction provided that at least one of the following conditions is fulfilled: • Anchors are used to resist wind or seismic forces only. • Anchors that support a fire- resistance -rated envelope or a fire - resistance -rated membrane are protected by approved fire - resistance -rated materials, or have been evaluated for resistance to fire exposure in accordance with recognized standards. • Anchors are used to support nonstructural elements. 5.13 Use of zinc - coated carbon steel anchors is limited to dry, interior locations. 5.14 Special inspection must be provided in accordance with Section 4.4 of this report. 5.15 Anchors are manufactured under an approved quality control program with inspections by CEL Consulting (AA -639). 6.0 EVIDENCE SUBMITTED Data in accordance with the ICC -ES Acceptance Criteria for Expansion Anchors in Concrete and Masonry Elements (AC193), dated May 2008, for use in cracked and uncracked concrete; and quality control documentation. 7.0 IDENTIFICATION The Power -Stud+ SD2 anchors are identified by dimensional characteristics and packaging. A length letter code head marking is stamped on each anchor on the exposed threaded stud end, along with a plus sign ( +) and the number 2. These are visible after installation. Table 2 shows the length code identification system. Packages are identified with the anchor name, type and size; the manufacturer's name; the name of the inspection agency (CEL); and the evaluation report number (ICC -ES ESR- 2502). Page 5 of 9 A7 ESR -2502 TABLE 1 —POWER -STUD+ SD2 ANCHOR INSTALLATION SPECIFICATIONS ANCHOR PROPERTY AND SETTING INFORMATION NOTATION UNITS NOMINAL ANCHOR SIZE (inch) 3/6 1/2 5/6 3/4 Anchor diameter do in. (mm) 0.375 (9.5) 0.500 (12.7) 0.625 (15.9) 0.750 (19.1) Minimum diameter of hole in. /16 9/16 11/16 73/16 clearance in fixture di, (mm) (11.1) (14.3) (17.5) (20.6) 3/6 1/2 5/6 3/4 Nominal drill bit diameter dm in. ANSI ANSI ANSI ANSI Minimum nominal in. 23/6 21/2 33/4 37/6 47/6 41/2 53/4 embedment depth hnan (mm) (60) (64) (83) (98) (124) (114) (146) in. 2.00 2.00 3.25 3.25 4.25 3.75 5.00 Effective embedment hg, (mm) (51) (51) (83) (83) (108) (95) (127) Minimum hole depth' ho in. 25/6 2314 4 41/4 51/4 5 61/4 mm (67) (70) (102) (108) (133) (127) (159) Minimum concrete member thickness' h ogo in. (mm) 4 (102) 41/2 (114) 53/4 (146) 53/4 (146) 61/2 (165) 7 (178) 10 (254) Minimum overall anchor { in. 3 33/4 41/2 43/4 6 61/4 7 length (mm) (76) (95) (114) (121) (152) (159) (178) 1 in. 21/2 4 4 41/4 41/4 5 41/2 Minimum edge distance c^In (mm) (64) (102) (102) (108) (108) (127) (114) Minimum spacing distance 1 s,";" in. 31/2 6 4 41/4 41/4 6 6 (mm) (89) (152) (102) (108) (108) (152) (152) Critical edge distance' cap in. 8 8 10 8 153/4 12 12 (mm) (203) (203) (254) (203) (400) (305) (305) Maximum Installation torque T,,,, ft. -lb 20 40 60 110 (N -m) (27) (54) (81) (149) Torque wrench socket size - in. 9/16 3/4 15/16 11/6 Nut height - In. 21/64 7/76 35/64 41/64 For SI: 1 inch 25.4 mm. 'For installations through the soffit of steel deck into concrete, see the installation detail. Anchors in the lower flute may be installed with a maximum 1 -inch offset in either direction from the center of the flute. In addition, anchors shall have an axial spacing along the flute equal to the greater of 3h„ or 1.5 times the flute width. tanch .7 r • d h @r ho • 4 L �tlar Expansion Wedge (apt C Mandrel UNC Threaded Stud He.,, Nut L Wa her FIGURE 1 —POWER -STUD+ SD2 ANCHOR DETAIL FIGURE 2—POWER-STUD+ SD2 ANCHOR ASSEMBLY Page 6 of 9 A —) ESR-2502 . • . • • • 1.) Using the proper drill bit size, drill a hole into the base material to the required depth. The tolerances of the drill bit used should meet the requirements of ANSI Standard 8212.15. : 4 • 4 .4. 4. 2.) Remove dust and debris from hole. • .7":;771.77-E.i.;77':', te4, 3.) Position the washer on the anchor and thread on the nut. If installing through a fixture, drive the anchor through the fixture into the hole. Be sure the anchor is driven to the minimum required embedment depth, h,. FIGURE 3—POWER-STUD+ SD2 INSTALLATION INSTRUCTIONS F3/4' Elk, t4114. 4 4 4.) Tighten the anchor with a torque wrench by applying the required installation torque, Tina. —smiCTURAL $AN3-11041vEiGHI CONCRETE OR NORMAL vEIGJ.IT CONCRETE OVER META: DECK u4Nit4m 3,000 PSI) • • :4 ' • . 44 4 • • •, • KAI( 3' 4; •• 4 • uPPER FLUTE (VA(LEY) -44IN. (trp)-- re.urr. EDGE MIN. 1Z' (T•P) MIN 4-1/2' tlYP)--1 ANCHOR NM 1-1/4' .44 • ° FIGURE 4—POWER-STUD+ SD2 INSTALLATION DETAIL FOR ANCHORS IN THE SOFFIT OF CONCRETE OVER STEEL DECK FLOOR AND ROOF ASSEMBLIES TABLE 2—POWER-STUD+ SD2 LENGTH CODE IDENTIFICATION SYSTEM . 20 GAUGE STEEL DECK 41N. LOWER rLUTE MOM) Length ID marking on threaded stud head ABCDE F G H I J K L M N O P Overall anchor length, 4,„,.,„ (inches) From 1i/3 2 21/2 3 31/2 4 41/2 5 51/2 6 61/2 7 71/2 8 81/2 9 Up to but not including 2 21/2 3 31/2 4 41/2 5 51/2 6 61/2 7 71/2 8 81/2 9 91/2 Page 7 of 9 ESR -2502 TABLE 3-TENSION DESIGN INFORMATION FOR POWER-STUD+ SD2 ANCHOR IN CONCRETE (For use with load combinations taken from ACI 318, Section 9.2)123 DESIGN CHARACTERISTIC NOTATION UNITS NOMINAL ANCHOR SIZE (inch) 38 1/2 5/8 3/4 Anchor category 1, 2 or 3 - 1 1 1 1 Nominal embedment depth hna in. 23/8 21/2 1 3 /4 3/8 1 47/8 41/3 1 53/4 STEEL STRENGTH IN TENSION° Minimum specified yield strength (neck) fy ksi N /mm2 96.0 (662) 85.0 586 85.0 586) 70.0 (483 Minimum specified ultimate strength (neck) .1 f e ksi (N /mm2) 120.0 (827) 106.0 (731) 106.0 (731) (104.5) (104.5) 90.0 (620) (153.2) (153.2) 21,230 (94.4) Effective tensile stress area (neck) A,8 (mm2) 0.0552 (65.0) (65.0) Steel strength in tension A/,.11 Ib (kN) 6,625 (29.5) 10,445 (46.5) 13,080 (58.2) Reduction factor for steel strength' - 0.75 CONCRETE BREAKOUT STRENGTH IN TENSION° Effective embedment her in. (mm) 2.00 (51) 2.00 (51) 3.25 (83) 3.25 (83) 4.25 (108) 3.75 (95) 5.00 (127) Effectiveness factor for uncracked concrete k „c 24 24 24 24 Effectiveness factor for cracked concrete k= 17 17 17 17 Modification factor for cracked and uncracked concretes w`" - 1.0 See note 5 1.0 See note 5 1.0 See note 5 1.0 See note 5 Critical edge distance cap in. (mm) 8 (203) 8 (203) 10 (254) 8 (203) 153/4 (400) 12 (305) 12 (305) Reduction factor for concrete breakout strength' 0 - Condition B = 0.65 PULLOUT STRENGTH IN TENSION (NONSEISMIC APPLICATIONS)8 Characteristic pullout strength, uncracked concrete (2,500 psi)e Np•°n" Ib (kN) Ib (kN) 2,775 (12.3) 2,165 (9.6) See note 7 See note 7 6,615 (29 4) 4,375 (19 5) See note 7 See note 7 See note 7 4,980 (22 4) See note 7 See note 7 See note 7 7,795 (35.1) Characteristic pullout strength, cracked concrete (2,500 psi)8 NF" Reduction factor for pullout strength' 0 Condition B = 0.65 PULLOUT STRENGTH IN TENSION FOR SEISMIC APPLICATIONS8 Characteristic pullout strength, seismic (2,500 psi)" „ N� Ib (kN) 2,165 (9.6) See note 7 4,375 (19 5) See note 7 4,980 (22 4) See note 7 7,795 (35.1) Reduction factor for pullout strength' 0 - Condition B = 0.65 PULLOUT STRENGTH IN TENSION FOR STRUCTURAL SAND LIGHTWEIGHT AND NORMAL - WEIGHT CONCRETE OVER STEEL DECK Characteristic pullout strength, uncracked concrete over steel deck1s Np.deckuna Ib (kN) 1,855 (8.3) 2,065 (9.2) 3,930 (17.5) 4,665 (20.8) 7,365 (32.8) 4,900 (21.8) 4,900 (21.8) Characteristic pullout strength, cracked concrete over steel deck7s N°. °'`'' Ib (kN) 1,445 (6.4) 1,465 (6.5) 2,600 (11.6) 3,305 (14.7) 3,490 (15.5) 3,470 (15.4) 3,470 (15.4) Reduction factor for pullout strength' 0 - Condition B = 0.65 For SI: 1 inch s 25.4 mm. 'The data in this table is intended to be used with the design provisions of ACI 318 Appendix D; for anchors resisting seismic load combinations the additional requirements of Section D.3.3 shall apply. 2lnstallation must comply with published instructions and details. 3AII values of 0 were determined from the Toad combinations of IBC Section 1605.2, ACI 318 Section 9.2 or UBC Section 1612.2. If the load combinations of ACI 318 Appendix C or IBC Section 1909.2 are used, the appropriate value of 0 must be determined in accordance with ACI 318 Section D.4.5. For reinforcement that meets ACI 318 Appendix D requirements for Condition A, see ACI 318 Section D.4.4 for the appropriate 0 factor. °The Power -Stud+ SD2 is considered a ductile steel element in tension as defined by ACI 318 Section D.1. Reported values for steel strength in tension are based on test results per ACI 355.2 and shall be used for design. 5 For all design cases Wc," =1.0. Select the appropriate effectiveness factor for cracked concrete (k,) or uncracked concrete (knn,). 6For all design cases Wax, =1.0. For concrete compressive strengths greater than 2,500 psi, Np„ = (Pullout strength from table) * (specified compressive strength /2,500) „. For all anchors, n = 1/2 with the exception of the 3/8 inch anchor size in cracked concrete, where n =1/3. 'Pullout strength will not control design of indicated anchors. 8Anchors are permitted to be used in structural sand - lightweight concrete provided that Nb and Np„ are multiplied by a factor of 0.60. 9 Reported values for characteristic pullout strength in tension for seismic applications are based on test results per ACI 355.2, Section 9.5. t'Values for Np,ded, are for structural sand - lightweight concrete (fn. ,„fin = 3,000 psi) and additional lightweight concrete reduction factors need not be applied. In addition, evaluation for the concrete breakout capacity in accordance with ACI 318 Section D.5.2 is not required for anchors installed in the flute (soffit). "For 2003 IBC code basis, replace f„re with f,,; Nn„ with N,; (Poi with P3and Neq with N„,8815. Page 8 of 9 ESR -2502 TABLE 4 -SHEAR DESIGN INFORMATION FOR POWER-STUD+ SD2 ANCHOR IN CONCRETE (For use with Toad combinations taken from ACI 318, Section 9.2)1'2'3 DESIGN CHARACTERISTIC NOTATION UNITS NOMINAL ANCHOR DIAMETER 3/' 1/2 5/8 3/4 Anchor category 1, 2 or 3 - 1 1 1 1 Nominal embedment depth h„,,,„ in. 23/8 21/3 [ 3/4 31/8 1 47/8 41/2 1 5'/4 STEEL STRENGTH IN SHEAR4 Minimum specified yield strength (threads) fy ksi (N /mm2) 76.8 (530) 68.0 (469) 68.0 (469) 56.0 (386) Minimum specified ultimate strength (threads) 10 f "`a ksi (N /mm2) 96.0 (662) 84.8 (585) 84.8 (585) 72.0 (496) Effective tensile stress area (threads) A„ in' (mm2) 0.0775 (50.0) 0.1419 (65.7) 0.2260 (104.9) • 0.3345 (215.8) Steel strength in shears U3'1° Ib (kN) 2,190 (9.7) 4,640 (20.6) 9,800 (44.1) 10,175 (45.3) Reduction factor for steel strength3 0 - 0.60 0.65 Load - bearing length of anchor (he, or 8de, whichever is less) Reduction factor for concrete breakout strength3 {10 0 ONCrct BREAKOUT STRENGTH IN SHEAR' in. 2.00 2.00 3.25 3.25 (mm) (51) (51) (83) (83) 4.25 (108) Condition B = 0.70 3.75 (95) 5.00 (127) Coefficient for pryout strength (1.O for he, <2.5in.,2.0 for he,Z 2.5 in. CONCRETE PRYOUT STRENGTH IN SHEAR6 1.0 1.0 2.0 2.0 2.0 2.0 2.0 Effective embedment Reduction factor for pryout strength3 he, in. mm) 2.00 (51) 2.00 (51) 3.25 (83) 3.25 0 (83) 4.25 (108) Condition B = 0.70 3.75 (95) 5.00 ( 127 STEEL STRENGTH IN SHEAR FOR SEISMIC APPLICATIONS' Steel strength in shear, seismic V ,o °� Ib (kN) 1,955 (8.7) 4,640 (20.6) 6,530 (29.0) 6,635 (29.5) Reduction factor for steel strength in shear for seismic 3 0 - 0.60 0.65 STEEL STRENGTH IN SHEAR FOR STRUCTURAL SAND - LIGHTWEIGHT CONCRETE OVER METAL DECK° Steel strength in shear, Ib 2,170 3,815 5,040 4,015 6,670 4,325 concrete over steel deck8 V,aderx kN ( ) (9.7) (17.0) (22.4) (17.9) (29.7) (19.2) Reduction factor for steel strength in shear for concrete 0 - 0.60 over steel deck 3 0.65 4,325 (19.2) For SI: 1 inch = 25.4 mm. 'The data in this table is intended to be used with the design provisions of ACI 318 Appendix D; for anchors resisting seismic load combinations the additional requirements of Section D.3.3 shall apply. 2lnstallation must comply with published instructions and details. 3All values of 0 were determined from the load combinations of IBC Section 1605.2, ACI 318 Section 9.2 or UBC Section 1612.2. If the load combinations of Appendix C or UBC Section 1909.2 are used, the appropriate value of 0must be determined in accordance with ACI 318 Section D.4.5. For reinforcement that meets ACI 318 Appendix D requirements for Condition A, see ACI 318 Section D.4.4 for the appropriate 0 factor. 4The Power -Stud+ SD2 is considered a ductile steel element as defined by ACI 318 Section D.1 except for the 3/8 -inch- diameter anchor in shear. 8Reported values for steel strength in shear are based on test results per ACI 355.2, Section 9.4 and shall be used for design. These reported values are lower than calculated results using equation D -20 in ACI 318 -05, Section D.6.1.2 and D-18 in ACI 318 -02, Section D.6.1.2. 8Anchors are permitted to be used in structural sand - lightweight concrete provided that Vb and Vcp are multiplied by a factor of 0.60. ''Reported values for steel strength in shear for seismic applications are based on test results per ACI 355.2, Section 9.6. Values for V,g,d8 are for structural sand - lightweight concrete (r„, ,„,„ = 3,000 psi) and additional lightweight concrete reduction factors need not be applied. In addition, evaluation for the concrete breakout capacity in accordance with ACI 318 Section D.6.2 and the pryout capacity in accordance with Section D.6.3 are not required for anchors installed in the flute (soffit). 9Shear loads for anchors installed through steel deck into concrete may be applied in any direction. t0For 2003 IBC code basis, replace fiea with fo; Vd8with V, ; and 4 with t and Ve, with V,e,881, Page 9 of 9 ESR -2502 TABLE 5 — Example Allowable Stress Design Values for Illustrative Purposes',2,3,4,5,6,7,8 Anchor Diameter (n.) Nominal Embedment Depth (in.) Effective Embedment (in.) Allowable Tension Load (lbs) 3/8 2 -3/8 2.00 1,220 1/2 2-1/2 2.00 1,490 3 -3/4 3.25 2, 905 5/8 3 -7/8 3.25 3,090 4 -7/8 4.25 4,615 3/4 4-1/2 3.75 3,825 5 -3/4 5.00 5,890 Single anchor with static tension load only. 2 Concrete determined to remain uncracked for the life of the anchorage. 3 Load combinations from ACI 318 Section 9.2 (no seismic loading). 430% dead load and 70% live load, controlling load combination 1.2D + 1.6L. 5 Calculation of weighted average for a = 1.2(0.3) + 1.6(0.7) = 1.48. 6 = 2,500 psi (normal weight concrete). 7 Co = C42Z Cac. 8hZhm;n. Given: Calculate the factored resistance strength, ON., and the allowable stress design value, TOOawabreasn, for a 3/8 inch diameter Power -Stud+ SD2 anchor assuming the given conditions in Table 5. Calculation in accordance with ACI 318-05 Appendix D and this report: Code Ref. Report Ref. Step 1. Calculate steel strength of a single anchor in tension: D.5.1.2 Table 3 ONsa = (0.75)(6,625) = 4,969 lbs, Step 2. Calculate concrete breakout strength of a single anchor in tension: D.5.2.1 Table 3 cAN b = o ANC ed,N1Pc,N',b p,NNb ANC° Nb = kn c(he /)is Nb = (24) 2,500(2.0)1.5 = 3,394 lbs. ON,b = (0.65) (36.0) (1.0)(1.0)(1.0)(3,394) = 2,206 lbs. (36.0) Step 3. Calculate pullout strength: n [Ai �Npn = q5Np, „„Y',II c,P 2,500 cfiNp„ = (0.65)(2,775)(1.0)(1.0) °3 = 1,804 lbs. Step 4. Determine controlling resistance strength in tension: ON„ = minION :a, cfiNcb, rbNpnI = cfiNrn = 1,804 lbs. Step 5. Calculate allowable stress design conversion factor for loading condition: Controlling load combination: 1.20 + 1.6L a = 1.2(30 %) + 1.6(70 %) = 1.48 Step 6. Calculate allowable stress design value: N,, _ 1,804 Tallowable,AsD = a 1.45 = _ 1,219 lbs. D.5.2.2 Table 3 D.5.3.2 Table 3 0.4.1.1 9.2 Sec. 4.2 FIGURE 5 — EXAMPLE CALCULATION FOR ILLUSTRATIVE PURPOSES IBS REPORT" ESR -2502 Supplement Issued September 1, 2008 This report is subject to re- examination in one year. ICC Evaluation Service, Inc. www. icc -es. orci Business /Regional Office • 5360 Workman Mill Road, Whittier, California 90601 • (562) 699 -0543 Regional Office • 900 Montclair Road, Suite A, Birmingham, Alabama 35213 ■ (205) 599 -9800 Regional Office • 4051 West Flossmoor Road, Country Club Hills, Illinois 60478 ■ (708) 799 -2305 DIVISION: 03— CONCRETE Section: 03151— Concrete Anchoring REPORT HOLDER: POWERS FASTENERS, INC. 2 POWERS LANE BREWSTER, NEW YORK 10509 (914) 235 -6300 or (800) 524 -3244 www.powers.com enqineerino@powers.com EVALUATION SUBJECT: POWERS POWER - STUD "+ SD2 ANCHORS IN CRACKED AND UNCRACKED CONCRETE 1.0 EVALUATION SCOPE Compliance with the following code: • 2007 Florida Building Code — Building • 2007 Florida Building Code — Residential Property Evaluated: Structural 2.0 PURPOSE OF THIS SUPPLEMENT This supplement is issued to indicate that the Powers Power - Stud + SD2 Anchors in Cracked and Uncracked Concrete described in the master report complies with the 2007 Florida Building Code — Building and the 2007 Florida Building Code — Residential,, when designed and installed in accordance with the master evaluation report. Use of the Powers Power - Stud "+ SD2 Anchors in Cracked and Uncracked Concrete described in the master evaluation report to comply with the High Velocity Hurricane Zone Provisions of the 2007 Florida Bui /ding Code — Building has not been evaluated, and is outside the scope of this supplement. This supplement expires concurrently with the master report reissued on September 1, 2008. REPORTS'- are not to be construed as representing aesthetics or any other attributes not specifically addressed, nor are they to be construed as an endorsement of the subject of the report or a recommendation for its use. There is no warranty by ICC Evaluation Service, Inc., express or implied. as to any finding or other matter in this repon, or as to any product covered by the report. Copyright c 2008 4115lmee1.4mw.e 'AMMO rnusrNa Page 1 of 1 C B N B BNBuilders, Inc. MISSIONING j4,{. *.° Rio -tea rat N`1 10-030 rill LEE TECHNOLOGIES GROUP to" MstiiaiOlticai irfrastruchxeaktic s 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654 -3680 Fax 24 Hr Service (877) 968 -0300 CX finder ‘11,1 INTERNAP r SUb t Dee Customer Name- INT-TUK-WA-COlifithiSSiONING -P1)14iDU 18 May 10 Work Date 02 Jul 10 1 Parcedeee Weik 0800.1700 TiriTO fteM14 PMCettUf tIP'541W.RWtird* "1-7 itvire'ree' 04Kr' COO :et 3355 South 120` Place Tukwila WA .... , . ......... ---“ • - - i c4st'")5/.P1c;.' Kathy cnv MIale P1717"Mm*4121;- 1 404,302.9753 : • :. 1 Herbert Burnett • .1- Form Numbws- 703_968-0300 •1 713.423.4335 - 1 1 - 98188 flfAecteer 4ree. Data Center 1:504V414AireCtootd I Load Distribution ••••■ Try, 7 Viale Equipment L POU Information ; PD PP13-0/S-300-G441 ; 110-2679-13 Pm(39dure This testing will verify the operation of the POI). -• , •••■••• • AnticIPaRo,sutelisd The POU oprerate as per design. Detailed Procedure 1. Record start date: 02 Jul 10 Record start tirne:13:05 2. Document that vendor start up has been performed. 3. Perform a visual of the PDU to ensure that there is no external damage to the PDU. 4, Check that the PDU is level and stable with all stabilizers flush to the floor, t 5. Close the feeder breaker to MI.! PDU. 1 8. Ensure that all PDU load beaks are in the OPEN position. 7. Close the input main circuit breaker inside the PDU. 8. Press the rnonitoi on buttoQ. LEE TECHNOLOGIES' LEVEL 4 CI fECKLIST Template Rev. 07022010 Lee Technologies Group et Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 ,'., „...1' - ..• , • ".' "17: A : '1*:'ItiPilti•V2t* 1 r 2.: _.V :: '-.' ..'2■:, ..' N.. , . , vi 7 ••: ., • ; ", .:'": .! P '. • C t: c . -A r..41110-Ultli T - .. i: ..-... . ,T10,1,.. .:, . ' : 1" -4. Amps 'itt . ,..',. Wi‘;, At,. ' , ... „1,, , • iiez0:-.• - .; C. ei'.P' .1 ..+' % '-' .. • • ... • - '71 ' ' . '' ; ' ' 'ti .' .• :. '.4...%1 DVM 117 CCD 117 620 ji ... • • ' 13 t'.. ), 1 . itm : .1,'" ., •<ii; ,,,Nfi 7. ; , ' ''''''''2,' %.: 't '' DVM 117 LCD 117 626 im • '. :0 ... • " .::-..,,,,-.- ; i:.',. : , I . ;„-1 % rl ''''''. ,.` ., .. '...; .",g,k7.1' 4 ' 1...'1,..Y DVM 117 LCD 118 620 l'AiP . , t DVM LCD 471 DVM 202 LCD 202 ,;?;tj-: ri.. 1 •et'il :,t', • 1,. 4.4*. Sew DVM LCD 473 DVM 203 LCD 203 KW 228 Pyttrii DVM LCD 471 DVM 202 LCD 202 KVA 219 8.1. Apply control power to the load bank. v. 8.2. Apply 100% load to the PDU. K1N:225 X 8.3. Start a 4 hour bum test of the PDU. 8.4. Monitor temperature in the surrounding area. 8.5. PDU BURN SHEET. -''';',,-•!--:r; f m :„..74:. rc.:i A f,0 ,.: c * / 0 1 . W 4 r . . :- • - k .1:: , ' : O u t p u t ' e u..:7A-•••o••:, p m'. .•:,, • • f.',.:.'..: A 116 8 117 C 117 A 640 B 647 C 644 226 ' -,•:,-;11: * • 00:10 A 116 B 117 C 117 A 640 B 647 c 644 226 117 B 117 C 117 A 637 B 644 c 644 225 •-..-?,iriz;.'i A 116 8 117 C 117 A 639 B 645 c • 643 . 225 . . • .:•1 -'1H.,17,ra , • '•'',i'i A 117 8 117 C 118 A 640 B 647 C 644 226 .2iir:-A 118 13 117 c 117 A 647 a 650 c 653 231 4- • A••• • ••.3Hr... ' A 117 8 117 C 118 A 639 8 645 C 643 226 _ . „. A 117 a 117 C 117 A 641 8 647 C 643 227 8.6. Shut down all load on the load bank. 8.7. Allow the load bank to run with no load for 5 minutes for cool down purposes. V 8•8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. V 8.9. Verify that all power was removed from the load bank. Template Rev. 07022010 Lee Technologies Group et Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES° LEVEL CHECKLIST &r .i :+{ }..6; `FI r �i% y) . t .�}. rcl^�,{y `81fl, }A Reset ttt@tirtppedinput °breaker at�the PC�1 %Yxc „ w «r t i. ;-'.4 r(�..fyr. .:y: 4.Al t'NyY.mF4a'�T{'..1 .,lam', {'�..'�$�i4.a�, {.,. .F.. me r"4. A� .l� K cam.+]" �"� i "r�-, ��� &�"qy elf ik"s�� :1!! p aP,' VPG/�P'tiSeikeiiFII�i.i/t C713nerat{f -tl.�e PVL7 €d - i�,a' '"'k.giS,tY'it : ii. A�-: u�°'P.., >Fy,,f�" 'a 1 :US �'+l.,y a;'htb�t . s.:.s.. .w;h'sra':2:::,.ir..: .- w:A-a. ,..,.., -_ "K. -i' in±. -�' 1... .ty.x. Se�'isar 7Kb$'P°i -'..i d v+ ".-+ TY� k-"'.; �� "`4Y'h'+i '% wR x'S2 _ y.Y "'(� A I i�b .E SY • M. 9� 8 • 92 ,Chen that the 'l catsir}etats txst -er erti ed ar4d�safe to work in x ' ata ! w> -.a x " ti ,,,,, d k W..'4t3S AYR J { h§+ :7 .w...,, ,i - vq t g4,�ka:K p ��.,, � ,�,.� � 7 :� a t r 3 4i Y t ' s"'01 1 'r"� '.4 Y'"sm. j* 6 . t$eCL!.;; frori! thB�iO!:11 / :tY ih dkdl''u' '..� ii, a � 5t 11.. - ;a.{A'. ^.}..hY�..Br . A. wr ,ms.,trntA..ii`SPG•u.N'},e. s • r . , Comments 8.2 225 KW was applied due to the current limitations of the Toad bank at 208 volts. Conducted an IR scan after two hours and at the end of the four hour load bank test. No hot spots were found. x°. :x } *s( +f4 lW' tn5 @ .. i rtlaeet n 4 gie s°Grp4 a t#i , as �cyr ut o letstes 3 f Yi .yc �..1/` " � t t i " `,--' c . I % { 1 - $-_ ' k u this w M : . tl+, 4} tjYY'' d ��4' " . + lIR _ ^ �tY FJ t vu.T3uW fr4aPIa. C '48# Y;, {� t .%,d.4'. 'r' � b,vX?, � } • i • I1. 34i � `"x fi..O.4/ R- ti 4010 Template Rev 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 0 VOLTAGE T1PJ EPLOTS Site: INAP PDU 3A3 Measured from 07/0212010 11:50:39.0 to 07/02/201018:23:13.0 ufnZ-Lir :k 200 150 12 ° 100 50 0 200 150 100 --- A 13 vans — ac Vrrrrs • — – C-A Vrrns 1290 07/02/2010 Friday 1390 1490 1590 C sr VpCwoMw GB 18:00 1700 1890 ACTIVITY PLOTS Site: INAP PDU 3A3 Measured from 07/0212010 11:50:39.0 to 07/02/2010 18:23:13.0 VOLTAGE SAGS NO EVENTS WERE FOUND IN THIS CATEGORY VOLTAGE SWELLS NO EVENTS WERE FOUND IN THIS CATEGORY VOLTAGE INTERRUPTIONS NO EVENTS WERE FOUND IN THIS CATEGORY VOLTAGE TRANSIENTS 15 10 • "t` b?'S de.•e^ t: - 'a J';Y5`?.w, "�i,'11YYP'::°�..•,F g Q t•i• • ,k "�Mi `�^ 1 .• ! ,._ -E �xa�.. ,. Ti 't l it s t 'd ,.'J 5'� � 9..� x' -ra' -bvY �.1'L G. � q� �l,',.N; ,R • k �. yJ t- nyq+r}vt5c, vt. .• TmS7."�y�"97"..`M'x,'• CCU N<l ki i.aj ra.ti '. iL+B� ., . �5.��O1 d.a fh.fw .4�. w °w,. RW ,I .; o-t,...�.li n� -*r•. .'1�+•i -war's , .�;4y. ^�. . iyr rr n r•dJ41 .. .... Y' byt qr .x .i.h : _. a c v, 4i r : - y�- " Mx.• xti> '"`fi,krsSh j$ r, ; yet' v.3:e.Zra. i'.�"?' 1 h R' _fw�Fii''�'� . 'II Mi 1.,.„ .ti:ad : 7^Y` 1 :"`..s '•t ��••�� Gb r`Y . i �. • y�`aVA .ham +v 6T: k�ey?e ., 'iW y.� ,, n1:?s, r t Vim. 9,1, a'CGaa �T 3 ` ' & :f?a.Ja i,}sfLi' ;n" V 'y, .... • a�rarn 1 ''.'&"&�trz f >,.ex "7 oAdx> ., .,, ^ .n.:owvaaPb .. a°t 6 J N+?. 3 to a.i}y.f':r•p! t••a•. , •••r g t t x v' q ,' {v;" '' +a? 0013000 � I � 0313000 060100 090000 CrY+YbOrVIr m+ 1213000 1 I 1 1 I 1 1 1513000 1813000 2113000 WORST CASE SUMMARY Site: INAP PDU 3A3 Measured from 07/022010 11:50:39.0 to 07/02/2010 1823:13.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATEITIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 28 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATEITIAA E Largest Magnitude C -A 32.1V, 0.000 Sec. 07/02/2010 17:47:46.60 C -A 30.1V, 0.000 Sec. 07/02/2010 17 :05:19.67 C -A 29.2V, 0.000 Sec. 07/02/2010 17:19:40.65 C -A 28.8V, 0.000 Sec. 07/02/2010 17 :05:19.85 WORST CASE SUMMARY WAVEFORMS 0 Site: INAP PDU 3A3 J Measured from 07/02/2010 11:50:39.0 to 07/022010 1823:13.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAI LABLE NO WAVEFORM AVM LAB LE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients: Phase C -A NO WAVEFORM AVAIL ALE Vats 300 100 -100 1 11111111111.M1= ■ l<1•!Y 1 111■1R f:i1t t: ■11111111 •1 III MEM____ fsft• ■�1faiF1 111W IN • mart I fa.1<f1- ■��i1 /__ 17:4748.93 1 I 1 17:47.4610 -- C -AV -C1 AmPs 0.00100 000075 O:D0030 0.00025 0.00030 32.1V,0.000 Sec., on 07/02/2010 17:47:46.60 PHASE A HARMONIC T1MEPLOT Site: INAP PDU 3A3 Measured from 077Q2%ZO1011:50:30l]YoO7/O2%2D1010:2313.O VOLTAGE volts 3 2 0- 315 a�n ^�^----------'-�`-~----~---------'-----~'^------------— — ----------— ' - ' ~~ - • —_ -------� -- -^---~- ------~--- '--'---'-------- aos~~ amm--~~---^--^~--- ---~~~~^^~~-~~--~~-^---~~~---'~- ~~--- ^^^`^— ^~ ��� --'--~-'----� -------~` • ------�-------------- -- ----- ----- oao� ~~_~~. ~~~ , __~~~_. '~~~-~~-- ----- '''---'------ � '-------'-------''- • ----- -- -- zyu 1 t I 1 1 I I 1 1 ( ,,, I I I 1 I t I i --' 00‘ �� �m�m�� ��`������� Votta 3.0 25 2.0 15 1.0 os OD 12130 Friday 1300 __-A-mvr*omss(am) ^~~~~~~~= THD H10 H20 H30 nmalnmS: 117E5 oouowy 0.00 v punmarnertaK*1>eMS: uonv TotzdmampmcomtoumnTncr. zuov(svea0.17V. Odd u1aV) ,Nevi lab =ior 1 wm '''; ''''t 'f:'''''''''''st'''';:111' 1:11 1 llll t i 1 t I 1 1 I I 1 1 ( ,,, I I I 1 I t I i THD H10 H20 H30 nmalnmS: 117E5 oouowy 0.00 v punmarnertaK*1>eMS: uonv TotzdmampmcomtoumnTncr. zuov(svea0.17V. Odd u1aV) ,Nevi lab =ior 1 wm PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A3 Measured from 07/02/2010 11:50:39.0 to 07/02/2010 18:23:13.0 CURRENT An .,-- - „. ,.. .. . 77,13*'5:•,i'. ','.$,^;-,x 4 I, . .,/.,4 , .k,e.Q.,. ii,04"4--(,--.Ty ,.. 47...vt..40-410„tsi • -,...'.s.:44-fei; •- ..fi,. ' - ..viiti.74-...41 • Zr. ''''',,, •xi. ' ' 11,- 4 1L ita, nit tx:r." , \ ( - ns TS rm r r. I:- a VwM -. l''' ' • 925 ... . ' I''..; .... • 900 k- ., • - ' • ' .__. . 7:'-z• '.....L44-- , .. . , .1..., .. . B:75 . - . — . • ..,.` .: 5.4i.''*"...4'7,K,V"'..:,ect ,}•',' 4 1, + - r ',.. ,, ,..,7 , *, l';'.>"", t' • ,,. ,.! .. .-.A., .. ' ,i :. •-, -, , 4,1, - • ,., .. .,..,..",r :,..t :4 ''-',,...14 7 At +1, 71 „. i'il„ , 3 .1 .)1.1 la,. '' ; il, I I t 1 t I r I Amps 10D - 75 - 5D 25 OD 12200 07)02/2010 Fride, 1300 1400 1500 — A I THDRss (arg) semi ter. eon., 16130 1700 1800 THD H10 Item' H2O SEM A IHarm H30 I Total RMS: 6055) A DC loyal: 627A Funciaratal(H1) RMS: 60a81 A Total Hamonic DistortionTHD: 9.77A(Em: 139A, Odd 9.67A) C osiN all, U llll 1 1 1140 1-150 PR, Y. It ;,7,•;e4t. (•!..):::.'' A',1 • . t 1,.",, ,/•,'!.......±',-,..'.'t ST:Er,' L 7 FAY, ' KW-.,74 ..i0.4,-0 .,.. , ri 4%, I •xi. ' ' 11,- 4 1L ita, nit tx:r." , \ ( - ns TS rm r r. I:- a ..,,, . I.. THD H10 Item' H2O SEM A IHarm H30 I Total RMS: 6055) A DC loyal: 627A Funciaratal(H1) RMS: 60a81 A Total Hamonic DistortionTHD: 9.77A(Em: 139A, Odd 9.67A) C osiN all, U llll 1 1 1140 1-150 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A3 Measured from 07/02/2010 11:50:39.0 to 07/02/2010 18:23:13.0 VOLTAGE volts 3.45 3.40 335 3.30 325 320 3.15 Vois 3.5 3D 2.5 2D 15 1.0 0.5 0.0 1200 079212010 Friday 1300 1400 1500 ---- B-C VTHDRss (mg) Cef1.CGO.,V1•• N 1 1600 1700 1800 1,4014.4151.0000?0Rl.0,01 1. :,,K „t7..?.::..11 i'...n,.. f7hl+Y WaM`:r:.3.�`yyL..0- 0,00,V,,_.+ was`:: "4rn.:.L.,A.- -a:.:: 2.,ZZ,,,00.3.,.!: .'Si'.s%h,... t..t:: °. i,ffi.:.i.:l.'14iff- 11- 4Vkl .,,,Alglw, 0 . 4.: t � wy tom' ryA- y y a P,1 .; G lSrt r_i .1&0-eair 1cYdti j� 1!ga ,� rttr 4 THD H10 1120 F 1 1 1 1 1 G 8 C VHarm I H30 Total RMS: 11819V DC level: 0110 V Fratdattentat(H1) RMS: 0.00V Total Hamwric Distortion THD: 3.48V (Even: 0.12V, Odd 3.48V) C.ww1.110sawn« GG, 1 1 1 1 G 1440 1 1 r I I 1150 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A3 Measured from 07/02/2010 11:50:39.0 to 07/02/2010 18:23:13.0 CURRENT Amps • el■■••• . 20 '..".Z..".:■et .:13, , ?..,' ,..',., i',....,..,,i,',/,,,b4 4, ! -- --- ' --- - ;".- _ _ A_ .41...it. 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' ,. ,-..'4,, ''''-'•':.,t1.:P.7ttif.-1-P74';',0:. 44,i;.: q, .4,,,,N4.A.,i,i, ..-4,11iNk0,,°•,,,;‘.V.te. 4".::`,.`i4.4-.0,j4., ,-:` '- . .,,•.;., ''.. ;,.v... ..-tp, :.: ',4,-..:"..0.,::::*:,.,,,N;.., 1 , - 4' ,,• • • 1. .i't't,' ...-pg :;,:,, Cf...■ . $ . -4 18 •-' .... i '''' • 05, . ' ' ' `7 yji , 1 .5:5 ' f. 'i ..,. , " :.r: ' • '‘`." -,..;11-1r1.4,. ...7.4..„.:,-, ; ,tf,,iwgir. t.;.:,.,...;;;„!:-, ......, ". :':•:".:;:2i.,‘`.!::: ' . „ .:.',.:..I.Y.,.,,.;?.,,,,.-.' . . Ci2:"?.,'`4,1"•k;;.'S‘illi7,-..*A..."'it.',.4..,''..: 14.--....,,,it.4,,...,... ... ,'...:''''.'t;.J.- , ' • ,K.,--g,,-..i, ',,,,,..is:.) ';';'i:'it:',.,, , 1 ,.A. . - Vq.,. - 15 t7, ,...4.t.•1,i,R,q., f2A.4e".11-1. ,"...-.. ' - ' ' -!..c.- . ki;;'4';Y- •,"40,04",s, -, •• 14, ‘..':-.%'.* ' ..; ,.. ,r, *fr. ,",1-...'.....-....,,- ...x ,:;:'-'..-..-„..'-.,..' ' ''''' - - :. .: .'' c.•.•.v,•,. ''',. 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"A ,. .• , -, •••••-t-1,4,•=:- '.'=i-'•,••••.-• ffeniSBEMMEMBERMEZEMZED8 Ma= 1 1 1 1 1 ArAtts 20 -■ 15 - 10 5 0 11 THD 12130 07P32/2010 Fridw 13130 14110 15130 — 1THDRss (arg) I 18130 1700 1800 uhc H10 1 1111 H20 k• riiiitglibrifiratranr3rarann 1111 1 1 1 1 1 1 1 1 1 1 1 I I 1 1 1 1 1 1 1 H30 H40 H50 =1 8 1Harm Total S: 62233 A DC L: 331 A Funciam3rdal(H1) RMS: 81997 A Total Harrnardc Distortion THD: 2139 A (Herr 13.55 A Odd: 16.81 A) PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3A3 Measured from 07/02/2010 11:50:39.0 to 07/0212010 18:23:13.0 VOLTAGE Volts 395 - ' - - . ...... __ _ - . . .... _ ...........,...., k• 3.30 : I'Vi.:44N... .4,..,:,_,,,,,;, Wil."A - ,.:'-%:".6:'0;•,‘.:4,"..,':, ‘,,...., „„:...:6.., •'''' ' 4..."1,s'r - -,.... 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"— '' -...kiy.,,,:%.::,.,;, ,.t..vj4.,,:-. •.,,--,:,,,Kg .i.,“.. • I ;I: .ir,, ?:•• s',:s. •,:l. '-'4.0, .., S .• i4lAs'''Prr'n 3 . 44:4 • '-' 310 r• . t:f:po •-z .44,-..P.): .„. - , . W.'.1'..1.,','",7i z,., ... ,,,.,,:-.. .1 ..-1y4;....::;‘ '..'''.4,, ...; •:,..! ' '.' , . .4.-.14-:;',,, " • -... -...; , .. li. ' , A,,,,,.%::24 ...,,,....,,,,,..i ..z...,.,`,:,;-- vii....?Ao, z7,4).„3.:.1 '-',.,ir "4;4'; r .° . .,:-...,,,L i.,,, L,•••,A, ., . . • .".., ' .: ... T!,..'• i'0 • •;., - •rie • ". "•;;1.4-xtVit•-", • ..,,,i ''''' 4. ' '''..';'• ,,•••,r••• -,,, • • , `111 , q• •P: c. •- e- , - ,,,..',..1' . . :§•.T.t,,,, --..,. r,,,,,,As, •• ,.,•:.,,,„,m . ' -, , ,,,,,. -.,..,,,?..1.1.,v.,7e,;.,,,,,,,: I': 111111111111111111 llllllllll 1111111 , .1.`, .. : 3D0 , , -: .""';',P- ,,...— . ; ...,,..: -...! ' • , .., i,?:::?‘,7tV,'7.;:-•':' ' • - ,.,_,.,.-,,,t,„-Af,,,,;:-.,., ,. .. ...-7q....4.i.Ae.,,,i4-4.k...,;..ir ,, iV...,.,:-.• - .,,.,,..y #.,,..,..,4, , 4.,:e. .. • ...,..,....:?..J.:K.-4i.,-.Y2.,..-.,.. ev,;(tt4.: . „,„,.,,,,,,v,.. . . .• :-...,-:,,,,,i-cb. ... ..„ ,, . ,,..., ... _ „. . ,. 41: .,.,s, ,:., 4.: • : 295 : .e.4f .7 ..4 , '', •!"4 :'.t. • , , a.41,.,,,m7:t„, ii. 40;,«•„ , lit':;;;.‘, ,.51...,'-',„.'.; ,.,A1.-::. ..i.....:59V ,k7.4"1.4,:t.T.,1':' ,.k.71-'. ".. ... ;...: 3 • , . ,,,..-. +1., '; - , ' t41, • iii," ......, ''',.:.1e... - 1 1 1 I 1 I 12310 07/02/2010 Friclaj Volts 1300 1400 150 — C-AVTHDRss (aw) C WM1..0 opNler SO 18140 17110 1800 ..1Z ■ • 3n. 1,": - - • • • . 2D k• 'h• -..x....e ).; • . ., - . • • 1 5 - A • 1.0 ,g '..!, t :"- .,..•,--•.',:': 7+ ', ,.. ;..,:.). ,' ' . ••,': A.:. ..0):-1 ,4 ',',..'" , 4..4.- • 4,7 ......." . :r•Z eg-"f" ,z ''''''... ',a ji.• '''' 4 . —' • 05 S S .• i4lAs'''Prr'n 3 . 44:4 • '-' 3 34p, 4f .: • • s :, c: ;'' 7F -4.: • -". ',4,..:;-"' ".=%;.: e :-.v.,,,,I=.'6i-,:qc,' \ ,..,;.d.,-", ,, . ,t•A• "•!1.1sr-‘, .YAY.4.3,;4:7-41-, .-....1. '' ''' '•"• :"'VN.r.t. 1 I': 111111111111111111 llllllllll 1111111 III THD 4110 H2O C-AVHarm H30 Total RMS: 117.53V OC 0.00V FundarterdaftH1) 0.00V Total Hamonic Distortion THD: 334 V (Even: 0.13V, Odd 333V) C walld •14141.1sp Woo SI I H40 H50 PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3A3 Measured from 07102,2010 11:50:39.0 to 07/02/2010 18:23:13.0 CURRENT Amps 19 18 17 16 15 14 13 1200 07,02'2010 Fridrtr 1300 14:00 1500 - C ITHDRss (avg) 1600 1700 1800 to lE g.4 iK".{'.: 1 [ I I r i 1 r 1 1 I 1 1 1 1 1 1 1 1 1 1 1 1 C (Harm H30 T0121 RMS: 63533 A DC level 322A Fta l(H1) RMS: 83370 A To HamardC Distortion THD: 19.40A(Ben: 11.53 /{ Odd: 15.93N C sod aia ■Nf. 51.1 H40 H50 • A' � mo w; r� .f�a ,, � .+tt±b "dY S+ + 1 r !• r jwpy {'yy, TWKt Y . • i Sf!'i 'a ,.y n �.:. eh s:+ * 'sHl�srs K-� , 'S '* ' p t t 'Sk. s .v T #'{ S ^ .�S . "P. e! � yp , cL.,. .,' �.. ✓ lR t.6 .. ti a B�SE s 9 R . . $Lb , `r I y, z-. R: Tin��i�sY ���$aR t y} ,�( T r.�[' < ? . ,ff 2 nVR , y } ' *;'l`fi r. + tkk ��t4.4. m,g,yr4:. is iy IVA fiE'9`✓`Y.' 7T3yyJ�P AL�t{ yj33��.�erg ■ yy 1:!.)‘r � � 'M' igg3�,Y T',yf C k~•^ .5 0.3 i.A: G `, 1200 07,02'2010 Fridrtr 1300 14:00 1500 - C ITHDRss (avg) 1600 1700 1800 to lE g.4 iK".{'.: 1 [ I I r i 1 r 1 1 I 1 1 1 1 1 1 1 1 1 1 1 1 C (Harm H30 T0121 RMS: 63533 A DC level 322A Fta l(H1) RMS: 83370 A To HamardC Distortion THD: 19.40A(Ben: 11.53 /{ Odd: 15.93N C sod aia ■Nf. 51.1 H40 H50 LEE TECHNOLOGIES” LEVEL 4 CHEC AST r �•.. .R t * rt, .w■ 1 f Y'3 ' (, , #i Y • 1,. q ij�g y t, N.- F ��Rt ' j' • s . C� i'P S^.JCC?.�a . .°�,® ri ylpp t.l8w i :4:.At,.7. ' N t r, K.W�AlC MPM■SSs NING PD ' 1t ` xt?' �> '' ;°' Sr-!' y 4," :4 / w4-,..i Asv- . ,,r, . t .6 : °�a a .' tiiSuiimittalDate•; • � .% �`{'Q'j� rWk l'iC57:y i ,• ;.o.'1b. ku "' 'r+[..�.„ t{pt'. [-�.r .r m 18 Mayf10 X Z. 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L. 5 d.h'f }E'i'�°h -'qi Customer P. b "p G{imtemr.POC Mme :. , _ �a” 'm�e c3 '?."t. -: +°C xh °Y^ • >F, °'rr h C?- 4'7!5 #L�` `5� Phune`: -- • - ' - - ' y 7 z 4 p '.. } 'fCi.' xk�� � : f40 302 ..9753 t.Mo ?e .. � • X4045547 =8915. �° a xc Y zKath $Mdnvate, ' � .,, ?= Eanmksion sups + .� Herbert Burnett' - ...A--.,?.- R �u ape :Numbers k: i a da„°e` ' t} 78i0V'JV i . F. t } <.. '`� ! L:Peger ' "LeeTduoteos eY°•.V• ;" . :de *e4 s� y `'x '` Equipment PDI PDU CX Procedure 3A4 '"•i,M1PYEh` ' 4.a«^a t cted,area :y ... ylS #k}'Mf7$i'Pi�r'it.,fi"Ad"!'i `"••" .• ev r..+ 6 , i :.. . .l ) Data " Centers ` , ' ; t•'r3' A�.i^s±i` ..t - •�w16s• ,,,,,..i„, ✓+, is T1'wt^ F 5ystams „4irerxed Load ;Distntsution� dl . 4, ., �i -s-'rvwrw.. v �3w"c''•0 w - �t: +et..at s..e.,.3 se"... ?>Fz . ".4.3.,..i ,° .,esy ti^t£` «S . .Wm: Gi«K.S +Y.7'YM iY • .Cr • 'N W. ”. ygsi.,s'7 {'4 '• °u , „ --„,c fFlif @ii[♦k tMcamattan • .armt Mali der: �. Y.§t 4 .,jq°' elk, a'4�r - °C..�{ T' rJeu.:+M aPD! �� f " , „ x +�wroA. "'�.'s':d � •r �t�}' JW 7v ��YAo d 3-s r 'r.Y+it` 1 r 4kC. 'a PDUi y,� °y.x .. , -.'ffifi itr.w. .a.i...,.a.,�gyn� _ j�.'Fai"-iz t .',a' - ?S7'fi6.fi,�. •GYt4''Fi'.iiS -). �'ryX {�''+.iiar"aa _ i' z� ,,�. '�'�m�""'^"'. , PP13- WS- 30Q- C,- 641x" i.. ..A...'.wr['A,xw- e:...U�,a+twn sks., r4'✓,.+st" sc i4' i�f r L ,y1. 11f)- 2879 -iZ' 1 ,.. -. %}. . i....rk .4'.x ISM' . .n v m f "yy,N@r,. lkV- r /Qi d(fj'e '''T :ia .. t ir, 'mac .•Y` i� _ ry ^ t+ m&... ., J M A n' ii Y+ ""''i• i �. .d �k sY "JS' 4, - A+c. bs *`n d i Air• ...7• 7. Y 'test is ri veriftt the'operaiion of the;l?DU. � t _ % :.i, •. :..t553��- k°.'Fa§.§' >vtiv�iVax.. , 4+ OS.^, i' i,: 9taY�`tr�..�'�'^".P..;'�..:.se.. ;lk'E3 CS�. Ao .T"},X4.' �"�S:^. "AJt%K.'� "`,j'' {.' �# •,'V f�fd'" •j J�,{,,,� , }.. t ;h w_�;! -; .,. r .p4 }s !. Y"fNp .�t;F e�. `i` ri .' q ,.• git"•.� kA,..Y`S '4n ds}�n '�% M �, Js • a- 'fthe'PDU •wrtl operate 'fas: er desrgn a c u S f . 'c ry t. d n f ..` .. , ID ' Pre- Prncearure Requlrements: '.ti"'".b "� ".2"Ya� L�'7G �'dY^' s^�a`° CY.t7^ .�k,�sY:$u ,b>•^F,t�` o Manufadurer's startupycompleted on }the�modrute�,� >� 4t y`'i ':...' . ,iw , t.kr,- ^17`C�, ' :'§'zr'J, `'T u. z^e � T10'"• dt' : ^Tn$SK F £ Y .fl" �'i•° i �� • Air condiboning;system is fungi °naisand capable of.supparbng,the heat load, .generaied by the PDU �Tfj 's` ,, '" • $ T si: 5"`' ' �, s. ' . =L - �n -+{R• .a i�:tyv`1, d4 .},. '`y mVliu U w • Y� fik� k pyy t�{ ge YM J C }mAx 1 #s .m*' ta'v,A-..• •' }y `' 'a 'Y°�sx 'a YiJ `^` i,j'�' 1 iity +q.w�"�Y. }*" Yt §+'k that all test equipee}}r�nq�ent that is: t� uiryed is onsrte�.and operational s� ,. k {ns�ure Lo�a5..di�bankswvnili� a hooked up 's-for testing r .. * a • i ..•t:9 !i• ;... -f '. 4 ,N. % K. - �t 3 Fd R. "' tf #'a$ ; 95, Fri fi r � � �A,tyC}}3.o}(�n`$du t awpbinty_tgo=point,tret stgtto °verify correc t wiri 4��. t•' r �- p ,�'Y�i . "- iglar.~ ,. 2'= : ?`:iia iV f�: ` i..# � eei,"`` •v 81., ',`!'ar' i x.a.y N .• KlyC u ,."� t'��•� l„ r �` 7. 4z' thie PDU �- ;,.yyr' ..'.`>d{� :. ns ^'�h.. r Xnry ' fi (. 4:4 54Boundanesiare.placed,arou.Vnd ,f„ yr ,"GfR1i `a sN'"'�'s.,i .w .' e u 1 •-.4.- JT,i, S'i r.xt -F.i Ni'irJ^• `� � A, g i ". �s'G'S '�iY Ye" }"� JJta. 4'x(` ..5 ' " "t V f Yt )'} •. The�PGower •Quality Metertfs `'set '4upand'ready toq�r�ecord � 'ern r 4.- t„.}.,:Aatt.. is ti kFP7o" .';!"•.u..3A,,t4,- „7.- 4° «`.+'..,r, ,I.,,,-•,..40,...,,,,,, ..�'a.RVSY:'<b...0 3;1'Y}P.9t.'�:a "YFbz..@r':,:5 i. 3x .-... _4i .. .�..�,wiu 'e J C _ .5 e. .iF .} -' § L.z�., ■kwe ■,ihYe y�/yr+J/ (y'/►2� ✓ ®''ik'`• �w9,,,,,.tiF .. ' 4`lt? `-i✓" H _ a;: -:. > -Y, ' Lce'duri a ..l ,, +., ,�.s ,'i�r; -� ®Ykyi a -i ? x:4•^v. ,:. 5.. , •!;'. 'Pi'v 3: -r w.or+[?�&`e: .:4,'.rvnxika�,+ew. s*+ A`5 ,e ^., `• Detailed Preeedunx .:. , .iP d'" . F ^",x4.�•'R " Si .a« .- q .,, ss xi}� �• �'P� a " %d". "{ f t' t rd istartdate022Jul10Y,}rRecordsstart tme :10 : • 4.231iXe,w•..%4Y t4.« ^3-@,S_ 7: M4. 4 ektigt _.' 'ra 1;4ix w ^ttY^' 1i t V • M 4k + /i .iia" W � lle � q,..23%. w "�ri �• ,m a' ki v� $ j^ f .:..- . Documentthat vendostartuptlhas been performd f ✓ o,7,, ,. r;':. 4A,. d .»a�,.a'rc o +:sx.r,•,;./w as.P..-a.�,7. w n } .,�..�w. Sy✓.:, rrS`ds .,i r.;-lt's^rersa: -, %+tt - §' ..e° :3t; e tt <.: .- ,... .''c` 1 ie *' �,' '' ,. „� §� -.. -, ' 3 Perform a<visual offthe.r RDA. to.ensure that thereyis =notextemal damage to the PDU , a -,,- .' ,;z, k•:,- ,:m,i:.. `Xi +4F,•:T.6- .s'`l,. ,..tq .“,,•:' .:•,e, •&.,.`..,t - vd,,,,,,dt',c...4%Y! i-`..,, eYa.. N;.-•..,,-2;,:.-:5:_-•„t:+•.r,t „fr.' .P .F34. %i.... _ .. c....;..ia,"['.,... z..+^^">r� $., j - 1"1''*',fa;,y ';;..W ifiiA:'°'4d'53 ,?torsi ? *3rr-A: heal ...n„sS,.k�� `°-. ._ '' :,.. n.,,. ,..: n. k .. :. 4 Check that,thoPPDUlisklevel andtstable`wrth alirstabllizers flush to then Tfloor:� �? • a' a •.:�- .•e�C96bifaWR�'...YR4d, . df^ �. •�be�pl is` 1'�J^...'bPC'�r.!ti!°,�r�c+dU!ta .S a;Xd.%.'�e. }'�' °.{ :�}t,.. -� i�+ § ..... i ... ...�.'L •. �`�rM. .rt 'M, .W''_ } 1, s h .. , -...: s B, it* fr- '..4 t�, ""r,.' �^ "..`," dam' < ` ! y "x.:" S �",.-:' a t• `. `' °�:* s .x r "" 5 ' Close 'the feederrbreaker to the PDU � d Ai t x ;, x b ,t, ''Z. v, � y. K1� 'i......SSS�1'd�- '.yi�liS'x$d�y (w.t it'v'.sii.D Ct1"�4 tiR' lt,£o!4. h3diy�i.YY s .iw. 4Qi'°X., :XU%'-�.^5'�R'iW'5 �.:.7PiTE>�..i: . ..n.� '.'. Vi21€':}&' k?• iieSi. • '> �ye p+/ o t'�..,- :Skt�?k7i »6w F'1'%- . -' - .p•ew%.,,.. kYtay,;i :.-;. ?,;„ni...rrz � n tT .-. '•� w Enbu.... .'gs- ., a" .:V 't IC 'y: . }}t('d sure „thatialt PDU load breakers are'l ttthe•t PEN:posiiion ,.. %M. ' aC' "F krr' } . "S?,., ,,-F.'. .mkt &`>,'a.�... :•tyCq'r _, '.; ;- ,A.,.„5. e�t+`3t< -sS;r. �a^'?m�Y 25'34 xc.e. J .see. -;X ., .. .� `:�'." e ,.1'i.. -i `.: Via- ...r..,, . ,yw r.Y,vi .' , . G? . .ue.,.y ,;;. .� PDU ” ,' .': 7 'Close,the •input maln:arcuit breaker,'inside the< .:, � ;44., s ad a `Pa,.� ;.X.r - A..,...ss ." ",:e„.' .,„4i*::z „R:'«^..,,, 4.4..., 'd ^k.S.:A.`rd a.:d L i :'.i','•1 atA; S}.y",.....Tn A• ..r), ., --G.. 4 - 'Y ., ,:r 14741.7ttr."£-YrI i a 14, Sct . � tea- i '1r Ee 7 Ptsthe montor ot. but[on �' s . 8 �7, Zgn'3 :8cay'XY"a�. � .. • ° : J ,r ; s' Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 LEE TECHNOLOGIES' LEVEL CHECKLIST Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 Input OutputnU [. • • { . A . ' 4 . 8 �1f16x' stii B ..... .-.. r ' A °' f ' .., MA , 117 �.$ , 1.1. 71 i r 64$ ;t it.et..,t ^S . . go,, a a °{ I e e s, "s c a `.., DVM 1,17, LCD �; 7Ym 8 . A® DVM� x :e. '` "� L',CD 4ZB" :' e " "$ X202 L`CD n 0,2; , . ' 44; Q ' Bo( N { a DVM ti r.. k S `:G..t 3 LCD 47' A "DWI 293 ti a••. ��k LCD 2A3 _ 228 a +w• C`AOVM� ¢LCD , k. $477; Dll�t`' "; :202 :202: e228 8.1. Apply control power to the load bank. 8.2. Apply 76% load to the PDU. KW:225 X 8.3. Start a 4 hour bum test of the PDU. ✓ 8.4. Monttortemperature in the surrounding area. ✓ 8.5. PDU BURN SHEET. ✓ ',. Output Votts' (L-N} y `:' /{O�yy ut p Amps .• ; KW , ' 00:00: A 117 B 117 C 117 A 642 B 631 C 642 227 :00115 ' 116 1116 117 643 632 644 227 '• "00::110.x, 117 117 117 642 630 842 226 00:45'. A 118 B 117 C 117 A 643 B 631 C 643 226 117 117 117 644 632 644 226 ' ' '''' A 117 B 117 C 117 A 643 B 631 C 643 225 . vg/ `.3Hr"'••: • A 116 B 117 C 117 A 639 B 628 C 839 223 � r' s A 117 B 117 C 117 A 641 B 628 C 641 224 8.6. Shut down all load on the Toad bank. ✓ 8.7. Allow the Toad bank to run with no Toad for 5 minutes for cool down purposes. ✓ 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. ✓ 8.9. Verify that all power was removed from the Toad bank. ✓ Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES' LEVEL 4 CHECKLIST Ibreaker"attt ENithe�fee±der breakerto;tli .F. 8:12. r.CE a kihat the ,,PDU }cabinei'is9 ►ot- energized' 8.2 225 KW was applied due to the current limitations of the load bank at 208 volts. 8.5 The first hour of the bum in reading was taken from Power Quality Meter due to PDU metering being out of calibration. PDI technician calibrated CTs. Conducted an IR scan after two hours and at the end of the four hour Toad bank test. No hot spots were found. Temptete Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 0 VOLTAGE TIMEPLOTS Site: INAP PDU 3A4 Measured from 07/02/2010 10:54:07.0 to 07/02/2010 15:00:52.0 230 220 g 210 200—' 190 230 al 220 A 210 — 200 190 -.4 230 220 210 200 A-B Was B-C Vrms 1904 1 I 11110 0702/2010 FridEri 1 1 i 11.30 12:00 — C-A Vrms 1 1 1 1 1 ;ill 1 1 1 1 ( 1230 1300 1330 1400 1430 G..1.1111.n.nbill 15:00 . - • V.I.:,:' • ' ' ■ • 1 ... ,T ' -'" 44*A, - ; '''.; .'"`",, tr '1. t ". .e.reliC, . , - si ... . • '-. A, ••'' .i. ' .-- •',!.;,,r to ..*:'' k ' ;4,1t."'• ,.° , ±1,..44;',..4%,.:gr .'41:01,y. ; - ','.. "14.2*.X ': .11,1. ..--,--?,,,..T. ,...„ A-B Was B-C Vrms 1904 1 I 11110 0702/2010 FridEri 1 1 i 11.30 12:00 — C-A Vrms 1 1 1 1 1 ;ill 1 1 1 1 ( 1230 1300 1330 1400 1430 G..1.1111.n.nbill 15:00 WORST CASE SUMMARY Site: INAP PDU 3A4 Measured from 07/02/2010 10:54:07.0 to 07/02/2010 15:00:52.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE T1ME WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3A4 Measured from 07/02/2010 10:54:07.0 to 07/02/2010 15:00:52.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A4 Measured from 07/022010 10:54:07.0 to 07/02/2010 15:00:52.0 VOLTAGE Volts 390 225 220 2.85 Volts 39 25 29 .5 19 0.5 OD �hw. 47 xf' 4 3:. .�36t c ^•a i 4?_ �s.:, ;�' ,;; •v >�C �b'5- .._..., i ..CY b$� �.''s^`a.'CJs+'y�, fe�.�: r�� y*�`�iyan.,a ti a j0�' ^.'a raSr�:.:.i; w "5 �k+.'�`'�.��'„ ,+�Zp it e+�a� 4440. .+ x q iFa.�ys`f ytt'°' #- 4) �y 9 t C, 7 y °YSVr''. . \'.j�`✓-.A_.¢'Y.`''ii �+ 'fl 1' 1'x'02:^ Wiz` sm r 'yn '71 r CC wH Fa ...)• ' ,Pt` 7+eN7� Y.�: 7 , , Ri '� ' t. yk "4�+T n''�a6_ yS..«s�kn y . . �' �'gd9..s4My�.,i .3 +�r+ xy !:s -� a '. "+'v4�A Y1e'"Y*' iN 1 1 1190 07/02!2010 Friday 1290 1 1 1 1230 1390 — A-8 VTHORss (ate) 1330 1490 1 1 1430 1590 `3t • 'pn�:�•'•' ' >: /' .`S.E:., N.r... , sa4^q. c ^•a i 4?_ �s.:, ;�' ,;; .. yc 1 -.• -. . M.LQ C, r 'yn '71 r CC wH Fa ...)• ' ,Pt` 7+eN7� Y.�: 7 , , Ri '� ' t. yk "4�+T n''�a6_ yS..«s�kn y . . �' �'gd9..s4My�.,i .3 +�r+ xy !:s -� a '. "+'v4�A Y1e'"Y*' THD H10 1120 ea A-8 VHann H30 Total RMS: 117.17 V DC Lova 0.00V Ftsi H1) RMS: 0.00V Total Harmonic Distortion THD: 3.01 V (Ever 014V, Odd 3.01V) toY.•D.XS tl l 1140 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A4 Measured from 07/02/2010 10:54:07.0 to 07/02/2010 15:00:52.0 CURRENT AntPs 10A 103 -4 102 -e 10.1 - 10.0 99 9.8 9.7 —9.6 95 10D 7.5 5.0 2.5 00 1 1 1100 1130 07,072010 Friday 1200 1230 13.00 — A ITHDRss (avg) 1s gottOmV,.. al 1330 14.00 1430 ... 151)0 .." tri.- Eiti Li r*. El. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 7 1 1 1 rr , 1 I 1 1 1 1 1 1 111 T THD H10 1120 H30 H40 H50 1=3 A !Harm Total RMS: 64275 A DC level: 2.94A Fundarrenta1(H1) RMS: 642 W3 A Tots! Harmonic Distortion THD: 1040 A (Ben: 301 A, 061: 996A) ■141N11111■0 En 1 , , ft :Paz 'If, . , — --, ..,, -•.--- --- ,-,„ ..-4 ,r.rt -....,,,.,- , ,,,,,..;,. t.jir: . - ' . . 77,.. e: ... 'e 470, - ",: ...2t-...i, .",", . '''.4'...V if,:li .41,-,..;.:. --`.rt:t.-'?' ",-'m -,.L-4-= . fi?,.*:-P-tA'-'7"-J4.-.v. i.-;.t.c.ffeze.":1 ' ' - , - '. '..L-- ' ,•.,,A,... f? , •,,,- _ — .. .... ....4 ' •:.., ".'" - - , t..... ' 'Lt.:, ..... „ 444..t8r:Ii.:. .%:*"„ :.. '‘..1 41. ,,,zr....4,,„:; .1,p , 0, - .,2,z4,;' .1.,x-;,,,,. xtrikas'W;444c - -..' .' ,',... . xzer. '...:444441,..2::;:i - -:. - - k--.,.. ••• .."A .... ,1 - • ' ....r ,. .....,e. ....." ...f.,4 .2:44, .. ..-....;..i, -, . 4.4),„ ' 4,t-42.1,t' -4,', .: ' ay.,. $4' - • • •Sti' ' • - ' , -• 7,4. 0. -t."=. ° '..t!t¢ . '-1.' . ' 'Z' targs144,.‹,tv t ' ••=. r 4 " r. ' 4 ..' ... T . t ..'. A, t ,* , '" '4, ',.,I,4 1;,..4 - •.,,.44....... ' _ •.."...." -:: 044•4 "' . P beb,,, 4•11;.. ,,,, e4.' -.. .,.- ,.... , ,,, -:.: ..., .. -4 . ' - r Vr *- t' ,,,, 11- .,......1...f...% ,...."4., v. .,,rvi . . *, . ,X., VS-44 7 -^,-...q,7, kr,to ,;k47x,ipeirz,m4wres‘ 4-x..tril...ir... - 711, 5-31.9"+.4-3 ...< 1 1 1100 1130 07,072010 Friday 1200 1230 13.00 — A ITHDRss (avg) 1s gottOmV,.. al 1330 14.00 1430 ... 151)0 .." tri.- Eiti Li r*. El. 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 7 1 1 1 rr , 1 I 1 1 1 1 1 1 111 T THD H10 1120 H30 H40 H50 1=3 A !Harm Total RMS: 64275 A DC level: 2.94A Fundarrenta1(H1) RMS: 642 W3 A Tots! Harmonic Distortion THD: 1040 A (Ben: 301 A, 061: 996A) ■141N11111■0 En 1 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A4 Measured from 07/0212010 10:54:07.0 to 07/0212010 15:00:52.0 VOLTAGE volts Volts 3D 25 2D 15 1D 05 OD 11D0 07,0212010 Frith*/ 1130 12130 1230 13130 B-C VIHDRas (mg) c ....*0110:osono. ca 1330 14130 1430 15130 ....-......--,, 1 .. , : ' • '?...' et , ,,,,,o, .J, • ',... ., • =t,34,-..,,,..s.u, --,,, ,,,•,. - - ,,:,.. , - , .-.„, "i't.--_ ' , .:.; b-,1.: w •,' ..... i •,-- • , , „„ 3250 3225 " ,_A ;,,' 0,,,z,• ,. ,;.-- A,,, ' ,2 •"` _ , • ,t4 ■ 4 . ,,," ' • o. to _ - .,.. . ,.., 4,. ,,,. . ,.. ,•,. ,‘;,,.. ■••,,, , ;... s ,...Aii- 1•%-- -•• ' : -: ' • - , '''' - '` :-.,,,,, .- ' - 4.9 ' 4 '''' -- . , . , - •;ii,z7. - '`': ' f: . : ' 4:,Z... .A"'"''''' e- ' fi, i.i'• " ..,••• • •z: - '' '''. - ' -' 37 ' t$...- !?,* -3.• . .... . . ..,..„,. 1:;',-..tv. .:. . _.,.. . • Ic• .,:et•• .. .. : , , i.,..,,,. , ,,, .„,,z' ,., tit, ..•., — 4 3200 3175 -,..4 .4,4,, ..°,"i4'-'-' • , p . ""t', , - ,4*,,,'.rff. 4 P' „io,... ,-., '!:‘. --...r. .1,-.1,..' ":,-- ,., ":,:w•At , ticip,‘-t.. . :,..• .. %. ' • * tle,.“ 4. '`. ,,,,,f, A i•:.-. , . --. . .1-:... 1 ,-.10,.t.d., ' i''''' ' ''.-4 '' ,•'• t'.: ' ' .1. • . 3150 . ;Or' ,i) . „„ „, - .,, . --, o 's ,;,, :. , ., ••••-i4:7••••' .1v, , . fr 0 ,7,,,,• , ,,i0i0140 a,,,,,.... -,,,.% : , ., ,,,,,4: ',-,‘ f,..f , - ,i,,,,,tro, 4,4. 1,01 ,• ' . -'4''''''ff-', r,..•Vr -",f1%,'t p„,„; , , “''' , ,t47 .71V, , .r.c. ,ty.! , ,., .r.4" - '11.... , , .1....1,,,! - , .. t • ,- ,, , , , . ' , 0 .....: • • , , , '; '.,. ' , /: " #0;1,, At x.„,;•,,,,,,,..:,,,o-4,•40 ' ' ker.:7:: , . ' — ..=-'*-: '''' — 3125 ,.% .. - ..,, . ,„ . .. .1 ,,,. ,, ..s• ,, , ... , o . -, -....; ''' - '''• ''.11 ' • •,'• -1.fz i', '..,Y" - . ' '1.-X,,,-1 , r, , , ' " '''''." ';''''''. ' • .‘r}:: . ff, •V; , , *Zs:h. ,:',„... , • t...; ,k, 4 ".• .'"Ii:-% '.'''."-'1 . .:::■IN -," .„ „ 2....s„-ii,..w.,, ,e0,,:.ZaVi ..,.„,,,i, ... -rt. ' -,..--r-,-;--0 -0 ,. • . . ''''. • • ---,,,,-,:;.&,-ii, -',------ - - - 1 . 24 ....... 4tt ',•'''''' ' _v, I g I I I I Volts 3D 25 2D 15 1D 05 OD 11D0 07,0212010 Frith*/ 1130 12130 1230 13130 B-C VIHDRas (mg) c ....*0110:osono. ca 1330 14130 1430 15130 THD H10 1120 Total RMS: DC levet: Funclarrental(H1) RMS: Total Fiarrronio Distortion ma H30 1'771 B-C VHarm 117.al 0.00V 0.00V 3.30V (Evert 0.13V, Odd 329V) Coalai alf04.411fr 11 H40 1150 ' ''.-4 '' ,•'• t'.: ' ' t , ..-• l' 'f. & '''' z 14. * t ■ 1 . 24 ....... 4tt ',•'''''' ' s• •-..r,n;i t,:,?ingt •:' "" ''-'4. .,. ..„ , 17174 -,t-it 'T.,,kitsa;,•,;::::•-•,;"7.- •, 1 ft, '.1. Mi . ro ;■:::...Ci'47 -, Tit ' --ij•:,:e41, --; -`47e1-4 i 1 I I 1 I I 1 1 1 I 1 1 1111111 1 1 1 1 I I I 1 I 1 1 1 I 1 1 1 1 I I I I 5 1 1 1 I I 1 THD H10 1120 Total RMS: DC levet: Funclarrental(H1) RMS: Total Fiarrronio Distortion ma H30 1'771 B-C VHarm 117.al 0.00V 0.00V 3.30V (Evert 0.13V, Odd 329V) Coalai alf04.411fr 11 H40 1150 PHASE 9 HARMONIC TIMEPLOT Site: INAP PDU 3A4 Measured from 07/02/2010 10:54:07.0 to 07/02/2010 15:00:52.0 CURRENT Amps 10S 10.5 10A 103 102 10.1 10.0 99 Amps 10.0 75 5.0 25 . : ..,.... ...,, T ' - • -:-',- ,z, i ..g. ' . -- ,. • f,-,rt.... .'' ' .' . • r. , t„.1•;k_ .. ' '''' _ • -•- l'i,,./...— ' — '.K.:,),•"1.: ,.,S !, ' , '..,;.A..• ' ....4 ' • ftP.' .: - q 'II* ,,i,i,its,.. ,,,.,.•-: , a ..„... ' . • r,'":";N,... .'ci,17 „, ---.'-'1- „,,,,• , ,,, - - ......i, ' 6, `" - -1, ..: ..,, . ,„... e,. • ,. ., ' , . '' - - ;-, ts,. W., gi f$ Y-'■1,-,..': • ..{.1 h 40 *. ,!, . -,, ,,-t4 , 1 , '.., -t„,-,.. ., . :ell,. -,‘,'" . . V: '•.;, On en cr, nrs R. on ,. . ' ''' ' • ' ' '''' ' •..- . ' • .4' "''! 'Ir' -''.-- wo. r . re r a -ttr a' — — 211 ..'''.-. . . ,.. 21', 4, .. , .,.. . .., .'C.K. ' ,. k., ' ' ' 2 t . '... . ..' • ' '' , ;-,'"i i',■at'",-a, ' '' - --•,.- ; ' il:r.rrl'?"..:,sk 1 o., ''''' ' •-'' '.it° .., , . . 4.::, '‘` 4" .. _ ;`"- '''''Z.4' ' - • , ,. . '''-' f•-'•• ti:, k.,..,:i.,t2.- - --,,/-4-. -" • :..z ,..',4 "'-'' 4 ' -*`" ' .0".. .5,. -,...' . - • - ' WI ' ; • 1 , ',::•',N • . .- ...4 j'll, • - ' ..e tr. fie t ' ,n , -,, - ''. .r ......1..it.. ,,,,,r,,,i ,..,.. ..,- t.,,, ,, , 4, 4.' e. . ;f: V. - • 'X. 'i • ?i ' . .;.... '.... .,..e. . ......,* - . ,41.,,, .4 „ A . . !! 1 • ,-, - ' *. - . -- .., ft. '44! „.„ , ,, sw • et :,.* ' . --,- 4Vt.l.: - ,4"-'.1, .., -1•• , t .. e g-,.."..e.' :...t. , t '-'il It.,.XS - - il.• Ez•-''fs, '''lit''1. ,- -• , ..• . ;-+ ,,. 4,-- • . ..:-..vr4o, - , r. - T, *:, ..e.- .,. - - -- - 1.q r• . - ..:: ....3.' , ::, -2',".!--- - cagW:J41;;a t .. , '''" ,„:•=vr.4:-..P.I. . glk5r,' 1 4" 1100 072010 Friday 1130 I I 1200 1 1 I 1230 1300 ITHDRas (avg) Orr nanOren. Co 1 1 1 I 1330 1400 1430 1500 THD H10 H20 Total RMS: DC loyal: Fu1darnardal(H1) RMS: Total Harrrorac DistottloriTHD: H30 = IHarm 631.M A 349A 1.14A 1093A (Ben 296A Ocii 1(130A) C re. san0 anne en 40,1 H40 1450 ..,.... ...,, -4.1fi ,.5.-itl .i,i-14,,4 '!,.',.1.--,4.r.11,-,A X q 'II* p , ... t . tirp. iw:: . ' ■ ". i , 4 ' ' , . '' - - ;-, ts,. W., gi f$ Y-'■1,-,..': • ..{.1 h 40 *. ,!, . -,, ,,-t4 , 1 , '.., -t„,-,.. ., . :ell,. -,‘,'" . . V: '•.;, On en cr, nrs R. on ,. . ' ''' ' • ' ' '''' ' •..- . ' • .4' "''! 'Ir' -''.-- wo. r . re r a -ttr a' — — 211 ..'''.-. . • q' ! t.-' ,,.1.- ,.:. ". IR B. I ii 1 r EA I I 11 1111 I 1 l 1111 1 1 1 1 1 1 1 f / 1 I THD H10 H20 Total RMS: DC loyal: Fu1darnardal(H1) RMS: Total Harrrorac DistottloriTHD: H30 = IHarm 631.M A 349A 1.14A 1093A (Ben 296A Ocii 1(130A) C re. san0 anne en 40,1 H40 1450 PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3M Measured from 07/022010 10:54 :07.0 to 07/02/2010 15:00:52.0 VOLTAGE Volts 315 3.10 3.05 300 2.95 Volts 3.0 25 2.0 15 1.0 05 0.0 1100 07Y02'2010 Friday I 1130 1 1 1 1200 1 1230 1300 1 1 1 1330 --W- C -A VTHORss (rag) C .SabD S% Yl 1 1 1400 1 1 1 1490 1 1 1500 THO H10 1120 1 C-AVHarm 1130 Total RMS: 1160 DC Levet: 0.00 V Ft snlental(H1) RMS: 0.00V Thal I t.,1nualc DistortionTHD: 16 V (Ever 0.09V, Odd 3.16V) H40 1150 i A, "ry4:?I M SS W 17. �r.."b..A . � �A 'f r f � :,r N. A�aSS �4 1 ` 4/tF�'a�y� t'^6 z+:g. ^ ,� f'�581: lea $�' F ki X't :v. 'mt., .y*$ '.. .l 4 t .»'q.r ^"g k � 1 °rf6: yxV� y .. !q+1 tro'°A'. F ~ CY .+,_,yv'fl'+Y�+' . `5 �19� r +rl<i.`�-»nk2$•^�.: 11�� t'.'i A},iaj?L 1-_„_:.1/4- ^'2` �r "1 f �.A..a LY 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 '' 1 1 1 1 1 1 1 1 1 1 1 1 1 THO H10 1120 1 C-AVHarm 1130 Total RMS: 1160 DC Levet: 0.00 V Ft snlental(H1) RMS: 0.00V Thal I t.,1nualc DistortionTHD: 16 V (Ever 0.09V, Odd 3.16V) H40 1150 PHASE C HARMONIC TIMEPLOT Site: 1NAP PDU 3M Measured from 07/02/2010 10:54:07.0 to 07/02/2010 15:00:52.0 CURRENT Amps 109 108 10.7 108 105 104 103 Amps 10D 7,5 5.0 2.5 0.0 z 1180 07/0212010 Friday 1130 1 1 • 12130 1230 13130 C 1THDRss (av) 4400.40.4440. 00 I 1330 14130 1430 15110 '1.10-,--:, - q. , zs.:,,Via.•;.V.'. "-.7... „ .14,a;.4, . :Va,',.'.O.Ir:Zr:,,, M V.'''l ' ' - ,.." ',.- ,,... ,...t. ' ' •■••• . , .. , , '1, , - , 4"1",' ' . •V'EVA.,, '1A,V,.&,,,%:,:.', , ,.. . e. • si - ' V.1. ..,. l'; 11 '''T4*, - i ....:',3, ..1'. ' - N - a* 1 1 1 1 1 i iiiii 1uIIuIIIIIIuuIIIII 11/11111111 .--,—;,;: ...-%%:,,,-. ,e;.t- -.-;-•:•,;::- ..,‘,.,...: ....., v,z• C. : , . • . .... -,,,-.., . . ---v;;45., ,4,,,i.i.s.1:, ,•• ,,.,I '.•!:, • '''''••• . 4k-; „,, ,,,yrt, - #.7 • ..4 ,....i4-- . ' •`1',:•?f,c-:.V1■ '..'.•■ '• ''... -'7 ' '' ,•';.. ,...,,....:,-,, 1 ; , -- , '• .2. "•.,•;1•4-_,,, •',' 1 S. • ; ."W",1"' '. 4."4 "ar. .17' . - ' b.. '.e: . :.# six ' .. iTY .. . „ -; ''.:' 'itg, •.' ,---:- , - , • ... .. - - . !. . , ,. k"A n••• v '%,r . ' 4: ..,4..-i.3, !".. ''' , • ',.;1,--.` l• :4; 74, '4:4•,.k. ,:rvi .. '" 1 .e.8 „ '-;' ' . ." „r'F 9,- ..Z. . ,4' ''' ',. ''' '... '.. ' .." t`'.1 - . . ; ' ..A;4*, .7•',.' 2 4.." ..:-?47 ,i,,,,"••••:. -1'2,4's,7,,t,X14% - ' ?tq' ' ' -ir . '' .; '" . ....;-••,, .r.:., • • ,,'-‘1.■ :::-/,‘...ii —"" I-3- . 4 - - -. 4'4 ..'" „.. •N : ' .--, i#:,i'k",/:3;+t4eel. .q. ' - . . . tf, : .. ' ; •-,--i-;,- v,:-.44. - :..v.,.. •&,..,,I:, . , g,..,-,4. ' ....`4:4,f4.1 • tR.,..44,..4.; ,....:., / ,ro,-.a.41,1,, , . 11`. . . t ..V..1.14.,1.4:41 .9,S.',4 --- ....-.. It., 4-- ,i, : e - —.--- ' N■, ...., V . *1.'• 4.,••.' " t"'-':1,•:A ':‘;.. • , de, ,..4.1 .1 , '.4.! .t • • , •+ ., .. , -- t : , - .4z... t: ..,.■ , ,•-t".3 ' ..,. . n,t•i',.,--,.••• 1!"`: :....:. x ,,,:•".* z 1180 07/0212010 Friday 1130 1 1 • 12130 1230 13130 C 1THDRss (av) 4400.40.4440. 00 I 1330 14130 1430 15110 THD H10 H20 C [Harm H30 Total RIOS: 64318 A DC level: 344A FunclarrentaX H1) RIMS: 64318A Total Hamm& Distortion THD: 10.93 A ( Eva 233A Odi 1166A) C 04103 100,0 04,04. H40 H50 • 1..,w;:,-,..-,>. ' ''' .. f.' , .,,.,. 74. • ., '0.00 ' ' •■••• . , .. , , '1, , .",,,,,,.., ... i . ,. . e. • si - ' V.1. ..,. l'; 11 .4-.,..x.:.,- ..4,.e.- Iii P-...; it?' 1,-,, f.t• ..,A. te w fill ,-''' v-`.:.•:,":4 ....,•},.;. ,- v. - R.- ,;',.. , 4 r- ... %,,4?„-r4i.Fgi:4;741..1...4--..!-1 ,.t '' --A ,...• ot is 11 VI tit- pm 0* MI *Pt rw. ,... : I :. ,4 ,..- ■ , ,....... -,, , t., ,. . ,... . ,:.: ;-,, pr. & 4 ,, cls r-... rft 04. mt I* et, rri , 1 1 1 1 1 i iiiii 1uIIuIIIIIIuuIIIII 11/11111111 IIIIIIIII THD H10 H20 C [Harm H30 Total RIOS: 64318 A DC level: 344A FunclarrentaX H1) RIMS: 64318A Total Hamm& Distortion THD: 10.93 A ( Eva 233A Odi 1166A) C 04103 100,0 04,04. H40 H50 LEE TECHNOLOGIES LEVEL 4 CHECKLIST ^ , • !N t-TUk9,'Op(iMISSIONING tv , t¢�.+'� ' -Ps -: P i iD�.1U [.gs -, - j S."f ('S { ,/R '< - ... - 4'5.. M . . ' . mtttaiDa a ' �` fi 18 ay }10 • .,".a4 "N.k",FY'" :3: t UI �.ro 1oik •;,,ia•�fnu • 7 02 Ju110 � Pocedurer " 17merfarno <' g-r FanK ;'i '{r3.a4v k a> <`i'� i s••.a-'tSd e 08041700 , tt t'' 4.4 �. n • Tk sramer N Intemap � • C r:aA tar tieLt Soe r rzf3 , t protect Cate tr, ' • : r •±s -.. y .d ax 5 1` e , .,, ' • u r '1* A s .• {, t� l 3355' South 120 Place "' { ,a .. T +. L:, ..rk rd ..rs .,.� , iwc e r .4, 4 T r Sv�t Y x J y'�'' t .�.: + � g d Tul�wila f M1 WA e91166� } vv aaa a *a . ' :4- .: .',` t-, `' . � . F •` r =r a -e� Kash Mclmale },z s , NtberS TA; ' ,,,,M.9,55:. ?' � r 753 f , . .! s . .'' • ` . ,5 t 8915 . LeaKeeh*0101es #ComnrfsslonPng Ta �Jrtr rYiSOT:, :° • Harbrt °Bum�gett,, .. F - fsc '' � `�t4 WtSi£' .„ � rzt Phone,Numbers �. �: .� ..ci>:.I r�ax x? =703 - 968 03000 ..z '"o'PdY,a H r »; �' ; s L713 423"4335 �` ��- .- •adn5.r. e',t'8`E a r �' �k *.ey Y}� t �, .�: P;.,p i 3r aSth,�7 .i �''' k 4���"s�, t amrJ -- `a tL4t ry uipment PD PDU CX P ocedur.oe 3A5 ` � � , . , � Affected Area: '' r Data Center g ' � kykuaF•4.-ilw -# +'H - 5 --k..• 5''s N et. • ':�, Y 91 ,.z»v.ic i,, - '`4..,, % systernls Affected 9 a9i: L ,,,,, •+C9- -wr/ -: +Ma "� . '"� •Miy'b.5 t^x. ' ^T' '� `Load °- Distnbuti& y : .I M4 { M nt, Erttaprne i R : - 4t,:eki - PdDI EWq,,1"r1 ;. iyi� ; a PDm fI ,6 8- . J 101.4; g, , i , 13- WS- 300G -&41, ' e' • • . Soviet PSi f y j110- 2579 -2 7 , ...g.:.:. ro•r at rgr, :*'/5 Y acv r C)Nervtew P.....i; . • EtS� 'v^- '`+ • t' .`.`Ck'•gy` j °.X°�. k^5 i� R *.{+'' Karp-, r,, $ :; +rJ P ka ,�� .ti ' • �`.'i } -h ai s4+Tig This testingrKnll verify the'operaiion of tfie,PDU. { -" -.. r 1' ..rtF- -§li? 4: �`.�..° ,n > '•d ' a � * xrr. a ' r ,t &- • � Art6capaAed ' � ResulCs. .,.,.ate era l it des. + f ° ,. The�PDUrwiii op>�rate.as'per�desrgn t� � - t.:0,.1:-. y � ' ` i : R >u$ i t k �� -� ,� ��- w+ t *L }: Pre-Procedure Manufacturer's staitu 'comp_Ieted + r�r�tii °r - - r.'saf %, y+.mtsn + ors --•++ ¢. ° Am: conditioningtsystemcis .functional;and•capable 'ir. � pTr ..�,Y�H qAy$$ �, TY,{3k. ".. , module S yiV r �.'�' EnsAuretthat•all testlequtpment .�F� tM.i e,. pyy ,�.... wa •1 d5` .�'�"' `t" . � on thetrnoduIe .g i ",hJ, • t .1...„, `' .5 r -r <S. r P -` G.W+ ''t'k° M ,L a> � at J'• •' >'41 -.; .c '4.%L- y7C.4. '• ofsupporting the heat toad generatedcJby the'P.DsU 3 T. � j(.y�¢,�'ft .�. Yi' . YP°iT '_:. 'tlL P L��* Fyn. „y,.t +",),,�� A d} b 'q a y S� 8 ".G 4 ISn . thatt s required,is onsite and operational a ty �(�NEr� 't- yy"s,'v,' L i. 1 r r t y Requirements: s. J :,.r 9.. i' r)4Y :":3: .25 _4 S,, R �. t' 5 'gj; -Ae., 't it i sjFC lN^ t P Load banks„,Ihre bethooked up)ai d ready, forttesting t { t ` � � �. ,� ��' ”` 9 .0, aR+ -r+�•7,,rl 7'ry - ' $'., .'k. k., {.. j`.'!�, f F a� F { a^ ..14 Conductia point foypoint :testito verily correct '^ ° �„ ?, b� gi b 4t .. 1: litift, A t#.{. p - �i 3 { undanes,ar placed around the �� L .5 "1' 5-'3C 5A '''-V" ,., +. >t ct T`Y ,+� 3, Vet -r, t '° • � ` The +Power Qu�sAa nY Meter isjset upland ready to r rd ;'� _' ssrr-., v i. 3 Y's - , /'�..Ngia.• t c sue a f � , T, a . - N , ,;, { ; k f+"n ..�,t .Y9 .ss`1 ,{ , ate r yr' .a r. F. a ¢.•.t�Y ° �� ^'.rw {f§ •x .n:,.r t i. , tx � " Qe lea! Procesdur+a " _. _ , r� 'OLYd}L�r 86'...,,,iiie��8:aaa Zr', '. .�.3 .'7 m:.: �: -, .?l:rk.:' ..:°'.R.�.r ?f..,wt. 2'::,J' �.§Y..w,• ". +i' . t • 1.1i..... t. a aP r hA' A .,.� .<, ?$ (i{B.tB�% CO i y • '•' -, szrAA: " li''3't1A -.4'9- .. ,y')) -5..i} .` 4 u1 1- +.. .Y e -. v- X'�. I' ,54. �.' ��y �.. M {� '�..^{ 1 1 Recor�& start $ dat: 02)Jul 10 3 ' Recor&start Sti�me•10:54 {f Y Y � i� '�'�"S . 1w a `~��.2.Ri� .Y k4. A, ... F:"ly ✓z.,. ., - ha,'r ` «- .':.a. M�.4 JY'i .iw..ir. _Zrt'YL(4` dn•'' ,dPTi. A, St:c ',. fief, 3(+ ,. "tk ,-- re, �:t'P'� a3;k't'k ,'s, ' � : 1i "#F x g;,. t G,2 , { yy!„ ` ?A.a 2� Documenttvendorstart����p/'�has�been rformed y }` � 7 r � wf" =pe i ,e r 9 i�^4 I"'•�' �ti.i pro. 1! .til- -.. -✓ • ... ^ut: b fe. •r? a.} ( y n'S!C •45.".57 ) 6':,.. '�,. �. .2P.".. - s�:.Yct5P'::::4� G•ec-+' 'w;. .$ .'S M ... )✓ , ,,,, .. .: Yj9sdgtt tt:.i. y.�,.,�,. gcef. ,.f,A .rly YJb-. �!' •.fk N. 45 :: $t: , 34 . Perform'a visual'of the�YPDU to ensure- thatthere'is�no e temalsdamageto :the,PDU y�rtx } .,, rs..a:'.. . ..a,.x s,'`.:ct„.tit fr+tt83ma L` F' +'r'f .:M.:^- ..',;.d.'W-x[i. %sF e':.`�e}2.'T 2s -if3:". :'. .Wr:" 5X14.' 'i .S :'i•. �' PN.f,W h . i' i$•ii : ✓'� l k :° fi , ,} ').s ..g•. }.+i.`, S F4b.ffX i ". :4 -' .+'V '.;' 1f.'''t,. t '47i.4' t-tr- 'fib`- - y r�'7 p✓'Y ""{ ix`f3 . - Check that the PDU is level and Stable with all stabikzers fiushuto thekfioor y t� 4 s n €.sat4 " i 4..:'.Urr. w i' 4 nRW 7 ... ..4,v.Y: m""A. ,.7.i'�slpt�rf,`9,,,5,0 i' 3R t.�fq + ✓, t'S -• ,. �.p 4;.3:-. 4'., M+)r" e*5&'' i5 .j'.it '.'W. i� i:* r°. ,.,Z !¢ Y- K 44vgl,- Yi' `�' �'� ? 2•f ' '4 'ny3" �°�' 4. i'. 2 • °t ''' ' 5 Cloe the,feederbreaker to the PDU w :,° w fr: :{':1'�:�?',<: a.�v +^} cai„Y.•'.;; YA ?�� &�:ta.i'uS�r�i'u"Y.. �e. � � �r L. b S. dt t'..L. � � �. ..,ash ir" N�.d'i .' r`W T"Y'Y3 -`. , > w _)'7X'i 'Z'i r2{ 'k{A' ` '{.1'Sn,,AA-W,, .ay ,Wt�M1:. .. - r- ¢�„"G'' -Ckfr �`k# '�GP `�`{"'' i'' ,4'"'ss{ • 't3t 7f 8 En'ur that,aI PDU breaketsAa in the OPEN p icon 0`. y't% id:. . -FJ GlY° "w. §'' F,. 1.,. ti . -.�t,.1.? 4-I. r4.rx. i�- r:.A_"ar.tL. : wad, 4 t. § .r .. '_tea t:# 'i�'.. 7 Close the,inpui.main crrcuit breaker lns ,,the PDU �� ¢ � ri _ • ..t. A't 0. ! �4Lt 7.°.'9id +dS• -i-. tW 4'!a .,o. `�4' T to ",... " ✓`i!: ry$s=>sl,, J'?> .`6iC' `.... ,„tA: •{'r.«`'t-F.4: , '°'°= j 4tn - `` :•_ e. $' �P®®ress'the monitor button d.{.-.ii,,,,,, 'i%Jl.• � .}�. 'g.�, .g ,y'... <,v �r ',�,. C t sue' §q 'k ,y' -"P{ t a13 '4'`}�4 C t r� � .. Gr 4 a} n a x1 4 fi X r �"�'1 ". �r'','ie J�a'1 ��ry ri t�C. t% :,}&l aa. rltlr "iG °. dY`..7 to x:�,. >... 'L: tt!Mr�O'fiX'Pi/ Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 LEE TECHNOLOGIES" LEVEL 4 CHECKLIST Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 -,-:input v- . Output V .z . o"ICP t, Amps 642 iht 1 - D 116 116 B '_ 0 dsa -a.A M'" ' ... Ato a tt t DVM 117 LCD 117 648 C u.. E ^ to _,• r DVM 117 . LCD 117 648 AB DVM LCD 476 DVM 202 LCD 202 ,; ' 1.1 BC • DVM LCD 477 DVM 203 LCD 203 KW 228 CA" DVM LCD 477 DVM 202 LCD 202 KVA 228 8.1. Apply control power to the load bank. 8.2. Apply 100% load to the PDU. KW:225 X 8.3. Start a 4 hour bum test of the PDU. ✓ 8.4. Monitor temperature in the surrounding area. ✓ 8.5. PDU BURN SHEET. ✓ " • "'e i Output,VOits (L. N) :'OutputtAmps • e , • -,ICW - %�' 117 117 117 644 648 647 228 =ir` 00'16 •, • 116 B 117 C 117 A 642 B 847 C 648 228 "'OO:3O•:a 117 B 117 C 117 A 642 6 646 C 648 226 :-00:. — 116 1117 117 844 649 650 228 -';J; x 1I I A 116 B 117 C 117 A 642 6 648 C 648 227 •2Hr'+ 116 1117 117 644 849 650 228 `.3Hr,'" _, A 116 6 117 C 117 A 642 B 647 C 849 225 HYs•" ;° A 116 B 117. C 117 A 641 8 645 C 647 226 8.8. Shut down all load on the load bank. ✓ 8.7. Allow the load bank to run with no load for 5 minutes for cool down purposes. ✓ 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. ✓ 8.9. Verify that all power was removed from the Toad bank. ✓ Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES' LEVEL CHECKLIST 8.10. Reset the tripped input breaker at the PDU. 8.11. OPEN the feeder breaker to the PDU. 8.12. Check that the PDU cabinet is not - energized and safe to work in. 8.13. Secure from the Toad banking. Comments 8.2 225 KW was applied due to the current limitations of the Toad bank at 208 volts. Conducted an IR scan after two hours and at the end of the four hour load bank test. No hot spots were found. Lee Technologies Group has witnessed report. Punted Name :: Herb Burnett participated in this procedure and attests to the accuracy and completeness of this 02 July 10 Template Rev. 07022010 Lee Technologies Group O Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 VOLTAGE TVRI EPLOTS Site: NAP PDU 3A5 Measured from 07/02/2010 10:48:52.0 to 071021201015:01:00.0 200 150 • Imrtz * A-B Vrms 50 — 0•+ L — B-C Vrrrs 200 — 150 —b 100 -m Ott '}].4h:=4�- h,;1:7T . :Yr.3t 50 — 0 — C- AVrrrs 1 1 1 1 r r 1 r r 1 r r 1 1 1 1140 1120 1200 1230 13:00 13:30 1440 1430 1540 07102!2010 Frida/ c..m.a.oaw. u ACTMTY PLOTS Site: INAP PDU 3A5 Measured from 07/02/2010 10:48:52.0 to 07/02/2010 15:01:00.0 VOLTAGE SAGS NO EVENTS WERE FOUND IN THIS CATEGORY VOLTAGE SWELLS NO EVENTS WERE FOUND IN THIS CATEGORY OVOLTAGE INTERRUPTIONS NO EVENTS WERE FOUND IN THIS CATEGORY VOLTAGE TRANSIENTS 1 0 i 0001100 0311000 ' F 060Q00 09/3000 1 1 1 12 /3000 15/3000 ■ ■ 1 1 18111100 5 t 210000 WORST CASE SUMMARY Site: INAP PDU 3A5 Measured from 07/022010 10:48:52.0 to 07/022010 15:01:00.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATEITIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATEITIME Of 1 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE/TIME Largest Magnitude C -A 27.9V, 0,000 Sec. 07/02/2010 12:15:34.22 0 WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3A5 Measured from 07/022010 10:48:52.0 to 07/02/2010 15:01:00.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE . NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients: Phase GA 27.9V,0.000 Sec., on 071021201012.15:34.22 NO WAVEFORM AVAILABLE Volk Arms 300 + 0.00100 000075 000(60 5 100 100 000025 0.00000 inn ►rpn►Iw ►►r ►n►Innlr►r 12:1534.2I0 12:16[34.220 12 :1E34230 -C AV -C1 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A5 Measured from 07/022010 10:48:52.0 to 07/022010 15:01:00.0 VOLTAGE Volts e 300 -t y 295 '' >yg .. 4. 1 3:a: rilt:tl�tr+4454tt k .-'+} F''I naCwa - y a 4?r •"':.: r Y 1 p a AP .e7 � p� . ye,•rw 7 . t i r '� a W-> 1^Lt t`r.P + i etc'*Stiafc2 '16 fY. �^-t r L 4X@Y x zYt ?^2 � f� i vE�s pt a- na F 6a- +Yr lt .. • 4t C {"' ;1sP' . ry ',iM , 4 s�`x.'eYJ:+ + d�"y fi G,y ' . I _'� •t�l\"'}Y�'say 't�� "� 1 ;-. j ,- y -aai7 b+ 0 iy~z1�;, Cfi f 290 — 285... ' ••y + ia ,s�� ' 3 to ., r . , r ' , 'rf+;7ei L� F3 i z- t t S. e '�� s� 4�ti "1,K4r.€ . `2` �" �f< t1 !'Sg e 'qz ... 7 I"" �Cz.i y I l+q ash' # `+ +s` i+-}- t v f' .b�'�-^•'t�-.�I.'x .:.t 4�' OT t is = > "+•i Iw1�t'E_Y..� N `' ": -"z MI• v[H. !"° .- ,�c.r'','{ an,fd:.`.t ?irr;",V0' a tea rY+- ', -'..3. . .: tir ,.I ar.�1= _ 't�i � ,' I g p ��tp.p krsP'.SDA' •.�?4' 1 1 1 1 1 tJ a 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 I 1 1 1 1 1 1 I 1 1 I Volts 3D 25 2D 15 1D 05 OD 1100 070 2010 FridW 1130 1200 1230 1300 --- A-B VTHDRss (rag) C =ma .110eMe YI 1330 1400 1430 1500 :rd d'r. <•e'::tY,j4,e.�`i:. 'i: +.3brii• , "'rRt.;',:X.S:i/S!::.Fti iL',', t°.,� L °a:Yi.. 'Ln'If' 7''C 1 3:a: rilt:tl�tr+4454tt k .-'+} F''I naCwa 4 r,3•fF4.".�f .. �:A' 1'04,1 ; j� zYt ?^2 iy~z1�;, Cfi f to ., r .+# t i4, `at ' , 'rf+;7ei L� F3 i z- t t S. e '�� s� 4�ti "1,K4r.€ . `2` �" �f< t1 !'Sg e 'qz ... 7 I"" �Cz.i y I l+q ash' # `+ +s` i+-}- t v f' .b�'�-^•'t�-.�I.'x .:.t 4�' OT t is = > "+•i Iw1�t'E_Y..� N `' ": -"z MI• v[H. !"° .- ,�c.r'','{ an,fd:.`.t ?irr;",V0' a tea rY+- ', -'..3. . .: tir ,.I ar.�1= _ 't�i � ,' I i 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 TH0 H10 H2O A-B VHarm H30 Total RMS: 117.33 V DC level: 0.03V Fteffirr'rdal(H1) RMS: 000V Tail Hamnrdc DistortionTHD: 3D1 V(Ever 0D8V, Odd 3.01V) Ceal.u■O•N" Y+ . H40 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A5 Measured from 07/02/2010 10:48:52.0 to 07/02/2010 15:01:00.0 CURRENT Amps 95 9A 9.3 92 9.1 9.0 8S Amps 10 9 8 7 6 5 4 3 2 1 0 1100 074)2/2010 Friday 1120 1200 1230 1300 — A ITHDRss (am) ••■1*.01wVie• 1330 1400 1420 1500 • ''''.14WitglifilVeki ' .' 4,-- -, 04. : - ,..:-::;.: - ' , r.:7 , ,...:-, .ti-....: .'.14 ' . -..... . , 4,441 • . 111744, 01-44s, It.:4 44 ,4.... 6,4.N. ...''....*::.''.. d‘1-114e-. ' 7 :),':::, .,,,:-.AL... Ma'''5.44,4?4'...1''''''4=54t . , .'.1.);.,,,,i,24:t' . 1 . ',..- . 1..,,,I.V-4 6,.; • A ' ,••i• : ... I ,... .