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Permit M11-042 - CITY OF TUKWILA - GENERATOR
CITY OF TUKWILA GENERATOR 6300 SOUTHCENTER BL EXPIRED 10-26-11 M11-042 City oiliTukwila 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 MECHANICAL PERMIT Parcel No.: 0003200005 Address: 6300 SOUTHCENTER BL TUKW Project Name: CITY OF TUKWILA - GENERATOR Permit Number: M11 -042 Issue Date: 04/28/2011 Permit Expires On: 10/25/2011 Owner: Name: TUKWILA CITY OF Address: 6200 SOUTHCENTER BLVD , TUKWILA WA 98188 Contact Person: Name: Address: Email: Contractor: Name: Address: JERRY KNUDSON 6402 S 144 ST , TUKWILA WA 98168 JERRYK @ GREENRW ERC O NS TRUC TI ON. C O M Phone: 206 - 246 -9456 GREEN RIVER CONST COMPANY INC Phone: 206 - 246 -9456 6402 S 144 ST; SUITE 1 , TUKWILA, WA 98168 Contractor License No: GREENRC 148MM Expiration Date: 07/14/2012 DESCRIPTION OF WORK: EXCAVATE, FORM & POUR GENERATOR PAD. TRENCH FOR ELECTRICAL. INSTALL GENERATOR. Value of Mechanical: $12,000.00 Type of Fire Protection: UNKNOWN Electrical Service Provided by: Permit Center Authorized Signature: Fees Collected: $330.56 International Mechanical Code Edition: 2009 Date: 11--1-e-- 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 performance of work. I am authorized to sign and obtain this mechanical permit and agree to the conditions on the back of this permit. Signature: Print Name: ( v 70e.A Tot-w1,47,6 Date: (1 -2 % 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 -4/10 M11-042 Printed: 04 -28 -2011 • PERMIT CONDITIONS Permit No. M11-042 1: ** *BUILDING DEPARTMENT CONDTI'IONS * ** 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 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. 4: A final report documenting required special inspections and correction of any discrepancies noted in the inspections shall be submitted to the Building Official. The final inspection report shall be prepared by the approved special inspection agency and shall be submitted to the Building Official prior to and as a condition of final inspection approval. 5: 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. 6: Notify the City of Tukwila Building Division prior to placing any concrete. This procedure is in addition to any requirements for special inspection. 7: All electrical work shall be inspected and approved under a separate permit issued by the City of Tukwila Building Department (206- 431- 3670). 8: 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. 9: ** *FIRE DEPARTMENT CONDITIONS * ** 10: The attached set of building plans have been reviewed by the Fire Prevention Bureau and are acceptable with the following concerns: 11: Approved portable fire extinguishers complying with the International Fire Code and with a minimum rating of 2- A:20 -B:C shall be provided and located such that an extinguisher is not more than 75 feet (22860 mm) from pumps, dispensers or storage fill -pipe openings. (IFC 2205.5) 12: 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) 13: 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) 14: ** *ELECTRICAL * ** - IFC - NFPA 70 - NEC 15: An electrical permit from the City of Tukwila Building Department Permit Center (206- 431 -3670) is required for this project. 16: An aisle to and working space shall be provided for each electrical panel. An aisle width not less than 24 inches shall provide access to the panel and 30 inches of working space shall be provided directly in front of the panel. (NEC 110.26(A) thru F(2)) 17: Each circuit breaker shall be legibly marked to indicate it's purpose. (NEC 110 -22) 18: ** *HAZARDOUS CONDITIONS * ** doc: IMC -4/10 M11 -042 Printed: 04 -28 -2011 19: Spill containment systems or mW to render a spill harmless to people or pros r shall be provided where a spill is determined to be a plausible event and where such an event would endanger people or property. (IFC 2701.3.3.4) 20: ** *FLAMMABLE /COMBUSTIBLE LIQUIDS * ** - IFC Chapter 34 21: The plans do not show the required amount of fuel for a type X standby power systems per NFPA 110, Section 5.1.2, 96 hour fuel supply is the minimum allowed. See IFC Section 604, NFPA 110, 111 and AXCE 7 -05 22: A construction permit is required to install, alter, remove, abandon, or otherwise dispose of a flammable or combustible liquid tank. (IFC 105.7.6) 23: Any overlooked hazardous condition and/or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. 24: These plans were reviewed by Marshal 51. If you have any questions, please call Tukwila Fire Prevention Bureau at (206)575 -4407. doc: IMC -4/10 M11-042 Printed: 04 -28 -2011 CITY OF TUKWIld Community Develop lifffht Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila, WA 98188 http://www.ci.tukwila.wa.us Mechanical Pitt No. frit,L Q L( ,Project No. (For office use only) MECHANICAL PERMIT APPLICATION 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 40 3 d v s 0 tn't �• c6.�� e 2 4/ ye( / k m,,1 /4. 4Ff i c- e /-x /I Site Address: ,( 3 S ocA- - e.4iti ll2 Tenant Name: C L' y d r T to r Property Owners Name: / C I1-) of_ MI KW c M Loam) .Sat Ce.ouleie 4)wJ Mailing Address: King Co Assessor's Tax No.: Suite Number: Floor: New Tenant: ❑ Yes .. No City if /SF, State Zip [CONTACT PERSON — who do we contact when your permit is ready to be issued Name: J C.v r/ A.. tA,Arm, Day Telephone: Mailing Address: 6 s 1 /q444. kUA City / State E -Mail Address: LJer7 k QrvEew% rI/�Q -(rdt"2"2 7)(e« -. a" Fax Number: o2i ,2/( ,2a2 x/ Zip MECHANICAL CONTRACTOR INFORMATION Company Name: Mailing Address: City State Zip Day Telephone: Fax Number: Expiration Date: Contact Person: E -Mail Address: Contractor Registration Number: ARCHITECT OF RECORD — All plans must be stamped by architect of record Company Name: Mailing Address: City Contact Person: Day Telephone: E -Mail Address: Fax Number: State Zip ENGINEER OF RECORD — All plans must be stamped by engineer of record Company Name: Mailing Address: 3FPlirve 4 4 (pt. ao07'A 0 5w Contact Person: 0/16 f' C4,04 63 e,2 v4 VA/4/1/4/1/ City Day Telephone: E -Mail Address: Fax Number: (4/4. 0 -MD State Zip - 74i/7- K,Dfec H:\ pplications\Porms- Applications On Line\2010 Applications \7 -2010 - Mechanical Permit Application.doc Revised: 7 -2010 bh Page 1 of 2 Valuation of project (contractor's bid price): $ f a OOQ Scope of work (please provide detailed information): Krr�441e / ca. ?renvi.ch (:64 Q(e- r�c,�� Use: Residential: New ❑ Replacement ❑ Commercial: New Replacement ❑ Fuel Type: Electric ❑ Gas Other: Indicate type of mechanical work being installed and the quantity below: Unit Type: Qty Unit Type: Qty Unit Type: Qty Bioler /Compressor Qty furnace <100k btu air handling unit >10,000 cfin fire damper 0 -3 hp /100,000 btu furnace >100k btu evaporator cooler diffuser 3 -15 hp /500,000 btu floor furnace ventilation fan connected to single duct thermostat 15 -30 hp /1,000,000 btu suspended/wall/floor mounted heater ventilation system wood/gas stove 30 -50 hp /1,750,000 btu appliance vent hood and duct emergency generator 50+ hp /1,750,000 btu repair or addition to heat/refrig/cooling system Incinerator — domestic other mechanical equipment air handling unit <10,000 cfrn incinerator — comm/ind PERMIT APPLICATION NOTES - 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. The building official may grant one extension of time for additional periods not to exceed 90 days each. The extension shall be requested in writing and justifiable cause demonstrated. Section 105.3.2 international building 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. BUILDIN LINER OR WHORIZED AGENT: Signature: r!e'41 1 XitidAdeldiel Date: % ^ 2 — !/ Print N . e: 64'7 4//t/(440.0.4.1 Day Telephone: p'U (o ,-296 Mailing Address: �y [/ fie} 3. /y/ /'i,/,,vll 0/4 W/4f City Date Application Accepted: State ' Zip Date Application Expires: Staff Initials: H:\Applications\Forms- Applications On Line12010 Applications \7 -2010 - Mechanical Permit Application.doc Revised: 7 -2010 bh Page 2 of 2 i • 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.: 0003200005 Permit Number: M11 -042 Address: 6300 SOUTHCENTER BL TUKW Status: PENDING Suite No: Applied Date: 04/07/2011 Applicant: CITY OF TUKWILA - GENERATOR Issue Date: Receipt No.: R11 -00667 Payment Amount: $330.56 Initials: WER Payment Date: 04/07/2011 08:01 AM User ID: 1655 Balance: $0.00 Payee: URBAN ELECTRIC TRANSACTION LIST: Type Method Descriptio Amount Payment Check 3184 330.56 Authorization No. ACCOUNT ITEM LIST: Description Account Code Current Pmts MECHANICAL - NONRES PLAN CHECK - NONRES 000.322.102.00.00 264.45 000.345.830 66.11 Total: $330.56 doc: Receipt -06 Printed: 04 -07 -2011 INSPECTION NO. INSPECTION RECORD Retain a copy with permit Itiv/- 0'7/2- PERMIT NO. • CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100, Tukwila. WA 98188 2 (206) 431 -3670 Permit Inspection Request Line (206) 431 -2451 Project: €1 7 or f/i 4# .4 Type of Inspection: r-, ivr9 / Address: aJ t _.. a ilA/ r at Date Called: Special instructions: • • N Date Wanted:. a Requester: Phone No: Approved per applicable codes. 1 Corrections required prior to approval. COMMENTS: —O jiDotosi &tic ve _ e dip fp Iterritz-ipayfrizr 40044Al, 1.A NSPECTION FEE RE r UIRED. Priodto next inspection, fee must be id'at 6300 Southcenter Blvd., Suite 100. Call to schedule reinspection. Date: INSPECTION NO. INSPECTION RECORD Retain a copy with permit I Ca 4 PERMIT NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd., #100; Tukwila. WA 98188 (206) 431 -367 Permit Inspection Request Line (206) 431 -2451 Pro'e /'� ,, Type of Inspection: Address: Sc O On SIvo. Date Called: Special, Instructions: D q !.' 405 _ v/ s Date Wanted: / ° "' Requester: f Phone No: 9.0(0-73O -2'3 0 Approved per applicable codes. 0 Corrections required prior to approval. COMMENTS: 6P A IPf • IDatei_2.1 I' REINSPECTION FEE REQUIRED. Prior to next inspection, fee must be paid at 6300 Southcenter Blvd.. Suite 100. Call to schedule reinspection. REVISIONS PROPERTY LP12 of work wi hout p for appro al of Tukwil Buildi ng ivisio f.. �T : ,e1 ons % ill requ re new pi n su R ittal L. II may inrAde additional plan review fees. I PLANNING APPROVED W. WSW POWS 0 MAN OBLONG OUILNE SEPARATE PERMIT REQUIRED FOR: ❑ Mechanical 81 Electrical Il.Plumbing ( as Piping j of Tukwila E_l : '''4 a QIVISIgI 0140144. GEIOET, 60 3 - B0 1441.42700 277/480, 3 LT WYE. 4 WPM GENER ATOR COMPLETE AS PURCHASED r_17 DY CRY OF TUO4ILA GENET SNAIL INCLUDE DUAL WALL SUB -BASE 663 GAL FUEL TANK AND ALL NECESSARY ODEROU3. ASSESSCRES AND SAFETIES. SEE ELECTRICAL FLANS. 