• ''• ' 1. '.. r,: ..' ,. •:: ..10'.. . 1.4 7,,..4t7';'n'i%•:14 -- ' 7 • ii....,-z.4'41-gi.4„.< '41,k.f?: , p f -;tt.••,,, , ••°.', h IT.fr.?:' • ' 1 . .,,..6 , . , gt'.11 ......,4 . M.., ' ,f :-.:V.1 ..:$ ok= 1 - a . 1 ,. .1 4 , , ... ,n..,,,, ,, 07:,:l - s4 r,";',.:4, '" ' „ - 74.-.1.-4I 01'1 .....m... ,V,W.; * t:.4.k., .N.., • . te ra -;:' S ,z).4' „ ‘...L.,..i.„ , ' ' ,,,,....4‘..‘.4'..., tz.'..#11; ,-7,70‘:-.1-&i.,::?.. 14, ' . ,,, -,..., -,., „.., •••il"'-r'• :•: 11 ,...,:t•qopm kl,...,,7 i '. .... '..7,,,, , , 04'. ' '.&• .i...•-•},-c• 5,16. -..P'e- ;'''' "t** , .. ..,..,,,,... :-; Eel ''' .,,, ., t'' • f' q ......., '4 . ,.., "fi- ''...4---.1.:• . .., , t',." •A. 1,•/;:1-1L .. ';'''', , 4 4,,. , . ' ' ' _ .. . . •-•,-...,-,,,y, . , .. . '•.' • • ' ":. V 1,V44:,, „ .,K:',;.Wi A. .,.'"4"4:414:11 ' . 7,1:5 '•.% , ...,„ ,,,,,.. FA' 4, 1,;4,, ,, . '4, i.q.:447 `.: .7 VI 'if ' ' '.:4 t ,,,e. ' l'i '''' ,,,,... k'-'4,7A •S .4 ' " ' .,,,,,.0.,..„ 4 , . 4.1, '. '' ' ' '.' ' - 1'1! • ' .. ' , ' ' " • ' H, ' 1 ;.1.;';'' ,' • . .J, ,ce4.4.:,-,4t :•41r : '. t • '' ' - -,,.4_, ''''''' " .I'V'o;.:!■;. v...,., ,. ... . ... . A 1 .; . ." • 4?- ' . , ...; — , , ......._. .P:;/.1.rf". ' ''' r 4,;:. ...:4=';.11% r 4 yr i!,..: ' .,' ,..;..". ' ". , -4' ', .. . ' ' '_. • , '043it. :,•::N•w,..-..y•-•-n.,,,z,-..). .f...,..ity;,,,,,q, - , ; 1,,•, . ;,..:. ,., . . ,...,,,,..., 4 ,., , ,..),., :qp-s„,.w9 - k ...0,4-44.1 .:,-.• =••.."4,:,..;7N • "•• ',- - - *•1, ;*' ,, •,.. , "„fr;514 : .••• .. .•'• • ,,IT.--..4• . • • , ,, -....,,-„,...7. ,I.-•.. . • tii94. v.„,.:4.1::::;,,,f,:. -P• , : 4 r ' A''''.-• ,3-44„,iii•I '''$.41.*^1,• 1111111111 I 1 I i I I I 1 I 1 Amps 10 9 8 7 6 5 4 3 2 1 0 1100 074)2/2010 Friday 1120 1200 1230 1300 — A ITHDRss (am) ••■1*.01wVie• 1330 1400 1420 1500 THD H10 H20 IBM A IHarrn H30 Total RMS: 62554 A OC Level: 4.01A Fundamental( H1) RMS: 84A Total Harrnanic D istartion TH 9S2 A (Ewrr 0.46A, Odd 9.51A) Calml.110 awYtar IN I H40 H50 • ''''.14WitglifilVeki ' .' 4,-- -, 04. : - ,..:-::;.: - ' , r.:7 , ,...:-, .ti-....: .'.14 ' ;4-r, ',.v%:3.,,x....4-:.‘,!.,,,li , ITIAnS1,., ,, it,...6::)?1'.,t-ert Ityikv6,5 ; ; -; .,,,,,, ..`41‘ ...t',,, ..* , v ,.. -v., -.? ' ' i 7-l'I''''12,6.:...,,,e' itt:ril ;'..**.. '. 4 ' et..".a,' ' ...''....*::.''.. d‘1-114e-. ' 7 :),':::, .,,,:-.AL... Ma'''5.44,4?4'...1''''''4=54t . , • ' . .....1 ' ' ' '''' ' ' '''''' ' ,..1,../5„14:7.'„, ,,...Niu0.1.-41:l '.. 4. ';.''.. 4;4' r , '.-i' i .,. r ,,11.,,I,N,':;;:::: .*:',44-,,r1 a. , t 4.43-6?7,1•-iN•.•.,,,,. ::-.1,,,,...N. .1, ii....,-z.4'41-gi.4„.< '41,k.f?: ;IV/Pz'....1.:4 ;....:1..,..`,SY,r;;;•rn% Y:4. 7. •• . 4ii•Alt"1"4` Vt 'al ..T .,.; ' ,_ .. .e‘ I 7 s‘. ;A3: ‘,Nt■Iti:idf.V.V.t*.: ..14‘. ''' V. -4..... ' : '..-<..,i,.....1.. , gt'.11 • ':.1 - L V fz;'64..V:-.,-7,1, • -15" . . , rf'''.;-'47,":,-;4:4141,1,:t.,A1:4,4a4iit11,-..-„,.4., ,....., 1:,:ie iit.,;m4,‘,:ttif.,:. 4.;41,-;;;'... 7 - 4=46 1■::' tk7 14. • .1. , P v ,'.1-0•Z . ..; .; ',",,-;,:.". ',:ifia,51 ',."' ...... il.. 4...;:.:‘,...;1 ' - '' '..1.r. -1.4,41i; .".. i ..: .4.' :-... .,i;i,.. : . ;40''' : -i,....Va..5".t...y,' ‘-'.' . ' 1,V44:,, „ .,K:',;.Wi A. .,.'"4"4:414:11 i., . 7 i ; ,1'.fl'.6,..hil“..:i'V Av.: i r.,.1 A '..■."-,Ye., '.. r.. '.;', ..` .'144.1A i.,v * . r,,,,, ***. ' '1Pft.'!".""Mirri .., - --, , fik-figilk-e, .., 7,..--,,.:;,:,:,-f',-;4•17,v: 4.,,iii.„1-iiii:::::::;.:-.-,1:r „.. ' :,-iii°°"•ATI „I9-1,.. ,,,,,. ,Ria. sfiz:;-= -:::: , ., ,,,,,..i- -,--1.1 1 I(tIIIIIfIIIII 111 I I W111111 1 1 I THD H10 H20 IBM A IHarrn H30 Total RMS: 62554 A OC Level: 4.01A Fundamental( H1) RMS: 84A Total Harrnanic D istartion TH 9S2 A (Ewrr 0.46A, Odd 9.51A) Calml.110 awYtar IN I H40 H50 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A5 Measured from 07/02/2010 10:48:52.0 to 07/022010 15:01:00.0 VOLTAGE Volts 3300 3275 3250 3225 3200 3.175 3.150 3.125 a 1 0 4-- 0 1 s Volts 3D 2.5 2.0 15 1D 0.5 OD 1100 07■02I2010 Frida/ 1 1130 1 ' 1200 1230 r 1 1 13:00 1330 --- B- CVTHDRss(avg) 1 1 1 1400 1430 1500 1 1 tl l 1 1 r 1 i 1 H10 H2O Min B-C VHarm 1 1 1 1 H30 Tatal RMS: 117.10V DC level: 000V F nertal(H1) RMS: 003V Total Harmonic DistationTHD: 330V (Ever: 0.14V, Odd 3.30V) r c 1 1 1 H40 H50 PHASE El HARMONIC TIMEPLOT Site: INAP PEW 3A5 Measured from 07/02/2010 10:48:52.0 to 07/02/2010 15:01:00.0 CURRENT Amps 101 109 - 99 98 9.7 9B - As 109 75 59 25 OD 1 1100 07)0212010 Pride/ 1 1 t 1130 1200 T J r 1230 I 1300 — 8 ITHDRss (En) weld eatbOaa.I. II 1 1 1 1330 I I 1400 1430 1 II 1590 - 4 i-;•-•.11,gr4sr-P_A.,12 -A ';iffi`41',-- 4.11.: 4..,-"--: -,.--,1"• ' ,'e•''ilt--•:,'',:','-`,--",..;„ ,', -,- a.A., , . . ,d. ,,,a...,.:F. s;L.4:11;;. .... ■ ., ' s 3 • v • - '-' . .S4A41''' .,,, ;•7. ';:;t: .4..-; r 4 .. 5,./„.,,i,, - 7.,.,.,,,,,:., .... ..?.,,,. .4; 6',,,,,. , . .“. g,4 . ,, -.. .,0,,,'.-.0 1+7.1171 •A "..' •,•':i.?, ri,04'"C *;4" ". ' .4t- " o`-g,'.n4..*;,1* 4 -,-, • , "' ,...„ ,i ,,...-....,.„,A,;.., ■. ' :,:l,1,3,, , . *if ,. " %, +.4713 '" . , . ' 4', • " '''' g .A.:0,,a.,-, vt. - • _, ..• i „AT' -, , - kfl.14:44111.A, •••.• . ‘ ,...- ""gi - It,: .- - .........-,/r..: .:4'4•!' "r , ', " ,ti ,i„. -i•it',--, ; 1 „. --, ''. ... :,. p ,,,i 't „',', 7,....r. g - . , .4. ' .„, -4.., ,. ,,g, v.:. 't,i-• ' 1.7.''` *4- • ...- -. -= li r . ' ( ftlfp f -7- . '•-•,, ` . P-, . :: . : ••;',..r:!-- •.‘,--M- - ' ,,,,,,,,„ g• -t•-' . „ . - - , .. 'T• . . , '.., , .,,, *f ki-fe.ett il .0-:?, 1,,, ,1 , . . .6...„..,,,,,. .. „ , h_ ..-.....t. , w. ‘,, ., v. I ' 4' 4, ' 0: s - -... 'i. ot.- • ,. . •,, - • '' V' ' . , .ttr ' , 3 -';* ' ' ..,t :- ,, ,S,"3 '. ■ t"i7"..;,*, '1.4 ..('*': • t'''3.3' ' ' : ''' - 3 't '4P2 k..4-t ',..1„ ' ''''''''L .`. . ,. l'.. ' — ! '3 ' I.' 1 1100 07)0212010 Pride/ 1 1 t 1130 1200 T J r 1230 I 1300 — 8 ITHDRss (En) weld eatbOaa.I. II 1 1 1 1330 I I 1400 1430 1 II 1590 - 4 i-;•-•.11,gr4sr-P_A.,12 -A ';iffi`41',-- 4.11.: 4..,-"--: -,.--,1"• ' ,'e•''ilt--•:,'',:','-`,--",..;„ .... ■ ., ' s 3 • ‘... i t,, • • t , 1+7.1171 •A r . t1., 1 .:islii i 4 1 t , ''' ""i',' 1 ,3, . ; . , ,IL-1• . , ',. , . ' - ' "'. • , ,t t,- .„1',` .,4 N" -,.' :1, . . 3 4 -. 4 o`-g,'.n4..*;,1* 4 -,-, • , "' ,...„ ,i ,,...-....,.„,A,;.., ■. ?A !,, -7;1.7: 4 :4 *4 ' , ,t, 1 31 "' . `., ' '. THD H10 H20 Totai RMS: DC Level: FundarneniaK H1) RMS: Total Marne/tic Distortion THD: H30 H40 H50 8 !Harm 63C2 a) A 3.90A 631.97 A 10.11 A (Ben 1382 A, Odcl: 1009A) Cr. W1,0 4.141. PHASE C HARMONIC TIIREPLOT Site: INAP PDU 3A5 Measured from 07/02/2010 10:48:52.0 to 07/02/2010 15:01:00.0 VOLTAGE Volts 3.15 3.10 3.05 3D0 Volts 3.0 25 2D 15 1D 05 OD t{ at`;k'3; ''s ai :x. x•4*S �W. �� • t Y °w'•S & iit r tr£�s« 'A - tm•+- fiY,J�.17 r`'chFi'+fi y :1ri S f 4 "x. wLfa •r 'sS , NSF S' Yi'C, ? A +S 4`i'.A j . ''t y' , fil cep r . % b7 t ��% '�C 'K. fit} T�• � >; � . ... a� C '$ j� 9k � ,t° rs m} S• ^r'6! _• Ck�-'a ^" i T xlz. +'. t.!a '�. ;'1',{e kt�� "iTrR -t' "� ' t . � 1 t j •• 11 f='. { a i N ti sl v •`{� in �L 'f,E „Ef.NNT d rrs L. , �f '� t 9 O� . ,, l 4 i4 V • CMSgx iT Nt i'�'S .a{ ^�M aAk Yc` S.1 r" � t -.' yy {_$ 'aS •. a 1 • p r2 -21 rt�,"ey; Y'�n � '+1,j 1 4h�jCA °� i�.£__�__, .•: I ((' ?SW, -+.a�. : .s. t• e . ',•°:. axt•rt7xs s>tifnA -j'.t ��..,�}':1iY.F ) 4 { `. i14 - -�" } r•2• - • 1 ^j'� l l `•� � - fa_ - � -.: ("� �•. t"�i..i`9 t 1 1100 074402010 Friday 1 1 1130 1200 T I 1 1230 I 1 1300 1 1 t 1330 - C -A VTHDRss (mg) c er rloetn*. 111 1 1 1400 ! r 1430 1 1 1500 t!, t x e.v ,i �' �, {.. .. 5.�t =,. .,. ! �y{}rt a f,1 -7 `. i., a,.+:}'.�- M1�, 6. y. 1.7 ''' ,4,y L t d_: *e '.�if}i b fik` !' .rR•1: �` �v3 kCPr't . t'+4f -.�'• ti. } i iM<, 1f . 4 ••CC :'k a si >..IT+Ki �r. } �'. �"�5�;[`i, �}✓.L�. -f' ..1. {Xn"�.�i._ r.M1 - —r-'a b7 4 a _. x.1 L. f • CMSgx iT I / its Yc` S.1 r" � t -.' yy {_$ 'aS •. a 1 • p r2 -21 rt�,"ey; Y'�n � '+1,j 1 4h�jCA °� i�.£__�__, .•: I ((' ?SW, -+.a�. : .s. t• e . ',•°:. '',�.'1� rCSi .. �.& M1 3°Y*u.f•�'. ju', „..f � $; S`��' �A{{�r 't s>tifnA -j'.t ��..,�}':1iY.F ) 4 { `. i14 - -�" } r•2• - • 1 ^j'� l l `•� � - fa_ - � -.: ("� �•. THD 1 1 I 1 1 1 1 1 r 1 1 1 1 1 1 H10 H2O 1130 1140 H50 C- AVHarm Total RMS: 11651 V DC Levet 0.00V Fwffirreritai(H1) RMS: 003V Total Harmonic Distortion THE): 3.17V (Evert: 0.09V, Odd 3.17V) errw..K..of PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3A5 Measured from 07/02/2010 10:48:52.0 to 07/02/2010 15:01:00.0 CURRENT AMPS 105 10A 10.3 102 10.1 10D 9.9 10.0 7.5 5D ''''' • .., * ''''its',). . • .. t!.-. . ,, •wr'.7::1'!-.. rt:Itnr: k.'4744;;;" • '-i4-4- t • :,,*4 , - - +; . 1.4,- . ...-.; 4 "..:;•'°** : ' ,:,,„, . -, . , .)....... .;'r,a. ii..4t7`,T.r`t ''' ':'''',."14:i‘';''PrA4P4. ,,T.A....-3 ..rtkt, ''..,,,,*,•, . &N. .4 ...+, '"•• . 3* - ' • ' t • . t,,, -, ... . .. ., „ .. :, ,, ilet"' ' ' -,..„. ,.:' •••,,, ' *,.r,Z.:17.4.:- ' ,i, - '‘.1 • $:. . ". , . '''' ''''''''''''''''..-f.'" • . '.. .A*44 ,•!=kr tPP:i, , ... , . „04. '''' '''''' ::, ..".1 ."'iX ,'"ft - ' **''‘' -,..f.,' . '''' . - • . 4 ,,,,,,/ -._,-- '-' --, At '`• - lfr----■ 1, •.,• , , - , ' .,. =" -: . '47 -. *`-`": "4:7":77 ' ., •''' ''.i7 * • -** '''1""i ' . ''''''''' , . , ''''' - --, .... ''''''''`* ki", • ,- "'-',:**' ' * ki..1 i*.:*,... ;.-.;,; — v....'r v;:...-..,:r' , ':it,'A :-....r....•., IT.t..1 - . ...:°"'• :".; 4'. , ..e ,6". ' ' . 4. , ,.. . -,,„: ,,,t„, „ . -''.'..',. t.,, ',. ' , , ,t, • , , ' ,i..,. ::: i.,,...:, ,..".- , :..: ,,,.,.., - s ,,... V-..**_, ,.. , ,-, ,, , ; ... 1- ,fit., , .; .. ' ,. .'.', ,, : ,. .--g,7*,' p: - s „..' ,....:.;,, ,',,..:-,. iy,..t 1' " , • ,t . 14-4141 ^ :' 1 .-:1,..;:. ,.. . 1'; ' ;1.,-- •. ' '4,1;,./i.1 >" ' '''' 5-'111:YM ' li--;j!..%.,..: k ' ' ' "" .f.`iiifl.. — -.'" `Altr,!, ':! '..-t.""iiiikr P*CIA" .i.,1%',..7. '''''' ' - .: . ,, , ,,,_, 46 - . — r '4" . .Siiii,:..!. ,.:!: :'..,',., ,i,.1,,1:11 -.: , :Ai, 1- - ' • ' at' - ,--• 4'-' ,. a - ' ' '''''' ' . " . ' . . • , .., . .,. . - . .* .. .., ';','. ' , , --: ' 4'., - ,.,,,,,,,,a;-:: - .4-- .,6--r . °. '4. -- ., .,vi ,, ,• , ' .,a ,. ..d ' ' . 4. % ' . - - • ' ' A ' 4„,,,,,".44;k1::',..c4. .,', . 4:4--- .•`' ''''' "qh.,. _ „t., 1 1 1 1 • 1 f 1- 1 1 ' 1 1 1 1 1 1 1 I 1 1 25 7 1100 07/0212010 Fridai 1130 1200 1230 1300 - C ITHORss (ing) C mosuil .1■DroV.or IN 1 1330 1400 1430 1500 l THD 1111 1 H10 1 1 1 1 1 1 1 1 H20 Total RMS: DC level: FundErental( H1) RMS: Total Hamunic istootion THIY. 1111111111 1 1 1 H30 C Harm 6333)A 4.63A 63310 A 1047 A (Ben: 040A Octi 1046A) H40 H50 LEE TECHNOLOGIES- 1NT -TUK i 6MIMflISSIONINGr -R ®i DU LEVEL C IEC LIST Cuaawnv's-Solonoa iTast Ceres Address:a 1:674.4;17"46 art o 1i 3355rSouth•12 CusitanWPOF Nano: tnya�m�ai teekTiChii erbert #Burn 1,7u k ifa WAS. Pager. '47034068-03004 '. uip!l nt PDi PDUZW ' +fit,. 4s. Affected, a ,DBtaJGenter "' oadDistribi pia PP1'3 WS=30piwt. S a: .ff; az6�� nrrr<crpeted 'The'-PDUvillopeiteas� a�Resrvtss $� ,�, ."�t��,r- �'ti`i:^'� r:�'•'r*s r...Ytr= 3t isr ;�=i1 Y;r+ay'�a `rManufactuvat's startup corrtpteietion•tite,modWe Ar condib in(y{�+�stem is fund anal sand =carya{(ble}ofsuppdtti�y�g g" f'.•...ac .r Vz xhsa' i"f"" ....c,".. Pre- Procedure Requirements: Debsied 'aced Ensu rbethat Rall e t est equip ent that s "req ui ius iongns� , it e �}. Load anks;> ked pand ready for tes i ondud,a oint b opoint lestltoovetif correct w U,, 0gkndhe PDUBoundaries arplacedarou� 1 ; tehe- Power�Quality Meter:is set up and rea c�.�r•1S..,t sA�w?t' .+. c.43c:.w.a.,.. r e4? _.trt ,.•� Record ?Start date 08 JLW10; ..f� •:rn:�a &,- n_e..as.C.�n.x.wiai.� _ at>a:rntl fAaTti has bean "" -�k;m ..r.ly ra�lSaa -fit)'. .°`Silrt Reco kstartlani 14 1i7 ax aysn.: -i:' A n$ 15( UI a ups +are J;:s S•1 e ;'�+R- : � +'1%" . '!' i°r sys�a i.z , • g�C,•T`vsp"?rt .reaa- r,-..., suat ofith PDUtta ensure .hatthereli ci exteriiiklema a. r�ruusrer rrscrs,•' �4tk��• a'.�i"� ; �s ;„s� � ""5:'�'�'4°i - R`"" ' ef ecO at a PPDU• ;� s?IM and a e wrthlalitsiabil zarrrit o the fl T Ctose�th'e•feeder.breaker fo'thet?DU €rxair.�:��&= , , n��R1�5� �.4%; - x a2 S"siP m.r 1:u�CO.i�.'�'. .:�. ..mss " >'r' ^� a ,yt. �.:ir -*'�. -� #:s at altPDWoad breakers the OPEN -- — ti r.• „A±x e•,-.? Kx;+a-' s wu•�aP n.�„e::x:.a;,c...;,t�;,,.,,cx; A thePDU ress \.the mondorongbutton. Template Rev_ 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 LEE TECHNOLOGIES' LEVEL CHECKLIST Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 -input V. •Output .. !At! f ° �° }t aofe, = DVM 116 LCD 117 604 B ao� ° ; ° . �''.. QQpp q., DVM 117 LCD 117 608 C' ' * t• : , ' ,. 4 DVM 117 1170 611 AB DVM LCD 472 DVM 202 LCD 203 It • •. • Rd DVM LCD 473 DVM 201 LCD 203 KW 213 CA DVM LCD 471 DVM 202 LCD 201 KVA 213 8.1. Apply control power to the Toad bank. - 8.2. Apply 100% load to the PDU. KW:220 X 8.3. Start a 4 hour bum test of the PDU. ✓ 8.4. Monitor temperature in the surrounding area. ✓ 8.5. PDU BURN SHEET. ✓ r ',Otit tit VoIts(L N < "' C>i put i�111p8Y:. = . + , P V' . 1 '' '' 00:00 °: A 117 B 117 C 117 A 604 B 608 c 611 213 OQ:9 5''' 116 1116 116 604 810 612 214 - 00:30;' A 117 B 117 C 117 A 604 6 608 C 611 213 .00446•' A 117 B 117 C 117 A 605 B 610 c 612 214 ,�a1P,•1 A 117 117 117 607 612 614 215 A 117 6 117 C 117 A 607 B 611 C 615 215 - - 3Hr • A 117 B 117 C 117 A 608 B 613 C 615 216 ''. : <•`.°, 116 117 117 609 613 615 216 8.6. Shut down all load on the Toad bank. ✓ 8.7. Allow the load bank to run with no Toad for 5 minutes for cool down purposes. ✓ 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. ✓ 8.9. Verify that all power was removed from the load bank. ✓ Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES' LEVEL 4 C LECKLQST Resetithetripi reaker.atbthePDU �PEN�.ihe.feeder�treaker�t`�o •ttie"�PDU` is tY. � '+r ~'G;�r+�' rte„- �r.i:��`•�'�� " -�'Li: ,.``� ��'+�;k:�` Zhiat k' tkilige,';eptah tinetiis`noet, ri;gtiedTarid safe:to4wa �t xax i 23,, - ..�_- c r # aYs?,i:.:.@+a c 47� rSSd ' ecure fromittie.;lo i rankiir Comments 8.2 220 KW was applied due to the current limitations of the toad bank at 208 volts. Conducted an IR scan after two hours and at the end of the four hour load bank test. No hot spots were found. -.+'S `r}: -i dt.,4-= .�L"'+'i�'"i - ?i%AS}"i°' +�t3' T✓ � .. v;. ...ye}+ idF#ier. "Y3"'�.�.. fiT'°Y H" °SSy�rPh}4iJ'Pfuk�'.0 %'., -. �, �s.. ^».�tib l,'G ,�a�Y Lee Tectmologes Group lies witnessed or ted;m ihsyrcasa�cy and comp!-` - ft '� ocedure a eats toIttWa.,v. " -= Herb Burnet Template Rev. 07022010 Aoso,ly 10 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 0 VOLTAGE T1MEPLOTS Site: INAP PDU 3A6 Measured from 07/06/2010 14:19:15.0 to 07/06/2010 18:20:45.0 230 220 a 210 200 190 .230 220 210 200 190 A-B Vmm — B-C VI MS t ' 1430 0702010 Tuesday — C-A Vrms 1 J 1 1 1 1 1 1 3 1 1520 15:30 1620 1630 1700 1720 18:00 CommiltlehOor.1.1.6.1 ..... ... • •.: • ' . .., _ . .... 'A''• ' r tiO ---. . ''''''. ., 5' ' '''''' . •:-.0 r - • t••• - ' -, *.A.1., ,etaiS " ..* i • s • • " , . • •-•, . • • . • ''••• • s• -7,- • • - 1,, ,. 5 • •,. t , 7- At':ig.."' SX • Z00 ... 190 t,,„,, ,., — - ..J- tisq g.101 ,,,,....„. -:.- iat.....4-;',:s.„....g - --.;..... '-, . $;. • tt,•,_ n " ' ., v '' ..• zte ....,:, , ... x.,,:s,.. '..." 1,,,,T. -, ',‘, i', .-:"..X•ritt , 4 ...„ 230 220 a 210 200 190 .230 220 210 200 190 A-B Vmm — B-C VI MS t ' 1430 0702010 Tuesday — C-A Vrms 1 J 1 1 1 1 1 1 3 1 1520 15:30 1620 1630 1700 1720 18:00 CommiltlehOor.1.1.6.1 WORST CASE SUMMARY Site: INAP PDU 3M Measured from 07/06/2010 14:19:15.0 to 07/06/2010 18:20:45.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE/TIME WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3A6 Measured from 07/06/2010 14:19:15.0 to 07/06/2010 18:20:45.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event 0 NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE PHASE A HARMONIC TIMEPLOT Site: [NAP PDU 3A6 Measured from 07/06/2010 14:19:15.0 to 07/06/2010 16:20:45.0 VOLTAGE volts 3.75 3.50 325 3.00 2.75 Vohs 4D 3.5 3D 2.5 2D 1.5 1.0 05 0.0 ; � . . " 1 i! Y� • 'eiP 1 F5 , `T' � */ 1. ...r., F.'yS •rnK' k" `�.'. ../ .... ..5 •6; .1 ... • [ y H Y i. iCr fis41.,i' � rtWmk't.. kt 11B ipBJ� r'� x .Y� i i Yx Y .$4)`5 /ti'M t �.r�. eft • zsn GS!' '� t ttay'i � f '+ ��7 k !Y.z ..cs{°R y� may, �k+ _.. ,p e✓tl ; } y It 1,, t .r4n • +:ai am' ki "'- r '1 4�g. F t .,3 , Y 1Wf& T� v.�e Y t 4 "�!` i Q.a� .rirt 1 1 t` T' 4t i .: g 7i� .yam ' ; £ W. j Yt ' 4y { �, `(t . f >.. 1 1 1 1 1 I 1430 1500 1530 07136'2010 Tuesday 1 1 1 1 1 1 1 1 1 1600 1630 1700 1730 1800 ---- A -B VTHDRss (mg) NYihD10Wr t! 1 THD H10 H2O A -13 VHerm H30 Total RMS: 11823 V DC level: 0.00V Fw i(H1) RMS: ODOV Tata1 Hamordc DistotionTHU. 355V( Ever 020V, Odd 3.86V) H40 H50 R i ;: $ S 4mr §r .c, } . � r „„i f� 21 d ^'C�...3q�i �' • qi,4 1111,11,11,1 1 1 1 1 1 1 1 1 1 1 1 1 7 1 1 1 1 1 1 1 1 1 1 1 1 1 1 THD H10 H2O A -13 VHerm H30 Total RMS: 11823 V DC level: 0.00V Fw i(H1) RMS: ODOV Tata1 Hamordc DistotionTHU. 355V( Ever 020V, Odd 3.86V) H40 H50 PHASE A HARMONIC T1MEPLOT Site: INAP PDU 3A6 Measured from 07/0612010 14:19:15.0 to 07/06/2010 18:20:45.0 CURRENT Amps 115 110 105 10D 95 9.0 85 8.0 aza .4.1"`• i'173t k Amps 10D 75 2. 5D 2.5 — eatlei*ra• 1 1 1430 1500 07062010 Tuesday t 1520 1 1 I 1600 rtfolls).1 Pr- 7.• 1 1 1630 1700 — A 1THDRss (Dig) C.••■ %UP a011ere GP 1 IMAM tar 1 1 1 1 170 1800 0.0 — 11 THD r a I* ,t, raft oa: r V."" Pri rFa. 11:e hill H10 1 1 1 1 1 1 1 1120 A 'Ham Total RMS: DC Letvel: Fundamerdal(H 1) RMS: Total Harmonic Distortion THD: 1 1 1 1 1130 58393 A 331A 58Q A 11.42 A (Etat 1.38A, Odd: 11.33A) C.1201.1•DeVow. WI I 1111111 1 1140 1150 PHASE 8 HARMONIC TIE lEPLOT Site: !NAP PDU 3A6 Measured from 07/06/2010 14:19:15.0 to 07/06/2010 18:20:45.0 VOLTAGE volts 3.75 350 325 3.00 Volts 493 35 3.0 2.5 2.0 15 11) 05 OD r 1 1 1 1 1 1430 1500 1530 07/062010 Tuesday 1600 1630 B-C VTHDRss (mg) [wawa talltam.ffix hi I 1700 1730 t 1 1 1 1 1 t THD r t 1 r t 1 t 1 1/ 1410 1 1420 I= 6-C VI-farm 1 1 1 1 1 1 11 1 1 1 1 1 1 1 1 H30 1140 H50 Taal RMS: 118E5 V DC tare!: 0.00V Ftattanental(H1) RMS: OAOV Total Hamnnic Distortion THD: 3.80 V (Ever. 0.12V, Odd 320V) . 'r 4i1 "t} 3 tiitr4r'''.s YNS "'� A 1!�k •. ...... 7»'d t.� ,&yciil J. X.i id. '".j' Ki `i IS... TA$cf i tl 'i ,. %Cijj. 3S$ IRw v!.- t k..sbt M. �: .AS'-t 4Y Y°"^ ., a R. �.; ;Y$ 11, sf'.,.. f it'_' #i<j •,"yi :YI +Wt'^Y`.�'. b.l t 1 1 1 1 1 t THD r t 1 r t 1 t 1 1/ 1410 1 1420 I= 6-C VI-farm 1 1 1 1 1 1 11 1 1 1 1 1 1 1 1 H30 1140 H50 Taal RMS: 118E5 V DC tare!: 0.00V Ftattanental(H1) RMS: OAOV Total Hamnnic Distortion THD: 3.80 V (Ever. 0.12V, Odd 320V) PHASE B HARMONIC Tth EPLOY Site: INAP PDU 3A6 Measured from 07/062010 14:19:15.0 to 07/06/2010 18:20:45.0 CURRENT Argos 114 10.5 104 95 9A 85 Amps 10D 7.5 5.0 25 OD 1430 0706'2010 Tuesday 1 1 1540 1 1 ' 1530 1 1 ' 1600 1 ' 1630 --- B ITHDRss (aeg) err rqa O.V1 41 1 f 1700 7 i 1730 1 1 1800 THD H10 H2O BlHann 1130 Total MS: 611 W A DC Level: 3.43A Fur rre 1(H1) RIM: 611151A Total Hamonic DistortionTHD: 1128A (Ben: 140A Odi:1119A) C wow aaDOW.• c/ + 1140 H50 a Ix • la d • k y.r8.et � Y ... « ... .. m .._ or wP r�.7tt is awu.M}�` aF. tip 0 or IL' 6 it/ olt ar;� on. taYTCu • IC: _. ..L, ".1 f _. ..... IV _. '.; ..... ` it , ire' �� _. _,. _.: fit? it 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 ' 1 1 1 1 1 1 1 1 1 1 1 1 ' 1 1 1 1 r I i t 1 1 i T THD H10 H2O BlHann 1130 Total MS: 611 W A DC Level: 3.43A Fur rre 1(H1) RIM: 611151A Total Hamonic DistortionTHD: 1128A (Ben: 140A Odi:1119A) C wow aaDOW.• c/ + 1140 H50 PHASE C HARMONIC YIIJEPLOY Site: INAP PDU 3A6 Measured from 07/062010 14:19:15.0 to 07/06/2010 18:20:45.0 VOLTAGE Vans 4.00 3.75 3.50 325 3.00 2.75 • • 4 ;w, Volts 4.0 35 3.0 25 2.0 15 1.0 05 1 1 1430 0710612010 Tuesday 15:00 i � I 1530 1 I 1800 1 J 1 1820 --- C A VTHDRss (mg) C pWvnIOmMow ii1 1 1700 1730 1 1 1 18130 0.0 sso° x ,wl. 1 1 1 1 1 1 1 1 THD ?°� i�ga ..--: ,E t °i f i jib .: Lam. s � w 3�,� ,•f II= rem • 5 � i ,. . eti 1 1 1 1 1 I I 1 1 1 1 I I , 1 I I 1 l I 1 I 1 1 1 1 1 1 1 1 1 1 1 11 1 1 1 1 1 H10 1120 1130 H40 1150 MI 592 C- AVHarm Total RMS: 117.ff V DC Leval: ODO V Ftardar al(H1) RMS: O.03V Total Hammrdc DistpdionTHD: 4.02 V (Ever. 0.11 V, Odd 4_02V) PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3M Measured from 07/0612010 14:19:15.0 to 07/06/2010 18:20:45.0 CURRENT Amin 115 111 105 101) 95 9.0 Amps 100 75 5.0 25 OA 1 1430 07092010 Tuesday I 1 I 1500 r 1 I 1530 1600 r � 1630 - C ITHDRss (mg) c_w..ln_ ._ u1 1700 1 1 1730 THD 1 4 H10 1 1 1 1 1 1 1 r 1 1 i 1 r 1 1120 IZZSI C IHarm H30 r 1 I I Total RMS. 60531 A DC level: 3.10A Fur tai entai(H1) WAS: 60a03 A Total Harrnarrc Distortion THD: 11.72A(Evan 1.42A,Odt: 11.133A) 0 rYW.010.001r m I i 1 1 4 H40 3 1 H50 LEE TECHNOLOGIES EVES. 4 CHECKLIST Template Rev. 0T022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 . - :a lltosettere d.. f• , x oe.:A ;..rYd. 2f - - r .w ;. prris . • • a +u: : • x ' ,, I.fi�i p# tt�f �.' 421A+�: • -nr ! r i. r Syr p� 4-44, r-'q e�k�R�!Ct �v�x g,�NT .: UK- WA- CSMMOSS ONING -PD —PDU 4 u }., %X • /rax.°A . R+'•i7 • 7 a r -. 3,F4 } &ay.:, i,a� of iZ, : 'trt':.M.': •r ' ..F .:'^'.e5 d.'h.3Rs•.i. f $ 3l S i »,' , i, t. ? — .. C s.+•" *..� 1.. C, fr.t szr��r> su<tix�mt�iftalbete ff. �* '...., "� :: .qq . .2• $ tdtP?�t8 y�kl8aM�ay, #10 4 '. i as^ r 0 —. ". ..'�infi vt�b 4r.. tl t, t t,' f 'procedure. t q M W+ iiz wQ1� at8 .� y X3 07JuI�10 Pr " "M =$�"" ( �+#. • �'L4=fi : &dvari'S.Cdz W:t�.�.. 4 pfoQ8d11/IRii±OTk 1 t. f ar r - t; ,a?�, a Trine Frama '•4ti .$£ ..� '0804.1700' , .y� 6 "t k�tw��T'��..i`?rrsb'.�ti>• if k Jr aft, - r tt 4C•��usto'mar Name:, fr'- 17.`111 f.;,: ?..'.ii'':. Crtivtenwes 5otsrnePralaY Cade } F,r= � Intemap �{ vy.J./, - T� , r � x r r `. �. .. ?.b. 'it:'1:,. 1 :1• ,l.? xa,..,v.L, sirx .. .e :? ,G., �:5!� }}yy77 tfi .> ib F1fIW 0A�l: � . ig 44�..n�.�E t. ,,)�, $3819Py1f!ffi3 T. ,. )'y *yl• 'rt}�{x•r#'c,�•t(d Z SMrI. {iA'Py N+t r i ��tl If:'-' . W5 ;I °U3355}Sot h 1'20`g" Place '%7r:Vgi��..",? iti: %: sa1iF..s. 1.:.N. 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": *4,_ .:-••. .$t%1'..`.*.t. Attxt G= " t .Affected Area:,; a;,n:w c,y.,.n W:t I f i, ..1 q.", .11. rd. fit. i= dvdli s.L •.eT, • ^?..1.4. .:: Ott,#:. .:- fi°s,: .` ^."U C tiE }*`.is 4 .t ?.u- � S :c./pu � 1 ®�/^'� �P./;�R/�► ./a�g yy� 'f �; }E -ui en PDIkPD Ck Procei0ure. A7 '�td3 yt, ''°,,�t�f' wd9. .p;t�..` `.... *"Ifs::Q;.wa`C.�i.LL4' `.z,d,r64, 471 =a.`ikYr ,„:...;''4i }` '. ftt..i:c tr$,�.G.,..,. ...sbd` -, 7 »'2 A. f':".` d 't •/ S`+' . • isi, . Jxr �i �. � a • "•�t'�i • � �' �'�M: 'G`� .�.• �,; �,ti }} s':. � is nLr ,+' u.,'t:° . :';: s fi, ...�i'.x ',1 „PP++••°� ,AV?r�•+,{ >1 &'1Nf .t.C9j:5 i Yt' f,?�. :• "=}:. ? �'�' F t4�9'fk4}°8c. � T;k% t� Data Center Kg . 'r t systerr�stAfrected c .✓, -• .., .. ... d'•.o.a.<. t`^t� Y .� aro-� »,Y+L'i +'w ,'g '. •rx}VI ft - -bP LoadtDistrtbution � � � 9v . ray t,a:'st78''�•. m,:wn`.•.. , ^^, 444,14 ^1 it ?t a ! §� "- a�' kts i kYPDI 7; x ;'a + rs Y �,�• rf n 7V; " an'Q '"`" PDU ` � sz r c a. . r.t. "t1;'iCftf "f� it-.4„:„.41;40,f .q E �f ` f ed `7.• s 1 " aPP13 -W 3 1' ; .gyp a� a.,:Var.,,} t.. it rRsl .r:. v f�I a.a ;!1.102679 -4 r�_ ti x i,,..4 t' 4i M..:• ral d.`,iiii•w itc� -'' t ra erW ;..S:,r9xtt:;.. -.. 4,s >,.���SN .. C:' f g4T'. o;'c!; .:a> s. t 7 # 7':� t. Wi2 tom' r X1 '3 R-f t ^' �st Thls:testingiWIII venty,�the operation!of�thetPDU{ ? ? {?� „£`x01, 24;.:..ddi;.;-tY ti• ri -s.g.» •r.' '5,11E =. _:' 1`?•aw?ff ,, �eC.ea '"s- 7 4"+v4` +.' k 1�{' 11:., A -:?' ,. F i " F 7" .rs, TherP;DSL Will operN ate ss per4daesign... . �N'?`•�C' •D'�a °a"L.'Y. ,°t+`t1+.3:+u ..iak .t eel - „' wj" .; � ; 4• i�i�xf},+ .:.§ .... % gcsge2` .- .VdS� + •,s'p"°r °k ".3.. t" 2�� " � , L ` �,pg�, ;y,�}��" ~ �'. f 4:'• ?ts:.�'s.,k.'....,45,R f' , »... ;r'+• t: P.�" WA , ” '" Vw. t ifs' qtr "" pct} ,•+c.•�:*ReA Pm-Procedure Requirements Manufacturer's startup completed on the madute >$ a i{ s , ' a r�Y.: � � 'f.k.' - '^`.:fie .4:d"� =' ..A -tom v n' Vic..., Y s i'' =�R 4. . f' Y.i -`nx 1 `ic . 1.44 1.�. -..: C;:,E ± :r . to ,'- Arr:{condrbanrng system isifunc tiona! and capable ofisupportingrthe heat toad, generatedbyithe PDt1 aa°,LT Y. Ya' 7 .:?.h �( nt" r s y ? p. ,s ■ module Y,F • '�'�: � $l • re hatalt test egulpm that s euired!s onesad +operationai z . ySi'�^ r ts • ��� s �� 'kt...a - :1�,{'t�: ut t T S'y�• i f M i ar i�#i� mss.,, Load banks vurti be�hooked up and ready for testing rq �a ly # f X4 }�4 !, iP ty uwx 7 M t , „} i .xf i :2 7 1 } jig +' ,ES• =+' 4 - r, ¢�`tr' �'' 11y. ��' �� � � x .� "rka �. a�.r ;�',;� s � t r� � �' ,�, ��, =.�,a- f2.° Conducts pomtto:point test to venfyfcorred wrnngF ih },� � °{� -N.. ri g a , fem e,�. { d. r as,,,xy ' a n 7 , ' ' ._' �hb. „+27 o-d' 14'f���'�, fiiy;? 45a•t5 M '�•t' � �y -'. t(1 '' 1 � C � Y t • i ? G 1 tBoundanes,are ptac�d around the PDU. � ''tea �" :' r" �� r 0" � � � � �'� 4 *-4 , :r 0 a,ryg -rit a tc '" ex `z 0 ✓d`1'k ,gyp =Tr.l fi Y yt '' ,K .= °t t x r ��..q.' r ++�6PA.� i fMt� ci�. tri # �+ h i�t•. i � ��^ . ? ; d $', ,� „�, P�q • .dt� i � _ it � � a�+� ',Thet Power..Quaiity, Meter �4sS,set' up- and,ready to record. � �K 'ty'rf ' , ;•� = s, J . ... ha, we red.. ..N vxt . .t -_`y,w na7 1 y4w ?£ ".. l"•t ✓i7 K.��`3:d,1 .:S .2t .1- ef.. "':�• f`".,W ;. "5' ( y i ti��• is f. .. £ .i-) ,9:` -rt4r ': -' ' i.T;r ? ft" ` »iO4 h. , :Y.r r7.' pca*. ' -,; •''•t",*,•- 44.t' „�v .�x•'Ta^ - �.: of d } is'. "(`''y •`a7`t`y °t *A`°•; +r-rg # ' } •� r. ' `�• -6lG Y 'i, { ',^y �2 .f !- ry� ♦♦��,,,��@e��i c ,a iilr'�� { 4 F ., 3 x ..�. a - fie• Wy,''}tt�. �fiY'• 1.. `' pr L/ RSti�tl9YikLi `p�l�t�t✓t�idt,t�e'.;rr •a.. 1 ii? *, & Y< 'S.��i �lYA �.t •Yw m.• F.K.^. C.' •.7 .. i�.!'S +kiAl�,rr ^ay.a1:.v.Yih J'v;G�•r , .s' •' ^ » :: tg o. . 7 4: '::6?-.' i-'[l:S;? .4,. ` -.,W .'-a .f. • `; yI;(: %'n.fry • ` -1"),i1 fi ..a�' {l i�• 3 �% :"4.�e:Y69!'.�r �k.:xn..,+�fx:4u.. ;i -.`;. x ,?%�:' ;, ^r�3rr .. ��w x+.`���;S�kC•�';_.,r:'�3''.. Vii,': t r r. ... ., '4'x ... • - '1";*Wr r}"sfi' ,•'4+. '' 1f5.'r'i` #d'it'21': `• ' "s 9`a P `' aY' ;i t y , .4 .:5' 'S- 1 Reconf startidate 07JuI 10 t Record. start`time 61 Q� f k�� fri ,' ` y$t t�-4 � iS '.°a"r�.„ a r ”` � "✓ .h:[. r:. 'dk::. ':it4 1:4: tan: ,, -. w,^K..r... x . ., wa'r,.1 .s :Ytr..iLtleitrita.r;'. ... :,.`�Me+ I_' .. : f :.4 ..S.Rd. : a,a .?we?: - )'7�Wt d 9 r.vt , vim.' C.f,i6. '{+L"'xi 45^•{x a'�4,•=41.y sd '.',41.471 ".7 id J: '"itF1«4, {S{ .4 W.., 4,-;;;44::,..7, '� 7 3� f $°"` 'M to 3"vt Fn.: C!•1K .' r.{ �i tiar •X V'�,; mT h 44: r2 Document, that vendor startup hos beentperformedt r x f V � � ,1«r fl .;max' . ,t4.- 4,0.6,± it ' i wy` .4fi"$'I�sa,,_1,- .i>:'$t'}it:d'i 'Yt.M.ia.W.A0M,!4...t:•ti 4 :.1 Vt...x3.. K ..� --". Y tg3: _.+� }ri: :.. 1 Y': fa '' ..�:i�l .a'' {, , ..,..6.,.. k • '. L,Y :�.vr? � s 4.A "six �!i'q$x?•1 i. 'A4„-i`:",, "'' Y,F 't' ate'4.ih.^•fyq,.'+. ".ii!,4latiF.t'.' .' 'K ?ia:',!'mi,Pyx•�a• '9'rr•w �,°i7 "., r #17:Yt3'f"' •..i+S• '- ray[`- Sffy 3 Perfonn=a visual`of the PDU6to: ensuretthatthere is:no external?damaage to the RDU d,. tL�k1+P.ii'7.';w r.:,r P. Mix n.i.."+* 7.=r.� '.1,, :t=$'i�Yn^e :�? kt+.ia °Ak'.•.1k-t''a,:- "V.' n,r4,.+4 °- 8,..•^ v.F4�e..<` -;4., 4 :1:r..n. ):4,•.e..3.yiY`' k vs+..#•• t:a(`.�<, ,. aa,.&a&' »i1.3'. kN„ ` a�q ' ,' a?' i'.:7.:;..? ,v •... 5 t ±?a, ' 04 X4 4, _ Check that the PDU:ts level and stable;withiall stabilizers flushAto>therfloor. t t a . s Sx nd ,. ti:Wd,7.`zx.{C''T i ` +,1- k'.:�a(::+dC.2' -.: :vials ,' sw'u'"Y2F}{:+d tt f kxc,x v Y "' ''8` .. '.fit v..o>',tk;`'' s {':.i+,:'t,•�... -, v`�4 y� °r��'.A fi i•`..'} } :.;?;i3 % _,fx144t:4wtdc, 211edi4.a:. ?aVs., r.; . «as, *.<9s:: —_.- kid:,. nz° ,e;; ead.e.: ." d'43.06,4e;,.7!lttr Ac.,;*c•- "nr.'N'x, . ':, °,71, ' ,., ,. ?: ' '� :. -- —. - . —�wY�" ::. ^kxr s cr:g1 f ' ?- ,•a�i..0 .'4 -..�.- °+•''°.suer `'tea �• . y ,f in r 'aD" mrT"d • �. N :+^IV, } r . • E, w Y .:. 5a Close. the'feeder¢'breakerstothe.P.Dt1. �q }� �} ' y `,5y� ..... 'a py!}}pg tk riirt.L`i ^.}. k` Ci" "Yr!r.voHt"•,^lnn_._hF!%ai /= }f# :A'itx }i.W : ,..•w:v✓.7 fii.YiY4... b.:. • P.. 5 '» SJda�.%•.la dsl.�?S'Q a� F.'•, "•�� `,S j r. ^i "+tH,i..Af.fr .fi�K {•,S Frv:rti'.,'ti'a'# w7.+..dea:'. •:t sxt1L`L9{:: rwr, v ..rid 5-'{ ' Sr1V .. �.. .: Xdi$ <;a4@{. ..t .'7f• tia, :6 -' ? 'r "T "�l•.. ?4yf. 6 'Ensures that ;allIPDU load' breakersfare ,in- the;OPEN`Lt ^W..,1�ilon e , `� >a f'.d � .s,#i,a{t[ttli:i :,twe'. ?,S sl.......4cY:;! °dtati 15.44:ti847'L�,4W4 1.t14{ Y.`dK.- ',sesiB,�.se:�..- f' ' <' -.:- ' . • .xb .eA : .mss ' ,-i' t °.&N: x`aiix:4;:s'^ "jlS2�. i }t > .. �cC A_4�`; ��S�ta�' •.,r,:tt'3dS.i `4Y.7° - a.'"1'+ °' y;rY � -. r �• d ..a ..t:1 •r,w^rr t '�6i t'�1 7r t Close thewmputimain c cutt�,breaker tnsidethe'PDU '` i 3 �? y ytl t t x :,. +::.•as«"?rx',:�+6 ?`5:/ f u.'i?•,�,: ; . }. txxY'eiw:,�::'�kp.* P.f '�;":�`.n. • 1:. -.. ®;'. e C�aJ�'3, .. ',, -:--'z'--.--.- . .t1.`:: "4.1Wt - �:Y.rKi gi Cr"� <,:? 'Sk 'L,`k'� 'j`a'^ ,}� aRf * I �.¢- k- ^p r4tiet �g , ; Y" iY.'{s.1 g8 , Press=thetmonrtor�onSbutton�,L • `gj ���� w �p yW<� z::� e % _t � ! r y .t• e:ih°t :.,+., ie'#kt'1'.i .4: , : : :', ''.: `§t' fitg:� V i1. i•. ,. r'1 -e =k.. - • - • - • -• fY•Fb.. #t:.c - - b- �'t' ....,tl'��ii!!' i7 :l -.,'�° � } _ .e.- .::.�£ $. iR• .. Template Rev. 0T022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 LEE TECHNOLOGIES" LEVEL 4 CHECKLIST 4gts'z7 t f S .' 1 -ea wl x [ „, • yy �• 2� P w -t} ,.r +.,rze.- . ..= .." ,_.' ..•a+.•>..'•.: ''riraf£d'?✓t n ate n., ». :�,P •;+xt.~`•�Tys+ . Input V Output;V • 5 t • !Amps s p ms: Nis P ' "� , 5�'hs� t tt * TN s �a" #� Xtt x C •! 9' }'' Y Awe a ��'�' +4+, .. n....- 1F+.'t,,�,..$R 4'+, Q »� r e� d' r ° ,,,_ F+« = DVM y 196T ' . • +LCD 116 .d yak x a d, � ' K c u x �x1z y x J tt B " is d rA� , a St (1), _ :[' ?.0 .'4. D 3A...: ... ........ ... ...H' pia, fR' tN °li H-- t °W p ¢ 4 p r D� t _., ..A ° 8 D1/NR� 117h., Jx t u=ffs i.c :.} GG� 44 "".a LCDi 11t7 �' �'• (` ^ld' '•C j y t Yn t'� , w 622 1 •Y?4 N 9 k t < , q :+- tai -sr uS' • , f °� 'S C ••O S PP �i, "a a g' t sb " u "#.^ 7 r DVM µ�y 117 -his LCD G 1117 r1 Lx y616 r AB DVM LCD �t F�475r 3 r.-1 -,D 202 r '�LCDcc u203 C +? 'r �h rwn 1 ' si»& •a.� .. Y r> , s e • F _. BC DVM LCD i"1.«' ' 475 I , DVM' max 203�i . LCD'." KW a21r7 - .CA .. dtt* r� LCD 475. CVA 217, ' N . � �l 2't y, t '°�7''.y".y i. T14a. ' t ,VAsYr . {' ii A,41 8. . . .ntrQt werto the Isa b a ..4 ; czomt t. ;_':_nI°o nk ,°�' a ?i� ` {� 5,? r•, l ,p r} ': '/ g.fih5rfi e 1 t y .00 % ,.ioa to th•PDLI KW ` : .�: " n•s omt.m �$omz ! , +.rp,TI+... m.{ t r. t -,c. CM.- 1•.,i'....'- Yww m.oz&s.rin..'. .st-vc , :. . . y : • -1 fi +' maii .'.b.`'{, xA' 'J.h''Y v P ± •: tt ; 8.. 4hour `bumtest ` ofthsPDt y i G i - •..+ K �iA 't=r' z? A.E.,,+_.!:,•- '..41 ;?. s- ) e [ 07- : ,..I �`X4144:.'rry`§{{ y :ix�70 .4 atIt 4. -1.• -Gnu'- si' 's" 4 "` �'. I ry t �,.. J�Iytt •�y g,g�r">* 1;.+Hf . '' � ,p• rAS{�� �^r�(+1`^t,�e' r c r • J °�8'4 - {1Y7onto telliperature4lni'the surrounding.area L .� •,.g'+"`�?ag�t7�va: �T*7y^ i`1F'@4 'P',:- .'RY`,.. ;Ri14 411, n.'.:',A'F".,•• i33k�+M. ;'..:Mi.. .-. f- i,H4M .r,. �' .. .- e- ABA .. '✓,. lit '� ?$?. 4'"�e* a+a &-*"1 F+, -,t,• v_�`s r.`.i." ✓..Y }'+: S Y@li'Fiy 'YL TM.fa'.jt..g,. 4, „v't t.. :5I-t, PDU4BURti SHEET x 'i8 •. -rr M1}. r 'F `iF ;S. 'tF }. : +C+dA3rYli d .,• •4 r'. - ,.' .t.a• : ^+ } Tim:ae..: . Output V olts t.-N 1 . • O utAm s _ 00:00. t•. -.� , 116 yLs ' 1177 ti2./ 117 X ?F. y�,617 ''622 , > a � 7.'616, fxY 4ti; 217 00:15 . ., 4 -116� :Ct S. r�d4 117 1 >t'iixa 84 ?' 619 .;, stt5L.T.i.r 61 5} +' 215 4'.a. 00.30 xA�s, t1,:7 ;;8., �[. 118 ; :C� ; t, 65 x'A t.•� ■ 61sd - M. 8i 620 ,C. ''615 216 • 0045 r i16 }t a i 6 i ,.16 �, , "'rC- 1s16 ,'r612 gg A s ” 8 ra:617 p ,°x.a!'+a ? C 611 •` 213 a ¢ s s j "9 Hr 3t Ar °i15 , „g 3 16 ?' ... 1:116(610 awn ' �''"''''113",•? 6 "" , 6C ' 610 213 'fi2H� . ICt 116'.` P. „,i117 d4eP s•:., �'1;i7!�+ 2� 614f,- v r.,4i... .: 619sy�tg3 $32% Na ` 612a' : &� � T.'?4 214 .6*. ',,',Nar: "'3Hr + *•{Ilq 116 13`- 1;16ji" ,,l `,c. ,t 1,1Al' r ,815 B t c X20 ks $r,,}�6re;. ' 615 t"" 216 . - a.. r' . ... • 'WA 1x16 _ �,, 9 ": -'. 1.16 s :a1:::,; 44 ,J. " C lii i x,16 �.. as..w� A ±612;-','., `6188' - �li4r.s �'s; :d . a .. 'C :611 +ii's!k1tt..'� 214 •5xxt,{ ; Z..T { '.!'9'- "y(.:ih' Shut dovi n airy -low . �i+ 93. .t '•` + ', :.4iib»in8l a!G�X%m.:. .t.,h!...ir % `A 3 on the '- ,.'4dti•#i,.•.4 - • �.. -°' °T4 4Y •.. it' oad bank::,., . 4d+ a ?'.M!�- - '�'ii '4 t F b%f ^FY �M T C a5 • 4 - "� r t'` -_ ''t -� " �W.. Sv+�. # 'k. .i' - b$`rli .t..is : -.- t n . �'t4" �i'h' t # � � 9.{i,- ,'vKR. - ,ir Ja sux:. "uq -yx; 1 :Y,'si'.e:.. 9 ?.:.'q.t �-�7 t�'t v: " ' -.: {�. �.dW1 4.� 'v 1 �.•, '�:iat' 8:,7 r C Allow they toadfbank.to „run with no load for minutes�for }. ool down purposes p =; 5 54 r•L ,:r?.ac'• ..k�_xz +..r_: :C•'-_,1:-C �!fAi:43t:o-K -. z...t =ativ^.r! '4¢t1,.:!aent -v ."^,5'- :k..a- >:.,: n+:�s•. -.-s: ofid.4eXi!a.'.. ,, .ra.w "!'•. ^'t . .�w+ a �z .s-. 8 ” At i tat a t e1 z H tthe PDU' llp,iuphproective ;covet,verthe •wPOomoneac prss 1n t" INPUT 8 REAKERgSHOULD .ITRIPiANDjSHUT -,OF AL bPOWER FROM t!/THE P DU : , m,i;.4.1.4 :- 94N%S*L'M°, * .%M'a. P-,...rnrot ..., ul•av l, ■ t ,,,rn..:v .. .d x.u'K.•L. ."entd�YiLA U.:.a*.v'Yt,...:`4•.i k..w'.vi'.t= N::S�•.,3 . ^'.t&:'nY.7,..,, .ii'. =i., v+.ail` �'t q -. •t���..0 ti tiy:; t[• t3. i`* 4•+",fe l: F' Wiiiia .;A:A:;t- .�+.)ii.`Y?s'ria: Thi.. fC .i". -y.X., ..q:,: t:A. '` 'tfi.t 8:8° Venfy #hattatl paver was iemovetl from thetloazf?banic �� �.. tu�r. >": ,:i:+k... -..# f"J'+. r,..,,ax•.'r;' ..3k•, h1:.4?.?ZU'?.'N' •,vr-:. .. .,dCh..:. : �Yi ' &4ie r, ..:- . "r..... i:• - , _,.,.14 - t2, Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES' LEVEL C ECKLIST 11,1,; •i! hf i �!7.dibf .a 7., B» i! 'i };� Y 2.' ;, f .�yr .; f 81.�y I:, 'x7} �. ✓�; t'"t . �': '. a 1 .. d . 4 • a 8:10 . Reset-the: tnp sed inpvt�breaker at the f?DU" A� s : ' + .te.,. 6w }`-^ N+.„ n.. `'L �ym�7 +..s`H!: at'GF'47s eft itG. gxxnv'Pgii 'r .' "# "4'1.r;i''ti"tai'�d';` G 3...yrzck.0 �`s' 3a" f•� 't, � .r"" 4�9 `� 'Y�: i 'Sin* i't?� ,. }}tt811- ,'OP,EN°the feeder brsakeertolthe PE U. ♦�. # • ,i, 3,1 ' {may � E " riM.Y''{bN, AGR°?xi'.Its�rcyrpi.-�.i.�mY:t(f;?` ' ::ti'r- ;- 4,zi,crii.,.v:h:..;"N. i_i(7.3,- Tara \7vZ:i)4".'. .a.'*i. '. ;,}i,'ta^�T.� h'£�Mir »Ma :'`r ^- °�•1' • ,. V . . n t�.t'ta . !II.B?}:�f ; %0,, z,v,, ~rJ (' 4°4a3t.;;fg,c.j4c* ,:* ral''1"7",- ;"t"1rp u.;;aga.1"'P'� }xl d�2J... ♦'xdt BY� Ym y"�`a` i �g?8,�'12 Check >that�ipt�he PDU1cabinet'islnot- energized a ' safe,to wo`6brtiin`. f �`�. y `6x 'I= � ? d�* '•� 3 �La '.'rv,,rkrrziS.'-- ; '.� � I Yy, • w✓ �y. 3 "' “ :ts{: 1 °ita+ t�s,'a., 14_;. V-).in -. .ntr.'4.: ,,,,!* -01. 0.0.,7,,, i'. .' tti " -.ni tS AT.Jifk.: ,,, .w�d.4.� -.n.. F,E . r:«iv h ?_R a.P ..; 6 !;ry 8^ C.xitY.3`p ri;`y.. ait i J.. J: -� .i t i & tea,. is i `�` ^c hit'' '. d;, a. w �..,,•� -'11- ,r JF, a� 'ear" to t `' A "3fi : :b+ r S.13 Secure,frofn the'load }benkin " R' t,�� � i � i4&f>< ili:eaQ .0 ?ifs`:Y i.itk6i.11$ :�. 't..::i =; .`4-,-mrR.,v .aN:li, w.td'!.. Sys �a. °�;su �z,r�.° +e: v..: rk ."�,s .n , '?` S Y'n� • .° .. '-��++ 4t 1:: ra. _ i c°i...PA. 1: w G� ' Comments tb 8.2 220 KW was applied due to the current limitations of the Toad bank at 208 volts. Conducted an IR scan after two hours and at the end of the four hour load bank test. No hot spots were found. f ±c:E.A2..',v,-} a sCadf' F: .;CR' 'x, n•' i- k. ° .4 t: y i P't#G: - „,... '�: -` t ..0 �'fa v,:;*. 7i,, wr' ” :,,,, 4y7, �J . � r, ;LeeTecnoiopies croup has wPiriesraed or part atta minis pracedureaand.atte .to the'accuricy'and'compteteness t re 'd "17 i £ -`°f -s ,.�` .n:ea`+xaiaYa. '?.•. �r TT s.;;n a 1 , a a' -'i ttC 'sw a - F'`"n .z,6� i °: - , ;kFf fin 'k � - �r�Y'... a. �'fy! .L � ' �i � � �1 i i r �',:'.. grss�a_'����k rr >~r x � �' - .d; ofthis � ;" r ,, . ' ; L . T'i - _ S h Pnntw ad J= K t \ S .. ♦� i y 4,,,,,..:: $� 8 .d aite ?r ids. »+ • i�n),?�j�M,y aa'r,„, 33u� a'� z .. , ,� ._ . ` . Herb Bum tt #r � . ; 'l:�l�ird .i �<�+' .�! A r 0 %July10 v...c... -a .., .:.4M? c- . i .'a ..0 '''9. nL... Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 VOLTAGE TIMEPLOTS Site: INAP POU 3A7 Measured from 07/07/2010 08:14:07.0 to 07/07/2010 12:20:52.0 220 -• 210— 200 -• 190 230 - 220 200 lesnt.Z44 — A-13 Vrrns 190 -1 230 220 210 200 L r B-C VMIS 190 - """""" """'"" """*"*"- 1 1 1 1 1 1 1 ' 0930 0900 0930 07/07/2010 Vlbdreesday C-A Vrrns I I 1 I 1 1 1 y 1 I I I I I 1090 10:30 1190 1130 1290 C ONO .110=1,16.1.• G WORST CASE SUMMARY Site: INAP PDU 3A7 Measured from 07/07/2010 08:14:07.0 to 07/07/2010 12:20:52.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATE TIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE/TIME WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3A7 Measured from 07/072010 08:14 :07.0 to 07/072010 12:20:52.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A7 Measured from 07/07/2010 08:14:07.0 to 07/07/2010 12:20:52.0 VOLTAGE Volts 3A 33 — 32 a 3.1 3.0 -. 29 -• 2.7 2.8 Volts 3.5 3D 2.5 2.0 15 10 0.5 0.0 "41,1,441att errgenagATT.V.-'103f. i " . .4...' - ,..:. .%,:•-•:, ...r• 3.4,-;v4gi,.4.1,-as, ,,,-• , 1,1 •••°, rtt. tr, ,,,t: ■re- ;,,, P.'-',. ;•_;‘,...a.,e,e,,..,...,,„,, .t .!?!`"Tli ' ..•:: ••_..„. ' VA 'Ae rriA - ':,- .. l'44 '' :., • te ,,,•,, ::•„.: alet. ,* S.;,. -sr.. ,,,- , . , .: ,,.. , .. •:;,,, t.;... , .• ,,,.. , ,.. . :,...,,,,, ..-. - „,,—, - (.44,:, ' ".:e ' i'a. ” Ltiv,,, 1 ;,. :‘ . •.-..,,,, - .. : ::,,,, Xlgr.*P"' * ' .," '4.° ''''' .'" ;:;••;-.- ■ , ' ' - , - . , .,;j_-.-4 L...,,,,v.kv. 61,,,10,,,i,2, , . - - : - . A t-Tc.4:::: . ''-i • 0; ' ;•'''' "';,11,1'—'4,;i31.,ti I. . - . „ " '' - - ,-, '. ."4, .i,. - gAf:A,f--L,),Z; ', • ' ' . % 7 q T35, . - ..• ' v- . E y - ,Raik if.,., , 1"... , jiri; -,9,.,0...;,-,,.,g: e . .:„.4,-,4.5 :,....i, - . .' ' ' • ,,,s, ' -, .,...F, - ,. AY.4,-;r., 13 '. :117:'7.-, ... ;,. ' ' '' . l'. ,14,15-1:,04.•.,•;•i,;,'J,S3; ' 4g • - - YA:*,..;:',4i.'i '72-4 — '.4A ;7'1 h'.,2 ,, 4-.1a:,,,. - ' '''• `',' ' ( ',,, '. '' . ...1 Z`r.. 177 '..4: ,:,,-, .VA ?. ."..e ''.:?....■• ,Ar ' •":11- Y..." P. . .^,..,.. ..g. ..'.... t.,..44fl '.1... r.;47'.".S., P., „5 ' . P 7'.,..,.1'5i.. 7' -,-,..4)4%:, r,A, • . 4 . L ''' *'-i. 4z.,,— V3,. ''' . -. , ..11V;',?....: ,;.°41614*.,-...0!**4” "ri'' , ' ' ''.. r; i.:, ' ' " ' t . ,,,- rc,,, -., A . 'Tly '.../ ''1. ' • . 0 .. ' .... • :1'', 1 .Y.—et.„:. z UZUZMOMXerrn=AMBINIMSO IEMMMMZM= 3 0830 07/07/2010 Wednesday 1 1 0900 1 0930 10.00 r I 1030 A-B VTHDRss (atg) tosted valtD.VI.or CA I 1100 I 3 1130 r 1200 THD 111 H10 llllllllllll H2O A-8 VHarm 3 H30 1 Total RIVIS: 117.3)V DC IDvel: 0.00V Fundarrental(H 1) RiVIS: 0.00V Total lianronte DistortionTHD: 3,40V (Even: 0.13V, Odd 3.4010 en.1.1101•Mw 11 1 !ITT H40 H50 ..... .. ... _ .., . ,,,-• , * ,:•,...;.- - , , -.. -sr.. ,,,- , ,.. - , 4 : ..., ' 4, -,t--.ri::.,•,,,:-J•••,',..1,e , . :'' ,.... " ,- 1-r','.,,•4;',... -.'.. • :'..,'"',:.' 'I.' W.11..'S. -pzirv.. , ..., ). ::5.1_,intj' '4-1',.Y.Iii•-jr- C''''..:Vt!,?4,•*:3Y,;.. -... ' '' • i ." ,i.,2• .*','1,i . -4'.., ii. 9,4ki.:-.iiti . ,. , • , , i , :.:* " •.0 ' ,,. ,..,4 • '... THD 111 H10 llllllllllll H2O A-8 VHarm 3 H30 1 Total RIVIS: 117.3)V DC IDvel: 0.00V Fundarrental(H 1) RiVIS: 0.00V Total lianronte DistortionTHD: 3,40V (Even: 0.13V, Odd 3.4010 en.1.1101•Mw 11 1 !ITT H40 H50 PHASE A HARMONIC TIWIEPLOT Site: INAP PDU 3A7 Measured from 07/07/2010 08:14:07.0 to 07/07/2010 12:20:52.0 CURRENT AMPS 10.0 95 9.0 85 8.0 Amps 10.0 75 5.0 25 0.0 t ;awft#�jt. =rte +F, Y x w r '"` py sr"��' k �P :4 i"sC� M. p¢. u� t j C� :' ^S YtTj [y 'xy}`� 'yfy2.ti'; ;riTi 1'� Lam•: " {it tx" "�c tjp. '8 a N� ub,. �' i •u+ t3iit +t' 8`.J,)..+e4'� ».ti�,`�� d t dy- � -- ,yYP t tt.�JI,""%� 9ffi " a -t. r t ate°^• �Fd P1`..x r '4) 5�• � f Y;- W il;i':i •b'� `i�.,e : 1Y1. 1p �3 ti^�-s3" r . +,�. A, y .0 r.t+�V�".y,�.1 '" r5 tl Ey .M . t+p ��N » ,. i v. ,tea ,• • ' j +' rY <t @ +c Y j3`Y Y� F , ax . ..... , t. .. ,ak .. t V ..�: it .3' _ .r1r' ,... .,. . �wt"b _... 1 1 1 1 1 1 1 1 1 i 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 f 1 1 1 t 1 1 fix' 4�?'bi.'4 �A'�'Y•S 1 . t 7:.a�', ': *- x1°,t?'�2 e�>rr- • `" -� r t ii- S` 'k c. r y ° M ,.r ,,, 1 I 1 0830 07/0712010 Wednesday 1 1 0900 0930 10.00 1030 - A ITHDRss (,g) C..S1wd1UmN.. m.t 1 I 111)0 i I 1130 1 1200 THD H10 H2O AIHam; H30 Total RMS: 99803 A DC Level: 334A Fundamwdal(H1) RMS: 59&14A Total Ham»nic Distortion THD: 1026A(Hen: Q88A. Odd: 1022A) Gmb1.110.101. N1 H40 H50 _".' 44e4 :d$'1• "AS:.'f y1 in3[; 8� �?.74 "YAtidi'd+i_s'" r,. "t:B'� Y'^7yh4tF �¢�..1r; x.(.1 9 'i4:...bV°d'p.�'+i"'f6°tr�kva. • �r p Y;- r I y 4 &.i ':3. of tfts ttg,a Y z' r5 tl Ey .M . t+p ��N » ,. i v. ,tea ,• • ' j +' rY <t @ +c Y j3`Y Y� F , ax . ..... , t. .. ,ak r(,� , :} `r h ; «#- ��CCe h 1 tfP T w `4rt" G'.4: .s'�P° )�d J 3S�. i R TiI �Y` 1 _ r. _ .... ... .. ..... FiSN"yt,� Y 'ud �,p�. ss>i � ��.¢`.Yt}''.i 4K i.�`- x5:.: t " iJir4 try L�� • !� 'p fa'+ 7` S .,rs'�,:'. 1fE NA 1., tr . .. . . . .._„ 1",h .� .et .r1r' ,... .,. . 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 i 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 f 1 1 1 t 1 1 THD H10 H2O AIHam; H30 Total RMS: 99803 A DC Level: 334A Fundamwdal(H1) RMS: 59&14A Total Ham»nic Distortion THD: 1026A(Hen: Q88A. Odd: 1022A) Gmb1.110.101. N1 H40 H50 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A7 Measured from 07/072010 08:14:07.0 to 07/072010 12:20:52.0 VOLTAGE Vona 3B—• 35 3A 3.3 32 3.1 3D — 29 25 Volts 3.5 3D 2.5 20 15 1D 05 OD 1 THD 1 1 0830 071082010 V■adnesday 09330 0930 1 r 1 1 1 1 1 1 1 1 1 1 1 1 1 1000 1030 11A0 1130 1200 — B-C VTHDRss (avg) c-w ri■naV+a. u1 MI fa 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1110 1120 1130 H40 =l B•C VHarm Total RMS: 117.53 V DC Level: 0330V Ftnalgrgddl(H1) RMS: OAOV Total Hamordc D sto tlonTHD: 3,57V (Ever: 0.09V, Odd 357V) Cwoll.eb0 n1*..M, 11150 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A7 Measured from 07/07/2010 08:14:07.0 to 07/0712010 12:20:52.0 CURRENT Amps 105 100 95 9D 85 Amos 10D 75 5D 25 OD 0830 07/0V2010 Wednesday 091)0 0920 1 1000 1030 B1THDRss (avg) LOWNI.111p01/1. ti I I I 1100 ' 1130 '114'TV-11. 4 1 I 1200 THD H10 H20 177-1 8 IHarrn H30 Total RMS: • 61318 A CC Laval: 3.10A Functutterdal(H1) RNIS: 61293 A Total Hamionic DistortionTHD: 1C144 A (Ben: 095A, Odi: 1Q39A) taaledmit*O... H40 H50 ' " . 115.1,..45 ......, 'Al .. * .04,0,4.: , ..., ) , • ty,. .. „ ;...." 6.,:i.'4:111.'",..,' 4 ,..* ., i . A ..' , 1::" :. ! r''',11, .., s , . • . . , 4. '' 41 .... 4 , : i .: ■ o ' : . . ... THD H10 H20 177-1 8 IHarrn H30 Total RMS: • 61318 A CC Laval: 3.10A Functutterdal(H1) RNIS: 61293 A Total Hamionic DistortionTHD: 1C144 A (Ben: 095A, Odi: 1Q39A) taaledmit*O... H40 H50 PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3A7 Measured tom 07/072010 08:14:07.0 to 07/072010 12:20:52.0 VOLTAGE Volts 350 - 325 - 300 - 235 -•1 Volts 3.5 30 2.5 2.0 15 10 05 OD 9. a ,}.,.y }.. '7tP k� �•'. 'yr..y� q( ,.y. .at�� y �j g,.pg�� i � ��X S+i� 'Rad�ry1+M� ��'q.�,Ct 1 kl ,�y, `1 tM1P� 't i�+ A .. 1 W''' JN' . 4- � �'?�'9 �(,'Y." S, tXS'f • 7I..9�{,'., A"`�, . d� W �� C ,$,jN� � Ti A'Er,.,j'S"�'P y 9 I�AJ ■ XrX..:.tiaC.M' a' f X , �i � ;� , ��x t �t -, �, �' �tt' w.R`CiS lb v ii.'S {7 .: 'max, '} � .vi. �°�;.k ." 't ' Rwk +�,a ;. • ti E N 5 mks...' f i ME �!t '{s'k'y y" r ;?. • .. .r�^'4rpc x f trt ,, ,yx .�TMS i� 4t ,fit %L id Sroi• �.. 'E_... � 3 ; 4�''k J ..k�'qC ...�: r' ....,.. � ,$ k 3,i ' t - � : t. yy�� 44" 'I ,14:4"-- X :. fW!' -f Z f. !� i^,•`,�+ NI `£:i ilk '' i` iii. I 1 1 1 1 I 0830 0900 0707/2010 tAbdnssday 1 I 0930 1 1 1000 1 1 1 1 1 1 1 1 1 1030 1100 1130 1200 — C AVTHDRss (cog) C .b0...N.. IS 1 1 THD I 1 I 1110 1 1 1 1 1. 1 1 1 1 1 1 1 1120 1=1 C-A VHarm t 1 I 1130 Total RMS: 117.19 V DC level: O.00V FundsmordaK H1) RMS: 0.00V Total Hamnrlic Distortion THD: 361 V(Ever 0.10V, Odd 3.61 V) 1140 1. I 1 1 H50 "3+AC ,- A'��sa�"s... . ,.rb4 . t.„ .:s?•?Fa,i . '41i ■ XrX..:.tiaC.M' mks...' f i ilk '' • .. -. .� "a .... 1:; .r^..R } P' rt�r'�yz t '?ii ,f t • .IPyI4..,. ky 7 xYi?t a�RI Y v` F 1�ia4F?' �%$� `v 't'. Km},i F '0 , BX r °� __- rfi"Y YSt -'•.t !''° 1� # ✓a -` a 6: Y° i k ill° .... 4Id• "3 'S -t i q.k 1 1 THD I 1 I 1110 1 1 1 1 1. 1 1 1 1 1 1 1 1120 1=1 C-A VHarm t 1 I 1130 Total RMS: 117.19 V DC level: O.00V FundsmordaK H1) RMS: 0.00V Total Hamnrlic Distortion THD: 361 V(Ever 0.10V, Odd 3.61 V) 1140 1. I 1 1 H50 PHASE C HARMONIC TIIIEPLOT Site: INAP POU 3A7 Measured from 07/072010 08:14:07.0 to 07/07/2010 12:20:52.0 CURRENT Arnim 105 109 95 9.0 85 Anl ,s 100 75 -® 50 1 ' 1 0830 070712010 Wednesday I 1 0900 r 1 1 0930 1000 1 1 1030 ---• C fTHDRss (a1g) C•.■•GaD•Nr Of I ( 1100 1 1 1130 1 1 1 1200 a 25 — OD 1 THD 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1' H10 H2O Total RMS: DC level: F(s(dhnsrdal(H1) RMS: Tatad Harrmrric D istartion TH D: 1 1 1 1 1 1 1 H30 C !Harm 601.m A 3.41 A 60093 A 10.80A (Even: Q68A, Odd:1Q77A) C Gaol .DhDGaVItr ill I 1 1 1 1 1 1 1( 1 1 1 1 1 H40 H50 ..ir. • t� 1.z } aC ."..��,,,, y Gyfi�p ` 1 -, p. ^j 6P�#* Rya. s'a1 _ '�¢' r fR �y f m���s�k. � {r�fii�•�p � ��{ �� .�. rv.t. ar, R`. °ti3 1���,� iS �r"�. i+: i MI. q'tgiy�c T ■:L' N J'.,' U (}1r t, 11111 3`%f p 11l�pyM ..a 1 o-1.' cl . . 75 -® 50 1 ' 1 0830 070712010 Wednesday I 1 0900 r 1 1 0930 1000 1 1 1030 ---• C fTHDRss (a1g) C•.■•GaD•Nr Of I ( 1100 1 1 1130 1 1 1 1200 a 25 — OD 1 THD 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1' H10 H2O Total RMS: DC level: F(s(dhnsrdal(H1) RMS: Tatad Harrmrric D istartion TH D: 1 1 1 1 1 1 1 H30 C !Harm 601.m A 3.41 A 60093 A 10.80A (Even: Q68A, Odd:1Q77A) C Gaol .DhDGaVItr ill I 1 1 1 1 1 1 1( 1 1 1 1 1 H40 H50 LEE TECHNOLOGIES" ANT=TUK WA-COMMISSIONING-- PDI-PDU LEVEL CHECKLIST 3355,Soiith120 Kathy Mclnyale. 98168'rF' "" mbet6$Q Numb®rs..a 0 I &0300 • Equ n �PD1 P U XPr cedure, 3® • e PDU a " .vallo ratetagp design Manufachurer's•startupcompieted on the module. yArrccondrhonrnglsystem `is <funchonal arxtrcapable nsure that °ail test >equipment the isYrequrr Load banks anll behooked.up,and ready fo • cCanductfa porntto4pant test to =vartfy coirec Bound t aries ar7e placed'. around :the The Power Q a ty Meter is se# up and•r�eac mrr,a ra fa,aas,•.r {gin: 'Recoil start-dat ylith11610_Recad startitime`1:2•�r1.3' ir'k firY#. +w�.��•. -wr.+ QFS<.%MK, "s:;¢•SD�^..�.i'kT.. li+�R�t�FDr= �"':ri�'P`;.it ��y. s �• �.,� -As:- ..._" ?�Y'`'"c Doasm&ttitieV tlor start:up,has tieen::perfrmed � st,z 1prox. :f fay ttarr?:sw x ztrtJ'�c.tomiasars� cr., •4 sad tr a •� r' nth y+ ';<Ci;eti,•5.3 °' �, �+r erfontr�al.ofthe i? ©lJ�toethatthere noemaldamagtotheP� Check,that the PDUrrs,level anti stable with al stafbili ers flush to a 'iPS�o-l�•gG u?SS�ss�r, ax YS :GxrS.+i .rdra a ?Y s r4�F r ►e:,;;•,,8A;t2A3-1:t 1 3 T' •Id?".RSx ,f; rTi se '"^r 1 N 5i Close theffeeder>breaker,:to the.PDU • nsurethat alt,PDtl`toad�tireakers;are rn;theOPEN,position ,ISrafr.'.' Sx`v 'sf:,.' 1-A.4Y4' ' =tflth IW1w+:..4 Enti:aiiti,�iyd,ilb.,tr: .l't$i.�"L,y>>:�'`.i;Y'�„:.Q�c =Aix Closeithe rnputr main'arcud;breakerdnside:the :PD P ess the monaorr. on button Template Rev. 07022010 zi Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 LEE TECHNOLOGIES° LEVEL 4 CHECKLIST Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 Input V ;;� ,putout V G `liDutput A � .r, - rr': ;;, DVM 116 LCD 116 609 B 7.4 ' " 1 ", i,��' �,�. *} kt s 1' " 'tri�,' DVM 117 LCD 117 615 C It j .g i ' DVM 117 LCD 117 614 DVM LCD 476 DVM 202 LCD.; 203 -' -." Ae ' BC DVM LCD 477 DVM 203 LCD 203 KW 215 cg:` DVM LCD 477 DVM 202 LCD 202 K15 215 8.1. Apply control power to the load bank. 8.2. Apply 100% load to the PDU. KW:220 X 8.3. Start a 4 hour bum test of the PDU. ✓ 8.4. Monitor temperature in the surrounding area. ✓ 8.5. PDU BURN SHEET. ✓ .�. , Yim�:y;,, . v%I i -4 :21 . ;'. flutpiatTVpfts"(C: y :. `. ._. .,.?:.. r3t �'+� Rc., >a,ri M.O. utput w i -: , -J-'- .' ..,,, Amps. + / `7: :�':y +, -(a �S ;Ni.,,;�L•.;A :..w.. t�y7f.. °.I1�Vf ,1 -.' 4 ' 00 :00- 117 B 117 C 117 A 609 B 615 C 614 215 "_. ..''; 5'00:15 1. A 117 B 117 C 117 A 610 B 617 C 615 215 --- -? ~" 00:30' A 117 B 117 C 117 A 609 B 615 C 614 215 ..00:45" ?' A 117 B 117 C 117 A 611 B 616 C 613 215 1Hr: A 117 B 117 C 117 A 609 B 615 C 614 215 ' .: :2Hrr -. �' A 118 B 117 C 11'7 A 612 B 617 C 615 216 • t' 3Hr..» A 116 B 117 C 117 A 610 B 617 C 615 216 • 'r,+ •4Hr:::� A 116 B 117 C 117 A 813 B 618 C 617 217 8.6. Shut down all load on the Toad bank. ✓ 8.7. Allow the Toad bank to run with no Toad for 5 minutes for cool down purposes. ✓ 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. ✓ 8.9. Verify that all power was removed from the Toad bank. ✓ Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES LEVEL. CHECKLIST ReseVthe tripe rtZreaker at,the\PDU rrawa¢q,r•� �zv'idii` 31 'OPEN he�feeder�breakee tto the P D Cttetttai�the�Ucabinet - energized and;safetorvork n -Sectire,fromtheloadtban kii ."P Comments 8.2 220 KW was applied due to the current limitations of the load bank at 208 volts. Conducted an IR scan after two hours and at the end of the four hour load bank test. No hot spots were found. V ,Group has witnessed to ee sTgacyrard3 completeness'ot this ff ti • „�._�`� .. "i�,,y"•',.,� > ._ ,�a.u�+*R'";' _.. �'y?7' Template Rev. 07022010 Lee Technologies Group 4 Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 VOLTAGE T1MEPLOTS Site: INAP PDU 3B1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 230 220 a 210 3 200 190 230 • 1 A- B VMS 220 -4 SS 210 0 200 190 230 220 210 200 190 — B-C Vr fro 1 ' ' 1 0&00 08:30 07/03/2010 Salurday I 09:00 C-A Vr ms 1 t • 1 1 1 1 1 1 1 1 09:30 10130 1030 1100 1130 Coo*. 14.0oonaltO1 I WORST CASE SUMMARY Site: INAP PDU 3B1 Measured from 07/03/2010 07:3422.0 to 07/03/2010 11:30:37.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE/TIME WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3B1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage interruption:No event Largest Magnitude Voltage Transients:No event ( NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3B1 Measured from 07/03/2010 07 :34:22.0 to 07/03/2010 11:30:37.0 VOLTAGE eons 3.175 3.150 3.125 3.100 3D75 3.050 I 0730 070312010 Saturday Vats 3D 25 2D 15 1.0 05 OD 0800 1 0830 1 0900 1 1 r 0930 r 1 1000 .-- A-B VTHDRss (mg) CaM. W7.0. Y. 1030 1 1100 1 1130 L xr✓ .1'�dr5 1 1 1 1 1 1 1 1 1 1 1 THD H10 H2O 1 1 1 1 1 1 1 1 1 A•B VHarm H30 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 T 1 1 1 Total RMS: 117.72 V DC level: 0.03V Funrr' al(H1) RMS: 000V Total Hmrronic DislortionTHD. 3.19V(Ever: 0.12V, Odd 3.19V) s wM •040en4. I01 1440 H50 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 381 Measured from 07/03/2010 07:3422.0 to 07/03/2010 11:30:37.0 CURRENT Amps 9.7 -. 9.6 95 - 9A 93 92 -y 0730 07,33'2010 Saturday Amps 100 -� 75 - 5A - 25 0A 1 ' 0800 ' 1 ' 0830 1 1 1 0900 0930 - A ITHDRss (gig) c-- .,.o - ». ra, 1000 1030 1100 1130 1 1 4 1 1 1 1 1 1 1 1 r r 1 r r 1 r r r i THD H10 H2O A (Harm It 1 1 1 1 1 r r I r r r r 1 H30 H40 Total RMS: 831181- A DC level: 323A Fundamental( H1) RMS: 60893A Total Hamrndc D istortion TH D: 9.75A (Em: 0.45A, Odd 9.740) C -r r.r -v.r 0, 1 t H50 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3B1 Measured from 07/03/2010 07:3422.0 to 07/032010 11:30:37.0 VOLTAGE Volts 1425 3A00 3375 3350 a. 3325 3300 -. 3275 1 ' 0730 07A32010 Saturday Volts 35 3.0 2.5 2.0 -a.. 15 1D — 0.5 0.0 — 1 1 ' 0800 1 0830 1 1 I 0900 1 1 0930 B-C VTHDRss (mg) eel 1000 1030 14,4:-1,14 11 00 1 II 1130 k 1.1 lllllllll 11 THD H10 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 H20 H30 H40 5-C VHarm Try RMS: riao3v DC t: 0.00V Ftarlarrerdal(H1) RMS: 0_03V Total Harmonic Distortion THD: 3.43 V (Evirt 0.11 V, Odd 3.43V) 1450 PHASE B HARMONIC TIAAEPLOT Site: INAP PDU 381 Measured from 07/03/2010 07:34:22.0 to 07/0312010 11:30:37.0 CURRENT MIPS 9.75 9.70 9.85 9.60 9.55 9.50 9.45 9.40 935 1 ' 0730 0703'2010 Saturday Am Ps 10D — 75 50 25 00 — I 0800 i 1 r 0830 r r D900 1 0930 1 1000 — B ITHDRss (avg) C .. CPI 1 1 1030 I 1 r 1100 1130 1 1 1 1 1 1 1 1 1 1 1 THD H10 I 1 1 1 1 1 1 1 1 1 1 1 1 e 1 H2O I B!Harm H30 Total RMS: 5989; A DC level: 309A Fundarrt l(H1) RMS: 59a& A Told Haff(10/11C DislwtionTHD: 9.75A (Ever( 050A, Old 9.74A) 1 1 f" 1 1 1 1 1 1 1 1 PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3B1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 VOLTAGE 0730 072010 Saturday Volts 35 3D 25 20 15 1D 05 OD 1( r 1 1 1 THD 1 1 I 1 1 1 08130 0820 09130 -- C A VTHDRss (Eng) c,.w.ma..w.. u 1 1120 1 1 T 1 1 1 1 1 1 1 1 1 1 H10 H2O LEn C-A VHarm 1 1 1 1 1 1 1 1 1 1 1` I 1 1 1 1 1 1 1 1 1130 1140 Total RMS: 117.83 V DC level: Q00 V Ftsl t(H1) RMS QOOV Total Harm t c DistwttonTHD: 3.40 V (EvEn: 011 V, Odd 3.40V) C...a w.G -N— Y 1 1150 PHASE C HARMONIC TIMEPLOT Site: INAP PDU 381 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 CURRENT Arafis 1 0730 0800 07/032010 Saturday Amps 75- 50 ••■4 25 00 -- ' 0900 0930 1000 1030 1100 — C 1THDRss (mg) estIml.bOwSim itt 1130 I 1 1 1 1 11111111111 1111111111 THD H10 H20 H30 H40 H50 C Harm Total RAMS: 60609 A DC Led: - 341 A Fumbmerdat( H1) R MS: 133581 A Total HaM1311i.0 Distortion TH D: 10.33A (Ben: 034 A. Ottl: 1Q33A) C•00.1thOgri.m• KO I LEE TECHNOLOGIES” LEVEL 4 CHEC. 1ST ('1 ' t 1 ' ^ I -, ,3 .. ,*::- I,ttti .tad .;, fi r' ':,.. G :: `.a w serD DatB: ihxzw YB .'• J-:ki. ^�ti 't '' :7�,'p3 ' lA ®* .:, } 'S .r1Y, •�,! °``'G h+- T ''.1"' t l'SV§ ; "ii: • '5' '•% 5 '��..,,��ee qq : "'d' fig,. a'} i +• 374. ..,. o � . , tf at . tT.... . y- ..f .} +'s 1.M 1 `Fl v Y - ,k♦�`a : ."b.�YM.u� S "?, C�W`<tdi; i 2, .-S•.;' 6c^ +tt' t �..,•1'' `s %-ii1 i F `il p°y p; t7A ,fir ,�5,, t1Y� • ' 't; . iltriW liie #II{+laJPlii�W9YL70'"YiJc.14q '3. (r'g 4 {': , .' s '" . #}` �'�`+k .. y:�:8 ? - a:,•k. h .., H .s'4*y. -. y�,,.;tx:. �' o-r"X >k5��.. ..5dk�'Fsc 3s4'e+-d�i�Wa`M, � r t.. t'f•A j`':¥ # . y a § fk98 l�iay 14 '1, a. ; <vvssr� , gs i�10Ce t9 ° rwa*pate:.' w ds !r 0 ;tt� t 3 # �ProcednrreW e , ' •x `.... 71meSFram9 �� t a t :pQ80a51700fif • • :'- 'Pk: > l }t'"-s : . Custemertdame :i: A M.ix° 'iv t dRen•F':. intemap sOVIVII n i rF p� i5 '+T. '-'t it ... y, K « • ..... ' * �.' 4 '$+ } r.. ...q., .''1 6:x °, «� t+i aei �.'r. l,'•,? Address: %iddtBBB t sn 4 ':; °'N.t yC''" {{i '..y ! ti_ ._ # • #"i }4 E .. h'i -. s ,t «,' knc > ' 7 a4r 3355. South.120',Riace t qtr .!can.,:..,.,..: - - eA€A2r. « °i.7.:•F-tA .� ,t�..s• r.t ` "{- - -JFE• v (,�'lI wi 2y 1 a� aksN i T,ukimla .§atfi.� Ye&il.�.•a..•t.. l,m.„ .4.0 .Ch 6'hi na Ntumbars. 4` .i ,,- ntw.r rip.. s �= 1144,e h. i �703�w.�068` -'0300 6.="!.. .. tJk f K Yt A , t it. 1M Slate i • j 1: .'�yik'f '.:yF 1 %J r r? {ttw, a i Y fir: WA, g: S 98ft '.py3'f Y>•r�t}.,�. Meet, i.r•,b R... 7. '➢iC i, -» s1 • T ,. , 464'162' 4761. �t ,.� *^, .4 . • ze aS t �t i......y %,i 47^13 423 /4335 ` ': ,' x rT ti9e .+��y}{� '�dN '1�'%•�v {{: f• N t r. x«�P k a � �. x a yet ,r.•t'+ sr K.;41,. 2 /40t5,47:8015 s . . i . 3i s , , m- ®— .ey'• t" :' tusto ner POG' . 4r .. � � * Nn?- g J t '; : N i h �i eFt•t rs4 ^' ^ "}i 3 j� i ' w tttatthyki clrtvale . s k ��?°i -;r Lee,Techrrofogtos - }. tilt... N„a 'Comrri siorring '1 Su • r 4;ISO q._ ,�P,,:.44 b J "WW} G' y�� HertierttButt__mett � i* ..: •�(i:u� i`FC•- }4. 1,xrip t�{`*yt�y :. .,,,,, y{�t'.v.n, .. s Phone, Main e s "4. e,ii,YK' @ t. •. t t . [ . r Fh M:t.Q-d9,'�' IS. _•f.Y.:F,_ , J ite, ;G ,,,' i Ld k'.P+ fY ?1 V.P.—:(?•14. Equipment PDI: PDU CX__r,1__Pros urge :392 ' t'?+"?i , i2.i .7 X.i've. :.:.',44,1^rti r, W: i '�dS. i.ti :Z nzU 5.,.. ter °% T t�p t }. >✓b � I �„-.r� F' * 4w[•k` yss. B �' ��.-(( M M r' ... .L �Z.X J pfly .8' <..ff YiiSS�iR� I 4ABecied ?,. C i a .t +•mr.,..93 1' t� llfit Data Cente : ,:' ,, �' ', ° iLsyst�e x • t`.A.,.1 41.f .. d:$,i.J•s:k'.11...t 4t F .+t :?- S. • . i tw.. -�}r# y - t'�'r+ J vL�°4"3% Load-Dtstri utiont(kk „Y t Yv. wt.<e:wrt, C,,,,+.zwlfT.w ��,. a 1 +§ 104. istil '3 �EjllW „rent t+••• i,� Pk f ..$.'. lnfonnabian "? 4 is ,iProt y f�', k:£4 ai p k''? �n :r Mode! Vitt . a)1t,4 ..« •s"• �'y'`, " +�sr S at :s•y.:q -iL"S n t c 7+ t}S t •�Tff Tt •1}4 tVa 1+ t x z '. PP 3`�►rs -3ao 6=64;1 , a 11 azs79 -s Pl,„ �'!H' .. } •�k'i "PDU�,a ,., -'X4 �'.3`i' ;B;.ko6..:. tt'�, ..Cr.,.d:a..gv •.'a�'T+!Y'$ t4 • 14 wt* �) «'"Procedure /�ia��� y� . a Y' V>/IXfrew:: �• v :�iE%'�'SCaE9't��T'k: ": 347^`i t;: - . .'k- nYt „y`� �'2 •-. -: r ,� >j ��}+) %.:. t'74-=.941*:',-, .Y..,.. t is - E , a ni i . �S 4�'� f,4?, . _`T! tk . A' A•`C"f' f' Y 4�Yb•+'ypi,,.} ':EtY' � ' � • ?� ,+t This testinFghiwiII verrfykthey,operaiiontofkttae.PDU ,� ' =_ ` � , Y ' > ` r !ter ' ( y t ? ? '.a ''f aL1 . ; t x. ' }3 . fta � " .°'!�[re S `k� {r {.R . Ra .#t.!M � .�sfe �i+. »R� X , ..{ �.:5't ! °2h�A:!.S'� � �.,2 Y S,- A ��j 7fl. ''''4'.7;1414. r^__ri, �w sa-Mr.: )14t .p4.4 ` +t a+ '..IV''g r t C r4 i ? °} .. f0 f N f Y G t �. The PDU illiope etas per design ' .w.w.,r...?'4:- -.Ls a. -t ,a..Y» -. f Pre Procedure Requirements: .. Ynf Nlit wMH” - ^ &�. d'" u'.i vAg.w. +''�.5. 't t Manufacturer's'�startupLrcO� mpletedm the module. n ! / yc "re .[�i� S aP^ 'f. . 1 L. �, f 44.11; .,condttiontng systemlis functionalland 'capa�biel+of,supporting G(�^+! ,T" 'Y tN+. 1 pi ) „r r 7module ��J 1' " ~� }a .N,,'t,�i,� ;,P F. .} . �,. .wo- $ k.tx,w # • Rol E4�nsureath�roa�.tall testt,�equipment that istrequired tisionsite and$operattonai r1 , ,, {,"Vd .y. S3 erk & M& } Lpath banks ' wlitbe-ihooked�vr�y+andiready fortesti n , Y t• i3 t 7 -. t 'i3 1 atilt «a :' Sti i ii.ra`7 ,13'0sr "> •,Q r. G' '�' .$a iP- f,0;,t f , � ,m e Conduct aiipotrdito :point test &t;o-r verify wimp$ win r� 4. dT ! Sl..7t tQ)s.`T .s4 5 t4M J'{7 _''t nthA'ksfi ':i'sr P.� t,� +c. •r,: - ct v f 1 '$� Soundanes`arre placed aroundhthe PDU �." +fe�ai:::R� 1 �'Fr �ik^t °w_ we )L� ty�' .- -o- r ,w r- i","`#,' {Tate„ PowerQuahty•Meterts set up'and ready to_tr�ie.cord GnH ••, ' .W"dWN:: },,,, . 6 ,4.,,, K: 1F?sf.T+?..t'? a.`c...�il_fi4 Y.r,„.„. • a'Tl $i ",„4.$, repg'�b ^� A ` E,Ai't`I' 1P f r 1+V Y t.'C' 71 Fri r the he� • enerated thePDU rt' ,d -T"r • $ k , ;a�;.�t $ "th ?i �r i .'. }i ; ' � d ` .'� } ..' �; :Pt� f- Y,Y.i d }a .i� { jjt �e .a h .• F yg k 4y t x325( •4T7% r' 1 P ,t' e� .. ' :'iir .':+wy�- i � k :II'. Y„"`t' i tax p .t •` 4 i•.• jj , L, ,.i , +% .Ib') A��£ i 3 . i �+q t �r •�' ' �` , u� }ti b :$... . hi #. 4, `4+4 ,.1 .» C (( w 2 ,;Ah ' . .'• #+.. 2745F''= i).E'ki; .� ' `. 2%f W ''ice. 4 P •% `4',41,•:to.ut!'. % Vv4{ -7 9 q 1 -1!, w -Y 'P�i2 }+. 4- °` • �:�t i{4 I. . i �' f�}a"� �� L3et�il ®d 6 :enure r� It : �y =:: : f ).TjtS '2 . % ^l�^' ,.T, PWt a.W,. F�,�- . H✓2e 'r d.pi(�Yy':5.sp(1�•fa3YCn a.0 4' .yt tYro Y� +L ltt,{`,�� { (S •• i •JCYi�p �q�ry !rt�OPBdda'3iW 4 "$ �iy �, l (S l A pj!�cy�I+�1 4•. '• *. •4. VI. 3t"+.'�'.t tY'. Y.4rtri'tWF: "?!.• Jilt}Trinr,?.'. ,{5.5f`diGtekYP.Y.":d.,t. fd•.7'F�'f�Yd -'ITf. ,dl - ,4S1i... -Gfil t } .,y.�. (Yt a•"'?'t^akt W+. t.S. u. y44�'. ij.T "i'r€< r ,p7,. °wx:g =• v' '�'t'a F•r N. 'b,i.go,:2+ 6k'f( r," ' : -4- 'iYHn'h) ,' NF+a�t 2 ` 4`1+1 �i : F iV k 4 i ji 1. ecord startdate. 03 ,duit,1Q `Record.starI time 12.138 �,t t t d ?i°+.., z�' a j "- ' y yf eii' Ny • �itr.S't*iX.?`f{'3 ._.y• i14,.pt,2 r4`a9,...tdf,. v!1 ,,,,,,,.. „,) ' a trj 9;T,. ..fi+ \A'.,.t- »2r.F'.`;r....... ? i`JE' N 'Y: 'Y a .{ ^: YFi. t `"r -ru +94,v t# t''u yfi '- . �- i4 Yt 7 + � <nl ✓�eb +• irk°."::. $' • , ..o... nf?,k1Vi '"ft3 94.,, m=om F "4,1 i '4fSc .c. i 'r` ;$ rk a P. . . documesrt.that vendorstart•'uptihas be performed x ' `a _ . P.`,.r... kt $b,..,7,,��.::u1,,,,o3f.,,,,sd •'- 3.,r.- ,ctu.�.a,va' :.:v..,1:,�'ie ,..y1,:m ' •, ?'{•' a•,3 .,•_tk"i;?�V- )m,„,„,+, _., .. Si .i3? Iii .Y.. ti*, ,i, 4"`': �� '� ,its 732t. wlfi-.,,t, ttu 5.,qd ''44 . net. t '"K,•'.g t&$},. "it`3.it'�w `y`' %44::''k'4'{TPY•/,d ft ij 3.2'74_R:il ..-�2i�41,,,, �!,:,..,;,,11a�4[ ih:nr �7,` F. Mi°' ...'7' 3. t' Per`fomi'.a visual,.of the,PDU toiensure;thatYther�e is r ° extemalfdamage:to' :the PDU _' 2fL3�.Adw�:.�: twit: s%.+ ,iir ?..:n= nFYn."Gr.s*J {e #.a.riwf'X:b i+$s'A'.+ -:M ,d;,u': �,.. xr'A r. apd�ta a:i%d.1°°' :.= .Yr`,�y' ... f`, a' 1b' 3:( sduS`�tatrikk��i`�''+icitSr.v VF ,+',Rk''itYFd:.7aif'_• �. t , •S q:p . ' t • sT kw..'' Yv r,fea.X: Tr a R :'', " "'`R � !r _ _` ua? i :yade `^, 001;X.2 xA r • i'rtyfp2t+ y, Checkst at \the :PM:his ievelandtstabiewith tilstabihzers-flush,o,theifloar: ; 1F !!yp?.^.!.+ .mit,4..:kr.. R.-.t; „,it7�x44, . .u:;dau•;,.4 1):.1 0b4 w,.f,, d. a tt.."st°'kte!8°.: x:i .i;” ,:'r,h•'�': C�b.4 2 . � ) t• .4� , -s , tts'.t f171F*:ty j., ? '7.x.:,!...C? •,,-.4,:6, 2•l aG;s� ✓ ,.ryz44y : :.:, �iosetthefeeder breaketo the ;PDU .5 „ • ;� .4. ,7A 7ry rq{ty i .• 1r P i . .;'iF #( j iv.a `r .I01 . . ^ rta - y y' Ensures thatall'PDUload$breakersrarelinthe OPENposition st$% tu ,tuvr1isott:teti9.:tit4r t.!aJa......'.,7 7SZi!dV4kt'4:`YkW7.! 4..?. A . . • #°?�P: *S' 4 eS ri}r':r Y �` Y':y •atnt } i `'',� �u __'�.••. - ... ." . %� 5 6: ^ p tz " 1 v"�f•�ny,, ' • `>.. ..£ r , f d . 3- .gf a{f. �-*.,t`¢ . ' - ' :t'ti�' •� aQ "?.000, -, .*.x .rP.,.; • v.,)sa' 4eV 4lk.V.ti,4n ?`,,P,...",•--41k2.- . :: �cg 7 .Closethinputmain`crcurt, breakerkinsi ie4ihe?PDU r }r R yS�@ n C . a. .. l a. ,Att g -- ,,1 . F.'t:ti:w{ _g. .i=.4i, VG 3 :DittiArl V N ..10. A 2tilltit. :14. "P.; .: r ' 1,4 :V? . r 4 '8h, { • 4Mii- Vt. :.::i^' r, -' j'C-., <vriltrti �t ... t. � ,i G+i 6 N} [n;.. : w...'; t �i'- {' .�.A` 3 f - ; t, P the monit irrongbutton ; �� a . , s t , M ; �, �� $ r ti t w N . p� i�vq� , :ai.. I. :4 s+»r:a!'.t,-.,m -a., .; +. w l e -+ . t' s.k )._.:i„ +. G... Y• a:..o-,. • iii e4 d., .XvM tLtS ffi! ;%. ,,,, :tt �Di h Template Rev, 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 LEE TECHNOLOGIESw LEVEL 4 CHECKLIST Template Rev. 07022010 Lee Technologies Group Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 Input V • .Oultput. Y • .'4 4 iiiiS..), . ' . . 7.•■ y 4'i. a.. ' ' ' AmPW: , 613 " ' f ., , ' ''424-76;'firM;A,""•;- ' 6 . DVM 116 LCD 116 8 • . 1 '; 't,4-.F,-, --"' : : 1- ' ' DVM 117 LCD 117 625 C '%,.1:-,:!.• hi, ,z, .406N. 117 LCD 117 627 AB DVM LCD 476 DVM 202 LCD 202 t xts i,?,..4.?n, BC DVM LCD 477 DVM 203 LCD 203 KW 220 • CA , VMD LCD 479 DVM 202 LCD 202 KVA 220 8.1. Apply control power to the load bank. 8.2. Apply 100% load to the PDU. KW:220 X 8.3. Start a 4 hour bum test of the PDU. V 8.4. Monitor temperature in the surrounding area. V 8.5. PDU BURN SHEET. V - - - — ,;:,... .iime Output vols' iCIN - , ' , .... u! t 7 --,,: ;„A:Ri., i: ;., , .)#,'Am,•;P?4:'cq f.:- A i 06:00: 117 B 118 C 118 A 813 B 625 C 627 220 _,, PU:113 :" A 117 a 118 C 118 A 613 8 625 C 627 220 A 117 B 118 C 118 A 614 13 826 C 626 220 - 00:45: A 117 13 118 C 118 A 613 B 625 C 627 220 : i! _r-. 111:1.... 4'. A 117 8 118 C 118 A 613 8 625 C 627 220 . 2Hr- 117 B 118 c 117 A 612 a 623 c 625 219 A 117 B 118 C 118 A 612 8 625 C 626 220 :41Hr; A 117 B 118 C 118 A 613 B 626 C 627 220 8.6. Shut down all load on the load bank. V 8.7. Allow the load bank to run with no load for 5 minutes for cool down purposes. V 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. ./ 8.9. Verify that all power was removed from the load bank. V Template Rev. 07022010 Lee Technologies Group Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES- LEVEL 4 CHEC: AST 8 s :r `; ,p { � y y N ''''" • .t 10 esetilhi tn� at: . ro1:. '9.. .t , .. g ,hu °v"'TT't•4 I ' 14 :,Y4- „.:}%, 811 OPENhtheleede r brea1 kevt'r t o JAtYe t PDU n , w eF 5 yt. �' � ✓" n n.bt P14 ,"TAV`,!i, t.: '4 r:f`t,b`i' T. --- twr tf�"s .t '471'.4+Yn'�2'; • -. - •?: �,i'f. 8 :12: Check that�theiPDU carnet is, not- energized and safe' to worktin y t. �.. "� ; ',� "qaw ' t tst'!' t a.0 - - -_.... ...;4' ?Fksr i.: VOLTAGE TIPJ EPLOTS Site: !NAP PDU 3B2 Measured from 07/03/2010 12:14:00.0 to 07/03/2010 16:26:00.0 230 220 g 210 200 190 2 2 1 —� A-B Voris 41'' �:Idl .1 Y., py 1, e 2iF:S.r- _l.. t.',&.'�5 .... . j wRM .f1 t20 .{ 1+�.�,�,,t, 4 - F sir K �e!`. ;' aTii rw'k {; _,., 7 ,41'. t10 "r :.w,.ce ='(;Tis=+.° tq • ,.i. ...{ ::'a. t . se -fr . { $S'et'1 ?a'. a(. .b- —u*c tea WC{ yy� If. ^C #,p T i ;.;vp aT LneYO'.c'M1n i&..P1A r1 A'm.UT. v� ,a. tta �i.fY'rif' 4 Si IN.. �. t .t' T V r: �'k �y,� 1¢' Z•4P: k4 j}{I(� 'y 4 s.. y.��,M.t t. 'y�J , k.L't"IIN, ".337tR�iT "i�g sPE l f Q w 21 ++ _ P . R 34 (,rTi'fi''S "•yK 190 ', �rR"'.G aK:S7.. ,,a.. ' • Z^ a4s ~} r, W Y�^u. � i•Ai'Aw + }b�§. `vJ 5 ,.1. a fil'd.{�v`Y #j T.t7 ;; '4 i '..n b�y }1 t= ..� iC 4•. [, W iCF`5' •1 j: i'•'e t 7 p "SN L:%aKi�h.; '�21" i a <+ *+tom. .qq.... fF' `'4 xKe, x.o . : f 4a+t ar. �F'y�y'Ya;. ,yy`, ^ .�`{:,,, 230 220 g 210 200 190 2 2 1 —� A-B Voris -- B-C Vrms 20 41'' �:Idl .1 Y., py 1, e 2iF:S.r- _l.. t.',&.'�5 .... . j wRM .f1 .r.ww..RY=S�'M.* 4' .'h Y203. } +A'J.'B iM�.'- f -q, ,t pe k.. . tYki 4 - F sir K 2Y. "r :.w,.ce ='(;Tis=+.° tq • ,.i. ...{ ::'a. t . se -fr 4 m..a . { $S'et'1 ?a'. a(. .b- §�`' 4� �f } . .rte,, S',.Y�;at:s���^ i % � y(iS {.k� x` .M.fD 1 -- B-C Vrms 20 41'' 10 F sir K n t . se -fr 4 m..a . { $S'et'1 ?a'. N .b- pY } +t`° 9°.11 °`n�4 +�+' i % � y(iS {.k� x` .M.fD 1 -}� ..�.r'.'•�r, �.a "'CS i. xnt r'tiT'� %J?"3. 725 vbY ,-0 i ', �rR"'.G aK:S7.. ~} r, W Y�^u. � i•Ai'Aw + }b�§. `vJ tp-a" 'aY.t�y = ^'S `,£.> t } °m, ; Y(Y . µx .x .i. y l { R Y. '� r2 i9 q� 11 rya y; i4 s•tP. . -h f[.'imZk t i $$ .. — C -A Vrms 1 1 r t 1 1 j r 1 1 r I 1230 1390 1330 1490 1430 15.00 15-30 07/0312010 Saturday c..r 1.09, 4 se 4 1690 1 WORST CASE SUMMARY Site: INAP PDU 3B2 Measured from 07/032010 12:14:00.0 to 07/032010 16:26:00.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATE/TUNE Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE/TIME WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3B2 Measured from 07/03/2010 12:14:00.0 to 07/032010 16:26 :00.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE NO WRlEFORM AVAILABLE Longest Duration Voltage Intenvption:No event Largest Magnitude Voltage Transients:No event C, NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3B2 Measured from 07/032010 12 :14:00.0 to 07/03/2010 1626:00.0 VOLTAGE vans 3 3 3 3 3 50 b?")IQb'YF^ •.�..' ':3 ".1 ^ 4fiSN4: rm 4i: 1.WIE�VN!L277.0 ': . a,.1.:A l'A?P..o.),ii rj.,1 -,P,. s..'S- RY•1 J•9 ', .> ..> ,. > : D:: . � 1"iY h7 A°, --4 • i� y • yam" 7�+ 'xhyy:,,S • ..3'.5 • • - { 'FS - l,'i. ' X41 t�1 t i � t T' ppp Pp rt .T � M yST i. n✓ • 35 — ^#��'S k - r�K x • F „ `}'. ' .„{,'.'d7 a. , ��+'rC ' "'.} g� r., -(.�. r +fir "k� 6 i d�j :? A C} ¢¢�7� t ?y 4Nr;^4{�r{>° i�r 'Y 'Y" dy .5. 5'' a 3 • Si "' ty.. r, n' t tR g, n, + a a S,e + S,, FY rr .„ 'Mtr �A Y .`�^41,'�'d�. i,i" 6 E? '�3, t-�, >K (... ,,,,;. VS ' d: • • .,- S1 aq+; +[k ✓�° .t, .3 'rot,�„'�> -.� `> fi , : t L ' 4fi "ei'.9i'Hn , $$�' 'y�>a ,'i`'4 '�i. { r «v a 1: ib ,yin. 'r ' r 1 1 1 1 1 1 1 1 1 1 1 1 1 1 ( 1 1 1 1 1 1 1 Volts 35 • 3.0 25 2D 15 1D O5 OD 1230 07103'2010 Saturday 1300 1330 1490 1430 — A- Et VTHDRss (alg) cw00..1.o.0•Ir o.t 1500 1530 1600 1630 li Yti -del t1.4:'?4ti>.k: u.".:4. ••' ., '- :'?.> '"6°hd7' i- "57•In":.' • 4a. "t.:.,4 t Vi * bC:4 -' ` en"..„"R-',h .< ■ ,. r_ n r • r�K x F „ `}'. ' .„{,'.'d7 B.' >� d •:. 1.s; * ,r x.'f'y3 @y fl$f s'"^'Y r. ? ,.,,w d'w$."" .. rte% 3t ''.' !■1^� x ®r r �A Y .`�^41,'�'d�. i,i" 6 E? '�3, t-�, >K (... ,,,,;. VS ' I 1 THD H10 H2O C A-B VHami 1 1 1 H30 1 1 1 Total RMS: 117.73 V DC level: OSOV Ftn mr al(H1) RMS: QAOV Toni Hartronic DistotionTHD: 350V (Ever. 0.11 V, Odd 3.93V) 1 1 i 1 H40 1450 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3B2 Measured from 07/03/2010 12:14:00.0 to 07/03/2010 1626:00.0 CURRENT Amps 20 19 18 17 18 Amps 20 5 n 15 10 iw,•V!,.i4.t4sr.6,..41".4.,1a1:"1,4;•.*'t'.,'4'.4' .1 1 ZT4iiC..-.Ii' A VgYe-. '''' . .-1 .--f2- - - ,r. .,,:a*"‘IS.- ''''. '' , '''''''...''-';f: "Z•.`i+s . ' , .„,.. - .,,t. ".• ..; ..' , , .•:'"A.1',` i "' - .4'. 4' , - ' ..., < ' . •;.'- , .. .... -04 ;• 1 . . - ...: v , '',4'" ' . '74' - • . 1.., . ;' ..., . , ..14" .,, . -..es, •-'1"-., • • i■ ' t. 4 • .. • ' I. ''''.. '''' r. • ■ .:•`."... '''l • t•I'''S ' ' , 4;1''''''''''Ii . • diligi.•li 1, • ' ' ,,' '.3t4 41. ' '''''' ,,,- :'-'• '1'''''''''..X'. . . . • ' ..* VP, •.• '.. - 47,', ' ' .4. 1 1 1230 07,032010 Saturday 1 1 t 1300 1 13-30 1 1 1400 1 1430 - A ITHDRss (am) 1500 1530 I 1800 r 1830 uz.W1.4•4?-X, e 1 1 THD • .;91*:;:ft-P' 0 4 SI ty Vi or: X, 06 n#1 of. t, ,r•• 1 1 1 1 I 1 1 Y1 . i f « H10 H20 Total RMS: DC levet Fnchmental( H 1) RMS: Total Harrrortic Distortion THD: A !Harm H30 59aM A 420A 596.83 A 20.11 A (Een: 213 A odd:IsDIA) H40 1 lll o 1150 PHASE B HARMONIC TIPJ EPLOT Site: INAP PDU 3B2 Measured from 07/032010 12:14:00.0 to 07/032010 16:26:00.0 VOLTAGE vats 3.725 3.700 3.675 3850. 3.625 3.600 3575 3550 Vats • 1 0 a- 0 1 1 1230 07/03'2010 Saturday • 1390 1330 � 1 r 141)0 1 1 1430 --- 8-C VTHDRss (aeg) CrN..1,0 LS 1 1 1500 1 r 1530 1630 35 31) 25 21) 15 11) � .• ) N s .d s a D5a' ` Alf. DD 't ... � i�j3 < t t o w } -A } ,' h yR y t(�u1'f! ,15:1 .-. C,q Y mi. p o r arr {�, P,.k k'�R s?. -4 rrm ri . „Y%,�1'z ^s', . ...f • vt , Y.,� q °,.�® — rm 1 11 r r r r r r r r 1 r • • I r • • r r r r , P r r r r r 1 r , i , • r r 1 1 THD H10 1120 EED &C VHarm H30 Total RMS: 11x13 V DC Level: 0.00V Fradarrerdai(H1) RMS: ODOV Total Hamnn;c DistortionTHD: 3.74V (Ever. 0.09V, Odd 3.74V) 1140 1150 PHASE S HARMONIC TIMEPLOT Site: INAP PDU 3B2 Measured from 07/032010 12:14:00.0 to 07/03201016:26:00.0 CURRENT Ante 189 175 179 165 169 15.5 159 14.5 Amps 175 15.0 125 109 7.5 59 25 0.0 .it 'g ap i ,�' '^ ysT& 4 st�ei •�..`� �+.t'�y.e� " i x.� y r .€•i%.� k.h u ,. ;i' f y 3 ,• •• J .'� 7a'.t, rV,.ux i w•'� �? . � $� • S+ V�g11 ti ��'i ` iybtr , a� ;'.r}!;3,,x J��a+ 1.�} C + - { lk ' Rr .p?� I ipxv .x `` L :" x w :. gt .. ) �CC • pa�i C%. J.t• ; . _ .. .A .1 . � `a�,, ?+}�.�. M n t is 1 kxi'� : r°te', i .Y .`y .��'V Y5� "d * #� .I}'':#f8!; r+•r,': x ', ' 1.. t: 4`x,d.."Yk 4,& rj SNdi�i5 -�r� 9�si;� j ° �a, 5 �f y '� 4 ? . pS ri y Zr S $�.(h .� in t t ''''4 y5a r�y[l1 it jj4* p'�F^'�e s [ {r '��C � 1. L f y`• ta`. ` ' e° $ , ,�4.,.�•;�"`.1 '�+ �} } Fff � ' '#A t J_, .✓,!,` ��fio,, ., 2i n �l,. 4 F<sg M yf$,NM �rk y +qT5 N, ; -5tQyd.Y t ST . 1; �'. ,�i{;.l"ry " :f+s y $. 4 u. t'k • t }S i'� ..`��_ . rTs'» �. 4 :( } .M, 1• �N»P ti r a� 5id..a° -1H lii64iy e :s ■ `' g .I * ;geyp. q{ AEI ¢ 3 43.^ Z S + , Kk `" U 7� t. ty*'r .'N' ' ..Ni"fi'+ & 4% � 1 •+l�W. 6 .: ' iail �} `i7 ! �' �y°•tA*7�•. 1 -.. 4. 'f$.C,' ty .4 (�p,` �r b<,s+:r Jid"' lsy2�e �'^� i'•,$F+ aF t (, y'T St S'L �Z hF�y ' `�Y��� b- � M q� r+ - 5L"Sn`F+ � ' � # P �y'r a,iSci .i; e✓ �2` 7( 't' 'M h Y € '$ 4 , . {fix.. ,. 'GS SJS�i «d't2.:t i •.:t `�- r-��e .t.! E�pis Yf;•T, �a1h 14'/F�°t'�..: d1 tl c i Y 7:4!:- bi.'�, 1 gy�`$yxx rt;. �S v+•.�t - ;,:t\, ? ,� :da } F ...t ... 1�.. .. '1i5. g ' Lei. �'t ; •'it•�nt iZ•rt.)4 i: 5hi tg4' 6 ,5 � L.,F .�.. €LLra �,.�,'� i i :. t.^a�,;b # r .>i W#LwMV. ..f jy €, ••• Z } a' { } ' .: �r •{ • • y 6 q. • .eF°td ?:f�`k � s ;ff J-� A"t.'m:- iJ'.:'T �•E ki�w `'4'Ayit,4 ;."µi ���, r� F } 4rP,: r "� tR.«'i w y.L zt` �" ¢. t=f_ s,t' 'i ' *sr . •, x ..,'(..�.ft.lx: .rt.. %:=i1 }.+'r`'}€ ' :.....: ....ry °r'�' -°' '4y,� 'as'.:m Ya,%.. ... .tt' �:.:�&R.i/t. ij�' �' S XI py� `. } "..}�LV.ew'. -.. ?4'�r 1.v .{ �i'� b • " o-i T 1230 07,032010 Saturday 1390 1 1330 1490 1 1430 ---- 8 ITHDRss (avg) 1500 1530 1690 1 1830 } l 11.11`l'1.I 111 11 � . a B IHarm Tota! RMS: 60539 A DC level: 333A Frn d3 al(H1) RMS: 13 331 A Total Harrronic DiatortionTHD: 18.12 A(Eerr 13.42 A Cdd: Jae A) catrt..w.w.. ee., PHASE C HARMONIC YINIEPLOY Site: INAP PDU 3B2 Measured from 07/03/2010 12:14:00.0 to 07/03/2010 16:26:00.0 VOLTAGE volts 3.65 350 355 3.50 3A5 Volts 3.5 3D 2.5 2.0 1.5 1D 05 0.0 t ."C , -F��,Y ���"e �yC 21s' + ¢. a k - i�L �� M11-1, 1- .tt, ��ay.}{{r�¢R R+`E` .. {} kW� a'� � d �"y'r}''yy '%)) x'� :e2 N�4Hi , 4iY?'a+ • -: a: : ��'�j 5y ..py`}{� ;p$'-7jp.(�- E'♦'S �^ ' t �`'1, • AE >.'%'�l �}y�q.. R? 1 . 3 . iYC .,, §IL ^^ , ? ?t'S«' ,$ j' 1 .n�.. ;j73S .nO+R94 ,.� p, Ei fey aEk .41 . y{uw i$ x yy � ,dq i+, `C# • g t,.'»,�4'"'h }t' � P 'S`.1 .11 �'T " -^ _ 4....,!'^y 1 ( ai " f y' "y . . Y . jr .4 y p TF y S i5' "4 r i '± jja��pG'�L�y' t% a ,, ` *1l �p Y}+,. 'sY' J�'y "� . sir 1': K 'LYS 1'Ke. ... {.t "!r: ;as`z"` ;ka �..�} . ..i#W`''•a v'�:;'waR �nrit_nx:rt^c =. 1230 07/03'2010 Saturday 1300 1330 1400 1430 -- C A VTHDRss (aug) mad . 1.0s R.. u.. 1500 1530 1600 1630 1 1 4 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 THD H10 1120 1130 1140 H50 C- AVHarm Total RMS: 117.M V DC level: 0.00V Ftaffirnarda1(H1) RNIS: ODOV Total Hamorric DistortionTHD: 3:67V (Ever: 0.11 V, Odd 3.87 V) Cw.wM�vr v. PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3B2 Measured from 07/03/2010 12:14:00.0 to 07/03/2010 16:26:00.0 CURRENT AmPs 11A 113 112 110 109 100 7.5 50 2.5 0.0 AL, ' ' ' ,. ; ;IA . ' ' '' ' : - - r r' ' ''• 7.'"',.. 4 4.9,!".'..,,;:0R;',::.: ; - -;.::;:!' ,fa: , ,,,:',7F, ' , ?'• , . .".• , ,. ' ' ,..11.4. I IA ' • • '''-.-,4.#''',t'P.'"t'': , ' . , -.,-.0 . " :=:::'-'" i il.-,7111.;Ecr-...9, . . . . , ._ . . _. oti,,, ,,, _ _ , • ''' . .°- ' .,.• , ,, , , " • • •e— .7 i i-4.`'7Y-1:4*0.-"I` , ,3`F',;;;I::71.. , " 4 ...' k %. '..4 , ,;..9 • ' . • -,..i-P..%:414.,;,. e ,...f.t '''''." "'' ' ' ....e, , ,,s,‘,4,3:, . . ,:Wrt'' " " t , ,': ' i, ., .1-: , • ' ''' 4404, 4,tt. . '-cr, 4 ,-...r e:Ly...,ve. , ,-oR ' '4--V,1 ' '' ". : 4,J ." ' ' 0 . ." ° : :W.- — ..-If'&1 t • - '-'''`' -i:: ' ''''''....k' V. . .. : :?‘::- " - 45.:' 4:''''- 4 I t4f A A-•.: s sk 0 ' 0 rj,*Pt 40 t t‘isttrr. 'I, . :",r:1; ' 1 1230 07031010 Sakaday 1 I 1300 1330 1400 I 1 I 1430 C ITHDRss (mg) -.D.... WI 1 1 1500 1530 1600 1630 ...;;;.t ' • 44 t: - 4 1:4 . - .c. ..:•?. ... rk, , . -3 ri.. ?i • ...... -, . • , , 11 r 1 . . . ,,r , ' -- 6:: rr. ' s'44' . inc'.::', *-:',.1 f.*1:■••':::::!...11'2,-'11:1 ,-.' ,.`-':j . IR .-- ‘.;1'.:'' ' 41— ''''' ' ''' ' NfP . . ... . 1 tr,..''.1t THD H10 H20 C IHarm H30 Total RMS: 611./2 A DC Level: 5.76A Funciamenlal(H1) RMS: 611.CB A Tata! Harmmic DistartlonTHD: 11.39A (Barr 091 AO: 1135A) C=.1.1.0•1•V. ILI H40 H50 THD H10 H20 C IHarm H30 Total RMS: 611./2 A DC Level: 5.76A Funciamenlal(H1) RMS: 611.CB A Tata! Harmmic DistartlonTHD: 11.39A (Barr 091 AO: 1135A) C=.1.1.0•1•V. ILI H40 H50 LEE TECHNOLOGIES" LEVEL. 4 CHECKLIST ,, „ i; 5 itX' b - .`[�$ :'`. t ' x4 yL Y} ,•a'+ k r t ". T.'>..,. °�y^.:✓,r `�„.y �• `� px (y. A • #i� 2'k' '3 y .p4.� >y,F J �R i ifs.` ` .�..t?+°°°TTTiVn%Y' :1c r :4 .'. �ke e'•� > �"!>"P x"A..; . V Ri Ml.`�k� *yam /�K;dQ��\ ' '�•'�" { i �`�t MITJUK -WA.COMM SSIONII .• l D -PDU ,C¢ ^ �,i •7 SA -,- 254 4 v.AC" -Ni- � -Yw :‹..Na..i.37:i's."+i.00:17Rt' • �'M -vY,d.}'R.+gi'i A,... . :. • ..Aw•ua,. r .rt. �aiaY - em v X18 y 10� �' a •.J4•�i �._ jxg a 1" ,^:i: d �y t �Procedvre WOfI ° 6 _` -'.a< •�..... .. r 'al i Pul iY �ZO lul 10 • tf; � " 1 awK �66e{ $..,. a; idSi .•. ne XxoFe�w: r� qt: ab3is, _ ,. .Piocsdure WnrJ` 08 '170 s S m/mie ., 1 { t trw q`�3 <.. �d c...C.',u.p..���;,Ma�c�asr�.<:.., M.-.., A..?'•,s's 2n.. .stt¢!n'{ S. Customer Name Intemap . �.b'. R~.�"vC.+?�tw Cam,.• yy �.iilfMl4i. ,, Y .:41-„,-,',.---; ,Z 14311 i4. : M.. �, , 7..; , d .X '- ����.,LhxR •4`t=``;�"A�• c�•%.S �i'ort•:, r<•xTb.Yrffi. ' yaY7:�`"L „ Address: 3355 South 120 Pie i� . `;2. w..4, 7 kwi e � } a a.6, ` 8168 � ' ,... 1- . M ,i't .. . ^. ri' 44 ,, r . r eri Wy"c°y rya. • " aY e , .. KathyeM dnvale c ne ile� . , - X.&We ... ' ,ta '}tl. 404= 302 „9753 ? Y j9 •K > 4i, 51 -5 • Lee�echnotogs ° carnmiss onrng. . -. ... .Su a ,--- -, aa:' , .' i'HerberttBume��ttts- �{� � ' ',..` ac'-. '' ,� � P& Numbers” =~a& s e 1is. 0'; q^ =K ,,k.: .S ..s , $,Iffot+fa X73 423:45 % ,. .. ' ?..s n=i"xs� Pager < • E �pment PD6 PDU G du.re B. .? i M. '0.f�H�b U1P ! ati4 NA i ,F '1 ,y�'p L tr. .rt� .; ;w :- ie^, -,P.': ?a:C:Sfy rrs'Yn <.m'si. ,s,'.,A.d'xl�j�L .�::1 '•A cied; °Aiea: , Data Ceriterq -. -. . .. � F u. �r .. , .: ,, •_� � :. ter' i f�?4il{+'v^•...y`', '/ °n6 .., sea my sY .A ... _.• , 1•x .,, p'.t`,HCi:, 2,- . ..%Y.a.. .,-w n.." • L yam- n,.. F`Load,Distributian . ..w. ,�..� a ' • Fo- t : A .yvp -i ayy ..,; s� gusty • Fi+.:,.. Ixn �/i/a'nit,so°.r. r .a,C•:> 9q o,m^ , . { x, <E 3, D u n $f?+ Pe ? n p �'PU eta 5.i: .{t ,fi - ' ,.. "! C.:.. P13 =WS300- G641 aSaeJ e - AI0-2679-14 y„ a.-.. ..,. e•.Kw,$»,V v:',`T a� .. i^ -h �- 8 @+3`'AS 4q .. R +F 'm T' s R"� '`'4`.4�� J�Y.'.: •k A .�rG;pmP "K..:,'iY'�� • �� 41RtrY fF.{•aa.". � �•.#^ Prto ea 1'hrsAesttng'wilt verify thatemperation of.ihPDU iAF _ � eiN.T�. {"yx•N. �"N.FY•�. •��I'Q'�i. •Si}ix.Skn •3t �ir.,.titkPUtS,'�.. .. . : : '., -.x L"t "{r i ��y��yy¢¢22,y�,� 1"W xc...."'.!. .i i&�e1pt!Wp�.a. C �y? G si Y^' .: 'F'StBI,*�`4^i•P -r LA'R+ t"( . .J'f S� `a' C'.�1 { . , A�r# «paead The` PDU=will�operate'as.per`desagn X � `'" 4" a ` P.e-P► cedu a Requirements: .?"i'n`=azt --i 'P. {w3i.: <f, 1:1 \tfl,,,r_, S`•.1c"ht}'�pG ..4f °... Y8a -=l ufac ers,startuprcomplete�d on module ,� u3 f „`�a ^c 31kW",. r(a. ir'7 .e +r"�' 1'{ hfw e- ?q�t+a wy° ",.... '1 R rt, }�A��i /r�connd€bom'�y,:ng, system 'as�functi�g� naI and'capable4of supporting: the heatiload module f• > = "4 S Y`�3 . .L Jd 3,-- bY� i A +y (k bba 4 �yiF•,[� .^5{{'J,,. t"i� �g` .c /,�7j3 A,'v .. t ^ +t a{ R'3., , , ld x§X '" "CS'K r. h .-0, "tiaiRrY q�C, TMi ( 1+� •, .Y b�^ T Y_�i 9 Ensure.that<all tesi equipment'that is°regwred is�o�nsrte an dloperati3onal 'Y''4Tfv �+I?�,'�•d' '§• #fit_ i'L V ,W ., 7+0 A"`4 31R. K w.i' Y i B' # ;,''} 4 v 7. : X Load,banks will be: hooked: up�and re 3yAfor testi ng _ .•y t+. R [T'.. -k N +'r r;�,.d S.0 M=, #-ti - 't ' " 4' -:.....:,,t41-0,...t..%-,t.4„ ti •j� tt'3 g M' +4`� Y Conduct •a po to 'pornt test to,ive =correct-pm ng x + ,r y • i. V. `1/4 . ' Y^, eY II, i' t: ;• • Boundaries,,• re•placed'arouurud the P it • 4 n�A : .'?e1 A.F . j'4' ,:,5`y `N1 Y.�N*''� ` s e. ?'�_'k" a t �� Power- QualityyMetersis 'set�,up,and,ready to•record 'sa,2C.,"sS M>•.Y.44FYt ?:J:a....,; C-',. 92a'kf:t'I 1,,,,=.mr;. .Yii ^rw:k^.. ab3mY.¢r it,laRm °•m')�.i.r... h R�rtc .` °• i �-, -i. •e ��4� .. 1. {' �' , .• ,t generated by the�PDU C. # p } . r. g .vY }�yR ±��„� ,7"' 3 •YwC .! • 1x�f. ;}TEF " .gy ,. p ` R , $ ". � '` A' •t ? . 7 5 =Si # 'i' tom, r ;° 7 r � S < . •- y ?.«5; ..`.*�'{• , ''+,,, ,. £.?•r. •44r, .: 1- If 1, I I r' MtY �� '” y : +i n'f.9. a q „' �R�A g■ C-m r .. 'aF`'�'ix`3%t?J"/!'if'!�EJS•x�� Y3 .wo•.+1` le' � ri `tom, w s� ' t Dei90H.. Prcrcediire ti Jd t { �h a � ^ yff a �r1{i+ a ' x S a.aams,a ��.ro ;. t,. -fib_ - �� _tS.0 . . m 45,10e1t► aaudvu.' r _ .',..��x��. A�! �• t. �i,, . g ktiizl �>; t� �E.', ��5,' �c 6'*'.^ E.. � ',�?.<?�,�`i�'�.�; §�'.�a��°�±e Cz rte t X103.1 lz 0 b ^ _ 1�- r�Record startcdate' 0 � u 31 Record ±start} time 1 1�4 � -�'�� ' �� �- h� ;� ���v �� �, a.. • c^•h}( +wiec ,a:Fm4 v.:sterbia{..on., -.Pm s'.^R .+x•... Y?t'''r.3at.'"VNidtii nkr•+a ?.rte ii .�4 _:. -S;i �,g o,7ir^ ,:& eHn..te. ..a' , T{'3r'�sdss�„'4`'s a, °58;3 'i% •f it'ti"" 8.., ved$ <v'eea '�Ai -'e%L ks ux` f ,:" A' xbix?'_F`.^g°G?' ' '^ ' is _ .v Yl , w �2. Documenttthat vendor start UP =has been rforrned . V "a�S�i`R 3W,g, !Q! y W-t, `ase. {',j s•bi +,$i%5�,.3�;'sz!'Ai,, •�.d ,sari - .. ¢y�,w 'eyus?m`b w' � l i � ..: a v.: -pt k �T 3 Perforrn a�visual ofathe4" i to sensure�that�ther is no`extemaiidamage<to;:the'PDU ..'& '.^q.!ti.<..es? „1,:- v--- ?^.iree2 ir, 4-, -,-,1. l.` F: ,, .w,- .'t.e1S..3Wit,d.`•4tei5k445k rkiin'.a•± •Vgit:`i ,..i','••7.i. ielt7iAJY.e'.,:5 ••' it ='jOt Fi{ `.x.°'�3L,.. {'. ._•'i Yb F. si1.'.'• 4 iA' ' k tom. ✓ d'.� :. 4. Check that the PDU is level and stable with all stabilizers flush to the floor - g... - ^. , `y; `Yf , , 0yg . ••% :re; i . "+' ' • � :1: Glosethefeederxbreakertothe2PDUM °4 ` ..> siveq ..4T.?4,; :.i,i “d3?r“; :1 ,,,I V" ..^'4.-''' w... e• k � +, •�f' 6 +”. �' �? a '{'t'z:•Edk,:lNaY"tS} " s+''y "' i er '.!,r.Wt'{:§ w"? 'S i4," s? `- s. `4 ..• ' nn..... nsurethat all DU toadbreakers are inthelOPENpston , C . . ., `3 1 4,4 ,4 r- i •kf ;:.''. RQ'+. ,'_ 8.'?1t ? 6 " • 4- - j!•U j , i ra:6 r �v1•1 ""�v u'3°'�: . ' - F� 7K,s `'c• e." '1% Closeatheinut2min arcut bea er nside thePD .4.11; v ' @z , ..b, :St`NC;f' MW: .:'��s .A'.5.., :*.k`.4,: -. a "> : ' � � 4 • i:4 .4- .. ; -- " , - aa4 w. "w > ` atl • y y? •< • ' • "ressthe mondoonibutton � 4� • � 4 �'IP1..a. X v . .literafi�i4ii•W Vgq, aV'.✓..4P,A.J GC •• � •y, i•••.- • Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 LEVEL 4 CHECKLIST CD 476 LCD 448 LCD 203 203 DVM LCD 202 202 8.1. Apply control power to the load bank h------ 8.3. Start a 4 hour bum test of the PDU. ./ 8.2. Apply 100% load to the Pal. KW.220 X 8.4. Monitor temperature in the surrounding area. 8.5. PDU BURN SHEET. Tinie 0000 Output Volts (L-N) A B C 117 117 117 _1 A 6 0 116 117 117 :1 A 596 utput Ams!: 4,1 A 598 00:30 00:45 A 116 A 117 116 A 116 A 3Hr 117 A 4Hr 117 A 117 117 598 6 601 603 6 60:3 C 211 212 213 214 Shut down all load on the load bank Allow the load bank to run with no load for 5 minutes for coo i down purposes. 8.8. At the PDU, flip up the protective cover over the EPO button and press it in, NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL PO R FROM THE PDU. 8_9. Verify that all power was removed from the load bank. 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' +.dY:.•.x: 1.14 �o-a --..„, ': mitt'�$.? *6 p"'°'iiw . tai .+..5. . .F x,. �t• '_, &'`A• :L = '.` ` g 8"i' 3 +`'g+ grox1A't"i.°- t"Vv4,f 'R . r^`t" .X .i; "�3: T4 a. ,•••A. yl♦�vt,.� t 7„ ?Rte * +jS 8612 Check,tha.,tythe,,PDUlcarnetrts not- energtzedq`and.safe tooworkiin �.fr � k^ fi ryey�P� yam¢ ,* , l `^.8 r£aita •x,'35t19saaT�:],-..,• 1t .,... .$.:A ksTicr."_'': a VOLTAGE 11MEPLOTS Site: INAP 3B3 Measured from 07/03/2010 12:13:52.0 to 07/032010 16:31:07.0 210 200 190 220 g 210 190 220 a 210 190 — A-B Vans •s9f "iiQ 5. 1•x'}Ti ;'.,.. �i''i.! 'w..Av`u.' .ya4, i' d'+p�'M�' �.., �+4' 'm ?*`,Kt • y J ?t'^ C8 t.1? a,1A• Gk r/ � ¢ fi �i.�.»•''`i... t • b k }�,.acq i `.sy ,Ja. kt.M p 5•!� ? & 9 F w. E+St ;i . ._ ?f"l4 iii �Vi• 4 ':tGh +•..*�ti,�,�h,t'•�'a�.r' 9 1a� �1 x`s }' SSCCcF,t.�^4 • �` '.r Y4 .. ... Y w (�rS rS-V �• g a Jk y ' `� �.. y{ `8 •''� C`�` 4su� no- N� 4�. • .,.; rk�'i r. k i h• '.. V! ��„ �omrvs.. 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S --- C-A Vrn 11-111[11f11111111111111111( • 1230 13:00 1330 14:00 1430 15110 1520 16130 1630 07/0312010 Saturday C,N4y1.06.M.6S WORST CASE SUMMARY Site: INAP 3B3 Measured from 07/03/2010 12:13:52.0 to 07/03/2010 16:31:07.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATEITIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATEITIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATEITIIME lJ 0 0 WORST CASE SUMMARY WAVEFORMS Site: INAP 3B3 Measured from 07/03/2010 12:13:52.0 to 07/03/2010 16:31:07.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event 0 NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage tnterruption:No event Largest Magnitude Voltage Transients:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE 0 PHASE A HARMONIC TIMEPLOT Site: INAP 3B3 Measured from 07/03/2010 12:13:52.0 to 07/03/2010 16:31:07.0 VOLTAGE Volts 3 3. 3 3 3 ' ,y av , Ir . x *a 4, j ;,,,, . 4,n. .G, :Bi. 4, N ,T <5 .. Vr., A1}syS.. : n'1:.°-1. 7 Y .0,..." E's'N! •.-< )rMaN"- Ra 50 7 ti. ,.•y4w 4Yy �Tw.,3. .'Lg 'j.y',L vs ry_}' .� Y Y K;i'a6'� y� °•y�S gg 1 $ i e(j ..� .e a� 4i'. 35 acn.. # .4.C. �m�2 . r 74 aq >r° gr�� 30 f..Y: mi , ^ - C. • I�tl.9b' ,. ,, i i _•$F�'�. e P ,�. - safa §� r� fiti "r( i 7 1 1 1 1 1 1 1 1 1 ► I 1 1 i 1 1 _�, t Volts 35 3D 25 2.0 15 113 05 OD 1230 07/1312010 Saturday 1300 1330 1400 1430 — A-B VTHDRss Ong) C m .dhO rNr Y I 1500 1520 1600 1620 THD 1110 H2O A-B VHarm H30 Taal RMS: 11772 V DC it: 0.00 V Fw nenta!(H1) RMS: 0.00V Total Harrnonic Dtshution TH D: 3.53V (Evert 0.11V, Odd 3.50V) Cry �It.Or Nr 10.. H40 H50 A M ?niFFr?SJ `.aid Yifif. se., .' ,4 ' 4°2�?l. 1N? `3 4 r'3ti 31'.x 4, j 4 . c : . '4 4 -- MN ':fG�#C :. •.-< 8w:ai �s Ra .- 4i'. r� fiti "r( _�, PIS ° "' '•Lf�e �..ri'' _ .- i..lS-..i. ^e *rQ'i t. .�R _ ..t:' LL „, �4Y' ,ywi5. I JI 3 S tks.."°. .. p�+ i JL°.3 "`S9AF tI 1 1 1 1 1 1 1 1 6 I r r r 1 r 1 r r( r r i r r l r r THD 1110 H2O A-B VHarm H30 Taal RMS: 11772 V DC it: 0.00 V Fw nenta!(H1) RMS: 0.00V Total Harrnonic Dtshution TH D: 3.53V (Evert 0.11V, Odd 3.50V) Cry �It.Or Nr 10.. H40 H50 PHASE A HARMONIC TIMEPLOT Site: INAP 3B3 Measured from 07/032010 12:13:52.0 to 07/032010 16:31:07.0 CURRENT Amps 10A 10.3 102 10.1 100 99 �C��i, y"C' ., ^s✓r. p y aa�A,74�yFq - 51 H ap s ' y M_. rUA '� ( i�M*r T+i r?'.w'° t 4�,�y�+ as ■ .1(si. '. `�ry�(� vS,yy i w 3Mti .{ i.:4 • t-K1 } ..Y'Dx :=h`. ,§.2 t 4 of i§ J,`�' ?�`` a c j�%iro >a j6 :.,, ,L'u3.'."r,.' .. 4`• _ tf f0'.., < $ Qy�i. '3 f '4. fii' � �Y%'.. 3 k' v+ r y1 ,qj'?, xtt;R n `pi 47 ,C��j ,,, }.�i X" 0.y.•« Y. `? . �.+ 63. f '�X. , s , 6` �a, T 2Y•itY �y�i�k.. T .avw� ••. ' B' E •` ^, % y_ '.•.:ik r°of ¢ __'M'�' . • ygy' l•. , , t�5y $ `I �. �' ' +f ' Y @ y�;y{JGa`'S,{f � y ,: , tiY N 1i 1 r 1 Pn Jt f yy fdi vv„�,,• e� ¢ fr � ni4ii. f p j rq y� • S{ {O• .''' i ''• • b 'e• r c2a�i 4 1.Li4Jxwk, f" �� 5� .�'a.%'fY 1 v° S µii ;' cat '� iGyn�y¢�g}R.d 4 �LS'h •s -,.......1q, Sad�'i`5%5ii.,Wi^ a r 7.4 m. ntp =�• '� '....- tx"'s:.sb aA # fi+ S ' , - ',':k: 1a 6ii r,+S tt,,�`,,f t�$'d b ? st °', y� "' . ��• `.... QNC.Y� t.�. 'k ', ' `r - � a' •., ms �c;'e •3' ?.. • }'+f �4� 9�i.a ` k :;az� E' • f '.' A w § �5tti �.; x. . •z t w S` �P b , .+4 `• : I r " ' . - } ..11a� ..�S ia{a. h y :{ x ?Y� F. "' >' -" r� 1a 5k r xs� ,A ifii i� .-� y ��-, 'a • F T ;'z yy2°. .,.4 � ti l dd^� � £4. Y . PS" . F r .. .T JYt+�,L.vJ M` •a� }3g: S�y, `S' J ` t ?4 P y; "ARK `3t '2�t¢. �A3� t l'er 4 .rA2 \Y '. d ��, :• p�,`y$F:a:'� +?' -}�.. ,, •X.gi.�ip, A U. �,ryX.'a'c d4%1B•,'P'r„ ^�f.P ^SSA•- j�y�Z,,.`f '1� ^cla5�p��CCP`•t,. y.w��:. cY� 1e §ej ° L rrdfzc�`x. k`'�' ''�, "kx$ `�a`•°�1,5�� os4�t'. 2 r T I I I I f T T T 1 1 I I I I I ! 1 1 ► I 1 1230 0703+2010 Saturday Amps 1300 1330 1400 1430 - A ITHDRss (erg) C aaauU aNA. 05 1500 1530 1600 1630 1 1 r I 11 T THD H10 H2O H30 H40 H50 AlHarm Total RIMS: 59557 A DC level: 4.47A Ftasdazrertal(H1) RMS: 59553 Total HarroNc DlstortionTHD: 10.46A(Ben 072A,0dt 1044A) c..r.uoaN., n { PHASE B HARMONIC TIMEPLOT Site: !NAP 3B3 Measured from 07/03/2010 12:13:52.0 to 07/03(2010 16:31:07.0 VOLTAGE Volts 3.725 3.700 3575 3.650 3525 3500 3575 3550 Votts 35 3D 25 21) 15 10 OS OD 1 1230 07■03,2010 Sabin:* 1 1 1 1 1 1 1 f 1 1300 1330 1400 1 1 1 1 1 1430 — B-C VTHDRss (asp) C 01.1.40m101. IN 1 1500 1530 1 1 1600 1630 a. A=1,5,...11,124 •,1,,,,,....7 '.1 ,S1, ..,A,I, r4i,e341,4,..!, ,,,,,,,u^:, , ,g, ,...e,¢1.5!,..",I,V14.,.. CrtYlt, ....,'",t,,,,UniT. ,py:t -.....,,,, I, ---,wk. Z - - . .. " ' 4 ,r: „, -'' ' - -.* - .1 --; --,,,, :'. - , ' • ' iit 4$ <.. •--, - N. ..-‘, k1/4.: , , * ,.-,,...., ki;t4t ,.....' ..., ; - 3.6-- ...' , , ,., .ess:Z.; •„, . ... --; ., - r., . ... , .....„.. , f .. ',.,44.:.::-. .i.,...,..,k. 4.4/ 4. .... .,. ,,r ;.,;‘,..--..,"''' .,.. , . -7” ' ;:.4 .- ' , .. .-.....,'. -,1,-,: ,,?4,,,,, :-9-1"11.'..,, , t'• ,. • . , .1.,-.:,_,,,,,.- . . . . -:'.'" . , ';•;:•'' . 44,4' - ' - ...' , _.• - ,o, . -- -:. ?',T''',.t ,: - .1i .;,.:1-: ...,.. ,..3:•V`` 's ...'4}4, 7%:,..-, ,. :'?...1 r."-: - .0, iryi ,, ,,,,,,,_. , ...-- - - _ ,,,, -,--- , . 3; . i '+4..4. ' te;: . .!": ve: ' .{tir'.' 5trs' ; i'4 ..`'..., . t' . '*.* . .. 4. ',W.k.'n''. **4';''''47:`,*:'' K ::,;`'..- '•••'''' . '. ` . ''''' , tkk• i •..-kii,,'-i w.k.ki•,e ' ., • • 1 ''' ,.. - ..;;;„...''..' .. ,- ,,:- ' • • ,‘, ',.. , " . -. ,,,,*. ., : „ . , ti.1,,a,ly,...., ,., .. ' ' ,.,A,„:",,•,‘„,,,:i.r'i'4,..„.. ,.. .L. . -,,1 ' . 0,:c-,1,,- :, •,- 0,,',' --"'%,••• -,'''.•'`... : .,... '. , „..: ..„ - „,-.. '1**- ... '..-.:••,: ‘,•• ,, , .‘, ••,:,74 . c.,„?. ;,,,, • 1.,.. ..• .. , Tis.:fi• - . ", )..t...,.., ,F.-• ''' • • ' .' 6:4 .. .M •-•,,,•-.:,;..:t 1 :0',...k ''• -;.ft - -,...,:'." '751......./-4.f:"..1 r.: .0 1 .. ":, ..„; .. .,/,•, •-• ,k1.•,•.- ki,•:. .:' ' • :■.''.:?04.." ... .'';r...!:.5?1 ' % • ••i-.‘.. , . • - .... , ' ' .. , •...t, .,-, ,.... ''' . :.-: -.. .•. ,,. , . ' '. 4-; ..24 . ,` 7: ' '..i,, r :, , . 1 1230 07■03,2010 Sabin:* 1 1 1 1 1 1 1 f 1 1300 1330 1400 1 1 1 1 1 1430 — B-C VTHDRss (asp) C 01.1.40m101. IN 1 1500 1530 1 1 1600 1630 11 THD 111 1 111 111111111 111111131 1110 1120 H30 1140 1150 B-C Vilar m Total RMS: iiaoiv DC level: 0.00V Fundamental(H1) R MS: 0.00V Tcd61 Hanronic Dist-Alt:Inn-ID: 3.72 V (Even: 0.09V, Cdd 72V) Caw. vinneatillor SI ' - V''''‘M$'1 „ , ' •.• • f c ''7'.1.44/4.-rri°4'' . a . • . 1 (ii ;•,..,., fl,,ii,I. ti --, , :... - • ..- .1,- k.,,,,..k. ''-C I: • , tkk• i •..-kii,,'-i w.k.ki•,e ' ., • • 1 ''' ,.. - Ji..V -m-,., ..- t. --• .A, ..41-s.,-- 7 ..-.- 1 r lh !-.. , .• r..: .' . - - kr .,.-0k ,. -1!,•:0- . m4 . 11 THD 111 1 111 111111111 111111131 1110 1120 H30 1140 1150 B-C Vilar m Total RMS: iiaoiv DC level: 0.00V Fundamental(H1) R MS: 0.00V Tcd61 Hanronic Dist-Alt:Inn-ID: 3.72 V (Even: 0.09V, Cdd 72V) Caw. vinneatillor SI PHASE B HARMONIC TIMEPLOT Site: INAP 3B3 Measured from 07/03/2010 12:13:52.0 to 07/0312010 16:31:07.0 CURRENT Ms 1013 10.7 105 105 104 103 Anlos 10D 75 5D OD Vf251rIX4C':.h4AY SIZMIMIZOC:=1 1orr.w ISSIMIIMMSLIZZOOV: 1 • 1230 07103'2010 Saturday 1 1300 1330 1 1400 1430 — iTHDRss (avg) Gaud ogiNDWAr.113 1 1 1 1500 1530 1 1 1600 1 1 1630 THD 11111111111111 H20 l=1 BlHarm 1 1 1 1 H30 1111 Tcdal RMS: 80333 A DC levet 3.91 A Funciarnereal(H1) R MS: 60331A Total Hanrork Distortion THD: 10.80A (Ban: 094 A, Odi: 1078A) Com.1.11,17..V., 1111111 H40 1 H50 ,..,, ,., ,.. , ,,,,,t, . • ' ? ' ' .1 . ,',14,, ' ....I. ,:,-,„.- , LL •g : .. i ' ', .-'° '' • .;,...,,..: , " -- '' .. ) It .', - ,.... • I'M.,ff -..:' . ':i.." '7 t-3, :7 ''''• '', ..fie ,7. THD 11111111111111 H20 l=1 BlHarm 1 1 1 1 H30 1111 Tcdal RMS: 80333 A DC levet 3.91 A Funciarnereal(H1) R MS: 60331A Total Hanrork Distortion THD: 10.80A (Ban: 094 A, Odi: 1078A) Com.1.11,17..V., 1111111 H40 1 H50 0 PHASE C HARMONIC TIMEPLOT Site: INAP 3B3 Measured from 07/0312010 12:13:52.0 to 07/03/2010 16:31:07.0 VOLTAGE Volts 3E5 3.60 355 350 -- 3A5 Volts 35 25 2D 15 1D 05 1220 07/032010 Saturday 1 1300 1330 1 1 1 1400 1 1 1430 C-A VTH DRss (mg) Cflb$.ThOfW� 881 1 4 1 15D0 1530 1 1800 it 1620 e",,,'r4t,efakVrer ''rS1 4 1541Afiffj 1111111111111111 THD T 1 1 1 1111111111 1 H10 H20 H30 B C-A VHarm 111 Total RMS: 117.95 V DC Level: 0.00V Functonental(H 1) RMS: MO V Total Harmonic Distortion THD: 3.93 V (Evert 0.11 V, Odct 3.68V) Omit tottitttotYlx. ett t 1 1 1 1 1 1 1 1 1 H40 1 1 H50 0 PHASE C HARMONIC TIMEPLOT Site: INAP 383 Measured from 07/03/2010 12:13:52.0 to 07/03/2010 16:31:07.0 CURRENT Amps 115 115 .11A 113 112 Amps 10D 75 5D 25 §1:4zt....' - ka4 Z.W.Wgfrils'..%Wilek-lint..t--8 W1-44.W.iii-f4 Wailritzte.ii-Zaa4L-413r-ifM16.z....4.CSit,443.7M . . «.-... ''.e, . ,..' •r A ,1" — -..,,i. -,i4;„;1,,,:',Aq.•;, • -ua—.... 9: -,t,t*-' , _., , • i • ....—. , to • 1,s1 '' , ' • 4 4 ' . .. -,..( , :$4.' A , -,....0- .,.. ''‘t , • - „ • ,,, . V.. • 1, .44 . —,,,,,: - . , ,9 ' 4 '.: ' ‘..* '''. zfl-r--j_ ;.." . • ..:4, ve- .z. f!• ' ' '' • .4,1 .... ," Q. '.- - ', ., -4,4 ,,,, ''''it: t • * ...• '.. , Ts.:; g *.,.. Cr`l....::,7.:.1 '' .MI-A" `'.'„,, 4. '• ' ICK4 '-'•,..111 ,. t , , • f. .,..;.t i — , — 1230 07/032010 Saturday 1 ( 1300 1330 I 1 1400 1420 - C ITHDRas (avir) CS .111h0a04ar ID MEI 1500 1530 1 1600 1630 1 I 1 THD 1(11 !! H10 1 1 I H20 C Hann 1 I 1 1130 Total RMS: 62651 A DC Level: 4.16A Fund3mentaX H1) R MS: 621122 A Total Harnortic DistortionTHD: 11.61 A (Barr 092A Odd: 11.57A) C sow voll.elfie. CI H40 H50 LEE TECHNOLOGIES' • LEVEL 4 CHEC, .. rf. 1ST Intemap Pra endure w irM f r •c-1 AT ollooz1700e <, �..�� -,�ti�. ,.,.tom ��'. �t�>�€'<�:��•� ... rtorm of fhe x h�:rJ rtt OI PQU .CX Proce%urre 3 Ai CtedMme:t: FiB .-: Centel `�z�x•.°wa;.>r�ca; �; �• -,�- - — Fes,, A n racag0 • 41,7 *.`Y.�• 'f }tt Y.�9b : Y i„ w4di��Y %4rriXCatietedC v1 S>x#s.Z �a, 41i 17r gig ;- Qt *ekaa;Saa,1114w .°. ^�wis'd'miY z•�s•`.�S .'vR73^y>7:da"�F +:d Ms g du-rer,'s tEirtupscomptet it th5a5A du s• •�� S,K7 .tnyF'kz£,.w.?' ' 'fig �r'� xs q4°a .Iitto ng,systerniptrodiop t d p J Pre - Procedure Requirements: eoi sipporting;the at load::pen module ti : "•� ti :i n 5 y� a < f & 'S y C <" n Shy{ tFi7y'f rr ayaYp�k'ii5 s E nsurebthat-all'testd Ipment that is uiredtrs oh 3itetand operations L' rbnk wil oo edup :read or testing„ • Ct3ndtud poi. ,tolpCgi1V'' + sftoz err y s ng i. • t3cwndanes,are i ceticarotind8 The: I?ar0uality^eter�is�;sst �' "y 'trrP '✓'E.xrs 'C •��;c.a� ,`ts�'.Y;`. Yfi'.i^ry ,,� �'•��'x :v""';�' Recor start`tlate 02 iulxlti ne stall ttt 5 :45,z ..A'.#::t�,.asu; • meat thatvend_ or start h • t. ibee yper1o`.. _ensure, thantis s�fto extemai;damage to the Pt tJ �.�:r��ksF#•,r5�r?'��t�a!�. tai: t�fit', �a��'+ sF- �..Za�,:�t2:.r3'$:°3°.; -Y.:• �sa:�rry��ierr�cw»e�x�r•no- �::�'.,; >v< .+ i* i�' �>' vi1P. �°• �f�. lj' s: At' 3y3MY°:^ iJ�Y: � •.^— � <;.y�'~�.�vYf *.�'�:*�St.C_ 'tat4he. PD U 4s:I I SteWe;witt a st is ersitiii5ht©,thellor the fee4761reaker to tle<PDU a. •:;:w •',4.5• a7Cs kf^Yc ds SU.y,&''vs�`^ftdYk3 ...,;t- �,�'l:ei�yi�vN... :�; <ndi;J'!4i' '�a�t ;l<%]�aF. ,yf. x `:+f'{Tyry,Y'7, y .. •.3 �nstartae..tF-Osue U't° tbreakei ana in the iilig a 6Orl •t . ,LiFaW It,+�pYA°ttiS r " :Mrig2ei "• — t '; Close, theinput. mainrarcuttibreakeriinstdeNthe .PDU " itl.•ipas; R lt4:, r :x:lo g+3',:Zafenimeu45�' .. .,�K:;.x ;3 `.` 'axtia i. ' �:-� +ras' Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 LEE TECHNOLOGIES' LEVEL 4 CHECKLIST Template Rev. 07022010 Lee Technologies Group @ Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 Input V :r. : Output V1 ? -.p�p�R. ,,i: �DVM w', 116 LCD 117 640 DVM 117 LCD 117 651 _..2 ..°v£ :. r; DVM 117 LCD 117 653 AB DVM LCD 476 DVM 202 LCD 202:T,T BC , DVM LCD 477 DVM 203 LCD 203 KW 228 CA , DVM LCD 477 DVM 202 LCD 202 KVA 228 8.1. Apply control, power to the Toad bank. 8.2. Apply 100% Toad to the PDU. KW:220 X 8.3. Start a 4 hour bum test of the PDU. ✓ 8.4. Monitor temperature in the surrounding area. ✓ 8.5. PDU BURN SHEET. ✓ ^+., 2.7:1#1,c.% 4'OutputfVotts (L N ' �... .. .. Output Amps . , _ : , ' .'-- . , �, i a ;7$. KWr..'..:f'. ' . Si& : +1.,3 l " '00:00- . 117 117 117 640 651 653 228 00 :1$:. A 116 B 117 C 117 A 639 B 652 C 654 227 :00:30' 117 117 117 6442 654 656 229 y`00 45 A 116 8 118 C 117 A 640 B 653 C 653 227 .r,4, .... e.ti R F.L. A 117 8 118 C 117 A 640 8 653 C 656 226 2Hr :. A 116 116 117 640 652 655 227 :3 1*--. 116 116 117 642 654 657 229 4Ht' ' ` A 118 B 117 C 118 A 623 B 634 C 636 222 8 -6. Shut down all load on the load bank. ✓ 8.7. Allow the Toad bank to run with no Toad for 5 minutes for cool down purposes. ✓ 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. ✓ 8.9. Verify that all power was removed from the Toad bank. ✓ Template Rev. 07022010 Lee Technologies Group @ Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES' LEVEL 4 CHECKLIST ` xpry T�s "'.S. y..scr 3 -'tia`. 'j ''dJ�' =p'1.%r' ,,, .,i�}�:.'»s4 dro' +.. x; �'� }'}h f t' 47 !{. tr, e i� "� = Ii a 'Y�.if' 2I'.t .$r6Cf' A ' ,' '»s.•10esetthe "4iriaed pltf�ttEAlCeratihe�PDU''i •*° }g t �i[-.h.�S4`,aFIS'�IA. Yu. K:�lA sw dJ}."x'x4a bwa +,! C i.'4dib' }.g'g�a:N:.:ih ,,,�;.,.:;s.tt.::A. d.G. #, %4> '� i _i. �✓. !'�'. b�" #fx3: sv tth 4 s.4 l`% 4 kilSA>,r5s'�• ... s , "Yftg,r'AM5 4a m3a ' I fff�°i'e..t- 4fisamk :. g% z�itCtif34,:=urti4 a ♦ X1 cYt �; e&�er b � ( l ®tha I x _ LAi M3 �D4 J � wv� ,,,4 , - oliiY 0+Ki0. 7,3.41 t ="�.d f',r,` . A}'' "`reed "�gk�'1,r �r, va .ns .tw x br t r xS a - w rfi s� 8!,12 �C„heck hatthe :PD.SU�bcabmetiis 'rot - energized and safe ',ti to ,° i,� {; _ , < . {E'Y•:K.^1stA ,ir act a R'I:�1`X=,01.T. >.r.5 -ct. $°Gv2- !'efr, 4,4m 1tArre 4,,�.. ®, ir .^t'f. i4�. 3`,�.. w: w H..":, _ .� :.: w, ✓ 3q.� 4-rmF6 .rears -. yus;,scti�..1'` ib�'8`13 t Securetfrom :St?ar .:.L'i:.cYb vr2 "aS'' s- .:,'°i Kitt °"'�.0F -.` •: #`X1^' 't' ;' 'j-. e1 `' y� .i�rvwn"s't.. :wri�H w r y..., t{,rds sf g I'`ryg�ii'tt - ., '�'R theraoad{banking. °.`' • r ' },r +. .t 4 f & £s "s- 4- f=x5%tt",.:-Pr.i tr!, "ft ii "-Ziik,.t' �• r "u a �. , ....i FK iA,-; ,'•4S4 e , Comments sr 8.2 220 KW was applied due to the current limitations of the load bank at 208 votts. Conducted an IR scan after two hours and at the end of the four hour load bank test No hot spots were found. �, t+ � ^Y tin : a m >, ... < rNa yu3in art a c�* A +� aa-r6rr . ra6i t bxt 34,;4 C e �J : 1 4 Mi ,1188 T,i�sta>o� Ovpwrftrtessed {u pawt:tlth pianniure Ahd atteStSt the accuracy" kstette 4* � +' Y i Ertl <n ��y" 4 y` `� �a r .f * f i" fit; 01 ills ` r °3 xi x . Y, ��epOtt�.� • 1'�1P�LW a � "� ,+ �q� ,Y,�..1 'l � . v a 5 t` .i % • x s4.1g41,14} SsT" r y.Y rr ,y.SV r y=''�b .{,i +?. . �Herb1Bumett t � #= 'S .• ",,-y-C , - 024Julyy10 'e d, «F,t r >::, ss• 2?.,+i�n to . aaStrea. Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 VOLTAGE TI VIEPLOTS Site: INAP PDU 3B4 Measured from 07/02/2010 15:45:14.0 to 07/02/2010 19:50:50.0 a 150 200 150- g 100- so - 0 200 150 100 50 0 -- A-B Vans — B-C VrMS — -- C -A Vrrts r 1 r ' 1 1600 1630 07/02/2010 Friday 1 i 1 1 1 1 r 1 1 1 1 1 1 1 1 1 17110 17:30 18110 L—011og11■OSM-U 1830 19110 1930 WORST CASE SUMMARY Site: INAP PDU 384 Measured from 07/022010 15:45:14.0 to 07/022010 19:50:50.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATEMME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATEITIME Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE/TIM E WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3B4 Measured from 07/02/2010 15:45:14.0 to 07/02/2010 19:50:50.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Vottage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell :No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3B4 Measured from 07/022010 15:45:14.0 to 07/022010 19:50:50.0 VOLTAGE vans 35 3.4 33 32 3.1 Volts 3.5 3.0 - 25 2D 15 1D - 05 - OD r 1 1600 0702'2010 Friday I I I 1830 1 1 1700 i r 1730 1 J r 1800 ---- A-B VTHDRss (mg) crr,u.omamas u , � � r 1830 1900 1 1 r 1930 ( 1 111(1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 l 1 1 1 1 r THD H10 H2O H30 IJ A-B VHann Total RMS 11x07 V DC level: 0D0 V Ftg n nlai(H1) RMS: OLD Total Harrronic DisbxtionTHD: 353V(Eves:0.10V,Odd 352 V) Crr 1.1Ory IS 1 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 364 Measured from 07/02/2010 15:45:14.0 to 07/02/2010 19:50:50.0 CURRENT Am Ps 1125 1100 10.75 1050 1025 1000 Arrps 100 75 5D 25 00 1600 07x02'2010 Fridagr 1 1 T 1630 1 1700 1 1 1730 1800 - A ITHDRss (erg) c..r rw...w.. I I 1830 1 r 1900 r 1 1 1930 1 1 1 THD 1 1 1 1 1 1 1 1 1 1 1110 1 1 H2O A!Harm H30 Total RMS: 64633A DC IeIlei: 300A Fundamental(H1) RMS: 64633A Total Homo* DistrtionTHD: 1121 A(E 1.05A, Ott 1116A) mr.0 +o.x.. u 1 1 1 1 1 1 1 1 1 1 1 H40 1150 0 c PHASE 8 HARMONIC TIMEPLOT Site: INAP PDU 3B4 Measured from 07/022010 15:45:14.0 to 071022010 19:50:50.0 VOLTAGE volts 3.75 370 3.65 3.80 3.55 350 3.45 3.40 Volts 35 3A 2.5 20 1.5 1D 0.5 0.0 r r r 1 1 1 1 1 1 1 r 1 1 1 1 1 1 1 1 r 1600 1830 17130 1730 1800 1830 1900 1930 07402/2010 Friday — B-C VTHDRss (mg) c.r mw.wi.� 61., 1 1 1 1 r r r 1 1 l T l 1 r r l 1 r 1 1 r r 1130 H40 1150 THD H10 H2O Total RMS: DC Lauel: Flardarm tal(H1) RMS: Total Hamonic DisiwtionTHD: B-C VHarm 11625 V 0.00V ODD V 3.75V (Evan 0.10V, Odd 3.75V) PHASE B HARMONIC TIMEPLOT Site: 1NAP PDU 3B4 Measured from 07/02/2010 15:45:14.0 to 07/0212010 19:50:50.0 CURRENT Arms 112 11.1 11.0 109 10B 10.7 10.6 105 10A Amps 10.0 7.5 5.0 2.5 0.0 " ■ , • &Wt.:. 1690 07/032010 Frith 1630 1 1790 1730 1890 — Et ITHDRss (a/g) U, I 1830 1900 1 I 1930 THD III 1 1 1 1 1 lllll 1 I 1110 1120 H30 1140 1150 1Harrn Tola1 RMS: 637.33 A DC lad: 3.51 A Fundamental( H1) RPAS: 63710 Total Hamc Distortion TH D: 1123A (Een: 094 A, Odd: 1119A) C am. sal, alliM1.1.18 PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3B4 Measured from 07/02/2010 15:45:14.0 to 07/02/2010 19:50:50.0 VOLTAGE Volts 3.7 -u Volts 35 3D 25 24 15 1D 05 0.0 1 1 1 1 1 1 t 1 1 1 1 1 t 1 1 1 1 1 I 1 3 1 16D0 1630 17130 1730 1840 1830 19/30 1930 070 2010 Friday ---- C- AVTHDRss(mg) C salmi ■abDsN.. O 1 f"- 7 C- AVHerm Total RMS: 117M V DC level: 000 V Fundamental(H1) RMS: (=V Total Harrrordc Ois cctionTHO: 3.68V (Even: 0.10V, Odd 3.68V) PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3B4 Measured from 07/022010 15:45:14.0 to 07/02/2010 19:50:50.0 CURRENT Amps 115 114 113 112 11.1 112 102 105 10.7 Ans 102 62 25-. 0.0 —• 1600 0702'2010 Fridge 1 1 1630 1 1 1700 1 t i 1730 1 1 1 1800 -- C fTHDRss Ong) m.o. to.UwK..Y 1 1 1830 1 1 1900 1 1 1 1930 1 1 1 1 1 THO H10 H2O 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1130 1140 H50 C Ha= Taal RMS: 62611 A DC level: 3.40 A Fta>darllerdal(H1) RMS: 62649 A Total Harrranic DistortionTHD: 1153A(Ben: Q73A, Ott: 11.51 A) Csaritluttl■DsVm. GB LEE TECHNOLOGIES"' LEVEL CHECKLIST - ...a _ d • Rr eds�'7i4). 1,: v,�pr,* _ Y • 1.�� RR„�,yy 5aS' ." F" �•T, i i. . „• asc- ted+'yyt' ?, t, `"t•''Y>_f � vi. ' '' �. io1"y.t`. "• : 4.{ ,..,."�,` z(^ c},, :+• .Z �S ` 'y �pf ,k t q 5.,++ F:� �If�T 0.t X111 MM e1 - 3 `•x`! •. .. ." . .'X' ^.i,U@(�"�Y�.'• art] �! I.a�t,�iISSIOPdINC•^P ®I!r,+�DiJ " p1 G � c • ,y .< � •Y lu�i� at?d?'ie.Va%• q:,r:".. ,iMC ret.x 3i?' R iil Y L #' N' ni4444. t ID%i= 4 yac ,, nv- •'+ ; k,. i 7a1 �, Y ?"rx- ,� . `. `� €z• _�yyyY 5�j[u,b'�mlttel ttate. ' TY£' • - i �" (i.44..W°".Vt 1 +' 431.: Lai.A .Y'4i'8 7 -r+a °¢7�' �y 18tMay i0j } �� . 'k:.Y. ''yv ...4 b -'1 9R'g�, �" �� . ,{�%/y/�(�%p�q h� Yti ." ' ti ��.'.V C 5 , y,�� '°zF 'SUi L•4 h i� .^R^' kYP.S. t. " fK 3 + .Ju110.tc „ra R. �''•� '. .°Q,54. • ( ro `&w=ure'. ."S•i°r. Y��fi�PtOs�illl9'i�41�{'7 � Time x .i fllAr l}iBmY.ev�.. GU l,,,e0 $ rsor F'�czleet Coda ,.. " '; Y. ,'d+' j¢�M"35Y•,Fy CC 08001700 ¢� ° 1Sq. ' 4P4•.. t -`i.' 4i� '1 t•C "f: #y..E'� -' . ,11.i- � , i. r!•mn .a tptomer�fName tf Intemap cr' %•fc_� ' A � 1 t ' f S� . .Cu�s xg r r ` kd �° „ # n�c, p s{ 4 . •A .KR • ' . r .4 ,r;, t� d. o. .335 Sh1Pa • a t a z ; y a: �0. �,�a •p"i F,Hs�� 't�ia.. en dbad,, c4a: tl '�#' d t� " S I p4�ia"',!r i � ic la '�' tiM n � a.. t . ' _g k. x •3ft.r .' ' %�� k -c#' � � .i r �'' 98168 gC • : * t Ax .ma'A1> r� }. ✓�j(�Tt,7 w .. 4- - - ,`,4,7 o r POC. ''.� , p: . o- .: ,sermri�C t' '.05- �te ' hYAdrNa e t „oilmen = r• �'� t Burnett �_. _.k , a.rsl (. J i"- I 1hY .m tr � F ' .� y ` : " •' ,sAf.. re Vum h + a� . r . ,' t ) g :302.9753 .j i a .1 5 _f .. '.��' '.Leeffe Co r t7 �a�ty : .6!S u/x irla _ ',.fE im " su z b7 .N f 1e".'a .r 4�YC .r '�' , �ry°f + 3= 988 40300 y . `.,� y' �.' �'� � `� ' �4 13 4234335 PVC,: ..: ±•X'"'Ak'i1i`ff x' 4 f...• 0. S t .,. k.+.'ti7 :,:v 10.1 c,t, �irearee�,�rea' c•aw..C.a.,..xa.Y• .y, Ly xpb, ,R. _ v , egg a dh p��y, �q�p� ■y ®(�(��y�pq d quip eritiP®�gP i.f1/. 5iWurei - ,t'.Kr'_� , t ,l? P 4�1,'i: '+:* 4+.4 adN 5v=•.e. a f • ,z. . sn..:•.0.a r ai g. ,r ^,t Data +Center. N ° i J0. .' srter rc, .,. .: �. .er-' R '5wf ..).- , ..e t k-•r :systerrmsa1teo ..T-k .. k }� - 4 4 .,- fi S 943.r'�� .rn: +:y h Load D '. +.eorca.a O } f }. 4 a ' a x ?: Y }C X.v ` � %11 k 7'' 2 • .v�. • • .. t V y/ ~ t` 'A L.. ryi {r L ti.at .. "m-' t r, .. .t+ iiiitnrtion - s..,,. ,at.. cn x wtai .x67.6 Y�• ' E :�. ,:su•- I rmebo» �k . . �Ex �7 ;{ 'v y i PDI , ? � PDL) 4 ;a�. r�" f °' 3> - yl?P.1'3 -WS- 300 - - ..„. s �� 5�rata� 41,1U- 2879 -10 Pre,. v :o-is�Y871 $ ^a , � i 4 0.N . r lr 1 t .>k •� ; c y0. m ! a ,, d.' v • rL a " . ,y- a g `'1' }' p6 k�# d P r: �� " yR r. This,,`testing,will veafyathe operation of =theiPDU � .. �, , t yt,„- ,�i ,, fi r 0..'}"t .�.f'�:•.:i^?;h,.?.Y:••.at�. t- ...d;° p'.,:.• •• h .....� . v 3L ;iYa`��ss°a�:�°rA.4�xi ?.. ti:: �. � ' Midi P;0. x T: �;ts,Y d' R * y'b `,, :. :,, . r.... �- sit v .� ,i k � Y v;, � . � y- s�iC��t. 5��., �i; s "�' } xti-'�' '� r ,e .c a, �a a�•' he' P! ?U;witi operate asxper desc9gn ww 1 aft r, ' r'yv'•? 14.-v.-: . t**, `..i� ttv.7 .. '" ,..:.� w .,,. f.. :.i"n't'_§ .�.._ s P�-n' �w"u :�t atlbt Requirements' .,.{;tf"�. '.�'txn mCf7 "1 .. p 9 t:Es.r "+ -' • f'• {rxr 'x�a '4 gn ': 1 Maw!nutactur_ er s startup completed on theemodule 3-. :A trt'-"�y1 c{614+ ' t'1it # P14. 4Wr -Y}t? d� ^c y , f Aircondihoning system islfunctionalsandicapable'af supporting, the heat ti� odule ; f .. 'Zr 5' 4 R }.1- § ��a' 4y y�tYi`S•t '... •''4� Y j " - d T'•4 Afd .]3 .i'� 4 ��k .Y}1+X'Mt pyF 5'-Pr' S�' �•+". Ensure ihataf�°test *equt�ne tthatRis�reQulred ISkon�sF,.ite,and operational r. aril t "a..� i.%0s `r,...` i.,y} `Load bank 11 belhootced =up and ready for testing c i 44� bs e , L;. {as }.LIC�P "£_ _ '' ''99 ' F a bt w Y f JL [•''`S+ '.�` �: ri+w�''�} 4 tdz y qk'•t Sti, tConduc a,point1o'po'rit test to�venfy comec:Hw inng� �� ,� r ,� 4 "'%1=1..1 ell C�§ .1 C" •p f e Rr .� " f h�3 � r rz z � C h."Cf - k d R K t Boulh�ndanes3a^re placed around thesPDU �yyX� G rbggt'a✓� tii -.., "[i � 1411,11 #p t k. .�. !':,i'xs1,.-.' a: � 'k.. Y ,� Y �d,c •The Po�v+er,Qualrty eterris`set up and ree fy to record, • fi44 +..... �-!..., ,...- ix'tYt1Y +l.d.,;. szh r.,:1ut vv,.,+40. i+`ti- '.W } ^Fr!" tlS... %�wT! .rb•sv ..b C ::_ q 1 7} � 1 �� J l n toad;generated by the?DU ■ t' . R�RS, fjsa. f"� {�•�9 °F, ,+K. ..3 �4 �Y � * - ,y - TMr lid F 0.r alp 2t A. i .p k -mi �'(,�{. i�,j } �• _'a fiq �� i w tt }"3 ti w r 1 x<4 K j � � �.. i"0. yf• c,s.3• •'.' y..'td � . +, t ��-i� ��� �1 9- •^' �� " �ria+i.{ ;. s,i"� +" t )- �' M fi Lll- ',.'? '.R Y ms i ..•c i3y�y�,+_ a'Vg't,LYy:',� R�,� ®y'..ycw�byY�•L�p.Rg/� y..: T' -px - 9R„�y - +,+ +tf.. 'e�. �..:j{ :: {,� i,4i.�P 'T.' Vii`, .`i _iI a ailii d ' ei; die �Y, � w"'{4 '�.; rr 4 Qw� .. �,..� ' '.'1•fg,'. »'T S0.. . 'as" ..'i- > }Yn'9 . �{ y7 1 }' ?.:$'gvtvc•�,it2�,` •.��..:3��e�i'r..;� ssr� ?a,;.w`?l�•,��S,v�R�. a�'�: rr,+e_.J^,:: . . g:p . 1� %ar:>r ;Q��4'� t�'`LRia?^�'Y3. e q�,i�J}e4�sF$dPoe�l+ee .Ght�gra`4,:.4.�;4Ti; 1 Record :startidate_ €etlri . $ `=- •••50@ 't`'« • ; m :$ ik'pt S y`i°,�y'++w.f.;.,• •••4 .�;: at�ts {,03 .lu11R10v p Reeoni stars trme 7�354^l p� •� }-"a� '^' t't. j q µJyr?Z°, t • _' ea"t'"Ka'y„•- y ./75..k 1y , T ? Y �' S ��t n � �i } b L Y ` V Y RF w t J� 4 , ,?...15.4m.... rA .RYASi Y --0 4.'3Y'j L�'R,,R ' Y >'Wi•1 S il.x� Ni 3=.,.Rw „ . . F. _. iPl.'?'.'R: 4eNC:?4'e.'• { .C.W 4. s.?t R r ': } °' '•' lCt ^Y al' t { ':Y;..th F `" .. .:y "" 2l ,yttDocurnent,that.vendor start uplhas beenlperformed __�y _, q 1 +j �],T � �d E':91:""..".it..1C�3L4 3,.... ., � TMyY,;;K? -! :`7 aai ^n > i<.1.,,,'a«`.''iw.=`meaw n%E:te9C`•2`4+. `- 10.'5.41..'' i n 1*'`6.Y�`f : -8i -1 'i .aS ..,. ' r i+.., ! W.e� rx * ? , j, r. t isu6 i, J'.' .3':,`t- iz . m:, .57Fi +'S1. +; v='-' '.�, : -. R'>i= ('C1'- . -"V y r�' i.�`F �•i4viasr ?r`a�3'2'1.+ �°.t �"pyw .l^�*Ya� t�.X�. �v J� W .r•.1' f 1�:"�T �ffi" w +', -�- 'r,1� Yi,'� tom, PerIorm vrsuai of4the'Q_ DU&to ensure; hattttttere isg-no texte�,mal *damage to.the.PDU�b C'1• "..' .+ly. �r ,,,, -+i 'k 'Fd I 'f 4 - - ,' 1}CS'0. .: • 7 '.`i[t?Y - ' r'( ?`R`.at, .{- d;+� y '' ) ,t .. 1 -- XT+ �1 . Check�that the PDUtis level and Stable wwi h all stabihzersaflush to'the ftoor.� ; r � : N- 1�1' f.x 'Ttid,P-�- ..y+..''%y....,,9w,. ' ?}R{'?.yr2:.,;'-`gign`sa('..ddt ..L91.. 3:'`,Z4*.; a`1b"lf ct ..N., Cali' °bts.`ri :1...4..144-MAA41'a '+f::7a,d.!@ 'C�,S`. e. ._.w:. +. ,c L F }:Ss � r'� ! i y vi asf•'`aty%`. . Y6 it.,}ta} r?Mil • S.,e,yft.sli'�.: H".OJ� ;,iv.i '••`A.¢ Ci^ Y '- r.i,K .1 n6 • # '" Ithtt `.-�' 'i, N!P+$ , N' .v� ,�j F �$ ..j 4: �,`�,(� -%Y. o ""t0. T 7PDt3 n' �} ."i� '+.'{' t .F "'M ^l" �.U'�' W&%`J lw!' i Close:the feeder txe.:.../ irihFi.T1.i"3V � 3g ;• ,' .. ihM t r � �� L; & v {� t yg rl4S'.a�$yi. ^�4y5��i^:s?;4F�. Xyty�, 4+'," sb�� : :ri'N��.:r..r��:Yeet�' .�3:::ans".....mti:+i �°..:�Y� �.-}-' 1�C�. ��`_ �i�-' 3R��S� $:4'�!'- 'x't�,,�l-�'"�1'• :..,_, s . .��txa4�'.C�� °d '• .'Y yy dT xR• h✓ .M+:? 1 >a . ca� �. • k','ViMts' 44r'7`+'T''..J'' )tE Sn"4.7;'"' u w' Y i YR'F%..'. ' 314'46,,-- +S'Y= s:d`,,v4,,ei. -i' .,. A' • "0. .y fi4��'.i_ Ensure ttrat an iPDU4load:breakers are .rn the OPEN ppsitioris } � � ..*dam' +e.9.�i:5� _,.r �2dd"iC :i�.z h.'9as. ''?;�. +c: {Lra€!;'Jil}'�?C.fr?5 '�" `f$'ti' 4Ya - i a i 7I *.: LEE TECHNOLOGIES" LEVEL CHECKLIST Template Rev, 07022010 Lee Technologies Group CO Copyright 2010' Proprietary use pursuant to company policy Page 2 of 3 Input V . Output V Output Amps A, ,aatekt i 'nr :::•. ;',,_,,!! 1't -6R �, ' DVM 116 LCD 117 638 r .rs.qq . A r �'Q 6v Rb ^ �+{• DVM 117 LCD 117 644 'T ar Asztiii i a. ""0"4', DVM 117 LCD 117 645 DVM LCD 476 DVM 203 LCD 203 • u''= ;Q,�.l DVM LCD 477 DVM 203 LCD 203 KW 226 CAJ DVM LCD 477 DVM 202 LCD 203 KVA 226 8.1. Apply control power to the Toad bank. 8.2. Apply 100% Toad to the PDU. KW:220 X 8.3. Start a 4 hour bum test of the PDU. ✓ 8.4. Monitor temperature in the surrounding area. ✓ 8.5. PDU BURN SHEET. ✓ '` ,r '`�' - ;a - .41111: v0E8(i N ,..."1„,::,.) d 3 12,BApB r :it; r ei -:'4'. "09:00` A 117 B 117 C 117 A 638 B 644 C 645 226 ' '410:11-641 .:'..1, A 116 B 117 C 117 A 639 B 648 C 646 228 790.301 117 117 117 643 650 648 226 00:48'- A 116 B 117 C 117 A 640 B 649 C 647 227 ' '•'IHr-• Z A 116 B 117 C 117 A 641 B 650 C 647 228 ,;.. 'him": A 117 8 117 C 117 A 640 B 648 C 647 227 r: •k ! Vtfat 1 3H -7 Pq;_ A 117 B 117 c 117 A 642 B 652 c 650 229 ir ; 'T 118 1118 116 623 630 638 222 8.6. Shut down all load on the Toad bank. ✓ 8.7. Allow the Toad bank to run with no load for 5 minutes for cool down purposes. ✓ 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. ✓ 8.9. Verify that all power was removed from the load bank. ✓ Template Rev, 07022010 Lee Technologies Group CO Copyright 2010' Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES° LEVEL 4 CHECKLIST An .. 23 3. :lt 'y4.,[�i.3`aS` '��I��:1e0 Reset�the � FS"Vr' �G a,+"i}?:MS"a7`.'!$.t�OiiSx eiWF'. L • x . V- �F }'}'dr "aa`�..s .'Y'S�C.7� .�tl 'rc.." t topped inputibreaker at the(PDti y - t r r t10 b^'s44'3.. ..l ,tut �..< , r. ` y^ iAS 7 t#rs�ia°at� . 8 71 OPEN )� a C ::4 p}$� '3 ' ta' n.lht { �R ai444' K } } 7 . C i y i� �P? ARP Y`ri+�� dt?i �f;. 7l the feeder breaker to the .- • 9 (�^ ... `i'#+".b .Tt:' =.ry. ti!' _ _. '�.. � �"`t �.� H t 'bi. YN� . E'� v' ^ "� '� ♦ AyFa '� ✓ } {., `� ix'�u y J8 t� ♦ "'^?,t.: ^L'.:.'Pil §12 Check 0.,.4? wm12.4 ,,ift„.. yL� �+}� ,y4 y'y] • % ." . ,,, .+.tAK ,. .Lim. i 1.1/* .y*.Y. .. tF # '7^'r f ^�� € `.fi. -f ' ''l ✓ .'1 that the PDEJ cabinet is not- energizetlrranddsafe to work in . `: w rg�r fr k s xar7 LL, i«ia sur.su3.- ,UtziA- 4-.:t,.� w�tv rlk .x ...: VOLTAGE T1MEPLOTS Site: INAP PDU 385 Measured from 07/02/2010 14:29:56.0 to 07/02/2010 18:33:54.0 I — A-B Vrms — B-C Vrms — C AVrma 1600 07/02/2010 Friday • 1620 16:40 17:00 1720 17:40 1800 1820 ACTIVITY PLOTS Site: INAP PDU 3B5 Measured from 07/022010 14:29:56.0 to 07/02/2010 18:33:54.00 VOLTAGE SAGS NO EVENTS WERE FOUND IN THIS CATEGORY VOLTAGE SWELLS NO EVENTS WERE FOUND IN THIS CATEGORY OVOLTAGE INTERRUPTIONS NO EVENTS WERE FOUND IN THIS CATEGORY VOLTAGE TRANSIENTS 0 0011000 ' 030000 080100 1 � 0901100 crr r�arerui 120000 1 1 r 150000 1 180000 1 it 2101100 WORST CASE SUMMARY Site: INAP PDU 3B5 Measured from 07/0212010 14:29:56.0 to 07/02/2010 18:33:54.0 Of 0 total VOLTAGE SAGS CRITERIA Of 0 total VOLTAGE CRITERIA Of 0 total VOLTAGE CRITERIA Of 1 total VOLTAGE CRITERIA Largest Magnitude 16:23:50.65 PHASE CATEGORY DATA SWELLS PHASE CATEGORY DATA INTERRUPTIONS PHASE CATEGORY DATA TRANSIENTS PHASE A -B DATA 4.0V, 0.002 Sec. DATEITIME DATE/TIME DATE/TIME DATE/TIME 07/02/2010 WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3B5 Measured from 07/02/2010 14:29:56.0 to 07/02/2010 18:33:54.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients: Phase A-B NO WAVEFORM AVAILABLE Vans 300 100 -100 -300 t.tatzTili Filial* 7&li11e= 1404.4 ;011SINAMIIEZi=onsit COMIIIIMIIIIIZIOFFISSIVAIVI HEW I MIR II ,i-gclq V= mem iultaM11011=200=0 536=11112,11111MILIta=111223M 1 1 1 16235(164 1 182350.6B A-BV - Al gm.1.1.10 61111 Amos -48848275 -408.483CE a88.48325 -498A83-41 4.0V,0.002 Sec., on 07/0212010 16:23:50.65 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3B5 Measured from 07/0212010 14:29:56.0 to 07/02/2010 18:33:54.0 VOLTAGE Volts 335 330 325 320 3.15 3.10 Volts 3,5 3.0 2.5 2.0 15 1.0 05 0.0 4 4 ' Per Witkil 1 P WOW. 4 4 4). T. ?",77711-1, i' ' ' ..FAN*7 .,.. „.. iti■'26W-Vall alilti tr..' ' . * g,,Z qgt1T: _ 7•16, <Om ... - • ■ 4 .■,. ■ A , Ay, . n'e.....' 'a :42,',' , . . . , .... - .,,. j, , ,Y, ■ . • - •.---,;:, -,r, ',V4k V:?.4 lc' VA, i.. kr...,,,..e. :V. .. . ,4,1 '1 ....11.4,* ..e.1--- ‘ C4',N. .i.;,,t-4•?afi - f4,? „. .1 .. •+. 'XICI, ' ''''' 4 ;•IP '..' ' ' . .1 .: : e . l';d ' ',.. . G 410 .;.. , &' ....3 .: 4-,,,_.QT.,ii.:.: , Ar-W • •Iti .... '71..... "..,- a c;„ ... '• -.6 ” ,`., ....if , te,- s .4,1, ' ..,, . ...` •-' ''''' i'.., i::::‘,,,.24i , ' > — ,..." ' ..,. . - ;.4" ' ,..' .. ' : .. ..:7_, ' ,..1 . , 4... .1.„7.. . • -. ,,,:,,— i ' ' ' . .,....„. ., • , , „ ' •••"'d ..;.` • • - ' -,-.4. - 44 -4* ' , -I — ,..1. , 4 1.; - - s ;:i i-t,•-scs - / , 4, ••'s. . .-- , , 's 1 . t,s.. .,iz.; ...A: 1 '''.. t ..,14 ,.g. .1;.4 ' ... - I - sx,, -:• , , ,% .,.„:. :: "' ' , . — „xi..c..4 Ni„•!,,-;,!..4,..$-•s , , - ...., 1,40.94, o' , • fcCa. Str'S. ......""". V....f.z.:".-"' ,. ... ti.'.4 ..:.-..‘v. ...". ' . . fsj.,.: , . ...-. • .s1,:,:•;5%;4•;- ;;;RPris. . ..1.' ..,, , i ' ' : „ . ,..,t, ,41'..... 1600 07/02/2010 Fr iclai 1820 16:40 1700 1720 A-B VTH DR as (mg ) Cam. sith0 17)40 1800 1820 THD ) 1111 H10 11 111 H20 1 1 1 1 1 1 1 = A- B VHarrn I I H30 11111 1 H40 Total RMS: 117.11V DC (Eve!: 0.00V Fundarrerdal( H 1) RMS: 0.00V Total Haan:sole Distortion T1-I D: 336 V (Ewa 0.07V, Odd 336V) Cool ra.DesVIra Of H50 .,.. „.. ,.. - ..* .., .:., . THD ) 1111 H10 11 111 H20 1 1 1 1 1 1 1 = A- B VHarrn I I H30 11111 1 H40 Total RMS: 117.11V DC (Eve!: 0.00V Fundarrerdal( H 1) RMS: 0.00V Total Haan:sole Distortion T1-I D: 336 V (Ewa 0.07V, Odd 336V) Cool ra.DesVIra Of H50 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3B5 Measured from 07/02/2010 14:29:56.0 to 07/02/2010 18:33:54.0 CURRENT Amps 10.75 1050 1025 10.00 Amps 1600 07/312010 Fr Ida/ 1 1620 1 16:40 1700 1 1720 - A ITHDRas (mg) C mebol .10 ex.. WO 1 1140 1800 1820 1 1 igisfiliv 11 H30 THD H10 H20 1=1 A !Harm Total RIMS: 636E0 A 0C Level: 4A8 A Funitrnental(H1) R MS: 63681 A Mal lisirronic 0 Istortion THCr. 1038A (Ben: 061 A, Ocii: 1076A) t sari t11.1 1111/11 F 111 H40 H50 - -, • -, A.,....1 .: . ....:_, - , . . , ,.."- . -.F,,4•., .•,,,-; .4". . 1 , ... • .7 •,117.cfo---.•-,,i.o.: rI a . - e 1600 07/312010 Fr Ida/ 1 1620 1 16:40 1700 1 1720 - A ITHDRas (mg) C mebol .10 ex.. WO 1 1140 1800 1820 1 1 igisfiliv 11 H30 THD H10 H20 1=1 A !Harm Total RIMS: 636E0 A 0C Level: 4A8 A Funitrnental(H1) R MS: 63681 A Mal lisirronic 0 Istortion THCr. 1038A (Ben: 061 A, Ocii: 1076A) t sari t11.1 1111/11 F 111 H40 H50 0 PHASE 13 HARMONIC TIMEPLOT Site: INAP PDU 385 Measured from 07/022010 14:29:56.0 to 07/022010 18:33:54.0 VOLTAGE Volts 355 • 3.60 355 350 3A5 3.40 T • Volts 35 3D 25 D 1.5 1D 05 0.0 1600 07101/2010 Fr}dW 1620 1 16:40 1760 1 1720 ---- B-C VTHDRss (mg) 17A0 1800 1820 'y jk C Y+ Jil • i{ ' N:. Y b> 1 • gy.1 " $T nRyr,,,t4 :4: C. :. apl �tcj'a ''P/ •A 51'G } •'� n 'Kw •a ..,'. fit" : °t" i:'` ^ S Vie`. iA ._, yet i^yyayyyYY�ia.,`` ; °x° I.11,1� �•' [ •• . yyYww azi .36.3 r' .4tiP'.' 9(p' " T 4 .tt c!'. r 7 + Jiti t '.xx Y``� .Y -' ;y'4t, i ' ir5"4s �.1 {9:: tyN �• ih , g . a gxu,.�y ( 's s i t aj, � .L'F` S[ _ +t tl `s •�j�yi $ y • i'•} 2n .:,Y.py 4` THD 1 1 1 1 1 1 1 1 1 H10 H2O B-C VHarm H30 Total RMS: 117.44 V DC Duel: 0.00V F4z n rda!(H1) RMS: 0.00V Total Hamtn c Dist ftianTHD: 364V (6431: 006 V, Odd 3.64V) car •■u•wr 6111 H40 H50 0 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3B5 Measured from 07/0212010 14:29:56.0 to 07/02/2010 18:33:54.0 CURRENT Amos 10.8 10.7 10.8 10.5 10A 103 102 10.1 10.0 75 5.0 2.5 0.0 1820 07,032010 Freda/ 1620 16A0 17130 1720 — 0 ITHDRss ( g ) to 1 17.40 1820 1820 . .• - ' ' .,1'....14' '4:4---":4,,,,57. ''1, ,i;r'n';' . ,, TIV ,,, • .,:-.6..,..V ..4i5 4 ne4;17-4°. t.';°:Y4; . ' 4, "v•.;.- -,.-y, r9,;. 0.5 .6xl. 4., . .,... ■ --•,..;•••,,:, '=:. - - 13,,4,514 :.'•.-*,' :' ..1... - tc - . . - , 4 ,'`‘ ' i° - 1.4APILiN ,•, 1444.A. 44,tt.V.,Ar "Pt%".•-•;`!.....;!: al '..4.J.,4,-.1- 4.341•ZI,. 'Iketf.,,,: • si0.- '4..,V;re. 'r , „1,.. - y.• .,.. „,,,,,. ' `7,...:S.,44,C.• :;,:g. ''''' -";•.-- ,, ''''.,,V '.-: ..: 4• , . ii111:: : ..-..::. - .%:'."-C — ...114.,-1,1..-.. "..,,4,‘,.. ,..., 2, r, ... ,, 7f.'.,,-.-.,r.,11.;:'.0...v.:,..-m - ft,t,':- ' ''''' .tA • ' ... ."Mr-'1:" '1. .. : ., S'11;' 4.c..--- '4' •".:''' :Iv'. '' 1 . .., ‘ ... : tg. g,f4t,r. --4. qq.iff " ' ge.'±.1'1•P'..' :g : . ; ',. • .:V..,=1••,&.."i•1: 94:12 A,r. ,,, .., ,. . ..7.,.. .., ' I:'1 " _4.4,f,,,,,:',,...,:„...' ,,..r:, ,,,,,,,• ...., - t,z' .r ,-.4' . .:4' , .. •:.,\`‘?.,.,, 4, ..4.,6.4., ', t • • ••••,,v, . : . . " ,-, . •,i . 'Pl - - • ,- ,v,.. rl . • -.' ''': 'A- t,.. • . 1 . . , 1 1111111111 llllll 1111r111r1T11111r111111 , . . '''' . , .1€11,...*. e;:s, .• ..- •■ ,' , V ' ' , ^-,' , J-,,.. ,,s. ' ..h . ''''' -". '''''' 4 e.h:v4si- _ •' .' . '4,...1. '' . -::* s, ,...., s ,-..' .. .,".,.'t .;... ,.... , t , - 4.. .. , • r" • -- -, '41' ' 4 ,,, ite4rAT ..„.4.„ ,,,,, Al,..41. 7,." ? .,,.., ,..,...:4:!;.e 'Air4!".!..4"1'...7.,) '' 444, - 4 ,,, • - 4 ' ■ , • . ,. . -_ . ' . ,. 4.... . ftl: .V - A i1J,-,44i"'• ,.., ik...01, --teo,i-c..---,p,:::-,:.-.0 , - - - , , ,.,, -1,— . .., - / .140VW 4... kg 1 I 1 I 1 1 1 1 1 1 I 1 1820 07,032010 Freda/ 1620 16A0 17130 1720 — 0 ITHDRss ( g ) to 1 17.40 1820 1820 THD H10 H20 Total RMS: DC Lvel: Fundamerdal(H 1) RMS: To Harrronic D istortion THD: H30 B IHarrn 821:1E6 A 323A MED A 10.82 A (Ben 045 A, Odi 1Q81 A) C ashid .1414eVie■ CS 1 H40 1150 ' TIV ,,, 41 *. ' ' 4" 4 444.''t ■ 5 .{... # • r . • . ' 'Pl - - • ,- ,v,.. rl . • -.' ''': 'A- t,.. • . 1 . . , 1 1111111111 llllll 1111r111r1T11111r111111 THD H10 H20 Total RMS: DC Lvel: Fundamerdal(H 1) RMS: To Harrronic D istortion THD: H30 B IHarrn 821:1E6 A 323A MED A 10.82 A (Ben 045 A, Odi 1Q81 A) C ashid .1414eVie■ CS 1 H40 1150 0 ( PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3B5 Measured from 07/022010 14:29:56.0 to 07/02/2010 18:33:54.0 VOLTAGE volts 3.50 305 3.40 335 330 325 Volts 35 3D 25 2D 15 10 05 OD '. ,, tt '"- a• qt ,�p x.c'xy' ya y ,_ ,} ,a�yT! Ac^:,ai �'a .. "� :''TT�j i sr�'' tdi k1 �'i. 'Y 2� � r.1,,�a � ., }t ,fit - ° ..•610 *'S -+ khx .q'1.° �. I. t`'+ •+■ ''+ # ' � } �y�pei+^y: °T'�' :'3 . + a a.�lN ytY x q .^ �� @ •a,��QG ek. p a .i:t�'{`+y .�M i5y gy' p " 3 S �i 7 � fY ° ,iut .' e Y i f X S - 4A+ +4P , .-N . 4 R .,. ,F �c % x ,4 t(C i`.ai 1 ,, 'nfe3s•KL rPLJ!i!1 : • .1 ie .K a'"^1 ? #dr�a} lw e� 'w ,�• { ': i {{- Tft ` . J [ Y r Si ��yf s • -? §P - x ` , a - : s� t ?; t � & y'rc e +s ' ap �»qq `� pt { .1 rP, '+ k i}�•", " �,nYPj 3s'_' ,E . t -§ ' t v t�d r t - + .. ,r, i iyire' �T ` .�j . +t♦ i Ju. ' $ f a ' T � $� ' + 1 � ' {. &+:[a .. t � $; a+�l. . " i� } 'X "i .lwAki- }„y i � ..!.4-, ...... „��ii.. +, ?•a°,�,' '4, . . M T Sir � i.{ifr t iA r t . {77(� �7y�� � .fit ':'� \. �`S:is's' e' . $ ,, k ^1 ' 4 7 w . M1 .di $1.y . �54'C Yi {}b-r: � 4'b�l,SL d{� _,i¢.p v� t 1T+{:• . `S+L `tM �'S A, kt A 'F �'�F, ' 'd rt Y at i j?�lt 1Y4 iG .txi.•:. & Si'.t {9 -} 4:L 9�Y 4r * ' QQLp�gy k i r°"di45 %.° � . y( ry% n, { ;}:A�''�rraq�yit.''rc'e�:�(�(�i:pp9�'�'..;;:kz � X tt. : via, `'ti:7 }'r i3�u:� 4 ': �.'{r., t { ^ Ap� t 7 • z. s y 5?- '.s6L('''"q.�'?�,.. Al t *" i• I'?, ' ., �;• % 4 ?,roh .. fJ •euiCM." e , ., a?%.Vpe'�<e .4.. ...ri 2. . Z yA :}.) y0r - ..wi.. "'R= s'. ., „,- • tF�C°Ji'ww•a{.J+...�.�. 1600 07/08'2010 Fridaf 1620 16 40 1700 1720 --- C A VTHDRss (aup) C•21.110060.6066. 601 1740 1800 1820 THD H10 H2O C -A VHerm H30 Total RMS: 116a5 V DC (even 0.00V Fta l(H1) RMS: 0D0V To Hartrurdc D Isla:Bon THD: 3.53V (Evan: ODSV, Odd 353V) COY VPOsN. 601 H40 H50 yi +� :.., ' : ) e}` '.t} YI ',-- Fs ..7..4. .,t- iiu. iti4 s`''aPr'� 11 41. 0 lq �ha ks ,rtf f [Q trQGd�t ✓z t� .::” y ;�r '.t.. ` s, N —oP«a i.'+•'•„�:� •.I 1t3 �{R .n SAS.,, g��`' .'c -"wt •fg • ff;. :'aN TYy �•,�� 4'y'.,. b y p� v ' 18�� 9y�t, $f xi L+ii'.•, rr r� 1 I t 1 t t 1 I t It I I 1 1 1 i 1 I T 1 1 t 1 � 11 1 1 1 1 1 1 1 1 1 . 1 i 1 r t 1 tt , THD H10 H2O C -A VHerm H30 Total RMS: 116a5 V DC (even 0.00V Fta l(H1) RMS: 0D0V To Hartrurdc D Isla:Bon THD: 3.53V (Evan: ODSV, Odd 353V) COY VPOsN. 601 H40 H50 PHASE C HARMONIC TIP Site: INAP PDU 3B5 Measured from 07/02/2010 14:29:56.0 to 07/02/2010 18:33:54.0 CURRENT AruPs 11.1 11D 109 10.8 10.7 10.6 105 10A 10.3 Arrqss 10D 75 5D 25 OD 11 "" r•t, -. . '* - +1 , "' -t Isii.%; .,.. •C. ''•-• '''' - . ':'• ' .ft ,, 1,..-..,',tr ' '•.* ,. .. „ , : !!'1'4. ' , -7,,:t, -, -,A, ;I, ' 4"--.' :F.. '•' ft - 5--,'•, 14'1;1 .0,.21* , • . - •t48' • .--, . •'..` x'. ' t . . • . „ .. . .,•110„, •04 " . •* . .ti: 11 - y: 4; ;14-:.?je k. .:-.,!,:' Y't .".' If.t., .44'4 .4,;:,1 11, /-•jra•,.4^ - A: •k`ivr...A.: , . ":' . `' .f- , .....v. . - .,„ , . ..,..i 41‘ - ' ' 'V/4- Aci. ,.., -, t.,; ...13). —....; ' •.' .,,, . . . b _ 1, ; 1 ,. ,,:„ ,'''z. • , l 11, bb . 1,-,...4„. 1. , W-1V ''-' t,, ,, ' *'' ------ ..4!1' ':':' , . • b , b ' ' '''' . 444' 'AV: — " A .., • . '' b b - .... A -3 ' - ..%:-,1 -. ,. , .., • i;' -ti ' (4, ..tit, - 5i ., "';' Ifi'- ' * •: 4.bi . , •Ir'' 5' `.c - . . . vIt411114•;::4 '.A.'-...?,;AA 1 '1; ''''. :1,, ' 'Z''',t' V` ...4' . 1 1 '...F5.-;.,,,,'•,.?.! /0 ,A, -. •,trl kfe . . A -A.'w• , . 6 , ,. !%,:-A-:;:•:AFIA:.:5, ..,,,,4,''...4 • i,.• 1,-. ',,,,,!fX:.,,-,,,,... ;4-A. ,. •••••`-'.-4. - ....1., _,- ., - 11 -, , ' ,.... t .,.. -:, 4,-4-5,...,,,v • .3 447/...',4 - .r.:- t- 1 - 2 ,,:•-- :.:-, `4';'.' . . ' , - 7 -3: ' ' "., '''' ' ` -4. ,,-,..-,. , t .1, : ' i • ''' ' ii.-YaA"??..-'-": .., , .., (1:6-4' ‘e 1.,-:;.•-•,- .1i-t- _1,4- - '. *2 - -,-- • :, .'. * '•'. t. .,--- --1, A: . . ,,-. 1 ..,- . 71T.'4:' ..1, t:rrl.foz ), ' 1 ' • " r4Gi...?, ..., ... '''.". ''l . ,,,,A1::”. - . ..,71;), 1*(1 • . - '-i • . ' t!'..-.1i.! ... . kt, .,,,), ,, .9....,--- ' 1,... ...,2, 6 ..,,, A Ac. •A . A, .. 4- - - - . .4 , ...:,:,, :A A .., Fr,L0411,e3,71, yerMThenEgalrrananCeMCM. paRIMSEM„. Maininen itAKV1114,'"...goi *gift , I ,,„. 1600 07/022010 FridEv 1620 1640 170 1720 C ITHDRss (rag) eimi• Nall1.10 1740 1 18iI0 1820 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 r 1 1 i i i i i i i 1 1 1 1 1 Total RIMS: DC levet Fundarnerd2(W1) RM$: Total HEUTTINtie 0 istort ion TH D: H30 C Harm 61993A 4.19A 61963A 11.06A(Ekert 046AOckl: 11.05A) LEE TECHNOLOGIES' / p�y+�3s(�y�fl■p��. 4N 8,- TUK4NA.COMMtSSIO aNG `:3t`an�`tio:'Y. EVEL CHECKLIST t �° 7Yi►s.B.Franre svrafi:4vvax+waet • Intemap 'Tukwila a CiL�fitOffl 4 1 oe'aTAdvf 404:30.2:9753 Pager Equipment PDh P ©U CX Proc a71`r.+nn��+�s "F�rs�%; Affected Arne: er 1. Sys7ra,A,}ded. PP1.3 it14300 GaBA; sDistnbution Pre - Procedure Requirements: �'Manu adorers startup r ca nd,on i • completed?on the module :Y? 4. t• ti a1Fh? r Dais funcbonaI and'ca. ble; oftsuppo cthe /he •'^r��a�1".s4tr: 8 •ti .:� �. '".:,pS� +•.ab + .„ nsure,thatall;test��equtpmentithat is "requireds o iieaand, Ito ek e ` Loadbanks wilEb,hooeci •up•d readyforestiitg � Conduct apointo point'testta vey pooled: a ring aBoundarie are,piaced:amund the PDUq iiTherPowerrQuality Meter inset up and rea • x o-reco Sx:ie�°v'S:w4l..... ..t.r.';u.aw,.v- .ie,:• >a:Cr.:-c:nxt.,,vvri cv.rc,:vtst^rA+.a.: -.,v ;•Vs'trr.r44 Tit Record°startdate 08:Jull0, lift4f 7r rtiAft. e(61ti start ti�rEe:1'4';:1 elv."Zerrr rem msnt =that'vendorstait 3.424 °. :NAKF Kyst4L „Km. nmerform re'rtomt' .vi val ©f thetF'BU o�e�nsu� there is` tirx e''�medltli iaga to the' PD Xh""S40N.14.abk9T '...'r Z" t� 7:pI✓". r?tY.a�F�� %y•n'2�WWi+ik L'-X.-`t.,� tea`• •� K.'s3�i f''fY lX.�hhi� 51 0„. r..vr EV+a "� >c�.v-e, r�✓�exrre�- �g:-� i+�'�72�,Ea's��iiJ ads, :'u'5��g+i a+' ate' q�t3+d ;,e�xft� � � to tAllital ar a r . IV ,Safi Zeffi lai Oaths 11 V. �+ 4' �i,^•" aa' K' �` •'l�'k'�'�3{V�'b`{P�trt't�cfaa.i ..; �,t �� Iose the ffeeeder bret aker"'to eRDU IF?' nsur� th «5� IED UToa d takeis gre n the 0PENp i bon vxfTW. w: � +wz.1waWrm�C. vQ- Gi:Y .T, .tea +44,0044 :r!aas s'. pC: noose the,inputm airmirruttibrea sideAheAPDU w mo w. =Sr ti �,::a ei .4.1za xr� Template Rev. 07022010 Lee Technologies Group O Copyright 2010 Proprietary use pursuant to company policy tt Page 1 of 3 LEE TECHNOLOGIES' LEVEL CHECKLIS T Template Rev. 07022010 Lee Technologies Group ® Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 izfl. 1e Inpat;V `� : , ' .r •H..t, p .�. -;r : Dufputii . Outpart. Amps • A Via,' yak :c`.,tr' i . DVM 116 LCD 116 608 .°.'B07 ..4, &Vk&5 r „': a,N •: , � DVM 117 LCD 117 605 , ■ 4 mkt >,at� ; ray- liw t _ .•:rt. • � DVM 117 LCD 117 615 t 0A13i/ DVM LCD 474 DVM 202 LCD 203 *� ; ` '?° • i g DVM LCD 474 DVM 203 LCD 202 KW 214 ',,” °�' +1 .,,,,,1A• .. DVM LCD 472 DVM 202 LCD 203 KVA 214 8.1. Apply control power to the load bank. 8.2. Apply 100% Toad to the PDU. KW:225 X 8.3. Start a 4 hour bum test of the PDU. ./ 8.4. Monitor temperature in the surrounding area. ✓ 8.5. PDU BURN SHEET. ✓ -lie' ; ; :O ut°Volts.(L -N }A .Owttiut Amps , "_ : - ":, . 01 . -,. , :. '1/4'00:00.. 116 117 117 608 605 615 214 ' 0,0:15A 116 117 117 608 605 615 214 �xN. ' 00 :301 A 116 B 117 C 117 A 606 8 604 C 613 214 -:90:451; ; t 6 117 117 606 605 613 214 ''S•2, -, 1H16..t A 116 B 117 C 117 A 608 B 605 C 615 214 aR Hi,' ,, A 116 B 117 C 117 A 609 B 605 C 616 215 '5:42;=.f : • '73F11' " *' y.' 3.:it?�n A 116 B 116 C 117 A 611 B 609 C 620 217 t.` A 117 B 16 C 117 A 612 B 610 C 619 217 8.6. Shut down all Toad on the toad bank. ✓ 8.7. Allow the Toad bank to run with no load for 5 minutes for cool down purposes. ✓ 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. ✓ 8.9. Verify that all power was removed from the Toad bank. ✓ Template Rev. 07022010 Lee Technologies Group ® Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES" .,6sn yi i4.kz`, a 1°.A 6: J irre4i ° 1,', 166FN,fdk„ ";:,. $11 � OPEtd ;the'feedertireakerto,the,PDIJ ` k* ° ? ': .mac i�x f.�?tS" 3`£' *Yid'... - + -?^-.° $B: -.kx.. - 4,4t4; ra'Zyv � conk. 1 812. � Check that e` •yD U ca netts noVen"erp zed att,safe�to.work n LEVEL CHEC LIST Comments 8.2 220 KW was applied due to the current limitations of the load bank at 208 volts. Conducted an IR scan after two hours and at the end of the four hour load bank test. No hot spots were found. iireavii:attititsito the attatracy,and completeness ofthts Template Rev. 07022010 Lee Technologies Group @ Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 0 VOLTAGE TIRREPLOTS Site: INAP 3B6 Measured from 07/06/2010 14:19:07.0 to 07/06/2010 18:25:52.0 220 210 190 230 14 220 N 210 200 190 230 220 1, 4 A-B Vans • B-C Vrms 210- 0 200 190-4 C-A Vrras I I 1430 0710&2010 Tuesday pi 15120 15:30 1 I I 0 1 1 I 1 1800 1830 1700 1730 Coolol...111•1,AAA le I 1 1800 WORST CASE SUMMARY Site: INAP 3B6 Measured from 07/062010 14:19:07.0 to 07/06/2010 18:25:52.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATETTIIIPJE Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE!T1IVI E WORST CASE SUMMARY WAVEFORMS Site: INAP 386 Measured from 07/062010 14:19:07.0 to 07/06/2010 18:25:52.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE PHASE A HARMONIC TIMEPLOT Site: INAP 3B6 Measured from 07/062010 14:19:07.0 to 07/06/2010 18:25:52.0 VOLTAGE vas 3.75 3.50 325 3D0 275 t r 1430 07/0&2010 Tuesday 15D0 t 1530 t 16D0 1630 ---- A -B VTHDRss (mpg) mulbemsly CIA r 1 1 17D0 1730 i t r 1800 1830 3D 25 2D 15 1D OS OD 7oka1 RMS: DC le is O.00V Rantt i(H1) RMS: ODOV Total Harmonic DistortianTHD: 385V (Ever 0.19V, Odd 3.85V) A-B VHam 11aiy V c..ai rloomHr u i H50 0 PHASE A HARMONIC TOMEPLOT Site: INAP 3B6 Measured from 07/06/2010 14:19:07.0 to 07/C16/2010 18:25:52.0 CURRENT Ames 11D 105 105 95 9D 85 8.0 10D 75 25 013 I 1 1 1430 07002010 Tuesday 1500 1530 I ' 1600 1630 — A ITHDRss (avg) E mud .1,0=V1. SD 1 1700 1730 1800 1830 ro. sr* PWiv I ri7 r- pt, t.;= „,, A !Herrn Total RMS: 5.6A DC lave!: 441A Fundarnantal(H1) RMS: 59E'6 A To Harmonic Distorton THD: 1127A (Een: 127A OW: 11.A) C mai .60.nVir Ai 1 1 1 1 1 1 1 1 1 1 1 PHASE B HARMONIC TIMEPLOT Site: !NAP 3B6 Measured from 07/06/2010 14:19:07.0 to 07/06/2010 1825:52.0 VOLTAGE volts 3.75 350 -F. 325 -® 300 -to Volts • 35 3D "\ 25 2D 15 1.0 0.5 0.0 r i THD 1 1 1430 07108'2010 Tuesday 1500 T 1 t 1 1 ` 1 1 1 1 1 1 1 1530 1600 1630 1700 1730 18D0 --- 8-C VTHDRss (mg) c_...y.n_h_ a 1 1830 • Total RMS: DC level: 000V F1usdhrrerdel(H1) RMS: 000V Toa1 Hanmnic DistodianTHD: 3.78V(Evet: 0.11 V, Odd 3.78V) 8-C VHarm 11a21 v e.r.0 ■CmNs. CB I H40 H50 1 PHASE B HARMONIC TIMEPLOT Site: INAP 3B6 Measured from 07/06/2010 14:19:07.0 to 07/0612010 18:25:52.0 CURRENT Amps 11.0 105 10.13 - as 90 4 Z.44k6K:12X-'i Amps 100 75 513 2.5 1430 07/0E12010 Tuesday 1 15130 1530 16130 1630 B ITHDRss (mg) Com1.60mM.4111 17130 T 1730 1800 1830 OD 111, IMP SC la", IG ten 07 iv. no. or, 1191 *to- tiC 1:1{ IPS+It le Pit it le 11111 OV, R W• THD H10 P=1 BIHami H30 Total RMS: 597.32 A DC Level: 320 A Fundarrvirad(H1) RMS: 097.22 A Tata! 1-bartronic Distortion THD*. 1104 A (Ben 1.77 A, Oat 1C190A) tirow*IatowNwO1 1140 H50 PHASE C HARMONIC TIMEPLOT Site: INAP 3B6 Measured from 07/062010 14:19:07.0 to 07/062010 18:25:52.0 VOLTAGE Volts 4110 3.75 350 325 3.00 �. 2.75 Volts 4.0 35 3.0 25 2D 15 1D 05 0.0 1430 07/092010 Tuesday it 1 ► 1500 1 1 1 1530 1 1 1 1600 1 1 1 1630 -- C AVTHDRss(aig) C •MO SKoseIY1 1 ► 1700 1 i ► 1730 1 1 ► 1800 1 1 1830 141344. • 9= 1 1 1 THD ;P1N:i���,Nali ► 1 1 H10 1 1 1 1 1120 1 1 1 (� 1 1 1 1 1 1 1 C-A VHarm • f 1 1 1 1 1► 1 1 1130 H40 1150 Tata! RMS: 117.62 V DC level: OAO V Ftextant a!(H1) RMS: 0:00V Total Harmonic 0 Estcution THD: 398 V (Even: 011V, Odd 3.98 NO C soul .u.o ow.. III i PHASE C HARMONIC TIMEPLOT Site: INAP 3B6 Measured from 07/062010 14:19:07.0 to 07/06f2010 1825:52.0 CURRENT 11.5 110 105 10.0 95 90 8.5 1 S. Amps 100 7.5 5.0 1 1 1 1 1 1430 1500 1530 07062010 Tuesday 1 1 1 18:00 1830 ..—� C (THDRss (mg) c ••.e.1.n.I.w.. 1 1 1 1 1 1700 1730 1 1 1800 1830 • 25-x, 00 — i ; ! i r <r x ' }a ., -. «, 1 «lr4 h1.141 fad ti &t 1 r I l r► 1 II r l l r ► 1/ 1 1( to i t ( 1 1 1 1 1 1 1 1 1 1 1 1 THD H10 H2O H30 C Harm Total RMS: 60891 A DC level: 4.14 A Fundanl al(H 1) RMS: &B 6P A Total Hannanic DistorlionTHD: 11.43A(Even: t75A,Odt 11.29A) C mud v, 1 T I 1 1 1 1 1 1 1 H40 H50 LEE TECHNOLOGIES LEVEL CHEC M. I IS T Zsr M �.r...r .�..w '. ( F x 3 '^DCtYS 13yzrC` f< °"af'v.�tt°'E�' .,., c r pp;.k' .^., ",p i.. -" -e .ak Fe • 1 Wxilf 5'28: �-4',y t• .4 »} g 4 }3 S "Kilt �ry 1I,[ �p�trg� �q��+Q'9j�y�gp���w� R¢��7r`. r ' INTI�,( �t�� UK4fAttiM 18-SIO ING .43„D ,�," L" yi�g� . "SIT' °k. 4'� A# .s 4.u:� .^'53. "'.. ' .yp�5e '4g8fx>w:+'.7.. t. "C..s°3. • '�7 a '•_ z a '&. 'F• 7.... �y, t• f"'r' �; " �I` .`.a�r .< 4 5 }g. (`� ' •.'^4. 3511` ! t t b k *-.. - .1.,` 15%1 "' ` .'Y. • t .' T wwre'.•" ,y� . riw.Y ... C'. }1A't41 `1.; hmittar n 3pj say F- ' n. S, l d �� 18 ilia 10 = y?, t, 4:0%4 mC •3a yd, + • :3'S{d`y�$'K .. W/re„ f •k`S.d jy z.S4 ,07 Jui�10 . tA&D�v ..bn G c.r ,.�. .cK ✓,'S. =:qr<a ! '4.•A, -,t Y,a��t,..- .,11,(x.. f I cettYIO- P► •- - �' time; Frame t,. • sa M'Frwawe t :'0. Fli'^ '_h'z'' .. ?tQ is ;0800 -1700 " 3 _ ., •3 °, �+{'»a mS�S.t� [�.y t rt '. dK:. '4�n}�II*� C�s!-vt�ci�mer r. ame�^ �3, .� lik' n ltieli _:S Intemap gam �.�.J.. j W�S�• +y'it.,yiyt`yC.....,ht E' # L sd•°''yc"4 �. ,s,,,,„.4.- t • r -�:.. ` � °4�vq 131, '.-,, s .i£ :'* i F'+ . d ` �,s�iiihl ess; �; `- � �i� `•'''.... y • wrx,yt,' xy t . F" r 1 _.. r rY ° :i' �'6 J...7.Ey d � ;. cb . t. r • + '_ � �dt s •x3388 Sounh 120"' Ptacet �5, ,�L 9°a ,..: -5 i'%4'a�YS:w .. 01 'a'k,ea'k�`i r:"cl 'tr �p'"y, � ' f• r k •f6'.. n 441 {dy. ^& 3r s.•`a';�x'da•�a S ili A d ATukwiia x .fW,��. .x 'zr�#;� Yx+' • ' 8!,03 F }' ^d • '•y'r t j '"15. • ,sty 3 `°-t•` rrn 9d t y". *35, 46 J iL ` fx a t .. VVA� G�9t3188 ,`^• � .i'at �vr, ,w , S: v" c`� ... r. 4 C l FOC y% F�lG fd&n&. ( x' s � Wix i4'2Y`aC'l�rdp'°ki " .� �' � C ;%catiiy'McIhva�e t n ..; Pt1ti � ^` iM "a' _ - t esvr,"t( t �•f i! !4102 9753 = kLS »' i' rr., y � •s'F A5049 `47,8915 �7=�' .. jJ96i T -. •4": r' d+tra l .. G tNng �;Su .3 t. ,4 A, sx -,.. r+L .' ✓ ".• ;' . i � `3.• 8'o- ' SH�e�rl rtf„Bumett • pgsq•,• ,,,, . `i.fr k t} @ .pF dp, tfi'^° d+�w..•. z nw .? +' ' t i.E . _ },�•kt,- 5NtBi$+Eer K' Phone 4' . 1 ' ', r X703= 988 -0300 •- •.••ff.i �i Mob. bry Ft s+. y��, }�{�°>,° `y' ...,..i.°:,-,.,„ .. w, 'd L?'„yY • X713 23'4335 °- :Iii/44,4 i1i «Kf# f . �;•• " x N i.. kz .'.Y :,, ;s i cw,,... w ki`xf[+VY �676Fhr.�r.•ti+3'+G F' r .. ;sEA+ ':_..�.r,,. 'xEqutpmen PD PDU CX,Pyr® ur„}}e�, 3B7 y5y� rg '% • R a ..t• 4 mow' 'ftT•d. dk.'I'd. +' .P ^9w.IA:' 9,lY 3; A�-i ?°i<i.9{ 'a°ae�� •�. rr .J�a a. • g i r e 13 { S 1. 7F ._ 7 yam! f F "rk^, !r)�i3 y' 6 .. r :. 'M i" r+ as +•r.: ..a a,.v. • .aaw x I� °R•.>s�t,Ffi. ..:, ., C _ Y • 3li..H''Ii7Vir --,..z TOa.401•DQI f^d > "' ..,, •'v a r FHy1.`,.. r. �pv' -y ./ Y�_ YYr:►..:�l.{..� B'4 vtS{ C`iA J "i stame'4 ec eV +LLoad D bubo }43 ` x :? •:.S:P.%tl:Ya .. .'�a:9•*;rR'y. k�., .zdu. r'•Skr�.....sxr.zw.i ll.rl •.. # . -i�L,.�..F o-..0. k':...X:tPextk& J/1 by t„, xt'' -' &7K9 �i + -, 17 -.°•t 'F�» �I,A'ell4,4:!. }•." 6 'fJ -'E^ ., bF✓.: f4;'S�S..•tavx:•. K. ,... Y,:,;. t,:i 5;3•. • �t � s q ', ` trriannatriia: � R 1 G + 't RDU: Y , -.n gotta) m � 00k. '¢Y 2.8 ,P 13- VS -3OO- 3 8-4 � O-287%1 " g r'11 ar • i t„rs'.�. °A.iiet4ic 4 ,,d�n -,.V • r PrTaPl +h'k• } �`,jsyy.jl�y' ar j f :y;.. ..�ga:W'�,:d:�ti fi,y; Sa- _r ,� •,* v„w*e 4,. �¢�. F,, _ :y, :'t,,.+ yrr •d 4 ? .1.P " Ntil 1- '.+.. • .,".,ta,°3C r J .f r _ `• "'�y r �w Y t'.it ,v. , 4Tchis. testing"wf l ve fy6f# a oberraxatiio�n99ofithe PDU� t "° � iYk Yfl k P 4'k h �' "` i^ •1..!'!:: :.;:1;�..2S =. tSaS.•¢;"1riTY"±;:sG: %::„,.*1. 2.8.4: ±•..ha'' c."T lf,!41 i,4, u.r. '`y . �, c :•,i..!}.... .s d.: #iY ?fJ �.s:•i s8 'el� g 1• '?C ffi rrl-r? .'+. y[.-�'t+ 4 4 .v. ,,. „ ,. .c lv .R a` '' ; t'`f- ' ISsFC .x,�.�- yv .: x •�, •;RyDyU. w+ill{-operate ras peter design .? �.t •sY t.sn 5�d k N a..� :.�i,Y` a�. .} fir.+ t4a i-'`' "I , ■4 , t4i�:..:i �`4i.•l' rp,i. Ae _. .'�3 •• ?���3 �" •- =- .. Y.t{itd ..•E° •`£ro. J'e f,; Y" ,r. td?ire" ti .. 3 :Pir$" +4 'tier, .•NS`d.'d- %i'4 U!' y .t"mn i�r N •w w Manufa�cttu >rAeesis�t�artup cog;mpietedio�n� the rn4odute�__ • � T- .'.aYlf< .G':Yi gi.- He'Cd �d!4ii�T.f y.'L nitik.<11� .,?,14 4-,,: -'^k�Z' tx .t ,t(" N`+G.yL �`Sti a.'t Air oondiitoningrsystemVis functional and,capabie3oi sdpportmg -the heat load generated }t�ythe �PDU tno sale} '"" Y � ' , �' d ' q s ?Ensureithat -all test'equipmeintzthat is re juired�is onsite antl rational ; � , 1 dY 4 •, . .•.; '.r.n.spq:,.,a..li i., .s -r *x .J •N'n.4 p$pR1Cett1///8 Requirements: � v rf�h+., 7.wy(.;i t... .� it'..•*x£-f� l�'c ? t �. ,., � >l.oacl+bankswill`be'hooked upband readyfor.testin-g' �,Y� " � Kt' .r l r..yt t1,.., at. t<'i x ; y�.7d}' v.' r : Y rrYl ?if }t' ht i i d��I«_. r i ls'ct% fir` z t N'" n'. � s ar t. GonductSar,point t o•point test to verify correci$winn a�. . y, tr ' - 9 --,r.� °',qS,ko��q vft,, "S.Y,47,+ '11A. Lit tail v5` r ?max .1 d`S K 7s Is t[;'E'.Y<`b` {R .dv A '..! a . .:1 ,(, t u1 :.l3otindan$�e.S'are � act arrcwnd the PDU � a • k, � )nr�tt.. r'� y3.S' # X ¢' °,4,-.:,W4-.7'..4t.1 t 1R' 6 .A Z t o f 4 tY:r 'E :. f r ..'. � ✓''t� .�pL>. '� K +'rf;'3T&` They Pov�er`t2vafrtyaMeter is up aril readyxto =recoiii. •. v`s._�+v:5i:�b• a1 ......i•....a J9t- rla.v..4, .re -n.. 4,, :x n11�'.'. .. t};'.... . Yt .s.} .Pi •.Yz .n. s'. itfi�ia . L'.tf. 5 . ,i 4.4.'7.4* - 'S4- .�S�.i r 9 w {t Vt ' ,,..' {^i-P.. ) �. • A. 1ygP f �Cf+e adierlrPr+ot:eydure' ., • xy L ,w h (. ! `i Y '� L,.•�Y]�.".i7.:yXyS:{� g. <q.�..3yy +1 ,M* 041 gvffip�t41$xFtl.` , -. .;oC6: .4'Fk`J�.H %fl,QS ;Mf.W _ ; , t 2':s: {yii r R `^. "�"`!•k : �+Ary.s4l� », Yi Fe �rc`i ".- i'�F't'{:'S1�R°`y ;ti'l. ^i a1.C:t'�yi %GL$ {�`'• 'FW.1��4%C '.. 4Hji�.'td- {,:?.:i.. ,.tl �?'... vJ3"y".Zgl.'t t'M`y",. 3r t .r ,at Reccsti start�date,AO7 =Jul `1Q r Reconi;startgtime: Q7� g }}�� ... �a ' "'_,'3` - -rfim .t 6, ..% we^�ra .0 .t>4'- '4*4..i ,' 1. SM✓:u,.S+'. gsu'.�i.".e. "' -' wv.a ,e+,.a ^� c.c T4 "��d4:r$."4JS 1 S; . sn.cml. .: ° � . •''t• c";' -' 4:4. rl'1 - Ar,`.