0EI SET SHALL BE SET A0 MOUNTED ON A 4' MN THICK STRUCTURAL SLAB. TIE GENET SHALL BE .LACED ON NE BRE AS 87101.14 014 NE .LANE SURROUNDED BY STRUCTURAL BOLLARDS AND PLACED WITNN TE NDIw CRITERIA MO COMPLY WITH TE CITY OF TLg4ILA ORDINANCES. THE GENSET, 6040 FREES RE LEVELS ARE AT 661 SIINA3. AT TIE 310 OCTAVE. AND AT A DISTANCE OF 7 METERS AEON TIE MT. No changes can be made to these plans without approval from the Planning Division of DCD Approv PROPERTY 4.6E SITE PLAN SCALE . 1/16•.1' -m• A ---olz e)dUu s I- oaf 1eJ-- 0- -Me_ G( Lt/ G y -4),oYyi o V ,5 /' ii---0 1--%.,e____ b‘(6-e/9/71- jea-‘e19,e, cyl hiAVdr 2-,_7_3 q 400e , r I-- 0 I / 5 0 h d/.."6 /0 -6 e____ o 1 i - - 2 /7-, f Iii 1 2 )-) 6'4-- -3 � G wU7 oae v.-1-, e_4(}-et (k._ uiu / /S vui/ v-o d t C S i I LEGAL DESCRIPTION NAT PORTION OF 171E 1St K CELLAR DONATION CLAW NUMBER 40 N TOOPE4 2S WORTW. RACE 4 VAST. WILLAMETTE MERDIAK N 16130 CQMY, W.MNPGTQI DESCRIDED AS FOLLO.4S BEGINNING AT A PONT 141110.1 16 163636 FRET .EST AND 1600.41 FEET NORM OF THE CQI10 4 COPPER OF SECTIONS 26 24, PLAT THEREOF, .COI®ED N VOLUME 1684 FE PLATE TE LINE cc THE PITERURBAN ADDITON TO PACE e6. N KING COATI W 111PGTON. SEATTLE ACC011DDG TO THE 13ENCE EAST 3SO FEET TO THE TOLE PONT OF BED13143166 THENCE EAST BO FEET 13 CE 601771446 FEET, MORE OR LEA4 TO THE NORM1ERY LNE OF COUNTY ROAD "UMBER 622s THENCE WESTERLY ALONE SAID ROAD LINE TO A POINT SOUTH OF THE THE P3204,0EBEGPN?kl. TENCE NORTH TO THE FONT OF BEGRIME Mee Permit Na Plan review approval is subject to errors and missions. Approval of construction documents does not authorize trt I,;otafion of any adopted code or finance. Receipt a; approved Field Copy and conditions is wed: 1rHalal e0UTHCENTER BOULEVARD. By City Of 7Ukwila FilikOrG BERONA ENGINEERS, INC. 44110 scab ease eW.Sde.0 L.ma. WA MIS 41!.1.4.3.1. P I wINOSOS F 6300 Southcenter Blvd RERSIOIB 116E 68RIEIiVE� FOUR E COM APPR VE APR 2 ,, 2u11 City of Tukwila BUILDING nnlictlkd RECEIVED APR 07 2011 PERMIT CENTER 4/0;/11 — M266 NEW GENERATOR 11610/10 R6 CRAM NS CHECKED NEB OWE CI100 ALE N1AA.I .p0 8161817 — M1 .0 FILE COPY STRUCTURAL CALCULATIONS City of Tukwila 6300 Southcenter Blvd. Tukwila, WA 98188 RFA PROJECT NO.: 11 -197 DATE: April 12, 2011 CODE: IBC 2009 The Fossatti Group STRUCTURAL ENGINEERS 1411 Fourth Avenue SUITE 1510 SEATTLE, WASHINGTON 98101 TELEPHONE: (206) 456 -3071 FAX: (206) 456 -3076 WEB SITE: www.rfaengineers.com REVIEWED FOR CODE COMPLIANCE APP {'COVED APR 2 P 2011 City of Tukwila BUILDING DIVIRInN INCOMPLETE LTR# art APR 132011 M 2„ PERMITCENTER 341 • SIMF5ON STRONG -BOLT ANCHOR (514' EMBED) ® EACH CORNER ALL L -BOLT m EA. CORNER (1' EMBED I AI 3GR. B6 ) CUMMINS GENERATOR (MODEL : DSGAC) AND FUEL TANK 'Ilk (MIAI) •d d. d 4 d a .v. • - 44 o. • 0 4 •2 'S 10' O.0. CLR EACH WAY PLAN N.T.S. F'c = 3 ,000 poi fy ■ 60 Ksi (GRADE 60) TYPICAL DETAIL SCALE; 1'• P -0' Project City of Tukwila 6300 Southcenter Blvd Tukwila, WA 98188 Conterminous 48 States 2009 International Building Code Latitude = 47.462381 Longitude = - 122.254786 Spectral Response Accelerations Ss and S1 Ss and S1 = Mapped Spectral Acceleration Values Site Class B- Fa = 1.0 ,Fv = 1.0 Data are based on a 0.05 deg grid spacing Period Sa (sec) (g) 0.2 1.428 (Ss, Site Class B) 1.0 0.489 (S1, Site Class B) Conterminous 48 States 2009 International Building Code Latitude = 47.462381 Longitude = - 122.254786 Spectral Response Accelerations SMs and SM1 SMs = Fa x Ss and SM1 = Fv x S1 Site Class D - Fa = 1.0 , Fv = 1.511 Period Sa (sec) (g) 0.2 1.428 (SMs, Site Class D) 1.0 0.739 (SM1, Site Class D) Conterminous 48 States 2009 International Building Code Latitude = 47.462381 Longitude = - 122.254786 Design Spectral Response Accelerations SDs and SD1 SDs = 2/3 x SMs and SD1 = 2/3 x SM1 Site Class D - Fa = 1.0 ,Fv = 1.511 Period Sa (sec) (g) 0.2 0.952 (SDs, Site Class D) 1.0 0.492 (SD1, Site Class D) 1 ' Latitude and Longitude Finder - get map coordinates Page 1 of 2 � batchgeo make maps I premium services I features help I l,Qg Below you can enter in an address to be validated/geocoded for latitude and longitude coordinate information. You can also click on the map to get satellite photos and driving directions. International geocoding supported (North America and Europe), see below for a complete list. If you have more than one address, use our other page to make poogie maps. With this tool you can find center map coordinates using zip code, city, or state as well. Free data mapping tool Free software, fast & easy to use Download nowt www.expressor- soflware.com GIS - Free 14 Day Trial Sign up for a free trial of our web based GIS softwareww.espeui.comiFree -reel Reverse Lookup -Look Free Find Their Info Now -For Any Numbed Cell, Landline, Unpublished &More. ® Ads by Goo* Enter in an Address (ex: 1600 Pennsylvania Avenue NW, Washington, DC) or Zip Code, a City, or a State: 6300 Southcenter Blvd, Tukwila, WA 98188 Latitude: 47.462381 I Longitude: - 122.254786 a:i rd� YIJ��att•5t tad Do you own .;i business? Ir Bo found on Google for free Claim your free listing today Why use this tool? o Latitude and Longitude Finder - retrieve map coordinates from any address in the world. o Locate addresses fast - instant map and coordinate display, no page refreshes. o International Map Coordinates - Lookup coordinates worldwide at the zip, state, city, and address level. o Yahoo! Geocoding service uses high quality commercial datasets, much better accuracy and coverage than other free geocode systems that use TIGER data. o Quick Multiple Address Mapping using our aooale maps tool o Try our bulk Reverse Geocodina Service useful for getting an address from latitude/longitude coordinates (U.S., Canada, and Europe.) http: //batchgeo.com/lookup/ 4/12/2011 Lateral Analysis: GSGAC M Isc �k � : Building Category 'II' : Model: WT.= 2784 # : Seismin Design Category 'D' Seismic Design: FD = {(0.4 ap Sos )x(1 + 2z/h)xWp } /(RD/ID) = 0.36 Wp = 4392 lb. Fp,a,,x =1.6 Sos ID WD = 1.90 Wp FpM,N = 0.3 Sps IpWp = 0.36 WI, From: ap = 1.0 Sps = 0.952 Rp = 1.5 (Critical ap and RD per ASCE 7 -05 Table 13.5 -1 or 13.6 -1) I,. 1.25 W9. 12200.0 lb. Mean Roof Height (h): 45.0 ft. Comp. Attach eight (z): 0.0 ft. Ground Motion: SMS = Fe *Se = 1.428 S = F„ *Si = 0.761 SOS = (2/3) *SMS = 0.952 SMi = 2 /3) *SMt = 0.507 Mech Unit: W = 43.000 in. . D = 158.000 in. (D >W) �'1� C/ r +. '�� H = 107.000 in. Weight = 12200.00 lb.( Unit Weight + Misc) r` ,fc 0.7 Fp = 3074 lb. ' l `�! Check Overturning : T1 = C1 = 0.7Fp* 55" / 149" = T2 = C2 = 0.7Fp* 55" / 42" = Res = (0.6- 0.2SOSx0.7)x(Wp /2) = ('2006 IBC' Equation 16 -15) 1135 lb.--> No Uplift 4026 lb. —> Uplift 2847 lb. Wind Design: Exposure 'C', 85 mph, 15ft (Max. Height) Pnet = (qe) (KZ) (Cnet) Ow) (ci) = 20.66 psf : IBC 2009: Equation (16 -34) cis = KZ = Cnet = Iw = Kzt _ 18.50 : Wind Stagnation Pressure at Standard Height of 33 Feet Table 1609.6.2(1) 0.85 : Velocity Presure Exposure Coefficient per ASCE 7 Section 6.5.6.6 1.02 : Net - pressure Coefficient, in accordance with Table 1609.6.2(2) 1.15 : Importance Factor 1.12 : Topographic Factor assumed FTotei = (Wind Load)x(D)x(H) = 2425 lb. Check Overturning : T1 = C1 = [Wind Load*W*H *(H /2)/ 149" = T2 = C2 = [Wind Load *D *H *(H /2)/ 42" = Res = 0.6x(Unit Weight /2) = (2009 IBC' Equation 16 -14) 237 lb. - -> No Uplift 3090 lb. - -> No Uplift 3660 lb. a Job Name : 1) Input Calculation Method : ACI 318 Appendix D For Cracked Concrete Code : ACI 318 -08 Calculation Type : Analysis a) Layout Anchor : 3/4" Strong -Bolt Number of Anchors : 1 Embedment Depth : 5 in Built -up Grout Pads : Yes CX1 Page 1 of 8 Anchor Calculations Anchor Selector (Version 4.5.0.0) Date/Time : 4/12/2011 4:24:03 PM crl �ht:1' px2' 1 Al1�C tpR 1 :I POEUNEF ptw.nuiyrO I NEGAflVE :FOR cCI00,14011 r, INDICATES CE(V`I`EfL` 111EAN HOR: Anchor Layout Dimensions : cc1 : 7.5 in cxe : 24 in cy1 : 24 in cy2 • 7.5 in bxi : 1.5 in b, : 1.5 in bye : 1.5 in bye • 1.5 in about:blank 4/12/2011 b) Base Material Concrete : Normal weight Cracked Concrete : Yes Condition : A tension and shear Thickness, ha : 22 in Supplementary edge reinforcement : No c) Factored Loads Load factor source : ACI 318 Section 9.2 Nua : 1179 lb Vuay : 3074 lb Muy : 0 Ib *ft ex:0in e : 0 in Moderate/high seismic risk or intermediate /high design category : Yes Apply entire shear load at front row for breakout : No d) Anchor Parameters From [C- SAS -2009] : Anchor Model = STB75 da = 0.75 in Category = 2 hef = 4.25 in hmin = 7.83 in sac = 12.56 in cmin = 6 in smin = 6.25 in Ductile = No 2) Tension Force on Each Individual Anchor Anchor #1 Nuai = 1179.00 lb Sum of Anchor Tension ENua = 1179.00 lb ax = 0.00 in ay =0.00 in e'Nx = 0.00 in e'Ny = 0.00 in 3) Shear Force on Each Individual Anchor Resultant shear forces in each anchor: Anchor #1 Vua1 = 3074.00 lb (Vua1x = 0.00 lb , Vuajy = 3074.00 lb ) Sum of Anchor Shear EVuay = 0.00 lb, EVuay = 3074.00 lb Page 2 of 8 fc : 2500.0 psi 'Y� V : 1.20 cl)Fp : 1381.3 psi Vuax : 0 lb Mux : 0 lb*ft about:blank 4/12/2011 Page 3 of 8 e'vx = 0.00 in e'vy = 0.00 in 4) Steel Strength of Anchor In Tension [Sec. D.5.1] Nsa = nAse futa [Eq. D -3] Number of anchors acting in tension, n =1 Nsa = 34125 lb (for a single anchor) [C- SAS -2009] 4= 0.65 [D.4.4] 4)Nsa = 22181.25 lb (for a single anchor) 5) Concrete Breakout Strength of Anchor in Tension [Sec. D.5.2] Ncb = ANdANco`'ed,N'1'c,N''cp,NNb [Eq. D-4] Number of influencing edges = 0 hef =4.25 in ANco = 162.56 in2 [Eq. D -6] ANc = 162.56 in2 Smallest edge distance, ca,min = 7.50 in Web ,N = 1.0000 [Eq. D -10 or D -11] Note: Cracking shall be controlled per D.5.2.6 '1'c,N = 1.0000 [Sec. D.5.2.6] `1'cp,N = 1.0000 [Eq. D -12 or D -13] Nb = kcX f f ' c haft 5 = 7447.36 lb [Eq. D -7] kc = 17 [Sec. D.5.2.6] Ncb = 7447.36 lb [Eq. D -4] 0 = 0.65 [D.4.4] 4)seis = (175 4)Ncb = 3630.59 lb (for a single anchor) 6) Pullout Strength of Anchor In Tension [Sec. D.5.3] Neq = 7550Ib (fc/2,500 psi)0•5 = 7550.00 lb 4 =0.55 4)seis = 0.75 4)Neq = 3114.38 lb (for a single anchor) 7) Side Face Blowout of Anchor in Tension [Sec. D.5.4] Concrete side face blowout strength is only calculated for headed anchors in tension close to about:blank 4/12/2011 Page 4 of 8 an edge, cal < 0.4hef. Not applicable in this case. 8) Steel Strength of Anchor in Shear [Sec D.6.1] Veq = 16447.00 lb (for a single anchor) [C- SAS -2009] = 0.60 [D.4.4] Veq = 9868.20 lb (for a single anchor) (Weq is multiplied by 0.8 due to built -up grout pads...[Sec 0.6.1.3] 4Veq = 7894.561b (for a single anchor) 9) Concrete Breakout Strength of Anchor in Shear [Sec D.6.2] Case 1: Anchor checked against total shear load In x-direction... Q Vcbx = ' 'vci 'vcoxTed,V c,Vtljh,V Vbx [Eq. D -21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avox = 693.00 in2 Avcox = 1152.00 in2 [Eq. D -23] Wed V ` 0.7938 [Eq. D -27 or D -28] = 1.2000 [Sec. 0.6.2.71 'I'h v = (1.5ca1 / ha) = 1.0445 [Sec. D.6.2.8] Vbx = 70e/ da )0.2 J dad' to(cal)1.5 [Eq. D -24] le = 4.25 in Vbx = 27443.80 lb Vcbx = 16424.20 lb [Eq. D -21] 4) = 0.75 4)seis = 0.75 (Vcbx = 9238.61 lb (for a single anchor) In y- direction... 4 Vcby = ' vc/ vcoylied,Vtljc,V'h,V Vby [Eq. D-21] cal =7.50 in Any = 210.94 in2 Anoy = 253.13 in2 [Eq. D -23] `t'ed,V = 0.9000 [Eq. D -27 or D -28] '1'c,V = 1.2000 [Sec. D.6.2.7] about:blank 4/12/2011 Page 5 of 8 'Yh V = (1.5ca1 / ha) = 1.0000 [Sec. D.6.2.81 Vby = 70e/ da )0.2.Y dad fc(ca1)1.5 [Eq. D -24] 1e =4.25 in Vby = 8807.57 lb Vcby = 7926.81 lb [Eq. D-21] 4)=0.75 4)seis = 0.75 (1)Vcby = 4458.83 lb (for a single anchor) Case 2: This case does not apply to single anchor layout Case 3: Anchor checked for parallel to edge condition Check anchors at cx1 edge Vcbx = AvcxJAvcox`1'ed,'c,V41h,V Vbx [Eq. D -211 V'; Cal = 7.50 in Avcx = 210.94 in2 Avcox = 253.13 in2 [Eq. D -23] 'Ped,V = 1.0000 [Sec. D.6.2.1(c)] 'Pc,v = 1.2000 [Sec. D.6.2.7] 'Ph,v = (1.5cal / ha) = 1.0000 [Sec. D.6.2.8] Vbx = 70e/ da )0.2 J da?4 f c(ca1)1.5 [Eq. D -24] le =4.25 in Vbx = 8807.57 lb Vcbx = 8807.57 lb [Eq. D-21] Vcby = 2 * Vcbx [Sec. D.6.2.1(c)] Vcby = 17615.14 lb ra = 0.75 4)seis = 0.75 4)Vcby = 9908.52 lb (for a single anchor) Check anchors at cy1 edge Vcby = A,cy/A,coy'Ped,V'Pc,V'Ph,v Vby [Eq. D-21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcy = 693.00 in2 about:blank 4/12/2011 Avcoy = 1152.00 in2 [Eq. D -23] '`ed,v = 1.0000 [Sec. D.6.2.1(c)] `Yc,v = 1.2000 [Sec. 0.6.2.7] ("Cal / ha) = 1.0445 [Sec. D.6.2.8] Vby = 7(1e1 da )0.2 daa. I ?c(ca1)." [Eq. D -24] le = 4.25 in Vby = 27443.80 lb Vcby = 20691.90 lb [Eq. D-21] Vcbx = 2 * Vcby [Sec. D.6.2.1(c)] Vcbx = 41383.81 lb =0.75 4seis = 0.75 Vcbx = 23278.39 lb (for a single anchor) Check anchors at cx2 edge Vcbx = Avcx/Avcox''ed,v`Yc;V`1'h Vbx [Eq. D -21 ] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcx = 693.00 in2 Avcox = 1152.00 in2 [Eq. D -23] `'ed,V = 1.0000 [Eq. D -27 or D -28] [Sec. D.6.2.1(c)] To/ = 1.2000 [Sec. 0.6.2.7] Thy = \I (1.5ca1 / ha) = 1.0445 [Sec. D.6.2.8] Vbx = 70e/ da )0.2 daA.4 fc(ca1)1.5 [Eq. D -24] le = 4.25 in Vbx = 27443.80 lb Vcbx = 20691.90 lb [Eq. D -21] Vcby = 2 *Vcbx [Sec. D.6.2.1(c)] Vcby = 41383.81 lb 4 = 0.75 Oseis = 0.75 Vcby = 23278.39 lb (for a single anchor) Check anchors at cy2 edge Page 6 of 8 4 about:blank 4/12/2011 Vcby = Avcy/Avcoy'Ped,V'Pc,V' 'h,V Vby [Eq. D-21] c81 = 7.50 in Alley = 210.94in2 Avcoy = 253.13 in2 [Eq. D -23] `'ed,v = 1.0000 [Sec. D.6.2.1(c)] '1'c,v = 1.2000 [Sec. D.6.2.7] Tv = 4 (1.5ca1 / ha) = 1.0000 [Sec. D.6.2.8] Vby = 70e/ de )O.2.Y dak4 fc(ca1)1.5 [Eq. D -24] le = 4.25 in Vby = 8807.57 lb Vcby = 8807.57 lb [Eq. D-21] Vcbx = 2 * Vcby [Sec. D.6.2.1(c)] Vcbx = 17615.14 lb 4)=0.75 Oasis = 0.75 4)Vcbx = 9908.52 lb (for a single anchor) 10) Concrete Pryout Strength of Anchor in Shear [Sec. D.6.3] Vcp = kcpNcb [Eq. D -29] kcp = 2 [Sec. D.6.3.1] No = 7447.36 lb (from Section (5) of calculations) Vcp = 14894.72 lb 4) = 0.70 [D.4.4] 4)seis = 0.75 OVcp = 7819.73 lb (for a single anchor) 11) Check Demand /Capacity Ratios [Sec. D.7] Tension - Steel : 0.0532 - Breakout : 0.3247 - Pullout : 0.3786 - Sideface Blowout : N/A Shear - Steel : 0.3894 - Breakout (case 1) : 0.6894 - Breakout (case 2) : N/A Page 7 of 8 Io about:blank 4/12/2011 Page 8 of 8 - Breakout (case 3) : 0.3102 - Pryout : 0.3931 T.Max(0.38) + V.Max(0.69) = 1.07 <= 1.2 [Sec D.7.3] Interaction check: PASS Use 3/4" diameter Strong -Bolt anchor(s) with 5 in. embedment BRITTLE FAILURE GOVERNS: Governing anchor failure mode is brittle failure. Per ACI 318- 08 Section D.3.3.4, anchors shall be designed to be governed by the steel strength of a ductile steel element in structures assigned to Seismic Design Category C, D, E, or F. Alternatively it is permitted to take the design strength of the anchors as 0.4 times (0.5 times for the anchors of stud bearing walls) the design strength determined in accordance with Section D.3.3.3, or the attachment the anchor is connecting to the structure shall be designed so that the attachment will undergo ductile yielding at a force level corresponding to anchor forces no greater than the design strength of anchors specified in Section D.3.3.3. To include the 0.4 or 0.5 factor in the calculation, select the Apply strength reduction factor for brittle failure checkbox and re- calculate. Designer must exercise own judgement to determine if this design is suitable. about:blank 4/12/2011 Page 1 of 8 Anchor Calculations Anchor Selector (Version 4.5.0.0) Job Name : Anchor bolts Date/Time : 4/12/2011 4:30:22 PM 1) Input Calculation Method : ACI 318 Appendix D For Cracked Concrete Code : ACI 318 -05 Calculation Type : Analysis a) Layout Anchor : 3/4" L -Bolt Number of Anchors : 1 Steel Grade: A193 GR. B6 Embedment Depth : 7 in Built -up Grout Pads : Yes c*1 G' 1 x2 `1 >ANGHQR 'NuttS.POaTIVE..;, ? NSIONN+D.NEOKTIUEFOR '41MICIATESte4TER intEMICHOR Anchor Layout Dimensions : cxi : 7.5 in cx2:24in cy1 : 24 in cy2:7.5in bX� : 1.5 in b ,Q:1.5in by1:1.5in by2:1.5in about:blank 4/12/2011 b) Base Material Concrete : Normal weight Cracked Concrete : Yes Condition : A tension and shear Thickness, ha : 22 in Supplementary edge reinforcement : No c) Factored Loads Load factor source : ACI 318 Section 9.2 Nua • 1179 lb Vuay • 3074 lb Muy • 0 Ib *ft ex 0 in ey : 0 in Moderate /high seismic risk or intermediate /high design category : Yes Apply entire shear load at front row for breakout : No d) Anchor Parameters Anchor Model = LB75 do = 0.75 in Category = N/A hef = 6.25 in hmin = 7.75 in cac = 9.375 in cmin = 4.5 in smin = 4.5 in Ductile = Yes 2) Tension Force on Each Individual Anchor Anchor #1 Nuai = 1179.00 lb Sum of Anchor Tension ENua = 1179.00 lb ax= 0.00 in ay= 0.00 in e'Nx = 0.00 in e'Ny = 0.00 in 3) Shear Force on Each Individual Anchor Resultant shear forces in each anchor: Anchor #1 Vuai = 3074.00 lb (Vua1x = 0.00 lb , Vua1y = 3074.00 lb ) Sum of Anchor Shear EVuax = 0.00 Ib, EVuay = 3074.00 lb e'vx = 0.00 in Page 2 of 8 : 2500.0 psi LYE v : 1.20 (I)Fp : 1381.3 psi Vuax : 0 lb Mux : 0 Ib *ft 13 about:blank 4/12/2011 e'vy = 0.00 in 4) Steel Strength of Anchor in Tension [Sec. D.5.1] Nsa = nAse futa [Eq. D -3] Number of anchors acting in tension, n = 1 Nsa = 36740 lb (for a single anchor) = 0.75 [D.4.4] (1)Nsa = 27555.00 lb (for a single anchor) 5) Concrete Breakout Strength of Anchor in Tension [Sec. D.5.2] Ncb = ANd/ANco`Yed,N c,N ''cp NNb [Eq. D-4] Number of influencing edges = 2 hef = 6.25 in ANco = 351.56 in2 [Eq. D -6] ANc = 284.77 in2 't'ed,N = 0.9400 [Eq. D -10 or D -11] Note: Cracking shall be controlled per D.5.2.6 `Pc,N = 1.0000 [Sec. D.5.2.6] `Ycp,N = 1.0000 [Eq. D -12 or D -13] Nb = kc?,NI f' c hef1.5 = 18750.00 lb [Eq. D -7] kc = 24 [Sec. D.5.2.6] Ncb = 14276.25 lb [Eq. D-4] = 0.75 [D.4.4] 4)seis = 0.75 4)Ncb = 8030.39 lb (for a single anchor) 6) Pullout Strength of Anchor in Tension [Sec. D.5.3] Np = 0.9Pceh do [Eq. D -16] eh = 3 do = 2.2500 in Npn = cipNp [Eq. D -14] Tc.p = 1.0 [D.5.3.6] Npn = 3796.88 lb 0=0.70[114.4] 4)seis = 0.75 Npn =4) Neq = 1993.36 lb (for a single anchor) Page 3 of 8 14- about:blank 4/12/2011 Page 4 of 8 7) Side Face Blowout of Anchor In Tension [Sec. D.5.4] Concrete side face blowout strength is only calculated for headed anchors in tension close to an edge, cal < 0.4hef. Not applicable in this case. 8) Steel Strength of Anchor in Shear [Sec D.6.1] Veq = 22045.00 lb (for a single anchor) = 0.65 [D.4.4] Veq = 14329.25 lb (for a single anchor) 4)Veq is multiplied by 0.8 due to built -up grout pads...[Sec D.6.1.3] Veq = 11463.40Ib (for a single anchor) 9) Concrete Breakout Strength of Anchor in Shear [Sec 0.6.2] Case 1: Anchor checked against total shear load In x- direction... Vcbx = Avcx/' vcoxTed,Vkijc,V Vbx [Eq. D -21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcx = 693.00 in2 Avcox = 1152.00 in2 [Eq. D -23] Wed ,V = 0.7938 [Eq. D -27 or D -28] '1'c,V = 1.2000 [Sec. D.6.2.7] Vbx = 70d do )O.2./ d0 X4 fc(cs1)1.5 [Eq. D -24] le = 6.00 in Vbx = 29403.34 lb Vcbx = 16847.77 lb [Eq. D -21] =0.75 4)seis = 0.75 4Vcbx = 9476.87 lb (for a single anchor) In y- direction... Vcby = ' 4 'vcy/Avcoy''ed,'flc,V Vby [Eq. D -211 cal = 7.50 in Avcy = 210.94 in2 Avcoy = 253.13 in2 [Eq. D -23] '1'ed,V 0.9000 [Eq. D -27 or D -281 15 about:blank 4/12/2011 Page 5 of 8 = 1.2000 [Sec. D.6.2.7] Vby = 70e/ do )0.2 d0?4 fc(Ca1)1.5 [Eq. D -24] le =6.00 in Vby = 9436.45 lb Vcby = 8492.80 lb [Eq. D -21] 4).