^ t a .i :•I �Si a'Te:tYbr"'.a -...:' (} •rig`s .5 , 4 r P '<. ,A�x� FA - yr;A 7 la' s ' w 4xty ,.'. bra ", 0�.- :.9 • {i•��.... Document• thatvendorstart�up h beenapeiformed � y R t a [ • 8.rr;9gS.'4; •N?1+ tks n '> eit0,4..4^tL !w1...ein`w4tiie :i.,".tr, , ' c;,;.., „t ir•i fit. t,. >3.d �-ar*7 ., .� .n .. ki•°•. , .'rtr...Ke,7ii7 3 ., , i asiv ),,43:. y :"`p €y ztrht•T3•Y`=t...,•!L't1 c*t.?0t.iGTAS' c2,ifyt,..' "" . " jfrAlt"v'..r �� .,.,"4. !111 "ids +fit i.• 7'_t'<3 `, 5°,,i 'k:E k .S' "i ,+yi, !{:`" rtt ;owe.(.. Perform{a�:visual7 of ; the; PDU�tol,ensure•, that€ the "reFis noiextema damageitoithe� PDU �x i ws x#f!a@�'.'a,, ...as,24 .:,, -,,,, r .1: =.:*t °q a.'lL.• d ^!� 1.....1.- A,Vtb't,a t^'I'".xi. }..4.1,..x1 : f# }-k_ t - +?' -. 'rK:.ert t: t . �.ed4 .rK.' ' i ktV- ti!41 °d' (1.14 } a'44.7�.B40.y4 ;iA l" 5m . ; LEE TECHNOLOGIES' LEVEL C. JECKLIST Template Rev. 07022010 Lee Technologies Group CS) Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 . .i... , In.P4 y[,V 4/ 47 • Amps • ' A ,-' ..;:.--gin,r„71-0,0,47.,r 7 ''"-'-, sl ieTe3);,°. . DVM 117 LCD 117 608 3, ',;-' ,. ...« . .,'," ' :Li; .. ,:. ,.1,,'.: • o DVM 117 LCD 118 610 r L' ‘-' '''' :' ,'.. ': - qt ;"-# '''; fTF17.,1 DVM 117 LCD 118 623 MB-- DVM LCD 476 DVM LCD - 417i1 ir7 ' isc:; DVM LCD 477 DVM 203 LCD 204 INV 218 DVM LCD 475 DVM 203 LCD _ 204 KV 218 8.1. Apply control power to the load bank. 8.2. Apply 100% load to the PDU. K1N220 X 8.3. Start a 4 hour bum test of the PDU. ..,' 8.4. Monitor temperature in the surrounding area. / 8.5. PDU BURN SHEET. ,./. : 0*: . ( (001ibiliAm ps ,' i ; :, *, 11.".birl'Stli nOo:Oth. A 117 B 118 C 118 A 608 B 610 C 623 218 . _.2,-',, .,_,-.;; MOS.; A 117 13 117 C 117 A 604 B 606 C 619 215 ., .,,,,., Ou:30- A 117 8 118 C 118 A 605 8 608 C 620 216 A 116 13 117 C 117 A 601 B 604 C 615 213 .10r--: A 118 B 116 C 116 A 600 B 603 C 615 212 ..'12Ht"4 A 117 B 117 C 117 A 604 B 606 C 618 214 .::A.v.4:) ---3Hr,.. A 117 B 117 C 117 A 604 B 608 C 619 215 A 116 B 117 C 117 A 601 B 604 C 615 213 _ A 8.6. Shut down all load on the load bank. / 8.7. Allow the load bank to run with no load for 5 minutes for cool down purposes. ,s( 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. 8.9. Verify that all power was removed from the load bank. Template Rev. 07022010 Lee Technologies Group CS) Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 LEE TECHNOLOGIES" LEVEL CHECKLIST l +w"t.�t'.�.iYA P "A r. I k,!,'b3t 9 — 1d. Gz - 3 -d1.rl 1 Me+'' L':i. ' }]ty 'si, ;` .K ^ ` `' y • n . B 10 r Reset tiiejtinpped input >breaker at the. PDU t _}!f 4'Y.'r >�`^��•;F6 ?Z`ii..� 3 �.'5.^�FiH6.�§:lfi. y ,1, 4dt& ' •?!, wM'� vc ..+he did .�I _iF.^s. t.fi XEisy. xhiiG�.. er..:�.M.. vri$` i. j'G*ta� » gs��u-rr '"e iA•J .a„d"" '- .� -At S°+'^ys.`?"`K 2J 7,`}'e Y +la,°t"id 'wnSe' ( ,'`i j811 OP�yEN the feeder breaker£ io ttie� ?DU. � W n da ". 'N� §�✓,,� � _. .l ,uu dic'..%iN+aC Ju,.. "7'l.— ,.i�BrtR..S'a..L,4„: ,•,, „�Gli „yap? -a• L : } .3..NK•3}::r �.tj� * ..dr, .,N' ;..'kiJY3J.ir' ? Wi- .} ` ✓ ��y,.��q t.a .`l'�,,;�C►” LCT* -- x 9M-: l:4 �De,„, Y ^s ti �""V9G.it Dk 'P• V. -..*. ''S p{atKa:aXa'4Pa 15R�':C'f`J' °p,s. a: ,3y w'' 9C • 81•12? Checkethat;theiRD�.pU cabfnet is not energtzed,andrsafe✓to workYgtn '� � � ^ , .,;�� 4a,eal Yrica.v.'f 44..- l:t%i..W�011; :. ✓.-} - .tr „'!!v,r4 ” ..IZitad y. .'14X.'cools. as _ M`t ... ,.iL .k ..... 40,,,,if� "A.µ + c it *u • M1 .: e. �b 39` r4` -,4kT. , Wel .../7.r.,-,-, .' '.i ilY $1 �,.,, N b. -ti�+�I` �{3 k.6� 'aTFi ''• X •' Y.a't F 143 S� fr$ n tie � t ,t �%� % a aS�e^L>:5 ,i'. 0., , V 11, ^..e t '. , ' ?. i i S1• `r.2`ecr. 'A i. .�.Xr'+s " .Gi >'. 4'E . .::gym. , L .. �:�rt Comments t5 8.2 220 KW was applied due to the current limitations of the Load bank at 208 volts. Conducted an IR scan after two hours and at the end of the four hour load bank test. No hot spots were found. , ' =*r Lee Technologies Group has witnessed or participated in this procedure and attests to the accuracy and completeness of this ■ 5 r r •� report . Printed Name: pate: Herb Burnett ' I e P'.q .r 07July 10 Template Rev. 07022010 Lee Technologies Group 0 Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 VOLTAGE TIINEPLOTS Site: INAP 387 Measured from 07/07/2010 08:01:16.0 to 07/07/2010 12:21:11.0 0 200 150 ID 100 50 0 100 75 50 25 0 — A B Vans °rya, mod: D} 7r' «� '. tit- 7 td.¢ i j-" ,t y • .• 7 4 , `s :-x� , m k ,zit .sr�,I,.: �! i ✓A eY• .a^K jr.4 't 'kvk{� �iYy�t 'i h •' ' ` ). 1% rY1 3x 150 100 *+F *` h .•'.. 7 a , �.a rw.. - 517«` nr . ' W� '.a M ' ,v tl �?„�?,'s ^ > %t.,•33 .P".'� -. ti ,,- -{ d .C" f1rY s•° ,ix ` irr� t .- 'v xr:..,n. q?- �C n: *-- � �: 't} , ,s.. '�4,. �I p a�L J -' .{' ` ':,°., sa•a f 41 �, 4 J :, at , t, t, 4 F,° f� .mr "ils cy 7s....r� r r 1 '.,.)5' .g �'t%:. 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S, ; fi -3F :,`:,'.1:QRa J,.d'.'H'.x w �' :3r i� .4 � 1 1.v. :i s'!c,� °< 1 u °5:�}�a,,ia;s � ..- )}e r! 'S w:X !� '?`� r"Nk`+R3' ,pi .LSD ES1•1` i)elai.• <: 1'.�'�'A„ti..''�'.. £8 .r.t rL..: r'x.• -. ---- C -AVrrts r r £ i I £ 08 :30 09:00 0930 07)0772010 Wednesday 1 1 1 1 1 1 r £ t 1 1 i T 10:00 1030 11:00 1130 12130 C moo +Wr.Ngd, ACTIVITY PLOTS Site: INAP 3B7 Measured from 07/072010 08:01 :16.0 to 07/072010 1221:11.0 VOLTAGE SAGS NO EVENTS WERE FOUND IN THIS CATEGORY VOLTAGE SWELLS NO EVENTS WERE FOUND IN THIS CATEGORY OVOLTAGE INTERRUPTIONS NO EVENTS WERE FOUND IN THIS CATEGORY VOLTAGE TRANSIENTS 10 8 8 2 0011000 X11000 1 i 000000 t 1 0911000 c ..r.aneww m , 1 I 120000 1 1511000 1 ( 7 1811000 f 1 2111000 ,~ — a .. ; � P —.r• y A '> 1'4_'*° jpqZaf" i.�..- a 1 : h'#_ 9 , .ti } � .�Y y . .4•{la � p+ei ' + . M Yi C Y 'i Ery � + xJ . •K +t .� ' « i5•L 'y , 4V {W X t. ,, ? <o � S .i '( . „ , � y / 1 ';',:,7 . l, y�1.. 4 � n^f. X r.,�.L. n C9. ixM1 • •it d " i , M � ^Yp. �'1 .^.tr 1�} . '�. , a s. ' .At t✓a+".S� , -, .4 y 3^v,b. &. .r•. ' -! R;*L i. d ` � E - & t' :$L, w�i'a- f .yN' • �.. • b 0011000 X11000 1 i 000000 t 1 0911000 c ..r.aneww m , 1 I 120000 1 1511000 1 ( 7 1811000 f 1 2111000 WORST CASE SUMMARY Site: INAP 3B7 Measured from 07/07/2010 08:01:16.0 to 07/07/2010 1221:11.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE . CATEGORY DATA DATE/TIME Of 17 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE/TIME Largest Magnitude B -C 21.3V, 0.000 Sec. 07/07/2010 10:09:10.55 A -B 13.8V, 0.000 Sec. 07/07/2010 09:23:55.71 A -B 12.8V, 0.000 Sec. 07/07/2010 09:24:51.55 B -C 8.0V, 0.000 Sec. 07/07/2010 09:45:02.63 0 WORST CASE SUMMARY WAVEFORMS Site: INAP 3B7 Measured from 07/072010 08:01:16.0 to 07/07/2010 1221:11.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients: Phase B-C NO WAVEFORM AVAILABLE Volts 300 100 _t00 101111111111111MIMMIIMI 11liWLW ►ttI•li UlIIi>• i>! IINwAwi MMAMII itULM Ili! I,A,*,! uvau III I NWtimitiIti[iM Tif� NUJ ■WAIM I'i'i! t lit!• 11 ilitI!iiiit -r I 10:11015 10:0910.55 —B-CV —BI Ant's 0.00100 0.00075 O.0BO 0.00025 0.00000 21.3V,0.000 Sec., on 07/07/201010:09:10.55 PHASE A HARMONIC TIMEPLOT Site: INAP 3B7 Measured from 07/07/2010 08:01:16.0 to 07/07/2010 12:21:11.0 VOLTAGE volts 08130 07/0712010 • Wednesday Volts 0830 0900 0930 1000 1030 — VTHDRss (mg) coo• woonovie. ant 11130 1130 1200 3.5 313 r r 25 ,..'1 • ,:„. "•,e','"1 •• . 6 in, - .,. A • „, x, ., • ':•. '•;;.:v;• '-'-r..: ::".1 , • •..--.* 1,,.•-,;-- ' •--:= , ,7•4.;.• 4 •'"''' '''': ',4" .. - -, .,.,.• ; .. ' V'' ' . - ' sa • ; ':*X-:,',. ,...: e .' . 0:5:1.,4i. 2' 4:7: '.,‘,„., ''':i, — -. s, I? •!'k,Vii 32 • 4„,-,.:!••..c. . ,,...5.',1,,i7.s, ' ', . ,,', . , '6,-. ... , t, C.4 2, t ,,, ..!: r...; „ ., '' 1;,,,... ..' , ' • ,.. ,A .!, g ' 2 , , , AZ-i 1: '.:*. . il......, -,-. ;,,4. i)::=1,,,,r.Z, , .., i ''' ,a-., -1, '1;4 .i. - ■ „ f'■*' '1' ''' 3.1 - • "41, '''''' ' 1 • , 1l'7„:. s ‘.'. ".''74,'''':" ., ' . • :,, *''', ' '' "" •.:6:•7:17:,•,'” .:•.- ' ' rai 313 : 114' ''' 4"11 ..... •••"ra • J . ' d .i - "'.6!-', 1111ITE111111I1 T - .C-'''"-- '.:2 ' "". IlIlIlIl. ie: ., il..g...71 ,,, ' " .,-,..4,?, ' ' _2v • 1,`.>: '1" g 2.9 ' .,',Y",•lia'... , : '•, !4: , ' ? ATP44,, • , „,..,, i", 'f,4..:.ff _ , . 1 .•,:i ''''. - 2.8 '..",5 .. 5.-A";%vz; k, .,, . .,••• .-- .. - , ,,-,'•f„ 1-1.,' , ' • ...A.. -. ..,, ..• ..,.- . 31; -4,%:,-.•••:',** . ",• .1':: ',1'..1, '''' - ••$ ...1, 2.7 ' ''' `.,::':„•„:4 -.P.:44 4 4::,', .! a ''',): ; i 7 .,..i ., '.e..;:. ' .T- ..., 0.„. „, , ' ; 4 0 4 ' 4..' , ' „..4. '..' "! " .„7.•_,,..1 - ,,,,•,,,' , ' ' . :" ; 5:. '4.. . i .* ' ?. t<i,Icit-.? ..04,1!, 7,4,,,t, „*.,?.° . ... •,:: .. ' ...,, t . , . • .4,- -: ..• . ,,,,, !,.,, •,,g p,.... = . ... , ... AV . , 2.6 .,1 , . - rx, ., t. -24t . ' ta. , ,ftl, , ,. . • ,A. 7,.,,,I • . ....,., ''' . , , _ ,.. .e,,...i:.,„; „ ' . , ,,,%•1. `.,---,3 ' _ tr• ..2?i,--...:-,.4.i.,-„, 4 ' ' ...' • ,- ,-. , ,,,•:. • ,,.., "4 ..A.4'4,1);•,,= Y .•,.,, -...4,2.1........we.. , r , • ,:.t , , , ■,.. 'i, "? , 1 I i I I 1 1 1 1 I 1 1 T 1 r,-.1, 08130 07/0712010 • Wednesday Volts 0830 0900 0930 1000 1030 — VTHDRss (mg) coo• woonovie. ant 11130 1130 1200 3.5 313 r r 25 ,..'1 • 2.0 - A A,A'..,.• • ••• , .,. A • „, •rm, - -,- 1.5 1.0 05 0.0 11,4 ''' , •,, .,, . -. — ; • : r;.:V - ..P '91 ' .1 ' - • "41, '''''' ' 1 • , ' .. , . .- , , •.:6:•7:17:,•,'” .:•.- ' ' rai :te,..;', r ,,,, ,,.. 6, : 114' ''' 4"11 ..... •••"ra • J ,. 1 1 I g 1111ITE111111I1 T 711111111 1111T 1111 IlIlIlIl. THD H10 H20 r"-zq A-BVriarrn H30 Total RMS: 117.18V DC Level: 0.00V Functunerdal( H1) RIMS: 0.00V Total Harrtorgc Disk-ton THD: 338 V (Ever 0.12 V, Cdd 337V) CoompO .1■0 mono. 63 H40 H50 PHASE A HARMONIC TIMEPLOT Site: INAP 3B7 Measured from 07/07/2010 08:01:16.0 to 07/07/2010 1221:11.0 CURRENT Amps 100 95 9D 8.5 80 "^3•.•n...Aice 44,,44 ► 08:0 07/0772010 Wednesday Apps 100 7.5 50 25 OD t 0830 t � 1 0900 0930 1 1000 1 t 1 1030 - A ITHDRss (avg) 1 r 111)0 1 1 1130 t r t 121)0 t ^'` e ! ��.t.° :i: '.� . gy.n._ `-i a ma A At °s Jii, • 4... n • T l e r445. '" : r S_t...a4.s.,' ?l°$ :44 ••tt jg�g, M 4� N C;4'�% X41 b...v iiP kAi'• Two 9 }� uti•. .. _. 7 v,y ` U# ',� ,r�•£• ji rz7� 1 ...� ,,- .. as z: y o- tL yr }' - a �+ }��i +gay "T .•n 1: • ? r2 54 n. tx y_ r�.�r..., _ t taws .'., i �' f�. ao!'�ia�..wi�a:,;:+..�nw q e s- m ?i -itvz J d � tw.:Pt�s.m...�.� MO " ∎1%.1 9%. 'L• *'Fyy *6*ta ,v 1s•� y �s� h '�t?4 R"i �.ro+�6SLt���� it rix ir E (�,-- 1 t 1 111? 1 1 THD 1410 1 H2O h i l l AlHenn 1 1 1 1 1 1 1 1 H30 Total RMS: 586E8 A DC level: 4.48A FtadsnEntal(H1)RMS: 586Z A Total Harnronic Distortion THD: 995A (Ever. 138A, Odd 9.86A) CAM WI,OaNw CIC1 t t H40 H50 PHASE B HARMONIC TIMEPLOT Site: INAP 3B7 Measured from 07/07/2010 08:01:16.0 to 07/072010 1221:11.0 VOLTAGE Volts 3.5 3.4 33 32 3.1 3D 28 2.8 i 1 i i r r 1 1 1 1 1 1 1 1 1 1 1 1 1 r r 0800 0830 0900 0930 1000 1030 1100 1130 1200 0740712010 Wednesday Volts 35 3D 25 2D 1.5 1D 0.5 OD - 6-C VTHDRss (mg) t✓spk • _ °", 1l* ` c e-.'?7 1 'dw,4 < ' ..4°11e u i "14 q( d- ? ; '.x'' c.'ra e74, ''-',!43 JC'E 41 ) S 4 A,frtt:v : F - +qNyP e . z� l 1 M tit : v -11' � `.} art0' • w.- .�� M'..1:yf1 r r( �!}� $a:..r]�. . .. ». Y trr+ +'L 1s'"�;F' 6 ate.. { s p�� "pw'p��, . Irtw 4.T4 .c� j� �'R�"' .,.5 Y �'r + '- ..x� ..3 3 ryF. 1 I r 1 m r r 1 r 1 r 1 r r 1 1 r I t r r r r r r r r 1 1 r 1 1 1 1 1 1 1 1 1 1 1 1 1 r r 1 1 THD H10 H2O H30 H40 H50 EMU &C VHarm Taal RMS 10374 V DC level: 000 V Ftsrthrretttaal(H1) RMS: 0.O0 V Total Hffirrargc Distortion THD: 353 V (Evert 0.10V, Odd 3.52 V) CS* .,11. 11, 0 PHASE B HARMONIC TIMEPLOT Site: INAP 3B7 Measured from 07/07/2010 08:01:16.0 to 0710712010 12:21:11.0 CURRENT Amps 08130 07.0712010 Wednesday An1PS 10.0 7.5 5.0 25 OD 0830 0900 0930 10.00 1030 B ITHDRss (avg) C Ns. sit%11..,1•• Cl.1 1120 1130 12.00 -... • . • --,01,4k* ! .;.e.e...ft -4'zx.• ,- t:-.; • ,... .,--....,,.: •,,,,,,.:›N:C''' ' • ,' .,._ m - '14 '''' „4;w:,_ .:., . ••' :• ..),,- ' ,. '':k ..U--.1i: , '..rviii.::ft " 4.‘Ig' •', k4r..; . '....:;,P. *.i:.;!` j : ; ' i.',..t k. .1.,gis- ','-'.,,.t, (-• alle• . 4re,.• •-,:cree... 950 • a .1;..-”,,,- ' •,0P..,•• -..-' -' ••-:!•1. W..." . ',..f.• •••1' '.0 ' "L 4' ' ' C4',1...'.1.,'..:1-. :44:-, . ' • .:,, , . , ' 74T*1;?' li• 0 '''''.°.:" , t'ill''''' •,"' • - • - ',...-;..i, ,. t,,,,,.;'4' ;. ..;: '? . -...'., . . - ,,,..,. .,,., , . •••..:”.".1"e.".. 1 tv.,;: • „,. _ , ''' ' •A - '""In• '' .*.k.„.' 4)k• ; ,..- . • ' ' ' ''' ;-:' . „ ."; ...;:T., ' . ''..4:"?. . ;,;-' .•,-,04,- .. , 2:--7 •,:, v9 .;.A.•*' t*,:li - : •k :kr: ...., k. ' '. , .. '„f '.... 4 .,'• .;',-*, - , ,,,,,, 1..''.-i• =-••• '''' n925 I, 9.00 8/5 En ' ' ' '''':''.. ' ....4,..4 , .,„ •••• ' '7 s' ....• ..,Am..... j, , , ...t:,,,,,,‘ ,..---- , te 4 ,,„':.:5`• . M,i.''',- ' --- ', -----y4, "al 74.A. ',., • +7 • .., - 1,,-, ' ' •;1,i-,‘ ,:.'„1?: v :AtiYoY - h. . ' jr . 2. . .. , I,' ., "Ici,r -, I pre' ,."'`.._:. vg, 1 ....•-:••• , :,.. k ': *:;Z:l. , ,f. 1. .I . ,.. , j, '1"'8, , .._ '',- ,.,.., . ':, .i - . - 1=.1%.1. , . , 4., = • - ,I' 'ill:W. , , • == ,„1,. ' , . ,. - ''.• •,.• ',. I....4 tt. .,-;•..1- . ..a•AFelko.k -4- .'..- - --- - • 4 - :,, ...; . ' . 4.% 4, '•.6.011:-..: . - , 0.4,: ,•-• t',::::I:4;.,•.. , _. , v.„..; . , i„.. . ,',; ,,,i '' •850 , ,,,,,,,, , • : , 4,, ..',e .., `• • ' 825 „ . 4.- 'Zittc.,-,*»K.-• . • je,i.f.,' `-,A;iffni..,'.,..-::::,,,-,1- .•:,!" ' . : '-' * ,.,.:7‘ 4..", - ' - - ........ ;,..10‘..., ....,. : .:1- - t, 8.00 7.75 1 ......-.. 10 -, •,- - A 'i...":- •• ''' •------- vs.• ' , ,. I. ,,.. • '' '..."--"'1:11VW .., . i•V.- •-•'2. - "" ' ' • ' - - • ••• '.•.• •••••,".:4 ,4y1.::j1. , .... tp.,..0 •,.. r " • ......... I I I • I I i • r 1 • • • 1 I r 08130 07.0712010 Wednesday An1PS 10.0 7.5 5.0 25 OD 0830 0900 0930 10.00 1030 B ITHDRss (avg) C Ns. sit%11..,1•• Cl.1 1120 1130 12.00 -... • . • --- .... • • ."..4 „ , • ' Ar ' ■;... • 1.4 ',,,, ..4,4i ; ,, 1.4.:V. CC:44;4•.i4 "i'liff•;.7; ,i, ;'''' 4r* ;,..t1.,.:•,•k! . e #7.- ,•;';,•.:,r'.4 , . , I ' P•to. 7.; I ' 4. f-,1•Itijk;l5.4';'. ., . ,_ - :.:- i'",7 ,. '' il '''. '•fS , •S' `• ' `'.• '' 1, • "•'"- f,.'"` "'"' 47fTerl-, -.f,. .0 :2•"1\ '''' , . ....,. ,-;;; ""•■•• '' fi ,i• i ' , 't7''''" ,• . -1,1•••••,),:;;It.-,, 4 ' ,- . '••4'.. •,4 i • • ' • f. s , •,- - '0*- , 1 , •,• 1 I I I 1 1 1 1 1 1 1 l l l l l l l l l 1 1 I I I 11111 ! I I I fl VIII THD H10 H20 Tote! RMS: DC Laval: Fundarrental(H1) RMS: Total Hanronie Distortion THCr. H30 EZ3 B !Harm 571.47 A 36A 571.4S A 9.60 A (Eva): 1.17A, Odd 9.53A) C mem .1.C■ReVie. CI H40 H50 PHASE C HARMONIC TIMEPLOT Site: INAP 3B7 Measured from 07/07/2010 08:01:16.0 to 07/07/2010 1221:11.0 VOLTAGE Volts 2.1 2.0 19 1.8 13 1.6 r 0800 VVedsmoday Volts 2D 15 1D 0S 0.0 I ' 0830 0900 1 1 0930 I 1 1000 1 7 1 1030 --- C- AVTHDRss (rag ) L,.b1411D SNP O 1 1 1 1 1100 1 ' 1 1130 1 l t 1200 THD H10 1120 cza C- AVHarm 1130 Tot RMS: 10303 V DC !Awl: 0.00V Funtht rtal(H1) RMS: O.00V Total Harmonic D 'station THD: 2.08 V (Even: OD7V, Odd 2A8V) Cam .D■ =No. U 1 H40 1150 `i:q 74'1,1; l ,i; , P a ;:.a "'±d z i1.i ., A''''' ,;,7,71 l'',g P. ',x' K ; ',in4. aY$ h.. b 6.7:24:5.1.444V.1$4 '9.M., 4k'M41.. ':4 x2+8...1,1 �s P G. .."r.,:: tic.° 'xi0 h ,1" of •± L¢�'+� ■ ; ..1` �ll+ $5 ib0^ a XJ p1�'i� th` s S„h d 'y� .. ,,„a' ;° B. ,#�i pp.y D y,q �d ., `T .. 31� °`x �i4 & .'Y q,`.� T a _, . �:_+ . .. -,. 1t . n. .Ayyg2 "A.f>":2.A xe ♦fi' �r ' tt. c;r4.� t ». _. ,. a "' `w.- -.., �fll.au. l4ti'.i+ qty rv' '�,.. —o. zt •Y (�� nr, ' .. 116 "^ IV 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 / 1 r ) 1 1 1 1 1 1 1 1 1 ( 1 I / 1 1 1 1 1 1 1 THD H10 1120 cza C- AVHarm 1130 Tot RMS: 10303 V DC !Awl: 0.00V Funtht rtal(H1) RMS: O.00V Total Harmonic D 'station THD: 2.08 V (Even: OD7V, Odd 2A8V) Cam .D■ =No. U 1 H40 1150 PHASE C HARMONIC TIMEPLOT Site: INAP 3B7 Measured from 07/072010 08:01:16.0 to 07/07/2010 12:21:11.0 CURRENT Arms 10.5 100 95 90 85 0800 07407!2010 Wednesday AmPs 100 3 75 24 50-.. 25 -i b OD 1 0830 1 0900 1 ' 0930 ' I ' 1000 r I 1030 -- C ITHDRss (atg) 1100 1130 . 1 1 1200 { is 11111 11 THD 1110 I t I I I 1120 1 I 1 1 1 1 1 1 1 1 1 1 1 I I I 1130 1140 C piano Total RMS: 6C031 A DC Leval: 4.11A Fuaddetrenial(H1) RMS: 599%1A Tolal Hamonio Distortion TH D: 1053 A (5,en: 1.13A. 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Integration Test ng I Urstaltadon SraCort f4. aa�nof Training Buying directly from Schneider Electric Critical Power and Cooling Services (CPCS) means work is performed by veteran factory- trained technicians (more than 1,500 worldwide) who know the systems better than anyone, have immediate access to the engineers who actually designed the systems, and are acquainted with all the latest firmware/ software upgrades. That translates to a faster mean time to repair, the assurance of factory- certified spares, faster delivery via the supply chain, guaranteed continuity of service, and peace of mind that work is performed right the first time. Unparalleled field service engineers use proven operational best practices and award - winning state -of- the -art software tools to design, implement, maintain, and optimise your environment quickly, accurately, and cost - effectively. Go with the service provider who has the experience, expertise. processes, and personnel to assist in planning, building, and operating any critical IT or industrial environment. With more than 40 years' experience optimising physical infrastructure deployments, CPCS possess a wealth of knowledge second to none. Close strategic alliance partnerships allow CPCS to stay ahead of the curve on emerging technology trends in order to ensure the highest level of availability and efficiency. Maintain Optimise to 1 t - Dao9rta;ri 1 ?q,rta- `CCwmaet ',1 -, Ramose tAonaonng , Disposal • • SwapPat/rradea11P 1 Extended Narrardy', : t Rograms d Snit* RReplaeteneilt� Training ° A. rzysio 'iar "" l Assessment: Site survey, engineering analysis, environmental inspection. customised report, deal facility plan Design and Planning: Free online tools to plan and design tailor -made solutions tl Ul Project Management: Assistance in completing rollouts on time and within budget Site Coordination: Problem -free installation of equipment Testing: Configuration. functional verification, infrastructure integration Network Integration: Server migration. cable management. software integration, airflow analysis Installation: Equipment implementation and optimisation. physical assembly. logistics coordination (multiple levels of service) Start-ea and Commissioning:Initial setup. installation verification Training: On -site equipment orientation, operational and maintenance education Preventive Maintenance: Corrective maintenance. system cleaning. environmental inspection. functional verification. fete firmware upgrades. consumables replacement On Site: Site -visit 4 -Hour, Next Day, Next Business Day, Best Endeavor diagnosis, troubleshooting, and repair Remote Monitoring: 24x7 Web -based proactive monitoring, alarm notification Extended Warranty: Next business day replacement of parts Decommissioning: Environmentally responsible removal and disposal of retired equipment Trade -UPS® : As much as 35% off a brand -new UPS sup to twice the kVA) when trading n old UPS —no matter who made it or whether it even works Printed by APC MGE - Maint Version 12.5 - UPS /serial:: ND0946001704 2/11 APC Schneider M G E OElectric Commissioning /Start-Up Report Date :7/1/2010 Service District Filing number Job Number Contract number Type of contract Customer reference Customer company Customer name : Internap : 3355 South 120th Place Seattle, , 98168 : Fransisco Site company : lnternap : 3355 S 120th Place Seattle, , 98168 Site contact : Fransisco Equipment concerned : EPS 8000A Date of Commissioning : 7/1/2010 Power : 750 kVA Serial number : ND0946001704 UPS number : 2 Number of units in parallel : 4 Equipment type : Parallel with static bypass module Customer premises ref. : UPS 2 Start up complete Customer signature APC -MGE signature Craig Kraft Printed by APC -MGE - Maint Version 12.5 - UPS/serial:: N130946001704 3/11 1 . Commissioning summary No installation diagram to print 1.1 Checks carried out UPS room visual check OK Electrical environment OK UPS control and measurements OK Communication options check OK UPS cleaning OK 1.2 Comments Customer APC -MGE 1.3 Verification of measurement devices Measurement device Identification number Last inspected Fluke 43B Fluke 87 11/30/09 09/09/09 Printed by APC -MGE - Maint Version 12.5 - UPS/serial:: ND0946001704 4/11 2 . Unit personalization 2.1 UPS parameters list Inverter nominal output current 902 A Active nominal power 675 KW Type of UPS Parallel with static bypass module UPS nominal power 800 KVA UPS nominal voltage 480 V Country code USA Automatic starting authorized Disable Auxiliary dry contact function No function Inverter type IGBT UPS output voltage 480 V ( +/- 3 %) UPS nominal frequency 60 Hz Limitation mask 0 ms Phase regulation 1 Hz/s Number of automatic re- starting on limitation 3 Waiting durationn before reseting the re- starting counter 180 s Waiting durationn before re- starting 15 s AC Normal nominal voltage 480 V AC Normal voltage tolerance 15 % AC Normal voltage frequency 60 Hz Maximum DC voltage 630 V Genset limitation function Enable Gradual shutdown Enable Maxi power charger on Genset 800 KVA WAiting duration before automatic re- starting Present s Opening threshold (AHF contactor) 260 Closing threshold (AHF contactor) 288 Activation number of special functions 1 AC Normal interruption duration (charge cycle) 30 s AC Bypass rated frequency 60 Hz AC Bypass frequency tolerance 1 Hz AC Bypass rated voltage 480 V Frequency functionning Synchronous Transfer to AC Bypass Authorised Transfer with break Authorised K2S presence (US) Disable 2.2 Measurement list AC Normal voltage UA -B AC Normal voltage UB -C AC Normal voltage UC -A AC Normal current IA AC Normal current IB AC Normal current IC AC Normal frequency 1 UPS voltage UA -N UPS voltage UB -N UPS voltage UC -N UPS voltage UA -B UPS voltage UB -C UPS voltage UC -A UPS current IA UPS current IB UPS current IC UPS frequency Load voltage UA -N Load voltage UB -N Load voltage UC -N Load voltage UA -B Load voltage UB -C Load voltage UC -A Load current IA Load current IB 476 V 480 V 478 V 62 A 66 A 62 A 60 Hz 280 V 280 V 280 V 485 V 483 V 482 V 30 A 30 A 33 A 60 Hz 278 V 281 V 281 V 485 V 485 V 481 V 35 A 32 A Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0946001704 5/11 Load current IC % of the load charge Load crest current IA Load crest current IB Load crest current IC % of the crest load IA charge % of the crest load IB charge • of the crest load IC charge Load frequency Inverter current IA Inverter current IB Inverter current IC % of inverter charge IA inverter crest current IB inverter crest current IC inverter crest current % of IA crest inverter charge • of IB crest inverter charge of IC crest inverter charge AC Bypass voltage UA -N AC Bypass voltage UB -N AC Bypass voltage UC -N AC Bypass voltage UA -B AC Bypass voltage UB -C AC Bypass voltage UC -A AC Bypass current IA AC Bypass current IB AC Bypass current IC AC Bypass frequency Load active power P1 Load active power P2 Load active power P3 Total load active power % of inverter charge Load apparent power P1 Load apparent power P2 Load apparent power P3 Total load apparent power Load power factor Battery current Battery voltage Battery temperature Battery autonomy • of Battery charge Battrey life time remaining Nominal Battery voltage 33 A 4% 161 A 188 A 90 A 396 473 531 60 Hz 171 A 171 A 167 A 18% 491 A 411 A 503 A 26.9 % 20.2 % 29% 278 V 280 V 280 V 485 V 484 V 482 V OA OA OA 0 Hz 1W 1W OW 2W 0% 11 VA 10 VA 10 VA 31 VA 0.09 2A 543 V 0 °C 0 Min 0% 0 Days 227 V 2.3 Statust list Battery circuit breaker QF1 1 Battery discharge operation 0 End of Battery autonomie reached 0 End of autonomy voltage pre -alarm 0 Battery recharge operation in progress 0 Mains Interruptor Q1 1 Gradual stop charger activated 0 Battery equalization operation in progress 0 Charger end of ramp 1 AHF contactor closing commad 0 UPS ready 1 K2S status 0 K3N status 1 Q4S status 0 Q3BP status 0 Q5N status 1 SS AC Bypass command status 0 Printed by APC-MGE - Maint Version 12.5 - UPS/sedal:: ND0946001704 6/11 2.4 Alarms list Battery temperature out of tolerance 0 AC Normal out of tolerance 0 Battery room ventilation or FAH fault 0 Major charger fault 0 Auto - transfo(US) temperature fault 0 Battery earth fault (US) 1 AC Normal fuse blown 0 Board supply fault 0 Charger temperature fault (vigitherm) 0 EPO 0 AC Normal voltage out of tolerance 0 AC Normal frequency out of tolerance 0 Maxi over Battery recharge current 0 Maxi over Battery recharge voltage 0 Maxi over DC voltage 0 Input charger power limitation on Genset in progress 0 Inverter overload 0 Invertre major fault 0 Inverter overload 0 Limitation with mask in progress 0 Inverter limitation detected 0 Inverter current thermal overload 0 Inverter voltage out of tolerance, slow control 0 Inverter voltage out of tolerance, speed control 0 Inverter frequency /I reactive out of limit 0 EPO 0 Board supply fault 0 Invertre fuse blown 0 Vigitherm transfo fault 0 Inverter fuse blown 1 0 Inverter fuse blown 2 0 Inverter fuse blown 3 0 Inverter current fault 0 Inverter leg 1 fault 0 Inverter leg 2 fault 0 Inverter leg 3 fault 0 Inverter leg 4 fault 0 Inverter leg 5 fault 0 Inverter leg 6 fault 0 Vigitherm leg 1 fault 0 Vigitherm leg 2 fault 0 Vigitherm leg 3 fault 0 Vigitherm leg 4 fault 0 Vigitherm leg 5 fault 0 Vigitherm leg 6 fault 0 Forced stop on external contact 0 Reversal frequency on external contact 0 Protected inverter stop on external contact 0 Coupling fault 0 Ventilation fault 0 SS supply fault 0 UPS coupled 1 Coupling fault 0 Phase fault 0 AC Bypass out of toelrance 0 Inverter relay fault 0 AC Bypass frequency fault 0 AC Bypass voltage fault 0 AC Bypass overload 0 AC Bypass thermal overload 0 Inverter thermal overload 0 SS vigitherm fault 0 Printed by APC -MGE - Maint Version 12.5 - UPS/serial:: ND0946001704 7/11 2.5 Battery parameters list Minimum Battery voltage 401 V Maximum Battery voltage 565 V Battery temperature sensor Absent Battery absence / Presence Present Type of Battery Sealed lead Battery charge voltage 545 V Battery floating voltage 545 V Battery equalization voltage 545 V Max current of Battery recharge (limitation) 150 A Max current of Battery recharge (protection) 180 A Max current of Battery recharge activated by dry contact 150 A Function: auxiliary I Battery limitation Disable Prealarm of end of autonomy voltage 420 V Nominal autonomy Battery time 10 Mn Battery recharge duration 24 H Mini temperature of the Battery 0 °C Maxi temperature of the Battery 40 °C Deep discharge of the Battery Active control Autonomy processing by GTCZ absente or Battery monitoring not validated Battery autonomy prediction No calculation Battery cell voltage at no load 1 V Resistance of a Battery cell 0.1 m Ohm Battery coefficient (K1) 0 Capacity variation coefficient (K) 0.001 Battery capacity 10 Ah Autonomy maximum: 3 x T Inactive Nber Battery cell 100 Nber Battery string 1 Battery pre -alarm 1 mn Battery temperature reference 20 °C Battery life time 1 year(s) Battery discharge system (Alpha 1) 0 Battery coefficient (K2) 0 Battery discharge system (Alpha 2) 0 2.6 TLS parameters list Call rule / Acquisition fault Forbidden Call rule / Battery end of autonomy Forbidden Call rule / Battery end of life Forbidden Call rule / Soft -Tunor Session in hand Forbidden Call rule / Normal operation Forbidden Call rule / Downgrad operation Forbidden Call rule / Dangerous operation Forbidden Call rule / Battery operation Forbidden Call rule / EPO Forbidden Call rule / SS operation Forbidden Call rule / UPS coupled Forbidden Protocol Modem None Telephone number NoT,IVoie1 Second telephone number Num,rosecoursl Site identification Idsitel Call mask / Call reset Forbidden Call mask / Second roll call Forbidden Call mask / Diagnosis activation Forbidden Call mask / Desactivation Diagnosis Forbidden Call mask / Fault reset Forbidden Printed by APC -MGE - Maint Version 12.5 - UPS/serial:: ND0946001704 8/11 3 . UPS room visual check Installation manual present Yes Installation conditions respected Yes Type of room technical Satisfactory Type of ventilation air - conditioned Satisfactory UPS room temperature 20 °C Satisfactory Thermal losses of the UPS taken into account Satisfactory Maximal temperatures acceptable by the UPS and the Battery taken into account Satisfactory Customer reference - UPS room UPS 2 4 . Electrical environment 4.1 Controls to do Conformity of the earth connection Yes Protections accessible and marked Yes Cables AC Normal and AC Bypass separated Yes Protections AC Normal and AC Bypass separated Yes Conformity of the connections between UPS and Battery Yes Presence of a AC Bypass transfo No Presence of a genset Yes 4.2 Information about cables and protections 5 . UPS control and measurements 5.1 Equipment check Conformity of equipment delivred / equipment ordered Satisfactory 5.2 Visual check General and cleaning aspect of the equipment Satisfactory Presence of panels, skirts et cover Satisfactory Exterior aspect: cabinet damaged, scratched Satisfactory Inside aspect: sub - assemblies positioning Satisfactory Field Advisory Current Yes Field Modification Current Yes 5.3 Connections check Confirm the connections done on site Satisfactory Confirm the AC Bypass and AC Load cables (reversal !) Satisfactory Confirm the phase and neutral sense (ASI single phase only)! Confirm the remote information connections Satisfactory Visual check of the internal connections Satisfactory 5.4 Confirm the Charger Confirm the phases sense : AC Normal Satisfactory Confirm the correct functionning of the charger Satisfactory Agreement of the charger voltage: displayed / multimeter Satisfactory Agreement of the charger voltage with the Battery jars number Satisfactory 5.5 Confirm the Battery Confirm the Battery cabinet connection to earth Satisfactory Battery and charger +/- terminals matched Satisfactory 5.6 Confirm the Inverter Confirm the phases sense : AC Bypass Satisfactory AC Normal phases matched (case of UPS's in //) Satisfactory Confirm the correct functionning of the inverter Satisfactory Agreement of inverter voltage: displayed / multimer Satisfactory Coupling discoupling test and /or UPS's in // Satisfactory Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0946001704 9/11 5.7 UPS on Battery test Confirm the UPS on Battery (short autonomy) Satisfactory 5.8 Measurements Phase 1 Phase 2 Phase 3 AC Normal voltage 479 480 479 AC Normal frequency 60 AC ByPass voltage AC ByPass frequency AC Load voltage 480 480 480 AC Load frequency 60 AC Load rms current 0 0 0 AC Load crest current 0 0 0 Charger voltage 543 6 . Communication options check Communication cards 6739830SE - Media contacts 9 6739828SE - GTCZ (NT 12 mini) 6740925SE - GT2Z 6739836SE - Media contacts 15 Teleservice Teleservice installed : Communication options check OK 7 Environment and auxiliary cubicles Visual check of the cubicles OK Systems Options information : AC Normal and AC Bypass separated. Simplified Grounding system Rec. l :Inv. Grounding Input configuration: - 480V -3w +G Neutral status: Grounding Output configuration: - WithN -G bond - 480V -3w +G Grounding Electroc Conductor presence: No 8 Visual check and Battery characteristics 8.1 Battery visual check Battery location UPS room Battery temperature ( °C) 20 °C Battery condition normal Battery insulation OK OK 8.2 Battery characteristics Number of 2 V Battery cells 240 Number of strings in parallel 4 Capacity of a new Battery block 0 Ah Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0946001704 10/11 Contractual backup time 0 mn Printed by APC-MGE - Maint Version 12.5 - UPS/serial:: ND0946001704 11/11 Schne &• er Electric Critical Power and C offing Services BUILD .OPERATE Prepare" Acquire Commissioning /Start-Up Report Site contact : Fransisco Site company : Internap Address : Seattle, , 98168 Date : 7/1/2010 M G E SchAl er Electric Printed by APC-MGE - Matra Version 12.5 - UPS /serial:: ND0946001703 • 1/11 Don't Settle for Second -Best Services Purchasing directly from Schneider Electric Critical Power and Cooling Services (CPCS) offers huge advantages PLAN M'nta40saarr Maintain, 'Optimm ise :ate r!„dC�x. , •''PtannmD'.' Buying directly from Schneider Electric Critical Power and Cooling Services (CPCS) means work is performed by veteran factory- trained technicians (more than 1,500 worldwide) who know the systems better than anyone, have immediate access to the engineers who actually designed the systems, and are acquainted with all the latest firmware/ software upgrades. That translates to a faster mean time to repair, the assurance of factory- certified spares, faster delivery via the supply chain, guaranteed continuity of service, and peace of mind that work is performed right the first time. Unparalleled field service engineers use proven operational best practices and award - winning state -of- the -art software tools to design, implement, maintain, and optimise your environment quickly, accurately, and cost - effectively. Go with the service provider who has the experience, expertise, processes, and personnel to assist in planning. building, and operating any critical IT or industrial environment. With more than 40 years' experience optimising physical infrastructure deployments, CPCS possess a wealth of knowledge second to none. Close strategic alliance partnerships allow CPCS to stay ahead of the curve on emerging technology trends in order to ensure the highest level of availability and efficiency. 4: Y eject Manage m� Site Coordination : tt G' =. ntejpatian Testing . j 111ctaRation Training - ` Sei4ice 1 fanietekionitodng.' Disposal 1; Extended 1Narry.. Scrap Pacfisde -UPS Rograms :8atteryRepferamerm Assessment: Site survey, engineering analysis, environmental inspection. customised report, ideal facility plan Desigr and Planning: Free online tools to plan and design tailor -made solutions tBiaild 8 •ir S--p T70P Project Management: Assistance in completing rollouts on time and within budget Site Coordination: Problem -free installation of equipment Testing: Configuration, functional verification, infrastructure integration Network Integration: Server migration, cable management, software Integration, airflow analysis Installation: Equipment implementation and optimisation, physical assembly. logistics coordination (multiple levels of service) Start-uo and Commissioning:Initial setup, installation verification Training: On -site equipment orientation, operational and maintenance education Operate , Preventive Maintenance: Corrective maintenance. system cleaning, environmental inspection. functional verification. free firmware upgrades, consumables replacement On Site: Site -visit 4 -Hour. Next Day, Next Business Day, Best Endeavor diagnosis. troubleshooting, and repair Remote Monitoring: 24x7 Web -based proactive monitoring, alarm notification Extended Warranty: Next business day replacement of parts Decommissioning: Environmentally responsible removal and disposal of retired equipment Trade -UPS ®: As much as 35% off a brand -new UPS (up to twice the kVA) when trading n old UPS —no matter who made it or whether it even works Printed by APC-MGE - Maint Version 12.5 - UPS /sedal:: ND0946001703 2/11 APC' Schneider M G E OElectric Commissioning /Start -Up Report Date : 7/1/2010 Service District Filing number Job Number Contract number Type of contract Customer reference Customer company : Internap : 3355 South 120th Place Seattle, , 98168 Customer name : Fransisco Site company : Internap : 3355 S 120th Place Seattle, , 98168 Site contact : Fransisco Equipment concerned : EPS 8000A Date of Commissioning : 7/1/2010 Power : 750 kVA Serial number : ND0946001703 UPS number : 3 Number of units in parallel : 4 Equipment type : Parallel with static bypass module Customer premises ref. : UPS 3 Start up complete Customer signature APC -MGE signature Craig Kraft Printed by APC -MGE - Maint Version 12 5 - UPS /serial' ND0946001703 3/11 1 . Commissioning summary No installation diagram to print 1.1 Checks carried out UPS room visual check OK Electrical environment OK UPS control and measurements OK Communication options check OK UPS cleaning OK 1.2 Comments Customer APC -MGE 1.3 Verification of measurement devices Measurement device Identification number Last inspected Fluke 43B Fluke 87 11/30/09 09/09/09 Printed by APC -MGE - Maint Version 12 5 - UPS /serial- N30946001703 4/11 2 . Unit personalization 2.1 UPS parameters list Inverter nominal output current 902 A Active nominal power 675 KW Type of UPS Parallel with static bypass module UPS nominal power 800 KVA UPS nominal voltage 480 V Country code USA Automatic starting authorized Disable Auxiliary dry contact function No function Inverter type IGBT UPS output voltage 480 V ( +/- 3 %) UPS nominal frequency 60 Hz Limitation mask 0 ms Phase regulation 1 Hz/s Number of automatic re- starting on limitation 3 Waiting durationn before reseting the re- starting counter 180 s Waiting durationn before re- starting 15 s AC Normal nominal voltage 480 V AC Normal voltage tolerance 15 % AC Normal voltage frequency 60 Hz Maximum DC voltage 630 V Genset limitation function Enable Gradual shutdown Enable Maxi power charger on Genset 800 KVA WAiting duration before automatic re- starting Present s Opening threshold (AHF contactor) 260 Closing threshold (AHF contactor) 288 Activation number of special functions 1 AC Normal interruption duration (charge cycle) 30 s AC Bypass rated frequency 60 Hz AC Bypass frequency tolerance 1 Hz AC Bypass rated voltage 480 V Frequency functionning Synchronous Transfer to AC Bypass Authorised Transfer with break Authorised K2S presence (US) Disable 2.2 Measurement list AC Normal voltage UA -B AC Normal voltage UB -C AC Normal voltage UC -A AC Normal current IA AC Normal current IB AC Normal current IC AC Normal frequency 1 UPS voltage UA -N UPS voltage UB -N UPS voltage UC -N UPS voltage UA -B UPS voltage UB -C UPS voltage UC -A UPS current IA UPS current IB UPS current IC UPS frequency Load voltage UA -N Load voltage UB -N Load voltage UC -N Load voltage UA -B Load voltage UB -C Load voltage UC -A Load current IA Load current IB 479 V 479 V 477 V 62 A 67 A 62 A 60 Hz 279 V 279 V 278 V 484 V 481 V 481 V 31 A 31 A 26 A 60 Hz 279 V 278 V 279 V 482 V 482 V 481 V 39 A 26 A Printed by APC -MGE - Maint Version 12 5 - UPS/serial- ND0946001703 5/11 Load current IC % of the load charge Load crest current IA Load crest current IB Load crest current IC of the crest load IA charge of the crest load IB charge % of the crest load IC charge Load frequency Inverter current IA Inverter current IB Inverter current IC % of inverter charge IA inverter crest current IB inverter crest current IC inverter crest current % of IA crest inverter charge % of IB crest inverter charge of IC crest inverter charge AC Bypass voltage UA -N AC Bypass voltage UB -N AC Bypass voltage UC -N AC Bypass voltage UA -B AC Bypass voltage UB -C AC Bypass voltage UC -A AC Bypass current IA AC Bypass current IB AC Bypass current IC AC Bypass frequency Load active power P1 Load active power P2 Load active power P3 Total load active power of inverter charge Load apparent power P1 Load apparent power P2 Load apparent power P3 Total load apparent power Load power factor Battery current Battery voltage Battery temperature Battery autonomy % of Battery charge Battrey life time remaining Nominal Battery voltage 31 A 3% 135 A 185 A 124 A 353 % 453 % 429 % 60 Hz 158 A 177 A 169 A 19% 375 A 450 A 471 A 26.6 % 22.9 % 27.2 % 278 V 278 V 279 V 482 V 482 V 481 V OA OA OA 0 Hz OW OW 2W 2W 0% 8 VA 7 VA 10 VA 26 VA 0.07 OA 545 V 0 °C 0 Min 0% 0 Days 227 V 2.3 Statust list Battery circuit breaker QF1 1 Battery discharge operation 0 End of Battery autonomie reached 0 End of autonomy voltage pre -alarm 0 Battery recharge operation in progress 0 Mains Interruptor Q1 1 Gradual stop charger activated 0 Battery equalization operation in progress 0 Charger end of ramp 1 AHF contactor closing commad 0 UPS ready 1 K2S status 0 K3N status 1 Q4S status 0 Q3BP status 0 Q5N status 1 SS AC Bypass command status 0 Printed by APC -MGE - Maint Version 12.5 - UPS/serial:: ND0946001703 6/11 2.4 Alarms list Battery temperature out of tolerance 0 AC Normal out of tolerance 0 Battery room ventilation or FAH fault 0 Major charger fault 0 Auto - transfo(US) temperature fault 0 Battery earth fault (US) 1 AC Normal fuse blown 0 Board supply fault 0 Charger temperature fault (vigitherm) 0 EPO 0 AC Normal voltage out of tolerance 0 AC Normal frequency out of tolerance 0 Maxi over Battery recharge current 0 Maxi over Battery recharge voltage 0 Maxi over DC voltage 0 Input charger power limitation on Genset in progress 0 Inverter overload 0 Invertre major fault 0 Inverter overload 0 Limitation with mask in progress 0 Inverter limitation detected 0 Inverter current thermal overload 0 Inverter voltage out of tolerance, slow control 0 Inverter voltage out of tolerance, speed control 0 Inverter frequency /I reactive out of limit 0 EPO 0 Board supply fault 0 Invertre fuse blown 0 Vigitherm transfo fault 0 Inverter fuse blown 1 0 Inverter fuse blown 2 0 Inverter fuse blown 3 0 Inverter current fault 0 Inverter leg 1 fault 0 Inverter leg 2 fault 0 Inverter leg 3 fault 0 Inverter leg 4 fault 0 Inverter leg 5 fault 0 Inverter leg 6 fault 0 Vigitherm leg 1 fault 0 Vigitherm leg 2 fault 0 Vigitherm leg 3 fault 0 Vigitherm leg 4 fault 0 Vigitherm leg 5 fault 0 Vigitherm leg 6 fault 0 Forced stop on external contact 0 Reversal frequency on external contact 0 Protected inverter stop on external contact 0 Coupling fault 0 Ventilation fault 0 SS supply fault 0 UPS coupled 1 Coupling fault 0 Phase fault 0 AC Bypass out of toelrance 0 Inverter relay fault 0 AC Bypass frequency fault 0 AC Bypass voltage fault 0 AC Bypass overload 0 AC Bypass thermal overload 0 Inverter thermal overload 0 SS vigitherm fault 0 Printed by APC -MGE - Maint Version 12.5 - UPS/sedal:: ND0946001703 7/11 2.5 Battery parameters list Minimum Battery voltage 401 V Maximum Battery voltage 565 V Battery temperature sensor Absent Battery absence / Presence Present Type of Battery Sealed lead Battery charge voltage 545 V Battery floating voltage 545 V Battery equalization voltage 545 V Max current of Battery recharge (limitation) 150 A Max current of Battery recharge (protection) 180 A Max current of Battery recharge activated by dry contact 150 A Function: auxiliary I Battery limitation Disable Prealarm of end of autonomy voltage 420 V Nominal autonomy Battery time 10 Mn Battery recharge duration 24 H Mini temperature of the Battery 0 °C Maxi temperature of the Battery 40 °C Deep discharge of the Battery Active control Autonomy processing by GTCZ absente or Battery monitoring not validated Battery autonomy prediction No calculation Battery cell voltage at no load 1 V Resistance of a Battery cell 0.1 m Ohm Battery coefficient (K1) 0 Capacity variation coefficient (K) 0.001 Battery capacity 10 Ah Autonomy maximum: 3 x T Inactive Nber Battery cell 100 Nber Battery string 1 Battery pre -alarm 1 mn Battery temperature reference 20 °C Battery life time 1 year(s) Battery discharge system (Alpha 1) 0 Battery coefficient (K2) 0 Battery discharge system (Alpha 2) 0 2.6 TLS parameters list Call rule / Acquisition fault Forbidden Call rule / Battery end of autonomy Forbidden Call rule / Battery end of life Forbidden Call rule / Soft-Tunor Session in hand Forbidden Call rule / Normal operation Forbidden Call rule / Downgrad operation Forbidden Call rule / Dangerous operation Forbidden Call rule / Battery operation Forbidden Call rule / EPO Forbidden Call rule / SS operation Forbidden Call rule / UPS coupled Forbidden Protocol Modem None Telephone number NoT,IVoie1 Second telephone number Num,rosecoursl Site identification Idsitel Call mask / Call reset Forbidden Call mask / Second roll call Forbidden Call mask / Diagnosis activation Forbidden Call mask / Desactivation Diagnosis Forbidden Call mask / Fault reset Forbidden Printed by APC-MGE - Maint Version 12.5 - UPS /serial:: ND0946001703 W11 3 . UPS room visual check Installation manual present Yes Installation conditions respected Yes Type of room technical Satisfactory Type of ventilation air - conditioned Satisfactory UPS room temperature 20 °C Satisfactory Thermal losses of the UPS taken into account Satisfactory Maximal temperatures acceptable by the UPS and the Battery taken into account Satisfactory Customer reference - UPS room UPS 3 4 . Electrical environment 4.1 Controls to do Conformity of the earth connection Yes Protections accessible and marked Yes Cables AC Normal and AC Bypass separated Yes Protections AC Normal and AC Bypass separated Yes Conformity of the connections between UPS and Battery Yes Presence of a AC Bypass transfo No Presence of a genset Yes 4.2 Information about cables and protections 5 . UPS control and measurements 5.1 Equipment check Conformity of equipment delivred / equipment ordered Satisfactory 5.2 Visual check General and cleaning aspect of the equipment Satisfactory Presence of panels, skirts et cover Satisfactory Exterior aspect: cabinet damaged, scratched Satisfactory Inside aspect: sub - assemblies positioning Satisfactory Field Advisory Current Yes Field Modification Current Yes 5.3 Connections check Confirm the connections done on site Satisfactory Confirm the AC Bypass and AC Load cables (reversal !) Satisfactory Confirm the phase and neutral sense (ASI single phase only)! Confirm the remote information connections Satisfactory Visual check of the internal connections Satisfactory 5.4 Confirm the Charger Confirm the phases sense : AC Normal Satisfactory Confirm the correct functionning of the charger Satisfactory Agreement of the charger voltage: displayed / multimeter Satisfactory Agreement of the charger voltage with the Battery jars number Satisfactory 5.5 Confirm the Battery Confirm the Battery cabinet connection to earth Satisfactory Battery and charger +/- terminals matched Satisfactory 5.6 Confirm the Inverter Confirm the phases sense : AC Bypass Satisfactory AC Normal phases matched (case of UPS's in //) Satisfactory Confirm the correct functionning of the inverter Satisfactory Agreement of inverter voltage: displayed / multimer Satisfactory Coupling discoupling test and /or UPS's in // Satisfactory Printed by APC -MGE - Maint Version 12.5 - UPS/serial:: ND0946001703 9/11 5.7 UPS on Battery test Confirm the UPS on Battery (short autonomy) Satisfactory 5.8 Measurements Phase 1 Phase 2 Phase 3 AC Normal voltage 478 480 480 AC Normal frequency 60 AC ByPass voltage AC ByPass frequency AC Load voltage 480 480 480 AC Load frequency 60 AC Load rms current 0 0 0 AC Load crest current 0 0 0 Charger voltage 544 6 . Communication options check Communication cards 6739830SE - Media contacts 9 6739828SE - GTCZ (NT 12 mini) 6740925SE - GT2Z 6739836SE - Media contacts 15 Teleservice Teleservice installed : Communication options check 7 Environment and auxiliary cubicles Visual check of the cubicles Systems Options information : OK OK AC Normal and AC Bypass separated. Simplified Grounding system Rec.iJiw. 0----r-* Grounding Input configuration: - 480 V - 3w + G Neutral status: Grounding Output configuration: - WithN -G bond - 480V -3w +G Grounding Electroc Conductor presence: No 8 Visual check and Battery characteristics 8.1 Battery visual check Battery location UPS room Battery temperature ( °C) 20 °C Battery condition normal Battery insulation OK OK 8.2 Battery characteristics Number of 2 V Battery cells 240 Number of strings in parallel 4 Capacity of a new Battery block 0 Ah Printed by APC -MGE - Maint Version 12.5 - UPS/serial:: ND0946001703 10/11 Contractual backup time 0 mn Printed by APC -MGE - Maint Version 12.5 - UPSlsenal:: ND0946001703 11111 Schneider El ctric Critical Power and Cooling Services - Prepare Design{ ,Implemente Maintain-, Optimize ,,-sue .. Commissioning /Start-Up Report Site contact : Fransisco Site company : Internap Address : Seattle, , 98168 Date : 7/1/2010 M G E Scbsei ei Electric Printed by APC -MGE - Maint Version 12.5 - UPS/senal:: ND0942000973 1/11 Don't Settle for Second -Best Services Purchasing directly from Schneider Electric Critical Power and Cooling Services (CPCS) offers huge advantages Prep m Ao Maintain .i... Asssasmevt - Desinn'. \ ManaEweAY` Ltoieet Mana1ernemtl ( Pr ? tiSlls.• Ptann SrteCaordmauan ,' 11 integration • itp> ["Wo' .+ • �9 l � , if I - 'Senses, ; '„ Testing . [,:;;Imtaltatton [ Remote Monitoring l Disposal Start- 4Garidr i a +ra SrrapPactkedealPS wrung �EztendedWtuy Diagrams Training I rRauatyflailacsa>e Training Buying directly from Schneider Electric Critical Power and Cooling Services (CPCS) means work is performed by veteran factory- trained technicians (more than 1,500 worldwide) who know the systems better than anyone, have immediate access to the engineers who actually designed the systems, and are acquainted with all the latest firmware/ software upgrades. That translates to a faster mean time to repair, the assurance of factory- certified spares, faster delivery via the supply chain, guaranteed continuity of service, and peace of mind that work is performed right the first time. Unparalleled field service engineers use proven operational best practices and award - winning state -of- the -art software tools to design, implement, maintain, and optimise your environment quickly, accurately, and cost - effectively. Go with the service provider who has the experience, expertise, processes, and personnel to assist in planning, building, and operating any critical IT or industrial environment. With more than 40 years' experience optimising physical infrastructure deployments, CPCS possess a wealth of knowledge second to none. Close strategic alliance partnerships allow CPCS to stay ahead of the curve on emerging technology trends in order to ensure the highest level of availability and efficiency. Ailh. AIL Assessment: Site survey, engineering analysis, environmental inspection. customised report. ideal facility plan Desigr and Planning: Free online tools to plan and design tailor -made solutions 1BuiIL _ rte Project Management: Assistance in completing rollouts on time and within budget Site Coordination: Problem -free installation of equipment Testing: Configuration. functional verification, infrastructure integration Netwoi k Integration: Server migration, cable management, software integration. airflow analysis Installation: Equipment implementation and optimisation, physical assembly. logistics coordination (multiple levels of service) Start-ua and Commissioning:lnitial setup. installation verification Training: On -site equipment orientation, operational and maintenance education p@twat @h',, sto.,. _ .. Preventive Maintenance: Corrective maintenance. system cleaning, environmental inspection. functional verification. free firmware upgrades. consumables replacement On Site: Site -visit 4 -Hour. Next Day, Na,ri Business Day, Best Endeavor diagnosis, troubleshooting. and repair Remote Monitoring: 24x7 Web -based proactive monitoring. alarm notification Extended Warranty: Next business day replacement of parts Decom'nissioning: Environmentally responsible removal and disposal of retired equipment - Trade -UPS ®: As much as 35% off a brand -new UPS (up to twice the kVA) when trading n old UPS —no matter who made it or whether it even works Printed by APC -MGE - Maint Version 12.5 - UPS/senal:: ND0942000973 2/11 %,C Schneider M G E +Electric Commissioning /Start-Up Report Date :7/1/2010 Service District Filing number Job Number Contract number Type of contract Customer reference Customer company : Internap : 3355 South 120th Place Seattle, , 98168 Customer name : Fransisco Site company : Internap : 3355 S 120th Place Seattle, , 98168 Site contact : Fransisco Equipment concerned : EPS 8000A Date of Commissioning : 7/1/2010 Power : 750 kVA Serial number : ND0942000973 UPS number : 4 Number of units in parallel : 4 Equipment type : Parallel with static bypass module Customer premises ref. : UPS 4 Start up complete Customer signature APC -MGE signature Craig Kraft Printed by APC -MGE - Maint Version 12.5 - UPS/senal:: ND0942000973 3111 1 . Commissioning summary No installation diagram to print 1.1 Checks carried out UPS room visual check OK Electrical environment OK UPS control and measurements OK Communication options check OK UPS cleaning OK 1.2 Comments Customer APC -MGE 1.3 Verification of measurement devices Measurement device Identification number Last inspected Fluke 43B Fluke 87 11/30/09 09/09/09 Printed by APC -MGE - Maint Version 12.5 - UPS/serial:: NDD942000973 4/11 2 . Unit personalization 2.1 UPS parameters list Inverter nominal output current 902 A Active nominal power 675 KW Type of UPS Parallel with static bypass module UPS nominal power 800 KVA UPS nominal voltage 480 V Country code USA Automatic starting authorized Disable Auxiliary dry contact function No function Inverter type IGBT UPS output voltage 480 V ( +/- 3 %) UPS. nominal frequency 60 Hz Limitation mask 0 ms Phase.. regulation 1 Hz/s Number of automatic re- starting on limitation 3 Waiting durationn before reseting the re- starting counter 180 s Waiting durationn before re- starting 15 s AC Normal nominal voltage 480 V AC Normal voltage tolerance 15 % AC Normal voltage frequency 60 Hz Maximum DC voltage 630 V Genset limitation function Enable Gradual shutdown Enable Maxi power charger on Genset 800 KVA WAiting duration before automatic re- starting Present s Opening threshold (AHF contactor) 260 Closing threshold (AHF contactor) 288 Activation number of special functions 1 AC Normal interruption duration (charge cycle) 30 s AC Bypass rated frequency 60 Hz AC Bypass frequency tolerance 1 Hz AC Bypass rated voltage 480 V Frequency functionning Synchronous Transfer to AC Bypass Authorised Transfer with break Authorised K2S presence (US) Disable 2.2 Measurement list AC Normal voltage UA -B AC Normal voltage UB -C AC Normal voltage UC -A AC Normal current IA AC Normal current IB AC Normal current IC AC Normal frequency 1 UPS voltage UA -N UPS voltage UB -N UPS voltage UC -N UPS voltage UA -B UPS voltage UB -C UPS voltage UC -A UPS current IA UPS current IB UPS current IC UPS frequency Load voltage UA -N Load voltage UB -N Load voltage UC -N Load voltage UA -B Load voltage UB -C Load voltage UC -A Load current IA Load current IB 475 V 477 V 477 V 58 A 62 A 58 A 60 Hz 279 V 279 V 279 V 483 V 482 V 480 V 37 A 28 A 39 A 60 Hz 280 V 279 V 277 V 484 V 482 V 481 V 37 A 34 A Printed by APC -MGE - Maint Version 12 5 - UPS/serial ND0942000973 5/11 Load current IC % of the load charge Load crest current IA Load crest current IB Load crest current IC of the crest load IA charge % of the crest load IB charge % of the crest load IC charge Load frequency Inverter current IA Inverter current IB Inverter current IC % of inverter charge IA inverter crest current IB inverter crest current IC inverter crest current % of IA crest inverter charge of IB crest inverter charge % of IC crest inverter charge AC Bypass voltage UA -N AC Bypass voltage UB -N AC Bypass voltage UC -N AC Bypass voltage UA -B AC Bypass voltage UB -C AC Bypass voltage UC -A AC Bypass current IA AC Bypass current IB AC Bypass current IC AC Bypass frequency Load active power P1 Load active power P2 Load active power P3 Total load active power % of inverter charge Load apparent power P1 Load apparent power P2 Load apparent power P3 Total load apparent power Load power factor Battery current Battery voltage Battery temperature Battery autonomy % of Battery charge Battrey life time remaining Nominal Battery voltage 39 A 4% 155 A 144 A 240 A 418 % 450 % 400 % 60 Hz 169 A 186 A 169 A 19% 446 A 476 A 394 A 27.3 % 24.1 % 23.9 % 279 V 279 V 277 V 484 V 481 V 480 V OA OA OA 0 Hz OW 1W 1W 2W 0% 10 VA 8 VA 10 VA 28 VA 0.03 38 A 542 V 0 °C 0 Min 0% 0 Days 227 V 2.3 Statust list Battery circuit breaker QF1 1 Battery discharge operation 0 End of Battery autonomie reached 0 End of autonomy voltage pre -alarm 0 Battery recharge operation in progress 0 Mains Interruptor Q1 1 Gradual stop charger activated 0 Battery equalization operation in progress 0 Charger end of ramp 1 AHF contactor closing commad 0 UPS ready 1 K2S status 0 K3N status 1 Q4S status 0 Q3BP status 0 Q5N status 1 SS AC Bypass command status 0 Printed by APC-MGE - Maint Version 12.5 - UPS/serial:: ND0942000973 6/11 2.4 Alarms list Battery temperature out of tolerance 0 AC Normal out of tolerance 0 Battery room ventilation or FAH fault 0 Major charger fault 0 Auto - transfo(US) temperature fault 0 Battery earth fault (US) 1 AC Normal fuse blown 0 Board supply fault 0 Charger temperature fault (vigitherm) 0 EPO 0 AC Normal voltage out of tolerance 0 AC Normal frequency out of tolerance 0 Maxi over Battery recharge current 0 Maxi over Battery recharge voltage 0 Maxi over DC voltage 0 Input charger power limitation on Genset in progress 0 Inverter overload 0 lnvertre major fault 0 Inverter overload 0 Limitation with mask in progress 0 Inverter limitation detected 0 Inverter current thermal overload 0 Inverter voltage out of tolerance, slow control 0 Inverter voltage out of tolerance, speed control 0 Inverter frequency /I reactive.out of limit 0 EPO 0 Board supply fault 0 Invertre fuse blown 0 Vigitherm transfo fault 0 Inverter fuse blown 1 0 Inverter fuse blown 2 0 Inverter fuse blown 3 0 Inverter current fault 0 Inverter leg 1 fault 0 Inverter leg 2 fault 0 Inverter leg 3 fault 0 Inverter leg 4 fault 0 Inverter leg 5 fault 0 Inverter leg 6 fault 0 Vigitherm leg 1 fault 0 Vigitherm leg 2 fault 0 Vigitherm leg 3 fault 0 Vigitherm leg 4 fault 0 Vigitherm leg 5 fault 0 Vigitherm leg 6 fault 0 Forced stop on external contact 0 Reversal frequency on external contact 0 Protected inverter stop on external contact 0 Coupling fault 0 Ventilation fault 0 SS supply fault 0 UPS coupled 1 Coupling fault 0 Phase fault 0 AC Bypass out of toelrance 0 Inverter relay fault 0 AC Bypass frequency fault 0 AC Bypass voltage fault 0 AC Bypass overload 0 AC Bypass thermal overload 0 Inverter thermal overload 0 SS vigitherm fault 0 Printed by APC-MGE - Maint Version 12.5 - UPS/serial:: ND0942000973 7/11 2.5 Battery parameters list Minimum Battery voltage 401 V Maximum Battery voltage 565 V Battery temperature sensor Absent Battery absence / Presence Present Type of Battery Sealed lead Battery charge voltage 545 V Battery floating voltage 545 V Battery equalization voltage 545 V Max current of Battery recharge (limitation) 150 A Max current of Battery recharge (protection) 180 A Max current of Battery recharge activated by dry contact 150 A Function: auxiliary I Battery limitation Disable Prealarm of end of autonomy voltage 420 V Nominal autonomy Battery time 10 Mn Battery recharge duration 24 H Mini temperature of the Battery 0 °C Maxi temperature of the Battery 40 °C Deep discharge of the Battery Active control Autonomy processing by GTCZ absente or Battery monitoring not validated Battery autonomy prediction No calculation Battery cell voltage at no load 1 V Resistance of a Battery cell 0.1 m Ohm Battery coefficient (K1) 0 Capacity variation coefficient (K) 0.001 Battery capacity 10 Ah Autonomy maximum: 3 x T Inactive Nber Battery cell 100 Nber Battery string 1 Battery pre -alarm 1 mn Battery temperature reference 20 °C Battery life time 1 year(s) Battery discharge system (Alpha 1) 0 Battery coefficient (K2) 0 Battery discharge system (Alpha 2) 0 2.6 TLS parameters list Call rule / Acquisition fault Forbidden Call rule / Battery end of autonomy Forbidden Call rule / Battery end of life Forbidden Call rule / Soft -Tunor Session in hand Forbidden Call rule / Normal operation Forbidden Call rule / Downgrad operation Forbidden Call rule / Dangerous operation Forbidden Call rule / Battery operation Forbidden Call rule / EPO Forbidden Call rule / SS operation Forbidden Call rule / UPS coupled Forbidden Protocol Modem None Telephone number NoT,IVoie1 Second telephone number Num,rosecoursl Site identification Idsitel Call mask / Call reset Forbidden Call mask / Second roll call Forbidden Call mask / Diagnosis activation Forbidden Call mask / Desactivation Diagnosis Forbidden Call mask / Fault reset Forbidden Pnnted by APC -MGE - Moult Version 12.5 - UPS/senal:: ND0942000973 8/11 3 . UPS room visual check Installation manual present Yes Installation conditions respected Yes Type of room technical Satisfactory Type of ventilation air - conditioned Satisfactory UPS room temperature 20 °C Satisfactory Thermal losses of the UPS taken into account Satisfactory Maximal temperatures acceptable by the UPS and the Battery taken into account Satisfactory Customer reference - UPS room UPS 4 4 . Electrical environment 4.1 Controls to do Conformity of the earth connection Yes Protections accessible and marked Yes Cables AC Normal and AC Bypass separated Yes Protections AC Normal and AC Bypass separated Yes Conformity of the connections between UPS and Battery Yes Presence of a AC Bypass transfo No Presence of a genset Yes 4.2 Information about cables and protections 5 . UPS control and measurements 5.1 Equipment check Conformity of equipment delivred / equipment ordered Satisfactory 5.2 Visual check General and cleaning aspect of the equipment Satisfactory Presence of panels, skirts et cover Satisfactory Exterior aspect: cabinet damaged, scratched Satisfactory Inside aspect: sub - assemblies positioning Satisfactory Field Advisory Current Yes Field Modification Current Yes 5.3 Connections check Confirm the connections done on site Satisfactory Confirm the AC Bypass and AC Load cables (reversal !) Satisfactory Confirm the phase and neutral sense (ASI single phase only)! Confirm the remote information connections Satisfactory Visual check of the internal connections Satisfactory 5.4 Confirm the Charger Confirm the phases sense : AC Normal Satisfactory Confirm the correct functionning of the charger Satisfactory Agreement of the charger voltage: displayed / multimeter Satisfactory Agreement of the charger voltage with the Battery jars number Satisfactory 5.5 Confirm the Battery Confirm the Battery cabinet connection to earth Satisfactory Battery and charger +/- terminals matched Satisfactory 5.6 Confirm the Inverter Confirm the phases sense : AC Bypass Satisfactory AC Normal phases matched (case of UPS's in //) Satisfactory Confirm the correct functionning of the inverter Satisfactory Agreement of inverter voltage: displayed / multimer Satisfactory Coupling discoupling test and /or UPS's in // Satisfactory Printed by APC -MGE - Maint Version 12.5 - UPS/senal:: ND0942000973 9/11 5.7 UPS on Battery test Confirm the UPS on Battery (short autonomy) Satisfactory 5.8 Measurements Phase 1 Phase 2 Phase 3 AC Normal voltage 480 479 479 AC Normal frequency 60 AC ByPass voltage AC ByPass frequency AC Load voltage 480 479 479 AC Load frequency 60 AC Load rms current 0 0 0 AC Load crest current 0 0 0 Charger voltage 543 6 . Communication options check Communication cards 6739830SE - Media contacts 9 6739828SE - GTCZ (NT 12 mini) 6740925SE - GT2Z 6739836SE - Media contacts 15 Teleservice Teleservice installed : Communication options check OK 7 Environment and auxiliary cubicles Visual check of the cubicles Systems Options information : OK AC Normal and AC Bypass separated. Simplified Grounding system Rec. I Inv' Grounding Input configuration: - 480 V - 3w + G Neutral status: Grounding Output configuration: - With N -G bond - 480 V - 3w + G Grounding Electroc Conductor presence: No 8 Visual check and Battery characteristics 8.1 Battery visual check Battery location UPS room Battery temperature ( °C) 20 °C Battery condition normal Battery insulation OK OK 8.2 Battery characteristics Number of 2 V Battery cells 240 Number of strings in parallel 4 Capacity of a new Battery block 0 Ah Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0942000973 10/11 Contractual backup time 0 mn Printed by APC-MGE - Main! Version 12.5 - UPSlsenal:: ND0942000973 11/11 Schneider Electric Critical Po er and Cooling Services BUILD OPE =RATE cquire�� Im Optimize Commissioning /Start-Up Report Site contact : FransiscD Site company : Internap Address : Seattle, , 98168 Date : 7/1/2010 M G E o er ,Electric Printed by APC -MGE - Maint Version 12.5 - UPSisenal:: ND0942000974 1/11 Don't Settle for Second -Best Services Purchasing directly from Schneider Electric Critical Power and Cooling Services (CPCS) offers huge advantages ,„oRrepare r, LAscassmant 1w . Design .. •- .Ptanngig `_v Buying directly from Schneider Electric Critical Power and Cooling Services (CPCS) means work is performed by veteran factory- trained technicians (more than 1,500 worldwide) who know the systems better than anyone, have immediate access to the engineers who actually designed the systems, and are acquainted with all the latest firmware/ • software upgrades. That translates to a faster mean time to repair, the assurance of factory- certified spares, faster delivery via the supply chain, guaranteed continuity of service, and peace of mind that work is performed right the first time. Unparalleled field service engineers use proven operational best practices and award - winning state -of- the -art software tools to design, implement, maintain, and optimise your environment quickly, accurately, and cost - effectively. Go with the service provider who has the experience, expertise, processes, and personnel to assist in planning, building, and operating any critical IT or industrial environment. With more than 40 years' experience optimising physical infrastructure deployments, CPCS possess a wealth of knowledge second to none. Close strategic alliance partnerships allow CPCS to stay ahead of the curve on emerging technology trends in order to ensure the highest level of availability and efficiency. Implement Maintal r ,t7ptimise Peoteitl'Aanad l eject Mana+temint [SiteCooNirtatma IT•-Integratn Testirrg Insialtadoe Srert•Up and otnnissionin Training train t, W :Serwoe ROmotaMonitoringq Daposal vat , ExtendedWarerany LSwap o Trada- S Pr bat ty Ra}ifacamfira Assessment: Site survey, engineering analysis, environmental inspection. customised report, deal facility plan Design and Planning: Free online tools to plan and design tailor -made solutions ;Build.. Project Management: Assistance in completing rollouts on time and within budget Site Ccordination: Problem -free installation of equipment Testing: Configuration, functional verification. infrastructure integration Network Integration: Server migration, cable management. software integration, airflow analysis Installation: Equipment implementation and optimisation. physical assembly, logistics coordination (multiple levels of service) Start-up and Commissioning:Initial setup, installation verification Training: On -site equipment orientation, operational and maintenance education Preventive Maintenance: Corrective maintenance. system cleaning. environmental inspection. functional verification_ free firmware upgrades_ consumables replacement On Site: Site -visit 4 -Hour. Next Day. Next Business Day, Best Endeavor diagnosis. troubleshooting, and repair Remote Monitoring: 24x7 Web-based proactive monitoring, alarm notification Extended Warranty: Next business day replacement of parts Decommissioning: Environmentally responsible removal and disposal of retired equipment Trade -UPS ®: As much as 35% off a brand -new UPS (up to twice the kVA) when trading in old UPS —no matter wno made it or whether it even works Printed by APC -MGE - Maint Version 12.5 - UPS /sent:: ND0942000974 2/11 AePC Schneider M G E OElectric Commissioning /Start-Up Report Date :7/1/2010 Service District Filing number Job Number Contract number Type of contract Customer reference Customer company Customer name : Internap : 3355 South 120th Place Seattle, , 98168 : Fransisco Site company : Internap : 3355 S 120th Place Seattle, , 98168 Site contact : Fransisco Equipment concerned : EPS 8000A Date of Commissioning : 7/1/2010 Power : 750 kVA Serial number : ND0942000974 UPS number : 1 Number of units in parallel : 4 Equipment type : Parallel with static bypass module Customer premises ref. : UPS 1 Start up complete Customer signature APC -MGE signature Craig Kraft Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0942000974 3/11 1 . Commissioning summary No installation diagram to print 1.1 Checks carried out UPS room visual check OK Electrical environment OK UPS control and measurements OK Communication options check OK UPS cleaning OK 1.2 Comments Customer APC -MGE 1.3 Verification of measurement devices Measurement device Identification number Last inspected Fluke 43B Fluke 87 11/30/09 09/09/09 Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: NO0942000974 4/11 2 . Unit personalization 2.1 UPS parameters list Inverter nominal output current 902 A Active nominal power 675 KW Type of UPS Parallel with static bypass module UPS nominal power 800 KVA UPS nominal voltage 480 V Country code USA Automatic starting authorized Disable Auxiliary dry contact function No function Inverter type IGBT UPS output voltage 480 V ( +1- 3 %) UPS nominal frequency 60 Hz Limitation mask 0 ms Phase regulation 1 Hz/s Number of automatic re- starting on limitation 3 Waiting durationn before reseting the re- starting counter 180 s Waiting durationn before re- starting 15 s AC Normal nominal voltage 480 V AC Normal voltage tolerance 15 % AC Normal voltage frequency 60 Hz Maximum DC voltage 630 V Genset limitation function • Enable Gradual shutdown Enable Maxi power charger on Genset 800 KVA WAiting duration before automatic re- starting Present s Opening threshold (AHF contactor) 260 Closing threshold (AHF contactor) 288 Activation number of special functions 1 AC Normal interruption duration (charge cycle) 30 s AC Bypass rated frequency 60 Hz AC Bypass frequency tolerance 1 Hz AC Bypass rated voltage 480 V Frequency functionning Synchronous Transfer to AC Bypass Authorised Transfer with break Authorised K2S presence (US) Disable 2.2 Measurement list AC Normal voltage UA -B AC Normal voltage UB -C AC Normal voltage UC -A AC Normal current IA AC Normal current IB AC Normal current IC AC Normal frequency 1 UPS voltage UA -N UPS voltage UB -N UPS voltage UC -N UPS voltage UA -B UPS voltage UB -C UPS voltage UC -A UPS current IA UPS current IB UPS current IC UPS frequency Load voltage UA -N Load voltage UB -N Load voltage UC -N Load voltage UA -B Load voltage UB -C Load voltage UC -A Load current IA Load current IB 478 V 481 V 475 V 62 A 65 A 64 A 60 Hz 279 V 280 V 280 V 485 V 483 V 483 V 38 A 41 A 36 A 60 Hz 279 V 280 V 279 V 485 V 483 V 481 V 34 A 37 A Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0942000974 5/11 Load current IC of the load charge Load crest current IA Load crest current IB Load crest current IC of the crest load IA charge % of the crest load IB charge % of the crest load IC charge Load frequency Inverter current IA Inverter current IB Inverter current IC % of inverter charge IA inverter crest current IB inverter crest current IC inverter crest current % of IA crest inverter charge % of IB crest inverter charge % of IC crest inverter charge AC Bypass voltage UA -N AC Bypass voltage UB -N AC Bypass voltage UC -N AC Bypass voltage UA -B AC Bypass voltage UB -C AC Bypass voltage UC -A AC Bypass current IA AC Bypass current IB AC Bypass current IC AC Bypass frequency Load active power P1 Load active power P2 Load active power P3 Total load active power % of inverter charge Load apparent power P1 Load apparent power P2 Load apparent power P3 Total load apparent power Load power factor Battery current Battery voltage Battery temperature Battery autonomy of Battery charge Battrey life time remaining Nominal Battery voltage 39 A 4% 116 A 183 A 121 A 412 % 387 % 475 % 60 Hz 173 A 182 A 167 A 20 % 428 A 401 A 510 A 25.5 % 24% 29.8 % 279 V 280 V 280 V 485 V 484 V 481 V OA OA OA 0 Hz OW 2W 1W 3W 0% 10 VA 9 VA 10 VA 30 VA 0.13 OA 545V 0 °C 0 Min 0% 0 Days 227 V 2.3 Statust list Battery circuit breaker QF1 1 Battery discharge operation 0 End of Battery autonomie reached 0 End of autonomy voltage pre -alarm 0 Battery recharge operation in progress 0 Mains Interruptor Q1 1 Gradual stop charger activated 0 Battery equalization operation in progress 0 Charger end of ramp 1 AHF contactor closing commad 0 UPS ready 1 K2S status 0 K3N status 1 Q4S status 0 Q3BP status 0 Q5N status 1 SS AC Bypass command status 0 Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0942000974 6/11 2.4 Alarms list Battery temperature out of tolerance 0 AC Normal out of tolerance 0 Battery room ventilation or FAH fault 0 Major charger fault 0 Auto - transfo(US) temperature fault 0 Battery earth fault (US) 1 AC Normal fuse blown 0 Board supply fault 0 Charger temperature fault (vigitherm) 0 EPO 0 AC Normal voltage out of tolerance 0 AC Normal frequency out of tolerance 0 Maxi over Battery recharge current 0 Maxi over Battery recharge voltage 0 Maxi over DC voltage 0 Input charger power limitation on Genset in progress 0 Inverter overload 0 Invertre major fault 0 Inverter overload 0 Limitation with mask in progress 0 Inverter limitation detected 0 Inverter current thermal overload 0 Inverter voltage out of tolerance, slow control 0 Inverter voltage out of tolerance, speed control 0 Inverter frequency /I reactive out of limit 0 EPO 0 Board supply fault 0 Invertre fuse blown 0 Vigitherm transfo fault 0 Inverter fuse blown 1 0 Inverter fuse blown 2 0 Inverter fuse blown 3 0 Inverter current fault 0 Inverter leg 1 fault 0 Inverter leg 2 fault 0 Inverter leg 3 fault 0 Inverter leg 4 fault 0 Inverter leg 5 fault 0 Inverter leg 6 fault 0 Vigitherm leg 1 fault 0 Vigitherm leg 2 fault 0 Vigitherm leg 3 fault 0 Vigitherm leg 4 fault 0 Vigitherm leg 5 fault 0 Vigitherm leg 6 fault 0 Forced stop on external contact 0 Reversal frequency on external contact 0 Protected inverter stop on external contact 0 Coupling fault 0 Ventilation fault 0 SS supply fault 0 UPS coupled 1 Coupling fault 0 Phase fault 0 AC Bypass out of toelrance 0 Inverter relay fault 0 AC Bypass frequency fault 0 AC Bypass voltage fault 0 AC Bypass overload 0 AC Bypass thermal overload 0 Inverter thermal overload 0 SS vigitherm fault 0 Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0942000974 7/11 2.5 Battery parameters list Minimum Battery voltage 401 V Maximum Battery voltage 565 V Battery temperature sensor Absent Battery absence / Presence Present Type of Battery Sealed lead Battery charge voltage 545 V Battery floating voltage 545 V Battery equalization voltage 545 V Max current of Battery recharge (limitation) 150 A Max current of Battery recharge (protection) 180 A Max current of Battery recharge activated by dry contact 150 A Function: auxiliary I Battery limitation Disable Prealarm of end of autonomy voltage 420 V Nominal autonomy Battery time 10 Mn Battery recharge duration 24 H Mini temperature of the Battery 0 °C Maxi temperature of the Battery 40 °C Deep discharge of the Battery Active control Autonomy processing by GTCZ absente or Battery monitoring not validated Battery autonomy prediction No calculation Battery cell voltage at no load 1 V Resistance of a Battery cell 0.1 m Ohm Battery coefficient (K1) 0 Capacity variation coefficient (K) 0.001 Battery capacity 10 Ah Autonomy maximum: 3 x T Inactive Nber Battery cell 100. Nber Battery string 1 Battery pre -alarm 1 mn Battery temperature reference 20 °C Battery life time 1 year(s) Battery discharge system (Alpha 1) 0 Battery coefficient (K2) 0 Battery discharge system (Alpha 2) 0 2.6 TLS parameters list Call rule / Acquisition fault Forbidden Call rule / Battery end of autonomy Forbidden Call rule / Battery end of life Forbidden Call rule / Soft -Tunor Session in hand Forbidden Call rule / Normal operation Forbidden Call rule / Downgrad operation Forbidden Call rule / Dangerous operation Forbidden Call rule / Battery operation Forbidden Call rule / EPO Forbidden Call rule / SS operation Forbidden Call rule / UPS coupled Forbidden Protocol Modem None Telephone number NoT,IVoie1 Second telephone number Num,rosecoursl Site identification Idsitel Call mask / Call reset Forbidden Call mask / Second roll call Forbidden Call mask / Diagnosis activation Forbidden Call mask / Desactivation Diagnosis Forbidden Call mask / Fault reset Forbidden Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0942000974 8/11 3 . UPS room visual check Installation manual present Yes Installation conditions respected Yes Type of room technical Satisfactory Type of ventilation air - conditioned Satisfactory UPS room temperature 20 °C Satisfactory Thermal losses of the UPS taken into account Satisfactory Maximal temperatures acceptable by the UPS and the Battery taken into account Satisfactory Customer reference - UPS room UPS 1 4 . Electrical environment 4.1 Controls to do Conformity of the earth connection Yes Protections accessible and marked Yes Cables AC Normal and AC Bypass separated Yes Protections AC Normal and AC Bypass separated Yes Conformity of the connections between UPS and Battery Yes Presence of a AC Bypass transfo No Presence of a genset Yes 4.2 Information about cables and protections 5 . UPS control and measurements 5.1 Equipment check Conformity of equipment delivred / equipment ordered Satisfactory 5.2 Visual check General and cleaning aspect of the equipment Satisfactory Presence of panels, skirts et cover Satisfactory Exterior aspect: cabinet damaged, scratched Satisfactory Inside aspect: sub - assemblies positioning Satisfactory Field Advisory Current Yes Field Modification Current Yes 5.3 Connections check Confirm the connections done on site Optimal Confirm the AC Bypass and AC Load cables (reversal !) Optimal Confirm the phase and neutral sense (ASI single phase only)! Confirm the remote information connections Optimal Visual check of the internal connections Optimal 5.4 Confirm the Charger Confirm the phases sense : AC Normal Optimal Confirm the correct functionning of the charger Optimal Agreement of the charger voltage: displayed / multimeter Optimal Agreement of the charger voltage with the Battery jars number Optimal 5.5 Confirm the Battery Confirm the Battery cabinet connection to earth Optimal Battery and charger +/- terminals matched Optimal 5.6 Confirm the Inverter Confirm the phases sense : AC Bypass Optimal AC Normal phases matched (case of UPS's in //) Optimal Confirm the correct functionninq of the inverter Optimal Agreement of inverter voltage: displayed / multimer Optimal Coupling discoupling test and /or UPS's in // Optimal Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0942000974 9/11 5.7 UPS on Battery test Confirm the UPS on Battery (short autonomy) Optimal 5.8 Measurements Phase 1 Phase 2 Phase 3 AC Normal voltage 478 480 480 AC Normal frequency 60 AC ByPass voltage 478 479 479 AC ByPass frequency 60 AC Load voltage 480 480 480 AC Load frequency 60 AC Load rms current 0 0 0 AC Load crest current 0 0 0 Charger voltage 545 6 . Communication options check Communication cards 6739830SE - Media contacts 9 6739828SE - GTCZ (NT 12 mini) 6740925SE - GT2Z 6739836SE - Media contacts 15 Teleservice Teleservice installed : Communication options check 7 Environment and auxiliary cubicles Visual check of the cubicles Systems Options information : OK OK AC Normal and AC Bypass separated. Simplified Grounding system Grounding Input configuration: - 480 V - 3w + G Rea::! °Inv. -rE Neutra status: Grounding Output configuration: - With N -G bond - 480 V - 3w + G Grounding Electroc Conductor presence: No 8 Visual check and Battery characteristics 8.1 Battery visual check Battery location UPS room Battery temperature ( °C) 20 °C Battery condition normal Battery insulation OK OK 8.2 Battery characteristics Number of 2 V Battery cells 240 Number of strings in parallel 4 Capacity of a new Battery block 0 Ah Printed by APC -MGE - Maint Version 12.5 - UPS/serial:: ND0942000974 10/11 Contractual backup time 0 mn Printed by APC -MGE - Maint Version 12.5 - UPS /serial:: ND0942000974 11/11 1, LEE TECHNOLOGIES' LEVEL CHECKLIST Sectloris0l Procedure Title: INT- TUK -WA -COMMISSIONING - PDI -PDU :P,ocp du,e :; - } i lnfPrq,,j,tiori-%., Submittal Date: 18 May 10 Procedure Work Date: 03 Jul 10 Procedure work Time Frame: 0800 -1700 Customer Name: Intemap Customers Solomon Project Code: Address: Street Address: 3355 South 120th Place City: State. Zip: Tukwila WA 98168 J Customer POC: Customer POC Name: Kathy Mclnvale - Phone Numbers: O/fice: 404.302.9753 Mobile: 404.547.8915 Lee Technologies Commissioning Supervisor: Herbert Burnett Phone Numbers: Phone Number. 703- 968 -0300 Mobile: 713.423.4335 Pager. *y:Ski:ion:.o2 ::. �`P,roc®il'ure.°Jv rvievi... Equipment PDI PDU CX Procedure 3A2 Affected Area: Data Center Systems Affected: Load Distribution Equipment Information: Manufacturer. PDI Equipment Type: PDU Model #: PP13 -WS- 300 -G -641 Serial #: 110 - 2679 -11 Procedure Overview: This testing will verify the operation of the PDU. Anticipated Results: The PDU will operate as per design. • Pre Procedure Requirements: Manufacturer's startup completed on the module. Air conditioning system is functional and capable of supporting the heat load generated by the PDU module. Ensure that all test equipment that is required is onsite and operational. Load banks will be hooked up and ready for testing. Conduct a point to point test to verify correct wiring. Boundaries are placed around the PDU. The Power Quality Meter is set up and ready to record. ,;:Section 03`" ?,; Detailed Procedure Detailed Procedure: Complete 1. Record start date: 03 Jul 10 Record start time:7:20 2. Document that vendor start up has been performed. 3. Perform a visual of the PDU to ensure that there is no external damage to the PDU. 4. Check that the PDU is level and stable with all stabilizers flush to the floor. 5. Close the feeder breaker to the PDU. 6. Ensure that all PDU load breakers are in the OPEN position. 7. Close the input main circuit breaker inside the PDU. 8. Press the monitor on button. Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 .:11 LEE TECHNOLOGIES" LEVEL 4 CHECKLIST Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 Input V Output V Output Amps A , � �Su :mot t b .� � �, � is � ,-.� � DVM 116 LCD 117 614 B +� ?fit " },y o t °, , +r'y mti {4' ' 1� f A DVM 117 LCD 117 621 C n� r "'' ^ s 5, DVM 117 LCD 118 629 AB DVM LCD 477 DVM 202 LCD 202 '' ' ,ir, - i,... r: i±, ^1tr,% ' BC DVM LCD 478 DVM 203 LCD 203 KW 219 CA DVM LCD 474 DVM 202 LCD 202 KVA 219 8.1. Apply control power to the load bank. 8.2. Apply 100% load to the PDU. KW:225 X 8.3. Start a 4 hour bum test of the PDU. . 8.4. Monitor temperature in the surrounding area. . 8.5. PDU BURN SHEET. • Time -Output Volts (L-N) Output Amps KW •' T . 00:00 " A 117 B 117 C 118 A 614 B 621 C 629 219 00:1! • A 117 B 117 C 118 A 610 B 617 C 625 216 00:30 • 118 1118 C 118 610 6117 625 C 217 00 :45 117 1117 118 613 621 628 219 1Hr, 117 1117 118 615 624 630 221 2Hr. A 117 B 118 C 118 A 615 B 624 C 630 221 . •,,-.1 _ .3H ' A 117 B 117 C 118 A 614 B 621 C 628 219 .4Hr . A 117 B 117 C 118 A 614 B 621 C 629 219 8.6. Shut down all load on the load bank. ., 8.7. Allow the load bank to run with no load for 5 minutes for cool down purposes. 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. 8.9. Verify that all power was removed from the load bank. . Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 L� LEE TECHNOLOGIES' LEVEL 4 CHECKLIST 8.10. Reset the tripped input breaker at the PDU. 8.11. OPEN the feeder breaker to the PDU. 8.12. Check that the PDU cabinet is not - energized and safe to work in. 8.13. Secure from the load banking. Section 0 '" Comments 8.2 225 KW was applied due to the current limitations of the load bank at 208 volts. Conducted an IR scan after two hours and at the end of the four hour load bank test. No hot spots were found. tSection os':: ;'`- :z ; "s FroCgadielly.iifiess:8. :} Lee Technologies Group has witnessed or parti . sated in this procedure and attests to the accuracy and completeness of this 9 P P P Y P report. Printed Name: S'. "*J = 1 Date: Herb Burnett _�� A'L�Afj��,: �J� 03 July 10 Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 VOLTAGE TIMEPLOTS Site: INAP PDU 3A2 Measured from 07/03/2010 08:56:30.0 to 07/03/2010 11:23:30.0 230 — 220 g 210 200 190 L 230 –• 220 – T — A B Vrms L g 210 — 200 190 230 220 –w g 210 200 190 r — B-C Vrms L r — C-A Vrms IIIIIIIIIIIIIIIIIIIIIIIIIIIII 0900 09:15 09:30 09:45 1000 10:15 10:30 10:45 11:00 11:15 07/0312010 Saturday Cowed wth anNex 811.1 WORST CASE SUMMARY Site: INAP PDU 3A2 Measured from 07/03/2010 08:56:30.0 to 07/03/2010 11:23:30.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATEITIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE/TIME WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3A2 Measured from 07/03/2010 08:56:30.0 to 07/03/2010 11:23:30.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A2 Measured from 07/03/2010 08:56:30.0 to 07/03/2010 11:23:30.0 VOLTAGE Volts 3.175 3.150 3.125 3.100 3.075 3.050 3.025 Volts 3.0 25 2.0 1.5 1.0 0.5 0.0 1 i 1 I t I I I I 1 I I 1 I I I I I I I I I I 1 0900 09:15 0930 09 45 1000 10:15 1030 10:45 11130 1115 07/032010 Saturday — A-B VTHORss (avg ) Coalrl wit■DanVior 68.1 I 10..1. -.i. '..1 1 ._, t 7 .4: 4 ■ •: – 1 ,, 1 l''! ., .1-1 s .. .... _ I ___ ... __ _ _ OS _ en —, _ GU . kil ___ ..... — I THD H10 H20 1=1 A-B VHarrn H30 Total RMS: 117.78 V DC Level: 0.00V Fundamental( H1) RMS: 0.00V Total Harmdnic DistortionTHD: 3.19 V (Even: 0.19V, Odd 3.19V) C gaud witql)pnVI. Sal 1-140 H50 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A2 Measured from 07/03/2010 08:56:30.0 to 07/03/2010 11:23:30.0 CURRENT Amps 19— 18 -4 17 — 16 0 0 1 0 Ca 15-, 14 an. 0 Amps 20.0 175 15D 12.5 10.0 75 5.0 2.5 00 r THD I I 09110 07/03x2010 Saturday r r I r r I r I r I I r 0915 0930 09 45 1000 10:15 — A ITHDRss (axg) CoM*62mVir 63.1 1030 10:45 11110 r I r 1115 f' g a c, ,L [r E I; 17,4 11, ) Di ff. ' ►! fi4 141IcaIiir „i� H10 H2O @:axrr5t A !Harm H30 Total RMS: 605E2 A DC level: 359A Fundamental(H1) RMS: 60453A Total Harmonic Distortion THD: 19.18A (Ben: 11.63 q Odd: 15.2) A) C waled *62mVir 62.1 H40 H50 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A2 Measured from 07/03/2010 08:56:30.0 to 07/03/2010 11:23:30.0 VOLTAGE Volts 3A25 3.400 3.375 3.350 3325 3300 Volts 35 3D 25 2.0 15 1.0 05 OD 1 0 ' 09130 07103'2010 Saturday � I 09:15 0930 09 45 I I 1000 1015 - B-C VTHDRss (aug) soma! .ithD an Vi.. 66! 1030 10 45 1100 1115 M I THD U 1 1 1 1 1 1 1 1 1 1 H10 H2O H30 1140 B-C VHarm Total RMS: 11803V DC level: 0.00V Funthn ental(H1) RMS: 0.00V Total Hamonic Distortion THD: 3.43V(Even 0.12V, Odd 3.42V) C.aMw4110 .Vla. 61.1 H50 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A2 Measured from 07/03/2010 08:56:30.0 to 07/03/2010 11:23:30.0 CURRENT Am Ps 102 10.1 10.0 9.9— 9$ 7 Am Ps 1013 — 7.5 5.0 2.5 0.0 r I THD I I I r I I r 1 r I 1 r r 1 r r I I r I r I I i 09130 09:15 0930 09:45 1000 10:15 1030 10.45 1100 1t15 07103+2010 Saturday — B ITHDRss (avg) Caddis...randier 6.8.1 rai rai I.w rn 1 L]191 12 L0 Ii [0. M% cn am 6.+ tdd ma En m IA am rs an cm e. Rl __gi H 0 1120 L _sb I B (Harm H30 Total RMS: 61683 A DC Level: 5.96 A Fundamental(H1) RMS: 61654A Total Hamnnic Distortion THD: 1022 A (Elan: 149 A, Odd: 1Q 11 A) Coaled wnlDmYid. 66.t H40 H50 PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3A2 Measured from 07/03/2010 08:56:30.0 to 07/03/2010 11:23:30.0 VOLTAGE Volts 3.35 330 325 320 Volts 3.5 3A 2.5 2.0 1.5 1.0 0.5 0.0 I I THD 9 t I 1 I I I r r I I I I I I I I I r I I I I r I I I 09D0 07/0332010 Saturday 09:15 0930 09 45 10,0 10:15 1030 - C A VTHDRss (avg) C psf with mK ay 681 1045 11DO 1115 .-e. 171 r«4i .., ra...IF61 1w._ t�I WPM H10 H2O C -A VHarm H30 Total RMS: 117.74 V DC level: 0.00V Frmd3nental(H1) RMS: OMV Total Hamitic DistortionTHD: 3.39V (Ewa 0.12V, Odd 3.38V) Cn dwit$DmV. «66.1 H40 H50 PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3A2 Measured from 07/03/2010 08:56:30.0 to 07/03/2010 11:23:30.0 CURRENT Am Ps 22 21 20 19 18 17 ► 09110 07/032010 Saturday r ► ► 1 ► ► r ► 1 r r ► r 1 ► ► 1 r r ► ► ► 0915 0930 09:45 101:10 1015 1030 - C rrHDRss (mg) CrMM16D- '-66.1 10:45 1100 11 15 15 10 0- 1 I THD H10 1 1 H2O H30 H40 H50 ME C IHarm Total RMS: 60581 A DC Level: 3.82 A Fundamental( H1) RMS: 6033 A Total Hanronic DistortionTHD: 21.73A(Even: 13.55A Odd: 16.93 A) %1111 LEE TECHNOLOGIES' LEVEL 4 CHECKLIST iSec4ion:5�L-i: - , 1gb Procedure Title: INT- TUK -WA- COMMISSIONING - PDI -PDU P1or' d" `'' ; `' ` ° = = :!nforrnaiioi,- ..;r_,y -; Submittal Date: 18 May. 10 Procedure Work Date: 03 Jul 10 Procedure Work Time Frame: 0800 -1700 Customer Name: I nternap Customer's Solomon Project Code: Address: Street Address: 3355 South 120th Place City: State: Zip: Tukwila WA 98168 Customer POC: Customer POC Name: Kathy Mclnvale Phone Numbers: Office: 404.302.9753 Mobile: 404.547.8915 Lee Technologies Commissioning Su • ervisor :: Herbert Burnett Phone Numbers: Phone Number. 703- 968 -0300 Mobile: 713.423.4335 Pager. ECtiono^.:::. ,. Equipment PDI PDU CX Procedure 3A1 .,,.. ,;uie,Oy.eviei2!: Affected Area: Data Center Systems Affected: Load Distribution Equipment Information: Manufacturer PDI Equipment Type: PDU Model #: PP13- WS- 300 -G-641 Serial #: 110 - 2679 -6 Procedure Overview: This testing will verify the operation of the PDU. Anticipated Results: The PDU will operate as per design. Pre - Procedure Requirements: Manufacturer's startup completed on the module. Air conditioning system is functional and capable of supporting the heat load generated by the PDU module. Ensure that all test equipment that is required is onsite and operational. Load banks will be hooked up and ready for testing. Conduct a point to point test to verify correct wiring. Boundaries are placed around the PDU. The Power Quality Meter is set up and ready to record. `'° Detailed Procedure 'r"'t o c e ii i i roD e); i t Detailed Procedure: Complete 1. Record start date: 03 Jul 10 Record start time:7:25 2. Document that vendor start up has been performed. 3. Perform a visual of the PDU to ensure that there is no external damage to the PDU. 4. Check that the PDU is level and stable with all stabilizers flush to the floor. 5. Close the feeder breaker to the PDU. 6. Ensure that all PDU load breakers are in the OPEN position. 7. Close the input main circuit breaker inside the PDU. 8. Press the monitor on button. Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 3 `� LEE TECHNOLOGIES' LEVEL 4 CHECKLIST Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 Input V Output V Output Amps 617 A ��;js4 " D1 6 LCD 118 B7L- • DVM 117 LCD 118 625 C } ly J� r i4y�, ' .8 �7 D117n LCD 118 626 AB DVM LCD 479 DVM 202 LCD 202 }'_} F "',- • i' - BC• DVM LCD 481 DVM 203 LCD 203 KW 221 CA DVM LCD 477 DVM 202 LCD 202 KVA 221 8.1. Apply control power to the load bank. 8.2. Apply 100% load to the PDU. KW:225 X 8.3. Start a 4 hour bum test of the PDU. . 8.4. Monitor temperature in the surrounding area. 8.5. PDU BURN SHEET. . . Ti e .Out Volts pN) • •Ou 0 Am p s'" . -KW 00:00" 118 118 118 617 625 626 221 • 00:1:5 A 118 B 118 C 118 A 613 B 622 C 625 220 00:30 • A 118 BC 118 119 613 BC 622 625 220 00:45 119 118 118 617 626 628 222 "1tlr-.' 118 119 118 618 627 630 223 211-" 119 1119 119 619 6297 630 229 .'3Hr' . A 119 B 118 C 119 A 617 B 626 C 628 227 ..:4Hr 119 118 119 618 627 628 227 8.6. Shut down all load on the load bank. 8.7. Allow the load bank to run with no load for 5 minutes for cool down purposes. 8.8. At the PDU, flip up the protective cover over the EPO button and press it in. NOTE: THE INPUT BREAKER SHOULD TRIP AND SHUT OFF ALL POWER FROM THE PDU. 8.9. Verify that all power was removed from the load bank. , . Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 3 :11 LEE TECHNOLOGIES' LEVEL 4 CHECKLIST 8.10. Reset the tripped input breaker at the PDU. 8.11. OPEN the feeder breaker to the PDU. 8.12. Check that the PDU cabinet is not - energized and safe to work in. 8.13. Secure from the load banking. `section o..?;;::. ;; Comments 8.2 225 KW was applied due to the current limitations of the load bank at 208 volts. Conducted an IR scan after two hours and at the end of the four hour load bank test. No hot spots were found. .:Section 05' ".:'r;;;''; Lee Technologies Group has witnessed or pa • ipated in this procedure and attests to the accuracy and completeness of this report. Printed Name: .'.'7,: to = % Date: Herb Burnett / i , ' < = -K4 11 _ 03July 10 ' ;. :Pro6edire.W ItnOSS.i ',veil6Cation`..` :.' ''_'1" ; Template Rev. 07022010 Lee Technologies Group © Copyright 2010 Proprietary use pursuant to company policy Page 3 of 3 VOLTAGE TIMEPLOTS Site: INAP PDU 3A1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 230 220 210 200 190 - - - -j 230 - 220 19 210 — 200 – 190 -4 220 1 r I r — A B Vrms — B-C Vrms g3 210 — 0 200 190 — — C -AVrms I I 0890 08:30 07/0.312010 Saturday I 0900 I 09:30 Coaled wwmvi ow BB 10:00 1030 1130 WORST CASE SUMMARY Site: INAP PDU 3A1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 Of 0 total VOLTAGE SAGS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE SWELLS CRITERIA PHASE CATEGORY DATA DATEITIME Of 0 total VOLTAGE INTERRUPTIONS CRITERIA PHASE CATEGORY DATA DATE/TIME Of 0 total VOLTAGE TRANSIENTS CRITERIA PHASE DATA DATE/TIME WORST CASE SUMMARY WAVEFORMS Site: INAP PDU 3A1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 Lowest Magnitude Voltage Sag:No event Highest Magnitude Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Sag:No event Longest Duration Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AMIABLE Most Energy Missing Voltage Sag:No event Most Energy Added Voltage Swell:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE Longest Duration Voltage Interruption:No event Largest Magnitude Voltage Transients:No event NO WAVEFORM AVAILABLE NO WAVEFORM AVAILABLE PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 VOLTAGE Volts 3.175 3.150 3.125 3.100 3D75 3.050 C • • 1 I I 0730 07/032010 Saturday Volts 3D 2.5 2D 15 1.0 05 OD I I I I I I 0800 0830 0900 0930 1030 1030 11130 1130 — A BYTHDRes (al.g) C.M0 U.1 -t tk - "-i- '.i _ "1 r _ _ ,.., ,... r r, ri n — Pi i4 _—.. rm n P1 PI _ o r--._ ..... 4 ri. 11V nra THD I-110 H20 A-B VHarrn H30 Total RMS: 117.72 V DC level: 0.00V Fundarnental(H1) RMS: 0.00V Total Harmonic D istortion THD: 3.19 V (Ever. 0.12 V, Odd 3.19V) CesaYd.ilhOolVlor 611 I I H40 H50 PHASE A HARMONIC TIMEPLOT Site: INAP PDU 3A1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 CURRENT Amps 93 0. 0 0 • 92 — r 0730 07)0312010 Saturday 0 1`— Am Ps 10.0 75 - 08A0 I 1 0830 09130 I r 09.30 — A ITHDRss (am) CuM..anNr 69.1 10130 r 1030 I 1 1100 I 1 1130 5.0 — 25 0.0 1 THD .._ L.,... ra r...._._isl_ MX— ___FM_IK4l___ -m _m_...._01_mot i i __. H10 H2O A !Harm H30 Total RMS: 60a84 A DC level: 323 A Fundamental(H1) RMS: 6089) A Total Harmonic Distortion THD: 9.75A(Evet: 0.45A, Odd 9.74A) emoted .6bO IVla.69.1 H40 H50 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 VOLTAGE Volts 3.425 3A00 3.375 3.350 3.325 3.300 3275 1 r 0730 07/03+2010 Saturday • • j • • P Volts 35 3.0 2.5 - 2.0 15 10- 05 0.0 1 I I 0800 I I I 0830 r I 1 0900 0930 - B-C VTHDRss (avg) c..w.tnomw.. se i 1000 1030 1100 1 1 1 1 1 1 1 1 1 1 1. 1 THD H10 1 H2O Total RMS: DC Level: Fundamental( H1) RMS: Total Harrtgnic Distortion THD: H30 B-C VHarm iiao3 V o.00V OAOV 3.43V (Ever: 0.11V, Cdd 3.43V) H40 1450 PHASE B HARMONIC TIMEPLOT Site: INAP PDU 3A1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 CURRENT Arrgn 9.75 9.70 955 950 955 950 9.45 9.40 935 I 7 0730 07/03x2010 Saturday Amps 10D 7.5 5.0 25 OA r I 08110 I I I I I I I I I I I I 0830 0900 0930 10110 1030 - B ITHDRss (avg) C..w *b0.,w.. se.1 1100 1 1130 THD H10 H2O 0.�z1 B (Harm II r I 1 7 1 r r II H30 H40 Total RMS: 59a A DC level: 3.09A Fundamental(H1) RMS: 59852 A Total Hamonic DistortionTHD: 9.75A (Ever: 0.50A, Odd 9.7411) C am.i1hD mN.. 6G t H50 1 r .t 3 { r �... � s. q _ j i .... — trn an — tID _ __ _ tad 1311 . FM __ .a — ._. _ 1:4a _. @G THD H10 H2O 0.�z1 B (Harm II r I 1 7 1 r r II H30 H40 Total RMS: 59a A DC level: 3.09A Fundamental(H1) RMS: 59852 A Total Hamonic DistortionTHD: 9.75A (Ever: 0.50A, Odd 9.7411) C am.i1hD mN.. 6G t H50 PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3A1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 VOLTAGE Volts 3A0 3.35 330 — 325 320 I ' 0730 07iO3t2010 Saturday Volts 3.5 31) 25 21) 1.5 1D 05 0.0 ' I THD i i I I I I I I I I r r r r r r I 08.00 0830 091)0 0930 10.00 1030 1100 1130 — C A VTHDRss (avg) wit.o -WI_ 60.1 —ra ra_ r �_ 11 H10 H2O C -AVHarm H30 Total RMS: 117.83 V DC level: 0.03V Fundamental( H1) RMS: 0.00V Total Harmonic Distortion THD: 3.40v (Ever: 0.11 V, Odd 3.40V) C33bd61•O31VI33 63.1 H40 H50 ( PHASE C HARMONIC TIMEPLOT Site: INAP PDU 3A1 Measured from 07/03/2010 07:34:22.0 to 07/03/2010 11:30:37.0 CURRENT Amps 103 — 102 — 10.1 O P 10.0 — 99 O • • 1 0730 07/03/2010 Saturday An s 10D 75 5.0 2.5 OD r THD 08110 II I 0830 I I I I I I I I I 09:00 0930 1000 1030 — C ITHDRss (avg) C-M voi16D =VI -r 68.1 I I 1100 1130 so rta — east ,ua__ Ira I® _ lid mn 1111111 I I I I H10 H2O Total RMS: DC level: Ftmthmerdal(H1) RMS: Total Harmonic Distortion THD: C (Harm 1 H30 60603 A 3.41 A 60584 A 10.33A (Even: 034A, Odi:1Q33A) CmYl.nnDmYiwv 6B1 1-140 H50 LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968-0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968 -0300 LEVEL 4 CHECKLIST section 01 Procedure Title. - COMMISSIONING- GENERATORS Sy :;ic:,„ c,,, 1 Iissiui,iiiq Submittal Date: Procedure Work Date: 1, ab n Procedure Work Time Frame: Customer Name: Intemap Customers Solomon Project Code: Address: Street Address: 3355 South 120th Place City: State: Zip: Site Code: Tukwila WA 98169 Customer POC: Customer POC Name: Kathy Mclnvale Phone Numbers: Office: Mobile: General Contractor: Company Name: Gylling Consulting Contractor POC: Engineer Name: Jim Gylling Office: Mobile: 504.499.8194 Lee Technologies Integrated System Testing Su. ervisor: Herbert Burnett Phone Numbers: Phone Number. 703.968.0300 Mobile: 713.423.4335 Pager. Section 02 , Generator System Testing Procedure Y 9 Sy 1°"' Commissioning Qveivirvl Affected Area: Generators and Outside Yard area Systems Affected: Electrical and Mechanical Systems Procedure Overview: Procedure will demonstrate the proper operation of the Generators. Anticipated Results: Generators will operate as designed. Pre - Procedure Requirements: Generators available for testing. Sufficient fuel is available for operation of the generators. Load banks are installed on electrical distribution system for false electrical loading. Section 03 Commissioning System Testing Details Svt:if.m c(,,n,,ksiGninc,. riA:ii Detailed Procedure: Corn 1. Visual Check Generator /// 1.1. Check for loose objects on and around generator. 1.2. Check belt tension on radiator fan . 1.3. Ensure all covers are in place over generator air intake and exhaust V 1.4. Ensure generator radiator exhaust clear. V 1.5. Check fuel system piping for any signs of leaks in generator 1.6. Check coolant level at radiator. 1.7. Breaker cabinet closed and all panels in place V 1.8. Enclosure Emergency Lamps working 1.9. Block heater(s) on Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 1 of 10 LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968-0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968 -0300 LEVEL 4 CHECKLIST Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 10 1.10. Battery voltage (28 volts) 1.11. Fire Extinguishers mounted and charged 1.12. All pop rivets and screws secure % 1.13. All electrical conduit secured properly 1.14. Inside of enclosure is cleaned by the installing contractor and free of construction materials or debris Z 1.15. Exhaust and Intake Louvers closed 1.16. Fuel Piping secured and no leaks or frayed hoses. 2. Alarm Checks Gen,�Sdvitchboard: 2.1. Activate High Coolant Temperature Alarm 7-' 2.2. Activate Low Coolant Temperature Alarm 2.3. Activate Low Oil Pressure Alarm 2.4. Activate Not in Auto Alarm 2.5. Activate Low Battery Alarm 2.6. Activate Battery Charger Failure Alarm 3. Visual Check Generator 3.1. Check for loose objects on and around generator. 3.2. Check belt tension on radiator fan i 3.3. Ensure all covers are in place over generator air intake and exhaust 3.4. Ensure generator radiator exhaust clear. 3.5. Check fuel system piping for any signs of leaks in generator 3.6. Check coolant level at radiator. V 3.7. Breaker cabinet closed and all panels in place Z / 3.8. Enclosure Emergency Lamps working 3.9. Block heater(s) on 3.10. Battery voltage (28 volts) f 3.11. Fire Extinguishers mounted and charged 3.12. All pop rivets and screws secure 3.13. All electrical conduit secured properly Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 2 of 10 LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968-0300 LEVEL 4 CHECKLIST Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 3 of 10 I 3.14. Inside of enclosure is cleaned by the installing contractor and free of construction materials or debris / 3.15. Exhaust and Intake Louvers closed 3.16. Fuel Piping secured and no leaks or frayed hoses. 4. Alarm Checks Gen jSwitchboard: 4.1. Activate High Coolant Temperature Alarm / 4.2. Activate Low Coolant Temperature Alarm / 4.3. Activate Low Oil Pressure Alami /! 4.4. Activate Not in Auto Alarm / 7 4.5. Activate Low Battery Alarm 4.6. Activate Battery Charger Failure Alarm 7/ 5. Visual Check Generator /(D / 5.1. Check for loose objects on and around generator. / 5.2. Check belt tension on radiator fan 5.3. Ensure all covers are in place over generator air intake and exhaust 5.4. Ensure generator radiator exhaust clear. / 5.5. Check fuel system piping for any signs of leaks in generator / • 5.6. Check coolant level at radiator. 5.7. Breaker cabinet closed and all panels in place / 5.8. Enclosure Emergency Lamps working / 5.9. Block heater(s) on 5.10. Battery voltage (28 volts) 5.11. Fire Extinguishers mounted and charged 5.12. All pop rivets and screws secure 5.13. All electrical conduit secured properly 5.14. Inside of enclosure is cleaned by the installing contractor and free of construction materials or debris / / 5.15. Exhaust and Intake Louvers closed 5.16. Fuel Piping secured and no leaks or frayed hoses. 7 6. Alarm Checks Gen 3 Switchboard: Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 3 of 10 I LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968 -0300 LEVEL 4 CHECKLIST Template Rev. 110606 Lee Technologies Services, Inc. Copyright 2010 Proprietary use pursuant to company policy Page 4 of 10 7 V V V 7 7 i 6.1. Activate High Coolant Temperature Alarm Z- 6.2. Activate Low Coolant Temperature Alarm 6.3. Activate Low Oil Pressure Alarm [/ 6.4. Activate Not in Auto Alarm / , f 6.5. --.. n Activate Low Battery Alarm ✓ lG 6.6. Activate Battery Charger Failure Alarm 0 d - s rop / 01I 6i-04014P 7' 7. Manual Start Generator/ 4t 7.1. 1 Record Generator Hours I i 7.2. Check Generator Oil Level 7.3. Check Generator Coolant Level l 7.4. c/ Check Generator Coolant Temperature 1 0 p °f / 7.5. At the generator 1 local control panel selector switch select Manual (Parallel Switch in Auto). / 7.6. Record the following from the generator local control panel: 7.6.1. Voltage Phase A to B V / 7.6.2. Voltage Phase B to C V 7 7.6.3. Voltage Phase A to C VS / 7.6.4. Oil Pressure 61 7 f 7.7. Frequency La ii /V 7.8. Temperature (lb - 7.9. Return Generator selector switch to auto, generator will shutdown after a timed cool down period (record Time to Shutdown ). / l 8. Testing local shutdown and Emergency Off / / 8.1. Start generator again by selecting Manual on the local control panel. 8.2. Allow generator to reach operating speed. // 8.3. At the generator local control panel press the Emergency Stop Button l 8.4. Note generator comes to complete stop and indicates. 8.4.1. Emergency Stop / 8.4.2. Fault Shutdown 8.4.3. Record Screen Alarm Template Rev. 110606 Lee Technologies Services, Inc. Copyright 2010 Proprietary use pursuant to company policy Page 4 of 10 7 V V V 7 7 i LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968-0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968 -0300 LEVEL 4 CHECKLIST Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 5 of 10 8.5. Check for the following alarms at the paralleling switchboard / l 8.5.1. Generator Circuit Breaker Open 8.5.2. Engine Failure Alarm V 8.5.3. EMPD Diagnostics Fault 8.5.4. Engine Failure V ■ 8.5.5. Generator 1 Locked out c Tie Breaker Panel Z 8.6. Reset Emergency stop by turning selector switch to stop reset position and again to auto. 9. Manual Start Generators 7 9.1. Record Generator Hours 7 - ( 7 9.2. Check Generator Oil Level 7 9.3. Check Generator Coolant Level 9.4. Check Generator Coolant Temperature 1 0 -)-- °f / 9.5. At the generator 2 local control panel selector switch select Manual (Parallel Switch in Auto). 9.6. Record the following from the generator local control panel: , 9.6.1. Voltage Phase A to B cara 9.6.2. Voltage Phase B to C vb 9.6.3. Voltage Phase A to C ((0 9.6.4. Oil Pressure C7 9.7. Frequency Le D i 9.8. Temperature / s C 9.9. Return Generator selector switch to auto, generator will shutdown after a timed cool down period (record Time to Shutdown ). 10. Testing local shutdown and Emergency Off 10.1. Start generator again by selecting Manual on the local control panel. 10.2. Allow generator to reach operating speed. / 10.3. At the generator local control panel press the Emergency Stop Button 7 10.4. Note generator comes to complete stop and indicates. / 10.4.1. Emergency Stop / 10.4.2. Fault Shutdown Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 5 of 10 LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968 -0300 LEVEL 4 CHECKLIST Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 6 of 10 V 10.4.3. Record Screen Alarm 10.5. Check for the following alarms at the paralleling switchboard / 10.5.1. Generator Circuit Breaker Open / 10.5.2. Engine Failure Alarm / 10.5.3. EMPD Diagnostics Fault 10.5.4. Engine Failure 10.5.5. Generator 2 Locked Out c Tie Breaker Panel / 10.6. Reset Emergency stop by turning selector switch to stop reset position and again to auto. 11. Manual Start Generator )(( 11.1. Record Generator Hours . ;-)the, _ 11.2. Check Generator Oil Level 11.3. Check Generator Coolant Level 11.4. Check Generator Coolant Temperature r' °f 11.5. At the generator 1 local control panel selector switch select Manual (Parallel Switch in Auto). / 11.6. Record the following from the generator local control panel: 11.6.1. Voltage Phase A to B 4 ir 11.6.2. Voltage Phase B to C t 11.6.3. Voltage Phase A to C `t / 11.6.4. Oil Pressure 0 . 11.7. Frequency te0 7 11.8. Temperature �Y 11.9. Return Generator selector switch to auto, generator will shutdown after a timed cool down period (record Time to Shutdown ). / 12. Testing local shutdown and Emergency Off 12.1. Start generator again by selecting Manual on the local control panel. / 12.2. Allow generator to reach operating speed. 12.3. At the generator local control panel press the Emergency Stop Button 12.4. Note generator comes to complete stop and indicates. 12.4.1. Emergency Stop Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 6 of 10 V LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968 -0300 LEVEL 4 CHECKLIST Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 7 of 10 12.4.2. Fault Shutdown 12.4.3. Record Screen Alarm 12.5. Check for the following alarms at the paralleling switchboard / 12.5.1. Generator Circuit Breaker Open 12.5.2. Engine Failure Alarm 12.5.3. EMPD Diagnostics Fault ✓ 12.5.4. Engine Failure 12.5.5. Generator 3 Locked out @ Tie Breaker Panel 12.6. Reset Emergency stop by turning selector switch to stop reset position and again to auto. 13. Perform Generator Load test from Generator Control Panel, perform the following: 13.1. Select Manual on the AUTO /MANUAL Selector Switch 13.2. Select Gen 1 on the Generator Parallel Selector Switch // // 13.3. Select Test On Line On Generator 1 Selector Switch (1/ 13.3.1. Generator will Start and Generator Output Breaker 52G1 will close 13.3.2. Check Generator Systems prior to closing load bank 13.4. Close Load Bank Circuit Breaker -/ 13.4.1. Load Ste p Generator an record 9.4.2 100° °o 0 — /6/ � TIME: /e0D Kw `adc / 9.4.3 0° - 0 90 — vniet TIME: JOLO KW S3-34/1' 9.4.4 5 °0 TIME: 10 gb KW l,li3 / ✓` W 9.4.5 10Q% - 50% % TIME: /lo k KW i43/td 9.4.6 50 °/ %- - 6 (4 TIME: 0 KW 0.1 '40; / (/ 9.4.7 0% 00% /16`k TIME: / KW ?/a-C-014//1 NOTE: Stop the recording device before power is taken away. l dts 13.5. our Bum -in Note: Periodic readir g ill b taken of the generator. g 9 13.6. Disconnect load at load bank Master Load selector and panel, leave fan running until heater coils cool 9.5 Cycle Crank Test. / 9.5.2 Any method recommended by the manufacturer for the cycle crank test shall be -! Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 7 of 10 LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968-0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968 -0300 LEVEL 4 CHECKLIST Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 8 of 10 utilized to prevent the prime mover from running. 9.5.3 Place the control switch to RUN. 9.5.4 Verify that the complete crank/rest cycle specified in NFPA 110 5.6.4.2 and Table 5.6.4.2 shall be observed. -� 13.7. At the generator 1 remote control panel selector switch select Auto, allow generator to cool down. 13.8. Repeat Step for Generator 2 13.9. Select Gen 2 on the Generator Parallel Selector Switch 13.10. Select Test On Line On Generator 2 Selector Switch 13.10.1. Generator will Start and Generator Output Breaker 52G2 will close V 13.10.2. Check Generator Systems prior to closing load bank ,/ 13.11. Load Bank Generators: 13.11.1. Load Step Generator 2 and record V / 13.12. Close Load Bank Circuit Breaker / 13.12.1. Load Step Generator 2 and record / ((`` p�er,n'' 9.5.5 100% - 0% TIME: ©,5� KW 7 t e&) �, ,/ 2 KW X0)3 / u) 9.5.6 0% - 50% TIME: L.7,_____ 9.5.7 50% - 100% TIME:Ie KW (-? Nt u /' / 9.5.8 100% - 50% TIME/ t 1 KW !'(,,Y /M/ 9.5.9 50% - 0% TIME: /on KW o1.4 c2L141A/ / 9.5.10 0% - 100% TIME: /D KW '9 'dt (/J NOTE: Stop the recording device before power is taken away. 13.13. our Bum-in L. Note: Periodic reading will be taken of the generator. 13.14. Disconnect load at load bank panel, leave fan running until heater coils cool 13.15. Cycle Crank Test. / / 13.15.1. Any method recommended by the manufacturer for the cycle crank test shall be utilized to prevent the prime mover from running. 13.15.2. Place the control switch to RUN. 13.15.3. Verify that the complete crank/rest cycle specified in NFPA 110 5.6.4.2 and Table 5.6.4.2 shall be observed. 13.16. At the generator 2 remote control panel selector switch select Auto, allow generator to cool Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 8 of 10 LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968,0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968-0300 LEVEE. 4 CHECKLIST Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 9 of 10 down and shut off. 13.17. Repeat Step for Generator 3 i 13.18. Select Gen 3 on the Generator Parallel Selector Switch ' 13.19. Select Test On Line On Generator 3 Selector Switch 13.19.1. Generator will Start and Generator Output Breaker 52G3 will close 13.19.2. Check Generator Systems prior to dosing load bank / 13.20. Load Bank Generators: 13.20.1. Load Step Generator 3 and record 13.21. Close Load Bank Circuit Breaker /� G / 13.21.1. Load Step Generator 3 and record Iv / 9.5.11 100% - 0% Q — (0?? /f 10 TIME: )73O KW 40-eku..) 9.5.12 0% - 50% ,77Z TIME:[7— KW i''V Ci &) 9.5.13 50% - 100% S--s-% TIME: /go (( KW � i�'� / 9.5.14 100% - 50% '13 , TIME: /f /7(( KW `., 6_/(4✓/ 9.5.15 50% - 0% 90 TIME: argr KW °'c ',V/Pi / 9.5.16 0% - 100% �0 TIME: NOTE: Stop the recording device before power is taken away. tiff- KW drjC%"'/ 13.22. 8 hour Burn -in Note: Periodic reading will be taken of the generator. 13.23. Disconnect load at load bank panel, leave fan running until heater coils cool 13.24. Cycle Crank Test. 13.24.1. Any method recommended by the manufacturer for the cycle crank test shall be utilized to prevent the prime mover from running. Kt 13.24.2. Place the control switch to RUN. /' 13.24.3. Verify that the complete crank/rest cycle specified in NFPA 110 5.6.4.2 and Table 5.6.4.2 shall be observed. / 13.25. At the generator 3 remote control panel selector switch select Auto, allow generator to cool down and shut off. l 13.26. Record Generator V 13.26.1. Generator 1 Hours / 13.26.2. Generator 2 Hours & -(511 / Template Rev. 110606 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 9 of 10 LEE TECHNOLOGIES GROUP Mission Critical Infrastructure Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654-3680 Fax 24 Hr Service (877) 968 -0300 LEVEL 4 CHECKLIST 13.26.3. Generator 3 Hours / b _5 / 13.26.4. Generator 1 Fuel Level Prior to Testing l /� 13.26.5. Generator 2 Fuel Level Prior to Testing i y 1 13.26.6. Generator 3 Fuel Level Prior to Testin -7/1 13.26.7. �( Generator 1 Fuel Level After Test V Inches Gallons 13.26.8. Generator 2 Fuel Level After Test Inches Gallons 13.26.9. Generator 3 Fuel Level After Test Inches Gallons 6IS 13.26.10. Generator 1 Fuel Used 13.26.11. Generator 2 Fuel Used ‘74 0 A'acou -,S 13.26.12. Generator 3 Fuel Used C-1(40 /f D section oa Comments CU,,„ IC:, Is i Insert any comments applicable to the procedure: Lk La 3q ct it t? rp i5pIN (tip q`)'° -1■404A- . I 1-viks- P., t'l C-(2 -Ecri. 1? L 1,4 --11Vg- ,..) 20/D Pa\c -it q 66-kitc_i fw4-1,3 APOA -4N !q C4-f4 koto 6,106 Prt-5--r v (5&AJ-60.1g-1-14h) . aq46Ald �a 1820 eAIii 6 y re boAD ■ . Section 05 Lee Technologies Services, Inc. has witnessed or participated in this procedure and attests to the accuracy and completeness of this report. Printed Name: Signature: Date: Negi sIQd Sysicril Tosiinq wihnsss • °. Vesilication 6-6?xozefx /Wel/M Poz- th,so afith 5,41011 Dcg‘g Template Rev. 110606 )146 Zued - 1/4 Lee Technologies Services, Inc. © Copyright 2010 Proprietary use pursuant to company policy Page 10 of 10 Generator Burn In Step Time/Min Record Time KW Total Voltage A -B B-C C -A Amperage Hz Oil Pres A B C 000 /0 0 ,a.a4K 4-I 47' 4S1 17 15- 2c,,9/ Z(a�-- (,b,1 6-7 if t 0:15 0 5—.0 02 .a -kfr-ts4 y8) yi1 lit zits AALt 2-W- 7(,',1 51 If 0:30 (!a7 S c),)-Yµw LitY1 41? 0 -I 2114 7-(093. awa to (a,.1 51 i S 5 0:45 1 ( 9-6 ,d, a-t,-tu q H 4- f Lek I a--I 0-Do / a-G aQ a 6.1 51 1$ ci 1:00 i 13S--- d.a -a(",u nI 4-le 41 X113 a-oci a. aLbq (t. 157 I 1:15 H i Sb .c3aliuw`ti(1 479 k? 2-iti ?.loqa a /c,C 6,0.1 6-7 1,k 1:30 1?-6S a a-(6t✓ (fP1 y1t, CFI al la- a-65o a-t-6,r -eof 51 1S5 1:45 I ?-0-113 2,711a40/ Lii ( `f 1? co I di i 1 a-61) aLG t` 60./ 6"7 (k e! 2:00 VAC?. 'f b-1 't7 c fl )7i/ 9 a ? L 6 s' (4/ 51 I P I 2:15 t)-Sti a a-yutiv 4b1 I-15 (a( i)7I) g '1 3063 60.1 5-7 J p % 2:30 13 a S V (4 l `1"7Ci uki ;,I 2 f3 P66660-1 57 ) �? 2:45 L3 d 2,al C/1 Y 4 Ai i .:76Q0 )(06V(4)- ? 6"-7 i P 5 3:00 r- 3,C-44(i V' l tl't P `1 J / a7 t a fv EGG iI ay) ,c7 1( 3:15 135a gd-,1 Off( 4/"IF(/ Ia-- V5 (130).1 -1 ■ `I 3:30 1.405 Z✓l(( 1 I 1,2- 90 4,5-- 66• I 1 P% 3:45 1 4), ay ( -- V 0 I V (2 1(/ 47a 7/ (,( i'o» .fry 'o,l.% S —7 4c? y 1`f 4:00 _ [`i a- 4:15 1 q 4:30 z. 4:45 5:00 5:15 5:30 5:45 . 6:00 6:15 6:30 6:45 Generator Burn In &,•-r cyc: /g 60,1 / jr Step Time/Min Record Time KW Total Voltage A -B B-C C -A Amperage Hz Oil Pres A B C 000 I tom g gci 45-1 (119 4k1 c).'los art 1 J-(.0.0 (A 58 (ci q6 0:15 [ �� a- `to x('1.9 " q t l ��j ' 3- % (c1 6 0:30 t9 o s <4 ( LL-19 a'la t 3iv4 3/ 7 coo SI ( 9 0:45 t ei a° O ` I(-4 `C G a ((7 ,L/(r8,�t 0 (3-705 a ?0 y )`651 60 5-7 ( g 1:00 (cl 3s— 02 a- (iii &f2 y 'o 7013 alt/ .7657 ca 6-1 (ij 1:15 T ( 61 b 3 t b 1 I q 1:30 ap C7s-- 4 1 I l 3 a o -1. {Q 1:45 aoao 3a ;� q 4 ■ t G 6 9 b o 3 I 9 k c b -1 1 le 2:00 2:15 do 5D q t cl o a G 90 1 e 2:30 . I d s I °l. o 7 ? D 1 to 2:45 c;260 a_0 `k t O a- -t C) '-1 (.4 3:00 c9.1 3 Sf I 1 61 C5 I o C k 0- 3:15 ,,,,:9/ d2 . a-c t ci v 3 1 r (a W' of 3:30 cr;72 65-- 1 l �1 c 9 1 o f 3:45 c79.? do l C1 b 3 1D 4:00 ( 41 0 )- K -7 vV 0 P 4:15 4:30 4:45 .,&.-)flc_ A ,so (A)hi ie: xem-v ca/4.2,f- ir;. �( 5:15 NO&T -D 1 l c ST X eli L b� /1- 5:30 lJ 5:45 6:00 6:15 6:30 6:45 Oq MAY (AT-S I TO E Atg- ri go F° 144 5fr/M ® /1 (A /gr. AI) Ck -" 1 Generator #4 Burn Sheet Step Time/Min Record Time KW Total Voltage A -B B-C C -A Amperage Hz Oil Pres KW A B C 0:00 9:13 2240 481 478 479 2684 2714 2681 60 57 2240 0:15 9:28 2240 481 479 479 2685 2714 2685 60 57 2240 0:30 9:43 2240 480 479 478 2687 2712 2680 60 57 2240 0:45 9:58 2240 481 478 479 2688 2713 2681 60 57 2240 1:00 10:13 2240 481 479 479 2684 2712 2680 60 57 2240 1:15 10:28 2240 481 478 479 2683 2711 2680 60 57 2240 1:30 10:43 2240 481 478 479 2682 2710 2684 60 57 2240 1:45 10:58 2240 481 478 479 2683 2711 2676 60 57 2240 2:00 11:13 2240 481 479 479 2684 2712 2682 60 57 2240 2:15 11:28 2240 480 479 478 2679 2707 2678 60 57 2240 2:30 11:43 2240 481 478 479 2682 2712 2677 60 57 2240 2:45 11:58 2240 481 479 479 2683 2711 2681 60 57 2240 3:00 12:13 2240 481 478 479 2680 2710 2682 60 57 2240 3:15 12:28 2230. 481 479 479 2670 2704 2671 60 58 2230 3:30 12:43 2230 482 478 479 2669 2703 2669 60 58 2230 3:45 12:58 2230 482 479 479 2668 2704 2671 60 56 2230 4:00 13:13 2230 481 478 479 2670 2702 2670 60 56 2230 4:15 4:30 4:45 5:00 5:15 5:30 5:45 6:00 6:15 6:30 6:45 al LEE TECHNOLOGIES %./ LEVEL 4 CHECKLIST • Section 01. ChecldistTitle: INT- TUK- WA -CX -A- UPS - SYSTEM - COMMISSIONING Commissioning Checklist Information Submittal Date: Checklist Work Date: Checklist Work Time Frame: Customer Name: I n to m a p Address: Street Address: 3355 South 120th Place City Stale: Zip: Tukwila WA 98168 Customer POC: Customer POC Name: Kathy Mclnvale Phone Numbers: Office: 404.302.9753 Mobile: 404.547.8915 General Contractor. Company Name: BNBuilders ContractorPOC: Supervisor Name: Jim Gylling Office: Mobile: 509.499.8194 Lee Technologies Commissioning Supervisor. Herbert Burnett Phone Numbers: Phone Number 703- 968 -0300 Mobile: Pager. N/A Section 02 Equipment Commissioning Checks for UPS Commissioning Checklist Overview Equipment Information: Manufacturer MGE UPS SYSTEMS Equipment Type: UPS System Model it SSC -, UPSs- Serial #: 141,0 - l oa 3ci Checklist Overview: Equipment commissioning checklist. Anticipated Results: Units and systems will conform to all specified requirements and will operate as designed. Pre- Checklist Requirements: Unit has been started up / initialized and all required pre- commissioning testing has been performed by vendor or other authorized agent. Section' 03 ' Detailed Commissioning Checklist Commissioning Checklist Details Detailed Checklist Complete 1. Record start date: 2A? Record start time: JL ` /(o DI) ✓ 2. Verify that the entire system is in a non - energized state and that all associated breakers are in the OPEN position. 3. Verify that all of the associated test equipment is onsite, operational and has a valid certificate of calibration 4. Verify that all equipment and system labeling is attached and correct. 5. Attach the power recorder to an appropriate spot on the output load buss of a system A PDU. NOTE: Do not start the recorder until the unit is energized and ready to test so that the voltage averages are not skewed on the final report. 6. Verify that the loadbanks are connected at the PDUs. 7. Verify that the appropriate personnel are present from each sub - contractor or vender. 7.1. Verify that all parties are ready to proceed. Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 1 of 13 al LEE TECHNOLOGIES" LEVEL 4 CHECKLIST 8. Powering up of the Static Switch Cabinet. 8.1. Close the A Static Switch Bypass breaker in the switchgear. ,/ 8.2. Open the door on the Static Switch Cabinet and close Switch 1 and Switch 2. t- 8.3. Verify that the Static Switch Cabinet initializes and that the language is set to English US. 8.4. Verify the Static Switch energizes and the Q2S closes. 9. Powering up of UPS 1, 2, 3, and 4 9.1. Close the 1 UPS breaker in the switchgear. 9.2. Close the 2 UPS breaker in the switchgear. ✓ 9.3. Close the 3 UPS breaker in the switchgear. f/ 9.4. Close the 4 UPS breaker in the switchgear L/ 9.5. At UPS module 1 close the Q1 input breaker. l/ 9.6. At UPS module 2 close the Q1 input breaker. I/ 9.7. At UPS module 3 close the Q1 input breaker. 1/ 9.8. At UPS module 4 close the Q1 input breaker t/ 9.9. Verify on all modules that the logic initializes and that the language is set for English US. L------ 9.10. Close the Q5N output breaker for UPS module 1. f 9.11. Close the Q5N output breaker for UPS module 2. 9.12. Close the Q5N output breaker for UPS module 3. r 9.13. Close the Q5N output breaker for UPS module 4. (/— 9.14. Close the UPS Output Switchgear. 9.15. Verify that the only alarms displayed on both UPS modules are Phase out of tolerance, Battery breaker OPEN and Fan Failure. Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 2 of 13 al LEE TECHNOLOGIES` %./ LEVEL 4 CHECKLIST 9.16. Verify the green "B" LED is lit on UPS module 1. 9.17. Close all battery breakers for UPS module 1. 9.18. Verify the green "B" LED is lit on UPS module 2. 9.19. Close all battery breakers for UPS module 2. ✓ 9.20. Verify the green "B" LED is lit on UPS module 3. 1/ 9.21. Close all battery breakers for UPS module 3. 9.22. Verify the green "B" LED is lit on UPS module 4. 9.23. Close all battery breakers for UPS module 4. I. 9.24. Start UPS 1 inverter locally v' 9.25. Verify the system does not transfer out of Static Bypass. ,� 9.26. Start UPS 2 inverter locally. 9.27. Verify the system does not transfer out of Static Bypass. 9.28. Start UPS 3 Inverter locally. ✓ 9.29. Verify the system transfer off of Static Bypass L----' L./' 9.30. Start UPS 4 Inverter locally 2 s 9.31. Shut off UPS 1 and 3 inverters and verify the system transfers to Static Bypass. c,--c-- ✓ 9.32. Start UPS 3 Inverter locally. 9.33. Verify the system transfer off of Static Bypass to inverter ----- I/ 9.34. Start UPS-1-Inverter locally. 9.35. Shut off UPS 2 and 4 inverters and verify the system transfers to static bypass. 1/' 9.36. Start UPS 2 Inverter locally. Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 3 of 13 LEE TECHNOLOGIES" 4,1 LEVEL 4 CHECKLIST 9.37. Verify the system transfer off of Static Bypass to inverter 9.38. Start UPS 4 locally. 9.39. Shut off UPS 1 and 4 inverters and verify the system transfers to static bypass. ✓ 9.40. Start UPS 4 Inverter locally. 9.41. Verify the system transfer off of Static Bypass to inverter 9.42. Start UPS 1 Inverter locally `� 9.43. At the SSC control panel, push and hold the transfer to inverter pushbutton. 9.44. Verify all system inverters start. //' 9.45. Verify the system transfers from Static Bypass to inverter. 9.46. Verify the Static Switch indicates the following: ✓ 9.46.1. Static Switch Available. v 9.46.2. Static Switch OFF. 9.46.3. Inverters ON. / li 10. Place the Data recorder device in the MONITORING position at this time. 11. Applying Load to the UPS System. 11.1. Apply 25% load to the system. (455 KW System 113.87 KW per Module). TIME: i ? q•D 11.2. Verify the following voltages on the display and then by a Digital Volt Meter (DVM). t/ 11.2.1. UPS 1 Output Volts: A -B L 5- B -C (-1 C -A 40- . L/ 11.2.2. UPS 1 Output Amps: A l q 6 B l 4 (p C Ikt. . v 11.2.3. UPS 2 Output Volts: A -B 40 B -C LI p 3 C -A q i I . V 11.2.4. UPS 2 Output Amps: A 1 t{ B I LI I C t ? -( . ,✓ Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 4 of 13 LEE TECHNOLOGIES al LEVEL 4 CHECKLIST 11.2.5. UPS 3 Output Volts: A -B q E B -C t Ft C -A y0 1 . 11.2.6. UPS 3 Output Amps: A ( (iCt B SO C 1 Li ( . .1 11.2.7. UPS 4 Output Volts: A -B n c)— B -C qi-/ C -A (i0 1 . (/ B IV C /9' . 11.2.8. UPS 4 Output Amps: A rya- 5f 11.2.9. SSC Output Volts: A -B e7co B -C 41 l C -A qff 3 . 11.2.10. SSC'Amps: A 531 B 53 0 C 6-34P . (1-42 r-w / q4 `1 rim. 7 11.3. Apply 50% load to the system. (911 KW System 227.75 KW per Module). TIME: I 34 11.3.1. UPS 1 Output Volts: A -B LI K B -C Cif? C -A 4.9- . . 11.3.2. UPS 1 Output Amps: A 0 --- 7 B c97 (P C <9-7 . ,/ 11.3.3. UPS 2 Output Volts: A -B 483 B -C O f t C -A (I0 . i" 11.3.4. UPS 2 Output Amps: A 02 ir0 B 00 v C c:9- P, . 11.3.5. UPS 3 Output Volts: A -B (-4 3 B -C q F/ C -A (1,0 .. / 11.3.6. UPS 3 Output Amps: A 477-7 B a77 C c:?..7 . / 11.3.7. UPS 4 Output Volts: A -B (g/ B -C 0/ C -A yy 11.3.8. UPS 4 Output Amps: A ..:2(0 9 B aa C do v 11.3.9. SSC Output Volts: A -B q 70 B -C (/7 7 C -A q 0 . 11.3.10. SSC Amps: A /077 B /97(p C /08,8 . e9/420/ k93,tt)4- 11.4. Apply 75% load to the system. (1366.5 KW System 341.6 KW per Module)TIME: / '7 YU 7 11.4.1. UPS 1 Output Volts: A -B 11. B -C 7 b 7 C -A (ii. . 11.4.2. UPS 1 Output Amps: A il. `t B p C 't/3 / / 11.4.3. UPS 2 Output Volts: A -B `y Q 3 B -C 143 3 C -A q/ Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 5 of 13 LEE TECHNOLOGIES LEVEL 4 CHECKLIST Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 6 of 13 11.4.4. UPS 2 Output Amps: A qP 3 B q C CI 1 '7 . / 11.4.5. UPS 3 Output Volts: A -B y y B -C gent C -A VP . ---- 11.4.6. UPS 3 Output Amps: A 10,3 B ¥? 7 c did# . 11.4.7. UPS 4 Output Volts: A -B W B -C 4LfV C -A fe . 11.4.8. UPS 4 Output Amps: A 43 B IOW WIC 4" . 11.4.9. SSC Output Volts: A -B 1/7(P B -C L7 C -A int . 11.4.10. SSC Amps: A /6 4(--7 B /67 9 C /6 / . I -12,R0 / 11.5. Appl 100 °0 load to the system. (1822 KW System 455.5 KW per Module). TIME: 11.5.1. UPS 1 Output Volts: A -B `7 i B -C (if a C -A ttli/ . 11.5.2. UPS 1 Output Amps: A $3& B $`JS C 6--L, Cl . / 11.5.3. UPS 2 Output Volts: A -B W.3 B -C Clia C -A 546 . 11.5.4. UPS 2 Output Amps: A 5109 B ..670 / C S7o3 . 11.5.5. UPS 3 Output Volts: A -B tif0'2 B -C `10 C -A (dr) . 11.5.6. UPS 3 Output Amps: A 6106 B 5 7S C L.5 7S . 11.5.7. UPS 4 Output Volts: A -B 4a0 din B -C 0 C -A . 11.5.8. UPS 4 Output Amps: A X03 B slo 6'7 / . / 11.5.9. SSC Output Volts: A -B V7( B -C q7q C -A g7 / 11.5.10. SSC Amps: A �9 O B aaY7 C aa%CO . /F,�7 �/� I �� /_ /I -��"J 11.6. Calculate the UPS system load percentage: 11.73 x Volts x Amps x P.F./ 1000 ) 19 • / 12. Transfer to Static Bypass (Transient/Interlock Testing) 12.1. Turn all Inverters Off 7 Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 6 of 13 LEE TECHNOLOGIES` %./ LEVEL 4 CHECKLIST Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 7 of 13 12.2. Verify that the system transfers to static bypass. TIME: 12.3. Verify that the load remained uninterrupted. 'Si C444. 0D f'] 1 13. Transfer UPS Static Switch to Maintenance Bypass Lgri 13.1. Place generator 4 and 5 online thru switchgear -4Dt.A4-11?‹ 13.2. Transfer the system to Static Switch 13.3. Verify SCC is on Static Switch 13.4. At maintenance bypass SB- UPSBP3 13.4.1. Close breaker feeding Maintenance Bypass switchboard for DB -UPS3A and DB -UPS3B 13.5. Verify ATO switchboard indicates UPS on Bypass and Generators online before operating breakers in both UPS distribution UPS3A and UPS3B 13.5.1. Close Breakers at DB -UPS3A and DB -UPS3B 13.6. Verify PDUs stay online during the entire transfer .. 1 14. Transfer from Maintenance Bypass to UPS Static Switch 14.1. Verify UPS is on static switch supported by generators 14.2. Verify ATO switchboard indicates UPS on Bypass and Generators online before operating breakers in both UPS distribution UPS3A and UPS3B 14.3. Close the Main normal breakers for DB -UPS3A and DB -UPS3B 14.4. Open the emergency breakers at DB -UPS3A and DB -UPS3B 14.5. Open breaker at SB- UPSBP3 for DB -UPS3A and DB -UPS3B 14.6. Verify PDU stay online during the entire transfer 14.7. At UPS switchgear SB -UPS3 transfer to normal power 14.8. Place generators into cool down 14.9. Shutdown generators Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 7 of 13 LEE TECHNOLOGIES' LEVEL 4 CHECKLIST 15. Return the System Online. (Transient/Interlock Testing) / 15.1. Push the green Inverter ON all UPS Modules. !V 15.2. The system will transfer online. TIME: 16. System Bum In Test. 4 hr. .'L y4 V/ 16.1. Verify all load banks are turned on supplying maximum load to the UPS System. /� , v / 16.2. RECORD ALL INFORMATION IN THE ATTACHED SPREADSHEET. 16.3. Start the bum in. 17. Step Load Testing of the System. 17.1. During step loading, record any alarms noted with the UPM or PDU's in the comments section of this procedure. Add and remove load to the following step loads. /a-chiieeve 17.1.1. 100% - 0% TIME: 1t(/Xv 0 --Jr 17.1.2. 0% - 50% (1 ) TIME: (Q(2-5(' ,,.7-3-01q\- V r 17.1.3. 50% - 100% ( KW) TIME: (OO �i -0 c, / i�,p )(4'T M 17.1.4. 100% - 50% (1 0 KW l . ( T E: /6 3( O — -7,< ....00((( I 17.1.5. 50% - 0% TIME: '� -/0-6 - 7- _�y 17.1.6. 0% - 100% (2700 KW). TIME: /0 it (a..) T /1 V =0 a/ !4� ( �,� 18. O � Module Failure Testing. -d--- 18.1. Place the system load at 1822 KW. (N +1 Redundant). 'snA -oV L.-6AgD 7 18.2. At UPS 1 induce an inverter fault by tripping an output fuse blown indicator. TIME: (/ VO / 18.2.1. Verify that t 'vas - assumed by UPS 2, 3, and 4. 18.2.2. Clear the fault and verify that the UPS 1 couples to the bus and shares the load. 18.3. At UPS 2 induce an inverter fault by tripping an output fuse blown indicator. TIME: // Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 8 of 13 al !EE TECHNOLOG1ES tpi LEVEL 4 CHECKLIST Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 9 of 13 i J 18.4. Verify that the load was assumed by UPS 1, 3, and 4. 18.5. Clear the fault and verify that the UPS 2 couples to the bus and shares the load. / 18.6. At UPS 3 induce an inverter fault by tripping an output fuse blown indicator. TIME: /t al 18.7. Verify that the load was assumed by UPS 1, 2, and 4. / 18.8. Clear the fault and verify that the UPS 3 couples to the bus and shares the load. 18.9. At UPS 4 induce an inverter fault by tripping an output fuse blown indicator. TIME: I t 0 18.10. Verify that the load was assumed by UPS 1, 2, and 3. 18.11. Clear the fault and verify that the UPS 4 couples to the bus and shares the load. 18.12. At SWB. OPEN the Bypass Feeder breaker. TIME: / /,i( / 18.12.1. Verify that the system goes into a Transfer Lockout condition. 18.12.2. Verify that the load remains uninterrupted. 18.12.3. At SWB. CLOSE the Bypass Feeder breaker. TIME: t C 3 18.12.4. Verify that the Transfer Lockout alarm clears out. 18.13. Verify that the system is online with no visible faults. V 19. Battery Rundown Testing. NOTE: All IEEE testing must have already been preformed with no outstanding deficiencies before this test can be preformed. ""• IR scans will be preformed during this test "`"" 19.1. Place 675 KW of load on the system. 19.2. Take Modules 2, 3, and 4 offline by turning off the inverters on these modules. 19.3. At UPS 1 verify that the display shows 675 KW of load. 19.4. At the SSC verify that the display shows 675 KW of load. 19.5. Verify on the recording device that it shows 675 KW of load. 19.6. Initial KW: Initial KVA: &V Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 9 of 13 i J 1 LEE TECHNOL OGIESgy %./ LEVEL 4 CHECKLIST 19.7. Initial %Load: (7 Power Factor: l 19.8. RECORD ALL VOLTAGE AND AMPERAGE VALUES ON ATTACHED SPREADSHEET. 19.9. Open the Q1 input breaker on UPS 1. TIME: 12-' 0— i' 19.10. Record the total time on battery. Minutes Seconds I ?) TIME: 1,c726 `t/ 19.11. The battery bank should transfer at approximately 401 Vdc. Record DC Voltage: CID / c� 19.12. Once Static Switch Cabinet transfers to static bypass, close the Q1 input breaker at UPS 1. 19.13. Verify that power has been restored to the UPS and that the batteries are charging. 19.14. Record the Battery Charge Current Limit. Adc: 19.15. Place UPS Modules 1 and 2 online by pressing the green inverter on button on UPS 1 and 2. 19.16. Verify the system transfers to inverter and all the system alarms clear. C/ 19.17. Turn off the UPS 1 inverter. 19.18. At UPS 2 verify that the display shows 675 KW of load. 19.19. At the SSC verify that the display shows 675 KW of load. ./ 19.20. Verify on the recording device that it shows 675 KW of load. 19.21. Initial KW: l./ G Initial KVA: r ;g 1 --- 19.22. Initial % Load: Power Factor. ► I i 19.23. RECORD ALL VOLTAGE AND AMPERAGE VALUES ON ATTACHED SPREADSHEET. 19.24. Open the Q1 input breaker on UPS 2. TIME: 0-4 _ / 2 19.25. Record the total time on battery. Minutes Seconds XD TIME: 4 2' �d / 19.26. The battery bank should transfer at 401 Vdc. Record DC Voltage: '1I I 19.27. Once the Static Switch Cabinet transfers to static bypass, close the Q1 input breaker at UPS 2. Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 10 of 13 !EE TECHNOLOGIES" 41 LEVEL 4 CHECKLIST 19.28. Verify that power has been restored to the UPS and that the batteries are charging. 19.29. Record the Battery Charge Current Limit. Adc: 19.30. Place UPS Modules 3 and 2 online by pressing the green inverter on button on UPS 3 and 2. 19.31. Verify the system transfers to inverter and all the system alarms clear. 19.32. Turn off the UPS 2 inverter. V 19.33. At UPS 3 verify that the display shows 675 KW of load. 19.34. At the SSC verify that the display shows 675 KW of load. 19.35. Verify on the device that it shows 675 KW of load. / rre�cc(o�rding 19.36. Initial KW: 1.10" Initial KVA: (I (73 / 19.37. Initial % Load: Power Factor: r / l 19.38. RECORD ALL VOLTAGE AND AMPERAGE VALUES ON ATTACHED SPREADSHEET. 19.39. Open the Q1 input breaker on UPS 3. TIME: 12 3'<e 19.40. Record the total time on battery. Minutes 0 Seconds t I TIME: le cl y 19.41. The battery bank should transfer at 401 Vdc. Record DC Voltage: 4 0 ( 19.42. Once the Static Switch Cabinet transfers to static bypass, close the Q1 input breaker at UPS . 3. 19.43. Verify that power has been restored to the UPS and that the batteries are charging. 19.44. Record the Battery Charge Current Limit. Adc: 19.45. At UPS 4 verify that the display shows 675 KW of load. 19.46. At the SSC verify that the display shows 675 KW of load. 19.47. Verify on the recording device that it shows 675 KW of load. 19.48. Initial KW:— Initial KVA: � /- Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 11 of 13 LEE TECHNOLOGIES' %, LEVEL 4 CHECKLIST Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 12 of 13 i 19.49. Initial % Load: 0 Power Factor: 19.50. RECORD ALL VOLTAGE AND AMPERAGE VALUES ON ATTACHED SPREADSHEET. 19.51. Open the Q1 input breaker on UPS 4. TIME: I q / 19.52. Record the total time on battery. Minutes 0 Seconds { ?" TIME: l.)' <. 19.53. The battery bank should transfer at 401 Vdc. Record DC Voltage: y 19.54. Once the Static Switch Cabinet transfers to static bypass, close the Q1 input breaker at UPS 3. 19.55. Verify that power has been restored to the UPS and that the batteries are charging. 19.56. Record the Battery Charge Current Limit. Adc: 19.57. AT THE POWER RECORDER STOP RECORDING AND SAVE THE DATA. 19.58. Reduce the load on the load bank to 0 kW and allow the load bank to cool for approximately 10 minutes before proceeding to prevent damage to the load bank. 20. Secure System A for load bank teardown. 20.1. Place the system in static bypass by pressing and hold the grey "Inverter Off" pushbuttons for 3 seconds on all UPS modules. 20.2. Verify the Static Switch Cabinet transfer to static bypass. 