= 0.75 4seis = 0.75 Wcby = 4777.20 lb (for a single anchor) Case 2: This case does not apply to single anchor layout Case 3: Anchor checked for parallel to edge condition Check anchors at cx1 edge Vcbx = Avcx/Avcox'1'ed,01c,V Vbx [Eq. D-21] cal = 7.50 in Avcx = 210.94 in2 Avcox = 253.13 in2 [Eq. D -23] '1`ed,V = 1.0000 [Sec. D.6.2.1(c)] = 1.2000 [Sec. D.6.2.7] Vbx = 7 0e/ do )o.2.4 doX.4 f c(ca1)1.5 [Eq. D -24] 1e =6.00 in Vbx = 9436.45 lb Vcbx = 9436.45 lb [Eq. D-21] Vcby = 2 * Vcbx [Sec. D.6.2.1(c)] Vcby = 18872.90 lb = 0.75 4seis = 0.75 (I)Vcby = 10616.00 lb (for a single anchor) Check anchors at c,,1 edge Vcby = Avcy/AvcoyWed,V'1`c,V Vby [Eq. D -21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcy = 693.00 in2 Avcoy = 1152.00 in2 [Eq. D -23] about:blank 4/12/2011 Ted,V = 1.0000 [Sec. D.6.2.1(c)] = 1.2000 [Sec. D.6.2.7] Vby = 70e/ do )0.2 d0?4 f c(ca1)1.5 [Eq. D -24] le = 6.00 in Vby = 29403.34 lb Vcby = 21225.54 lb [Eq. D-21] Vcbx = 2 * Vcby [Sec. D.6.2.1(c)] Vcbx = 42451.07 lb = 0.75 4)seis = 0.75 Wcbx = 23878.73 lb (for a single anchor) Check anchors at cx2 edge Vcbx = Avcx/AvcoxPed,V''c,V Vbx [Eq. D-21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcx = 693.00 in2 Avcox = 1152.00 in2 [Eq. D -23] Wed,v = 1.0000 [Eq. D -27 or D -28] [Sec. D.6.2.1(c)] = 1.2000 [Sec. D.6.2.7] Vbx = 70d do )0.2.4 do?,4 fc(ca1)1.5 [Eq. D -24] le = 6.00 in Vbx = 29403.34 lb Vcbx = 21225.54 lb [Eq. D-21] Vcby = 2 * Vcbx [Sec. D.6.2.1(c)] Vcby = 42451.07 lb 4)=0.75 4)seis = 0.75 Vcby = 23878.73 lb (for a single anchor) Check anchors at cy2 edge Vcby - Avcy/Avcoy`1'ed,V`1'c,V Vby [Eq. D -21] cal =7.50 in Avcy = 210.94 in2 about:blank Page 6 of 8 4/12/2011 Avcoy = 253.13 in2 [Eq. D -23] Wed,v = 1.0000 [Sec. D.6.2.1(c)] `11c,v = 1.2000 [Sec. D.6.2.7] Vby = 70e/ do )O.2,4 d04 fc(cai)1.5 [Eq. D -24] 1e =6.00 in Vby = 9436.45 lb Vcby = 9436.45 lb [Eq. D-21] Vcbx = 2 * Vcby [Sec. D.6.2.1(c)] Vcbx = 18872.90 lb 0 = 0.75 4seis = 0.75 4 Vcbx = 10616.00 lb (for a single anchor) 10) Concrete Pryout Strength of Anchor in Shear [Sec. D.6.3] Vcp = kcpNcb [Eq. D -29] kw = 2 [Sec. D.6.3.1] No = 14276.25 lb (from Section (5) of calculations) Vcp = 28552.50 lb 4) = 0.70 [D.4.4] $seis = 0.75 4Vcp = 14990.06 lb (for a single anchor) 11) Check Demand /Capacity Ratios [Sec. D.7] Tension - Steel : 0.0428 - Breakout : 0.1468 - Pullout : 0.5915 - Sideface Blowout N/A Shear - Steel : 0.2682 - Breakout (case 1) : 0.6435 - Breakout (case 2) : N/A - Breakout (case 3) : 0.2896 - Pryout : 0.2051 T.Max(0.59) + V.Max(0.64) = 1.24 > 1.2 [Sec 0.7.3] Interaction check: FAIL Page 7 of 8 I & about:blank 4/12/2011 Page 8 of 8 BRITTLE FAILURE GOVERNS: Governing anchor failure mode is brittle failure. Per 2006 IBC Section 1908.1.16, anchors shall be designed to be governed by tensile or shear steel strength of a ductile steel element in structures assigned to Seismic Design Category C, D, E, or F. Alternatively it is permitted to take the design strength of the anchors as 0.4 times the design strength determined in accordance with Section D.3.3.3, or the attachment the anchor is connecting to the structure shall be designed so that the attachment will undergo ductile yielding at a force level corresponding to anchor forces no greater than the design strength of anchors specified in Section D.3.3.3. To include the 0.4 factor in the. calculation, select the Apply strength reduction factor for brittle failure checkbox and re- calculate. Designer must exercise own judgement to determine if this design is suitable. tct about:blank 4/12/2011 NOI1�3S 1'v`�Id.L1 `�� Z 41.E '33 (�wv (09 3ab'+J9) 1>1 09 R,1 .lb`fTl HO`v'3 4 `�`Zc�214. ,7 QSLI?> dy NCI 0006A °,d '0'0 .01 Go VA . .p. - .9 D V 7 • i >iNV .L 13n CINV (Ov'vSCI ' 13CIOW) eJOl'D tiaN3v SNI144 ito—t• \ p `/ *I V 'SPIN NI 1Q l-1'v`HdS'd (3) (99 21.9£61+1 t a39W3 .L) J3NZ100 113 t' 1109-1 0.t TIV Z13N6100 HO'D'S �► (mews .ik,5) NOHOW' 1109- VN022119 NOSd1.419 t.tis Misc. Ratings definitions Emergency standby power (ESP): 4 Applicable for supplying power to varying electrical load for the duration of power interruption of a reliable utility source. Emergency Standby Power (ESP) is in accordance with ISO 8528. Fuel Stop power in accordance with ISO 3046, AS 2789, DIN 6271 and BS 5514. Limited -time running power (LTP): Applicable for supplying power to a constant electrical load for limited hours. Limited Time Running Power (LTP) is in accordance with ISO 8528. Prime power (PRP): Applicable for supplying power to varying electrical load for unlimited hours. Prime Power (PRP) is in accordance with ISO 8528. Ten percent overload capability is available in accordance with ISO 3046, AS 2789, DIN 6271 and BS 5514. Base load (continuous) power (COP): Applicable for supplying power continuously to a constant electrical load for unlimited hours. Continuous Power (COP) in accordance with ISO 8528, ISO 3046, AS 2789, DIN 6271 and BS 5514. This outline drawing is for reference only. See respective model data sheet for specific model outline drawing number. po not use for Installation design Model Dim "A" mm (in.) Dim "B" mm (in.) Dim "C" mm (in.) Set Weight* Set Weight' d be wet kg (Ibs) DSOAA 2656 (104.6) 1100 (43.3) 1549 (81) 1180 (2602) DSOAB DSOAC 2658 (104.6) 1100 (43.3) 1549 (61) 1263 (2784) • Note: Weights represent a set with standard features. See outline draw ngs for weights of other configurations. 7 Cummins Power Oeneratlon 1400 73" Avenue N.E. Minneapolis, MN 55432 USA Telephone: 763 574 5000 Fax: 763 574 5298 *14 Peclt;*. 39-091* ckrficiesL. Wanting: Back feed to a utility system can cause electrocution and/or property damage. Do not connect to any building's electrical system except through an approved device or after building main switch is open. Our energy working for Y�U.TM www.cumminsoower.com 02010 Cummins Power Generation Inc. Ail rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Ina PowerConvnand. Ampsernry and 'Our energy worldng for you.' are trademarks of Outman Power Generation. Other company, product or service names may be trademarks or service =AM of others. spedflcatore are =bleat to change without notice. S1544h (9/10) Power Generation 1 -. 8 _ A Pr• /EIIGIAEEI( { Iii : } [J [ a n Cl:Ll u t-lr[Y' --. li Ems „ r.1 11 IMIoFI mri 17,CfaioNISHEI■=qi?1.1t. " ""'f'a • l "' SEISMIC INSTALLATIONS NOTES: I. THE DESIGN OF POST- INSTALLED ANCHORS IN CONCRETE USED FOR THE COMPONENT ANCHORAGE IS PRE - QUALIFIED FOR SEISMIC APPLICATIONS IN ACCORDANCE WITH 'ACI 355.2' AND DOCUMENTED IN A REPORT BY A REPUTABLE TESTING AGENCY. (EX. THE EVALUATION SERVICE REPORT ISSUED BY THE INTERNATIONAL CODE COUNCIL) 2. ANCHORS MUST BE INSTALLED TO AN EMBEDMENT DEPTH AS RECOMMENDED IN THE PER - QUALIFICATION TEST REPORT AS DEFINED IN NOTE I. FOR 'IBC 2000' AND 'IBC 2003' APPLICATIONS. THE MINIMUM EMBEDMENT MUST BE 8X THE ANCHOR DIAMETER. 3. ANCHORS MUST BE INSTALLED IN MINIMUM 1000 PSI COMPRESSIVE STRENGTH NORMAL WEIGHT CONCRETE. CONCRETE AGGREGATE MUST COMPLY WITH 'ASTM INSTALLATION IN STRUCTURAL LIGHTWEIGHT CONCRETE IS NOT PERMITTED UNLESS OTHERWISE APPROVED BY THE STRUCTURAL ENGINEER OF RECORD. 4. ANCHORS MUST BE INSTALLED TO THE TORQUE SPECIFICATION AS RECOMMENDED BY THE ANCHOR MANUFACTURER TO OBTAIN MAXIMUM LOADING. S. ANCHORS MUST BE INSTALLED IN LOCATIONS SPECIFIED ON THIS INSTALLATION DRAWING. 6. WIDE WASHERS MUST BE INSTALLED AT EACH ANCHOR LOCATION BETWEEN THE ANCHOR HEAD AND EQUIPMENT FOR TENSION LOAD DISTRIBUTION, WIDE WASHERS MUST BE SERIES 'W' OF AMERICAN NATIONAL STANDARD TYPE 'A' PLAIN WASHERS IANSI 818.22.1-1965. R1975) WITH THE NOMINAL WASHER SIDE SELECTED TO MATCH THE SPECIFIED NOMINAL ANCHOR DIAMETER. REQUIREMENTS FOR GENSETS 0 - D3OAA, D30ACk• DSGAC DSFAE, DSFAD, OSFAC, DSFAB, DSFAA PARAMETERS 2009/2006 IBC 2009/2006 IBC 2003/2000 IBC 2003/2000 Sds(=1.93 1.93 <Sds< =2.28 3434=2.61 Sds4=2.66 Ip4=1.5 Ip < =1,5 Ip4=1.5 Ip< =1.5 op /Rp< =1.25 op JRp< =1.25 op/44.1.0 dp /Rp< =1.D 0 /1r :1.00 194=0.T7 Lf8c =1.p LIhc =0.97 7. CONCRETE FLOOR SLAB AND CONCRETE HOUSEKEEPING PADS MUST BE DESIGNED AND REBAR REINFORCED FOR SEISMIC APPLICATIONS IN ACCORDANCE WITH 'ACI 318'. THE DESIGN LOADS SHALL BE TAKEN AS THOSE PUBLISHED ON THIS CUMMINS INSTALLATION DRAWING. W - A B. ALL WITH THE PRE-QUALIFICATION TEST REPORT AS DEFINED IN NOTE I OR A MINIMUM OF I SR THE ANCHOR EMBEDMENT DEPTH, WHICHEVER IS LARGEST. 9. ALL HOUSEKEEPING PADS MUST BE DOWELLED OR CAST INTO THE BUILDING STRUCTURAL FLOOR SLAB AND DESIGNED FOR SEISMIC APPLICATION PER 'ACI 318' AND AS APPROVED BY THE STRUCTURAL ENGINEER OF RECORD. . 10. WALL MOUNTED EQUIPMENT MUST BE INSTALLED TO A REBAR REINFORCED STRUCTURAL CONCRETE WALL THAT IS SEISMICALLY. DESIGNED AND APPROVED BT THE ENGINEER OF RECORD TO RESIST THE ADDED SEISMIC LOADS FROM COMPONENTS BEING ANCHORED TO THE WALL. INSTALLED TO REBAR REINFORCED STRUCTURAL CONCRETE FLOOR REQUIREMENTS FOR GENSETS DSHAD, OSHAC, DSHAB DGHE, DGHD, DGGD DSKCA, DSKBA, DSKAB, DSKAA GGLB, GGLA) (GGMC, GGMB, GGNA GGHH, GGHG, GGHF, GGHE, GGFE, GGFD GGPA, GGPB, GGPC II. FLOOR MOUNTED EQUIPMENT (WITH OR WITHOUT A HOUSEKEEPING PAD) MUST BE A THAT IS SEISMICALLY DESIGNED AND APPROVED BY THE ENGINEER OF RECORD TO RESIST THE ADDED SEISMIC LOADS FROM COMPONENTS BEING ANCHORED TO THE FLOOR. IBC 2009 IBC 2006 IBC 2003 IBC 2000 12. WHEN INSTALLING TO A FLOOR OR WALL, REBAR INTERFERENCE MUST BE CONSIDERED. Sdi4=2.26 Sd6: :U.28 Sds. =2.66 Shcc =2.16 13. ATTACHING SEISMIC CERTIFIED EQUIPMENT TO ANY FLOOR OR WALL OTHER THAN THOSE CONSTRUCTED OF STRUCTURAL CONCRETE AND DESIGNED TO ACCEPT THE SEISMIC LOADS FROM SAID EQUIPMENT IS NOT PERMITTED BY THIS SPECIFICATION AND BEYOND THE SCOPE OF THIS CERTIFICATION. PARAMETERS Ip< =1.5 Ip < =1.S Ipc =1.S Ip < =1.5 SEISMIC CERTIFIED EQUIPMENT TO ANY FLOOR CONSTRUCTED OF LIGHT WEIGHT CONCRETE OVER STEEL DECKING IS NOT PERMITTED BY op /Rp< =1 -25 op /Rp< =1.25 ip /Rp4=1.0 e0Rp4=1.0 16. ATTACHING THIS SPECIFICATION AND BEYOND THE SCOPE OF THIS CERTIFICATION. i /Ic =I.O L /h< =1,0 2/h4:1.0 E /h < =1.D 15. ATTACHING SEISMIC CERTIFIED EQUIPMENT TO ANT CONCRETE BLOCK WALLS OR CINDER BLOCK WALLS IS NOT PERMITTED BY THIS SPECIFICATION AND BEYOND THE SCOPE OF THIS CERTIFICATION. 16. INSTALLATION UPON A ROOFTOP STEEL DUNNAGE SHALL BE COORDINATED WITH THE STRUCTURAL ENGINEER OF RECORD. IT. INSTALLATION UPON ANT ROOFTOP CURB SHALL BE COORDINATED WITH THE CURB MANUFACTURER AND THE STRUCTURAL ENGINEER OF RECORD. ANT CURB OR CONCRETE PAD THAT SUPPORTS THE GENSET UNIT IS BEYOND THE SCOPE OF THIS CERTIFICATION. 18. CONNECTIONS TO THE EQUIPMENT. INCLUDING BUT NOT LIMITED TO CONDUIT. WIRING FROM CABLE TRAYS, OTHER ELECTRICAL SERVICES, DUCTING. PIPING SUCH AS EXHAUST. STEAM, WATER, COOLANT. REFRIGERANT, FUEL, OR OTHER CONNECTIONS, ARE THE RESPONSIBILITY OF THE INSTALLING CONTRACTOR AND BEYOND THE SCOPE OF THIS DOCUMENT. TYPICAL REQUIREMENTS FOR THESE CONNECTIONS ARE STATED IN THE EQUIPMENT INSTALLATION MANUAL. SPECIAL CONSIDERATIONS FOR SEISMIC APPLICATIONS ARE AS FOLLOWS; CONNECTIONS TO NON- ISOLATED COMPONENTS OR EQUIPMENT MAY BE INSTALLED AS TYPICAL FOR THAT PARTICULAR APPLICATION, CONNECTIONS TO ISOLATED COMPONENTS (EX. BREAKER BOX BOLTED DIRECTLY TO AN ISOLATED GENSET) OR ISOLATED EQUIPMENT (EX. AN ENCLOSED GENSET MOUNTED ON EXTERNAL ISOLATORS) MUST BE FLEXIBLY ATTACHED. THE FLEXIBLE ATTACHMENT MUST PROVIDE FOR ENOUGH RELATIVE DISPLACEMENT TO REMAIN CONNECTED TO THE EQUIPMENT AND FUNCTIONAL DURING AND AFTER A SEISMIC EVENT. ' eez.r. ' 4. c.Mail Coma p� OwIKO r•o' ^r ®8 o i.Uloluo INSTALLATION, GENSET SLINK KOP1�11f O�r.l1 iii « «:wi- s.'r 11.wa.r a.sr u ....AS .11.11.1l ...I-UMW' ,iC.Sd6 H-11 •H uII.. PGF IN NU • ,.r auI In ALL pl A029J530 Il4! 6 I 6 i 4 1` i 1 2 I I h Put Name: A020.130 Roll C Sheet 1 ode D _ 0 9 _ A Pr.IENSINEEp N 1 6 1 4' <l. 3 1 2 1 1 tw vt 44 01. Oa D ,. C F S N IlL -IMa/1 t 8 Y010. 11 N/tl la GRADE MOUNTED GENERATOR SETS I CUMMINS GENSET IgDEL RANGE CONFIGURATION CONCRETE ANCHORS ANCHOR EMBEDMENT ANCHOR SPACING DISTANCE TO THE NEAREST EDGE CONCRETE SLAB THICKNESS I PRIMO, DSNAC, 05148 (045144.2.28) SKID /TAXI / ENCLOSURE (OTT 41 3/4' DIA, USP DOC34.500L CONCRETE AMCNRf TNIU TNF BASE NAIL MOUNTING X0160. $• MIN. 127tH MIN. IS' MIN. • )sl.. YIN, 7.5' MIN. 100.51n MIN. 7.5' X11. 110,5.. NIN. 2 DSNAO. ()SHAG, OSNAB (045144.2.281 SAID 11TB OR WITHOUT EtlCLOSUIE IOTT 4) 314' DIA. NILTI IIS -TI COURETE ANCNOIS TAN THE BASE RAIL MOUNTING HOLES 3-3/4' YIN. 1S.25s MIX. 1.5' NIA, 150,5.. YIY. 10' MIN. 25444 MIX. f' MIN. 132.1.. MIN. 3 10<S14<a t.f3) SKID /TAIIKlflCIOSUHE (OTT 4) 3/4' DIA, OSP DUC3I.505L CONCRETE ANCHORS TRIO TIE BASE RAIL IDUYTING NOTES. S' MIX. 127.. MIN. 7.5' ION. I10.5m MIN. 1.5' MIN. If0.5.. NIN. e. e.., .,.,,�, 0364[ 4 MGM, NUB, OSGAC 1045444.1.631 SAID SITS 01 WITNWT ENftOSOgE (OTT 41 3/4' DIA. UV OUC34 -500! CONCRETE MICAS TNRU THE BASE RAIL MOUNTING HOLES. 3' SIN. 127' MIN. IS' MIY. J81m MIY. 7.3• ■MIY. IfO.lm YIM. 7.3' MI1. If0.5m MIT, 5 DSFAE, OSFAD DSFN, DSFAO, OSFAA. Wx�, EGOS. DWD IA43414.2.261 SKID /TANK /ENCLOSURE (OTT 4) 1/4' DIA. IILTI K8-TO CONCRETE ANCHOR! TNIU TIE SASE RAIL MOWTIKN MOLES. 3 -3/4' III. 15.25.. YIN. 7.5' NIN. It0.5m YIY. 10' NIN. 254.. NIN. t' NIT. 152.4m MIN. 4 DSFAE, DSFAD, OSFAC, MEAN. OSFAA, OGRE, MHO, D660 (045844:2.28) SAID WITH 00 WITHOUT ENCLOSURE (OTT 4) 3 /4' DIA. NIL71 11B-T2 [OICRETE AMCXOIIS TNRU THE BASE RAIL MOUNTING MOLES- 3-314' YIN. 3 -3/44' YIN. 1.5' YIN. If0.5m MIN. 10' MIN. 2Slm MIY, t• MIN. IS2.M MIA. 7 DSKCA. 03013A, DSUNN. OSIAA 10 <$1s< -2.20) S1110 /TAXI / ENCLOSURE 1071 4) 3 /4' 01A. NILTI KB -TO CONCRETE ANCICRS TIRO THE BASE RAIL WONTING IDLES. 3.3/4' YIN. 15.250m NIL 1.5' MIN. 1l0.5m MIN. 10' MIN. 251.. MIX. f' YIN. 152.44141111. d DSKCA, 750SA. DSKCB. 115[44 1045144_2.281 SKID INTN OH 0171017 ENCLOSURE (OTT 41 3/4' 01A. HILTI KO-TO COMCNETE LICHENS TYRO TINE BASE RAIL MOUNTING HOLES. 3 -3 /4' YIN. $5.25.. NIX. 1.5' MIN. I10,3aw III. 10' MIN. 254.. MIN. t' MIN. 152 -mo YIN. 9 WW1, GONG. GOOF, 66X5 It <SIs <_2. 20) SKID WITH OR WITHOUT ENCLOSURE (OTT 41 3/4' DIA. NILTI :D -T2 CONCRETE ANCHORS TINS THE SASE RAIL NOUYTIIG HOLES. 7.3/4' MIN. 15.25.. MIN. ]. S' YIN, (NO,Sm MIN. 10' MIX. 251' NIN. t' MIN. l22.4m YIN. 10 NOTE. GEED (0<Sb<c2.2E) SIID WITH OR YITNOUT ENCLOSURE (OTT (I 214' DIA. NILTI IB•TE CORCNETE ANCHORS TRIO THE 613E NAIL IIOIIITIYN HOLES. 3.3//• MIN. 3.3 /4' MIN. T,5' SIR. 111.5.. 0111. 10' YIN, 054..4 NIL {' III. (S2.4m MIN. II GGMC, 0405. O6MA, 6GYD /0<S4as_2.58) SAID WITH OW WITNWT ENCLOSURE IOTT 41 515' DIA. NILTI K0•T2 CONCRETE AYCNOR5 THIS THE SASE RAIL MOUNTING MOLES. 3-1/8' NIA. 7/. 70m MIS. 6-II4' MI K. ISd.13m MIY, 1' MIT. 171.8.. MIN. 5' MIN. 121.. YIY, 12 GELS. 66LA 10438.442.261 SAID WITH 02 W17YWT ENCLOSURE IOTT 41 3 /4' DIA. NILTI (13-TO COICRE TE ANCHORS TH9U TIE BASE RAIL MOUIIT106 HOLES. 7.311' III. 3.3/4' HIM. 1, S' MIN. IN,Sm MIY. 10' SIN. 254.. MIN. {' SIN. ISt./m MIN. 13 GGPA. 6650, 66PC 104Sts4.2.27) SKID WIEN OR WITHOUT ENCLOSURE (OTT 41 5/8' DIA. HILTI 15.13 CONCRETE ANCtlORS TNHU THE BASE RAIL MOUNTING POLES. IN 3.1/6' Nil 7..3614 MIN. 31' YIN• ff r 0.l Y1N, {' Yll. .. 152.4 RIM. S' NIN. ISi./m MIT, A WA& -. 5.1[05551 g ..N w1( PBF Ow Pam 6mmEN 4p°'.W '.4 - • s''i.lY4:li : .O,w M.Eam .E..... �11.rllw +.my.m ..mW1... H-tLINNm .Luau. INSTALLATION. GENSET sumac EOIIIMIS 11 A029J530 14:41? 1ms�a °N -fI -N 4m.. ALL ma:. ..1 4c.4, 1/I W 1 S I 4 T 6 I 2 I 1 DIW.A'q MOW A029J531 P•WWK: C Pat WIN: AL029J230 RWNdon: C Moot 3 of w • • °"� a � Shod T Oft – C Pr.ICNOINft+ W I T .f, jp -11tni n wdw 1 IAMMO WPM FM WPM /41 � •1 Ut t.l 0IF 1411111 C E L C M A tR (27.71 ® 11 (1.17 - -- -- -_•- -r \ A 11111.12 :gi 1 rrloN A-A r .n 11.IM• VT TOWS) • • 1 (ll LOT f oe , IS' VT Path/ .ulr WIN• VT 'vow 0 •I. IIIN NIT Feadol 497 M FMI *AIM II•l14' MT F -111 l ' �M lig (11.51 114 14.71 CIwki,.l SIMIP 1144 r. IU1' VI FMMI.l I T 1.1 •I., 1(1( W Mosel IM,1.gF tId (_MILL} I*II 11' VT FrI.I frig NOTES: I. TAONS ARE UL -ICt / ULC- 66E1 -O7 . LISTED. TO TANS 1 LANTLI AND GENERATCO CCCI SASE 1510. REFER II LABELS AND LOCAL CODE TO DETERMINE TENTING REOUIREIIflt7 FOR DOTI COMPARTMENTS. f. SOMME FUEL TANK MONWTI WO. ELCESSI FE TWISTING OF TIE FUEL TAMI. MIEN FASTENING IT TO A FOUNDATION. W1 RESULT EE IM STRUCTURAL M FAILURE OF TIE TANI. TO INSURE TIE INSTALLATION DOES ROT ECCESSIVELT TRIST THE FUEL TANK. nil FOLLOWING PROCEDURE MIST DE CR/SERVED: 2.1 REED TO CUMMINS POPEI GENERATION 111n1��1w o o ` ITS! (11.51 fl! 135.81 , ' 1 / /,.,; j/ 1051 1 141.31 1422 (51.01 jll 771 (11,61 ' 1• -� V APPLICATION MANUAL T030 FOR GENERAL 1 M 126.11 (62.41 f ,..1f t, II1f TIr.M 1111 II SET MOUNTING GUIDELINES. ^_ 2.2 AFTER PLACING SET ON FOUNDATION, VERIFY ALL 181„ ff 11T F•rl•> COUNTING PANS CONTACT FOUNDATION. DM Fl II 2.3 TIONTEI TANI MOLD D N0011TINS FASTENERS. 3714 (I41, 41 I0 or Fork) 3 IA I two I3' MT ir.l•1 fORlEATUREON MICR IMO CATER PONT ON FUEL I..1 G M 1, 0111E11101f IN I I AMC d INCIEA. II.1-IF M,••• T.w1 SA32 roll 3MWTON 110r10E1 AN EL RICA'. CONTACT _ 1147.81 r- .I ffi - 5. L01 LCRL RECAll II TINS TANII.IWTEIT SOf 0 DS LE FUEL - S. RUPTURE USIA PITON PROVIDES Al CTRICAL CONTACT — !fif (30 21 �i - : 6� p ® CLOSURE MIEN FLUID IS PRESENT I ROSTURF 6AVI. 7. iAN0 YOlOME 2.507 LITERS t6] 6 1 IONIN4 2.771 LITERS UfANLE D. TANK OR/ MEIGIT - 1.31 31 13,000 Fbl ME =mow wiw f - IF'—_ ITN I. TRIS PAST IS WNUFACTD EI SOUACC COITROLL D, 11 I 15 181.51 IN. ALL DMEMSIOU ARE REF REACT (41 .8) feu ...,d• l: 'tiS • - .4 1.D.L1 COMM Po- 0� 1151.41 a . �� • w,.., ...� ,, ,OYI.• I.Iww,w+.arw.0 ®$ ,gr ar r, mica TANG, FUEL - mac. inn= T4MI• OS DO r axed. PGf 111ML fi NO301661 l' IT _�I .•r CS. m 2 1 • • °"� a � Shod T Oft • a I Y I 4 y 3 1 2 I 1 C 1 NADIATOR FILL 127.511 OIL FILL (D03{ 21[EN ENERAIMI ELECTRICAL 110 CONNECTIONS STUDS • OFI _ c F R A jnii70i i 1 iQsNat AQ i11tR1 jJTTi 7A �p�lp t1 1.0 F~1F1 pNl y -11-ItI • o• o a hr ; .�E, Iii NOTES: JI'•� 6iI �L�y 'T1•Y' _ - • - -:'n- �Jef`1 _ f I - + °C' I'':II I. DIMENSIONS SHOWN IM 1 1 ARE INCHES. 2. 23.1 11.01 DOLES MARKED BT ARE FOR SUBBASE FUEL TANK ATTACHMENT 01 SECURING TO 11061171116 SURFACE, OR SUPPLEMENTAL YI°SATIDN ISOLATORS. 112 130 F _ �i b' .... �- =Ji I I'r (26 MI Q [RAIK SSO 13.121 ✓:i:1. �,' (77%-v7:2-v''''':?.?-i4. -in--- ■II �I "8:::::Ii$ DIY ,__:.1151 0E SUPPLIED ENG011IEIWTERFACCEPOIYT7S THAT CAN (Tl 3. 6EMSET 3.1 FUEL RETURN LIME: 1061 Iltl 10111. SITU 1 /1 -II M ►Ti URSSEAL MALE. 3.2 FUEL SUPPLI LIME: 615 1321 LOIN WITH 1/4-16 1PEF DRESEAL MALE. 121,131 f -•7 / g',.."'; / �() 1IN 1 "i %/ j��% QKND Y�I�M�It� 6 . o o e lit 14.10 UEL RETURN SAAB FITTING FOR 316' 221 18.0 UEl STUB UP 1110.15E II 301 (20.031 ITS [1.07 4. REFER TO CIRCUIT SHEARER OUTLINE DRA °110 FOR 63.3 ELECTRICAL 5T11B•UP AREA FOR SPECIFIC BIEAIEIS. (11 4.1 REFER TO SUBBASE FUEL TANI OUTLINE MANIAC TOR ELECTRICAL STUB -OP AREA AVAILABLE WITH FUEL TANKS. OPTIONAL DUCT ADAPTER 632 1131 FUEL 700 SEE NOTE 1407 S. TABULATED RE 16NT LID CS 13 FOR 6[OE1 INtl b OPTIONS. FILTER 121.511 7XA1ST CONNECTOR 1EL SUPPLY LEC UP 3 INCH YPT 1A211-21 OAKS FITTING S(3 UP �_ SEC NOTE 3 2 SEE NOTE 4 $ 1.1 SEE NOTE 7.2 _ �T _ II �i . -, _ 11107[5X00111 1 �j�j Iiii;iliII 1'll 11 I 011 1333 OIL CULLA 117 }3.11' [ -ems kill ■) .;ii I li I 1.141'1111111R.,., ,�, a • • •a ®ice II1 .�► 1nj:.'"1 _ 500 , II 73 1311 I1� r` 1611 136 . ._ —1-a ' �[_' —�•'Q, ���. cr.,....,.., 6 0 IRCUIT MAKER IOPTIOKALI (SEE BREAKER 0611.11E FOR CO°NECTIOATI ''I '�'I =+' _— -11. -- J _ -_- TABULATION ,� ,� [ _ -_ - -- ALT DATA PEET R DIY 'A' DIN 'B• 6EV SET WET WIGHT (9 11 A Y . _ I _--I` ' ` \lam'_ llItiB L 3 \ N t0{ It1{ 119.611 i!0 121.801 IUI ttlfll J a�- - `1-wlf 34? laz 180.001 131 (21.a/1 uao <aon 0- �o� ±1'• ^r `I. I •yl 20i 1717 151.651 {12 121.601 1215 47007 133'78 12 .I7 ��ri dCIANN i [2{ I21 20 1712 152.01 f73 121.1!1 1262 (27641 �`��'_.__ — - - -- • 210 1316 153.651 631 12 4.111 1315 (26!61 320.11 [20.01 D1M_0 211 1317 154.841 635 125.001 1361 ( —00212 /213 101 155.661 01 125.071 115 (1200 f f M■ VINO NO PLEASE: NOTE: DOES pp�� W.I. NOT INCLUDE FUEL 331 DROOLAIT A1./6 + I► ._ mg • i AFT1116 sLOTI TANK WEIGHT t1.11 534 117. [21.031 130.111 . 21 117157 � 6 122. Sit 018_A •R GRAIN 121 (26•)17 UEL FILTER F179 HOUSING READY SKID BASE 121.611 1117 !CAN FACE OF BLOCK 151.611 30 04 (/3, 17 1 935 IE6. T {.167 221{ (111.57] 1 1 11 _ 1 I I I —I^e 1•�"� mama= wpm i'eli s�iZ `i�il!leil 1 I riN�vPNU `,AI,1 - `.tIR_e;�::u 7111. 1 I, :.•..•1 4.•1.1.1) .or w T.Aett ' GENSET OUTLINE ®8 —LIMNS as5�n� ,j,� , ° ,• 0�s -,at�-HI ,.a""y_u it / mrte 1 P6F 1F1711 ?I 0500.4850 11=41 g - . A 1.. X11: I/6 a ■ 5 1 4 rl` 3 I 2 1 IPro/ 1141MEEl e I e 1 4 i 1 2 I I D — O " C7FTIC0I I I.,__,...,:, fry ATP IT,r'acT, - - C € e A (121. III US2.41 •i UI}.•, •KL,AN:,:`.Ji17aOR.T(Ll(7.1 III II MID MIME MIIM MM. UM as =WWI aa�a 'IIII11111IIIII' le 111:��••luen RI II • IIiI 1111`.hze 111111.----JIIII ' 111111SIIIIIII I • I .....11111 I1Y111111MOY: IIOIOODIII if..il :11111 L11I . . • .t.`]. . • . • f .... • . . • • • . • PLEASE NOT TANK INCLUDE NOTE: DOES FUEL WEIGHT rquuna IIIIIIIJIIIIYII . T NAM J © ® © t), •. /I. •t• wwo aim a ys¢tuA °O ono= <I,..I,i, I IIIIIIIIIIIII. , • • • • I - • .. I !. ®0111/11®11=EXEILEMINI ® MIME' =',1::1=MMIWZIM■ ®: 1 ::. : OKTAM ACCESS ODOR 2 D000 SWING II DOORS) MMMICZEMBEBEXIMMEMEMMOMMEEEMUMM ® ��� I�� ® fir —r rTZl i1II 1 I ATM ao FILL ODOR OCTAL( ARE KEY LOCKABLE PAOlOG1ASLE elE iiiiii 1 I 1 J . •I .. • 4 • O O O ' . • • a • ■ ■ ■ ■ ■ a ■ ■ ■ ■ ■ ■ ■ ■ ■ a a• a a an ■ ■ a'a ■ ■ ■ ■ ■ ■ • ■ ■ ■ a ■ ■ ■ ■ ■ ■ ■ ■ _ a ■ ■ ■ ■ ■ a ■ ■ ■ • ■ 27 isms. (11.11 `` cif I . a ■ ■ • ■ Cis • • . . a - a a ■ ■ 's, ■ ■ n • • MI • a t2 I I I . _ ' • 011.1.11 52(.22 I I 1 � I I 1 p. 227 .76 ( I. a) .. . I t •F232 DMA SOUND HOUSING (STEEL) W /MUFFLER 10011 Ale 11(.7) (74.5) 2(c5.7I eTl.ls� c74.5I F233 SOUND HOUSING (ALUMINUM) W /MUFFLER (92.71 I I I I I I I I..1.... ...m. ..rMal. "a igai@1A ■ rae L ads 1M• lw 0 SM.. — e. W 1 GENSET OUTLINE 1, „ ...w ...... Ynwii°..