20.3. OPEN the Q5N breakers for UPS modules 20.4. OPEN the QF1 battery breakers for UPS modules 20.5. OPEN the Q1 input breakers at UPS modules 20.6. At the Static Switch Cabinet, open the front door and place the S1 and S2 switch in the OFF position. 20.7. At the UPS switchboard OPEN UPS Bypass breaker. % 20.8. OPEN the input feeder breaker to UPS 1 at SWB / 20.9. OPEN the input feeder breaker to UPS 2 at SWB V 20.10. OPEN the input feeder breaker to UPS 3 at SWB / Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 12 of 13 i LEE TECHNOLOGIESa LEVEL 4 CHECKLIST 20.11. OPEN the input feeder breaker to UPS 4 at SWB 20.12. With a known good Digital Volt Meter verify that the output and surrounding buss is non - energized and remove all load bank connections. 21. Secure from test. Section 04 Comments . Comments Insert any comments applicable to the Checklist: Section 05 ' Lee Technologies representative has witnessed or participated in this checklist, has verified equipment is ready per checklist, and attests to the accuracy and completeness of this report. Printed Name: Signature: Date: ,Checklist Witness S ,Verification _ _ Template Rev. 021105 Lee Technologies Group © 2010 Proprietary use pursuant to company policy Page 13 of 13 UPS Al Burn In -73-7 L LEE TECHNOL OGLES GROUP Mission Critical Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 966-0300 Phone (703) 654 -3650 Far Output Values Time Vab I Vbc 1 Vac I la j lb lc Kwa I Kwb Kwc Total 0.00 0.00 0.00 0.00 0:15 a- 9-. 2 5-6, ti 5-75- S7 7 0.00 0.00 0.00 0.00 0:30 3 a-- -13 17 ire) 0.00 0.00 0.00 0.00 0:45 3 a- D 6 c/ 1(2. w 0.00 0.00 0.00 0.00 1:00 3 07 l 4 0 6 5 7 g 0.00 0.00 0.00 0.00 1:15 '3 3 66 6 y •1:, 7 0.00 0.00 0.00 0.00 1:30 5 a9 / Co 51_ -7 / 7 4, 0.00 0.00 0.00 0.00 1:45 3 a -a ( y -17 7 g 0.00 0.00 0.00 0.00 2:00 q z 2 (08 -c 3 .7 2_ 0.00 0.00 0.00 0.00 2:15 L- 3 CO (0 1 -7 (3 0.00 0.00 0.00_ 0.00 0.00 0.00 2:30 4#9- /1 -0 S Via 7 0.00 0.00 2:45 al / t6 A (037 , g 0.00 0.00 0.00 0.00 3:00 .;2- 3 6 a 7/ "7, ).. 0.00 0.00 0.00 0.00 3:15 5> 3 7{0 0.00 0.00 0.00 0.00 3:30 a & &I,. (v7 '7t 0.00 0.00 0.00 0.00 3:45 3 6 75 0.00 0.00 0.00 0.00 4:00 3 3 a 6 y 7 7 kD 0.00 0.00 0.00 0.00 Output pf= 1 '41 c q3 yea b rto 575/ g7Cl ft 79 177 ??f3 a-asz, <9-a14 Y71, 77 1f .„2 'f3 4 r 71 -77 -7/ a 2-13 Sf 79 17 -71 -7 7 a-c) sy 7 7"(7/ 3-7) M G E UPS SYSTEMS UPS Al Burn In ti LEE TECHNOL OGLES GROUP Mission Critical Solutions ifipe„ 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968-0300 Phone (70:3) 654 -3680 Far Input Values Time 1 Vab ( Vbc Vac la lb lc KwA .1 KwB 1 KwC 1 Total loo I/6(/ 41.E7 7/3 -7 ,?.-7 '7o� o.o0 0.00 0.00 0.00 0 :15 �/ (w sy 3 0 3 0.00 0.00 0.00 0.00 0:30 5 s' GO 5-3" 3 1 l 0.00 0.00 0.00 0.00 0:45 S �a S7 « , y a 0.00 0.00 0.00 0.00 1:00 ; G a. 67., it 5 all '7 0.00 0.00 0.00 0.00 1:15 * ,, 6 / 570 It 3 -7a' 7 /0 0.00 0.00 0.00 0.00 1:30 ( 6,0 57v -7/-7 7?-7 r a 0.00 0.00 0.00 0.00 1:45 (0D. clo 71') -7),C) _71 0 0.00 0.00 0.00 0.00 2:00 55 .'5 y Si 17 ay 10 0.00 0.00 0.00 0.00 2:15 o 60 SS t 5 d4 /0 0.00 0.00 0.00 0.00 2:30 tO Gra 510 l7 a CD 0.00 0.00 0.00 0.00 2:45 167 is % 6-(.0_ 1 i aq / 0.00 0.00 0.00 0.00 3:00 cis 5- 'j `f5-7e 7 i3 -72- y 7/ K 0.00 0.00 0.00 0.00 3:15 5" 7 (o V 6--4, 7g-/ '7a4 '7 / e 0.00 0.00 0.00 0.00 3:30 ‘,4 6S- lib 2/ /, 0.00 0.00 0.00 0.00 3:45 $7 (o f 513 -at 37 e 0.00 0.00 0.00 0.00 4:00 S7 ‘ 3 57 71-7 "7 7/g 0.00 0.00 0.00 0.00 Average #DIV /0! Efficiency Input pf= 0.95 M G E UPS SYSTEMS UPS Al Burn in LEE TECHNOL OGLES GROUP Mission Critical Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654 -3680 Fs4 Input Values Time Vab 1 Vbc Vac la lb lc 1_ KwA 1 KwB 1 KwC 1 Total yam, s 51,5-7 -7 0 0 /di 6 4'f . 0.00 0.00 0.00 0.00 0:15 Y $ 5 1 3;:, r o.00 0.00 0.00 0.00 0:30 53 sg 5$ _ t 3 a. _ k 0.00 0.00 0.00 0.00 0:45 V g 1 1, 3 ; 6,c r 0.00 0.00 0.00 0.00 ' &9A 0.00 0.00 0.00 0.00 1:15 5 L Ste/ , s % .70 / 73a 1:30 (P / SS 701 "13 -7c;1- 0.00 0.00 0.00 0.00 1:45 510 6D. S-te -tot 73 3 7O), 0.00 0.00 0.00 0.00 2:00 r_ e) 5 7 a / 3 7-- a 0.00 0.00 0.00 0.00 2:15 57 3 a- a '7-_ 0.00 0.00 0.00 0.00 2:30 6-6 57 O3 3 2. p a -, 0.00 0.00 0.00 0.00 2:45 (a 6y 3 D- SR 0.00 0.00 0.00 0.00 3:00 3 .‘9 i 37-_ c 5r 0.00, 0.00 0.00 0.00 3:15 S7 6 3 7 '7c$ 7a49 7oC, 0.00 0.00 0.00 0.00 3:30 5.-q (0 3 Loy/ OS 3a v t° 0.00 0.00 0.00 0.00 3:45 � j 7 4,/ 57 05- d f ba 0.00 0.00 0.00 0.00 4:00 61e 1 5',P 70, _ b 0.00 0.00 0.00 0.00 Average #DIV /0! Efficiency Input pf= 0.95 M G E UPS SYSTEMS UPS Al Burn In toy LEE TECHNOL OGIES GROUP Mission Critical Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703 ) 654 -3680 Fs Output Values Time Vab Vbc Vac 1 la 1 lb lc Kwa Kwb 1 Kwc 1 Total Wi E,3 1�/ 1 _Sk/ 5-7 / 53D 6 3 5-7O 673 o.00 0.00 o.00 0.00 o.00 0.00 o.00 0.00 0:15 ) 0:30 a- O !a (off' '7 b 0.00 0.00 0.00 0.00 0:45 ( a- 1 7 3 6-7 (a < 0.00 0.00 0.00 0.00 1:00 1 2- 1 67c S y -7 v 0.00 0.00 0.00 0.00 1:15 3 a- 0 6 h '7o 5--€2._ 0.00 0.00 0.00 0.00 1:30 a- / t ,gam -7 9 -7.c- 0.00 0.00 0.00 0.00 1:45 " a 0 (p(a (4 G3 0.00 0.00 0.00 0.00 2:00 3 2- / 77 GS- , / 0.00 0.00 0.00 0.00 2 :15 7- -,._ a & 1 6/ 7 c 0.00 0.00 0.00 0.00 2:30 ,2. 3 6. G ci lo! (g 0.00 0.00 0.00 0.00 2:45 ( 3 1 (a/ 6,3 x 0.00 0.00 0.00 0.00 3:00 / 3 ( 71 5,? (' 0.00 0.00 0.00 0.00 3:15 / 73 6g 7 0.00 0.00 0.00 0.00 3:30 ? ( '71 (0 3 7C) 0.00 0.00 0.00 0.00 3:45 a / 7 6 4 / 0.00 0.00 0.00 0.00 4:00 3 3 / '7 Co. / -74, 0.00 0.00 0.00 0.00 Output pf= 1 M G E UPS SYSTEMS UPS Al Burn In L LEE TECHNOL OGEES GROUP Mission Critical Solution s 12150 Monument Drive, Suite 150 Fairfax, VA 22033. (703) 968 -0300 Phone (703) 654 -3680 Fa 4 Input Values Time Vab Vbc Vac la 1 lb 1 lc KwA 1 KwB KwC 1 Total % 0 5159 4457 7/0) 7,' /513 0.00 0.00 0.00 0.00 0:15 s'g &? ST 5" 1 0.00 0.00 0.00 0.00 0:30 67,0, 71(o i a-i 4;g3 0.00 0.00 0.00 0.00 0:45 (' d Q' 1 t io q 3 0.00 0.00 0.00 0.00 1:00 r q '/ tco ar, 9 3 0.00 0.00 0.00 0.00 1:15 45-6- v3---9 c,c--- 7 a _ .7a-C co 8' 0.00 0.00 0.00 0.00 1:30 s (� / 5 7 I). ar _ & 9 3 0.00 0.00 0.00 0.00 1:45 S-5- Si 5 -7! (0 `7D ' _ q-') 0.00 0.00 0.00 0.00 2:00 Sa ,- q 51 1(0 _ &f3 0.00 0.00 0.00 0.00 2:15 S'l sa' , y c3 0.00 0.00 0.00 0.00 2:30 (0 8 b I co A- 62/3 0.00 0.00 0.00 0.00 2:45 1 7 (.. .23' c 3 0.00 0.00 0.00 0.00 3:00 b - g 6" /c., (/ 6 (ff o.00 o.o0 0.00 0.00 3:15 te 0 6'01 51' /b 6,7% 0.00 0.00 0.00 0.00 3:30 5 1 6c; ; go a (`/7 0.00 0.00 0.00 0.00 3:45 ; (GO 51 / /v 4gUr 9 0.00 0.00 0.00 0.00 4:00 g 61 5ij 71& '"7 _ Co .7 0.00 0.00 0.00 0.00 Average #DIV /0! Efficiency Input pf= 0.95 M G E UPS SYSTEMS UPS Al Burn In 3 LEE TECFtNOL OGLES GROUP Mission Critical Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 220333 (703) 968-0300 Phone (703) 654-3680 Fax Output Values Time Vab Vbc Vac la lb 1 lc Kwa 1 Kwb Kwc Total qk3 `1J/ L/S-0 ,6-6 0 57 5 573 0.00 0.00 0.00 0.00 0:15 _ a. 5 3 6 4. _ 7' 0.00 0.00 0.00 0.00 0:30 1 0 t 8-5 '7 3 0.00 0.00 0.00 0.00 0:45 ). i '7 5 6-7 c.o 3 i< 0.00 0.00 0.00 0.00 0.00 1:00 .2. , i(i 71 77 0.00 0.00 0.00 1:15 4/ ra. 4;r'O g- 0 570 9 570 5? r 0.00 0.00 0.00 0.00 1:30 fr a F6 “3. 17 1 % 5 70° 0.00 0.00 0.00 0.00 1:45 '3 1 7 7 (07 -70 15' 0.00 0.00 0.00 0.00 2:00 • t / 61 7c -7c" 0.00 0.00 0.00 0.00 2:15 3 i , W7 7S'G 0.00 0.00 0.00 0.00 2 :30 .3 D 6 3 70 7 s 0.00 0.00 0.00 0.00 2:45 / / 7f4 -7' -73 0.00 0.00 0.00 0.00 3:00 0.2 / / Co 3 (o Y G (o 0.00 0.00 0.00 0.00 3:15 oZ e2 0 (P S 6 y 7 ( 0.00 0.00 0.00 0.00 3:30 / / ? SZo 70 10 0.00 0.00 0.00 0.00 3:45 if 0 ,5"-8 -70 efa 0.00 0.00 0.00 0.00 4:00 3 i d 6,3- IJ" Y 0.00 0.00 0.00 0.00 Output pf= 1 M G E UPS SYSTEMS UPS Al Burn In LEE TECHNOL OGLES GROUP Mission Critical Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654 -3680 Fax Input Values Time 1 Vab Vbc Vac 1 la j lb 1 lc KwA 1 KwB 1 KwC 1 Total //;l/ 4/5-7 '-/sS` '700 `% /I 7� o.o0 0.00 0.00 0.00 0:15 5` �, 5 -70Y _ -7 c( t 0.00 0.00 0.00 0.00 0:30 1 j a. (a p T" tea- 0.00 0.00 0.00 0.00 0:45 „2- 1 6 / 8 0.00 0.00 0.00 0.00 1:00 ' 1 to 0 ` 13 r e 0.00 0.00 0.00 0.00 1:15 (f 7 to -7 v 1 r r -7/6) 0.00 0.00 0.00 0.00 1:30 1 7 ON i t i 0.00 0.00 0.00 0.00 1:45 5 g -01-1 -i i S` -7a, 0.00 0.00 0.00 0.00 2:00 V '7 ' ---1 41 4.1, 0.00 0.00 0.00 0.00 2:15 q V 4).7 0.00 0.00 0.00 0.00 2:30 1 I /v a 1 /6 0.00 0.00 0.00 0.00 2:45 1 (B 41- f. 0.00 0.00 0.00 0.00 3:00 tr co e 1 . 0.00 0.00 0.00 0.00 3:15 V (yp ov 11 a 0.00 0.00 0.00 0.00 3:30 0-7 04( 11 .25- 0.00 0.00 0.00 0.00 3:45 �j {p �/j OS/ 1/ 0.00 0.00 0.00 0.00 4:00 -1 .7 -'1 0 y 11 it 0.00 0.00 0.00 0.00 Average #DIV /0! Efficiency Input pf= 0.95 y77 t� r 40 Ili IP Ili (09 4179. Li 7(fi 47 (0 tt7( 117t if7� 447 Y 4 -7-7 M E �s UPS SY.11 -EMS a )-3v �a 2-a-/ a 9-D.6, (7G(, / ( J 4 - 2 9 5 277Si 2 )-I(g r3 -7y 1? a Flo UPS Al Burn In LEE TEGMNOL OGLES GROUP Mission Critical Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 221:33 (703) 966 -0300 Phone (703) 654 -3680 Fax Output Values Time 1 Vab Vbc Vac la 1 lb lc Kwa 1 Kwb 1 Kwc Total Y J- bl O sz 7 6-2o 576 0.00 0.00 0.00 0.00 0:15 0 90-- 7 _ $ 'IV 0.00 0.00 0.00 0.00 0:30 / 1 "7 9 6 -4,6---', 578 57 ( 0.00 0.00 0.00 0.00 0:45 ( 0 -0 / (-( -7k 7 3 0.00 0.00 0.00 0.00 too (9 o O tom 7 -71 0.00 0.00 0.00 0.00 1:15 a L-, _ (, .3 & 5. ',lP 0.00 0.00 0.00 0.00 1:30 / o o C .0 c --7 3 0.00 0.00 0.00 0.00 1:45 0 0 ( i, h -7 (Q 6 (c) 0.00 0.00 0.00 0.00 2:00 6 ( v 61 / (o •) (D ( 0.00 0.00 0.00 0.00 2:15 ( ( b (.2/ 4,-3._ 6, 0.00 0.00 0.00 0.00 2:30 1 O v 67 .73 -75 0.00 0.00 0.00 0.00 2:45 U 0 o 71 76, 7 7 0.00 0.00 0.00 0.00 3:00 O 1 6 7y' '7/ 77 0.00 0.00 0.00 0.00 3:15 0 / -75 co -7,y 7." 0.00 0.00 0.00 0.00 3:30 V / 79' 671 7 ' -7 7 0.00 0.00 0.00 0.00 3:45 ( / b 64 to$ 0.00 0.00 0.00 0.00 4:00 / .7 7 7 g Fo 7f 0.00 0.00 0.00 0.00 Output pf= 1 M G E UPS SYSTEMS UPS AI Battery Discharge Time 1 VBArr (Barr ‘' 11E1 Total time on battery LOIN 0:00:20 mum lisTini 0:00:40 Uffailli al 0:01:00 LTLr3 KFI7 I 0:01:20 aram era* .i 0:01:40 log j( 51L7T 0:02:00 alaallakirm 0:03:00 I1Ii 0:04:00 NEEMQA 0:05:00 -- I �' "7,4 0:06:00 <:IL`� - 1, 0:07:00 LIZINEINOWEI 0:08 :00 E�timEry 0:09:00 0:10:00 0:11:00 0:12:00 0:13:00 0:14:00 0:15:00 0:16:00 0:17:00 0:18:00 0:19:00 g tz Low battery shutdown warning: Off Time transferred to bypass: Total time on battery 0:00:00 M G E UPS SYSTEMS LEE TECHIVOL OGIES GROUP Mission Critical Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654 -3680 Feu, UPS Al Battery Discharge Time ( VBArr IBATT L' rlia1111 W 311 0:00:20 umgr frzi 0:00:40 IMMINIMEll 0:01:00 gaigins. d.'4 0:01:20 Eiliminatio 0:01:40 �c io 0:02:00 M•'ill�IF I 0:03:00 `k. aril 11M1 0:04:00 guise 0:05:00 `!f'ga %'1 0:06:00 Ern, wry 0 :07:00 gum,:7 0:08:00 KC. -11 i 0:09:00 0:10:00 0:11:00 0:12:00 0:13:00 0:14:00 0:15:00 0:16:00 0:17:00 0:18:00 0:19:00 uyi `/4oy4 Low battery shutdown warning: Time transferred to bypass: 0:00:00 Total time on battery M G E UPS SYSTEMS uV's_S —2_ ADZ% coif LEE TECHNOL OGLES GROUP Mission Critical Solutions 12150 Monument Drive, Sufte 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654 -3680 Fax UPS Al Battery Discharge Time 1/Barr Isarr MILL %I1111111 0:00 :00 0:00:20 riltAIIIMill 0:00:40 Lg�umnam m" W1- 0:01:00 0:01:20 En= - j -30 0:01:40 ELTIP!EI , 04 0:02:00uslQinjl 0:03:00 rata 0:04:00 Li _t]`ig � 0:05:00 L &( azi, 0:06:00 LER . 1 01/4 0:07:00 If f - 1 34 0:08:00 ('0c' ` (781 0:09:00 0:10:00 0:11:00 0:12:00 0:13:00 0:14:00 0:15:00 0:16:00 0:17:00 0:18:00 0:19:00 LEE TECHNOLOGIES GROUP Mission Critical Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654 -3680 Fir. L(LC ( 6f6 vtA 143n Low battery shutdown warning: Time transferred to bypass: Total time on battery 0:00 :00 M G E UPS SYSTEMS UPS AI Battery Discharcte Time ( VBATT !Barr re() )'(q -14 0:00:20 51( ? — 7,9 0:00:40 Lit( — I g3� �A 0:01:00 k ley3 SJR -15-P4 0:01:20 !� 0:01:40 't► 0:02:00 116 -1 5-P3 4 0:03:00 (( s 0:04:00 35' -1 r(f t 0:05:00 t13L --I 1,23A, 0:06:00 -i, L{( '(1 r €4 0 :07:00 - /701.4 0:08:00 t.(p - MIA 0:09:00 0:10:00 0:11:00 0:12:00 0:13:00 0 :14:00 0:15:00 0:16:00 0:17:00 0:18:00 0:19:00 Low battery shutdown warning: 5=01 Time transferred to bypass: Total time on battery 0:00:00 M G E UPS SYSTEMS up5 3 (JC/ LEE IECHNOL OGLES GROUP Mission Critical Solutions 12150 Monument Drive, Suite 150 Fairfax, VA 22033 (703) 968 -0300 Phone (703) 654 -3680 Fa,: Ce -34 4141'm 1 2006 Washington State Nonresidential Energy Code Compliance Form Project Summary PRJ -SUM 2006 Washington State Nonresidential Energy Code Compliance Forms Revised July 2007 Project Info Project Address 3355 S. 120TH PLACE Date 2/26/2010 TUKWILA, WA 98168 For Building Department Use Applicant Name: INTERNAP NETWOK SERVICES Applicant Address: 250 WILLIAMS ST. ATLANTA GA 30303 Applicant Phone: 404- 302 -9700 mew" PentiK No• M C APR072010 Cityof U RECEIVED MAR 0 2 2010 PERMIT CENTER 2006 Washington State Nonresidential Energy Code Compliance Form Mechanical Summary MECH -SUM 2006 Washington State Nonresidential Energy Code Compliance Forms Revised July 2007 Project Info Project Address 3355 S. 120TH PLACE Date 2/26/2010 Capacity2 Btu /h TUKWILA, WA 98168 For Building Dept. Use SEER or EER IPLV3 Applicant Name: INTERWAR NETWOK SERVICES Applicant Address: 250 WILLIAMS ST. ATLANTA GA 30303 Applicant Phone: 404- 302 -9700 Project Description Briefly describe mechanical system type and features. Includes Plans 1103 Section Drawings must contain notes requireing compliance with commissioning niinng requirements - Se Compliance Option Q Simple System Q Complex System Q Systems Analysis (See Decision Flowchart (over) far qualifications. Usja,separate MECH -SUM for simple & complex systems.) Equipment Schedules The following information is required to ba incorporated with the mechanical equipment schedules on the plans. For projects without plans, fill in the required information below. Cooling Equipment Schedule , . , 2; 1.. -- Equip. ID Brand Name' Model No.1 Capacity2 Btu /h Total CFM OSA CFM or Econo? SEER or EER IPLV3 Location RTU 3 -1 /3- 5 MCQUAY RDT130D 1322000 49000 ECONO 9.8 EER N.A. ROOF CRAC 3 -1 /3- 4 STULZ VFS- 240 -DG -D 326144 10250 ECONO 10.0 EER N.A. 1ST FLR DC 3 -1 /3- 2 STULZ S -MFH 082A 665000 87000 N.A. 10.0 EER N.A. ROOF 0 tYla\ OC4'° u Heating Equipment Schedule Equip. ID Brand Name' Model No.1 Capacity2 Btu/h Total CFM OSA cfm or Econo? Input Btuh Output Btuh Efficiency° GREENHECK BDF- 180 -20 5500 1.00 2.0/1.83 Vs TRANSFORMER ROOM TF 3S- 1/2 GRBENHECK BCF -206 -7 1200 1.00 0.75/0.59 VS SWITCHGEAR ROOM TF 30- 1/2 G EENHECK BDF- 200 -100 13000 1.25 10.0/9.16 vs UPS ROOM Fan Equipment Schedule Equip. ID Brand Name' Model No.1 CFM Sp1 HP /BHP Flow Controls Location of Service TF 3T- 1/2 GREENHECK BDF- 180 -20 5500 1.00 2.0/1.83 Vs TRANSFORMER ROOM TF 3S- 1/2 GRBENHECK BCF -206 -7 1200 1.00 0.75/0.59 VS SWITCHGEAR ROOM TF 30- 1/2 G EENHECK BDF- 200 -100 13000 1.25 10.0/9.16 vs UPS ROOM 0 tYla\ OC4'° u • 1lf available. 2 As tested according to Table 14 -1A thro °ugh44 -1 If req140. 4 CO PF, Cogiibustioh E ficiency, or AFUE, as applicable. 5 Flow control types: variable air volume(VAV), constant volume (CV), or variable speed (v S). 6 q 2006 Washington State Nonresidential Energy Code Compliance Form Mechanical Summary (back) MECH -SUM System Description See Section 1421 for full description of Simple System qualifications. If Heating/Cooling or Cooling Only: ri Constant vol? IS Air cooled? IN Packaged sys? • <20,000 Btuh? 0 Split system? IN Economizer included? If Heating Only: ❑ <5000 cfm? • <70% outside air? Decision Flowchart Use this flowchart to determine if project qualifies for Simple System Option. If not, either the Complex System or Systems Analysis Options must be used. Heating Only Heating /Cooling or Cooling Only Reference Section 1421 Yes — No ( Reference Section 1423 Simple System Allowed (section 1420) otal Ca . wo economize <240,000 Btuh or 10 %? Complex Systems Refer to MECH -COMP Mechanical Complex Systems for assistance in determining which Complex Systems requirements are applicable to this project. 2006 Washington State Nonresidential Energy Code Compliance Form Mechanical - Complex Systems Checklist Energy Code Compliance Forms MECH -COMP Revised July 2007 2006 Washington State Nonresidential Project Address 3355 S. 120TH PLACE Date 2/26/2010 The following additional information is necessary to check a mechanical permit application for a complex mechanical system for compliance with the mechanical requirements in the Washington State Nonresidential Energy Code. Use the checklist as a reference for notes added to the mechanical drawings (see the MECH - CHK checklist for additional system requirements). This information must be on the plans since this is the official record of the permit. Having this information in separate specifications alone is NOT an acceptable altemative. For Building Department Use Applicability (yes, no, n.a.) Code Section Component Information Required Location on Plans Building Department Notes ADDITIONAL CHECKLIST ITEMS FOR COMPLEX SYSTEMS ONLY n.a . 1431.1 Field assem. sys. Provide calculations n.a. 1432.1 Setback & shut -off Indicate separate systems or show isolation devices on plans n . a . 1432.2.1 Air system reset Indicate automatic reset n.a. 1432.2.2 Hydronic System Indicate automatic reset, cooling tower, & heat pump loop valves yes 1433 Air Economizer Indicate economizer on equipment schedule or provide calculations to justify exemption and demonstrate 10% higher efficiency for equipment with out economizer. M002 n.a. 1433 Water Economizer Indicate water economizer and provide calculations if 1433 Exception 2 is utilized n.a. 1434 Separate air sys. Indicate separate systems on plans n.a. 1435 Simul. htg. & clg. Indicate that simultaneous heating and cooling is prohibited, unless use of exception is justified n. a. 1436 Heat recovery Indicate heat recovery on plans; complete and attach heat recovery calculations n.a. 1437 Elec. motor effic. MECH -MOT or Equip. Schedule with hp, rpm, efficiency yes 1438 Variable flow sys. Indicate variable flow on fan and pump schedules M002 n.a. 1439.1 Kitchen Hoods Indicate uncooled and unheated make -up air n.a. 1439.2 Fume Hoods Indicate VAV, unheated/uncooled or heat rec. makeup If "no" is circled for any question, provide explanation: Decision Flowchart Use this flowchart to determine how the requirements of the Complex Systems Option apply to the project. Refer to the indicated Code sections for more complete information on the requirements. Start Here Section 1411.1 Equipmen Efficiency Shall Meet Tables 141A through 14-1G as/Oil Fumac input? 225,000 h or Gas/O 't Heat ny Fuel Furnac input ? 225,000 Btuh? ield - Assemble Equipment? Air System Serving Multiple Zones? pacity of Heating System > 00,000 Btuh' Yes Yes Yes Yes No 1411.1 Intermittent Ignition Device & Power Venting or Damper. If input? 225,000 Btuh then 1412.6 Modulating or Staged Combustion Controls Required 1411.1 0.75% Maximum Jacket Loss Section 1431.1 Calculations of Total On -Site Energy Input & Ouput Required Section 1432.2.1 Supply Air Reset Controls Required Section 1432.2.2 Hot VVater Supply Temperature Reset Required (continued on back) Yes-110 2006 Washington State Nonresidential Energy Code Compliance Form Mechanical' - Complex Systems (back) MECH -COMP 2006 Washington State Nonresidential Energy Code Compliance Forms Yes 0 Total Clg Capacity w/ Water Econo <500 Tons Yes Yes tal Cap. cono <= 480,00 Btuh or 20% of otal Cap. Yes 0 ► Section 1433 Economizer Required Yes Yes? Section 1436 50% Effective Heat Recovery Required otorIncl.! qpmt. Coved by Tb114- 1A -14- 1G? stem or Zon w/ Simultaneous Htg. & Clg.? Multi -speed N Motor in Multi- > No-lo ed system? 0 Application Involves Variable Flow? Yes-to. Yes Yes Section 1435 Zone Controls Must Reduce Supply Air Quantity Before Reheating /Recooling Section 1437 Motors Must Meet Efficiencies in Table 14-4 Yes o No Section 1438 Variable Flow Devices Required Yes 0 0 DONE Yes♦ Yes ► Section 1439.1 No Heating or Cooling for at Least 50% of Make -up Air Yes Section 1439.2 One Required: a. 50% VAV Exhaust & Make -up b. 75% Direct Makeup w/ Tempering Only c. Heat Recovery per 1436 d. Constant Volume w/ < 50fpm Face Velocity Yes Revised July 2007 2006 Washington State Nonresidential Ener. Code Com.liance Form Electric Motors ME;CH -MOT 2006 Washington State Nonresidential Energy Code Compliance Forms Revised July 2007 Project Address 3355 3. 120TH PLACE Date 2/26/2010 Complete the following for all design A & B squirrel -cage, T -frame induction permanently wired polyphase motors from 1 hp to 200 hp having synchronous speeds of 3600, 1800 or 1200 rpm (unless one of the exceptions below applies). For Building Department Use Motor No. or Location HP Type (open /closed) Description of Application or Use Synch. Speed Min.Nom. Full load Efficiency N.A. ALL COMPLY WITH EXCEPTION # 1 & 2 ( M001 & M002 ) Minimum Nominal Full-Load Efficienc Synchronous Speed (RPM) HP 1.0 1.5 2.0 3.0 5.0 7.5 10 15 20 25 30 40 50 60 75 100 125 150 200 Open Motors Closed Motors 3,600 1 1,800 1,200 3,600 1 1,800 1,200 Efficiency ( %) Efficiency ( %) - 82.5 80.0 75.5 82.5 80.0 82.5 84.0 84.0 82.5 84.0 85.5 84.0 84.0 85.5 84.0 84.0 86.5 84.0 86.5 86.5 85.5 87.5 87.5 85.5 87.5 87.5 87.5 87.5 87.5 87.5 88.5 88.5 88.5 89.5 89.5 88.5 89.5 90.2 89.5 89.5 89.5 89.5 91.0 90.2 90.2 91.0 90.2 90.2 91.0 91.0 90.2 91.0 90.2 91.0 91.7 91.7 91.0 92.4 91.7 91.0 92.4 92.4 91.0 92.4 91.7 91.7 93.0 93.0 91.7 93.0 93.0 92.4 93.0 93.0 92.4 93.0 93.0 93.0 93.6 93.6 93.0 93.6 93.6 93.0 94.1 93.6 93.0 94.1 93.6 93.0 94.1 94.1 93.6 94.5 94.1 93.6 94.5 94.1 94.5 94.5 94.1 93.6 95.0 94.5 94.5 95.0 95.0 94.5 95.0 94.5 95.0 95.0 95.0 Exceptions: 1. Motors in systems designed to use more than one speed of a multi -speed motor. 2. Motors already included in the efficiency requirements for HVAC equipment (Tables 14- 1 A or 14-1B) . 3. Motors that are an integral part (i.e. not easily removed and replaced) of specialized process equipment (i.e. equipment which requires a special motor, such as an explosion - proof motor). 4. Motors integral to a listed piece of equipment for which no qualifying motor has been approved (i.e. if the only U.L. listing for the equipment is with a less- efficient motor and there is no energy - efficient motor option). For motors claiming an exception, list motor and note which exception applies. 2006 Washington State Nonresidential Enerav Code Compliance Form Mechanical Permit l, Plans Checklist Energy Code Compliance Forms MECH -CHK 2006 Washington State Nonresidential Revised July 2007 Project Address 3355 S. 120TH PLACE 'Date 2/26/2010 The following information is necessary to check a mechanical permit application for compliance with the mechanical requirements in the Washington State Nonresidential Energy Code. Applicability > es, no, n.a. I Code Section 'Component Information Required eq I Location on Plans I Building Department Notes HVAC REQUIREMENTS (Sections 1401 -1424) 1411 Equipment performance n • a . 1411.4 Pkg. elec. htg.& clg. List heat pumps on schedule yes 1411.1 Minimum efficiency Equipment schedule with type, capacity, efficiency M002 n. a • 1411.1 Combustion htg. Indicate intermittent ignition, flue/draft damper & jacket loss 1412 HVAC controls yes 1412.1 Temperature zones Indicate locations on plans M600 n • a . 1412.2 Deadband control Indicate 5 degree deadband minimum yes 1412.3 Humidity control Indicate humidistat M700 n • a . 1412.4 Automatic setback Indicate thermostat with night setback and 7 diff. day types yes 1412.4.1 Dampers Indicate damper location and auto. controls & max. leakage M600 n . a . 1412.4.2 Optimum Start Indicate optimum start controls n. a. 1412.5 Heat pump control Indicate microprocessor on thermostat schedule n. a. 1412.6 Combustion htg. Indicate modulating or staged control yes 1412.7 Balancing Indicate balancing features on plans M200 1412.8 Ventilation Control Indicate demand control ventilation for high- occupancy areas n . a . 1422 Thermostat interlock Indicate thermostat interlock on plans yes 1423 Economizers Equipment schedule M002 1413 Air economizers yes 1413.1 Air Econo Operation Indicate 100% capability on schedule M002 n . a . 1413.1 Wtr Econo Operation Indicate 100% capacity at 45 degF db & 40 deg F wb 0. a . 1413.2 Water Econo Doc Indicate clg load & water econoe & clg tower performance yes 1413.3 Integrated operation Indicate capability for partial cooling M600 yes 1413.4 Humidification Indicate direct evap or fog atomization w/ air economizer M002 1414 Ducting systems Yes 1414.1 Duct sealing Indicate sealing necessary Mool yes 1414.2 Duct insulation Indicate R -value of insulation on duct M001 Yes 1415.1 Piping insulation Indicate R -value of insulation on piping M001 1416 Completion Requirements yes 1416.2.1 Commissioning Provide commissioning plan M001 yes 1416.2.2 -3 Sys.Bal & Func.Test Indicate air and water system balancing & functional testing M001 yes 1416.2.4 Commissioning Indicate O &M manuals, record drawings, staff training M001 yes 1416.2.5 Comm. Report Indicate requirements for prelim. & final commissioning report M001 n • a. 1434 Separate air sys. Indicate separate systems on plans es Y I Mechanical Com leted and attached. Equipment schedule with types, r002 Summary Form (input/output, efficiency, cfm, hp, economizer I SERVICE WATER HEATING AND HEATED POOLS (Sections 1440 -1454) 1440 Service water htg. n • a . 1441 Elec. water heater Indicate R -10 insulation under tank n • a . 1442 Shut -off controls Indicate automatic shut -off n • a . 1443 Pipe Insulation Indicate R -value of insulation on piping n • a . 1452 Heat Pump COP Indicate minimum COP of 4.0 n • a . 1452 Heater Efficiency Indicate pool heater efficiency n • a . 1453 Pool heater controls Indicate switch and 65 degree control n . a . 1454 Pool covers Indicate vapor retardant cover n . a . 1454 Pools 90+ degrees Indicate R -12 pool cover no is circled for any question, provide explanation: 2006 Washin ton State Nonresidential Ener Code Com•liance Form • Mechanical Permit Plans Checklist MECH -CHK 2006 Washington State Nonresidential Energy Code Compliance Forms Revised July 2007 Mechanical - General Requirements 1411.1 General: Equipment shall have a minimum performance at the specified rating conditions not less than the values shown in Table 14 -1A through 14 -1G. If a nationally recognized certification program exists for a product covered in Tables 14 -1A through 14-1G, and it includes provisions for verification and challenge of equipment efficiency ratings, then the product shall be listed in the certification program. Gas -fired and oil -fired forced air furnaces with input ratings > 225,000 Btu /h (65 kW) and all unit heaters shall also have an intermittent ignition or interrupted device (IID), and have either mechanical draft (including power venting) or a flue damper. A vent damper is an acceptable alternative to a flue damper for furnaces where combustion air is drawn from the conditioned space. All furnaces with input ratings 225,000 Btu /h (65 kW), including electric furnaces, that are not located within the conditioned space shall have jacket losses not exceeding 0.75% of the input rating. 1411.2 Rating Conditions: Cooling equipment shall be rated at ARI test conditions and procedures when available. Where no applicable procedures exist, data shall be furnished by the equipment manufacturer. 1411.3 Combination Space and Service Water Heating: For combination space and service water heaters with a principal function of providing space heat, the Combined Annual Efficiency (CAE) may be calculated by using ASHRAE Standard 124 -1991. Storage water heaters used in combination space heat and water heat applications shall have either an Energy FActor (EF) or a CAE of not less than the following: 1411.4 Packaged Electric Heating and Coo ing Equipment: Packaged electric equipment providing both heating and cooling with a total cooling capacity greater than 20, Btu /h shall be a heat pump. Exception: Unstaffed equipment shaelters or cabinets used solely for personal wireless service facilities. 1412 Controls 1412.1 Temperature Controls: Each system shall be provided with at least one temperature control device. Each zone shall be controlled by individual thermostatic controls responding to temperature within the zone. At a minimum, each floor of a building shall be considered as a separate zone. 1412.2 Deadband Controls: When used to control both comfort heating and cooling, zone thermostatic controls shall be capable of a deadband of at least 5 degrees F within which the supply of heating and cooling energy to the zone is shut off or reduced to a minimum. Exceptions: 1. Special occupancy, special usage, or code requirements where deadband controls are not appropriate. 2. Buildings complying with Section 1141.4, if in the proposed building energy analysis, heating and cooling thermostat setpoints are set to the same temperature between 70 degrees F and 75 degrees F inclusive, and assumed to be constant throughout the year. 3. Thermostats that require manual changeover between heating and cooling modes. 1412.3 Humidity Controls: If a system is equipped with a means for adding moisture, a hum idistat shall be provided. 1412.4 Setback and Shut -Off: HVAC systems shall be equipped with automatic controls capable of accomplishing a reduction of energy use through control setback or equipment shutdown during periods of non -use or alternate use of the spaces served by the system. The automatic controls shall have a minimum seven -day clock and be capable of being set for seven different day types per week. It must retain programming and time for a power loss of 10 hours and include an accessible manual override of up to 2 hours. Exceptions: 1. Systems serving areas which require continuous operation at the same temperature setpoint. 2. Equipment with full load demands of 2 kW (6,826 Btu /h) or less may be controlled by readily accessible manual off -hour controls. 3. Systems controlled by an occupant sensor that is capable of shutting the system off when no occupant is sensed for a period of up to 30 minutes. 4. Systems controlled solely by a manually operated timer capable of operating the system for no more than two hours. 1412.4.1 Dampers: Outside air intakes, exhaust outlets and relief outlets serving conditioned spaces shall be equipped with dampers which close automatically when the system is off or upon power failure. Stair shaft and elevator shaft smoke relief openings shall be equipped with normally open (fails to open upon loss of power) dampers. These dampers shall remain closed until activated by the fire alarm system or other approved smoke detection system. Exceptions: 1. Systems serving areas which require continuous operation. 2. Combustion air intakes. 3. Gravity (nonmotorized) dampers are acceptable in buildings less than 3 stories in height. 4. Gravity (nonmotorized) dampers are acceptable in exhaust and relief outlets in the first story and levels below the first story of buildings three or more stories in height. 1412.4.2 Optimum Start Controls: Heating and cooling systems with design supply air capacities exceeding 10,000 cfm shall have optimum start controls. Optimum 1412.8 Ventilation Controls for High- Occupancy Areas: Demand control ventilation (DCV) is required for spaces that are larger than 500 ft2, have a design occupancy for ventilation of greater than 40 people for 1000 ft2 of floor area, and are served by systems with one or more of the following: a. An air -side economizer, b. Automatic modulating control of the outdoor air damper, or c. A design outdoor airflow greater than 3000 cfm. Exceptions: 1.Systems with energy recovery complying with Section 1436. 2. Multiple -zone systems without direct - digital control of individual zones communicating with a central control panel. 3. Systems with a design outdoor airflow less than 1200 cfm. 4. Spaces where the supply airflow rate minus any makeup or outgoing transfer air requirement is less than 1200 cfm. 1413 Air Economizers 1413.1 Operation: Air economizers shall be of automatically modulating outside and retum air dampers to provide 100 percent of the design supply air as outside air to reduce or eliminate the need for mechanical cooling. Water economizers shall be capable of providing the total concurrent cooling load served by the conneted terminal equipment lacking airside economizer, at outside air temperatures of 45 °F dry- bulb /40 °F wet -bulb and below. For this calculation, all factors including solar and internal load shall be the same as those used for peak load calculations, except for the outside temperatures. Exception: Water economizers using air - cooled heat rejection equipment may use a 35 °F dry-bulb outside air temperature for this calculation. This exception is limited to a maximum of 20 tons per building. 1413.2 Documentation: Water economizer plans submitted for approval shall include the following information: 1. Maximum outside air conditions for which economizer is sized to provide full cooling. 2. Design cooling load to be provided by economizer at this outside air condition. 3. Heat rejection and terminal equipment performance data including model number, flow rate, capacity, entering and leaving temperature in full economizer cooling mode. 1413.3 Integrated Operation: Air economizers shall be capable of providing partial cooling even when additional mechanical cooling is required to meet the remainder of the cooling load. Exceptions: 1. Individual, direct expansion units that have a rated capacity less than 65,000 Btu /h and use nonintegrated economizer controls that preclude simultaneous operation of the economizer and mechanical cooling. 2. Water - cooled water chillers with waterside economizer, 1413.4 Humidification: If an air economizer is required on a cooling system for which humidification equipment is to be provided to maintain minimum indoor humidity levels, then the humidifier shall be of the adiabatic type (direct evaporative media or fog atomization type). Exceptions: 1. Health care facilities where WAC 246 - 320 -525 allows only steam injection humidifiers in ductwork downstream of final filters. 1412.6 Combustion Heating Equipment Controls: Combustion heating equipment with a capacity over 225,000 Btu /h shall have modulating or staged combustion control. 2. Systems with water economizer 3. 100% outside air systems with no provisions for air recirculation to the central supply fan, 4. Nonadiabatic humidifiers cumulatively serving no more than 10% of a building's air economizer capacity as measured in cfm. This refers to the system cfm serving rooms with stand alone or duct mounted humidifiers. 1414 Ducting Systems 1414.1 Sealing: Duct work which is designed to operate at pressures above 1/2 inch water column static pressure shall be sealed in accordance with Standard RS -18. Extent of sealing required is as follows: 1. Static pressure: 1/2 inch to 2 inches; seal transverse joints. 2. Static pressure: 2 inches to 3 inches; seal all transverse joints and longitudinal seams. 3. Static pressure: above 3 inches; seal all transverse joints, longitudinal seams and duct wall penetrations. Duct tape and other pressure sensitive tape shall not be used as the primary sealant where ducts are designed to operate at static pressures of 1 inch W.C. or greater. 1414.2 insulation: Ducts and plenums that are constructed and function as part of the building envelope, by separating interior space from exterior space, shall meet all applicable requirements of Chapter 13. These requirements include insulation installation, moisture control, air leakage, and building envelope insulation levels. Unheated equipment rooms with combustion air louvers must be isolated from the conditioned space by insulating interior surfaces to a minimum of R -11 and any exterior envelope surfaces per Chapter 13. Outside air ducts serving individual supply air units with less than 2,800 cfm of total supply air capacity shall be insulated to a minimum of R -7 and are not considered building envelope. Other outside air duct runs are considered building envelope until they, 1. connect to the heating or cooling equipment, or 2. are isolated from the exterior with an automatic shut -off damper complying with Section 1412.4.1. EF CAE < 50 gal storage 0.58 0.71 50 to 70 gal storage 0.57 0.71 > 70 gal storage 0.55 0.70 1411.4 Packaged Electric Heating and Coo ing Equipment: Packaged electric equipment providing both heating and cooling with a total cooling capacity greater than 20, Btu /h shall be a heat pump. Exception: Unstaffed equipment shaelters or cabinets used solely for personal wireless service facilities. 1412 Controls 1412.1 Temperature Controls: Each system shall be provided with at least one temperature control device. Each zone shall be controlled by individual thermostatic controls responding to temperature within the zone. At a minimum, each floor of a building shall be considered as a separate zone. 1412.2 Deadband Controls: When used to control both comfort heating and cooling, zone thermostatic controls shall be capable of a deadband of at least 5 degrees F within which the supply of heating and cooling energy to the zone is shut off or reduced to a minimum. Exceptions: 1. Special occupancy, special usage, or code requirements where deadband controls are not appropriate. 2. Buildings complying with Section 1141.4, if in the proposed building energy analysis, heating and cooling thermostat setpoints are set to the same temperature between 70 degrees F and 75 degrees F inclusive, and assumed to be constant throughout the year. 3. Thermostats that require manual changeover between heating and cooling modes. 1412.3 Humidity Controls: If a system is equipped with a means for adding moisture, a hum idistat shall be provided. 1412.4 Setback and Shut -Off: HVAC systems shall be equipped with automatic controls capable of accomplishing a reduction of energy use through control setback or equipment shutdown during periods of non -use or alternate use of the spaces served by the system. The automatic controls shall have a minimum seven -day clock and be capable of being set for seven different day types per week. It must retain programming and time for a power loss of 10 hours and include an accessible manual override of up to 2 hours. Exceptions: 1. Systems serving areas which require continuous operation at the same temperature setpoint. 2. Equipment with full load demands of 2 kW (6,826 Btu /h) or less may be controlled by readily accessible manual off -hour controls. 3. Systems controlled by an occupant sensor that is capable of shutting the system off when no occupant is sensed for a period of up to 30 minutes. 4. Systems controlled solely by a manually operated timer capable of operating the system for no more than two hours. 1412.4.1 Dampers: Outside air intakes, exhaust outlets and relief outlets serving conditioned spaces shall be equipped with dampers which close automatically when the system is off or upon power failure. Stair shaft and elevator shaft smoke relief openings shall be equipped with normally open (fails to open upon loss of power) dampers. These dampers shall remain closed until activated by the fire alarm system or other approved smoke detection system. Exceptions: 1. Systems serving areas which require continuous operation. 2. Combustion air intakes. 3. Gravity (nonmotorized) dampers are acceptable in buildings less than 3 stories in height. 4. Gravity (nonmotorized) dampers are acceptable in exhaust and relief outlets in the first story and levels below the first story of buildings three or more stories in height. 1412.4.2 Optimum Start Controls: Heating and cooling systems with design supply air capacities exceeding 10,000 cfm shall have optimum start controls. Optimum 1412.8 Ventilation Controls for High- Occupancy Areas: Demand control ventilation (DCV) is required for spaces that are larger than 500 ft2, have a design occupancy for ventilation of greater than 40 people for 1000 ft2 of floor area, and are served by systems with one or more of the following: a. An air -side economizer, b. Automatic modulating control of the outdoor air damper, or c. A design outdoor airflow greater than 3000 cfm. Exceptions: 1.Systems with energy recovery complying with Section 1436. 2. Multiple -zone systems without direct - digital control of individual zones communicating with a central control panel. 3. Systems with a design outdoor airflow less than 1200 cfm. 4. Spaces where the supply airflow rate minus any makeup or outgoing transfer air requirement is less than 1200 cfm. 1413 Air Economizers 1413.1 Operation: Air economizers shall be of automatically modulating outside and retum air dampers to provide 100 percent of the design supply air as outside air to reduce or eliminate the need for mechanical cooling. Water economizers shall be capable of providing the total concurrent cooling load served by the conneted terminal equipment lacking airside economizer, at outside air temperatures of 45 °F dry- bulb /40 °F wet -bulb and below. For this calculation, all factors including solar and internal load shall be the same as those used for peak load calculations, except for the outside temperatures. Exception: Water economizers using air - cooled heat rejection equipment may use a 35 °F dry-bulb outside air temperature for this calculation. This exception is limited to a maximum of 20 tons per building. 1413.2 Documentation: Water economizer plans submitted for approval shall include the following information: 1. Maximum outside air conditions for which economizer is sized to provide full cooling. 2. Design cooling load to be provided by economizer at this outside air condition. 3. Heat rejection and terminal equipment performance data including model number, flow rate, capacity, entering and leaving temperature in full economizer cooling mode. 1413.3 Integrated Operation: Air economizers shall be capable of providing partial cooling even when additional mechanical cooling is required to meet the remainder of the cooling load. Exceptions: 1. Individual, direct expansion units that have a rated capacity less than 65,000 Btu /h and use nonintegrated economizer controls that preclude simultaneous operation of the economizer and mechanical cooling. 2. Water - cooled water chillers with waterside economizer, 1413.4 Humidification: If an air economizer is required on a cooling system for which humidification equipment is to be provided to maintain minimum indoor humidity levels, then the humidifier shall be of the adiabatic type (direct evaporative media or fog atomization type). Exceptions: 1. Health care facilities where WAC 246 - 320 -525 allows only steam injection humidifiers in ductwork downstream of final filters. 1412.6 Combustion Heating Equipment Controls: Combustion heating equipment with a capacity over 225,000 Btu /h shall have modulating or staged combustion control. 2. Systems with water economizer 3. 100% outside air systems with no provisions for air recirculation to the central supply fan, 4. Nonadiabatic humidifiers cumulatively serving no more than 10% of a building's air economizer capacity as measured in cfm. This refers to the system cfm serving rooms with stand alone or duct mounted humidifiers. 1414 Ducting Systems 1414.1 Sealing: Duct work which is designed to operate at pressures above 1/2 inch water column static pressure shall be sealed in accordance with Standard RS -18. Extent of sealing required is as follows: 1. Static pressure: 1/2 inch to 2 inches; seal transverse joints. 2. Static pressure: 2 inches to 3 inches; seal all transverse joints and longitudinal seams. 3. Static pressure: above 3 inches; seal all transverse joints, longitudinal seams and duct wall penetrations. Duct tape and other pressure sensitive tape shall not be used as the primary sealant where ducts are designed to operate at static pressures of 1 inch W.C. or greater. 1414.2 insulation: Ducts and plenums that are constructed and function as part of the building envelope, by separating interior space from exterior space, shall meet all applicable requirements of Chapter 13. These requirements include insulation installation, moisture control, air leakage, and building envelope insulation levels. Unheated equipment rooms with combustion air louvers must be isolated from the conditioned space by insulating interior surfaces to a minimum of R -11 and any exterior envelope surfaces per Chapter 13. Outside air ducts serving individual supply air units with less than 2,800 cfm of total supply air capacity shall be insulated to a minimum of R -7 and are not considered building envelope. Other outside air duct runs are considered building envelope until they, 1. connect to the heating or cooling equipment, or 2. are isolated from the exterior with an automatic shut -off damper complying with Section 1412.4.1. Exceptions:It� 2. Combustion a r intakes. ta�� �t to Winresiden 3. Gravity (nonmotorized) dampers are acceptable in buildings less than 3 stories in height. 4. Gravity (nonmotorized) dampers are acceptable in exhaust and relief outlets in the first story and levels below the first story of buildings three or more stories in height. 1412.4.2 Optimum Start Controls: Heating and cooling systems with design supply air capacities exceeding 10,000 cfm shall have optimum start controls. Optimum start controls shall be designed to automatically adjust the start time of an HVAC system each day to bring the space to desired occupied temperature levels immediately before scheduled occupancy. The control algorithm shall, as a minimum, be a function of the difference between space temperature and occupied setpoint and the amount of time prior to scheduled occupancy. 1412.5 Heat Pump Controls: Unitary air cooled heat pumps shall include microprocessor controls that minimize supplemental heat usage during start-up, set- up, and defrost conditions. These controls shall anticipate need for heat and use compression heating as the first stage of heat. Controls shall indicate when supplemental heating is being used through visual means (e.g., LED indicators). 1412.6 Combustion Heating Equipment Controls: Combustion heating equipment with a capacity over 225,000 Btu /h shall have modulating or staged combustion control. 000 EXCEPTIONS: 1. Boilers. 2. Radiant heaters. 1412.7 Balancing: Each air supply outlet or air or water terminal device shall have a means for balancing, including but not limited to, dampers, temperature and pressure test connections and balancing valves. O JSR.au,o 104111101110111.0 VI vna),a, , J. 1 11/170.0 •oyuucuionm ui w installation, moisture control, air leaks e, and building envelope insulation levels. tialeErmagr Godes }v� ainoe'Fort-must be isolated from the conditioned space by insulating interior surfaces to a minimum of R -11 and any exterior envelope surfaces per Chapter 13. Outside air ducts serving individual supply air units with less than 2,800 cfm of total supply air capacity shall be insulated to a minimum of R -7 and are not considered building envelope. Other outside air duct runs are considered building envelope until they, 1. connect to the heating or cooling equipment, or 2. are isolated from the exterior with an automatic shut -off damper complying with Section 1412.4.1. Once outside air ducts meet the above listed requirements, any runs within conditioned space shall comply with Table 14 -5 requirements. Other ducts and plenums shall be thermally insulated per Table 14 -5. Exceptions: 1. Within the HVAC equipment. 2. Exhaust air ducts not subject to condensation. 3. Exposed ductwork within a zone that serves that zone. 1415 Piping Systems 1415.1 Insulation: Piping shall be thermally insulated in accordance with Table 14 -6. Exception: Piping installed within unitary HVAC equipment. Water pipes outside the conditioned space shall be insulated in accordance with Washington State Plumbing Code (WAC 51 -26) 1416 Completion Requirements (Refer to NREC Section 1416 and the Building Commissioning Guidelines, published by the Building Commissioning Association, for complete text and guidelines for building completion and commissioning requirements.) Phi PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER: M10 -030 DATE: 03 -02 -10 PROJECT NAME: INTERNAP NETWORK SERVICES SITE ADDRESS: 3355 S 120 PL X Original Plan Submittal Response to Incomplete Letter # Response to Correction Letter # _ Revision # After Permit Issued DEPARTMENTS: D ye( AT Public Works /hi\ AINg, Ciff Fire Prevention Structural Planning Division n Permit Coordinator la DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete a Incomplete n DUE DATE: 03 -04 -10 Not Applicable n Comments: Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: TUES/THURS ROUTING: Please Route Structural Review Required ❑ No further Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: Approved ❑ Approved with Conditions \K:1 Notation: REVIEWER'S INITIALS: DUE DATE: 04 -01-10 Not Approved (attach comments) DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: Documents/routing slip.doc 2 -28 -02 ERM9T COO (COPY PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER: M10 -030 DATE: 05/10/10 PROJECT NAME: INTERNAP NETWORK SERVICES SITE ADDRESS: 3355 S 120.1'L Original Plan Submittal Response to Correction Letter # Response to Incomplete Letter # X Revision # 1 after Permit Issued DEPART ENTS: ui ding ivision Public Works s -2.0-10 1®1 n Fire Prevention Structural Planning Division Permit Coordinator DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete X.1 Comments: Incomplete n DUE DATE: 05/13/10 Not Applicable ❑ .Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: TUES /THURS ROUTING: Building Please Route Structural Review Required n No further Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: DUE DATE: 06/10/10 Approved Approved with Conditions ❑ Not Approved (attach comments) ❑ Notation: REVIEWER'S INITIALS: DATE: Permit;Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg ❑ Fire ❑ Ping ❑ PW ❑ Staff Initials: Documents/routing slip.doc 2 -28 -02 PROJECT NAME: 1 t '1 Rte cf, PERMIT NO: AAA, 0-'0930 SITE ADDRESS: �� q 120 L ORIGINAL ISSUE DATE: Qy U (liv REVISION LOG REVISION NO. DATE RECEIVED REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS ----� t MI toI VO -e, COOlit,Pfr O572(Iio S`CGl n CJ 1,- 1 Summary of Revision: ) o y1-1. Gm- M) 0 litiT STP o %\ Received by: „T�-rF Ph t...4—, el ' Received by: REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Summary of Revision: Received by: Received by: ease print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Summary of Revision: Received by: ease. print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Summary of Revision: Received by: ease print) ease print) REVISION NO. DATE RECEIVED REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Summary of Revision: Received by: Received by: ease print) REVISION NO. DATE RECEIVED STAFF INITIALS ISSUED DATE STAFF INITIALS Summary of Revision: Received by: City of Tukwila Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206 - 431 -3670 Web site: http: / /www.ci.tukwila.wa.us REVISION SUBMITTAL Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Date: -5- Zo 1© Plan Check/Permit Number: MAD -030 O Response to Incomplete Letter # O Response to Correction Letter # Revision # / after Permit is Issued O Revision requested by a City Building Inspector or Plans Examiner Project Name: Project Address: Contact Person: RIMED CITY OP TUliwrt MAY 10 2010 N�E2 rl AP I W 1JGtt.k- - (2-VI i GCS "r. �. . 33 55 S 12 `^` p L . -r-u • u4-, (...‘) A CEP F i'' Phone Number: 2o4", • 7_ Le • q Summary of Revision: c; es 1 e ,r,c _*46 Sti? S '"i c 4AKE- (DP2.' -/ (-Q S s'1) ) n 1 LIEr i o021 M % Do , M 2vu 1.12.01 M202 M / 9 P1 loco M-700, Sheet Number(s): jSWi t T=S1Qc. Q‘oC' (�?- P3oc, FPioc) "Cloud" or highlight all areas of revision including date of r vision A JO Received at the City of Tukwila Permit Center by: Entered in Permits Plus on 0- / /0JI H:ApplicationsiForms- Applications On Line \2009-08 Revision SubmittaLdoc Created: 8 -13 -2004 Revised: 8 -2009 Contractors or Tradespeople Pr ter Friendly Page 0 General /Specialty Contractor A business registered as a construction contractor with LEtI to perform construction work within the scope of its specialty. A General or Specialty construction Contractor must maintain a surety bond or assignment of account and carry general liability insurance. Business and Licensing Information Name Bellevue Mechanical Inc UBI No. 602231615 Phone 4254532140 Status Active Address 1331 120Th Ave Ne License No. BELLEMI984P5 Suite /Apt. License Type Construction Contractor City Bellevue Effective Date 10/25/2002 State Wa Expiration 10/25/2010 Date Zip 98005 Suspend Date County King Specialty 1 Heating /Vent /Air - Conditioning And Refrig (Hvac /R) Business Type Corporation Specialty 2 Unused Parent Company Business Owner Information Name Role Effective Date Expiration Date Fisher, Frank President 10/25/2002 Bond Amount Boyer, Larry Vice President 10/25/2002 103554072 Bond Information Page 1 of 1 Bond Bond Company Name Bond Account Number Effective Date Expiration Date Cancel Date Impaired Date Bond Amount Received Date 2 TRAVELERS CAS & SURETY CO 103554072 10/22/2006 Until Cancelled $6,000.00 09/29/2006 1 DEVELOPERS SURETY Et INDEM CO 858590C 10/22/2002 Until Cancelled 11/17/2006 $6,000.0010/25/2002 Assignment of Savings Information No records found for the previous 6 year period Insurance Information Insurance Company Name Policy Number Effective Date Expiration Date Cancel Date Impaired Date Amount Received Date 2 OHIO CAS INS CO BK053020471 10/22/2003 10/22/2010 $1,000,000.00 10/15/2009 Summons /Complaint Information No unsatisfied complaints on file within prior 6 year period https: // fortress .wa.gov /lni/bbip/Print.aspx 04/13/2010 1 REFERENCE DETAIL 4/S3.0 1YP 00 r 1 TOLSTRUT A -12 COMPRESSION STRUT EACH ROD W/ ROD STIFFENER. SEE 8/S3.0 TOLSTRUT LONGITUDINAL A -12 — CHANNEL BRACE OR SCHD 40 STEEL PIPE TIP WHERE SHOWN ON PLAN. TOLCO "FAST ATTACH" SWAY BRACE ATTACHMENT. TIGHTEN UNTIL BREAK -OFF BOLT HEAD COMES OFF. EXIST STRUT ALL RODS ARE MECHANICALLY ATTACHED TO STEEL BEAMS WITH BEAM CLAMPS. '/ EXIST DU EXIST STRUT TYPICAL BRACED TRAPEZE REFERENCE TYPICAL BRACE CONNECTIONS OLSTRUT TRANSVERS A -12 CHANNEL BRACE OR SCHD 40 STEEL PIPE TYP WHERE SHOWN ON PLAN. TOLCO "FAST ATTACH" SWAY BRACE ATTACHMENT TIGHTEN UNTIL BREAK —OFF BOLT HEAD COMES OFF. TOLSTRUT FLAT FITTING AS REQ'D TOP AND BOTTOM W /NUT TOP AND BOTTOM TOLSTRUT FLAT FITTING AS REQ'D TOP AND BOTTOM W /NUT TOP AND BOTTOM GENERAL PLAN NOTES: 1. DESIGN IS BASED ON THE FOLLOWING: • Sds= 0.935 • Ip= 1.5 • Rp= 6.0 • ap= 2.5 • SEISMIC CATAGORY D • SITE CLASS D 2. NO PERPENDICULAR BRACING TO BOTTOM OF STEEL BEAMS SHALL BE PERMITTED WITHOUT REVIEW AND APPROVAL OF ENGINEER OF RECORD. REFERENCE 7/S3.0 FOR MORE INFORMATION 3. MAXIMUM BRACE LENGTH SHALL BE A MAXIMUM OF 7 FEET. 4. INSTALL ALL PROPRIETARY ITEMS PER MANUFACTURER SPECIFICATIONS. 5. IF DROP IS LESS THAN 22 INCHES, THEN ROD STIFFENERS ARE NOT REQUIRED. SCALE NONE 8' -0" (FIELD VERIFY) VARIES ailF" -211K\ TOL TROT TRANSVERS E -12AW SP' DER OR EQUIVALENT STEEL BEAM. ENGINEER OF RECORD TO VERIFY ADEQUACY OF STRUCTURE TYPICAL. SUPER STRUT U502 OR TOLSTRUT UNIVERSAL BEAM CLAMP PER FIGURE 800. INSTALL PER MANUFACTURER SPECIFICATIONS TYPICAL. TOLSTRUT BRACE A -12 CHANNEL BRACE OR SCHD 40 STEEL PIPE TYP WHERE SHOWN ON PLAN. BRACE ORIENTATION VARIES PER PLAN. TOLCO "FAST ATTACH" SWAY BRACE ATTACHMENT. TIGHTEN UNTIL BREAK —OFF BOLT HEAD COMES OFF. TOLSTRUT FLAT FITTING AS REQ'D TOP AND BOTTOM W /NUT TOP AND BOTTOM TYPICAL BRACE CONNECTION TO BEAM SCALE NONE COUPLER ROD PER ELEV NOTE: FOR INFORMATION NOT SHOWN REFERENCE DETAIL 6/S3.0 9 LEVEL 1- TYPICAL ROD /CABLE TO DECK CONNECTION SCALE NONE 4... 4 " • a • WEDGE ANCHOR ROD STIFFENER PER 8/S3.0 TYPICAL ROD CONNECTION TO METAL DECK 4. CABLE PER 10/S3.0 WEDGE ANCHOR TOLCO "FAST ATTACH" SWAY BRACE ATTACHMENT. TIGHTEN UNTIL BREAK —OFF BOLT HEAD COMES OFF. TYPICAL CABLE CONNECTION TO METAL DECK EQ TYP / / EQ / TYP P.. a 4 3/8 "0 WEDGE ANCHOR W/ 2" MINIMUM EMBED. OR EQ TYP EQ z_ 11/2'111N TYP BRACE PER ELEV TYPICAL BRACE CONNECTION TO METAL DECK TOLSTRUT A -12 W/ (2) %V WEDGE ANCHORS OLSTRUT FLAT FITTING W /NUT TYPICAL TOLCO "FAST ATTACH" SWAY BRACE ATTACHMENT. TIGHTEN UNTIL BREAK —OFF BOLT HEAD COMES OFF. 6 LEVEL 1- TYPICAL BRACE TO DECK CONNECTION SCALE NONE NOTES: (1) ALL U -BOLT CLIPS SHALL BE GALVANIZED AND SHALL HAVE A DROP FORGED BASE. (11) THE "U" OF THE BOLT SHALL BE PLACED AGAINST THE DEAD END OF THE ROPE. THIMBLE (OPTIONAL FOR SEISMIC BRACING) CONNECTOR SEE DETAILS CLIPS WIRE ROPE: SEE DETAILS FOR SIZE DEAD END 3" MN. LIVE END WIRE ROPE DIAM. MIN. NUMBER OF CLIPS BOLT TORQUE CLIP SPACING "5" 3/1611 2 8 FT -LBS 1.5" ROPE SHALL BE MINIMUM 1>C1 STRAND WITH A MINIMUM BREAKING STRENGTH OF 3"100 POUNDS. CABLE CONNECTION DETAIL SCALE NONE NOTE: BEAM CLAMP P BACK TO BACK STRUT TYP II II DEIST DUCT II II II FOR INFORMATION NOT SHOWN REFERENCE DETAIL 1 /S3.0 TYPICAL BRACED TRAPEZE- DIRECTLY TO BEAM SCALE NONE PERPENDICULAR BRACE WHERE OCCURS. SEE NOTE #2 STEEL BEAM. ENGINEER OF RECORD TO VERIFY ADEQUACY OF STRUCTURE. SUPER STRUT U502 OR TOLSTRUT UNIVERSAL BEAM CLAMP PER FIGURE 800. INSTALL PER MANUFACTURER SPECIFICATIONS TYPICAL. TOLCO "FAST ATTACH" SWAY BRACE ATTACHMENT. TIGHTEN UNTIL BREAK —OFF BOLT HEAD COMES OFF. TOLSTRUT TRANSVERS A -12 CHANNEL BRACE OR SCHD 40 STEEL PIPE TYP WHERE SHOWN NOTE: ON PLAN. 1. TOLCO SWAY FITTING MAY BE WELDED WITH 346" WELD TO BEAM. 2. ENGINEER OF RECORD TO VERIFY ADEQUACY OF STRUCUTRE TO RESIST 1500 LBS PERPENDICULAR TO BEAM AND 900 PARALLEL TO BEAM. ADDITIONAL FRAMING MAY BE REQUIRED. C7 TYPICAL BRACE CONNECTION TO BEAM- PARALLEL SCALE NONE NOTE: FOR HANGER LOCATION AND ADDITIONAL INFORMATION REFERENCE MECHANICAL DRAWING SHEET SM2.03. STEEL BEAM. ENGINEER OF RECORD TO VERIFY ADEQUACY OF STRUCTURE. U501 BEAM CLAMP OR EQUIVALENT. (MAX ROD LOAD= SPRING NUT TYP ROD PER ELEV HANGER CAPACITY = 1500 # APPLIED LOAD= 525# MAX PER MECHANICAL DRAWINGS � TYPICAL ROD TO BEAM CONNECTION SCALE NONE 2" MIN TOP 4 BOT TOLCO FIG.98 ROD STIFFENER CLIPS. TORQUE TO 8 FT —LBS. TOLSTRUT A -12 COMPRESSION STRUT 2" MIN TOP 4 SOT TYPICAL A1200 ROD STIFFENER 6" MAX TYP TOP 4 SOT 16 "OC MAX 6" MAX TYP TYPICAL ROD STIFFENER TOP 4 SOT SCALE NONE EXPIRES MARCH, 06, 2011 I--0 �L.9 w O 0 v,, z W (f) c° M Ll. z Liu> zto, U �C W =U" n OO 1 zQM� ISSUE DATE: 05 -19 -2010 REVISIONS: () —J •I 71C CSW DESIGNED BY: GCM CHECKED EY: GCM SCALE: AS NOTED FILENAME: MG1030 S3.0 MECHANICAL SHEET INDEX M001 LEGEND AND GENERAL NOTES M002 SCHEDULES M100 FIRST FLOOR PLAN M200 THIRD FLOOR PLAN - ABOVE CEILING M201 THIRD FLOOR PLAN - REFLECTED CEILING M202 THIRD FLOOR PLAN - RAISED FLOOR M300 ROOF PLAN M400 SECTIONS M500 DETAILS M600 CONTROL DIAGRAMS M700 PIPING AND AIRFLOW DIAGRAMS FS001 FUEL SYSTEM LEGEND, SCHEDULE, NOTES & DIAGRAM FS100 FUEL SYSTEM FIRST FLOOR PLAN P100 PLUMBING FIRST FLOOR PLAN P200 PLUMBING THIRD FLOOR PLAN P300 PLUMBING ROOF PLAN FP100 FIRE PROTECTION - FIRST FLOOR FP200 FIRE PROTECTION - THIRD FLOOR MECHANICAL GENERAL NOTES 1. ALL CONSTRUCTION SHALL BE PERFORMED IN ACCORDANCE WITH ALL APPLICABLE CODES AND ORDINANCES INCLUDING: 2006 WASHINGTON BUILDING CODE 2006 WASHINGTON ELECTRICAL CODE 2006 WASHINGTON MECHANICAL CODE 2006 WASHINGTON PLUMBING CODE 2006 WASHINGTON FIRE CODE 2006 WASHINGTON ENERGY CODE 2. THE CONTRACTOR SHALL BE RESPONSIBLE FOR OBTAINING ALL NECESSARY PERMITS FOR THE CONSTRUCTION OF THE HVAC SYSTEM. 3. ALL SIZES INDICATED ON THE PLANS ARE THE MINIMUM ALLOWABLE AND ARE BASED ON THE PERFORMANCE REQUIRED. NONE OF THE DUCT OR PIPE VELOCITIES SHALL EXCEED THE VELOCITIES ESTABLISHED BY THIS CRITERIA. 4. HANDLE, STORE, AND INSTALL ALL EQUIPMENT PER MANUFACTURER'S INSTRUCTIONS. 5. REFER TO ARCHITECTURAL REFLECTED CEILING PLAN FOR EXACT LOCATION OF DIFFUSERS, REGISTERS, GRILLES AND ACCESS PANELS. 6. ALL DUCT DIMENSIONS, AS SHOWN ON MECHANICAL DRAWINGS, ARE CLEAR INSIDE DIMENSIONS. 7. FIRE DAMPER ASSEMBLIES, INCLUDING SLEEVES & INSTALLATION PROCEDURES SHALL BE APPROVED BY THE BUILDING INSPECTOR PRIOR TO INSTALLATION. REFER TO ARCHITECTURAL DRAWINGS FOR EXACT LOCATION OF FIRE RATED WALLS AND SMOKE SEPARATIONS. 8. INSULATION AND FLEXIBLE DUCT SHALL COMPLY WITH STATE FIRE MARSHALL CRITERIA AND SHALL NOT EXCEED FLAME SPREAD OF 25 AND SMOKE DEVELOPED OF 50 PER ASTM -84, NFPA -225, AND U.L. 723. 9. INSTALL SMOKE DETECTORS AT SUPPLY AND RETURN AIR DUCTS FOR ALL AIR MOVING SYSTEMS UNITS EXCEEDING 2000 CFM. 10. THE CONTRACTOR SHALL FIELD VERIFY ALL EXISTING CONDITIONS INCLUDING BUT NOT LIMITED TO STRUCTURE, MECHANICAL, PLUMBING, ELECTRICAL, EQUIPMENT, AND ALL OTHER EXISTING SYSTEMS, AND MAKE NECESSARY PROVISIONS TO MAINTAIN THE INTEGRITY OF SAID SYSTEMS PRIOR TO THE COMMENCEMENT OF DEMOLITION, IF ANY. SEE STRUCTURAL, MECHANICAL, PLUMBING, ELECTRICAL AND EQUIPMENT DRAWINGS FOR ANY SYSTEMS OR PORTIONS THEREOF TO BE REMOVED, RELOCATED, REVISED OR ABANDONED. ALL POSSIBLE CARE SHALL BE EXERCISED BY THE CONTRACTOR TO INSURE THAT ANY SAID UTILITY WILL NOT BE THE CAUSE OF ENDANGERMENT TO THE LIFE OR HEALTH OF ANY PERSON. 11. PRIOR TO DELIVERY OF MATERIALS TO THE CONSTRUCTION ZONE AND REMOVAL OF WASTE FROM THE SITE, THE CONTRACTOR SHALL CHECK WITH THE OWNER FOR AN ACCEPTABLE ACCESS ROUTE AND TIME. UNDER NO CIRCUMSTANCES SHALL THE CONTRACTOR, SUBCONTRACTOR'S, OR ANY OF THEIR EMPLOYEES USE ANY AREA OUTSIDE THE CONSTRUCTION ZONE WITHOUT PRIOR APPROVAL FROM THE OWNER. 12. THE CONTRACTOR SHALL FIELD VERIFY ALL EXISTING DIMENSIONS, SERVICES, AND POINTS OF CONNECTION PRIOR TO START OF WORK. 13. ALL DUCTWORK SHALL BE CONSTRUCTED, ERECTED AND TESTED IN ACCORDANCE WITH THE STANDARDS ADOPTED BY SMACNA AND CHAPTER 6 OF THE UMC. 14. THE CONTRACTOR SHALL BE RESPONSIBLE FOR THE REVIEW & COORDINATION OF ALL THE DRAWINGS INCLUDING ARCHITECTURAL, STRUCTURAL, MECHANICAL, PLUMBING AND ELECTRICAL PRIOR TO ANY CONSTRUCTION. ANY DISCREPANCY IN THE PLANS SHALL BE BROUGHT TO THE ATTENTION OF THE ARCHITECT AND ENGINEER PRIOR TO THE INSTALLATION OF THE WORK SO A CLARIFICATION MAY BE ISSUED. ANY WORK PERFORMED IN CONFLICT WITH THE CONTRACT DOCUMENTS OR ANY CODE REQUIREMENT SHALL BE CORRECTED BY THE CONTRACTOR AT HIS OWN EXPENSE AND AT NO EXPENSE TO THE OWNER. 15. DUCTWORK, PIPING AND CONDUIT, AS SHOWN ON DRAWINGS, IS CONCEPTUAL AND SHALL BE FABRICATED AND INSTALLED BASED ON ACTUAL FIELD MEASUREMENT. COORDINATE WITH OTHER TRADES AS REQUIRED. 16. ALL PIPES, DUCT AND CONDUITS SHALL BE SUPPORTED AND BRACED PER 1998 SMACNA SEISMIC RESTRAINT MANUAL GUIDELINES FOR MECHANICAL SYSTEM WITH SEPTEMBER 2000 ADDENDUM #1. 17. ALL RECTANGULAR ELBOWS IN SUPPLY AIR DUCTWORK SHALL HAVE TURNING VANES. PROVIDE MANUAL VOLUME DAMPER AT EACH BRANCH DUCT TAKE -OFF SERVING EACH AIR TERMINAL DEVICE. 18. AIR FILTERS IN ALL OCCUPANCIES SHALL BE CLASS 2 OR BETTER. ALL AIR FILTERS SHALL BE ACCESSIBLE FOR CLEANING OR REPLACEMENT. 19. PROVIDE VOLUME DAMPERS IN ALL BRANCH DUCTS (SUPPLY AND RETURN) FOR SYSTEM BALANCING. 2006 WS NREC COMPLIANCE NOTES 1. PROVIDE PREMIUM EFFICIENT MOTORS AS INDICATED ON DRAWINGS. MOTOR EFFICIENCY SHALL MEET MINIMUM NOMINAL FULL -LOAD EFFICIENCY PER 2006 WSEC TABLE 14 -4. DRYCOOLER /CRAG SYSTEM NOTE: VARIABLE FLOW REQUIREMENT PER 2006 WSEC SECTIONS 1432.2 AND 1438 ARE NOT APPLICABLE AS THIS SYSTEM DOES NOT SUPPLY HEATED OR MECHANICALLY REFRIGERATED WATER. 3. AIR -SIDE ECONOMIZERS SHALL COMPLY WITH 2006 WSEC SECTION 1413. RTU ECONOMIZER CONTROL IS FULLY MODULATING AND INTEGRAL TO SYSTEM CONTROL. ECONOMIZER FOR UPS ROOM IS CAPABLE OF MODULATING OPERATION AS WELL AS FULL INTEGRATION WITH CRAC SYSTEM. FOR CONTROL SEQUENCE REFER TO SHEET M600. 4. EQUIPMENT INSTALLED SHALL MEET MINIMUM EFFICIENCIES PER 2006 WSEC SECTION 1411 AND TABLE 14 -1A THROUGH 14 -1G WHERE APPLICABLE. 5. PROVIDE DUCT SEALING PER 2006 WSEC SECTION 1414.1: DUCTWORK WHICH IS DESIGNED TO OPERATE AT PRESSURES ABOVE 0.5 INCH WATER COLUMN STATIC PRESSURE SHALL BE SEALED IN ACCORDANCE WITH STANDARD RS -7. EXTENT OF SEALING REQUIRED IS AS FOLLOWS: • STATIC PRESSURE: 1/2 -2 INCHES, SEAL TRANSVERSE JOINTS • STATIC PRESSURE: 2 -3 INCHES, SEAL ALL TRANSVERSE JOINTS AND LONGITUDINAL SEAMS • STATIC PRESSURE: ABOVE 3 INCHES, SEAL ALL TRANSVERSE JOINTS, LONGITUDINAL SEAMS AND DUCT WALL PENETRATIONS. DUCT TAPE AND OTHER PRESSURE SENSITIVE TAPE SHALL NOT BE USED AS THE PRIMARY SEALANT WHERE DUCTS ARE DESIGNED TO OPERATE AT STATIC PRESSURE OF 1 INCH W.C. OR GREATER. PROVIDE DUCT INSULATION PER 2006 WSEC SECTION 1414.2 AND TABLE 14 -5. 7. PROVIDE THERMALLY INSULATED PIPING PER 2006 WSEC SECTION 1415.1 AND TABLE 14 -6. COLD WATER PIPES OUTSIDE THE CONDITIONED SPACE SHALL BE INSULATED IN ACCORDANCE WITH THE WSPCN (WAC51 -56). 8. A COMMISSIONING PROCESS OF VERIFICATION AND DOCUMENTATION SHALL BE PERFORMED TO ENSURE THAT THE HVAC SYSTEMS HAVE BEEN DESIGNED, INSTALLED, MAINTAINED AND OPERATE IN ACCORDANCE WITH THE CONTRACT DOCUMENTS. THIS PROCESS SHALL COMPLY WITH THE REQUIRMENTS PER THE WSEC SECTION 1416. DETAILS OF THE COMMISSIONING PROCESS CAN BE FOUND IN WRITTEN SPECIFICATION SECTION 230800. THIS PROCESS SHALL INCLUDE: • A COMMISSIONING PLAN (WSEC 1416.2.1): AT A MINIMUM THE PLAN SHALL INCLUDE, EXPLANATION OF DESIGN INTENT, EQUIPMENT AND SYSTEMS TO BE TESTED, FUCNTIONS TO BE TESTED. CONDITIONS OF TESTS, MEASUREABLE CRITERIS FOR ACCEPTANCE. • SYSTEM TESTING AND BALANCING (WSEC 1416.2.2): AIR AND HYDRONIC TO MINIMIZE SYSTEM INEFFICIENCIES AND TO MEET DESIGN CONDITIONS. • EQUIPMENT FUNCTIONAL PERFORMANCE TESTING (WSEC 1416.2.3.1): THIS DEMONSTRATION IS TO PROVE THE OPERATION, FUNCTION, AND MAINTENANCE SERVICABIUTY OF EACH SYSTEM. • CONTROLS FUNCTIONAL PERFORMANCE TESTING (WSEC 1416.2.3.2): THIS DEMONSTRATIO SHALL ENSURE THE CONTROL DEVICES, COMPONENTS, EQUIPMENT AND SYSTEMS ARE CALIBRATED, ADJUSTED AND OPERATE IN ACCORDANCE WITH CONTRACT DOCUMENTS AND SPECIFICATIONS. • 'A PRELIMINARY COMMISSIONING REPORT (WSEC 1416.2.5.1): A PRELIMINARY REPORT OF TEST PROCEDURES AND RESULTS OF DEFICIENCIES, DEFERRED TESTS AND CLIMATIC CONDITIONS. • POST CONSTRUCTION DOCUMENTATION (WSEC 1416.2.4): THIS SHALL INCLUDE AT A MINIMUM A REVIEW AND APPROVAL OF OPERATION AND MAINTENANCE MATERIALS, RECORD DRAWINGS AND SYSTEM OPERATIONAL TESTING. • A FINAL COMMISSIONING REPORT (WSEC 1416.2.5.2): A COMPLETE REPORT OF TEST PROCEDURES AND RESULTS SHALL IDENITFY, RESULTS OF TESTS, DISPOSITION OF DEFICIENCIES, AND PROCEDURES INCLUDING MEASUREABLE CRITERIA FOR ACCETANCE. MECHANICAL LEGEND SYMBOL ABBREV. DESCRIPTION SYMBOL ABBREV. DESCRIPTION ABBREV. DESCRIPTION DUCT - SINGLE LINE (NEW) s i I s STRAINER W/ DRAIN VALVE & HOSE END NTS NOT TO SCALE s---s DUCT - DOUBLE LINE (NEW) STRAINER OA OUTSIDE AIR s I ,, s --I1 DUCT TRANSITIONS SUCTION DIFFUSER OD OUTSIDE DIAMETER E} s UP DUCT RISE Al TWO -WAY AUTOMATIC CONTROL VALVE OSHPD OFFICE OF STATE WIDE HEALTH PLANNING AND DEVELOPMENT 111a1i s s DN DUCT DROP THREE -WAY AUTOMATIC CONTROL VALVE PD PRESSURE PROP •IIs>01• s 4 s LINED DUCTWORK - (L) s p 3 s TRIPLE DUTY VALVE PLBG PLUMBING STAINLESS STEEL DUCT - (SS) s- III- -s UNION PRV PRESSURE REDUCING VALVE POLYVINYL COATED DUCT - (PVS) 1D-4 4C-s VALVE ON RISE OR DROP PSI POUNDS PER SQUARE INCH EXISTING DUCT - SINGLE LINE s-D-s DRAIN PSIG PSI GAUGE s s EXISTING DUCT - DOUBLE LINE s-- CONDENSATE DRAIN QTY QUANTITY CD -s EXISTING DUCT OR EQUIPMENT TO BE DEMO'D VENT OR ATMOSPHERIC RELIEF RH RELATIVE HUMIDITY s-V -s 1 , SA SUPPLY AIR DUCT - UP --s CHILLED WATER SUPPLY SOV SHUT OFF VALVE s- CHWS RA RETURN AIR DUCT UP -s CHILLED WATER RETURN SS STAINLESS STEEL 1 s- CHWR EA EXHAUST AIR DUCT - UP s -CWSJs CONDENSER WATER SUPPLY TSP TOTAL STATIC PRESSURE Fri SUPPLY AIR DUCT - DOWN CONDENSER WATER RETURN UNO UNLESS NOTED OTHERWISE IZ1 0 s-CWR -s ® O RETURN AIR DUCT - DOWN HEATING HOT WATER SUPPLY UTR UP THROUGH ROOF .--1-IFIWS---5 ® t9 EXHAUST AIR DUCT - DOWN HEATING HOT WATER RETURN V /PH /HZ VOLTS. PHASE, HERTZ s- HHWR -s SUPPLY AIR DIFFUSER s -MPS -s MEDIUM PRESSURE STEAM (15 TO 100 PSI) VD VOLUME DAMPER ® RETURN AIR DIFFUSER LOW PRESSURE STEAM (LESS THAN 15 PSI) VTR VENT THROUGH ROOF s -LPS -s EXHAUST AIR DIFFUSER s- CR-s CONDENSATE RETURN WB WET BULB sif SIDE WALL REGISTER (SUPPLY) ABBREV. DESCRIPTION WG WATER GAUGE s-n SIDE WALL REGISTER (RETURN) AlT ABOVE FINISHED FLOOR WMS WIRE MESH SCREEN I LINEAR DIFFUSER AMB AMBIENT WPD WATER PRESSURE DROP 4 FSD FIRE SMOKE DAMPER APD AIR PRESSURE DROP WT WEIGHT } 1 FLEXIBLE CONNECTION ARCH ARCHITECTURAL REGISTER /DIFFUSER TYPES MANUAL VOLUME DAMPER BDD BACKDRAFT DAMPER 1 ® 650 CFM e-N. T FLEXIBLE DUCTWORK BHP BRAKE HORSEPOWER 16x16 NECK SIZE MOTOR OPERATED DAMPER BOD BOTTOM OF DUCT REGISTER OR DIFFUSER TAG } { DUCT CAP BOP BOTTOM OF PIPE s 3 F RE -HEAT COIL BTUH BTU PER HOUR DUCT DROP SIZE (120 500' CFM SUPPLY VAV BOX WITH REHEAT CD CONDENSATE DRAIN VAV AND CV AIR VALVE WITH REHEAT COIL CFM CUBIC FEET PER MINUTE DUCT DROP VAV AND CV AIR VALVE CONT CONTINUATION m ~- EQUIPMENT TYPE AP ACCESS PANEL (D) MIT FEET PER MINUTE O-F- UNIT NUMBER J. POC POINT OF CONNECTION DB DRY BULB FOAC -1 THERMOSTAT DIA 0 DIAMETER EQUIPMENT TAG HO HUMIDISTAT EAT ENTERING AIR TEMPERATURE DETAIL NUMBER SHEET NUMBER SD SMOKE DETECTOR EDB ENTERING DRY BULB TEMPERATURE M -4.0 9 PRESSURE GAUGE WITH BALL VALVE COCK EER ENERGY EFFICIENCY RA110 s s Q THERMOMETER EFF EFFICIENCY DETAIL CALL OUT s s s-O s=s PIPE DOWN OR DROP ENT ENTERING Plan review Approval violation O' approved N0 NOT and -- " PY Permit No. IA 104.1' 0 W PIPE UP OR RISE ESP EXTERNAL STATIC PRESSURE s-O s O s s s DIRECTION OF FLOW EWB ENTERING WET BULB TEMPERATURE . PIPE SLOPE EWT ENTERING WATER TEMPERATURE s ' 2 %' approval is subject to errors and omissions. of construction documents does not authorize of any adopted code or ordinance. Receipt Field Co s ( d conditions is acknowledged: g � BALL VALVE (E) EXISTING s-o s s N4 s BALANCING VALVE FT FEET BUTTERFLY VALVE FF FINISHED FLOOR s s CAPPED LINE FG FINISHED GRADE s 7 s--t-...1-5 CHECK VALVE, SWING OR LIFT FLA FULL LOAD AMPERES 'jrk y ate' `� -- City Of Tukwila BUILDING DIVISION' s-- ?'S4 -s CHECK VALVE SILENT FPI FINS PER INCH CONCENTRIC REDUCER FPM FEET PER MINUTE s--D s FLANGE FPS FEET PER SECOND s- -11s s4 FLEXIBLE CONNECTION GA GAUGE s---119.1s FCV FLOW CONTROL VALVE GPM GALLONS PER MINUTE s---- jX1-- FLOW METER GSM GALVANIZED SHEET METAL REVISIONS changes shall me made to the scope of work without prior approval of Tukwila E3uilding Division. Revisions will require a new plan submittal may include additional plan review fees. -... REVIEWED CODE COMPLIANCE APPROVED MAY 2 2010 of (14 ' 1 tl BUILDING IhI q sa' j Rim' Kin I -s PLUG VALVE HP HORSEPOWER s-- IVIs GV GATE VALVE ID INSIDE DIAMETER s pQ s GL.V GLOBE VALVE LAT LEAVING AIR TEMPERATURE s 24 s p NV NEEDLE VALVE COCK LBS POUNDS s pb s s PIPE ALIGNMENT GUIDE LDB LEAVING DRY BULB TEMPERATURE = s PIPE ANCHOR LWB LEAVING WET BULB TEMPERATURE s X s PRESSURE & TEMPERATURE RELIEF VALVE LWT LEAVING WATER TEMPERATURE I s : PRESSURE TEMPERATURE PORT MBH THOUSAND BTU PER HOUR s s PRESSURE REDUCING VALVE MCA MINIMUM CIRCUIT AMPACITY s s PRESSURE REGULATING VALVE (EXTERNAL) MFS MAXIMUM FUSE SIZE S p s ss SEISMIC JOINT NC NORMALLY CLOSED IIIIF STEAM TRAP NO NORMALLY OPEN SOLENIOD VALVE NPSH NET POSITIVE SUCTION HEAD s s REGEN D CITY OF T KWILA MAY 1 =0 2010 PERMIT CENTER t y v 0,4 It y w boo 3 . F• ur co t- Zcn a. Q Z J J ui I o N co 0 M 0 M Q Z J I- Q J ,Q Z 0 (n a 0Q 0z a N w 0 Z c I- rr 0 N- c0 I- LL. CO � 01 CL CO ro l 0 (1) 0 In cv cI 0Qopp CL w O p N 0 cn > rn co 00 -b J - Q 00 wZZa Dwro51 - Q' w 0. Oft 0 0 co rn 0 N I- 0 w CC 0 ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 03/30/10 REVISION #2 04/28/10 SCALE:NTS LEGEND AND GENERAL NOTES M001 CONSTRUCTION PHASE SCREENED EQUIPMENT IN SCHEDULES (SHOWN LIGHT) IS TO BE INSTALLED DURING FUTURE PHASE OF CONSTRUCTION. THIS EQUIPMENT IS FOR COORDINATION AND INFORMATION PURPOSES ONLY AND IS NOT PART OF THIS PROJECT. EXAMPLE: IN SCOPE OF WORK FUTURE WORK N.I.0 (SCREENED) PACKAGED ROOFTOP UNIT SCHEDULE (PRE- PURCHASED) GENERAL DATA SUPPLY FAN RETURN /EXHAUST FAN COOLING COIL ELECTRICAL DATA SMOKE DETECTORS WEIGHT (LBS.) TAG MANUFACTURER & MODEL NO AREA SERVED LOCATION EER MIN DESIGN CFM ESP (IN) HP FAN RPM MOTOR EFF. (MIN) CFM ESP (IN) HP FAN RPM MOTOR EFF. (MIN) AMBIENT Cr) OSA CFM CAPACITY (MBH) EAT (F) LAT (F) ROWS FINS/ INCH AREA (SQ. FT.) V. /PH /Hz. MCA AMPS MROPD AMPS ON EMERGENCY POWER (YES /NO) REQUIRED (YES /NO) VOLTAGE TOTAL SENS DB WB DB WB DRAIN A MCQUAY DATA CENTER ROOF 9.8 49,000 1.5 75 986 916% 49,000 1.0 50 1070 93.0% 105 750 1,322 1,212 74.5 61.0 51.9 51.4 5 10 76.0 460/3/60 372.6 450 YES YES 120 20,000 iii 3 2 000 4 RTU \ KU RTU E 1 "Ili R'TI1 1 U 4-2 4-- 4 -4 4--5 4 -F ‘ 4--7 REMARKS: PROVIDE COMPLETE WITH INTERGRAL ECONOMIZER PRE - FILTERS, 65% ANGLED RACK FINAL FILTERS, R410A COMPRESSOR OPERATION, SMOKE DETECTORS AND PREMIUM RETURN /EXHAUST REFRIGERANT, EFFICIENCY FAN, VFD'S W/ HOT GAS BYPASS ON CIRCUITS MOTORS. MECHANICAL #1 BYPASS, & #2, LOW 30% AMBIENT THROWAWAY PREMIUM DETECTION, EFFICIENCY AND RETURN MOTOR, 4" PLENUM. MERV 11 65% EFF FILTERS W/ SPARE SET, 24" SEISMIC 1ST FLOOR 3 14,400 1,1 79,E 793 BELT DRIVE DUCT FAN 15,0 90,.r% V 460/3/60 NO PROVIDE TEFC NEMA VFD RATED PREMIUM EFFICIENCY MOTOR, HANGING SPRING ISOLATORS AND VARIABLE FREQUENCY DRIVE. 1,100 FILTER AND HOUSING SCHEDULE GENERAL DATA HOUSING FILTER P.D. (WG) AREA SERVED MANUFACTURER AREA SERVED LOCATION MODEL TYPE MODEL MERV DEPTH (IN) CLEAN DIRTY REMARKS CAMFIL FARR FIRST FLOOR ELECTRICAL ROOMS FIRST FLOOR 4P GIJDE /PACK 16 GA. GALVANIZED STEEL OPTI -PAC OPMV11 -_c_x4 11.0 4.0 0.33 0.60 HOUSING TO INCLUDE HOLDING FRAME, DUAL ACCESS DOORS AND MAGNEHELIC DIFFERENTIAL PRESSURE GAUGE. HUMIDIFIER DRAIN LIFT STATION SCHEDULE GENERAL DATA REMARKS TAG MANUFACTURER AREA SERVED LOCATION ® WEIL ROOFTOP HUMIDIFIERS FIRST FLOOR WEIL DUPLEX SUBMERSIBLE PUMP SYSTEM. PUMPS SHALL HAVE CAST IRON CASE, BRONZE IMPELLER, STAINLESS STEEL HARDWARE AND STRAINER, LIFTING BAIL AND STAINLESS STEEL LIFTING CABLE. PROVIDE SYSTEM WITH DUPLEX ALTERNATING PUMP CONTROL PANEL MODEL #8151 -NEMA 4X AND TETHERED LEVEL CONTROL MODEL #8230. PIPING ASSEMLBY SHALL INCLUDE FLOMATIC SWING CHECK VALVE AND GATE VALVES. SYSTEM IS ON EMERGENCY POWER. PROVIDE 48" ROUND BY 42" TALL FIBERGLASS BASIN (APPROX. 329 GAL.) WITH MODEL 8805 48" WET WELL COVER FOR DUPLEX SUBMIERSIBLE PUMPS. FACE VEOLCITY (FPM) PUMPS ELECTRICAL WEIGHT MODEL GPM P.D. (FT HD.) HP V / / HZ E -POWER LBS • 1601 -2 26.0 25.0 0.5 360/3/60 YES - - 1/2" HUMIDIFIER SCHEDULE GENERAL DATA MEDIA PIPE CONNECTIONS ELECTRICAL DATA WEIGHT (LBS.) TAG MANUFACTURER AREA SERVED LOCATION DIMENSIONS HxWxL (IN.) FACE AREA (SF) FACE VEOLCITY (FPM) DEPTH (IN) SATURATION EFFICIENCY DRAIN (IN) FILL (IN) OVERFLOW (IN) V. /PH. /Hz. MOTOR HP HUM HUM HUM HUM HUM HUM SPEC -AIR DATA CENTER ROOF 110x144x58 96 500 8 79% 2" 1/2" 2" 460/3/60 1/3 2,000 3 -1 3 -2 3 -3 3 -4 3 -5 `4..1 HUM HUM \ HUM t1'1UM , HUM \ 111.)m \4_.--,--21\ 4--3 4- \4_ r{ , ,-, 4_7 COMPLETE DIRECT EVAPORATIVE HUMIDIFIER MODULE IS AND 2" OVERFLOW WITH A Dili" FILL, MODULE HAS 96 COPPER DISTRIBUTION PIPING WITH ADJUSTABLE FLOAT NUMBERED TERMINAL STRIP. AUTOMATIC FILL AND DRAIN CONSTRUCTED OF 18 GAUGE 304 STAINLESS SQ FT OF 8" DEEP MUNTER'S CELDEK EVAPORATIVE FOR RELIABLE SERVICE. NEMA 3R ELECTRICAL SYSTEM WITH TIMER AND FREEZE STAT STEEL FRAME AND SUPPORTS. THE SUMP IS CONSTRUCTED COOLING MEDIA 79% SATURATION EFFICIENCY. PANEL WITH SINGLE POINT WIRING PACKAGE FOR MOUNTED AND WIRED, DRAIN VALVES SHIPPED LOOSE. FROM 16 RE- CIRCULATING 460/3/60 VOLT HUMIDISTAT SHIPPED GAUGE 304 AND IS CONTINUOUSLY WELDED, SUMP SUMP PUMP IS A GOULD, 1/3 HP ® 115/1/60 VOLTS SUPPLY C/W FUSES, TRANSFORMER, PUMP GFI DISCONNECT LOOSE HAS STAINLESS WITH STAINLESS AND STEEL FITTINGS 2" STEEL CONSTRUCTION. PUMP RELAY WIRED TO DRAIN A INDOOR COMPUTER ROOM AIR CONDITIONING UNIT SCHEDULE (PRE- PURCHASED) GENERAL DATA SUPPLY FAN DX COOLING COIL HEAT REJECTION (MBH) ELECTRICAL DATA FILTERS WEIGHT (LBS.) TAG MANUFACTURER MODEL N0. AREA SERVED LOCATION CFM E.S.P. (IN.) MOTOR (HP) MOTOR EFF. (MIN) ROWS FACE AREA (SQ. FT.) E.A.T D.B. (F) E.A.T. W.B. (F) CAPACITY (MBH) V. /PH. /Hz. FLA MCA MFS QUANT. &SIZE EFF. (MERV) TOTAL SENS. CRAG AM AM AM STULZ VFS- 240 -DG -D UPS ROOM PH.3 UPS ROOM PHASE 3 10,250 ' 0.5 5 87.5% 3 24.3 72 60 226.8 203.0 326.1 460/3/60 38.2 50.2 60 5 @ 20/25/4 11 2,100 ®® ®N CR; S CATSC CRA( CI',ACr... ...SS......4 4-1 4 -2 4 -, 4w-4 STULZ '4'.`a....` 40...'DG...'D I.iPS ROOM PH.: UPS ROOM PHASE a r 10,, `0 0.; `.� >'l'.` i% :i ?�1.3 r 72. ., 60 r� 2..6.8 t? 2.030 df 326.1 / ^ 4£O/, /60 r? I8,2. �' ,t X0,2 ,,, 50 5 20/25/4 11 2,100 DOWNFLOW UNIT WITH TOP RETURN, FLOOR STAND WITH TURNING VANES, GLYCOL SYSTEM WITH MICROPROCESSOR CONTROLS, 3 -WAY CONTROL VALVE, DUAL CIRCUIT SCROLL UNIT MOUNTED DISCONNECT, SMOKE COMPRESSOR DETECTOR, FACTORY R -407C, SINGLE MOUNTED POINT CONDENSATE POIWER PUMP, CONNECTION, HIGH STATIC SPOT TYPE LEAK PREMIUM DETECTION, EFFICIENCY AND RETURN MOTOR, 4" PLENUM. MERV 11 65% EFF FILTERS W/ SPARE SET, 24" SEISMIC 1ST FLOOR 3 14,400 1,1 79,E 793 BELT DRIVE DUCT FAN 15,0 OUTDOOR DRYCOOLER PUMP PACKAGE (PRE - PURCHASED) GENERAL DATA PERFORMANCE ELECTRICAL DATA WEIGHT (LBS.) TAG MANUFACTURER MODEL NO AREA SERVED LOCATION TYPE FLOW RATE (GPM) PD (FT H20) HP MOTOR EFF. (MIN) FLA MCA MFS V. /PH. /Hz. P STULZ GPS -150 -D UPS ROOM PHASE 3 ROOF DUPLEX 288 140 15 90,2% 17.6 22.0 40 460/3/60 - ® - P STULZ CPS -150 -D UPS ROOM PHASE 3 ROOF DUPLEX 288 140 15 90.2% 17.6 22.0 40 460/3/60 - •- OUTDOOR RATED ENCLOSURE AND AUTO CHANGEOVER DRIVE. OUTDOOR DRYCOOLER SCHEDULE (PRE - PURCHASED) GENERAL DATA PERFORMANCE ELECTRICAL DATA WEIGHT (LBS.) TAG MANUFACTURER MODEL NO AREA SERVED LOCATION FAN HP (QTY.) AIRFLOW (CFM) HEAT REJECTION (MBH) AMBIENT CO GPM WPD (PSI) V. /PH. /Hz. DC DC STULZ S- MFH -082A UPS ROOM PHASE 3 ROOF 2.0 (8) 87,000 665.0 105 144 10.6 460/3/60 3,250 ®® [CC-Ns/ 'C ' \\4:1/R\ 4._.2 ' STULZ S-MFH-082A UPS ROOM PHASE . ROOF 2.0 (8) 87,0 ? G65.0 105 144 10.6 460/3/60 3,2250 LOW AMBIENT PRESSURE CONTROL FAN CYCLING AND FACTORY PROVIDED OPTION FOR INDIVIDUALLY FUSED FANS.. 3.O 86.5% EXHAUST / TRANSFER FAN SCHEDULE GENERAL DATA DESIGN ELECTRICAL DATA REMARKS WEIGHT (LBS.) TAG MANUFACTURER MODEL NO AREA SERVED LOCATION CFM E.S.P. (IN) FAN RPM TYPE MOTOR HP MOTOR EFF. (MIN) V. /PH. /Hz ON EMERGENCY POWER (Y /N) ® GREENHECK BDF- 180 -20 PHASE 3 TRANSFORMER ROOM 1ST FLOOR 5,500 1.0 629 BELT DRIVE DUCT FAN 2.0 84% 460/3/60 YES PROVIDE TEFC NEMA VFD RATED PREMIUM EFFICIENCY MOTOR, HANGING SPRING ISOLATORS AND VARIABLE FREQUENCY DRIVE. 304 ®® ®® • • , . r m 1 1I riF 41' 1 4T- GREENHECK BDF -180m 30 PHASE 4 ,. TRANSFORMER ROB 1ST FLORR 6,, 00 1.0 656 BELT DRIVE. DUCT FAN 3.O 86.5% 460/,x/60 YES PROVIDE TEFL NEMA VFD RATED PREMIUM EFFICIENCY MOTOR, HANGING SPRING ISOLATORS AND VARIABLE FREQUENCY DRIVE, , 304 K XX GREENHECK BCF -206 -7 PHASE 3 SWITCHGEAR ROOM 1ST FLOOR 1,200 1.0 2304 CABINET N 3/4 82.5% 460/3/60 NO PROVIDE WITH HANGING SPRING ISOLATORS. 145 ® © ® ® GREENHECK BDF- 200 -100 PHASE 3 UPS ROOM ECONOMIZER 1ST FLOOR 13,000 1.25 746 BELT DRIVE DUCT FAN 10.0 90.2% 460/3/60 NO PROVIDE TEFL NEMA VFD RATED PREMIUM EFFICIENCY MOTOR, HANGING SPRING ISOLATORS AND VARIABLE FREQUENCY DRIVE. 1,000 ® © I'F IF 4U- � GREL'NHFCK 3DF- 200 -150 PHASE 4 UPS ROOM ECONOMIZER 1ST FLOOR 3 14,400 1,1 79,E 793 BELT DRIVE DUCT FAN 15,0 90,.r% V 460/3/60 NO PROVIDE TEFC NEMA VFD RATED PREMIUM EFFICIENCY MOTOR, HANGING SPRING ISOLATORS AND VARIABLE FREQUENCY DRIVE. 1,100 DIFFUSER, REGISTER AND GRILLE SCHEDULE TAG MANUFACTURER MODEL TYPE DESCRIPTION BORDER TYPE MODULE SIZE NECK TYPE REMARKS TATE PERF 1000 AIR FLOW PANEL - 24" STEEL CO W/O DAMPER CONSTRUCTION AMPER X 24 "x24" N/A ROLLED STEEL TOP, EPDXY PAINT FINISH, STEEL BOTTOM PAN AND 25% OPEN AREA. Z® ® CONSULT MANUFACTURER FOR ATTENUATOR ATTACHMENT AND BANDING. T1TUS 50F SPECIALIZED EGGCRATE RETURN STANDARD CORE WITH ALUMINUM BORDER LAY -IN 24 "x48" 24 "x48" 90% FREE AREA, CONSTRUCTED OF HEAVY EXTRUDED ALUMINUM WITH STANDARD GRID. W x H (BY CONTRACTOR) L = 5' NEW CONSULT MANUFACTURER FOR ATTENUATOR A F jeJLBA�NDIN,G..,. R . ∎' `.Ii " �. STEEL, 0' DEFLECTION • • , . • . . A, • R •. 0..0 .1 ■ .I. p. (P -, • N e •I ••`•• Nr :L•• •'''LI• • LOG •I ''S►'. XX TITUS 301RL SUPPLY GRILLE 3/4" SPACING, STEEL, SINGLE DEFLECTION SURFACE PER PLANS PER PLANS REINFORCED CORNERS AND BLADES PARALLEL TO LONG DIMENSION. RXX K XX SOUND ATTENUATOR SCHEDULE GENERAL DATA MAX. A.P.D. ON W.G.) FACE VELOCITY (F.P.M.) SIZE W x H x L (IN.) QUANTITY REMARKS WEIGHT (LBS.) TAG MANUFACTURER MODEL NO. LOCATION AZEL LA.0 LFM GENERATOR ROOM INTAKE 0.05 550 W x H (BY CONTRACTOR) L = 3' BY CONTRACTOR CONSULT MANUFACTURER FOR ATTENUATOR ATTACHMENT AND BANDING. _ ® I.A.0 LFL GENERATOR RADIATOR DISCHARGE 0.08 850 W x H (BY CONTRACTOR) L = 5' BY CONTRACTOR CONSULT MANUFACTURER FOR ATTENUATOR A F jeJLBA�NDIN,G..,. ® l M003O CODE COMPLIANCE APPROVED MAY 21 2010 City of Tukwila BUILDING DIVISION CITY OF TUKWILA MAY 1 0 2010 PERMIT CENTER y v y w aG�= 0 It kilt' col- °c.") a • co 0 ;el I a Q 0 € Q • ao= - z . . uu d'Is- 0 r. (• NI Q F- LL www.1nternap.com es W W Iu 0 NTERGATE EAST CAMPUS CIO ca ▪ (c) Q CO .0 Q CV U) - L M cC) I-- 0 0 co rn 0 0 N U w a. ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 /\03/30/10 REVISION #2 - 04/28/10 SCALE:NTS SCHEDULES M002 (FRONT) USS-1 2500KVA XFMR. #1 600A 26.4KV HV SWITCH (FRONT) [ 11 I I I J bass ups up� IN BUT SWBD. input cab 1/2 314 ats GEN ROOM (FRONT) (FRONT) UPS /AC-3 (FRONT) (FRONT) L..................;.... I (FRONT) °1t;;11:°I1: ` �. NUNN USS -2 2500KVA XFMR. #1 600A 26.4KV HV SWITCH UPS /AC-1 UPS MOD -1 BATTERY 2 UPS /AC-4 (FRONT) (FRONT) (FRONT) (FRONT) (FRONT) UPS MOD-3 . ICI•! ................:...... �.It...1. is (FRONT) (FRONT) (FRONT) 1 BATTERY-3 BATTERY -4 l _1 z 0 W LL 0 0 z 0 0 D (FRONT) ATS #1 ATS #3 W/ BYPASS main -2 (FRONT) UPS ROOM ELM SOii:Ig:U:i2Iii:tiWCZOU GEN ROOM SWITCH GEAR STAiNDB`i ..` -M.-` .E I ..FSD I s E111--- , I€ . FCH4 °, 114 :( i<`•. '11EC 344 (T(P.3) PANEL L31 L3 SW 1.3 TUT pENEI \TOR ?'I,,,.. - -4 RTU3 -3 Rill 3 -2 RTLI3 -- I u ` hv`:.TS MECH1B F J Mr: M[r` 4/\ II ':I I ;WITdHI. GEARI i [ RT.J5-10 MECH y )B —ME: H4A DE1— fti4LCl PANEL. !'1P3 DIS SW HP3 D11 SW P3 R —UPS) ,� SECURITY HARDENED L FIRST FLOOR PART PLAN SCALE: 1 /8 " =1' -0" ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 403/30/10 REVISION #2 - 04/28/10 SHEET NOTES 0 LOUVERED 6.5'/8' ECONOMIZER INTAKE OPENING WITH FIRE /SMOKE DAMPER. PROVIDE 4" THICK, MERV 11 GALVANIZED STEEL FILTER HOUSING DOWNSTREAM OF FSD. 2® CONSTRUCT 18' WIDE BY 17' HIGH SOUND ATTENUATION WALL WITH SCHEDULED DUCT SILENCER (SA -1). CONSULT MANUFACTURER FOR BANDING REQUIREMENTS. REFER TO ARCHITECTURAL AND STRUCTURAL PLANS FOR DETAILS. Q3 LOUVER AT GENERATOR DISCHARGE IS TO BE FURNISHED BY MECHANICAL CONTRACTOR. PROVIDE LOUVER AT EXTERIOR WITH 12" PLENUM (SEE ARCH PLAN A501 FOR SIZES). PROVIDE DUCTED CONNECTION FROM ATTENUATOR DISCHARGE TO PLENUM. CONSTRUCT 28' WIDE BY 4' HIGH SOUND ATTENUATION WALL WITH SCHEDULED DUCT SILENCER (SA -1). CONSULT MANUFACTURER FOR BANDING REQUIREMENTS. REFER TO ARCHITECTURAL AND STRUCTURAL PLANS FOR DETAILS. ® CONSTRUCT 12' WIDE BY 12' HIGH SOUND ATTENUATOR WITH SCHEDULED DUCT SILENCERS (SA -2). CONSULT MANUFACTURER FOR BANDING REQUIREMENTS. REFER TO STRUCTURAL PLANS FOR SUPPORT. ® RUN 18" STEEL EXHAUST STACK UP SIDE OF BUILDING. PROVIDE COMMON SUPPORT FOR THREE EXHAUST STACKS THE ENURE HEIGHT OF THE BUILDING (SEE STRUCTURAL PLANS). TERMINATE EXHAUST 15' ABOVE ROOF LEVEL AT RAIN CAP. PROVIDE FLEXIBLE CONNECTOR FOR EXHAUST AT ENGINE AND MANIFOLD CONNECTIONS INTO CRITICAL GRADE MUFFLER /SILENCER. PROVIDE GRAVITY BACKDRAFT DAMPER. COMMOM GLYCOL PIPING SUPPORT. ROUTE SUPPLY AND RETURN LINES AS TIGHT AS POSSIBLE TO STRUCTURE. COORDINATE FINAL ROUTING WITH CONDUIT RUNS. SEE PIPING DIAGRAM FOR DETAILS ON SHEET M -700. 10 CONNECT TO EXISTING 1 -1/2" FUEL OIL LINES OVERHEAD. 11 INSTALL CRAC UNIT ON SEISMIC STAND WITHIN AUXILIARY DRAIN PAN WITH LEAK DETECTION. SLOPE PAN TOWARD CONDENSATE PUMP. 12 PROVIDE AUXILIARY DRAIN PAN BENEATH GLYCOL PIPING IN UPS ROOM. PAN SHALL HAVE SPOT LEAK DETECTION AND BE SLOPED TOWARD CRAC UNITS WITH DRAIN LINE TERMINATING IN CRAC UNIT AUXILIARY PAN. 13 LOUVERED 84/48 INTAKE OPENING WITH 4" THICK, MERV 111 GALVANIZED STEEL FILTER HOUSING. OPENING IS TO BE BELOW ATTENUATOR SECTION, BOTTOM SHALL BE APPROX. 12" AFF. 14 LOUVERED 44/44 INTAKE OPENING WITH FIRE /SMOKE DAMPER. PROVIDE 4" THICK, MERV 11 GALVANIZED STEEL FILTER HOUSING DOWNSTREAM OF FSD. 15 RUN 2" VENT & (2) 4" EMERGENCY VENTS TO EXTERIOR OFD BUILDING. PROVIDE COMMON SUPPORT FOR VENTS THE ENURE HEIGHT OF THE BUILDING. TERMINATE VENTS ABOVE ROOF PARAPET. ® 21'L x 6'W x 36 "D ECONOMIZER DISCHARGE PLENUM WITH SINGLE DEFLECTION GRILLES ON BOTTOM POSITIONED TO DIRECT AIR TOWARDS ROLL —UP DOOR. INSTALL PLENUM TIGHT TO STRUCTURE AND COORDINATE LOCATION WITH ROLL —UP DOOR HARDWARE. 17 PROVIDE AUXILIARY DRAIN PAN BENEATH GLYCOL PIPING IN BREEZWAY. PAN SHALL HAVE SPOT LEAK DETECTION AND BE SLOPED TOWARD EITHER UPS ROOM WITH DRAIN LINE TERMINATING IN CRAC UNIT AUXILIARY PAN. 1" ACOUSTICALLY LINED PLENUM IS TO BE 21'L x 6'W x 3'D WITH DISCHARGE GRILLES ON BOTTOM DIRECTING AIR TOWARDS NEW ROLL UP DOOR. KEEP PLENUM AS TIGHT AS POSSIBLE TO STRUCTURE ABOVE AND ROLL UP DOOR HARDWARE. REVIEWED FOR CODE COMPLIANCE APPROVED MAY 2 1 2010 City of Tukwila BUILDING DIVISION SCOPE OF WORK 18 LOUVER AT SWITCHGEAR ROOM VENTILATION DISCHARGE IS TO BE FURNISHED BY MECHANICAL CONTRACTOR. PROVIDE 6' W x 2.5' H LOUVER AT EXTERIOR WITH 12" PLENUM. RECEIVED CITY OF TUKWILA MAY 10 2010 PERMIT CENTER 1ST FLOOR KEY PLAN SCALE: 1/8 " =1' -0° FIRST FLOOR PLAN M100 42/36 11 1,7 42/36 66/36 \A 60/24 /N 52/48 52/48 100/48 60/24 60/24 60/24 60/24 V\ J 98/48 98/48 40/36 DN ST 60/24 66/36 42/36 60/24 60/24 60/24 76/48 60/24 60/48 54/36 98/48 60/24 so /za 60/24 54/36 66/66 76/48 lOrr 60/24 60/24 58/42 N/ V\ 46/28 60/24 80/48 11 11 40/30 80/48 52/36 LI J V\ 60/24 NI V\ IN GENERAL NOTES 1. PROVIDE BALANCING DAMPERS AS INDICATED ON PLAN AND AT DUCT DROPS IN SHAFTS AT DATA CENTER PERIMETER. NOTES O PROVIDE 2" ACOUSTICALLY LINED PLENUM BENEATH RETURN AIR DUCTS FROM RTU'S ON ROOF. PROVIDE 45.0 SF (APPROX. 9'x5') OPENING ON RETURN PLENUM WITH WIRE MESH SCREEN AS INDICATED ON PLAN O 98/48 UP. ® 60/48 UP. • 80/48 UP. ® 66/66 UP. ® 76/48 UP. 70 52/48 UP. ® 100/48 UP. ® 30/12 TRANSFER AIR OPENING (B.O.D ® 12' -0" AFF). PROVIDE 11TUS MODEL 350RL AT OPENINGS IN WALL 10 PROVIDE 60/24 DUCT CONNECTION TO AIR SHAFT WITH DUCT LINER (TYP.). REFER TO SECTION ON SHEET M700 FOR DETAIL. 11 87/62 DN. 12 80/62 DN. 13 47/62 DN. ci 84/60 DN. 15 67/62 DN. 4 •0 17 OFFSET GLYCOL LINES AT 10' -0" ABOVE RAISED FLOOR. ROUTE PIPE TO AVOID ELECTRICAL PULL BOX, PROVIDE PAN AND LEAK DETECTION BENEATH PIPE. ISI Pi t�; L M10 -030 REVIEWED FOR CODE COMPLIANCE PPROVED MAY 2 1 2010 SCOPE OF WORK City of Tukwila BUILDING DIVISION 3RD FLOOR KEY PLAN RECEIVED CITY OF TUKWILA MAY 1'0 2010 PERMIT CENTER Oft lea co O M 0 M C? z J Q O Q OZ a rn . N oI c I— • r o• d 03 I- LL www.internap.com et rig W CO tag D 0- u1 2 () co t) Q`-,t- _Va.co Q _ I •C O) Flo WCO oQ Q �WCV5 O < Z IX W M �— W 1- I■ Z Z 0 0 T CO 0) 0 N 1- U w CC ISSUED / REVISED DATE CD SET REVISION #1 REVISION #2 03/08/10 &03/30/10 - 04/28/10 SCALE: 118' =1' -0" THIRD FLOOR PLAN - ABOVE CEILING M200 3 1 —, 1 1 ... ----- ........ — - ill .,......,. ... --- ...... -,-- ..... — —... ---. - ...- ..... ... .... .._ ...... ......_ ” '''''''.7.' m 1 t ' ME -- -- R13820 ..... ..”.. ..._..._. , - ro AkO 48 24 i I 1 I ....„_. I' II. _ - T K4 -- .... . .. - _____ - --- -- ...-.--_------ . . -.-- ,,,,,, - GA X MI 1 ------ ---- mm I_ l I I italEM t' 11 . . 7 1 . L 48 24 a pr imill1=1111111111114 /...-A PP" :_„..,-... _., Is m . mm .m........ ..“. .-,.. .w... ,..... m l .,..m...e NEVME ___ . . . Z --m- INN 7 , allwri ) I ,.-----,,, ,, El • . _iii 111 r =11 I .._ X 7.---r, zim IF/ , A ■ ,„_ _. ■ um mummlorm aiaMMiiiiii...iii MO.... 111I i1r11.1M1. 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I 1 H CENTER € :pump: �'z : �..,., ;�'. i . 1111.. www.internap.com J 00 - o__ rr0 0 00 1,0I IW 0 K4)NU) • 0 z c� < o bJ 0- N - o rz ojoWZZ� • 11 . N kn f= O DwrODF --I • E Z V 0 0 0c V) yc - 1 J= 1 J v O 0 3 3 W CO 0 yeti. W 2 U F- co INN 4w< • Q w a1..1.. W 1- Z - Novi 0 0 ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 ni 03/30/10 REVISION #2 - 04/28/10 SCALE: 1/8' =1' -0" THIRD FLOOR PLAN - RAISED FLOOR M202 JAL a GENERAL NOTES 1. DUCT SHALL BE PITCHED AS INDICATED ON PLAN. PROVIDE 3/4" DRAIN LINE WITH SHUT -OFF VALVE AT LOW POINT OF DUCT. 2. TERMINATE CONDENSATE LINES WITH TRAP AT ROOF. 3. REFER TO STRUCTURAL DRAWINGS FOR ROOF DUCT SUPPORT DETAIL 4. PROVIDE RETURN DUCT PENETRATIONS IN ROOF FOR SCREENED (FUTURE) RTU'S. RETURN DUCT SHALL EXTEND APPROX. 6" ABOVE ROOF LEVEL (V.I.F.) WITH WEATHER TIGHT CAP. RETURN STUB IS TO BE USED FOR FUTURE CONNECTION TO RTU DURING FUTURE PHASE OF CONSTRUCTION. PROVIDE VOLUME DAMPER AT CAP FOR SEEMLESS FUTURE CONNECTION TO PHASE 4 SYSTEM. 5. PROVIDE DUCT TRANSITION BETWEEN HUMIDIFIER (107/84) AND RTU (42/85). 6. SUBMIT SHOP DRAWINGS AND CALCULATIONS FOR DUCT AND PIPE SUPPORT SYSTEM, STAMPED AND SIGNED BY A STRUCTURAL ENGINEER LICENSED IN THE STATE OF WASHINGTON. 7. REFER TO STRUCTURAL AND ARCHITECTURAL PLANS FOR ADDITIONAL REQUIREMENTS. 8. COORDINATE LOCATION AND SIZE OF SUPPORTS PRIOR TO ROOF WORK. COORDINATE LAYOUT AND CONNECTIONS WITH MANUFACTURER'S EQUIPMENT LAYOUT. COORDINATE RTU HOLDDOWN HARDWARE WITH SEISMIC REQUIREMENTS AND UNIT. 9. SUPPORTS SHALL BE DESIGNED TO NOT INTERFERE WITH ACCESS TO EQUIPMENT FOR MAINTENANCE OR INSTALLATION OF FUTURE WORK. SHEET NOTES U SCREENED EQUIPMENT (SHOWN LIGHT) IS TO BE INSTALLED DURING FUTURE CONSTRUCTION PHASE. CURBS (SHOWN AS EQUIPMENT OUTLINES) ARE TO BE INSTALLED FOR ROOFTOP UNITS AND HUMIDIFIERS, SEE ARCHITECTURAL DETAILS. PROVIDE DUCTED RETURN WITH CAP TO RTU CURBS AND PROTECT CURB WITH WEATHER PROOF COVER. ® PROVIDE 2' WIDE BY 4' HIGH ACCESS HATCH IN DUCT 'TRANSITION (TYPICAL). HATCH PROVIDES SERVICE TECHNICIAN ACCESS TO HIGH SIDE OF SUPPLY FAN. ACCESS DOOR SWING IS SHOWN FOR IDENTIFICATION PURPOSES, PLEASE NOTE IT IS SHOWN IN THE WRONG DIRECTION. 03 REPAIR /REFURBISH EXISTING INOPERABLE EXHAUST FAN. CONSULT AEROVENT FOR NECESSARY REPLACEMENT OF 20.0 HP FAN MOTOR. INSPECT AND REPAIR BEARINGS, DRIVE AND IMPELLER. COMMISSION AND BALANCE UPON COMPLETION. ® PROVIDE MOTORIZED ISOLATION DAMPER DOWNSTREAM OF HUMIDIFIER (TYPICAL). BMS SHALL CONTROL DAMPER OPERATION. ® 98/48 DN. ® 60/48 DN. 0 80/48 DN. 07 66/66 DN. ® 76/48 DN. ® 52/48 DN. 10 100/48 DN. 11 COMMOM PIPING SUPPORT. SEE PIPING DIAGRAM FOR QTY AND SIZES ON SHEET M -700. SEE SHEET M500 FOR SUPPORT DETAIL 12 87/62 DN. 13 80/62 DN. 14 47/62 DN. 15 84/60 DN. 16 67/62 DN. 17 84/60 DN. @ 66/66 DUCT SHALL TERMINATE APPROX. 12" ABOVE ROOF (V.I.F.) WITH VOLUME DAMPER AND WEATHER TIGHT CAP, REVIEWED FOR CODE COMPLIANCE APPROVED MAY 2 1 2010 CIT 1C SCOPE OF WORK ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 - 03/30/10 REVISION #2 - 04/28/10 ft ROOF KEY PLAN MECHANICAL ROOF PLAN SCALE: 1 /8 " =1' -0" RECEIVED TUKWILA MAY 10 2010 PERMIT CENTER SCALE: 1!8 " =1' -0" ROOF PLAN M300 VW FEE 22' -6 ") GENERATOR SECTION SCALE: 1 /8 " =1' -0" T -BAR CEIUNG REFER TO ARCHITECTURAL DETAIL FOR DUCT LINER IN SHAFT RAISED FLOOR +30. NMI SHEET METAL AIR DIVERTER (18" RADIUS TYP.) FASTEN TO CONCRETE SLAB. MECHANICAL ROOF SECTION SCALE: 1 /8 " =1' -0" y o y w o cM 4 ix o 'um' i4.1z 0 < Z J¢ IX W >¢ O J ZLOI - N Q in F HUM MECHANICAL ROOF SECTION SCALE: 1 /8 " =1' -0" 4 41 HUB REVIE ED FOR CODE COMPLIANCE 4 PPRf VED MAY 2 1 2010 NOTE: PROVIDE MAT PER BUILDING STANDARD RECEIVED CITY OF TUKWILA MAY 10 2010 PERMIT CENTER ft W V W aco _ r �^ co i 0) CV CU �3 LO M ISSUED / REVISED DATE 03/08/10 - 03/30/10 - 04/28/10 MECHANICAL ROOF WALKOFF MAT PLAN SCALE: 1 /8 " =1' -0" MECHANICAL ROOF SECTION SCALE: 1 /8 " =1' -0" SCALE: PER PLANS SECTIONS M400 LOCATE CENTERLINE OF SPRING ISOLATOR OVER THE LINE OF THE SUPPORT BEAM PIPE SLEEVE 0 0 0 0 INSULATE RISER CLAMPS (ON CHILLED WATER RISERS ONLY) WITH SAME THICKNESS INSULATION AS CHILLED WATER RISERS SEE SPECIFICATIONS PIPE INSULATION SEE SPECIFICATIONS VERTICAL PIPE SUPPORT FOR PIPE 8' DIAMETER AND SMALLER NOT TO SCALE PIPE RISER CLAMP SEE SPECIFICATIONS SPRING ISOLATOR FLOOR SLAB REFER TO STRUCTURAL FOR SLAB INFO. 01 -02 -01 NOTE: 1. SUPPORT PAN FROM STRUCTURE. 2. PANS 14" WIDE OR LESS MAY BE CROSSBROKEN AND HUNG FROM STRUCTURE WITH GALVANIZED METAL STRAPS. 3. SUPPORT PANS MORE THAN 14" WIDE WITH UNISTRUT OR ANGLE IRON WITH 1/4" HANGER RODS TO STRUCTURE. 4. HANGER SPACING SHALL BE PER SMACNA STANDARDS. 5. SLOPE PAN SAME AS REQUIRED FOR PIPING SERVED. LAP PAN JOINTS IN SAME DIRECTION AS SLOPE. .-2" MINIMUM " ■11111 1 PIPE PANNING DETAIL FIELD VERIFY ADJUSTABLE CLEVIS HANGER PIPE 1" MINIMUM 22 GAUGE GALVANIZED METAL PAN UNDER PIPING - SEAL OVERLAPPING SECTIONS WATERTIGHT NOT TO SCALE 01 -04 -04 3 NOTES: 1. TYPICAL FOR SUPPLY, RETURN AND EXHAUST DUCTWORK. 2. LOCATE THE CENTER OF TAKE -OFFS FROM DUCT MAINS AT THE MIDPOINT OF THE SIDE OF DUCT MAIN ( "HEIGHT" /2) 3. SIZE A & B DIMENSIONS ARE PROPORTIONAL TO AIR QUANTITIES IN EACH LEG SPLIT 4. WHERE DUCT SIZE CHANGE OCCURS TRANSITION MAY NOT BE SHOWN ON PLANS 5. IF W2 DOES NOT EQUAL W1, MODIFY SHAPE OF VANE EDGES TO PROJECT TANGENTS PARALLEL TO DUCT SIDES SIDEWALL OUTLET AT DUCT MAIN D/W MIN --.-I D I-- 11 maim 45' TAKE -OFF (P) RECTANGULAR DUCT 90' ROUND DUCT TAKE -OFF (CONICAL OR BELLMOUTH TYPE) 45' ELBOW DUCT DOWN 15° MAX CONCENTRIC & ECCENTRIC TRANSITION (CONVERGING & DIVERGING) RECTANGULAR DUCT FITTINGS DETAIL RECTANGULAR DUCT 15' MAX ROUND DUCT TRANSITION TO ROUND Wf-- 11 maimit BRANCH TAKE -OFF L =1/4 W, 4" MIN 90' PARALLEL FLOW TYPE TAKE -OFF 90' SPLITTER TAKE -OFF W2 I"--1 Nair EINNON 90' MITER ELBOW DIRECTION OF FLOW PROVIDE VOLUME DAMPERS DOWN- STREAM OF EACH SPLIT (TYP) AIR FOIL TURNING VANES (TYP) NOT TO SCALE FIRE /SMOKE BARRIER (TYP) BREAKAWAY DUCT CONNECTION (TYP). DO NOT SCREW OR BOLT THE DUCT TO THE SLEEVE. AIR DUCT MOUNTING ANGLE 16 GAUGE STEEL CHANNEL DAMPER FRAME PLATED STEEL HEX AXLES SLEEVE GAUGE PER NFPA 90A S -JOINT (TYP.) 6" MAX NOTES vA I / 03 -16 -22 O SECURE 1 "x 1 "x 16 GA RETAINING ANGLE TO SLEEVE ONLY. 1" MINIMUM TYPICAL OVERLAP ON ALL SIDES OF DAMPER L'-- 9" MAX ON ACTUATOR SIDE FIRESTAT SET FOR 165F ACCESS PANEL OF ADEQUATE SIZE & LOCATION FOR MAINT. AND INSPECTION OF DAMPER FLEXIBLE CONDUIT AIR FLOW OPERATOR LINKAGE ELECTRIC DAMPER MOTOR TO BE FACTORY MOUNTED TO SLEEVE SMOKE DETECTOR PROVIDED BY DIVISION 16 120V/10 /UNDER DIV 16 1.INSTALL IN ACCORDANCE WITH STATE FIRE MARSHALL LISTING NO.3225- 245:005 * U.L. STANDARD 555 & 555S FOR BOTH VERTICAL AND HORIZONTAL INSTALLATION. 2. COORDINATE CEILING ACCESS DOORS WITH GENERAL CONTRACTOR AS REQUIRED TO PERMIT ACCESS TO DAMPER ACCESS DOORS IN DUCT. 3. MOUNTING ANGLES SHALL BE 1- "x 1- "x 16 GAGE MIN. FASTENED WITH NO.10 SCREWS 8" ON CENTER. 4. BOTH INSIDE & OUTSIDE OF FIRE DAMPER SLEEVE SHALL BE COATED WITH INTUMESCENT MASTIC TO THE CENTERLINE OF THE FIRE DAMPER. 5. INSTALL PER MANUFACTURER'S INSTRUC11ONS. MANUFACTURERS INSTRUC11ONS SHALL BE AVAILABLE ON SITE FOR INSPECTOR'S USE. 6. DAMPER SHALL CLOSE UPON SIGNAL FROM FIRE ALARM SYSTEM SMOKE DETECTORS. 7. LOCATE IN -DUCT SMOKE DETECTOR MAX. 5' -O" AWAY FROM FIRE /SMOKE DAMPER. COORDINATE W/ ELECTRICAL. 8. DAMPER SHALL AUTOMATICALLY RESET BY FIRE ALARM SYSTEM. FIRE /SMOKE DAMPER DETAIL NOT TO SCALE REFER TO STRUCTURAL FOR SLAB INFO. ALL THREAD ROD CONCRETE EXPANSION ANCHOR TRANSITION DUCTWORK AS REQUIRED. FLEXIBLE CONNECTION EXHAUST FAN SMALL INLINE EXHAUST FAN 03 -16 -18 MOTOR HOUSING. PROVIDE CLEAR ACCESS FOR SERVICE. SPRING ISOLATOR UNIT MOUNTING BRACKET WITH NEOPRENE GASKET OR RUBBER GROMET. BOLTED OR HINGED ACCESS PANEL WITH GASKET. PROVIDE CLEAR ACCESS FOR CLEANING AND SERVICE. NOT TO SCALE 03 -07 -07 1" REBAR 6" O.C. BOTH DIRECTIONS WELD AT ALL INTERSECTIONS 4 "x6" WOOD FRAME NOTE: COORDINATE LOCATIONS AND INSTALLATION PROCEDURES WITH OTHER TRADES PRIOR TO ANY WORK. PROVIDE SECURITY BARS AT INTAKE AND DISCHARGE OPENINGS TO FIRST FLOOR ELECTRICAL ROOMS (I.E. UPS ROOM, SWITCHGEAR ROOM, TRANSFORMER ROOM, ETC.) DUCT MANBAR DETAIL PLAN VIEW ELEVATION VIEW WELD 1" BOLT TO ANGLE IRON (TYP) 1 x 1 x1 ANGLE IRON WELD REBAR TO ANGLE IRON (TYP) WOOD FRAME STEEL REBAR (TYP) NOT TO SCALE GLOBE VALVE BYPASS HOFFMAN AUTO VENT DIELECTRIC UNION COIL CONNECTION ECCENTRIC REDUCER (TYP. 6) 1 l GLYCOL RETURN — ##300 VICLI BUTTERFLY TAU VALVE (TYP. 2) — CONTROL VALVE GLYCOL SUPPLY NIBCO BALL VALVE T -595 PETE'S PLUG (TYP. 2) DRAIN 03 -16 -25 SINGLE CIRCUIT CHILLED WATER COIL PIPING DIAGRAM NOT TO SCALE 02 -09 -10 VI N litt0-6030 REVIEWED FOR CODE COMPLIANCE APPROVED MAY 2 2010 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA MAY '102010 PERMIT CENTER 0 2 W I- D N 2 J J 0 N 0 M 0 M C9 H J oQ 0z ra a) • W o= M a0 U_ www.internap.com Q CO Q CD 0 65 tr) ra00 I W 0 rO N L CE 0000 0 r, U (n >rn wzz (Do o ZW�. -Q ov • :Wr.)DI —=: (nQW� el‘ 0 N -J (1) o.. < (0(0 • p„oo f— L W OQ C1 CNI Q W = W . a I— (n < CD 0 � M � W C■)~ 1— Z 0 0 1- 0 0 cc 0) 0 N 1- U w ISSUED / REVISED DATE 03/08/10 - 03/30/10 A04/28/10 C D SET R EVIS 0 N 1 R EVI S 0 N #2 SCALE: NTS DETAILS M500 12OV /1PH /60HZ' ALERTON CONTROL PANEL E5 a ® T 5F Ei NE2 11 m S as N i-n v ® B c. 6 ES Ai Al Ai Do Di Ao Ai Di Ao Ai Ao Do DI Ao Al Di Di Di Ao Do A I F SEQUENCE OF OPERATION SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. jr, SUPPLY MANIFOLD SUPPLY FAN OPERATION: FAN OPERATION SHALL BE CONTROLLED VIA UNDER FLOOR PRESSURE SENSORS. THREE PRESSURE SENSOR TUBES (SPACED EQUIDISTANTLY IN THE RAISED FLOOR) SHALL BE USED TO DETERMINE A HIGH/LOW PRESSURE SELECTION. THE LOWEST UNDERFLOOR PRESSURE READING IS USED TO CREATE A CONTROL SIGNAL WHICH DETERMINES THE VFD SPEED FOR ALL ROOFTOP UNITS. THIS CONTROL SIGNAL MODULATES FROM 0-100% AND IS GENERATED WHEN THE UNDERFLOOR PRESSURE DEVIATES FROM THE SETPOINT (1.5" ADJ.) RELIEF FAN OPERATION: FAN OPERATION SHALL BE CONTROLLED NA DATA CENTER SPACE PRESSURE SENSORS. THREE PRESSURE SENSORS (SPACED EQUIDISTANTLY IN THE DATA CENTER) SHALL BE USED TO DETERMINE A HIGH /LOW PRESSURE SELECTION. THE LOWEST PRESSURE READING IS USED TO CREATE A CONTROL SIGNAL WHICH DETERMINES THE VFD SPEED FOR ALL ROOFTOP UNIT RELIEF FANS. THIS CONTROL SIGNAL MODULATES FROM 0 -100% AND IS GENERATED WHEN THE SPACE PRESSURE DEVIATES FROM THE SETPOINT (0.05' ADJ.) DX COOLING OPERATION: ECONOMIZER MODE SHALL BE PRIMARY METHOD OF COOLING. MCQUAY UNIT SHALL ENABLE ECONOMIZER MODE UPON SATISFACTORY OUTSIDE AIR CONDITIONS. DX SYSTEM COOLING SHALL ACT AS SECOND STAGE OF COOLING WHEN THE ECONOMIZER IS DISABLED. THREE TEMPERATURE SENSORS WITHIN THE DATA CENTER SHALL MONITOR AND CONTROL RTU DX COOLING AND MAINTAIN A SPACE TEMP OF 70 DEGREES F (ADJ.). THE TEMP SENSORS SHAU. ESTABUSH A HIGH/LOW SELECTION AND THE HIGHEST READOUT WILL BE USED TO RESET THE SUPPLY AIR TEMPERATURE. HUMIDIFIER OPERATION: THREE HUMIDITY SENSORS WILL LOCATED WITHIN THE SUPPLY MANIFOLD ON THE ROOF (EQUIDISTANTLY SPACED). THE HUMIDIFIERS WILL BE ENABLED UPON START SETPOINT OF 35% (ADJ.) PLENUM RELATIVE HUMIDITY. THEY WILL BE DISABLED AT A STOP SETPOINT OF 55% (ADJ.) PLENUM RELATIVE HUMIDITY. THE HUMIDIFIERS WILL BE DISABLED WHEN THE MCQUAY RTUS ARE IN ECONOMIZER. FLIER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). NOTES 1. THE RTU'S SHALL BE CONTROLLED BY THE DDC SYSTEM 2. ISOLATION DAMPER ON RTU HUMIDIFIER DISCHARGE SHALL REMAIN IN THE CLOSED POSITION AND SHALL OPEN UPON START COMMAND OF R1U. 3. SMOKE DETECTION SHAU. DISABLE UNIT OPERATION. 4. IF GLOBAL COMMUNICATION IS LOST OR ANY SPACE/HUMIDITY/PRESSURE SENSOR FAILS, THEN THE UNITS WILL USE THEIR OWN INTERNALCONTROLS TO CONDITION THE SPACE. ROOFTOP UNIT CONTROL NOT TO SCALE 120V /1PH /60HZ ALTERTON CONTROL PANEL Do Di Do Di Di Di HUMIDIFIER DRAINAGE LIFT STATION NOT TO SCALE ALERTON CONTROL PANEL PUMP START /STOP g N 17, the Di Do DI Do Di Ai Do Do Al Di SEQUENCE OF OPERATION 120V /IPH /60HZ (DC) SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. Kcc) t 120V /1PH /60HZ ALERTON CONTROL PAN 6 R N cg ix ix %a .50 950 Ao Al Do Ao Ai RETURN AIR IIIII1111IIIIIIllIIIIIIIIIIIIIlIIIIIIIIIlIlIIIIII CRAC UNIT OPERATION: THE CRAC UNITS ARE CONTROLLED BY THE DDC SYSTEM AND OPERATE IN A LEAD1/LEAD2/LEAD3/BACKUP SCHEME. THE LEAD/LAG SEQUENCING SHALL ALTERNATE ON A MONTHLY (ADJ.) SCHEDULE. THE UPS ROOM ECONOMIZER SYSTEM SHALL BE THE PRIMARY MODE FOR COOLING. WHEN THE ECONOMIZER SYSTEM IS DISABLED THE CRAC UNITS WILL BE ENABLED. THE CRAC UNITS WILL SEQUENTIALLY OPERATE BY OPENING ITS RESPECTIVE CONTROL VALVE AND STAGING COMPRESSOR OPERATION TO MAINTAIN THE SPACE TEMPERATURE SET POINT OF 75 DEGREES F (ADJ.). UNIT SHALL ESTABLISH WATER FLOW PRIOR TO COMPRESSOR OPERATION. IN THE EVENT OF A CRAC UNIT FAILURE THE BACKUP UNIT SHALL BE ENABLED AND IT RESPECTIVE CONTROL VALVE OPENED. THE FAILED UNIT SHALL BE DISBALED AND ITS CONTROL VALVE CLOSED. IF GLOBAL COMMUNICATION IS LOST OR THE SPACE TEMPERATURE SENSOR FAILS, THEN THE UNITS WALL USE THEIR OWN RETURN AIR TEMPERATURE SENSOR TO CONDITION THE SPACE. DRYCOOLER AND PUMP PACKAGE OPERATION: ON A CALL FOR COOLING AT THE CRAC UNITS, THE SYSTEM PUMPS AND DRYCOOLERS WILL RECIEVE A START SIGNAL THE SYSTEM PUMPS ARE CONTROLLED AS A PRIMARY/BACKUP SYSTEM. OPERATION OF THE PUMPS WILL ALTERNATE ON A MONTHLY (ADJ.) BASIS. IN THE EVENT OF A PRIMARY PUMP FAILURE OR ITS UNABLE TO ESTABLISH FULL FLOW CONDITIONS AT THE FLOW SWITCH, THE BACKUP PUMP SHALL BE ENABLED AND THE PRIMARY PUMP DISABLED. THE DRYCOOLERS WILL CYCLE FAN OPERATION BASED UPON LEAVING FLUID TEMPERATURE. EACH FAN SHALL BE MONITORED AND AN ALARM SHALL BE SENT TO THE BMS WHEN A FAN FAILS. FILTER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS MEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). FIRE /ALARM CONDITION: A ONLY A LOCAL ALARM AT THE CRAC UNITS SMOKE DETECTOR SHALL DISABLE UNIT. NOTES 2 1. LEAK DETECTION HAS NOT BEEN INDICATED ON ANY CONTROL DIAGRAMS. PLEASE REFER TO PLANS FOR LOCATIONS AND QTY'S OF LEAK DETECTION AND PROVIDE BMS MONITORING OF ALL SENSORS (CRAC/PIPING/DUCTWORK AUCXIUARY PANS. UPS ROOM CRAC /DC CONTROL NOT TO SCALE ALTERTON CONTROL PANEL F F g tea+ 15 E-361 J cla g5 W W0 1- U � LgE el as 0o Lgg Ao M Ao Al Ai Ai Do Di Ao Al Di D 1 Ao Al Di Di Ai Di Di UPS ROOM SEQUENCE OF OPERATION J SD SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. ECONOMIZER OPERATION: THE FAN BASED ECONOMIZER SHALL. BE CONTROLLED BY THE DDC SYSTEM AND BE THE UPS ROOMS PRIMARY MODE FOR COOLING. UPON A START SIGNAL FROM THE ECONOMIZER THE CRAC UNITS SHALL BE DISABLED. A TEMPERATURE SENSOR SHALL MONITOR BREEZEWAY CONDITIONS AND UPON DETECTION OF A TEMPERATURE BELOW THE SET POINT OF 55 DEGREES F (ADJ.) THE ECONOMIZER SHALL BE ENABLED. A WD CONTROL SIGNAL IS GENERATED FROM THE SPACE TEMPERATURE SET POINT OF 75 DEGREES F (ADJ.) AND MODULATES FROM 0 -100% THE FANS SHALL OPERATE IN LEAD/LAG CONDITION AND ROTATE LEAD OPERATION ON A WEEKLY BASIS. THE LAG FAN SHALL RECIEVE A START SIGNAL ONCE THE LEAD FAN REACHES 90% AND THE FANS SHALL THEN EQUALIZE IN OPERATION. WHEN THE LEAD FAN FALLS BELOW 40% OPERATION THE LAG FAN SHALL BE DISABLED. THE FIRE /SMOKE DAMPERS ON THE INTAKE SIDE OF THE ECONOMIZER SHALL OPEN WHEN THE E ONOMIZER IS ENABLED. WHEN THE ECONOMIZER IS DISABLED, THE FIRE /SMOKE DAMPERS SHALL CLOSE. FiRE /ALARM CONDITION: A ONLY A LOCAL ALARM AT THE TRANSFER FANS SMOKE DETECTOR SHALL DISABLE UNIT. 2 FILTER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). PS ROOM ECONOMIZER CONTROL OT TO SCALE 120V /1PH /60HZ ALTERTON CONTROL PANEL E F p Q N 8 0M4 N 5 Ds Lig yN y !-SS G S3 W E<n as a m AR au,.. Ao Ai i Do DI Ao Al Di Do Di Ao Ai Di Di Di UPS ROOM SEQUENCE OF OPERATION VFD SD SD SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. TRANSFER FAN OPERATION: THE TRANSFER FAN(S) SHALL BE CONTROLLED BY THE DDC SYSTEM. A TEMPERATURE SENSOR SHALL CONTROL FAN OPERATION. A VFD CONTROL SIGNAL IS GENERATED FROM THE SPACE TEMPERATURE SET POINT OF 75 DEGREES F (ADJ.) AND MODULATES FROM 0 -100%. THE FAN(S) SHALL OPERATE IN LEAD/LAG CONDITION AND ROTATE LEAD OPERATION ON A MONTHLY BASIS (ADJ.). THE LAG FAN SHALL RECIEVE A START SIGNAL ONCE THE LEAD FAN REACHES 90% AND THE FANS SHAU. THEN EQUAUZE IN OPERATION. WHEN THE LEAD FAN FALLS BELOW 40% OPERATION THE LAG FAN SHALL BE DISABLED. THE FIRE /SMOKE DAMPER ON THE INTAKE AIR OPENING TO THE ROOM SHALL OPEN WHEN THE TRANSFER FAN(S) ARE ENABLED. WHEN THE TRANSFER FAN SYSTEM IS DISABLED, THE F1RE/SMOKE DAMPER SHALL CLOSE. FIRE /ALARM CONDITION: A ONLY A LOCAL ALARM AT THE TRANSFER FANS SMOKE DETECTOR SHALL DISABLE UNIT. FILTER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). SYMBOL /ABBREV. DESCRIPTION t DESCRIPTION O C C 120V/24V CONTROL TRANSFORMER AIRFLOW MEASURING STATION CONTROL PANEL (DDC) DIFFERENTIAL PRESSURE SWITCH DIFFERENTIAL PRESSURE SENSOR HIGH PRESSURE CUTOUT SWITCH ELECTRIC TO PNEUMATIC TRANSDUCER FLOW SWITCH HUMIDITY SENSOR SMOKE DETECTOR STATIC PRESSURE SENSOR TEMPERATURE SENSOR VARIABLE FREQUENCY DRIVE FIRE ALARM SYSTEM INTERLOCK CONDENSER COMPRESSOR SECTION AFMS &- ---t CP DP © EP .--? —e— --i SEQUENCE OF OPERATION SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. jr, SUPPLY MANIFOLD SUPPLY FAN OPERATION: FAN OPERATION SHALL BE CONTROLLED VIA UNDER FLOOR PRESSURE SENSORS. THREE PRESSURE SENSOR TUBES (SPACED EQUIDISTANTLY IN THE RAISED FLOOR) SHALL BE USED TO DETERMINE A HIGH/LOW PRESSURE SELECTION. THE LOWEST UNDERFLOOR PRESSURE READING IS USED TO CREATE A CONTROL SIGNAL WHICH DETERMINES THE VFD SPEED FOR ALL ROOFTOP UNITS. THIS CONTROL SIGNAL MODULATES FROM 0-100% AND IS GENERATED WHEN THE UNDERFLOOR PRESSURE DEVIATES FROM THE SETPOINT (1.5" ADJ.) RELIEF FAN OPERATION: FAN OPERATION SHALL BE CONTROLLED NA DATA CENTER SPACE PRESSURE SENSORS. THREE PRESSURE SENSORS (SPACED EQUIDISTANTLY IN THE DATA CENTER) SHALL BE USED TO DETERMINE A HIGH /LOW PRESSURE SELECTION. THE LOWEST PRESSURE READING IS USED TO CREATE A CONTROL SIGNAL WHICH DETERMINES THE VFD SPEED FOR ALL ROOFTOP UNIT RELIEF FANS. THIS CONTROL SIGNAL MODULATES FROM 0 -100% AND IS GENERATED WHEN THE SPACE PRESSURE DEVIATES FROM THE SETPOINT (0.05' ADJ.) DX COOLING OPERATION: ECONOMIZER MODE SHALL BE PRIMARY METHOD OF COOLING. MCQUAY UNIT SHALL ENABLE ECONOMIZER MODE UPON SATISFACTORY OUTSIDE AIR CONDITIONS. DX SYSTEM COOLING SHALL ACT AS SECOND STAGE OF COOLING WHEN THE ECONOMIZER IS DISABLED. THREE TEMPERATURE SENSORS WITHIN THE DATA CENTER SHALL MONITOR AND CONTROL RTU DX COOLING AND MAINTAIN A SPACE TEMP OF 70 DEGREES F (ADJ.). THE TEMP SENSORS SHAU. ESTABUSH A HIGH/LOW SELECTION AND THE HIGHEST READOUT WILL BE USED TO RESET THE SUPPLY AIR TEMPERATURE. HUMIDIFIER OPERATION: THREE HUMIDITY SENSORS WILL LOCATED WITHIN THE SUPPLY MANIFOLD ON THE ROOF (EQUIDISTANTLY SPACED). THE HUMIDIFIERS WILL BE ENABLED UPON START SETPOINT OF 35% (ADJ.) PLENUM RELATIVE HUMIDITY. THEY WILL BE DISABLED AT A STOP SETPOINT OF 55% (ADJ.) PLENUM RELATIVE HUMIDITY. THE HUMIDIFIERS WILL BE DISABLED WHEN THE MCQUAY RTUS ARE IN ECONOMIZER. FLIER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). NOTES 1. THE RTU'S SHALL BE CONTROLLED BY THE DDC SYSTEM 2. ISOLATION DAMPER ON RTU HUMIDIFIER DISCHARGE SHALL REMAIN IN THE CLOSED POSITION AND SHALL OPEN UPON START COMMAND OF R1U. 3. SMOKE DETECTION SHAU. DISABLE UNIT OPERATION. 4. IF GLOBAL COMMUNICATION IS LOST OR ANY SPACE/HUMIDITY/PRESSURE SENSOR FAILS, THEN THE UNITS WILL USE THEIR OWN INTERNALCONTROLS TO CONDITION THE SPACE. ROOFTOP UNIT CONTROL NOT TO SCALE 120V /1PH /60HZ ALTERTON CONTROL PANEL Do Di Do Di Di Di HUMIDIFIER DRAINAGE LIFT STATION NOT TO SCALE ALERTON CONTROL PANEL PUMP START /STOP g N 17, the Di Do DI Do Di Ai Do Do Al Di SEQUENCE OF OPERATION 120V /IPH /60HZ (DC) SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. Kcc) t 120V /1PH /60HZ ALERTON CONTROL PAN 6 R N cg ix ix %a .50 950 Ao Al Do Ao Ai RETURN AIR IIIII1111IIIIIIllIIIIIIIIIIIIIlIIIIIIIIIlIlIIIIII CRAC UNIT OPERATION: THE CRAC UNITS ARE CONTROLLED BY THE DDC SYSTEM AND OPERATE IN A LEAD1/LEAD2/LEAD3/BACKUP SCHEME. THE LEAD/LAG SEQUENCING SHALL ALTERNATE ON A MONTHLY (ADJ.) SCHEDULE. THE UPS ROOM ECONOMIZER SYSTEM SHALL BE THE PRIMARY MODE FOR COOLING. WHEN THE ECONOMIZER SYSTEM IS DISABLED THE CRAC UNITS WILL BE ENABLED. THE CRAC UNITS WILL SEQUENTIALLY OPERATE BY OPENING ITS RESPECTIVE CONTROL VALVE AND STAGING COMPRESSOR OPERATION TO MAINTAIN THE SPACE TEMPERATURE SET POINT OF 75 DEGREES F (ADJ.). UNIT SHALL ESTABLISH WATER FLOW PRIOR TO COMPRESSOR OPERATION. IN THE EVENT OF A CRAC UNIT FAILURE THE BACKUP UNIT SHALL BE ENABLED AND IT RESPECTIVE CONTROL VALVE OPENED. THE FAILED UNIT SHALL BE DISBALED AND ITS CONTROL VALVE CLOSED. IF GLOBAL COMMUNICATION IS LOST OR THE SPACE TEMPERATURE SENSOR FAILS, THEN THE UNITS WALL USE THEIR OWN RETURN AIR TEMPERATURE SENSOR TO CONDITION THE SPACE. DRYCOOLER AND PUMP PACKAGE OPERATION: ON A CALL FOR COOLING AT THE CRAC UNITS, THE SYSTEM PUMPS AND DRYCOOLERS WILL RECIEVE A START SIGNAL THE SYSTEM PUMPS ARE CONTROLLED AS A PRIMARY/BACKUP SYSTEM. OPERATION OF THE PUMPS WILL ALTERNATE ON A MONTHLY (ADJ.) BASIS. IN THE EVENT OF A PRIMARY PUMP FAILURE OR ITS UNABLE TO ESTABLISH FULL FLOW CONDITIONS AT THE FLOW SWITCH, THE BACKUP PUMP SHALL BE ENABLED AND THE PRIMARY PUMP DISABLED. THE DRYCOOLERS WILL CYCLE FAN OPERATION BASED UPON LEAVING FLUID TEMPERATURE. EACH FAN SHALL BE MONITORED AND AN ALARM SHALL BE SENT TO THE BMS WHEN A FAN FAILS. FILTER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS MEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). FIRE /ALARM CONDITION: A ONLY A LOCAL ALARM AT THE CRAC UNITS SMOKE DETECTOR SHALL DISABLE UNIT. NOTES 2 1. LEAK DETECTION HAS NOT BEEN INDICATED ON ANY CONTROL DIAGRAMS. PLEASE REFER TO PLANS FOR LOCATIONS AND QTY'S OF LEAK DETECTION AND PROVIDE BMS MONITORING OF ALL SENSORS (CRAC/PIPING/DUCTWORK AUCXIUARY PANS. UPS ROOM CRAC /DC CONTROL NOT TO SCALE ALTERTON CONTROL PANEL F F g tea+ 15 E-361 J cla g5 W W0 1- U � LgE el as 0o Lgg Ao M Ao Al Ai Ai Do Di Ao Al Di D 1 Ao Al Di Di Ai Di Di UPS ROOM SEQUENCE OF OPERATION J SD SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. ECONOMIZER OPERATION: THE FAN BASED ECONOMIZER SHALL. BE CONTROLLED BY THE DDC SYSTEM AND BE THE UPS ROOMS PRIMARY MODE FOR COOLING. UPON A START SIGNAL FROM THE ECONOMIZER THE CRAC UNITS SHALL BE DISABLED. A TEMPERATURE SENSOR SHALL MONITOR BREEZEWAY CONDITIONS AND UPON DETECTION OF A TEMPERATURE BELOW THE SET POINT OF 55 DEGREES F (ADJ.) THE ECONOMIZER SHALL BE ENABLED. A WD CONTROL SIGNAL IS GENERATED FROM THE SPACE TEMPERATURE SET POINT OF 75 DEGREES F (ADJ.) AND MODULATES FROM 0 -100% THE FANS SHALL OPERATE IN LEAD/LAG CONDITION AND ROTATE LEAD OPERATION ON A WEEKLY BASIS. THE LAG FAN SHALL RECIEVE A START SIGNAL ONCE THE LEAD FAN REACHES 90% AND THE FANS SHALL THEN EQUALIZE IN OPERATION. WHEN THE LEAD FAN FALLS BELOW 40% OPERATION THE LAG FAN SHALL BE DISABLED. THE FIRE /SMOKE DAMPERS ON THE INTAKE SIDE OF THE ECONOMIZER SHALL OPEN WHEN THE E ONOMIZER IS ENABLED. WHEN THE ECONOMIZER IS DISABLED, THE FIRE /SMOKE DAMPERS SHALL CLOSE. FiRE /ALARM CONDITION: A ONLY A LOCAL ALARM AT THE TRANSFER FANS SMOKE DETECTOR SHALL DISABLE UNIT. 2 FILTER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). PS ROOM ECONOMIZER CONTROL OT TO SCALE 120V /1PH /60HZ ALTERTON CONTROL PANEL E F p Q N 8 0M4 N 5 Ds Lig yN y !-SS G S3 W E<n as a m AR au,.. Ao Ai i Do DI Ao Al Di Do Di Ao Ai Di Di Di UPS ROOM SEQUENCE OF OPERATION VFD SD SD SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. TRANSFER FAN OPERATION: THE TRANSFER FAN(S) SHALL BE CONTROLLED BY THE DDC SYSTEM. A TEMPERATURE SENSOR SHALL CONTROL FAN OPERATION. A VFD CONTROL SIGNAL IS GENERATED FROM THE SPACE TEMPERATURE SET POINT OF 75 DEGREES F (ADJ.) AND MODULATES FROM 0 -100%. THE FAN(S) SHALL OPERATE IN LEAD/LAG CONDITION AND ROTATE LEAD OPERATION ON A MONTHLY BASIS (ADJ.). THE LAG FAN SHALL RECIEVE A START SIGNAL ONCE THE LEAD FAN REACHES 90% AND THE FANS SHAU. THEN EQUAUZE IN OPERATION. WHEN THE LEAD FAN FALLS BELOW 40% OPERATION THE LAG FAN SHALL BE DISABLED. THE FIRE /SMOKE DAMPER ON THE INTAKE AIR OPENING TO THE ROOM SHALL OPEN WHEN THE TRANSFER FAN(S) ARE ENABLED. WHEN THE TRANSFER FAN SYSTEM IS DISABLED, THE F1RE/SMOKE DAMPER SHALL CLOSE. FIRE /ALARM CONDITION: A ONLY A LOCAL ALARM AT THE TRANSFER FANS SMOKE DETECTOR SHALL DISABLE UNIT. FILTER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). SYMBOL /ABBREV. DESCRIPTION SYMBOL DESCRIPTION LOW VOLTAGE CONTROL WIRING PNEUMATIC TUBING 120V,208V OR 460V POWER WIRING 120V AUTOMATIC ISOLATION VALVE CURRENT SENSING RELAY 3-WAY CONTROL VALVE 2 -WAY CONTROL VALVE ACTUATOR PROVIDED AND INSTALLED BY CONTROLS CONTRACTOR PROVIDED AND INSTALLED BY CONTROLS CONTRACTOR PROVIDED AND INSTALLED BY ELECTRICAL PROVIDED AND INSTALLED BY MECHANICAL PROVIDED BY ELECTRICAL AND INSTALLED BY MECHANICAL ANALOG INPUT ANALOG OUTPUT DIGITAL INPUT DIGITAL OUTPUT BUILDING MANAGEMENT SYSTEM T 120V/24V CONTROL TRANSFORMER AIRFLOW MEASURING STATION CONTROL PANEL (DDC) DIFFERENTIAL PRESSURE SWITCH DIFFERENTIAL PRESSURE SENSOR HIGH PRESSURE CUTOUT SWITCH ELECTRIC TO PNEUMATIC TRANSDUCER FLOW SWITCH HUMIDITY SENSOR SMOKE DETECTOR STATIC PRESSURE SENSOR TEMPERATURE SENSOR VARIABLE FREQUENCY DRIVE FIRE ALARM SYSTEM INTERLOCK ----i 1- — — — -? AFMS &- ---t CP DP © EP .--? —e— --i 0 ? A ? ? © �� © OE O EM O Al Ao Di Do BMS FS O W ® ® VFD FIRE CONTROL LEGEND NOT TO SCALE TRANSFER FAN TEMPERATURE CONTROL (TRANSFORMER ROOM *153 + SWITCHGEAR ROOM 1155) NOT TO SCALE VISION P't(003� 04 -01 -0 REVIEWED FOR CODE COMPLIANCE PP$'t VED MAY 2 1 2010 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA MAY "10 2010 PERMIT CENTER y v y 0 t IF W TE M -10( 2 J J O LC) N www.internap.com Q 4 CG rn — a ��o "1 I co Lwi_ OO � CCOOD_ c0gco LiJ O N — cn > rn co m zLiJ -< : 0— WZZ. 0 411P N ..1 0 0o 0) O N 0 CC F- U w 0 ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 ,A03/30/10 REVISION #2 A04/28/10 SCALE: NTS CONTROL DIAGRAMS M600 10 SEE PLUMBING DRAWINGS FOR CONTINUATION. AUTOMATIC AIR VENT (TYP.). PROVIDE AT HIGHEST POINT IN SYSTEM STRAINER W/ BALL VALVE (TYP.) RELIEF VALVE (TYP.) PRESSURE/TEMPERATURE PORT (TYP. MIXING VALVE (TYP. SIZE PER MANUFACTURERS RECOMMENDATION (APPROX. 1,000 GAL SYSTEM CAPACITY TYP.) M /w EXPANSION TANK CHEMICAL FEEDER CF 3 FUTURE PHASE 4 SYSTEM FLEXIBLE CONNECTION (TYP.) CHECK VALVE (TYP.) ISOLATION VALVE (TYP.) BALANCING VALVE (TYP.) AIR SEPARATOR PROVIDE ISOLATION VALVES AT DRYCOOLER CONNECTION (TYP.) BACK PRESSURE BYPASS VALVE FLOW SWITCH (TYP. PROVIDE A REDUNDANT SET OF SUPPLY AND RETURN GLYCOL /WATER LINES FROM DRYCOOLER /DUPLEX PUMP PACKAGES AT ROOF TO CRAC UNITS IN UPS ROOM ON FIRST FLOOR. PROVIDE A HOSE BIB AT FIRST FLOOR AND FILL PORT AT ROOF FOR EACH SET OF SUPPLY AND RETURN LINES FOR MAINTENANCE AND REPAIR. PROVIDE SLOPED AUXILAIRY DRAIN PAN BENEATH PIPING LOCATED ON FIRST FLOOR WITH POINT LEAK DETEC11ON. 6" SUP /RET 6" SUP /RET 4" SUP /RET 4" SUP /RET 5" SUP /RET CRAC UNIT / DRYCOOLER PIPING DIAGRAM NOT TO SCALE UPS ROOM NOTE: PROVIDE AUXILIARY PAN BENEATH GLYCOL /WATER LINES IN UPS ROOM. SPOT LEAK DETEC11ON IS REQUIRED IN PAN AND SHALL COMMUNICATE WITH BMS. DRAIN UNE FROM PIPING PAN SHALL TERMINATE IN PAN WITH CONDENSATE PUMP BENEATH CRAC UNITS. 07/72 (49,000 CFM) 107/72 (49,000 CFM 107/72 (49,000 CFM 90/48 (52,280 CFM V 03 CV CV O rn CIO 84/84 SUPPLY, AIR MANIFOLD \ \\ 1,0, 90/48 (52,280 C CEILING SPACE: SEE M -200 FOR DISTRIBUTION NORTH HUMIDITY SENSOR (TYP.) DATA CENTER TEMPERATURE SENSOR (TYP.) PRESSURE SENSOR SOUTH HSs RAISED FLOOR MONITORING NOTES: SENSORS ON DIAGRAM ARE TO BE MONITORED BY BMS. REFER TO CONTROL DIAGRAMS FOR CONTROL INTERFACE WITH EQUIPMENT. RTU AIRFLOW DIAGRAM NOT TO SCALE VI : i�N NOtL N110 030 10„ REVIEWED FOR CODE COMPLIANCE P T F P R O W E D MAY 2 2010 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA MAY 10 2010 PERMIT CENTER www.internap.com Q J Y 00 to 00 0 : Cn I W 0 O0N(n • LOQ00 O CL WOONC) C/) > p) O 03 -2. < W : O 5 W Z fr 0 • N O J O L. INTERNAP DATA CENTER PHASE 111 1NTERGATE EAST CAMPUS 3355 S. 120th Place Tukwila, WA 98168 c T r a a c 0 1- ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 03/30/10 REVISION #2 - 04/28/10 SCALE: NTS PIPING AND AIRFLOW DIAGRAMS M700 O J O L. O 0 11, C▪ 4 C4 CV C4 1 1 1 1 01 01 01 01 DT EMERGENCY SHUTDOWN SOLENOID VALVE (NO) DT NORMAL FILL SOLENOID VALVE NC 1" FOR 1" FOS a T CV 120V /1PH /6OHZ 0 CV CC CC 0 CV 1% 1" FOR 1" FOS 1" FOR TLS T DOUBLE POPPET FOOT VALVE (TYP.) GENSET SOLENOID VALVE (NC) MERTON CONTROL PANEL 1- O O J j 1 1 O J M I5 DI I M M M M 1 DI DI DI DI DI LT DAY TANK MONITORING THE DAY TANK SYSTEM CONSISTS OF RETURN PUMPS, LEVEL SENSING AND RUPTURE/LEAD DETECTION. THE DDC ARE ONLY MONITORED BY THE DDC SYSTEM. LT DDC DAY TANK MONITORING SYSTEM NOT TO SCALE LO LO J NOTE: PROVIDE WITH DISCONNECT 1" FOS 1" FOR POWER AVAILABLE LAMP DAY TANK (4,5,6) HIGH LEVEL LAMP DAY TANK (4,5,6) LOW LEVEL LAMP DAY TANK (4,5,6) LEAK LAMP RETURN PUMP (4,5,6) RUN LAMP RETURN PUMP (4,5,6) HOA SWITCH DAY TANK (4,5,6) SOLENOID VALVES HOA SWITCH DAY TANK (4,5,6) FAIL LAMP SUPPLY PUMP (1,2) FAIL LAMP SUPPLY PUMP (1,2) RUN LAMP ALARM SILENCE BUTTON CUSTOM FUEL SYSTEM CONTROL AND MONITORING PANEL (O S4TEC MFG OR EOUAL) FUEL SYSTEM CONTROL DETAIL NOT TO SCALE FUEL SYSTEM EQUIPMENT SCHEDULE TAG DESCRIPTION DT ABOVE GROUND CONVAULT FUEL DAY TANK UL -2085 LISTED 250 GALLON CONCRETE ENCAPSULATED TANK. PROVIDE WITH 4" FILL CONNECTION IN 7 GALLON SPILL BUCKET, LEAK DETECTOR TUBE, THREE (3) 2" NIPPLES AND THREE (3) 4" NIPPLES. PROVIDED AND INSTALLED BY CONTRACTOR FEDERAL CODES HAVING JURISDICTION OVER THE CONSTRUCTION. RP DAY TANK SUBMERSIBLE RETURN PUMP. FUEL CONTROL PANEL SHALL OPERATE. PROVIDED AND INSTALLED BY CONTRACTOR, MOUNTED ON DAY TANK (208/1/60). © CP OMNTEC CUSTOM CONTROL AND MONITORING PANEL. REQUIREMENTS OF BUILDING AND WORK PERFORMANCE WITH THE PROJECT MANAGER. EV LEAK SENSOR. 10. INSTALLED TANKS SHALL BE VENTED TO PER NFPA SECTION 30. VENTS MUST BE LS STAINLESS STEEL FLEXIBLE CONNECTION *i....t.,0 EMERGENCY VENTING (IN THE EVENT OF A FIRE) SHALL ALSO BE DESIGNED AND TANK CONTAINMENT LEAK SENSOR. SHUT — OFF /ISOLATION VALVE (THREE PIECE BRONZE) TLS SWING CHECK VALVE LEVEL PROBE AND LEVEL TRANSMITTER. COMPATIBLE WITH FUEL CONTROL PANEL TO REPORT TANK LEVEL FOR DIGITAL READOUT. AND DRILLING REQUIRED OF STRUCTURAL ELEMENT THAT IS NOT SPECIFICALLY SHOWN LT ON DRAWINGS SHALL BE BROUGHT TO THE OWNERS REPRESENTATIVE ATTENTION PRIOR COMPONENETS. LG LEVEL GAUGE /PROBE. LEVEL PROBE AND GAUGE FOR FUEL LEVEL READOUT VISIBLE FROM TANK FILLING CONNECTION. FUEL SYSTEM PIPING FUEL PIPING SHALL BE SCHEDULE 80 STEEL WITH WELDED JOINTS AND FITTTINGS. SYMBOL LSIT SYMBOL ABBREV. DESCRIPTION 8. STRUCTURAL CALCULATIONS SHALL BE PROVIDED BY THE MANUFACTURE TO FOS FUEL OIL SUPPLY FEDERAL CODES HAVING JURISDICTION OVER THE CONSTRUCTION. FOR FUEL OIL RETURN 9. A MINIMUM 2 -HOUR FIRE RATING ENCLOSURE SHALL BE PROVIDED WITH V VENT REQUIREMENTS OF BUILDING AND WORK PERFORMANCE WITH THE PROJECT MANAGER. EV EMERGENCY VENT 10. INSTALLED TANKS SHALL BE VENTED TO PER NFPA SECTION 30. VENTS MUST BE FLEX STAINLESS STEEL FLEXIBLE CONNECTION *i....t.,0 EMERGENCY VENTING (IN THE EVENT OF A FIRE) SHALL ALSO BE DESIGNED AND SOV SHUT — OFF /ISOLATION VALVE (THREE PIECE BRONZE) 1�1 SWING CHECK VALVE 11. THE CONTRACT DRAWINGS ARE SCHEMATIC AND ARE INTENDED TO CONVEY A AND DRILLING REQUIRED OF STRUCTURAL ELEMENT THAT IS NOT SPECIFICALLY SHOWN SOLENOID VALVE ON DRAWINGS SHALL BE BROUGHT TO THE OWNERS REPRESENTATIVE ATTENTION PRIOR COMPONENETS. FLOW SWITCH LT SIZES OF SUCH CUTTING AND DRILLING FOR APPROVAL. ULTRASONIC LEVEL TRANSMITTER THEMSELF WITH ALL THE REQUIREMENTS OF THE PROJECT AND SHALL NOTIFY THE CM TANK LEAK SENSOR 1LS 0 MATTER MAY BE RESOLVED PRIOR TO SUBMISSION OF BIDS. LEVEL GAUGE 13. BY SUBMISSION OF BID, THE CONTRACTOR SHALL ACKNOWLEDGE ACCEPTANCE OF SEISMIC RESTRAINTS OF MECHANICAL SYSTEMS AND LOCAL REQUIREMENTS. DOUBLE POPPET FOOT VALVE ® EXTRA COST CLAIMS BASED ON INADEQUACY OF CONTRACT DOCUMENTS WILL NOT BE RETURN PUMP Alb POC POINT OF CONNECTION GENERAL NOTES 1. WORK SHALL COMPLY WITH ALL APPLICABLE STATE AND LOCAL BUILDING 8. STRUCTURAL CALCULATIONS SHALL BE PROVIDED BY THE MANUFACTURE TO CODES, OCCUPATIONAL SAFETY AND HEALTH ADMINSTRATION (OSHA) STANDARDS AND INDICATE THAT THE ABOVE GROUND VESSEL MEETS ALL APPLICABLE CODES. FEDERAL CODES HAVING JURISDICTION OVER THE CONSTRUCTION. 9. A MINIMUM 2 -HOUR FIRE RATING ENCLOSURE SHALL BE PROVIDED WITH 2. CONTRACTOR SHALL EXAMINE THE PROJECT SITE AND DISCUSS GENERAL AVAILABLE TEST DATA AND CALCULATIONS. REQUIREMENTS OF BUILDING AND WORK PERFORMANCE WITH THE PROJECT MANAGER. CONTRACTOR SHALL COORDINATE HIS WORK WITH THE WORK OF OTHERS ON THE 10. INSTALLED TANKS SHALL BE VENTED TO PER NFPA SECTION 30. VENTS MUST BE PROJECT. CONTRACTOR SHALL CONFIRM EXISTING CONDITIONS AND PROVIDE LABOR AND INSTALLED IN ACCORDANCE MTh NFPA TO ENSURE COMPLIANCE WITH U.L. 142. MATERIALS TO MAKE A WORKABLE AND USABLE SYSTEM. EMERGENCY VENTING (IN THE EVENT OF A FIRE) SHALL ALSO BE DESIGNED AND INSTALLED IN COMPLIANCE WITH NFPA SECTION 3. 3. CONTRACTOR SHALL BE RESPONSIBLE FOR CUTTING AND PATCHING OF WALLS, ROOFS, FOOTINGS, FLOORS, INCLUDING SAW CUTTING AND CORE DRILLING. ANY CUTTING 11. THE CONTRACT DRAWINGS ARE SCHEMATIC AND ARE INTENDED TO CONVEY A AND DRILLING REQUIRED OF STRUCTURAL ELEMENT THAT IS NOT SPECIFICALLY SHOWN FUNCTIONAL FUEL OIL SYSTEM AND TO DEPICT THE GENERAL LOCATION OF THE SYSTEM ON DRAWINGS SHALL BE BROUGHT TO THE OWNERS REPRESENTATIVE ATTENTION PRIOR COMPONENETS. TO SUCH CUTTING OR DRILLING. CONTRACTOR SHALL SUBMIT PROPOSED LOCATION AND SIZES OF SUCH CUTTING AND DRILLING FOR APPROVAL. 12. CONTRACTOR SHALL EXAMINE THE CONTRACT DOCUMENTS AND SHALL FAMILIARIZE THEMSELF WITH ALL THE REQUIREMENTS OF THE PROJECT AND SHALL NOTIFY THE CM 4. CONTRACTOR SHALL BE RESPONSIBLE FOR THE ACQUISITION AND PAYMENT OF OF ANY OBSERVED FAULTS AND AMBIGUITY IN THE CONTRACT DOCUMENTS SO THAT THE PERMITS AND INSPECTIONS REQUIRED AND RELATED FEES FOR 11-115 INSTALLATION. MATTER MAY BE RESOLVED PRIOR TO SUBMISSION OF BIDS. 5. PIPING SHALL BE SEISMICALLY BRACED PER THE SMACNA GUIDELINISE FOR 13. BY SUBMISSION OF BID, THE CONTRACTOR SHALL ACKNOWLEDGE ACCEPTANCE OF SEISMIC RESTRAINTS OF MECHANICAL SYSTEMS AND LOCAL REQUIREMENTS. THE CONTRACT DOCUMENTS AS AN ADEQUATE DEFINITION OF THE SCOPE OF WORK AND EXTRA COST CLAIMS BASED ON INADEQUACY OF CONTRACT DOCUMENTS WILL NOT BE 6. MECHANICAL CONTRACTOR AND /OR FUEL SYSTEM VENDOR SHALL SUBMIT CONSIDERED. COMPLETE SHOP DRAWINGS FOR EQUIPMENT SHOWN IN THE EQUIPMENT SCHEDULE AND PIPING SHOWN ON DIAGRAM FOR ENGINEER'S REVIEW PRIOR TO FABRICATION. 14. OIL COOLER IS TO BE FURNISHED BY GENERATOR MANUFACTURER AND INSTALLED BY CONTRACTOR AS INTEGRAL PART OF ENGINE. INSTALL WITH ALL NECESSARY 7. FUEL PIPING, VENT PIPING, AND CONTAINMENT CASING SHALL BE WELDED STEEL. COMPONENTS, INCLUDING VALVES, GAUGES, FLEXIBLE CONNECTIONS AND FITTINGS. 8. DIESEL FUEL STORAGE TANK SHALL BE DESIGNED AND CONSTRUCTED IN 15. CONTRACTOR SHALL VERIFY ALL VOLTAGE AND POWER REQUIREMENTS AND ACCORDANCE WITH UL 142, AND UFC STANDARDS A- 11 -F -1. THE TANKS SHALL BE COORDINATE WITH ELECTRICAL CONTRACTOR AS REQUIRED. ALL CONTROLS AND POWER SUPPLIED AND INSTALLED BY THE MECHANICAL CONTRACTOR OR THEIR SUBCONTRACTOR. WRING SHALL BE IN SEPARATE RIGID CONDUIT. TANK SHALL BE CONSTRUCTED OF CONCRETE ENCAPSULATED STEEL TANK AND SHALL BE WITH ENCLOSED SECONDARY CONTAINMENT TANK (RUPTURE BASIN) AND 16. MOTOR CONTROLLERS (STARTERS) OR COMBINATION STARTER /DISCONNECT PROVIDED LEAK DETECTOR. SWITCHES FOR MECHANICAL EQUIPMENT ARE FURNISHED UNDER THIS DIVISION AND INSTALLED UNDER DIVISION 16. FUEL SYSTEM SEQUENCE OF OPERATION: DAY TANK FILL OPERATION: FUEL CONTROL PANEL SHALL OPERATE DAY TANK FILL OPERATION. UPON LIQUID LEVEL SENSOR DETECTION OF 75% TANK CAPACITY, THE FUEL CONTROL PANEL WILL SEND A SIGNAL FOR "DT NORMAL FILL" SOLENOID VALVE TO BE ENERGIZED INTO THE OPEN POSITION. FUEL SYSTEM CONTROL PANEL SHALL ALSO SEND SIGNAL TO SYSTEM PUMP TO ENERGIZE. OPERATION LIGHT "NORMAL FILL ACTIVATED" SHALL ILLUMINATE WHEN "NORMAL FILL" SOLENOID VALVE IS ACTIVATED. WHEN LIQUID LEVEL SENSOR DETECTS TANK CAPACITY AT 90% THE "NORMAL FILL" SOLENOID VALVE WILL BE DE- ACTIVATED, THE "NORMAL FILL ACTIVATED" LIGHT SHALL TURN OFF AND THE SYSTEM PUMP SHALL RECEIVE STOP SIGNAL. DAY TANK LOW LEVEL OPERATION: UPON LIQUID LEVEL DETECTION OF 5% TANK CAPACITY, THE FOLLOWING OPERATIONS SHALL TAKE PLACE: • THE "DT EMERGENCY SHUTDOWN SOLENOID VALVE" SHALL ENERGIZE AND CLOSE. • THE ASSOCIATED GENERATOR SHALL RECIEVE A SHUTDOWN SIGNAL TO PROTECT ITS FUEL INJECTION SYSTEM. THE "GENSET FILL" SOLENOID VALVE SHALL CLOSE. • A FAILURE SIGNAL OF THE DAY TANK SHALL BE GENERATED AT THE FUEL SYSTEM CONTROL PANEL. IN ORDER TO RESET LOW LEVEL ALARM THE FOLLOWING OPERATIONS MUST TAKE PLACE: • OVERRIDE SOLENOID VALVE CONTROL FOR DSIGNATED DAY TANK AT HOA SWITCH AT CONTROL PANEL FROM AUTO TO OPEN. • MANUAL FILL DAY TANK TO LEVEL NO LESS THAN 25 %. LEAK DETECTION OPERATION: A SIGNAL FROM A DAY TANK LEAK SENSOR SHALL GENERATE AN ALARM AT THE FUEL SYSTEM CONTROL PANEL. THE FUEL SYSTEM CONTROL PANEL WILL SEND A SIGNAL TO THE "DT EMERGENCY SHUT DOWN" SOLENOID VALVE AND IT WILL CLOSE. ONCE REPAIRED VALVE POSITIONS CAN BE RESET AY HOA SOLENOID VALVE SWITCH AT FUEL SYSTEM CONTROL PANEL. BEVkIIIN W Mid 03d DAY TANK HIGH LEVEL OPERATION: UPON LIQUID LEVEL DETECTION OF 95% TANK CAPACITY, THE FOLLOWING OPERATIONS SHALL TAKE PLACE: • FUEL SYSTEM CONTROL PANEL SHALL SEND SIGNAL TO CLOSE "DT EMERGENCY SHUTDOW SOLENOID VALVE. • HIGH LEVEL LAMP SHALL ILLUMINATE FOR ASSOCIATED DAY TANK. • FUEL SYSTEM CONTROL PANEL SHALL SEND SIGNAL TO ENERGIZE RETURN PUMP FOR ASOCIATED DAY TANK. • RETURN PUMP LAMP SHALL ILLUMINATE UPON OPERATION OF PUMP. IN ORDER TO RESET HIGH LEVEL ALARM DETECTION OF 85% TANK CAPACITY IS REQUIRED FR LIQUID LEVEL SENSOR AT FUEL CONTROL PANEL. THE RETURN PUMP SHALL DE- ENERGIZE AN RETURN PUMP LAMP SHALL TURN OFF. A THREE POSITION. THE "DT EMERGENCY SHUTDOWN" SOLENOID VALVE SHALL RETURN TO OPEN POSITION. co 0 co 0 co 0 Q z J www.internap.com 00 Q r2 rn Z 0 ro 00 Io U) p MNLn • a_ LiJO N_ to >rn com W Z (Y.- Q OU wzz� :D w ro D l- I tv)rocn <a_� 0 • 9 O c A 0 - J J 0 AI v " REVIEWED FOR CODE COMPLIANCE APPROVED MAY 21 2010 M W W a a MINIM w a. NTERGATE EAST CAMPUS NOD CO N- 0- CO 0 0) .0 N r (0 co M ~ 0 0 1` co 0) 0 N E- C) W -) 0 0 ISSUED THEG'j�yQfTukwil� CD SET / REVISED 03/08/10 DATE BUILDING DIVISIO EVISION #1 03/30/10 REVISION #2 404/28/10 GENSET SOLENOID VALVE OPERATION: WHEN THE GENERATOR RECIEVES A START SIGNAL THE GENSET SOLENOID VALVE SHALL OPEN. WHEN THE GENERATOR RECEIVES A STOP OR FAIL SIGNAL THE GENSET SOLENOID VALVE SHALL CLOSE. DAY TANK FLOW SWITCH OPERATION: UPON DAY TANK FILL OPERATION IF FLOW IS NOT ESTABLISHED AT SWITCH THE "DT EMERGENCY SHUTDOWN" SOLENOID VALVE SHALL CLOSE AND AN ALARM SIGNAL SENT TO THE FUEL SYSTEM CONTROL PANEL. SUPPLY PUMP MONITORING: OPERATION OF THE STORAGE TANK SUPPLY PUMPS WILL BE RECEIVED ACCESSIBLE FROM THE PHASE 1 SYSTEM (GATEKEEPER PANEL). MONITORING OF STATUS AND CITY ®F TIIKWILA FAILURE WILL BE AT FUEL SYSTEM CONTROL PANEL. MAY f) /010 ALARM OPERATION: UNDER ALARM CONDITION THE PANEL SHALL ENERGIZE AN ALARM BELL THAI WILL ONLY BE DISBALED AT FUEL CONTROL PANEL ALARM SILENCE BUTTON. PERMIT CENTER SCALE: NTS FUEL SYSTEM LEGEND, SCHEDULE, NOTES & DIAGRAM FS001 r T • STANDBY i'ZiltTRA,TO 0 mown BUB I (FRONT) (FRONT) ATS #3 W/ BYPASS 1 / USS -1 2500KVA XFMR. #1 GEN ROOM 150 600A 26.4KV HV SWITCH (FRONT) (FRONT) USS-2 2500KVA XFMR. #1 (2) 1 -1/2" FOS (2) 1-1/2 FOR SODA 26.4KV HV 1 SWITCH I (FRONT) I II; I 'E SERVICE SWBD #1 i 11 ats fie j ata I! 1 I1 ! I 11 11 ma+n -2 1 { - a U!. _1 _l irk itLr� tU3 PHASE 3 UPS 0 �— L . t.... i'_) SWITCH GEAR STANDBY CL RATOF BEM PA ;F-Mr. -3 DiS 1. n I7 FUEL SYSTEM - FIRST FLOOR PART (OVERHEAD PIPING) (2) 1 -1/2" FOS B/G (2) 1 -1/2" FOR B/G trb SCALE: 1/8"=1'-0" GENERAL NOTES 1. REFER TO PLAN FS -200 FOR PIPING SYSTEM DETAILS. 2. COORDINATE WORK WITH OTHER TRADES PRIOR TO ROUTING VENTS TO EXTERIOR. NOTES 01 CONNECT TO EXISTING 1 -1/2" FUEL OIL LINES (FOS & FOR) OVERHEAD. Q RUN (3) 2" VENTs & (3) 4" EMERGENCY VENTS TO EXTERIOR OF BUILDING. PROVIDE COMMON SUPPORT FOR ter., G E T 30 PROVIDE COMMON SUPPORT FOR VENTS. TERMINATE VENTS AT 26' -6" ABOVE GRADE. irnm mum 1111111111111 STANDL'l' ER.ATG G +�" R !1 0 • TAND ) i" 1 I' It (FRONT) ATS #1 (FRONT) (FRONT) ATS #3 W/ BYPASS USS-1 2500KVA XFMR. #1 21 SV GEN ROOM (1 150 USS-2 2500KVA XFMR. #1' at I 1,1 I i SERVICE SWBD 1 aks I tie .1 8tG 1 ma GEN ROOM 152 STANDBY : E? RAi:J U'';HT SUB i h. I ION U PHASE :3 UPS SWITCH GEAR 153 PHASE 3 MECHANI ..' k- 3E -ME triri711ESALIA 1:11„:,015, n ..SF J E .;,! . ! I'. FUEL SYSTEM - FIRST FLOOR PART (AT GRADE PIPING) SCALE: 1/8"=1'- 0" GENERAL NOTES 1. REFER TO PLAN FS -200 FOR PIPING SYSTEM DETAILS. NOTES 0 ROUTE FOS AND FOR LINES AT FLOOR SLAB IN PROTECTED ENCLOSURE. REFER TO ARCHITECTURAL /STRUCTURAL DETAIL FOR ENCLOSURE CONSTRUCTION. M(o36 SCOPE OF WORK REVIEWED FOR CODE COMPLIANCE APPROVED MAY 2 1 2010 City of Tukwila BUILDING DIVI,4Inn, 1ST FLOOR KEY PLAN RECVE CITY OF TUKWILA MAY 1.0 2010 PERMIT CENTER CC /y o M r hc F- y w O 00 m 0 11 I mukt CO 0 < J J V • G Z q - -N ▪ w a o = ~M W �Q • •- Z �' 3 <1 -LL 3 Q o0 < r0oo0 I W 0 tO N Li. Z Q. p r CO o CL W p N U U) > a) co m ZW0. -< : O U 0 W Z z m�Ol�go� Q!(nM(nQD_� fas z N J J CALL /SON www.callison.com IX W co 1 z O W 2 0 CD (..) Q CU U 0_ 03 Q — l- s 0) Iftli CO urw<o CI < w =w .c0 DM= W w M t- ▪ Z z 0 0 r, co rn 0 N PROJECT ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 - 03/30/10 REVISION #2 ^04/28/10 SCALE: 1/8 " =1'.0” FUEL SYSTEM FIRST FLOOR PLAN FS100 02 DT-3 (FRONT) (FRONT) ATS #1 (FRONT) (FRONT), ATS #3 WI BYPASS USS-1 2500KVA XFMR. #1 600A 26.4KV HV SWITCH GEN ROOM 150 (FRONT) (FRONT) USS-2 2500KVA XFMR. #1 600A 26.4KV HV SWITCH (FRONT) )M I.0 • (1) ;:sf. FE, SWITCH GEAR 153 UNIT SUBSTATION "US.-4" I P ECH ANIC 110..I•11* es L r TY L.IPS 11\111T S',A BD SF ---UI='53 HEM PANEL L31 XFMR L3 Al R1U3-9 REU3-1 1 1 I I I E6PRI • RTU5-.6 R.11.15-8 Fau510 MTS MECH3B MTS NECHA // / . -f//ov/////X • 0 -E 0 GENERATOR ROOM 108 FIRST FLOOR PLAN FE DS SW R3 0.41; P3 PANEL P31 APPROX. 50' BREAK IN PLAN CAC: 3-1 CAC 3-2 CAC 3-.3 CAC 3-t DF—UPS03 2" PW APPROX. 50' BREAK IN PLAN R V,140 t4(()-11- ()3() GENERAL NOTES 1. ELECTRICALLY HEAT TRACE ALL PIPE IN BREEZEWAY. SHEET NOTES 0 EXISTING TO BE REMOVED AND RELOCATED AN. THIS SYSTEM IS NOT TO BE DISRUPTED DURING CONSTRUCTION. COORDINATE AND WORK WITH BUILDING ENGINEER. 0 PROVIDE CONDENSATE PUMP FOR EACH CRAC UNIT AND AUXILIARY DRAIN PAN BELOW CRAC UNITS (QTY.3). MANIFOLD PUMPED CONDENSATE DRAIN LINES AND SLOPE OUT OF UPS ROOM. PROVIDE PAN BENEATH CONDENSATE LINES IN UPS ROOM AND DRAIN PAN IN BREEZEWAY 6" AFF. PROVIDE WITH LEAK DETECTION AND BMS MONITORING CAPABIUTY. ® NOT USED. 0 TERMINATE PUMPED DRAIN LINE TO AIR GAP FITTING IN UNFINISHED RESTROOM. PROVIDE FUNNEL GAURD AROUND FITTING TO REDUCE SPLASH. REVIEWEL)i---Oh CODE COMPuANCi APPnrtlirr) MiAl 2 1 City of Tukwila BUILDING fl SCOPE OF WORK 1ST FLOOR KEY PLAN RECEIVED CITY OF TUKWILA MAY 1 0 2010 PE • MIT CENTER SCALE: 1 /8"=1'-0 r rEsslo PRO www.internap.com _J c0 0 < oo 0 (1) tr) 1 0 (1) 0 0 • w LL. 0 CO a- < I a_ o 0 co WO > -a) CO j < D 0 0 "- E—L1J DLLJrOD}—I 05'soLLIZZ: LO 0 < a. ek z co w co INTERGATE EAST CAMPUS a) oo o as co N"' "--a. CO 0 >„ cn Lo co co c\ 0 ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 03/30/10 REVISION #2 - 04/28/10 SCALE: 1/8°.1.-0° PLUMBING FIRST FLOOR PLAN P100 ats 1 1 SERVIOE SWBD #1 . ats i fie i ats : 1 11 11 reale-2 11 .1.31n-1 i i )M I.0 • (1) ;:sf. FE, SWITCH GEAR 153 UNIT SUBSTATION "US.-4" I P ECH ANIC 110..I•11* es L r TY L.IPS 11\111T S',A BD SF ---UI='53 HEM PANEL L31 XFMR L3 Al R1U3-9 REU3-1 1 1 I I I E6PRI • RTU5-.6 R.11.15-8 Fau510 MTS MECH3B MTS NECHA // / . -f//ov/////X • 0 -E 0 GENERATOR ROOM 108 FIRST FLOOR PLAN FE DS SW R3 0.41; P3 PANEL P31 APPROX. 50' BREAK IN PLAN CAC: 3-1 CAC 3-2 CAC 3-.3 CAC 3-t DF—UPS03 2" PW APPROX. 50' BREAK IN PLAN R V,140 t4(()-11- ()3() GENERAL NOTES 1. ELECTRICALLY HEAT TRACE ALL PIPE IN BREEZEWAY. SHEET NOTES 0 EXISTING TO BE REMOVED AND RELOCATED AN. THIS SYSTEM IS NOT TO BE DISRUPTED DURING CONSTRUCTION. COORDINATE AND WORK WITH BUILDING ENGINEER. 0 PROVIDE CONDENSATE PUMP FOR EACH CRAC UNIT AND AUXILIARY DRAIN PAN BELOW CRAC UNITS (QTY.3). MANIFOLD PUMPED CONDENSATE DRAIN LINES AND SLOPE OUT OF UPS ROOM. PROVIDE PAN BENEATH CONDENSATE LINES IN UPS ROOM AND DRAIN PAN IN BREEZEWAY 6" AFF. PROVIDE WITH LEAK DETECTION AND BMS MONITORING CAPABIUTY. ® NOT USED. 0 TERMINATE PUMPED DRAIN LINE TO AIR GAP FITTING IN UNFINISHED RESTROOM. PROVIDE FUNNEL GAURD AROUND FITTING TO REDUCE SPLASH. REVIEWEL)i---Oh CODE COMPuANCi APPnrtlirr) MiAl 2 1 City of Tukwila BUILDING fl SCOPE OF WORK 1ST FLOOR KEY PLAN RECEIVED CITY OF TUKWILA MAY 1 0 2010 PE • MIT CENTER SCALE: 1 /8"=1'-0 r rEsslo PRO www.internap.com _J c0 0 < oo 0 (1) tr) 1 0 (1) 0 0 • w LL. 0 CO a- < I a_ o 0 co WO > -a) CO j < D 0 0 "- E—L1J DLLJrOD}—I 05'soLLIZZ: LO 0 < a. ek z co w co INTERGATE EAST CAMPUS a) oo o as co N"' "--a. CO 0 >„ cn Lo co co c\ 0 ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 03/30/10 REVISION #2 - 04/28/10 SCALE: 1/8°.1.-0° PLUMBING FIRST FLOOR PLAN P100 10 GENERAL NOTES 1. PROVIDE AUXILIARY PAN AS INDICATED ON PLAN. AUXILIARY PANS ARE TO BE LOCATED AT LOWEST POINT OF DUCT RUN. EACH PAN SHALL INLCUDE POINT LEAK DETECTION (UEBERT LIQUITECH OR EQUAL). SENSORS ARE TO BE MONITORED AT BMS WITH ALARM NOTIFICATION. Q1 NOT USED. 0 2° DRAIN LINE FROM HUMIDIFIERS ON ROOF. PROVIDE CONNECTION TO AUXILIARY LINE IN CEILING SPACE OF ELECTRICAL ROOM WITH AUXILIARY PAN. REVISION NO.1„ M(003 0 REVIEWED FOR CODE COMPLIANCE APPROVED MAY 21 2010 ' City of Tukwila BUILDING DIVIRIm RECEIVED CITY OF TUKV11 LA MAY 102011) PERMIT CENTER y o V CO w I- it. : ' 4 D i IC: 3No lift iiicii 1— co co 0 EL Zcn < 0z ,�,,; Q JQNw Z �I- MH W >•Q4ti oti Z ��d'oo N Q I•- LL www.internap.com Q --I Q Y 00 Z CC OD O Da_ r)0p 0 rii In I OU LwL 0 rN� O co 0 r WOO 0 OU cn > rn co m ZuJE < D O V w Z z• mf°150� rYD Cw torn cn:Q - C= _ • gt W u) III% 0 Z CL W 2 �to CI < ci U IL co Q = m _0) ▪ CD "IPQ Q � W N> ■ < r = W . CO Z OL M� W M W l- ima Z Z 0 0 co 0 N 1- U w CC ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 A 03/30/10 REVISION #2 - 04/28/10 SCALE: 1/8' =1' -0' PLUMBING THIRD FLOOR PLAN P200 K6) r. (H"' /\ =====13 1" CW 2" W 1" CW 2" W Er „ 7 / \1 RTU 4-6 PLUMBING ROOF PLAN \47J 1" CW 2" W 2" CW 0 I \ ) \ / 1. 0 2" CW I /- ) I / ED 1 ............... 0 I 1 • ri f .1 \ i 7"--',,, .../ -',. 1 ( \ . ..... - 7 ' .\\ I _ I i ) I: \_,./ I I I I I I ( ) I i t i I i I \. ,/ i I I -IJ Ul 1 A\ •' iity'% I Y/ 0 0 0 0 0 0 0 0 0 0 (,",t;7‘,..'•:,r-_-.--\...;,;..;1,. 1 ,o..-...T.,.:..././ ./,... .:,.* fr; I :: .\ ., ..:=:. ;.:.....r...:.N\ 'A(.,.:3)))..i.(1:•0 (iO3»)(t4))): i ..„-,-.:::-.2 \::::::+:,..., i,........,,,.. ,:,..,•?:./ 1 4 (4K ?fril) 'E/' tr.\ GENERAL NOTES 1. PIPING ON ROOF SHALL BE ELECTRICALLY HEAT TRACED TO PROTECT FROM FREEZING. SHEET NOTES 0 2” CW CONNECTION WITH S.O.V. FOR FUTURE PHASE OF CONSTRUCTION. 