°':1, 11.94. N.raN �-E •N ".KE�IIC L I �,� 00-02-IT_ ,.' 7.Iw.kw.s.N To2-F PSI' 111111 p j 0500_4690 llrIl i alma L1 =Am I/O �wT e I s 1 4 T 3 I A 1 I ,P.. /IKOI KO FILE COPY ' �.'1l Gen Permit No. Submittal REVISED 6300 BUILDING City of Tukwila REVIEWED FOR CODE COMPLIANCE APR 2 a 2011 City of Tukwi 4 2 BUILDING DIVISION The Power of One Cummins Northwest, LLC Washington, Oregon, Alaska & Montana Powerful Solutions. Dependable Support. Every Time RECEIVED APR 07 2011 PERMIT CENTER December 3, 2010 REVISED SUBMITTAL TO City of Tukwila FOR 6300 Building CUMMINS GENERATOR SET Model: 150 DSGAC CUMMINS AUTOMATIC TRANSFER SWITCH — POWERCOMMAND Model: OTEC 600 Project Number: 32904 Contact: Jeff Delauney Office: (425) 235 -3400 Direct: (425) 277 -5346 Fax: (425) 235 -8202 Email: jeff.delauney @cummins.com http: / /www.cumminsnorthwest.com Table of Contents Material Summary .... i Exclusions 120204 Pre-Start -Up Check List ii Warranty -Gen 1119 -0002 Warranty -ATS 1118 -0001 Generator Specification Sheet S -1544 Generator Data Sheet D -3351 Power Command Digital Generator Set Control S -1568 Seismic Certification F -2137 Exhaust Emission Data Sheet EDS -1085 Exhaust Compliance Data Sheet EPA -1119 Cooling Data MCP -172 Sound Data MSP -1057 Prototype PTS -285 Alternator Data Sheet ADS -212 Enclosure Specifications S -1012 Tank Specifications AC -185 Generator and Enclosure Outline Drawing (Pages 1 and 3) 0500 -4690 Coolant Heater Outline Drawing 0500 -4662 Fuel Tank Outline Drawing A030Y666 Overfill Protection Valve Drawing A034F054 Spill Box Drawing A034F063 High Fuel Switch Drawing A034F095 Critical Low Fuel Switch Drawing A034F242 Sender & Float Assy Drawing A034F282 Normal Vent Drawing A034F377 Installation Requirements A029J530 Circuit Breaker Outline Drawing 0500 -4668 Table of Contents Circuit Breaker Detail 0320 -2347 Wiring Diagram Genset 0630 -3629 Reconnect Diagram Genset (page 1) 0630 -3622 Interconnect Diagram (page 7) 0630 -2810 Wiring Specification RS- 485WIRING Transfer Switch Specification Sheet S -1464 Cabinet Outline Drawing 0310 -1307 Wiring Diagram 0630 -2766 Accessories Annunciator Specifications S -1472 SENS Battery Charger Data SENSIOA Interstate Battery Specifications 4D MATERIAL SUMMARY Cummins Diesel Generator Set Model 150 DSGAC KW: 150 Hertz: 60 Phase: 3 Voltage: 277/480 Equipped with but not limited to the following: • Duty Rating- Standby Power • Listing -UL 2200 • Certified- Seismic, IBC2000 ,2003,2006,SS= 2.90g,Rooftop • Emission Certified, EPA, Tier 3,NSPS Compression Ignition Stationary Emergency • Enclosure - Steel,Sound Attenuated, Level 3, (Sound to avg 69.6 dba @ 23') • Voltage- 277/480,3 Phase,Wye,4 Wire • Alternator- 60Hz,12 Lead, Broad Range, Full 1 Phase Output,105C • Genset Control - PowerCommand 2.2 • Exciter /Regulator -Pmg, 3 Phase Sensor • Engine Governor - Electronic, Isochronous Only • Display Language - English • Control Mounting -Left Facing • Meters -AC Output, Analog • Relays- Genset Status, User Configured • Alarm - Audible, Engine Shutdown • Signals - Auxiliary, 8 Inputs /8 Outputs • Circuit Breaker Or Entrance Box -Left Side Only • CircuitBreaker- 225A,Left,3P,600/525V,TM,80% UL/IEC • Wind Rating -150 MPH, Steel Housing • Brackets - Genset Overhead Lift, Two Point, Removable • Skidbase- Housing Ready • Separator - Fuel/Water • Engine Starter - 12 VDC Motor • Battery Charging Alternator - Normal Output • Engine Cooling -High Ambient Air Temperature • Shutdown -Low Coolant Level • Extension- Engine Coolant Drain • Coolant Heater -120 Volt Ac, Single Phase • Engine Air Cleaner -Heavy Duty • Genset Warranty- Standby Basic Extended, 5 Years / 1,500 Hours • Rack -Battery • Extension -Oil Drain • Fuel Tank, Dual Wall Sub - base- 683ga1 (QSB5G3) • Spill Fill Box, 5.3 gallon (2 "npt) • High Fuel Switch, 41.1" • Critical Low Fuel Switch - 20.9" • Fuel gauge Sender & Float Assembly, 22.1" • Normal Vent, 108" 2 "npt • Over Fill Prevention Valve,w /14.57" Down Tube Cummins Automatic Transfer Switch - PowerCommand Model OTEC 600 Amps: 600 Voltage: 480 Poles: 3 Equipped with but not limited to the following: • Poles -3 • Listing -UL 1008 /CSA Certification • Frequency -60 Hertz • System -3 Phase,3 Wire Or 4 Wire • Voltage -480 Vac • Cabinet -Type 1 • Auxiliary Relay- Switch In Emergency Position -12VDC • Auxiliary Relay- Switch In Normal Position -12VDC • Genset Starting Battery-12VDC • Cover - Switch Control, Security • Clock- Exercise, External • Terminal Block -30 Points • Transfer Switch Warranty -5 Yr Basic Also Included • Annunciator • Engine Starting Battery • Battery Charger • Operation & Maintenance Manuals, 3 Sets • Shop Upfit, Mount Fuel Tank, Battery Charger • Delivery to Job Site, Off Loading Not Included • Startup & System Testing, Includes 2 Hour Load Bank Test Cummins Northwest, LLC Exhaust System: Fuel System: Cooling System: Electrical: Mounting: Miscellaneous: Documentation: Taxes and Permits: Attachment to Quotation - Exclusions- All off- engine piping, hangers, flanges, gaskets, bolts, insulation, and other materials associated with exhaust system installation. All off - engine fuel piping, valves, coolers, filters, pumps, fittings, fuel storage tank & senders, fuel for testing and initial fill of fuel. Intake louvers, exhaust louvers, air dampers, sheet metal ducting, flex adapters, sound attenuators /baffles, coolant fill for remote radiators & piping All off - engine wiring, field terminations of wiring, and lugs other than those detailed in our submittal. Generator mounting bolts and anchors. Vibration isolators (if included) for the generator will be shipped loose for installation at the jobsite by others. Third party electrical testing and certification, seismic calculations, coordination studies, stamped engineering calculations, emissions testing, all other services and material not specifically listed in the preceding quotation. Unless stated otherwise, three sets of 0 & M manuals are available upon request. Electronic documentation may be available at an additional cost Any applicable sales tax, permits, licenses. All items listed are excluded and will only be supplied by Cummins Northwest, LLC if agreed upon, in writing, by a sales representative for Cummins Northwest, LLC. -Terms and Conditions- • This offer and quotation incorporates and is contingent upon acceptance of the terms and conditions in the standard Sales Order of Cummins Northwest, LLC. Purchase Orders or other documents with terms and conditions that are inconsistent with the CNW standard Sales Order will not be accepted unless agreed to in writing by an officer of Cummins Northwest, LLC. • Prices are valid for 30 days • If included in the quotation, all on -site startup, testing and training assumes weekdays, during standard CNW business hours. Additional charges may be added for work requested to be done on overtime. weekends. and holidays. • F.O.B. factory, freight allowed to lobsite. off - loading Is not Included • Factory direct shipments require credit approval prior to shipment • Terms are C.O.D. or net 30 days upon approval of credit • Equipment held for longer than 30 days may be charged a monthly storage fee • Cancellation charges are 25% minimum after release of order 120204 rev. 2/07 North t Cummins Northwest: LLC 811 SW Grady Way (98055) PO Box 9811 Benton, WA 98057 -3000 Phone (425) 235 -3400 Fax (425) 235 -8202 Project Name: Project Number: GENERATOR START -UP CHECK LIST If the equipment is not ready for start-up and testing, the installer will be responsible for all costs associated with the initial site visit. Start-up services will not be performed by Cummins Northwest, unless this form is returned a minimum of ten (10) business days before scheduled start-up. Please review your installation and respond to the check list below: *1. Utility power available and connected to ATS / MTS (Don't connect door plug to harness) 2. Owner / Tenant has been notified of the start -up date. 3. Can emergency loads be transferred to generator at start-up? *4. Generator mainline circuit breaker connected to ATS / MTS *5. All DC and data interconnect wires run and terminated per submittal specifications. 6. Fuel supply connected to engine with approved flexible lines. 7. Fuel available on -site and ready for testing. 8. Gas plumbing and sizing completed in accordance with submittal specifications. 9. Natural Gas and / or Propane plumbing requires a minimum 7 " -13" of water column. 10. Propane tank set up for liquid or vapor withdrawal. 11. Exhaust system installation complete including all piping and insulation. *12. Fuel day tank power connected. (Do Not Energize Circuit) 13. Remote radiator, piping, expansion tanks installed flushed, filled with coolant. *14. Engine coolant heater connected to utility (Do Not Energize Circuit) 15. Generator and isolators mounted to pad properly. 16. Radiator discharge air exhaust duct installed. 17. Intake and exhaust louvers installed and operational. 18. Generator battery / batteries on site. (Do Not Energize Circuit) *19. Battery charger power connected (Do Not Energize Circuit) 20. Other: YES NO * Items 1, 4, 5, 12, 14 819 - Referenced wiring must be terminated without exception. CNW is not allowed by RCW 19.28, WAC 298 -46A & WAC 296 -401B to initially terminate this wiring. Once terminated, CNW can change or correct the wiring. Interconnect Wiring: All interconnect wiring must be installed per Cummins Power Generation interconnect wiring drawing recommendations. Fuel Plumbing: Recommended fuel line material for diesel systems is schedule 40 black iron pipe. Exhaust Piping: Recommended exhaust pipe material is schedule 40 black iron pipe. The undersigned confirms equipment is ready for startup: Return to CNW Project Manager: Printed Name Signature Date Phone: Company: Fax: Phone #: Email Address: Fax #: ii Limited Standby 5 Year or 1,500 hour Basic Extended Warranty - L030 Commercial Generating Set When purchased, this limited extended warranty applies to Cummins Power Generation® branded commercial generating sets and associated accessories (hereinafter referred to as "Product "). This warranty covers any failures of the Product, under normal use and service, which result from a defect in material or factory workmanship. Warranty Period: The warranty start date is the date of initial start up, first rental, demonstration or 18 months after factory ship date, whichever is sooner. The coverage duration is 5 years from warranty start date or 1,500 hours or whichever occurs first. Emergency Standby Power (ESP) is defined as the maximum power available during a variable electrical power sequence, under the stated operating conditions, for which a generating set is capable of delivering in the event of a utility power outage. The permissible average power output over 24 hours of operation shall not exceed 70% of the ESP. Cummins Power Generation® Responsibilities: In the event of a failure of the Product during the extended warranty period due to defects in material or workmanship, Cummins Power Generation® will only be responsible for the following costs: • All parts required to repair the Product. Effective Date: 01- October -2009 Page 1 of 2 Owner Responsibilities: The owner will be responsible for the following: • Notifying Cummins Power Generation® distributor or dealer within 30 days of the discovery of failure. • Installing, operating, commissioning and maintaining the Product in accordance with Cummins Power Generation ®'s published policies and guidelines. • Providing evidence for date of commissioning. • Providing sufficient access to and reasonable ability to remove the Product from the installation in the event of a warrantable failure. In addition, the owner will be responsible for: • Incremental costs and expenses associated with Product removal and reinstallation resulting from non - standard installations. • Costs associated with rental of generating sets used to replace the Product being repaired. • Costs associated with labor overtime and premium shipping requested by the owner. • Labor and travel after the base warranty period expires. • All downtime expenses, fines, all applicable taxes, and other losses resulting from a warrantable failure. Limitations: This limited extended warranty does not cover Product failures resulting from: • Inappropriate use relative to designated power rating. • Inappropriate use relative to application guidelines. • Normal wear and tear. • Improper and /or unauthorized installation. • Owner's or operator's negligence, accidents or misuse. • Lack of maintenance or unauthorized repair. • Noncompliance with any Cummins Power Generation® published guideline or policy. • Use of improper or contaminated fuels, coolants or lubricants. • Improper storage before and after commissioning. 1119 -0002 (Issue 2) • Owner's delay in making Product available after notification of potential Product problem. • Use of steel enclosures within 60 miles of the coast of salt water when aluminum or an alternate non- corrosive material enclosure option is available. • Replacement parts and accessories not authorized by Cummins Power Generation ®. • Use of Battle Short Mode. • Owner or operator abuse or neglect such as: operation without adequate coolant or lubricants; overfueling; overspeeding; lack of maintenance to lubricating, cooling or air intake systems; late servicing and maintenance; improper storage, starting, warm -up, run -in or shutdown practices, or for progressive damage resulting from a defective shutdown or warning device. • Damage to parts, fixtures, housings, attachments and accessory items that are not part of the generating set. This limited extended warranty does not cover costs resulting from: • Difficulty in gaining access to the Product. • Repair of cosmetic damage to enclosures. Items not covered by this limited extended warranty: • Batteries • Enclosures • Coolant heating elements • Maintenance items Aftertreatment component failures www.cum m inspower.com Effective Date: 01- October -2009 Page 2 of 2 CUMMINS POWER GENERATION® RIGHT TO FAILED COMPONENTS: Failed components claimed under warranty remain the property of Cummins Power Generation ®. Cummins Power Generation® has the right to reclaim any failed component that has been replaced under warranty. THE WARRANTIES SET FORTH HEREIN ARE THE SOLE WARRANTIES MADE BY CUMMINS POWER GENERATION ® IN REGARD TO THE PRODUCT. CUMMINS POWER GENERATION® MAKES NO OTHER WARRANTIES, EXPRESS OR IMPLIED, OR OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT IS CUMMINS POWER GENERATION® LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES. This limited extended vrranty shall be enforced to the maximum extent permitted by applicable law. This limited extended warranty gives the owner specific rights that may vary from state to state or from jurisdiction to jurisdiction. Product Model Number: Product Serial Number: Date in Service: 1119 -0002 (Issue 2) Limited Standby 5 Year Basic Extended Warranty — G006 Transfer Switch and Paralleling Systems When purchased, this limited extended warranty applies to all Cummins Power Generation® branded Transfer Switches, Paralleling Systems and associated accessories (hereinafter referred to as "Product "). This limited extended warranty covers any failures of the Product, under normal use and service, which result from a defect in material or factory workmanship. Warranty Period: The limited extended warranty start date is the date of commissioning', demonstration or 18 months after factory ship date, whichever is sooner. The coverage duration is 5 years from warranty start date. t Date of commissioning not to exceed date of Generator Set initial start-up. Cummins Power Generation@ Responsibilities: In the event of a failure of the Product during the limited extended warranty period due to defects in material or workmanship, Cummins Power Generation® will only be responsible for the following costs: • All parts required to repair the Product Effective Date: 01- October -2009 Owner Responsibilities: The owner will be responsible for the following: • Notifying Cummins Power Generation® distributor or dealer within 30 days of the discovery of failure. • Installing, operating, commissioning and maintaining the Product in accordance with Cummins Power Generation ®'s published policies and guidelines. • Providing evidence for date of commissioning. • Providing sufficient access to and reasonable ability to remove the Product from the installation in the event of a warrantable failure. In addition, the owner will be responsible for: • Incremental costs and expenses associated with Product removal and reinstallation resulting from non - standard installations. • Costs associated with rental of power generating equipment used to replace the Product being repaired. • Costs associated with labor overtime and premium shipping requested by the owner. • Labor and travel after the base warranty period expires. • All downtime expenses, fines, all applicable taxes, and other losses resulting from a warrantable failure. Limitations: This limited extended warranty does not cover Product failures resulting from: • Inappropriate use relative to designated power rating. • Inappropriate use relative to application guidelines. • Non - conformance to applicable industry standards for installation • Normal wear and tear. • Improper and/or unauthorized installation. • Owner's or operator's negligence, accidents or misuse. • Lack of maintenance or unauthorized repair. • Noncompliance with any Cummins Power Generation® published guideline or policy. • Improper storage before and after commissioning. • Owner's delay in making Product available after notification of potential Product problem. • Use of steel enclosures within 60 miles of the coast of salt water when aluminum or an alternate non- corrosive material enclosure option is available. ■ Replacement parts and accessories not authorized by Cummins Power Generation ®. ■ Owner or operator abuse or neglect such as: late servicing and maintenance and improper storage. • Damage to parts, fixtures, housings, attachments and accessory items that are not part of the transfer switch or paralleling system. This limited extended warranty does not cover costs resulting from: • Difficulty in gaining access to the Product. • Repair of cosmetic damage to enclosures. CUMMINS POWER GENERATION® RIGHT TO FAILED COMPONENTS: Failed components claimed under warranty remain the property of Cummins Power Generation ®. Cummins Power Generation® has the right to reclaim any failed component that has been replaced under warranty. www.cumminspower.com Effective Date: 01- October -2009 THE WARRANTIES SET FORTH HEREIN ARE THE SOLE WARRANTIES MADE BY CUMMINS POWER GENERATION ® IN REGARD TO THE PRODUCT. CUMMINS POWER GENERATION® MAKES NO OTHER WARRANTIES, EXPRESS OR IMPLIED, OR OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. IN NO EVENT IS CUMMINS POWER GENERATION® LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES. This limited extended warranty shall be enforced to the maximum extent permitted by applicable law. This limited warranty gives the owner specific rights that may vary from state to state or from jurisdiction to jurisdiction. Product Model Number: Product Serial Number: Date in Service: Diesel generator set QSB7 series engine Iecif Ica tioinTshee kW 150 1cW 60 H Description Cummins Power Generation commercial generator sets are fully integrated power generation systems providing optimum performance, reliability and versatility for stationary standby and prime power applications. Codes may not be available with all model configurations - consult factory for availability. This generator set is designed in facilities certified to ISO 9001 and manufactured in facilities certified to ISO 9001 or ISO 9002. The Prototype Test Support (PTS) program verifies the performance integrity of the generator set design. Cummins Power Generation products bearing the PTS symbol meet the prototype test requirements of NFPA 110 for Level 1 systems. All low voltage models are CSA certified to product class 4215 -01. The generator set is