0 2" HUMIDIFIER DRAIN LINE DO 0 1" INDUSTRIAL COLD WATER LINE FOR DRYCOOLER FILL. REFER TO PIPING DIAGRAM FOR VALVE ASSEMBLY AND CONNECTION. / \ \ ( ' ...... , j I \\ SCALE: 1 /8"=1'-0" (1) REVI 'NNO.1 (0-036 REVIEWED FOR CODE COMPLIANCE APPRMED MAY 2 1 2010 City of Tukwila BUILDING DIVisinro RECEIVED CITY OF TLIKVVILA MAY 1 0 2010 PERMIT CENTER IL° wog CNI < 1— LI- PROFESSIONAL SERVICES II1 co lk 0 0- 0 co WI 2 0 co CI < as 0 a. co 4:4 = 1-- 0) .c 1•11 co 4-, < 1 0 ..,,. co co Eli cNi 0 < .1- i W . CU igt 0 Lo = w co iii 1— iii, z 0 0 co cr) 0 w CC ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 A03/30/10 REVISION #2 - 04/28/10, SCALE: 1/8`=1-0" PLUMBING ROOF PLAN P300 0 0 0 0 0 0 0 0 0 0 00 CD I ; I €i�UPS ROOM 151 �� I % , PRE - ACTION VALVE •' • ' !Br ZONE #1 -17 iii; Z.11, ZzA llllllll // GENERATOR ROOM #150 PRE- ACT1ON VALVE ZONE #1 -16 GENERATOR ROOM ... #152 • ZONE #1 -16 IC ; PRE - ACTION VALVE \ ;; k'\K\ 1 to mmmmmmmmdtl .Itt* 4Wroit freM -i �i;�'� UPS ROOM 1 # #151 : i.��ir % PRE - ACTION VALVE :��i �/�, • - Afr, ZONE #1-17 PRE - ACTION VALVE / ZONE #1 -11A PRE - ACTION VALVE ZONE #1 -6 SWITCHGEAR ROOM #155 PRE- ACT1ON VALVE ZONE #1 -17 z O W 0 O O O I.J U) > m Q Ln DLiJr') CC V) In www.internap.com 00 O) r0 00 o o , I o rr) N 0- z o o0co0 CA�wm D (n < OL PRE- AC110N VALVE ONE #1 -18 VIII, 1111111111 1111111Uk 1111111111 �11111111II11 IIO �I 1M 1 frif /Tr n n to e i I A A FIRST FLOOR FIRE PROTECTION ZONE PLAN (EXISTING PRE - ACTION) SCALE: 1/32"=1'-0" FIRST FLOOR FIRE PROTECTION ZONE PLAN (NEW PRE - ACTION) SCALE: 1 /32 " =1' -0" FIRE PROTECTION GENERAL NOTES COORDINATION: A. CONTRACTOR SHALL SUBMIT COORDINATION DRAWINGS FOR REVIEW AND APPROVAL PRIOR TO COMMENCEMENT OF WORK. CONTRACTOR SHALL BE RESPONSIBLE FOR ASSEMBLY AND COORDINATION OF WORK WITHIN ALL DIVISIONS AND TRADES INTO A SINGLE PACKAGE. 2. DIVISION 21 AND 28 SHALL OBTAIN APPROVAL OF SHOP AND INSTALLATION DRAWINGS FOR THE FIRE ALARM AND SUPPRESSION SYSTEMS APPROVED BY A LICENSED FIRE PROTECTION ENGINEER (FPE). THE REQUIREMENTS SHALL BE THE RESPONSIBILITY OF THE CONTRACTOR. IT IS HIGHLY RECOMMENDED THAT THE FIRE ALARM CONTRACTOR BE RESPONSIBLE TO OBTAIN THE APPROVAL BY THE FPE. 3. DIVISION 21 AND 28 SHALL BE RESPONSIBLE FOR OBTAINING AND MEETING ALL THE REQUIREMENTS AS IMPOSED BY THE AHJ IN ADDITION TO THE REQUIREMENTS OF DIVISION 21 AND DIVISION 28 SPECIFICATIONS. ANY COSTS AS A RESULT OF THESE REQUIREMENTS SHALL BE BE THE RESPONSIBILITY OF THE CONTRACTOR. IT IS HIGHLY RECOMMENDED THE FIRE ALARM CONTRACTOR BE RESPONSIBLE FOR ALL COSTS ASSOCIATED. REFERENCE THE SPECIFICATIONS FOR ADDITIONAL REQUIREMENTS, DRAWING SUBMITTAL AND APPROVAL PROCESS. 4. CONDUIT SHALL BE INSTALLED CONCEALED IN FINISHED AREA(S) UNLESS NOTED OTHERWISE. 5. COORDINATE FINAL INSTALLATION /LOCATION OF ALARM PANELS (PANELS RELATED TO THE FIRE ALARM SYSTEM) AND DEVICES WITH ARCHITECTURAL ELEVATIONS, THE CONTRACTOR, ARCHITECT /ENGINEER PROJECT MANAGER AND PER DIVISION 230000 PRIOR TO ROUGH IN. 6. PROVIDE A COMPLETE AND OPERATIONAL FIRE ALARM SYSTEM INCLUDING ALL MODULES, RELAYS, COMPONENTS, WIRING, PROGRAMMING AND CONNECTIONS. 7. ALL CONTROL, ALARM, WARNING, MONITORING, AND OPERATIONAL DEVICES SHALL BE ACCOMPANIED WITH A SIGN OR PLACARD CLEARLY IDENTIFIES THE DEVICES PURPOSE OF OPERATION. SIGNS AND PLACARDS ARE TO BE HIGH QUALITY PRODUCTS MADE OF ENGRAVED OR STENCILED PLASTIC AND FIRMLY AFFIXED TO THEIR MOUNTING SURFACE ADJACENT TO THE DEVICE THEY IDENTIFY. 8. MATERIAL AND INSTALLATION SHALL BE IN ACCORDANCE WITH THE SEISMIC - RESTRAINT LOADING, VIBRATION AND SEISMIC CONTROLS FOR FIRE SUPPRESSION PIPING AND EQUIPMENT. 9. DIVISION 21 AND 28 ARE RESPONSIBLE TO VISIT THE SITE AND DETERMINE THE EXACT EXTENT OF WORK, COORDINATION, TEMPORARY CONSTRUCTION, TEMPORARY FACILITIES, UTILITIES, ETC. NECESSARY TO COMPLETE THIS PROJECT AS INDICATED IN THE CONTRACT DRAWINGS. 10. REFERENCE APPLICABLE SECTIONS OF THE BID DOCUMENTS FOR THE TOTAL SCOPE OF THE PROJECT INCLUDING THE REFERENCES AND COMPLIANCE SECTIONS OF THE ADDRESSABLE FIRE ALARM SYSTEMS AND FIRE SUPPRESSION SYSTEMS. SPRINKLER DESIGN CRITERIA • UPS ROOM / SWITCHGEAR ROOMS • ORDINARY HAZARD GROUP 2 • 0.2 GPM /SQ.FT. OVER 1950 SQ.FT. OF REMOTE AREA. • UPRIGHT HEAD CENTRAL MODEL "A ", 1/2" N.P.T. WITH 1/2" ORIFICE • GENERATOR ROOM • ORDINARY HAZARD GROUP 2 • 0.2 GPM /SQ.FT. OVER 1950 SQ.FT. OF REMOTE AREA. • UPRIGHT SPRINKLER HEAD 3/4" N.P.T. CENTRAL MODEL "A" WITH 17/32" ORIFICE SCOPE OF WO REVIEWED FOR CODE COMPLIANCE APPROVED MAY 212010 co 0 U 1-- W Q W = W a. I- < 0 W 1- z O ISSUED / REVISED REVISION #1 REVISION #2 DATE 03/08/10 03/30/10 04/28/10 11. PROVIDE EQUIPMENT PROTECTION ABOVE ALL NETWORK EQUIPMENT WHEN WORKING ABOVE EQUIPMENT. ALL PROTECTION SHALL BE COORDINATED WITH THE CONSTRUCTION MANAGER TO ENSURE THAT THE PROTECTION WILL NOT BLOCK ACCESS TO EQUIPMENT OR CAUSE OVERHEATING. PROVIDE TEMPORARY COOLING AS REQUIRED. 12. CONTACTOR SHALL PROVIDE SEISMIC BRACING AND SUPPORT OFF ALL EQUIPMENT AND MATERIALS PROVIDED. 1ST FLOOR KEY PLAN_ ECEI„gp CITY OF T KWILA MAY 102010 PERMIT CENTER SCALE: 1/32'=l'•0° FIRE PROTECTION FIRST FLOOR FP100 ac 0 PRE—ACTION VALVE ZONE #3-19 DATA CENTER #332 PRE-ACTION VALVE: ZONE #3-18 DATA CENTER #333 PRE—ACTION VALVE ZONE #3-20 STki, '4 0 PRE—ACTION VALVE ZONE #3-15 PRE—ACTION VALVE ZONE #3-15 PRE—ACTION :VALVE ZONE #3H4 THIRD FLOOR FIRE PROTECTION ZONE PLAN (EXISTING PRE-ACTION) SCALE: 1/16"=1'-0" THIRD FLOOR FIRE PROTECTION ZONE PLAN (NEW PRE-ACTION) SCALE: 1/16"=1 '-0" SPRINKLER DESIGN CRITERIA • DATA CENTERS • ORDINARY HAZARD GROUP 1 • 0.15 GPM/SQ.FT. OVER 1950 SQ.FT. OF REMOTE AREA. • CONCEALED PENDANT SHALL BE CENTRAL MODEL "A" WITH WHITE COVER PLATE, 155T 1/2"ORIFICE SCOPE OF WORK R VIEWED FOR COADEpCpORM0PvLEIADNCE MAY 2 1 2010 City of Tukwila _BUILDING DIvIRION ISSUED / REVISED DATE CD SET 03/08/10 REVISION #1 - 03/30/10 REVISION #2 - 04/28/10 RECEIVED 3RD FLOOR KEY PLAN CITY OF TUKVVILA MAY 0 2010 PERMIT CENTER SCALE: 1/16.1c0' FIRE PROTECTION THIRD FLOOR FP200 MECHANICAL SHEET INDEX M001 M002 M100 M200 M201 M202 M300 M400 M500 M600 M700 FS001 FS100 P100 P200 P300 LEGEND AND GENERAL NOTES SCHEDULES FIRST FLOOR PLAN THIRD FLOOR PLAN - ABOVE CEILING THIRD FLOOR PLAN - REFLECTED CEILING THIRD FLOOR PLAN - RAISED FLOOR ROOF PLAN SECTIONS DETAILS CONTROL DIAGRAMS PIPING AND AIRFLOW DIAGRAMS FUEL SYSTEM LEGEND, SCHEDULE, NOTES & DIAGRAM FUEL SYSTEM FIRST FLOOR PLAN PLUMBING FIRST FLOOR PLAN PLUMBING THIRD FLOOR PLAN PLUMBING ROOF PLAN SEPARATE PERMIT REQUIRED FOR: D Mechanical Electrical Plumbing Gas Piping City of Tukwila , BUILDING DIVISION_ REVISIONS No changes shall be made to the scope of work without prior approval of Tukwila Building Division. N . Revisions will require a new plan submittal and may include additional plan review fees. MECHANICAL GENERAL NOTES 1. ALL CONSTRUCTION SHALL BE PERFORMED IN ACCORDANCE WITH ALL APPLICABLE CODES AND ORDINANCES INCLUDING: 2006 WASHINGTON BUILDING CODE 2006 WASHINGTON ELECTRICAL CODE 2006 WASHINGTON MECHANICAL CODE 2006 WASHINGTON PLUMBING CODE 2006 WASHINGTON FIRE CODE 2006 WASHINGTON ENERGY CODE 2. THE CONTRACTOR SHALL BE RESPONSIBLE FOR OBTAINING ALL NECESSARY PERMITS FOR THE CONSTRUCTION OF THE HVAC SYSTEM. 3. ALL SIZES INDICATED ON THE PLANS ARE THE MINIMUM ALLOWABLE AND ARE BASED ON THE PERFORMANCE REQUIRED. NONE OF THE DUCT OR PIPE VELOCITIES SHALL EXCEED THE VELOCITIES ESTABLISHED BY THIS CRITERIA. 4. HANDLE, STORE, AND INSTALL ALL EQUIPMENT PER MANUFACTURER'S INSTRUCTIONS. 5. REFER TO ARCHITECTURAL REFLECTED CEILING PLAN FOR EXACT LOCATION OF DIFFUSERS, REGISTERS, GRILLES AND ACCESS PANELS. 6. ALL DUCT DIMENSIONS, AS SHOWN ON MECHANICAL DRAWINGS, ARE CLEAR INSIDE DIMENSIONS. 7. FIRE DAMPER ASSEMBLIES, INCLUDING SLEEVES & INSTALLATION PROCEDURES SHALL BE APPROVED BY THE BUILDING INSPECTOR PRIOR TO INSTALLATION. REFER TO ARCHITECTURAL DRAWINGS FOR EXACT LOCATION OF FIRE RATED WALLS AND SMOKE SEPARATIONS. 8. INSULATION AND FLEXIBLE DUCT SHALL COMPLY WITH STATE FIRE MARSHALL CRITERIA AND SHALL NOT EXCEED FLAME SPREAD OF 25 AND SMOKE DEVELOPED OF 50 PER ASTM -84, NFPA -225, AND U.L 723. 9. INSTALL SMOKE DETECTORS AT SUPPLY AND RETURN AIR DUCTS FOR ALL AIR MOVING SYSTEMS UNITS EXCEEDING 2000 CFM. 10. THE CONTRACTOR SHALL FIELD VERIFY ALL EXISTING CONDITIONS INCLUDING BUT NOT LIMITED TO STRUCTURE, MECHANICAL PLUMBING, ELECTRICAL, EQUIPMENT, AND ALL OTHER EXISTING SYSTEMS, AND MAKE NECESSARY PROVISIONS TO MAINTAIN THE INTEGRITY OF SAID SYSTEMS PRIOR TO THE COMMENCEMENT OF DEMOLITION, IF ANY. SEE STRUCTURAL, MECHANICAL PLUMBING, ELECTRICAL AND EQUIPMENT DRAWINGS FOR ANY SYSTEMS OR PORTIONS THEREOF TO BE REMOVED, RELOCATED, REVISED OR ABANDONED. ALL POSSIBLE CARE SHALL BE EXERCISED BY THE CONTRACTOR TO INSURE THAT ANY SAID UTILITY WILL NOT BE THE CAUSE OF ENDANGERMENT TO THE LIFE OR HEALTH OF ANY PERSON. 11. PRIOR TO DELIVERY OF MATERIALS TO THE CONSTRUCTION ZONE AND REMOVAL OF WASTE FROM THE SITE, THE CONTRACTOR SHALL CHECK WITH THE OWNER FOR AN ACCEPTABLE ACCESS ROUTE AND 11ME. UNDER NO CIRCUMSTANCES SHALL THE CONTRACTOR, SUBCONTRACTOR'S, OR ANY OF THEIR EMPLOYEES USE ANY AREA OUTSIDE THE CONSTRUCTION ZONE WITHOUT PRIOR APPROVAL FROM THE OWNER. 12. THE CONTRACTOR SHALL FIELD VERIFY ALL EXISTING DIMENSIONS, SERVICES, AND POINTS OF CONNECTION PRIOR TO START OF WORK. 13. ALL DUCTWORK SHALL BE CONSTRUCTED, ERECTED AND TESTED IN ACCORDANCE WITH THE STANDARDS ADOPTED BY SMACNA AND CHAPTER 6 OF THE UMC. 14. THE CONTRACTOR SHALL BE RESPONSIBLE FOR THE REVIEW & COORDINATION OF ALL THE DRAWINGS INCLUDING ARCHITECTURAL, STRUCTURAL, MECHANICAL PLUMBING AND ELECTRICAL PRIOR TO ANY CONSTRUCTION. ANY DISCREPANCY IN THE PLANS SHALL BE BROUGHT TO THE ATTENTION OF THE ARCHITECT AND ENGINEER PRIOR TO THE INSTALLATION OF THE WORK SO A CLARIFICATION MAY BE ISSUED. ANY WORK PERFORMED IN CONFUCT WITH THE CONTRACT DOCUMENTS OR ANY CODE REQUIREMENT SHALL BE CORRECTED BY THE CONTRACTOR AT HIS OWN EXPENSE AND AT NO EXPENSE TO THE OWNER. 15. DUCTWORK, PIPING AND CONDUIT, AS SHOWN ON DRAWINGS, IS CONCEPTUAL AND SHALL BE FABRICATED AND INSTALLED BASED ON ACTUAL FIELD MEASUREMENT. COORDINATE WITH OTHER TRADES AS REQUIRED. 16. ALL PIPES, DUCT AND CONDUITS SHALL BE SUPPORTED AND BRACED PER 1998 SMACNA SEISMIC RESTRAINT MANUAL GUIDELINES FOR MECHANICAL SYSTEM WITH SEPTEMBER 2000 ADDENDUM #1. 17. ALL RECTANGULAR ELBOWS IN SUPPLY AIR DUCTWORK SHALL HAVE TURNING VANES. PROVIDE MANUAL VOLUME DAMPER AT EACH BRANCH DUCT TAKE -OFF SERVING EACH AIR TERMINAL DEVICE. 18. AIR FILTERS IN ALL OCCUPANCIES SHALL BE CLASS 2 OR BETTER. ALL AIR FILTERS SHALL BE ACCESSIBLE FOR CLEANING OR REPLACEMENT. 19. PROVIDE VOLUME DAMPERS IN ALL BRANCH DUCTS (SUPPLY AND RETURN) FOR SYSTEM BALANCING. 2006 WS NREC COMPLIANCE NOTES 1. PROVIDE PREMIUM EFFICIENT MOTORS AS INDICATED ON DRAWINGS. MOTOR EFFICIENCY SHALL MEET MINIMUM NOMINAL FULL -LOAD EFFICIENCY PER 2006 WSEC TABLE 14 -4. 2. DRYCOOLER /CRAG SYSTEM NOTE: VARIABLE FLOW REQUIREMENT PER 2006 WSEC SECTIONS 1432.2 AND 1438 ARE NOT APPLICABLE AS THIS SYSTEM DOES NOT SUPPLY HEATED OR MECHANICALLY REFRIGERATED WATER. AIR -SIDE ECONOMIZERS SHALL COMPLY WITH 2006 WSEC SECTION 1413. RTU ECONOMIZER CONTROL IS FULLY MODULATING AND INTEGRAL TO SYSTEM CONTROL ECONOMIZER FOR UPS ROOM IS CAPABLE OF MODULATING OPERATION AS WELL AS FULL INTEGRATION WITH CRAC SYSTEM. FOR CONTROL SEQUENCE REFER TO SHEET M600. EQUIPMENT INSTALLED SHALL MEET MINIMUM EFFICIENCIES PER 2006 WSEC SECTION 1411 AND TABLE 14-1A THROUGH 14-1G WHERE APPLICABLE. 5. PROVIDE DUCT SEALING PER 2006 WSEC SECTION 1414.1: DUCTWORK WHICH IS DESIGNED TO OPERATE AT PRESSURES ABOVE 0.5 INCH WATER COLUMN STA11C PRESSURE SHALL BE SEALED IN ACCORDANCE WITH STANDARD RS -7. EXTENT OF SEALING REQUIRED IS AS FOLLOWS: • STATIC PRESSURE: 1/2 -2 INCHES, SEAL TRANSVERSE JOINTS • STA11C PRESSURE: 2 -3 INCHES, SEAL ALL TRANSVERSE JOINTS AND LONGITUDINAL SEAMS • STA11C PRESSURE: ABOVE 3 INCHES, SEAL ALL TRANSVERSE JOINTS, LONGITUDINAL SEAMS AND DUCT WALL PENETRATIONS. DUCT TAPE AND OTHER PRESSURE SENSITIVE TAPE SHALL NOT BE USED AS THE PRIMARY SEALANT WHERE DUCTS ARE DESIGNED TO OPERATE AT STA11C PRESSURE OF 1 INCH W.C. OR GREATER. 6. PROVIDE DUCT INSULATION PER 2006 WSEC SEC11ON 1414.2 AND TABLE 14 -5. 7. PROVIDE THERMALLY INSULATED PIPING PER 2006 WSEC SECTION 1415.1 AND TABLE 14 -6. COLD WATER PIPES OUTSIDE THE CONDI11ONED SPACE SHALL BE INSULATED IN ACCORDANCE WITH THE WSPCN (WAC51 -56). A COMMISSIONING PROCESS OF VERIFICATION AND DOCUMENTATION SHALL BE PERFORMED TO ENSURE THAT THE HVAC SYSTEMS HAVE BEEN DESIGNED, INSTALLED, MAINTAINED AND OPERATE IN ACCORDANCE WITH THE CONTRACT DOCUMENTS. THIS PROCESS SHALL COMPLY WITH THE REQUIRMENTS PER THE WSEC SEC11ON 1416. DETAILS OF THE COMMISSIONING PROCESS CAN BE FOUND IN WRITTEN SPECIFICATION SEC11ON 230800. THIS PROCESS SHALL INCLUDE • A COMMISSIONING PLAN (WSEC 1416.2.1): AT A MINIMUM THE PLAN SHALL INCLUDE, EXPLANATION OF DESIGN INTENT, EQUIPMENT AND SYSTEMS TO BE TESTED, FUCNTIONS TO BE TESTED. CONDITIONS OF TESTS, MEASUREABLE CRITERIS FOR ACCEPTANCE. • SYSTEM TESTING AND BALANCING (WSEC 1416.2.2): AIR AND HYDRONIC TO MINIMIZE SYSTEM INEFFICIENCIES AND TO MEET DESIGN CONDITIONS. • EQUIPMENT FUNCTIONAL PERFORMANCE TESTING (WSEC 1416.2.3.1): THIS DEMONSTRATION IS TO PROVE THE OPERATION, FUNCTION, AND MAINTENANCE SERVICABIUTY OF EACH SYSTEM. • CONTROLS FUNCTIONAL PERFORMANCE TESTING (WSEC 1416.2.3.2): THIS DEMONSTRA110 SHALL ENSURE THE CONTROL DEVICES, COMPONENTS, EQUIPMENT AND SYSTEMS ARE CAUBRATED, ADJUSTED AND OPERATE IN ACCORDANCE WITH CONTRACT DOCUMENTS AND SPECIFICATIONS. • A PRELIMINARY COMMISSIONING REPORT (WSEC 1416.2.5.1): A PRELIMINARY REPORT OF TEST PROCEDURES AND RESULTS OF DEFICIENCIES, DEFERRED TESTS AND CLIMATIC CONDITIONS. • POST CONSTRUCTION DOCUMENTATION (WSEC 1416.2.4): THIS SHALL INCLUDE AT A MINIMUM A REVIEW AND APPROVAL OF OPERATION AND MAINTENANCE MATERIALS, RECORD DRAWINGS AND SYSTEM OPERATIONAL TESTING. • A FINAL COMMISSIONING REPORT (WSEC 1416.2.5.2): A COMPLETE REPORT OF TEST PROCEDURES AND RESULTS SHALL IDENITFY, RESULTS OF TESTS, DISPOSITION OF DEFICIENCIES, AND PROCEDURES INCLUDING MEASUREABLE CRITERIA FOR ACCETANCE. MECHANICAL LEGEND SYMBOL ABBREV. DESCRIPTION SYMBOL ABBREV. DESCRIPTION ABBREV. DESCRIPTION DUCT - SINGLE UNE (NEW) s I I s STRAINER W/ DRAIN VALVE & HOSE END NTS NOT TO SCALE DUCT - DOUBLE LINE (NEW) STRAINER OA OUTSIDE AIR s I � 1 s DUCT TRANSITIONS El SUCTION DIFFUSER OD OUTSIDE DIAMETER s UP DUCT RISE TWO -WAY AUTOMATIC CONTROL VALVE OSHPD OFFICE OF STATE WIDE HEALTH PLANNING AND DEVELOPMENT .i.=is s t 1 s DN DUCT DROP THREE -WAY AUTOMATIC CONTROL VALVE PD PRESSURE PROP Eli1 1iii s t1 s LINED DUCTWORK - (L) s patl s TRIPLE DUTY VALVE PLBG PLUMBING = _ _ 1 1 STAINLESS STEEL DUCT - (SS) UNION PRV PRESSURE REDUCING VALVE s- III-s POLYVINYL COATED DUCT - (PVS) 40-5 b- s VALVE ON RISE OR DROP PSI POUNDS PER SQUARE INCH 1 _ _ _ EXISTING DUCT - SINGLE LINE DRAIN PSIG PSI GAUGE s s s- D -3 EXISTING DUCT - DOUBLE LINE CONDENSATE DRAIN QTY QUANTITY s- CD -s s�-#7,--/-#74,-"A EXISTING DUCT OR EQUIPMENT TO BE DEMO'D VENT OR ATMOSPHERIC RELIEF RH RELATIVE HUMIDITY s-V -s 11 14 SA SUPPLY AIR DUCT - UP CHILLED WATER SUPPLY SOV SHUT OFF VALVE s- CIWS --s RA RETURN AIR DUCT - UP CHILLED WATER RETURN SS STAINLESS STEEL ,„ s- CHWR -s EA EXHAUST AIR DUCT - UP -s CONDENSER WATER SUPPLY TSP TOTAL STATIC PRESSURE F ® s -CWS ® 0 SUPPLY AIR DUCT - DOWN CONDENSER WATER RETURN UNO UNLESS NOTED OTHERWISE -CWR -s RETURN AIR DUCT - DOWN s -HHWS- HEATING HOT WATER SUPPLY UTR UP THROUGH ROOF 0 EXHAUST AIR DUCT - DOWN HEATING HOT WATER RETURN V /PH /HZ VOLTS. PHASE, HERTZ 10/4 ® s- HHWR -s SUPPLY AIR DIFFUSER MEDIUM PRESSURE STEAM (15 TO 100 PSI) VD VOLUME DAMPER ►I s- --MPS- RETURN AIR DIFFUSER LOW PRESSURE STEAM (LESS THAN 15 PSI) V1R VENT THROUGH ROOF rli s -LPS -s EXHAUST AIR DIFFUSER CONDENSATE RETURN WB WET BULB s --CR -s f SIDE WALL REGISTER (SUPPLY) ABBREV. DESCRIPTION WG WATER GAUGE s---u SIDE WALL REGISTER (RETURN) AFF ABOVE FINISHED FLOOR WMS WIRE MESH SCREEN LINEAR DIFFUSER AMB AMBIENT WPD WATER PRESSURE DROP 4 FSD FIRE SMOKE DAMPER APD AIR PRESSURE DROP WT WEIGHT if # FLEXIBLE CONNECTION ARCH ARCHITECTURAL REGISTER /DIFFUSER TYPES ----- - CFM MANUAL VOLUME DAMPER BDD BACKDRAFT DAMPER I f S1 650 C _ --% FLEXIBLE DUCTWORK BHP BRAKE HORSEPOWER 16x16 NECK SIZE MOTOR OPERATED DAMPER BOD BOTTOM OF DUCT REGISTER OR DIFFUSER TAG s--3 DUCT CAP BOP BOTTOM OF PIPE (T27)-4 DUCT DROP SIZE RE -HEAT COIL BTUH BTU PER HOUR 500 CFM SUPPLY VAV BOX WITH REHEAT CD CONDENSATE DRAIN .' VAV AND CV AIR VALVE WITH REHEAT COIL CFM CUBIC FEET PER MINUTE DUCT DROP VAV AND CV AIR VALVE CONT CONTINUATION EQUIPMENT TYPE UNIT NUMBER AP ACCESS PANEL (D) DEERE FEET PER MINUTE m © POC POINT OF CONNECTION DB DRY BULB FOAC -1 THERMOSTAT DIA 0 DIAMETER EQUIPMENT TAG I- E HUMIDISTAT EAT ENTERING AIR TEMPERATURE 9 DETAIL NUMBER SHEET NUMBER SD SMOKE DETECTOR EDB ENTERING DRY BULB TEMPERATURE M-4.0 PRESSURE GAUGE WITH BALL VALVE COCK EER ENERGY EFFICIENCY RA110 s s THERMOMETER EFF EFFICIENCY DETAIL CALL OUT s s PIPE DOWN OR DROP ENT ENTERING Pernik Plan review approval Approval of the violation of any approved BY FILE No. is as'• i REVIEWED CODE COMPLIANCE APPROVED APR 0 7 2010 , of Tukwila UILDING DIVISION ''-"" COPY M\D subject to and omissions. = r,, not authorize • (,.• or ' � I, : -. Remipt D. P. • lo Of �` D f`'1' ON s-E s C s--o s-0-s PIPE UP OR RISE ESP EXTERNAL STATIC PRESSURE DIRECTION OF FLOW EWB ENTERING WET BULB TEMPERATURE 4--1 -s PIPE SLOPE EWT ENTERING WATER TEMPERATURE s s 2 %. BALL VALVE (E) EXISTING BALANCING VALVE FT FEET s hT J s BUTTERFLY VALVE FF FINISHED FLOOR s cp s CAPPED LINE FG FINISHED GRADE s ] s-�}-s CHECK VALVE, SWING OR LIFT FLA FULL LOAD AMPERES -s CHECK VALVE SILENT FPI FINS PER INCH s-f'S.1 CONCENTRIC REDUCER FPM FEET PER MINUTE s=Cj s FLANGE FPS FEET PER SECOND I1-- -s FLEXIBLE CONNECTION GA GAUGE s --I/A` . FCV FLOW CONTROL VALVE GPM GALLONS PER MINUTE s--il-s FLOW METER GSM GALVANIZED SHEET METAL s -I§1-s PLUG VALVE HP HORSEPOWER GV GATE VALVE ID INSIDE DIAMETER s IX s GLV GLOBE VALVE LAT LEAVING AIR TEMPERATURE s p.q s NV NEEDLE VALVE COCK LBS POUNDS s LK1 s PIPE ALIGNMENT GUIDE LDB LEAVING DRY BULB TEMPERATURE s = s PIPE ANCHOR LWB LEAVING WET BULB TEMPERATURE s X s PRESSURE & TEMPERATURE RELIEF VALVE LWT LEAVING WATER TEMPERATURE s T PRESSURE TEMPERATURE PORT MBH THOUSAND BTU PER HOUR s s s PRESSURE REDUCING VALVE MCA MINIMUM CIRCUIT AMPACITY Dti s PRESSURE REGULATING VALVE (EXTERNAL) MFS MAXIMUM FUSE SIZE s l s SEISMIC JOINT NC NORMALLY CLOSED s- IIII1 --s Ira STEAM TRAP NO NORMALLY OPEN Rc SOLENIOD VALVE NPSH NET POSITIVE SUCTION HEAD s i s k1tO •030 RECEIVED MAR 02 2"a PERMIT CENTER y 0 W Z 0 Co 1 1 0 E 0 Zo O 03 2 J Q, U W W Nino EAST CAMPUS Nco la. CO < CD N . a3 M 0 0 co rn 0 N F- U w 0 CC ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE:NTS LEGEND AND GENERAL NOTES M001 CONSTRUCTION PHASE SCREENED EQUIPMENT IN SCHEDULES (SHOWN LIGHT) IS TO BE INSTALLED DURING FUTURE PHASE OF CONSTRUCTION. THIS EQUIPMENT IS FOR COORDINATION AND INFORMATION PURPOSES ONLY AND IS NOT PART OF THIS PROJECT. EXAMPLE: IN SCOPE OF WORK (EQ. FUTURE WORK N.I.0 (SCREENED) PACKAGED ROOFTOP UNIT SCHEDULE (PRE - PURCHASED) GENERAL DATA SUPPLY FAN RETURN /EXHAUST FAN COOUNG COIL ELECTRICAL DATA SMOKE DETECTORS TAG MANUFACTURER & MODEL NO. AREA SERVED LOCATION EER MIN DESIGN CFM ESP (IN) HP FAN RPM MOTOR EFF. (MIN) CFM ESP (IN) HP FAN RPM MOTOR EFF. (MIN) AMBIENT (7) OSA CFM CAPACITY (MBH) EAT ('F) LAT ('F) TOTAL SENS DB WB DB WB ROWS FINS/ INCH AREA (SQ. FT.) V. /PH/Hz. MCA AMPS MROPD AMPS ON EMERGENCY POWER (YES /NO) REQUIRED (YES /NO) VOLTAGE WEIGHT (LBS.) MCQUAY DATA CENTER ROOF 9.8 49,000 1.5 75 986 93.6% 49,000 1.0 50 1070 93.0% 105 750 1,322 1,212 74.5 61.0 51.9 51.4 10 76.0 460/3/60 372.6 450 YES YES 120 20,000 REMARKS: PROVIDE COMPLETE WITH INTERGRAL ECONOMIZER RETURN /EXHAUST FAN, VFD'S W/ MECHANICAL BYPASS, 30% THROWAWAY PRE - FILTERS, 65% ANGLED RACK FINAL FILTERS, R410A REFRIGERANT, HOT GAS BYPASS ON CIRCUITS #1 & #2, LOW AMBIENT COMPRESSOR OPERATION, SMOKE DETECTORS AND PREMIUM EFFICIENCY MOTORS. FILTER AND HOUSING SCHEDULE GENERAL DATA HOUSING FILTER P.D. (WG) MANUFACTURER AREA SERVED LOCATION MODEL TYPE MODEL MERV DEPTH (IN) CLEAN DIRTY REMARKS CAMFIL FARR FIRST FLOOR ELECTRICAL ROOMS FIRST FLOOR 4P GLIDE /PACK 16 GA. GALVANIZED STEEL OP11 -PAC OPMV11- x x4 11.0 4.0 0.33 0.60 HOUSING TO INCLUDE HOLDING FRAME, DUAL ACCESS DOORS AND MAGNEHEUC DIFFERENTIAL PRESSURE GAUGE. HUMIDIFIER SCHEDULE GENERAL DATA MEDIA PIPE CONNECTIONS ELECTRICAL DATA TAG MANUFACTURER AREA SERVED LOCATION DIMENSIONS FACE HxWxL (IN.) AREA (SF) FACE VEOOCITY (FPM) DEPTH (IN) SATURATION DRAIN EFFICIENCY (IN) FILL (IN) OVERFLOW (IN) V./PH. /Hz. WEIGHT MOTOR HP (LBS.) SPEC -AIR DATA CENTER ROOF 110x144x58 96 500 79% 1/2" 2" 460/3/60 1/3 2,000 COMPLETE DIRECT EVAPORATIVE HUMIDIFIER MODULE IS CONSTRUCTED OF 18 GAUGE 304 STAINLESS STEEL FRAME AND SUPPORTS. THE SUMP IS CONSTRUCTED FROM 16 GAUGE 304 AND IS CONTINUOUSLY WELDED, SUMP HAS STAINLESS STEEL FITTINGS 2" DRAIN AND 2" OVERFLOW WITH A W FILL, MODULE HAS 96 SQ FT OF 8" DEEP MUNTER'S CELDEK EVAPORATIVE COOUNG MEDIA 79% SATURATION EFFICIENCY. RE- CIRCULATING SUMP PUMP IS A GOULD, 1/3 HP © 115/1/60 �I TAINT E �ONSTRUC110N. COPPER DISTRIBUTION PIPING WITH ADJUSTABLE FLOAT FOR RELIABLE SERVICE. NEMA 3R ELECTRICAL PANEL WITH SINGLE POINT WIRING PACKAGE FOR 460/3/60 VOLT SUPPLY C/W FUSES, TRANSFORMER, PUMP GR )I C ► Y WIRED TO A NUMBERED TERMINAL STRIP. AUTOMATIC FILL AND DRAIN SYSTEM WITH TIMER AND FREEZE STAT MOUNTED AND WIRED, DRAIN VALVES SHIPPED LOOSE. HUMIDISTAT SHIPPED LOOSE ODE COMPLIANCE APR 0 7 2010 INDOOR COMPUTER ROOM AIR CONDITIONING UNIT SCHEDULE (PRE - PURCHASED) GENERAL DATA SUPPLY FAN DX COOLING COIL TAG MANUFACTURER MODEL NO. AREA SERVED LOCATION CFM (IN.) (HP) EFF. (MIN) E.S.P. MOTOR MOTOR ROWS FACE AREA E.A.T E.A.T. (SQ. FT.) D.B. ('F) W.B. ('F) CAPACITY (MBH) TOTAL SENS. HEAT REJECTION (MBH) ELECTRICAL DATA V. /PH. /Hz. FLA MCA BUICLikNaGfiliDkWIVIR011a N QUANT. & SIZE MFS EFF. (MERV) WEIGHT (LBS.) STULZ VFS- 240 -DG -D UPS ROOM PH.3 UPS ROOM PHASE 3 10,250 0.5 5 87.5% 3 24.3 72 60 226.8 203.0 326.1 460/3/60 38.2 50.2 60 5 0 20/25/4 2,100 STULZ VFS- 240 -DG -D UPS ROOM PH.3 UPS ROOM PHASE 3 10,250 0.5 87.5% 24.3 72 60 226.8 203.0 326.1 460/3/60 DOWNFLOW UNIT WITH TOP RETURN, GLYCOL SYSTEM WITH 3 -WAY CONTROL VALVE, DUAL CIRCUIT SCROLL COMPRESSOR R -407C, SINGLE POINT POIWER CONNECTION, HIGH STATIC PREMIUM EFFICIENCY MOTOR, 4" MERV 11 65% EFF FILTERS W/ SPARE SET, 24" SEISMIC FLOOR STAND WITH TURNING VANES, MICROPROCESSOR CONTROLS, UNIT MOUNTED DISCONNECT, SMOKE DETECTOR, FACTORY MOUNTED CONDENSATE PUMP, SPOT TYPE LEAK DETECTION, AND RETURN PLENUM. 38.2 50.2 60 20/25/4 1 2,100 OUTDOOR DRYCOOLER PUMP PACKAGE (PRE - PURCHASED) GENERAL DATA PERFORMANCE ELECTRICAL DATA TAG MANUFACTURER MODEL NO. AREA SERVED LOCATION TYPE FLOW RATE (GPM) PD (FT H20) HP MOTOR EFF. (MIN) FLA MCA MFS V. /PH. /Hz. WEIGHT (LBS.) STULZ GPS- 150 -D UPS ROOM PHASE 3 ROOF DUPLEX 288 140 15 90.2% 17.6 22.0 40 460/3/60 sTULz GPS -150 -D OUTDOOR RATED ENCLOSURE AND AUTO CHANGEOVER DRIVE. UPS ROOM PHASE 3 ROOF DUPLEX 288 140 15 90,2% 17.6 22.0 40 460/3/60 DIFFUSER, REGISTER AND GRILLE SCHEDULE OUTDOOR DRYCOOLER SCHEDULE (PRE - PURCHASED) GENERAL DATA PERFORMANCE ELECTRICAL DATA TAG MANUFACTURER MODEL NO. AREA SERVED LOCATION FAN HP (QTY.) AIRFLOW (CFM) HEAT REJECTION (MBH) AMBIENT (1) GPM WPD (PSI) V. /PH./Hz. WEIGHT (LBS.) STULZ S- MFH -082A UPS ROOM PHASE 3 ROOF 2.0 (8) 87,000 665.0 105 144 10.6 460/3/60 3,250 STULZ S- MFH -082A UPS ROOM PHASE 3 ROOF 2.0 (8) LOW AMBIENT PRESSURE CONTROL FAN CYCLING AND FACTORY PROVIDED OPTION FOR INDIVIDUALLY FUSED FANS.. 87,000 665.0 105 144 10.6 460/3/60 3,250 EXHAUST / TRANSFER FAN SCHEDULE GENERAL DATA DESIGN ELECTRICAL DATA TAG MANUFACTURER MODEL NO. AREA SERVED LOCATION CFM E.S.P. (IN) FAN RPM TYPE MOTOR HP MOTOR EFF. (MIN) V. /PH./Hz. ON EMERGENCY' POWER (Y /N) REMARKS WEIGHT (LBS.) GREENHECK GREENHECK GREENHECK BDF- 180 -20 6DF-- 160 --30 BCF -206 -7 PHASE 3 TRANSFORMER ROOM PHASE 4 'TRANSFORMER ROOM PHASE 3 SWITCHGEAR ROOM 1ST FLOOR 1ST FLOOR 5,500 6,500 1,200 1.0 1.0 629 656 2304 BELT DRIVE DUCT FAN BELT DRIVE DUCT FAN BELT DRIVE CABINET FAN 2.0 3/4 84% 82.5% 460/3/60 460 60 460/3/60 YES NO PROVIDE TEFC NEMA VFD RATED PREMIUM EFFICIENCY MOTOR, HANGING SPRING ISOLATORS AND VARIABLE FREQUENCY DRIVE. PROVIDE TEFC NEMA VFD RATED PREMIUM EIF'ICIENCY AND VARIABLE FREQUENCY DRIVE. PROVIDE WITH HANGING SPRING ISOLATORS. OTOR, HANGING SPRING ISOLATORS 304 304 145 GREENHECK GREENHECK BDF- 200 -100 EIDF` -2007-150 PHASE 3 UPS ROOM ECONOMIZER PHASE 4 UPS ROOM ECONOMIZER 1ST FLOOR 1ST F LOOR 13,000 14,400 1.25 1.25 746 793 BELT DRIVE DUCT FAN BE DRIVE DUCT FAN 10.0 15.0 90.2% 90.2% 460/3/60 460 /3/60 NO PROVIDE TEFC AND VARIABLE PROVIDE TEFC AND VARIABLE NEMA VFD RATED PREMIUM EFFICIENCY MOTOR, HANGING SPRING ISOLATORS FREQUENCY DRIVE. NEMA VFD RA11 D PREMIUM EFFICIENCY MOTOR, HANGING SPRING I FREQUENCY DRIVE. 1,000 100 TAG MANUFACTURER MODEL TYPE DESCRIPTION BORDER TYPE MODULE SIZE NECK TYPE REMARKS TATE TITUS TITUS PERF 1000 50F 350ZRL AIR FLOW PANEL - 24" SPECIALIZED EGGCRATE RETURN RETURN GRILLE STEEL CONSTRUCTION W/O DAMPER STANDARD CORE WITH ALUMINUM BORDER 3/4" SPACING, STEEL, 0' DEFLECTION X LAY -IN SURFACE 24 "x24" 24 "x48" PER PLANS N/A 24 "x48" PER PLANS ROLLED STEEL TOP, EPDXY PAINT FINISH, STEEL BOTTOM PAN AND 25% OPEN AREA. 90% FREE AREA, CONSTRUCTED OF HEAVY EXTRUDED ALUMINUM WITH STANDARD GRID. OPPOSED BLADE DAMPER, REINFORCED CORNERS AND BLADES PARALLEL TO LONG DIMENSION. SOUND ATTENUATOR SCHEDULE GENERAL DATA MAX. A.P.D. (IN W.G.) FACE VELOCITY (F.P.M.) SIZE W x H x L (IN.) QUANTITY REMARKS WEIGHT (LBS.) MANUFACTURER MODEL NO. LOCATION I.kC LFM GENERATOR ROOM INTAKE 0.05 550 W x H (BY CONTRACTOR) L = 3' BY CONTRACTOR CONSULT MANUFACTURER FOR ATTENUATOR ATTACHMENT AND BANDING. - LA.0 LFL GENERATOR RADIATOR DISCHARGE 0.08 850 W x H (BY CONTRACTOR) L = 5' BY CONTRACTOR CONSULT MANUFACTURER FOR,ATTFNUATOR ATTACHMENT AND BANDING. , .. M(003O REC ICED MAR 02 2010 PE',, . ; T CENTER 0 M 0 M 0 n., M ° < ° Z CD rn n- < 0 I F- M I- Q ti o r` < 0 0 0 c a> L/u (i • 0 J 1 w 0_ NTERGATE EAST CAMPUS Nco U (3.. 00 a) Q CD N5 .co U) LO LO C'r) 0 ISSUED / REVISED DATE PERMIT SET 02/26/10. SCALE: NTS SCHEDULES M002 DT -3 (FRONT) (FRONT) USS -1 2500KVA XFMR. #1 GEN ROOM USS -2 2500KVA XFMR. #1 600A 26.4KV HV SWITCH (FRONT) (FRONT) 600A 26.4KV HV SWITCH (FRONT) UPS /AC -1 UPS /AC -2 (FRONT) bypass ups 1/2 (FRONT) UPS MOD -3 BATTERY -3 input cab (FRONT) UPS MOD -2 (FRONT) (FRONT) UPS MOD-4 (FRONT) ATS #3 W/ BYPASS (FRONT) ats main-1 II main -2 UPS ROOM SWITCH GEAR FIRST FLOOR PART PLAN SCALE: 1/8-.1.-0- FSD. REVIEWED FOR CODE COMPLIANCE AlPPROl/�D APR 0 7 ZO 0 CI of Tu ila BUILD NG DIV SIGN 821200 SWITCH GEAR FSD SHEET NOTES 0 LOUVERED 50/50 ECONOMIZER INTAKE OPENING WITH FIRE /SMOKE DAMPER. PROVIDE 4" THICK, MERV 11 GALVANIZED STEEL FILTER HOUSING DOWNSTREAM OF FSD. 02 CONSTRUCT 18' WIDE BY 17' HIGH SOUND ATTENUATION WALL WITH SCHEDULED DUCT SILENCER (SA -1). CONSULT MANUFACTURER FOR BANDING REQUIREMENTS. REFER TO ARCHITECTURAL AND STRUCTURAL PLANS FOR DETAILS. ® LOUVER AT GENERATOR DISCHARGE IS TO BE FURNISHED BY MECHANICAL CONTRACTOR. PROVIDE LOUVER AT EXTERIOR W1T11 12" PLENUM (SEE ARCH PLAN A501 FOR SIZES). PROVIDE DUCTED CONNECTION FROM ATTENUATOR DISCHARGE TO PLENUM. ® CONSTRUCT 36' WIDE BY 5' HIGH SOUND ATTENUATION WALL WITH SCHEDULED DUCT SILENCER (SA -1). CONSULT MANUFACTURER FOR BANDING REQUIREMENTS. REFER TO ARCHITECTURAL AND STRUCTURAL PLANS FOR DETAILS. ® CONSTRUCT 12' WIDE BY 12' HIGH SOUND ATTENUATOR WITH SCHEDULED DUCT SILENCERS (SA -2). CONSULT MANUFACTURER FOR BANDING REQUIREMENTS. REFER TO STRUCTURAL PLANS FOR SUPPORT. ® RUN 18" STAINLESS STEEL EXHAUST STACK UP SIDE OF BUILDING. PROVIDE COMMON SUPPORT FOR THREE EXHAUST STACKS THE ENTIRE HEIGHT OF THE BUILDING (SEE STRUCTURAL PLANS). TERMINATE EXHAUST 15' ABOVE ROOF LEVEL AT RAIN CAP. ® PROVIDE FLEXIBLE CONNECTOR FOR EXHAUST AT ENGINE AND MANIFOLD CONNECTIONS INTO CRITICAL GRADE MUFFLER /SILENCER. ® PROVIDE GRAVITY BACKDRAFT DAMPER. ® COMMOM GLYCOL PIPING SUPPORT. ROUTE SUPPLY AND RETURN LINES AS TIGHT AS POSSIBLE TO STRUCTURE. COORDINATE FINAL ROUTING WITH CONDUIT RUNS. SEE PIPING DIAGRAM FOR DETAILS ON SHEET M -700. 877.THE.PNAP www.internap.com 00 rn O MoO0 n I v w 0 0NV) • 0 Z rz 0 < oo p CI. Wp0NU U) > O) co m Z W < O w mW ° ., ~o :wro :I—=5- fYV)t'7U <Q 10 CONNECT TO EXISTING 1 -1/2" FUEL OIL LINES OVERHEAD. 11 INSTALL CRAC UNIT ON SEISMIC STAND WITHIN AUXILIARY DRAIN PAN WITH LEAK DETECTION. SLOPE PAN TOWARD CONDENSATE PUMP. 12 PROVIDE AUXILIARY DRAIN PAN BENEATH GLYCOL PIPING IN UPS ROOM. PAN SHALL HAVE SPOT LEAK DETECTION AND BE SLOPED TOWARD CRAC UNITS WITH DRAIN LINE TERMINATING IN CRAC UNIT AUXILIARY PAN. 13 LOUVERED 84/48 INTAKE OPENING WITH 4" THICK, MERV 11 GALVANIZED STEEL FILTER HOUSING. OPENING IS TO BE BELOW ATTENUATOR SECTION, BOTTOM SHALL BE APPROX. 12" AFF. 14 LOUVERED 44/44 INTAKE OPENING WITH FIRE /SMOKE DAMPER. PROVIDE 4" THICK, MERV 11 GALVANIZED STEEL FILTER HOUSING DOWNSTREAM OF FSD. 15 RUN 2" VENT & (2) 4" EMERGENCY VENTS TO EXTERIOR OF BUILDING. PROVIDE COMMON SUPPORT FOR VENTS THE ENTIRE HEIGHT OF THE BUILDING. TERMINATE VENTS ABOVE ROOF PARAPET. • (/) a. a) a U� Q cts� I .c a� Q LJJ (�WN›' <( Z W . cu M M~ W 1- z 0 0 PR ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE: 1/8 " =1' -0" FIRST FLOOR PLAN M100 CAS I CEO 66/36 42/36 42/36 66/36 \A 60/24 \A /v 0 52/48 52/48 60/24 ■ 60/24 100/48 60/24 60/24 V\ /N J 98/48 98/48 54/36 40/36 sl 66/36 76/48 11 42/36 \A /N 98/48 11 60/24 60/24 60/24 60/24 76/48 66/66 60/24 Fi \A V\ Al \A V\ /N NI V\ 60/24 58/42 / 60/24 V V\ 60/24 60/24 60/48 54/36 46/28 \A /N 60/24 80/48 1P'''. 80/48 40/30 52/36 60/24 ni V\ GENERAL NOTES 1. PROVIDE BALANCING DAMPERS AS INDICATED ON PLAN AND AT DUCT DROPS IN SHAFTS AT DATA CENTER PERIMETER. NOTES 0 PROVIDE 2" ACOUSTICALLY LINED PLENUM BENEATH RETURN AIR DUCTS FROM RTU'S ON ROOF. PROVIDE 45.0 SF (APPROX. 9'x5') OPENING ON RETURN PLENUM WITH WIRE MESH SCREEN AS INDICATED ON PLAN ® 98/48 UP. ® 60/48 UP. ® 80/48 UP. ® 66/66 UP. ® 76/48 UP. 07 52/48 UP. ® 100/48 UP. 0 30/12 TRANSFER AIR OPENING (B.O.D ® 12' -0" AFF). PROVIDE TITUS MODEL 350RL AT OPENINGS IN WALL. 10 PROVIDE 60/24 DUCT CONNECTION TO AIR SHAFT WITH DUCT LINER (TYP.). REFER TO SECTION ON SHEET M700 FOR DETAIL. 11 87/62 DN. 12 80/62 DN. 13 47/62 DN. 14 84/60 DN. 15 67/62 DN. 16 84/60 DN. CODVIEWED FOR CODE COMPLIANCE APPROVED APR 0 7 2010 City of Tukwila LY!:p!Np DIVISION M(0~036 ECEIVED MAR 0 2 2010 P T CENTER a o O < 0 hz is; fl c N W �. 0Z a) N- O r- d O Q Q 00 O < _ ro 00 o N M I U W o N)(NI U) • 0 OQ00° CL LvOC'NU (n > rn co m Zw�. -¢ U� U WZZrY °�go� D • E Z ° Z U O 0c N 02 = C a" INTERGATE EAST CAMPUS 0 0 ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE: 1/8".V-0" THIRD FLOOR PLAN - ABOVE CEILING M200 REVIEWED FOR CODE COMPLIANCE APPROVED APR 072010 City of Tukwila BUILDING DIVISION M(0436 ECEIVED MAR 02 2010 PERMIT CENTER SUITE M -11 J Y 00 Z _ O a. 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REFER TO SECTION ON SHEET M700 FOR DETAIL 0 60/24 TRANSFER AIR OPENINGS BELOW RAISED FLOOR (•YP.). PROVIDE MOTORIZED ISOLATION DAMPER AT SEPARARON. BMS SHALL CONTROL DAMPER OPERATION. 1- REVIEWEDI CODECOMPLIANCE APPROVED APR 0 7 2010 City of Tukwila BUILDING DIVISION litte 0 36 ECEIVED MAR 02 2010 PE ITCNTER • ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE: 1/81-0" THIRD FLOOR PLAN - RAISED FLOOR M202 OW- GENERAL NOTES 1. DUCT SHALL BE PITCHED AS INDICATED ON PLAN. PROVIDE 3/4" DRAIN LINE WITH SHUT-OFF VALVE AT LOW POINT OF DUCT. 2. TERMINATE CONDENSATE LINES WITH TRAP AT ROOF. 3. REFER TO STRUCTURAL DRAWINGS FOR ROOF DUCT SUPPORT DETAIL 4. PROVIDE RETURN DUCT PENETRATIONS IN ROOF FOR SCREENED (FUTURE) RTU'S. RETURN DUCT SHALL EXTEND APPROX. 6" ABOVE ROOF LEVEL (V.I.F.) WITH WEATHER TIGHT CAP. RETURN STUB IS TO BE USED FOR FUTURE CONNECTION TO RTU DURING FUTURE PHASE OF CONSTRUCTION. PROVIDE VOLUME DAMPER AT CAP FOR SEEMLESS FUTURE CONNECTION TO PHASE 4 SYSTEM. ..... --- • y• .-• ^ • y• ...... -• • -•_ • • - _•- ----------- ------------ ---- • . 5. PROVIDE DUCT TRANSITION BETWEEN HUMIDIFIER (107/84) AND RTU (42/85). SHEET NOTES www.internap.com O SCREENED EQUIPMENT (SHOWN LIGHT) IS TO BE INSTALLED DURING FUTURE CONSTRUCTION PHASE. CURBS (SHOWN AS EQUIPMENT OUTLINES) ARE TO BE INSTALLED FOR ROOFTOP UNITS AND HUMIDIFIERS, SEE ARCHITECTURAL DETAILS. PROVIDE DUCTED RETURN WITH CAP TO RTU CURBS AND PROTECT CURB WITH WEATHER PROOF COVER. 0 PROVIDE 2' WIDE BY 4' HIGH ACCESS HATCH IN DUCT TRANSITION (TYPICAL). HATCH PROVIDES SERVICE TECHNICIAN ACCESS TO HIGH SIDE OF SUPPLY FAN. ACCESS DOOR SWING IS SHOWN FOR IDENTIFICATION PURPOSES, PLEASE NOTE IT IS SHOWN IN THE WRONG , DIRECTION. REPAIR/REFURBISH EXISTING INOPERABLE EXHAUST FAN. CONSULT AEROVENT FOR NECESSARY REPLACEMENT OF 20.0 HP FAN MOTOR. INSPECT AND REPAIR BEARINGS, DRIVE AND IMPELLER COMMISSION AND BALANCE UPON COMPLETION. ® PROVIDE MOTORIZED ISOLATION DAMPER DOWNSTREAM OF HUMIDIFIER (TYPICAL). BMS SHALL CONTROL DAMPER. OPERATION. ® 98/48 DN. 0 60/48 DN. (?) 80/48 DN. (2) 66/66 DN. ® 76/48 DN. ® 52/48 DN. @ 100/48 DN. >1. —J 00 Z 0) < a_ r) 00 t13 V) (I) I-I-I 0 to Ni u_ CD CL Ce 0 <j) CO LLI CD r, Z <() CD 0- C) WZZ Ea cr L-_ o D F- OG In (/) <C 0_ 0 a_ 0 rn 0 COMMOM PIPING SUPPORT. SEE PIPING DIAGRAM FOR QTY AND SIZES ON SHEET M-700. SEE SHEET M500 FOR SUPPORT DETAIL @ 87/62 DN. @ 80/62 DN. 0 47/62 DN. 0 84/60 DN. @ 67/62 DN. @ 84/60 DN. @ 66/66 DUCT SHALL TERMINATE APPROX. 12" ABOVE ROOF (V.I.F.) WITH VOLUME DAMPER AND WEATHER TIGHT CAP, • 1 M400 :REVIEWED FOR CODE COMPLIANCE APPROVED APR 0 7 2010 City of Tuloyila BUILDING DIVISION 0 0 - t ! , • . • -- ..• • ..• " ■.,...• -• • • .• • .• • • ISSUED / REVISED PERMIT SET DATE 02/26/10 SCALE: 1/8=1-0 ROOF PLAN MECHANICAL ROOF PLAN SCALE: 1/8-.1'-o- M300 rAfJfY NOTE: PROVIDE MAT PER BUILDING STANDARD • • 1 <14!: > GENERATOR SECTION MECHANICAL ROOF SECTION T-BAR CEILING REFER TO ARCHITECTURAL DETAIL FOR DUCT LINER IN SHAFT RAISED FLOOR (+30) SHEET METAL AIR DIVERTER (18" RADIUS TYP.) FASTEN TO CONCRETE SLAB. SCALE: 1/8-.1 P.-O. SCALE: 1/8"=1'-0" HU /HUM 4.--41 4 MECHANICAL ROOF SECTION SCALE: 1/8'1=1 '-.0" M400 ======== 1 1 I 1 1 1 I 1 1 1 1 1 1 1 1 1 i 1 1 1 J._______L ..i_L REVIEWED F01- CODE COMPLIANCE APPROVED APR 07 2010 MECHANICAL ROOF WALKOFF MAT PLAN MECHANICAL ROOF SECTION SCALE: 1/8=1'-O SCAL: 1/8"=1'-0" 04 hi 2 00 CC CL In 00 0 (r) 0 0N • 1-1-1 0 Po (N LI- 0 CO CL 0 Z n_W CC 0 CI CO R LLI _ > (0 EC) 0 0 I— w 00 .17.: CD =D N1 =D :E • 0 0 co 0 1— 0 CC 0_ ISSUED / REVISED DATE PERMIT S ET 02/26/10 SCALE: PER PLANS SECTIONS M400 LOCATE CENTERLINE OF SPRING ISOLATOR OVER THE LINE OF THE SUPPORT BEAM PIPE SLEEVE SEE SPECIFICATIONS PIPE INSULATION 0 0 0 0 INSULATE RISER CLAMPS (ON CHILLED WATER RISERS ONLY) WITH SAME THICKNESS INSULATION AS CHILLED WATER RISERS SEE SPECIFICATIONS VERTICAL PIPE SUPPORT FOR PIPE 6" DIAMETER AND SMALLER PIPE RISER CLAMP SEE SPECIFICATIONS SPRING ISOLATOR FLOOR SLAB REFER TO STRUCTURAL FOR SLAB INFO. NOT TO SCALE CAP (TYP.) 33/16" (TYP.) NOTES: 1 5/8 "x1/4" UNISTRUT SEE ARCHITECTURAL & STRUCTURAL DRAWINGS FOR ATTACHMENT AND WEATHERPROOFING. a 4 d 01 -02 -01 PIPE CLAMP (SEE NOTE 2 BELOW) 2 "x2" STEEL SUPPORTED FRAME (PRIMED). J 1. SEE ARCHITECTURAL DRAWINGS FOR ATTACHMENT TO STRUCTURE AND WEATHERPROOFING. 2. SUPPORTS TO BE LOCATED 10' -0" O.C. MAX. AND AT EVERY CHANGE OF DIRECTION. ROOF PIPE SUPPORT DETAIL NOT TO SCALE NOTE: 1. SUPPORT PAN FROM STRUCTURE. 2. PANS 14" WIDE OR LESS MAY BE CROSSBROKEN AND HUNG FROM STRUCTURE WITH GALVANIZED METAL STRAPS. 3. SUPPORT PANS MORE THAN 14" WIDE WITH UNISTRUT OR ANGLE IRON WITH 1/4" HANGER RODS TO STRUCTURE. 4. HANGER SPACING SHALL BE PER SMACNA STANDARDS. 5. SLOPE PAN SAME AS REQUIRED FOR PIPING SERVED. LAP PAN JOINTS IN SAME DIRECTION AS SLOPE. PIPE PANNING DETAIL FIELD VERIFY 01 -03 -10 ADJUSTABLE CLEVIS HANGER PIPE 1" MINIMUM 22 GAUGE GALVANIZED METAL PAN UNDER PIPING - SEAL OVERLAPPING SECTIONS WATERTIGHT NOT TO SCALE EMBEDMENT DISTANCE SHALL BE 8X's THE ROD DIAMETER. RIGID WATER RESISTANT INSULATION 7. ALL THREAD ROD SIZE PER LOAD CHART SHEETMETAL SUPPORT SADDLE AT ALL PIPES STEEL STRUT CHANNEL DOUBLE NUT WITH LOCK WASHER — PIPE TRAPEZE HANGER FROM CONCRETE SLAB DETAIL o I ui 1MI 01 -04 -04 EXISTING CONCRETE STRUCTURE NOT TO SCALE 01 -04 -17 NOTES: 1. TYPICAL FOR SUPPLY, RETURN AND EXHAUST DUCTWORK. 2. LOCATE THE CENTER OF TAKE -OFFS FROM DUCT MAINS AT THE MIDPOINT OF THE SIDE OF DUCT MAIN ( "HEIGHT" /2) 3. SIZE A & B DIMENSIONS ARE PROPORTIONAL TO AIR QUANTITIES IN EACH LEG SPUT 4. WHERE DUCT SIZE CHANGE OCCURS TRANSITION MAY NOT BE SHOWN ON PLANS 5. IF W2 DOES NOT EQUAL W1, MODIFY SHAPE OF VANE EDGES TO PROJECT TANGENTS PARALLEL TO DUCT SIDES AIR FLOW SIDEWALL OUTLET AT DUCT MAIN D/W MIN 45' TAKE -OFF (TYP) RECTANGULAR DUCT 90' ROUND DUCT TAKE -OFF (CONICAL OR BELLMOUTH TYPE) 45' ELBOW DUCT DOWN 15 °MAX CONCENTRIC & ECCENTRIC TRANSITION (CONVERGING & DIVERGING) RECTANGULAR DUCT FITTINGS DETAIL RECTANGULAR DUCT 15' MAX irk ROUND DUCT TRANSITION TO ROUND - '1WI'- 11 maim 90' PARALLEL FLOW TYPE TAKE -OFF BRANCH TAKE -OFF L =1/4 W, 4" MIN 90' SPLITTER TAKE -OFF NOT TO SCALE FIRE /SMOKE BARRIER (TYP) BREAKAWAY DUCT CONNECTION (TYP). DO NOT SCREW OR BOLT THE DUCT TO THE SLEEVE. AIR DUCT MOUNTING ANGLE 16 GAUGE STEEL CHANNEL DAMPER FRAME PLATED STEEL HEX AXLES SLEEVE GAUGE PER NFPA 90A S -JOINT (TYP.) NOTES 6" MAX DIRECTION OF FLOW PROVIDE VOLUME DAMPERS DOWN- STREAM OF EACH SPUT (TYP) 90° MITER ELBOW AIR FOIL TURNING VANES (TYP) SECURE 1 "x 1 "x 16 GA RETAINING ANGLE TO SLEEVE ONLY. 1" MINIMUM TYPICAL OVERLAP ON ALL SIDES OF DAMPER pT I��I AD 9" MAX ON ACTUATOR SIDE FIRESTAT SET FOR 165'F ACCESS PANEL OF ADEQUATE SIZE & LOCATION FOR MAINT. AND INSPECTION OF DAMPER FLEXIBLE CONDUIT AIR FLOW OPERATOR LINKAGE ELECTRIC DAMPER MOTOR TO BE FACTORY MOUNTED TO SLEEVE SMOKE DETECTOR PROVIDED BY DIVISION 16 120V/10 /UNDER DIV 16 1.INSTALL IN ACCORDANCE WITH STATE FIRE MARSHALL LISTING NO.3225- 245:005 * U.L. STANDARD 555 & 555S FOR BOTH VERTICAL AND HORIZONTAL INS 2. COORDINATE CEILING ACCESS DOORS WITH GENERAL CONTRACTOR AS REQUIRED TO PERMIT ACCESS 3. MOUNTING ANGLES SHALL BE 1- "x 1- "x 16 GAGE MIN. FASTENED WITH NO.10 SCREWS 8" ON CEN 4. BOTH INSIDE & OUTSIDE OF FIRE DAMPER SLEEVE SHALL BE COATED WITH INTUMESCENT MASTIC TO 5.INSTALL PER MANUFACTURER'S INSTRUCTIONS. MANUFACTURERS INSTRUCTIONS SHALL BE AVAILABLE 6. DAMPER SHALL CLOSE UPON SIGNAL FROM FIRE ALARM SYSTEM SMOKE DETECTORS. 7. LOCATE IN -DUCT SMOKE DETECTOR MAX. 5' -0" AWAY FROM FIRE /SMOKE DAMPER. COORDINATE W/ 8. DAMPER SHALL AUTOMATICALLY RESET BY FIRE ALARM SYSTEM. FIRE /SMOKE DAMPER DETAIL TALLA11ON. TO DAMPER ACCESS DOORS IN DUCT. TER. THE CENTERLINE OF THE FIRE DAMPER. ON SITE FOR INSPECTOR'S USE. ELECTRICAL. NOT TO SCALE REFER TO STRUCTURAL FOR SLAB INFO. ALL THREAD ROD CONCRETE EXPANSION ANCHOR TRANSITION DUCTWORK AS REQUIRED. 03 -16 -18 MOTOR HOUSING. PROVIDE CLEAR ACCESS FOR SERVICE. SPRING ISOLATOR UNIT MOUNTING BRACKET WITH NEOPRENE GASKET OR RUBBER GROMET. FLEXIBLE CONNECTION EXHAUST FAN SMALL INLINE EXHAUST FAN BOLTED OR HINGED ACCESS PANEL WITH GASKET. PROVIDE CLEAR ACCESS FOR CLEANING AND SERVICE. NOT TO SCALE 03 -07 -07 1" REBAR 6" O.C. BOTH DIRECTIONS WELD AT ALL INTERSECTIONS 4 "x6" WOOD FRAME NOTE: - 1 COORDINATE LOCATIONS AND INSTALLATION PROCEDURES WITH OTHER TRADES PRIOR TO ANY WORK. PROVIDE SECURITY BARS AT INTAKE AND DISCHARGE OPENINGS TO FIRST FLOOR ELECTRICAL ROOMS (LE. UPS ROOM, SWITCHGEAR ROOM, TRANSFORMER ROOM, ETC.) WELD 1" BOLT TO ANGLE IRON (TYP) i MIN PLAN VIEW DUCT MANBAR DETAIL ELEVATION VIEW f1 ff a 1 x 1' x 1 ANGLE IRON WELD REBAR TO ANGLE IRON (TYP) WOOD FRAME STEEL REBAR (TYP) NOT TO SCALE GLOBE VALVE BYPASS HOFFMAN AUTO VENT DIELECTRIC UNION COIL CONNECTION ECCENTRIC REDUCER (TYP. 6) GLYCOL RETURN #300 VICTAULIC BUTTERFLY VALVE (TYP. 2) CONTROL VALVE GLYCOL SUPPLY NIBCO BALL VALVE T -595 PETE'S PLUG (TYP. 2) DRAIN 03 -16 -25 REVIEWED E5 CODE COMPLIANCE APPROVED APR 0 7 2010 � i Tukwla BUILDING DIVISinM SINGLE CIRCUIT CHILLED WATER COIL PIPING DIAGRAM 0 NOT TO SCALE ��J M10 -030 ECEIVED MAR 022010 PERMIT CENTER 0 M 0 M 0 Q < °N. Z N UJ < 0 Z I- co 1- Q �ti d' OD ▪ I— LL www.internap.com Q J Y 00 Z Q rE 0 eL to co O W O0 r7 N to • L'- O CL w0CDD000 (n > c:7) co 00 ZW��< U W z z • CcWi�"i�a� • 0 N J J ate ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE:NTS DETAILS M500 120V /1PH /60HZ ALERTON CONTROL PANEL cld 4. aa Hi F� Ix • • a N I E 5 aS aW O 0 gINi i h Ai Ai Al Do Di Ao Ai Di Ao Ai Ao Do Di Ao Ai DI Di Di Ao Do C C CONDENSER COMPRESSOR SECTION SEQUENCE OF OPERATION RETURN AIR SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. SUPPLY FAN OPERATION: FAN OPERATION SHALL BE CONTROLLED VIA UNDER FLOOR PRESSURE SENSORS. THREE PRESSURE SENSOR TUBES (SPACED EQUIDISTANTLY IN THE RAISED FLOOR) SHALL BE USED TO DETERMINE A HIGH/LOW PRESSURE SELECTION. THE LOWEST UNDERFLOOR PRESSURE READING IS USED TO CREATE A CONTROL SIGNAL WHICH DETERMINES THE VFD SPEED FOR AU. ROOFTOP UNITS. THIS CONTROL SIGNAL MODULATES FROM 0-100X AND IS GENERATED WHEN THE UNDERFLOOR PRESSURE DEVIATES FROM THE SETPOINT (1.5' ADJ.) RELIEF FAN OPERATION: FAN OPERATION SHALL BE CONTROLLED VIA DATA CENTER SPACE PRESSURE SENSORS. THREE PRESSURE SENSORS (SPACED EQUIDISTANTLY IN THE DATA CENTER) SHALL BE USED TO DETERMINE A HIGH/LOW PRESSURE SELECTION. THE LOWEST PRESSURE READING IS USED TO CREATE A CONTROL SIGNAL WHICH DETERMINES THE VFD SPEED FOR ALL ROOFTOP UNIT RELIEF FANS. THIS CONTROL SIGNAL MODULATES FROM 0-100X AND IS GENERATED WHEN THE SPACE PRESSURE DEVIATES FROM THE SETPOINT (0.05" ADJ.) DX COOLING OPERATION: ECONOMIZER MODE SHALL BE PRIMARY METHOD OF COOUNG. MCQUAY UNIT SHALL ENABLE ECONOMIZER MODE UPON SATISFACTORY OUTSIDE AIR CONDITIONS. DX SYSTEM COOLING SHALL ACT AS SECOND STAGE OF COOLING WHEN THE ECONOMIZER IS DISABLED. THREE TEMPERATURE SENSORS WITHIN THE DATA CENTER SHALL MONITOR AND CONTROL RTJ DX COOLING AND MAINTAIN A SPACE TEMP OF 70 DEGREES F (ADJ.). THE TEMP SENSORS SHALL ESTABUSH A HIGH/LOW SELECTION AND THE HIGHEST READOUT WiLL BE USED TO RESET THE SUPPLY AIR TEMPERATURE. HUMIDIFIER OPERATION: THREE HUMIDITY SENSORS WALL LOCATED WITHIN THE SUPPLY MANIFOLD ON THE ROOF (EQUIDISTANTLY SPACED). THE HUMIDIFIERS WILL BE ENABLED UPON START SETPOINT OF 35X (ADJ.) PLENUM RELATIVE HUMIDITY. THEY WALL BE DISABLED AT A STOP SETPOINT OF 55% (ADJ.) PLENUM RELATIVE HUMIDITY. THE HUMIDIFIERS WILL BE DISABLED WHEN THE MCQUAY RTUS ARE IN ECONOMIZER. FILTER SWITCHES A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). NOTES SUPPLY MANIFOLD HUMIDIFIER Vff■VAYA p 1. THE RTU'S SHALL BE CONTROLLED BY THE DDC SYSTEM 2. ISOLATION DAMPER ON RTU HUMIDIFIER DISCHARGE SHALL REMAIN IN THE CLOSED POSITION AND SHALL OPEN UPON START COMMAND OF MU. 3. SMOKE DETECTION SHALL DISABLE UNIT OPERATION. 4. IF GLOBAL COMMUNICATION IS LOST OR ANY SPACE/HUMIDITY/PRESSURE SENSOR FAILS, THEN THE UNITS WILL USE THEIR OWN INTERNALCONTROLS TO CONDITION THE SPACE. ROOFTOP UNIT CONTROL NOT TO SCALE 120V /1PH /60HZ ALTERTON CONTROL PANEL l F F as F cF igi cia G 1 gi g El 0 g a 16 Eg Ao Al Ao Ai At Al Do Di Ao Al DI Do DI Ao Ai Di Di AT Di Di JJJ SEQUENCE OF OPERATION VFD SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE. ECONOMIZER OPERATION: THE FAN BASED ECONOMIZER SHALL BE CONTROLLED BY THE DDC SYSTEM AND BE THE UPS ROOMS PRIMARY MODE FOR COOLING. UPON A START SIGNAL FROM THE ECONOMIZER THE [RAC UNITS SHALL BE DISABLED. A TEMPERATURE SENSOR SHALL MONITOR BREEZEWAY CONDITIONS AND UPON DETECTION OF A TEMPERATURE BELOW THE SET POINT OF 55 DEGREES F (ADJ.) THE ECONOMIZER SHALL BE ENABLED. A VFD CONTROL SIGNAL IS GENERATED FROM THE SPACE TEMPERATURE SET POINT OF 75 DEGREES F (ADJ.) AND MODULATES FROM 0 -1009 THE FANS SHALL OPERATE IN LEAD/LAG CONDITION AND ROTATE LEAD OPERATION ON A WEEKLY BASIS. THE LAG FAN SHALL RECIEVE A START SIGNAL ONCE THE LEAD FAN REACHES 90X AND THE FANS SHALL THEN EQUALIZE IN OPERATION. WHEN THE LEAD FAN FALLS BELOW 40% OPERATION THE LAG FAN SHALL BE DISABLED. THE MODULATING DAMPER ON THE INTAKE SIDE OF THE ECONOMIZER SHALL OPEN WHEN THE ECONOMIZER IS ENABLED. THE DAMPER SHALL RECIEVE A CONTROL SIGNAL FROM THE SPACE PRESSURE SENSOR SET POINT OF 0.05' (ADJ.) AND MODULATES FROM 0-100X EIREALARALCONDIILUIL. A SMOKE/FIRE/FACP COMMAND SHALL OVERRIDE ANY CONTROL FUNCTION. THE [RAC UNIT AND ECONOMIZER SYSTEM SHALL BE DISABLED AND THE INTAKE DAMPERS CLOSED UPON A SMOKE/FIRE/FACP SIGNAL FILTER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). UPS ROOM ECONOMIZER CONTROL NOT TO SCALE ALERTON CONTROL PANEL i NO 0. PO : 1 11 1-5 i gFI re= EI7, i Do Di Do Di Ai Do Do Di 4120V/1PH/60HZ 0 SEQUENCE OF OPERATION SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE (DC) 120V /1PH /60HZ' ALERTON CONTROL PANEL u-W O� 1 zE4 gO Ao Ai Do Ao Ai SUPPLY AIR CRAC UNIT OPERATION: THE [RAC UNITS ARE CONTROLLED BY THE DDC SYSTEM AND OPERATE IN A LEAD1/LEAD2/LEAD3/BACKUP SCHEME THE LEAD/LAG SEQUENCING SHALL ALTERNATE ON A MONTHLY (ADJ.) SCHEDULE THE UPS ROOM ECONOMIZER SYSTEM SHALL BE THE PRIMARY MODE FOR COOUNG. WHEN THE ECONOMIZER SYSTEM IS DISABLED THE [RAC UNITS WILL BE ENABLED. THE CRAC UNITS WILL SEQUENTIALLY OPERATE BY OPENING ITS RESPECTIVE CONTROL VALVE AND STAGING COMPRESSOR OPERATION TO MAINTAIN THE SPACE TEMPERATURE SET POINT OF 75 DEGREES F (ADJ.). UNIT SHALL ESTABLISH WATER FLOW PRIOR TO COMPRESSOR OPERATION. IN THE EVENT OF A CRAC UNIT FAILURE THE BACKUP UNIT SHALL BE ENABLED AND IT RESPECTIVE CONTROL VALVE OPENED. THE FAILED UNIT SHALL BE DISBALED AND ITS CONTROL VALVE CLOSED. IF GLOBAL COMMUNICATION IS LOST OR THE SPACE TEMPERATURE SENSOR FAILS, THEN THE UNITS WILL USE THEIR OWN RETURN AIR TEMPERATURE SENSOR TO CONDITION THE SPACE. DRYCOOLER AND PUMP PACKAGE OPERATION: ON A CALL FOR COOLING AT THE CRAG UNITS, THE SYSTEM PUMPS AND DRYCOOLERS WILL RELIEVE A START SIGNAL THE SYSTEM PUMPS ARE CONTROLLED AS A PRIMARY/BACKUP SYSTEM. OPERATION OF THE PUMPS WILL ALTERNATE ON A MONTHLY (ADJ.) BASIS. IN THE EVENT OF A PRIMARY PUMP FAILURE OR ITS UNABLE TO ESTABUSH FULL FLOW CONDITIONS AT THE FLOW SWITCH, THE BACKUP PUMP SHALL BE ENABLED AND THE PRIMARY PUMP DISABLED. THE DRYCOOLERS WALL CYCLE FAN OPERATION BASED UPON LEAVING FLUID TEMPERATURE EACH FAN SHALL BE MONITORED AND AN ALARM SHALL BE SENT TO THE BMS WHEN A FAN FAILS. FILTER SWATCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). FIRE /ALARM CONDITION: A SMOKE/FIRE/FACP COMMAND SHALL OVERRIDE ANY CONTROL FUNCTION. THE [RAC UNIT AND DRYCOOLER/PUMP SYSTEM SHALL BE DISABLED UPON A SMOKE/FIRE/FACP SIGNAL NOTES 1. LEAK DETECTION HAS NOT BEEN INDICATED ON ANY CONTROL DIAGRAMS. PLEASE REFER TO PLANS FOR LOCATIONS AND QTYS OF LEAK DETECTION AND PROVIDE BMS MONITORING OF ALL SENSORS (CRAC/PIPING/DUCTWORK AUCXILIARY PANS. UPS ROOM CRAC /DC CONTROL NOT TO SCALE 120V /IPH /60HZ ALTERTON CONTROL PANEL Vl ® �." • Yn N N �' N g 3 W PA c0 I a a � t of m iii eS m FiS a Ao Ai Al Do Di Ao Al Di Do Di Ao Ai Di DI DL FUPS ROOM SEQUENCE OF OPERATION VFD SET POINTS: ALL SET POINTS SHALL BE ADJUSTABLE TRANSFER FAN OPERATION: THE TRANSFER FAN(S) SHALL BE CONTROLLED BY THE DDC SYSTEM. A TEMPERATURE SENSOR SHALL CONTROL FAN OPERATION. A VFD CONTROL SIGNAL IS GENERATED FROM THE SPACE TEMPERATURE SET POINT OF 75 DEGREES F (ADJ.) AND MODULATES FROM 0 -100X. THE FAN(S) SHALL OPERATE IN LEAD/LAG CONDITION AND ROTATE LEAD OPERATION ON A MONTHLY BASIS (ADJ.). THE LAG FAN SHALL RELIEVE A START SIGNAL ONCE THE LEAD FAN REACHES 90% AND THE FANS SHALL THEN EQUALIZE IN OPERATION. WHEN THE LEAD FAN FALLS BELOW 40X OPERATION THE LAG FAN SHALL BE DISABLED. THE MODULATING DAMPER ON THE INTAKE AIR OPENGIN TO THE ROOM SHALL OPEN WHEN THE TRANSFER FAN(S) ARE ENABLED. THE DAMPER SHALL RECIEVE A CONTROL SIGNAL FROM THE SPACE PRESSURE SENSOR SET POINT OF 0.05' (ADJ.) AND MODULATES FROM 0 -100X FIRE /ALARM CONDITION: A SMOKE/FIRE/FACP COMMAND SHALL OVERRIDE ANY CONTROL FUNCTION. THE TRANSFER FAN(S) SHALL BE DISABLED AND THE INTAKE DAMPERS CLOSED UPON A SMOKE/FIRE/FACP SIGNAL FILTER SWITCHES: A DIFFERENTIAL PRESSURE SWITCH ACROSS THE FILTERS SHALL ALARM TO THE BMS WHEN THE PRESSURE DROP ACROSS THE FILTERS RISES ABOVE THE FILTER MANUFACTURER'S RECOMMENDED SETPOINT (ADJ). TRANSFER FAN TEMPERATURE CONTROL (TRANSFORMER ROOM 1153 + SWITCHGEAR ROOM 1155) NOT TO SCALE REVIEWED FOR CODE COMPLIANCE APPROVED APR 0 7 2010 City of Tukwila BUILDING DIVis1nr' SYMBOL /ABBREV. DESCRIPTION SYMBOL DESCRIPTION LOW VOLTAGE CONTROL WIRING PNEUMATIC TUBING T 120V/24V CONTROL TRANSFORMER i-- -R i- — — — -t MIS AIRFLOW MEASURING STATION 120V,208V OR 460V POWER WRING 120V AUTOMATIC ISOLATION VALVE CONTROL PANEL (DDC) CP ` "Y' CURRENT SENSING RELAY DP DIFFERENTIAL PRESSURE SWITCH —e —i' 0 3-WAY CONTROL VALVE 2 pS DIFFERENTIAL PRESSURE SENSOR t t al 1 r -WAY CONTROL VALVE © HIGH PRESSURE CUTOUT SWITCH ACTUATOR DED AND INSTALLED BY .TIM' i CONTROLS CONTRACTOR EP ELECTRIC TO PNEUMATIC TRANSDUCER © PRROOVIDED OAR D INSTALLED BY CONTROLS Lr2 FLOW SWATCH OE PROVIDED AND INSTALLED BY ELECTRICAL 0 HUMIDITY SENSOR ® PROVIDED AND INSTALLED BY MECHANICAL ® PROVIDED BY ELECTRICAL AND INSTALLED BY MECHANICAL SMOKE DETECTOR Ai ANALOG INPUT ® STATIC PRESSURE SENSOR Ao Di ANALOG OUTPUT ® TEMPERATURE SENSOR DIGITAL INPUT VFD VARIABLE FREQUENCY DRIVE Do DIGITAL OUTPUT FIRE FIRE ALARM SYSTEM INTERLOCK BMS BUILDING MANAGEMENT SYSTEM CONTROL LEGEND NOT TO SCALE MtOO 3 6 04 -01 -01 RECEIVED MAR 022010 PERMIT CENTER 2 w 1 2 J 0 LC) N O d oZ 1 N w O d' N- O N- ''oO 1- LL www.internap.com • z 0 N -J ..1 CALLISON www.callison.com W W v Raft w 0- 2 Uc Q C7 00 a) () -� Q W N� W CO Ce CO W c 1- z ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE:NTS CONTROL DIAGRAMS M600 ICwS --5 I SEE PLUMBING DRAWINGS FOR CONTINUATION. 5 AUTOMATIC AIR VENT (TYP.). PROVIDE AT HIGHEST POINT IN SYSTEM SIZE PER MANUFACTURERS RECOMMENDATION (APPROX. 1,000 GAL SYSTEM CAPACITY TYP.) PROVIDE ISOLATION VALVES AT DRYCOOLER CONNECTION (TYP.) M H EXPANSION TANK PRESSURE /TEMPERATURE PORT (TYP.) MIXING VALVE (TYP.) RELIEF VALVE (TYP.) STRAINER W/ BALL VALVE (TYP. 4" / FLEXIBLE CONNECTION (TYP.) rCHECK VALVE (TYP.) ISOLATION VALVE (TYP) BALANCING VALVE (TYP.) " P 3 -1 BACK PRESSURE BYPASS VALVE FLOW SWITCH (TYP. 5" SUPP /RET V A V A V A V A r0 LO r0 LO ■ PROVIDE A REDUNDANT SET OF SUPPLY AND RETURN GLYCOL /WATER LINES FROM DUPLEX PUMP PACKAGES AT ROOF TO UPS ROOM ON FIRST FLOOR. ■ PROVIDE A HOSE BIB AT FIRST FLOOR AND FILL PORT AT ROOF FOR EACH SET OF SUPPLY AND RETURN LINES FOR MAINTENANCE AND REPAIR. 4" SUP /RET A V 4" SUP /RET UPS ROOM NOTE: PROVIDE AUXILIARY PAN BENEATH GLYCOL /WATER LINES IN UPS ROOM. SPOT 'LEAK DETECTION IS REQUIRED IN PAN AND SHALL COMMUNICATE WITH BMS. DRAIN LINE FROM PIPING PAN SHALL TERMINATE IN PAN WITH CONDENSATE PUMP BENEATH CRAC UNITS. 3" SUP /RET (TYP.) A V 1>< 3 —WAY CONTROL VALVE (TYP.) t✓ ISOLATION VALVE (TYP.) CRAG UNIT / DRYCOOLER PIPING DIAGRAM NOT TO SCALE U n O • 07/72 (49,000 CFM 84/84 SUPPLY AIR MANIFOLD 0 90/48 (52,280 CFM 90/48 (52,280 CFM 56/58 (39,210 CFM) 90/48 (52,280 CFM U O O O ais CNI O CEILING SPACE: SEE M -200 FOR DISTRIBUTION NORTH HUMIDITY SENSOR (TYP.) DATA CENTER TEMPERATURE SENSOR (TYP.) PRESSURE SENSOR SOUTH RAISED FLOOR MONITORING NOTES: SENSORS ON DIAGRAM ARE TO BE MONITORED BY BMS. REFER TO CONTROL DIAGRAMS FOR CONTROL INTERFACE WITH EQUIPMENT. l RTU AIRFLOW DIAGRAM CREVIEWED FOR COMPLIANCE APPROVED APR 0 7 2010 City of Tukwila BUILDING DiviRnti PE ECEIVED MAR 0 2 2010 1TCENTER NOT TO SCALE a M 0 M O I- J N FESSIONAL O 0 < O z �.. a rn w C N �- 0 2 a) • O N- co I— LL Q 00 • CL In CO 0 In 0 0 0 ON&) 0 D co _ Z wQCa5N- (n > O) co m -w LL- -Q �U wzZQ! �(�cn <m • z 0 1 1 0 CALL /SON www.callison.com W W Q Q W IsHom 0 2 0 1— W < w IZ w H 0 w F— z PROJECT # 209871 ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE: NTS PIPING AND AIRFLOW DIAGRAMS M700 0 0 0 0 120V /1PH /60HZ 0 aVd 0 CC 0) 0 0 1 %� 1" FOR 1" FOS DT EMERGENCY SHUTDOWN T SOLENOID VALVE (NO) DT NORMAL FILL W �' SOLENOID VALVE (NC) d- TLS 1 1 ALERTON CONTROL PANEL Zi CV j ~o CI -J DI DI Di DI DI DI Di DI DI DI Di DI LT DAY TANK MONITORING LT THE DAY TANK SYSTEM CONSISTS OF RETURN PUMPS, LEVEL SENSING AND RUPTURE/LEAD DETECTION. THE DDC ARE ONLY MONITORED BY THE DDC SYSTEM. DDC DAY TANK MONITORING SYSTEM NOT TO SCALE DOUBLE POPPET FOOT VALVE (TYP.) D C1 LJ ri r 7 7 E] 1 1 r•i NOTE: PROVIDE WITH DISCONNECT J 1" FOS 1" FOR GENSET SOLENOID VALVE (NC) POWER AVAILABLE LAMP DAY TANK (4,5,6) HIGH LEVEL LAMP DAY TANK (4,5,6) LOW LEVEL LAMP DAY TANK (4,5,6) LEAK LAMP RETURN PUMP (4,5,6) RUN LAMP RETURN PUMP (4,5,6) HOA SWITCH DAY TANK (4,5,6) SOLENOID VALVES HOA SWITCH DAY TANK (4,5,6) FAIL LAMP SUPPLY PUMP (1,2) FAIL LAMP SUPPLY PUMP (1,2) RUN LAMP ALARM SILENCE BUTTON CUSTOM REL SYSTEM CONTROL AND MOMTORNG PANEL (OMNTEC MFG OR EQUAL) FUEL SYSTEM CONTROL DETAIL FUEL SYSTEM EQUIPMENT SCHEDULE TAG DESCRIPTION FOS ABOVE GROUND CONVAULT FUEL DAY TANK UL -2085 LISTED 250 GALLON CONCRETE ENCAPSULATED TANK. PROVIDE WITH 4" FILL CONNECTION IN 7 GALLON SPILL BUCKET, LEAK DETECTOR TUBE, THREE (3) 2" NIPPLES AND THREE (3) 4" NIPPLES. PROVIDED AND INSTALLED BY CONTRACTOR DT DT V VENT DAY TANK SUBMERSIBLE RETURN PUMP. FUEL CONTROL PANEL SHALL OPERATE. PROVIDED AND INSTALLED BY CONTRACTOR, MOUNTED ON DAY TANK (208 /1/60). RP © FLEX OMNTEC CUSTOM CONTROL AND MONITORING PANEL. CP 0 SOV SHUT — OFF /ISOLATION VALVE (THREE PIECE BRONZE) LEAK SENSOR. CONTRACTOR SHALL COORDINATE HIS WORK WITH THE WORK OF OTHERS ON THE LS 10. INSTALLED TANKS SHALL BE VENTED TO PER NFPA SECTION 30. VENTS MUST BE SOLENOID VALVE TANK CONTAINMENT LEAK SENSOR. MATERIALS TO MAKE A WORKABLE AND USABLE SYSTEM. TLS LT LEVEL PROBE AND LEVEL TRANSMITTER. COMPATIBLE WITH FUEL CONTROL PANEL TO REPORT TANK LEVEL FOR DIGITAL READOUT. 3. CONTRACTOR SHALL BE RESPONSIBLE FOR CUTTING AND PATCHING OF WALLS, LT TANK LEAK SENSOR LG LEVEL GAUGE /PROBE. LEVEL PROBE AND GAUGE FOR FUEL LEVEL READOUT VISIBLE FROM TANK FILLING CONNECTION. FUEL SYSTEM PIPING REVIEt FUEL PIPING SHALL BE SCHEDULE 80 STEEL WITH WELDED JOINTS AND FITTT1NGS. CODE CC VED MPLI OVE APR 0 7 2010 SYMBOL LSIT SYMBOL ABBREV. DESCRIPTION 1. WORK SHALL COMPLY WITH ALL APPLICABLE STATE AND LOCAL BUILDING FOS FUEL OIL SUPPLY FOR FUEL OIL RETURN V VENT EV EMERGENCY VENT FLEX STAINLESS STEEL FLEXIBLE CONNECTION ? AVAILABLE TEST DATA AND CALCULATIONS. SOV SHUT — OFF /ISOLATION VALVE (THREE PIECE BRONZE) CONTRACTOR SHALL COORDINATE HIS WORK WITH THE WORK OF OTHERS ON THE SWING CHECK VALVE 10. INSTALLED TANKS SHALL BE VENTED TO PER NFPA SECTION 30. VENTS MUST BE SOLENOID VALVE INSTALLED IN ACCORDANCE WITH NFPA TO ENSURE COMPLIANCE WITH U.L. 142. MATERIALS TO MAKE A WORKABLE AND USABLE SYSTEM. FLOW SWITCH LT ULTRASONIC LEVEL TRANSMITTER 3. CONTRACTOR SHALL BE RESPONSIBLE FOR CUTTING AND PATCHING OF WALLS, TANK LEAK SENSOR TLS 0c AND DRILLING REQUIRED OF STRUCTURAL ELEMENT THAT IS NOT SPECIFICALLY SHOWN LEVEL GAUGE 0 DOUBLE POPPET FOOT VALVE 0 RETURN PUMP . OR ��,',' POC POINT OF CONNECTION ‘NCE THEMSELF WITH ALL THE REQUIREMENTS OF THE PROJECT AND SHALL NOTIFY THE CM City of Tukwila GENERAL N k`'' " DIVISION 1. WORK SHALL COMPLY WITH ALL APPLICABLE STATE AND LOCAL BUILDING 8. STRUCTURAL CALCULATIONS SHALL BE PROVIDED BY THE MANUFACTURE TO CODES, OCCUPATIONAL SAFETY AND HEALTH ADMINSTRATION (OSHA) STANDARDS AND INDICATE THAT THE ABOVE GROUND VESSEL MEETS ALL APPLICABLE CODES. FEDERAL CODES HAVING JURISDICTION OVER THE CONSTRUCTION. 9. A MINIMUM 2 —HOUR FIRE RATING ENCLOSURE SHALL BE PROVIDED WITH 2. CONTRACTOR SHALL EXAMINE THE PROJECT SITE AND DISCUSS GENERAL ? AVAILABLE TEST DATA AND CALCULATIONS. REQUIREMENTS OF BUILDING AND WORK PERFORMANCE WITH THE PROJECT MANAGER. CONTRACTOR SHALL COORDINATE HIS WORK WITH THE WORK OF OTHERS ON THE 10. INSTALLED TANKS SHALL BE VENTED TO PER NFPA SECTION 30. VENTS MUST BE PROJECT. CONTRACTOR SHALL CONFIRM EXISTING CONDITIONS AND PROVIDE LABOR AND INSTALLED IN ACCORDANCE WITH NFPA TO ENSURE COMPLIANCE WITH U.L. 142. MATERIALS TO MAKE A WORKABLE AND USABLE SYSTEM. EMERGENCY VENTING (IN THE EVENT OF A FIRE) SHALL ALSO BE DESIGNED AND INSTALLED IN COMPLIANCE WITH NFPA SECTION 3. 3. CONTRACTOR SHALL BE RESPONSIBLE FOR CUTTING AND PATCHING OF WALLS, ROOFS, FOOTINGS, FLOORS, INCLUDING SAW CUTTING AND CORE DRILLING. ANY CUTTING 11. THE CONTRACT DRAWINGS ARE SCHEMATIC AND ARE INTENDED TO CONVEY A AND DRILLING REQUIRED OF STRUCTURAL ELEMENT THAT IS NOT SPECIFICALLY SHOWN FUNCTIONAL FUEL OIL SYSTEM AND TO DEPICT THE GENERAL LOCATION OF THE SYSTEM ON DRAWINGS SHALL BE BROUGHT TO THE OWNERS REPRESENTATIVE ATTENTION PRIOR COMPONENETS. TO SUCH CUTTING OR DRILLING. CONTRACTOR SHALL SUBMIT PROPOSED LOCATION AND SIZES OF SUCH CUTTING AND DRILLING FOR APPROVAL. 12. CONTRACTOR SHALL EXAMINE THE CONTRACT DOCUMENTS AND SHALL FAMILIARIZE THEMSELF WITH ALL THE REQUIREMENTS OF THE PROJECT AND SHALL NOTIFY THE CM 4. CONTRACTOR SHALL BE RESPONSIBLE FOR THE ACQUISITION AND PAYMENT OF OF ANY OBSERVED FAULTS AND AMBIGUITY IN THE CONTRACT DOCUMENTS SO THAT THE PERMITS AND INSPECTIONS REQUIRED AND RELATED FEES FOR THIS INSTALLATION. MATTER MAY BE RESOLVED PRIOR TO SUBMISSION OF BIDS. 5. PIPING SHALL BE SEISMICALLY BRACED PER THE SMACNA GUIDEUNISE FOR 13. BY SUBMISSION OF BID, THE CONTRACTOR SHALL ACKNOWLEDGE ACCEPTANCE OF SEISMIC RESTRAINTS OF MECHANICAL SYSTEMS AND LOCAL REQUIREMENTS. THE CONTRACT DOCUMENTS AS AN ADEQUATE DEFINITION OF THE SCOPE OF WORK AND EXTRA COST CLAIMS BASED ON INADEQUACY OF CONTRACT DOCUMENTS WILL NOT BE 6. MECHANICAL CONTRACTOR AND /OR FUEL SYSTEM VENDOR SHALL SUBMIT CONSIDERED. COMPLETE SHOP DRAWINGS FOR EQUIPMENT SHOWN IN THE EQUIPMENT SCHEDULE AND PIPING SHOWN ON DIAGRAM FOR ENGINEER'S REVIEW PRIOR TO FABRICATION. 14. OIL COOLER IS TO BE FURNISHED BY GENERATOR MANUFACTURER AND INSTALLED BY CONTRACTOR AS INTEGRAL PART OF ENGINE. INSTALL WITH ALL NECESSARY 7. FUEL PIPING, VENT PIPING, AND CONTAINMENT CASING SHALL BE WELDED STEEL. COMPONENTS, INCLUDING VALVES, GAUGES, FLEXIBLE CONNECTIONS AND FITTINGS. 8. DIESEL FUEL STORAGE TANK SHALL BE DESIGNED AND CONSTRUCTED IN 15. CONTRACTOR SHALL VERIFY ALL VOLTAGE AND POWER REQUIREMENTS AND ACCORDANCE WITH UL 142, AND UFC STANDARDS A- 11 —F -1. THE TANKS SHALL BE COORDINATE WITH ELECTRICAL CONTRACTOR AS REQUIRED. ALL CONTROLS AND POWER SUPPLIED AND INSTALLED BY THE MECHANICAL CONTRACTOR OR THEIR SUBCONTRACTOR. WIRING SHALL BE IN SEPARATE RIGID CONDUIT. TANK SHALL BE CONSTRUCTED OF CONCRETE ENCAPSULATED STEEL TANK AND SHALL BE PROVIDED WITH ENCLOSED SECONDARY CONTAINMENT TANK (RUPTURE BASIN) AND 16. MOTOR CONTROLLERS (STARTERS) OR COMBINATION STARTER /DISCONNECT LEAK DETECTOR. SWITCHES FOR MECHANICAL EQUIPMENT ARE FURNISHED UNDER THIS DIVISION AND INSTALLED UNDER DIVISION 16. FUEL SYSTEM SEQUENCE OF OPERATION: DAY TANK FILL OPERATION: FUEL CONTROL PANEL SHALL OPERATE DAY TANK FILL OPERATION. UPON LIQUID LEVEL SENSOR DETECTION OF 75% TANK CAPACITY, THE FUEL CONTROL PANEL WILL SEND A SIGNAL FOR "DT NORMAL FILL" SOLENOID VALVE TO BE ENERGIZED INTO THE OPEN POSITION. FUEL SYSTEM CONTROL PANEL SHALL ALSO SEND SIGNAL TO SYSTEM PUMP TO ENERGIZE. OPERATION LIGHT "NORMAL FILL ACTIVATED" SHALL ILLUMINATE WHEN "NORMAL FILL" SOLENOID VALVE IS ACTIVATED. WHEN LIQUID LEVEL SENSOR DETECTS TANK CAPACITY AT 90% THE "NORMAL FILL" SOLENOID VALVE WILL BE DE- ACTIVATED, THE "NORMAL FILL ACTIVATED" LIGHT SHALL TURN OFF AND THE SYSTEM PUMP SHALL RECEIVE STOP SIGNAL DAY TANK LOW LEVEL OPERATION; UPON LIQUID LEVEL DETECTION OF 5% TANK CAPACITY, THE FOLLOWING OPERATIONS SHALL TAKE PLACE: • THE "DT EMERGENCY SHUTDOWN SOLENOID VALVE" SHALL ENERGIZE AND CLOSE. • THE ASSOCIATED GENERATOR SHALL RECIEVE A SHUTDOWN SIGNAL TO PROTECT ITS FUEL INJECTION SYSTEM. THE "GENSET FILL" SOLENOID VALVE SHALL CLOSE. • A FAILURE SIGNAL OF THE DAY TANK SHALL BE GENERATED AT THE FUEL SYSTEM CONTROL PANEL. IN ORDER TO RESET LOW LEVEL ALARM THE FOLLOWING OPERATIONS MUST TAKE PLACE: • OVERRIDE SOLENOID VALVE CONTROL FOR DSIGNATED DAY TANK AT HOA SWITCH AT CONTROL PANEL FROM AUTO TO OPEN. • MANUAL FILL DAY TANK TO LEVEL NO LESS THAN 25 %. LEAK DETECTION OPERATION. A SIGNAL FROM A DAY TANK LEAK SENSOR SHALL GENERATE AN ALARM AT THE FUEL SYSTEM CONTROL PANEL THE FUEL SYSTEM CONTROL PANEL WILL SEND A SIGNAL TO THE "DT EMERGENCY SHUT DOWN" SOLENOID VALVE AND IT WILL CLOSE. ONCE REPAIRED VALVE POSITIONS CAN BE RESET AY HOA SOLENOID VALVE SWITCH AT FUEL SYSTEM CONTROL PANEL. X1(0 -030 DAY TANK HIGH LEVEL OPERATION: UPON LIQUID LEVEL DETECTION OF 95% TANK CAPACITY, THE FOLLOWING OPERATIONS SHALL TAKE PLACE: • FUEL SYSTEM CONTROL PANEL SHALL SEND SIGNAL TO CLOSE "DT EMERGENCY SHUTDOWN" SOLENOID VALVE. • HIGH LEVEL LAMP SHALL ILLUMINATE FOR ASSOCIATED DAY TANK. • FUEL SYSTEM CONTROL PANEL SHALL SEND SIGNAL TO ENERGIZE RETURN PUMP FOR ASOCIATED DAY TANK. • RETURN PUMP LAMP SHALL ILLUMINATE UPON OPERATION OF PUMP. IN ORDER TO RESET HIGH LEVEL ALARM DETECTION OF 85% TANK CAPACITY IS REQUIRED FROM LIQUID LEVEL SENSOR AT FUEL CONTROL PANEL. THE RETURN PUMP SHALL DE- ENERGIZE AND THE RETURN PUMP LAMP SHALL TURN OFF. A THREE POSITION. THE "DT EMERGENCY SHUTDOWN" SOLENOID VALVE SHALL RETURN TO OPEN POSITION. GENSET SOLENOID VALVE OPERATION: WHEN THE GENERATOR RECIEVES A START SIGNAL THE GENSET SOLENOID VALVE SHALL OPEN. WHEN THE GENERATOR RECEIVES A STOP OR FAIL SIGNAL THE GENSET SOLENOID VALVE SHALL CLOSE. DAY TANK FLOW SWITCH OPERATION: UPON DAY TANK FILL OPERATION IF FLOW IS NOT ESTABLISHED AT SWITCH THE "DT EMERGENCY SHUTDOWN" SOLENOID VALVE SHALL CLOSE AND AN ALARM SIGNAL SENT TO THE FUEL SYSTEM CONTROL PANEL. SUPPLY PUMP MONITORING: OPERATION OF THE STORAGE TANK SUPPLY PUMPS WILL BE ACCESSIBLE FROM THE PHASE 1 SYSTEM (GATEKEEPER PANEL). MONITORING OF STATUS AND FAILURE WILL BE AT FUEL SYSTEM CONTROL PANEL. ALARM OPERATION: UNDER ALARM CONDITION THE PANEL SHALL ENERGIZE AN ALARM BELL THAN WILL ONLY BE DISBALED AT FUEL CONTROL PANEL ALARM SILENCE BUTTON. NOT TO SCALE ECEIVED MAR 022010 IT CENTER PERMIT APPROVAL REQUIREu aft cc Ike 250 WILL 0_ O ¢ o Z ti a rn N w o= co 1-- d'N- o N- •st o LL www.internap.com 00 a- In 00 o cam!) 0 0 I W 0 r0 N • cn 0 Z a- w N_ to > rn co m ZW� —Q � U w Z Z • E 0 U 0 co 0 ▪ = co U v 3 Ilona NTERGATE EAST CAMPUS 0 0 Co CD 0 0 CC N 1- U w C. ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE:NTS FUEL SYSTEM LEGEND, SCHEDULE, NOTES & DIAGRAM FS001 L I I DT -3 (FRONT) 111 Der. I 1 X11 III IIIT AT _1 w w TERMINATION Bus (FRONT) _._._._._._._....__LRONT� ATS #3 W/ BYPASS USS -1 2500KVA XFMR. #1 GEN ROOM 150 USS -2 2500KVA XFMR. #1 (2) 1-1/2" FOS (2) 1 -1/2 FOR ain -1 ; SERVICE SWBD #1 at ats ` tie 600A 26.4KV I HV I SWITCH (FRONT) (FRONT) 600A 26.4KV HV SWITCH (FRONT) main-2 ® ® W u 1 Taw SWITCH GEAR 153 (2) 1-1/2" FOS B/G (2) 1-1/2" FOR B/G FUEL SYSTEM - FIRST FLOOR PART (OVERHEAD PIPING) 0 tUl SCALE: 1 /8 " =f -0" GENERAL NOTES 1. REFER TO PLAN FS -200 FOR PIPING SYSTEM DETAILS. 2. COORDINATE WORK WITH OTHER TRADES PRIOR TO ROUTING VENTS TO EXTERIOR. NOTES ® CONNECT TO EXISTING 1 -1/2" FUEL OIL LINES (FOS & FOR) OVERHEAD. ® RUN (3) 2" VENTs & (3) 4" EMERGENCY VENTS TO EXTERIOR OF BUILDING. PROVIDE COMMON SUPPORT FOR VENTS AND COORDINATE WITH GENERATOR EXHAUST. ® PROVIDE COMMON SUPPORT FOR VENTS THE ENTIRE HEIGHT OF THE BUILDING. TERMINATE VENTS ABOVE ROOF PARAPET. f 1 DT -2 DT -1 DT -3 (FRONT)..._._.......... (FRONT) ATS #1 i g w TERMINATION BUS (FRONT) _(FRONT)ry ATS #3 W/ BYPASS ats USS -1 2500KVA XFMR. #1 GEN ROOM 150 USS -2 2500KVA XFMR. #1 SERVICE SWBD �#1 ats i tie 2I SV ma GEN ROOM I REVIEWED FOR CODE COMPLIANCE APPROVED APR 0 7 2010 City of Tukwila BUILDING DIVISIOrg SWITCH GEAR 153 FUEL SYSTEM - FIRST FLOOR PART (AT GRADE PIPING) SCALE: 1/8 " =1' -0" GENERAL NOTES 1. REFER TO PLAN FS -200 FOR PIPING SYSTEM DETAILS. NOTES 0 ROUTE FOS AND FOR LINES AT FLOOR SLAB IN PROTECTED ENCLOSURE. REFER TO ARCHITECTURAL /STRUCTURAL DETAIL FOR ENCLOSURE CONSTRUCTION. Mao -036 ECEIVED MAR 02 2010 PE 'l r . T CENTER SEPARATE PERMIT AND Q J Q C Off) Z _ 0 Mo0 0 W c p N U • p V) N V) LL O co CI- • J 0 oc y o = J W W EAST CAMPUS Nam O O co cp N 1- U w 0 EC ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE: 1/8 " =1' -0" FUEL SYSTEM FIRST FLOOR PLAN FS100 UPS ROOM 151 (E) 2" PCD 1 CD \__1-1/4" CD —1" CD UPS -A 154 P: ;. FIRST FLOOR PLAN 1 1% SCALE: 1/8 " =1' -0" 7 2" CW 3/4 CW FIRST FLOOR PLAN FE FE GENERAL NOTES 1. ELECTRICALLY HEAT TRACE ALL PIPE IN BREEZEWAY. SHEET NOTES �1 PROVIDE CONDENSATE PUMP FOR EACH AUXILIARY DRAIN PAN BELOW CRAC UNITS. MANIFOLD PUMPED CONDENSATE DRAIN LINES AND SLOPE OUT OF UPS ROOM. PROVIDE PAN BENEATH CONDENSATE LINES IN UPS ROOM AND DRAIN PAN IN BREEZEWAY 6" AFF. • SW ITON _ ._�R_. ---- 155 / • // / _4, 2" CW W Li it= SCALE: 1/8-.1'-o- ••-•, /8 " =1' -0" REVIEWED FOR CODE COMPLIANCE APPROVED APR 0 7 2010 City of Tukwila BUILDING DIVISInrg GENERAL NOTES 1. ELECTRICALLY HEAT TRACE ALL PIPE IN BREEZEWAY. SHEET NOTES 0 EXISTING 2" MAKEUP WATER LINE IS TO BE REMOVED AND RELOCATED PER PLAN. THIS SYSTEM IS NOT TO BE DISRUPTED DURING CONSTRUCTION. COORDINATE RELOCATION AND WORK WITH BUILDING ENGINEER. 02 PROVIDE ACORN #8121 HOSE BIB, CHROME PLATED POLISHED WITH INTEGRAL VACUUM BREAKER, HOSE THREAD AND WHEEL HANDLE. M(0-030 ECE1VED MAR 0 2 2Q10 s TE pFRM1T AND APPROVAL v,rnt uRFD Z coQN- a 0oa co q -QNLU Z o 0 'f -coF- Q W '- o 0r r- Z LOI•:roo <tI - -u_ 2 Q _1 Y a co z rn 0 o_ O CO in ri5 I o W 0 rV) N (/) • fr Q�O 0- WOO' -'N_ V) >o) cOm 0< 1— Lij U W Z Z• • �(nr7(fl<O • W 12 V <t ca — V oo - Q <CD W < W r .. W (t1 a. c M = W W co '— z left 0 co 0 N 1-- U W CC 0 ISSUED/ REVISED DATE PERMIT SET 02/26/10 SCALE: 1/8 " =1' -0" PLUMBING FIRST FLOOR PLAN P100 1% 1% 1% 1" w 1" W k7 3/4" W (•) 1" W ■ 11 3/4" W (TYP.) 1" W 1 1" W 2" W CEO I GENERAL NOTES 1. PROVIDE AUXILIARY PAN AS INDICATED ON PLAN. AUXILIARY PANS ARE TO BE LOCATED AT LOWEST POINT OF DUCT RUN. EACH PAN SHALL INLCUDE POINT LEAK DETECTION (LIEBERT LIQUITECH OR EQUAL). SENSORS ARE TO BE MONITORED AT BMS WITH ALARM NOTIFICATION. SHEET NOTES 0 SEE THIRD FLOOR PART PLAN (THIS SHEET) FOR CONTINUATION. PROVIDE ALLOWANCE FOR APPROXIMATELY 100' OF 2" DRAIN LINE AND AUXILIARY PAN. 0 2" DRAIN LINE FROM HUMIDIFIERS ON ROOF. PROVIDE CONNECTION TO AUXILIARY LINE IN CEILING SPACE. /ritvltvvtl)'FOR CODE COMPLIANCE APR 0 7 2010 • Oily of T_ k.. BU1LpING Ott 1rIN! • 11 x THIRD FLOOR PART PLAN WOMEN'S ROO 213 MEN'S ROOM SCALE: 1/8"=1'-0" GENERAL NOTES 1. COORDINATE INSTALLATION AND ROUTING OF DRAIN LINE AND PAN WITH DATA CENTER PERSONNEL 2. SLOPE PAN AND PIPING AS INDICATED. SHEET NOTES 0 SEE THIRD FLOOR PLUMBING PLAN (THIS SHEET) FOR CONTINUATION. PROVIDE ALLOWANCE FOR APPROXIMATELY 100' OF 2" DRAIN LINE AND AUXILIARY PAN. Q CONNECT 2" DRAIN LINE AND 3/4" PAN DRAIN TO EXISTING 2" DRAIN UNE WITHOUT DISRUPTION. M( o -030 ECEIVED MAR 02 2010 ■ Vel.YR PERMIT AND APPROVAL REQUIRED www.internap.com CO Z _ 0_ r') 00 0 w p rV) N(r) • L O `L co 0 a- woON- (n >� o) com Z Z , Q OU _1 Q6 • E 0 O c A 0 J a V 3 NTERGATE EAST CAMPUS ISSUED / REVISED DATE PERMIT SET 02/26/10 SCALE: 1/8 " =1' -0" PLUMBING THIRD FLOOR PLAN P200 Y l... , ----- - - - - -- 1. PIPING ON ROOF SHALL BE ELECTRICALLY HEAT TRACED TO PROTECT FROM FREEZING. 01 2" CW CONNECTION WITH S.O.V. FOR FUTURE PHASE OF CONSTRUCTION. ® 2" HUMIDIFIER DRAIN LINE DOWN. ® 1" INDUSTRIAL COLD WATER LINE FOR DRYCOOLER FILL. REFER TO PIPING DIAGRAM FOR VALVE ASSEMBLY AND CONNECTION. REVIEWED FOF CODE COMPLIANCE APPROVED APR 0 7 2010 City of Tukwila BUILDING DIVI,R►Dni te 141 0 Y 00 Q Z rn 2 o. ro co —6 W 0 PN(r) N co �- nrX wo�NOU cn > a) co m Z < D OO U Z LI] 0_ 03 IX LO 0 2--/z //.49 • E Z U 0 0 c y o = i V 0 0 0 ISSUED / REVISED PERMIT SET PLUMBING ROOF PLAN SCALE: 1/8"=1'-0" ECEIVED MAR 0 2 2010 PERMIT CENTER SEPARATE PERMIT AND REQUIRED SCALE: 1/8 " =1' -0" PLUMBING ROOF PLAN P300