available listed to UL 2200, Stationary Engine Generator Assemblies for all 60 Hz low voltage models. U.S. EPA Engine certified to Stationary Emergency U.S. EPA New Source Performance Standards, 40 CFR 60 subpart IIII Tier 3 exhaust emission levels. U.S. applications must be applied per this EPA regulation. International The generator set package is available certified Building for seismic application in accordance with the Code following International Building Code: IBC2000, IBC2003, IBC2006 and IBC2009. Features Cummins° heavy -duty engine - Rugged 4- cycle, industrial diesel delivers reliable power, low emissions and fast response to load changes. Alternator - Several alternator sizes offer selectable motor starting capability with low reactance 2/3 pitch windings, low waveform distortion with non - linear loads and fault clearing short- circuit capability. Control system - The PowerCommand° 1.1 electronic control is standard equipment and provides total genset system integration including automatic remote starting /stopping, precise frequency and voltage regulation, alarm and status message display, output metering, auto - shutdown at fault detection and NFPA 110 Level 1 compliance. The optional PowerCommand 2.2 control is UL 508 Listed and provides AmpSentry- protection. Cooling system - Standard integral set - mounted radiator system, designed and tested for rated ambient temperatures, simplifies facility design requirements for rejected heat. Enclosures - Optional weather protective and sound attenuated enclosures are available. NFPA - The genset accepts full rated load in a single step in accordance with NFPA 110 for Level 1 systems. Warranty and service - Backed by a comprehensive warranty and worldwide distributor network. 002010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry and ''Our energy working for you' are trademarks of Cummins Power Generation. Other company, product or service names may be trademarks or service marks of others. Specifications are subject to change without notice. S-1544h (9/10) Standby rating Prime rating Continuous rating Data sheets 4 Model 60 Hz kW IkVAI 50 Hz kW IkVAI 60 Hz kW /kVA% 50 Hz kW IkVAI 60 Hz kW 1kVA1 50 Hz kW IkVA1 60 Hz 50 Hz DSGAA 100 (125) 90 (113) � � uz: D- 3349,_ a� t DSGAB 125 (156) ,,. 113 (141) a _;..:: D -3350 DSGAC 150 (188) C���4�".�y 135 (169) �o ," ',?'�� ...�` D -3351 002010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry and ''Our energy working for you' are trademarks of Cummins Power Generation. Other company, product or service names may be trademarks or service marks of others. Specifications are subject to change without notice. S-1544h (9/10) Generator set specifications Governor regulation class ISO 8528 Part 1 Class G3 Voltage regulation, no load to full load ± 1% Random voltage variation t 0.5% Frequency regulation Isochronous Random frequency variation ± 0.25% Radio frequency emissions compliance Meets requirements of most industrial and commercial applications. Engine specifications Bore 107 mm (4.21 in) Stroke 124.0 mm (4.88 in) Displacement 6.69 L (408 in') Configuration Cast iron, in -line, 6 cylinder Battery capacity 1100 amps minimum at ambient temperature of -18 °C to 0 °C (0 °F to 32 °F) Battery charging alternator 100 amps Starting voltage 12 volt, negative ground Fuel system Direct injection: number 2 diesel fuel, fuel filter, automatic electric fuel shutoff Fuel filter Single element, 10 micron filtration, spin -on fuel filter with water separator Air cleaner type Dry replaceable element Lube oil filter type(s) Spin -on, full flow Standard cooling system High ambient radiator Alternator specifications Design Brushless, 4 pole, drip proof revolving field Stator 2/3 pitch Rotor Single bearing, flexible discs Insulation system Class H Standard temperature rise 150 °C standby at 40 °C ambient Exciter type Torque match (shunt) standard, PMG optional Phase rotation A (U), B (V), C (W) Alternator cooling Direct drive centrifugal blower fan AC waveform total harmonic distortion < 5% no load to full linear load, < 3% for any single harmonic Telephone influence factor (IF) < 50 per NEMA MG1 -22.43 Telephone harmonic factor (THF) < 3 Available voltages 60 Hz Three phase line - neutral /line -line 60 Hz Single phase line - neutral /line -line • 110/190 • 110/220 • 115/200 • 115/230 Delta • 120/208 • 120/240 Delta • 127/220 • 139/240 • 220/380 • 230/400 • 240/416 • 255/440 277/480 • 347/600 • 110/220 • 115/230 • 120/240 • Note: Consult factory for other voltages. Generator set options and accessories Engine Alternator ❑ 120 V 150 W tube oil he 105 °C rise 120/240 V 1500 W coolant ❑ 125 °C rise heater ❑ 120 V 100 W anti- condensation Fuel System heater Fuel Tank, Dual Wall Sub- PMG excitation ❑ Single phase base- 683ga1 Exhaust system ❑ ❑ Heavy duty exhaust elbow ❑ Slip on exhaust connection Generator set ❑ Battery ❑ Battery charger Enclosure: aluminum, steel, weather protective or sound attenuated Main line circuit breaker Note: Some options may not be available on all models - consult factory for availability. Our energy working for YOU.,TM www. cum minspower.com 52010 Cummins Power Generation Inc. M rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry and "Our energy working for you." are trademarks of Cummins Power Generation. Other company, product or service names may be trademarks or service marks of others. Specifications are subject to change without notice. S -1544h (9/10) 0 El 0 PowerCommand Network Communications Module (NCM) Remote annunciator panel Spring isolators UL 2200 Listed 2 year prime power warranty 2 year standby power warranty 5 year basic power warranty Power Generation Control system PCC 1302 PowerCommand control is an integrated generator set control system providing voltage regulation, engine protection, operator interface and isochronous governing (optional). Major features include: - Battery monitoring and testing features and smart starting control system. - Standard PCCNet interface to devices such as remote annunciator for NFPA 110 applications. - Control boards potted for environmental protection. - Control suitable for operation in ambient temperatures from -40 °C to +70 °C ( -40 °F to +158 °F) and altitudes to 5000 meters (13,000 feet). - Prototype tested; UL, CSA, and CE compliant. - InPower PC -based service tool available for detailed diagnostics. Operator /display panel - Manual off switch - Alpha- numeric display with pushbutton access for viewing engine and alternator data and providing setup, controls and adjustments (English or international symbols) - LED lamps indicating genset running, not in auto, common warning, common shutdown, manual run mode and remote start - Suitable for operation in ambient temperatures from -20 °C to +70 °C - Bargraph display (optional) AC protection - Over current warning and shutdown - Over and under voltage shutdown - Over and under frequency shutdown - Over excitation (loss of sensing) fault - Field overload Engine protection - Overspeed shutdown - Low oil-pressure warning and shutdown - High coolant temperature warning and shutdown - Low coolant level warning or shutdown - Low coolant temperature warning - High, low and weak battery voltage warning - Fail to start (overcrank) shutdown - Fail to crank shutdown - Redundant start disconnect - Cranking lockout - Sensor failure indication - Low fuel level warning or shutdown - Fuel -in- rupture -basin warning or shutdown Our energy working for YOU.TM www.cumminsoower.com Alternator data - Line -to -line and Line -to- neutral AC volts - 3 -phase AC current - Frequency - Total kVa Engine data - DC voltage - Lube oil pressure - Coolant temperature - Engine speed Other data - Genset model data - Start attempts, starts, running hours - Fault history - RS485 Modbus interface - Data logging and fault simulation (requires InPower service tool) Digital governing (optional) C - Integrated digital electronic isochronous governor - Temperature dynamic governing Digital voltage regulation - Integrated digital electronic voltage regulator - 2 -phase line -to -line sensing - Configurable torque matching Control functions - Time delay start and cooldown - Cycle cranking - PCCNet interface - (2) Configurable inputs - (2) Configurable outputs - Remote emergency stop - Glow plug control (some models) Options Auxiliary output relays (2) ❑ 120/240 V, 100 W anti - condensation heater Remote annunciator with (3) configurable inputs and (4) configurable outputs PMG alternator excitation ❑ PowerCommand iWatch web server for remote monitoring and alarm notification (loose) Auxiliary, configurable signal inputs (8) and configurable relay outputs (8) Digital governing AC output analog meters (bargraph) - Color -coded graphical display of: - 3 -phase AC voltage - 3 -phase current - Frequency - kVa ❑ Remote operator panel PowerCommand 2.2 control with AmpSentry protection For further detail see document S -1531. ©2010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry and Our energy working for you." are trademarks of Cummins Power Generation. Other company, product or service names may be trademarks or service marks of others. Specifications are subject to change without notice. S -1544h (9/10) Power Generation Ratings definitions Emergency standby power (ESP): Q Applicable for supplying power to varying electrical load for the duration of power interruption of a reliable utility source. Emergency Standby Power (ESP) is in accordance with ISO 8528. Fuel Stop power in accordance with ISO 3046, AS 2789, DIN 6271 and BS 5514. Limited -time running power (LTP): Applicable for supplying power to a constant electrical load for limited hours. Limited Time Running Power (LTP) is in accordance with ISO 8528. Prime power (PRP): Applicable for supplying power to varying electrical load for unlimited hours. Prime Power (PRP) is in accordance with ISO 8528. Ten percent overload capability is available in accordance with ISO 3046, AS 2789, DIN 6271 and BS 5514. Base load (continuous) power (COP): Applicable for supplying power continuously to a constant electrical load for unlimited hours. Continuous Power (COP) in accordance with ISO 8528, ISO 3046, AS 2789, DIN 6271 and BS 5514. Model DSGAA DSGAB DSGAC Dim "A" mm (in.) Dim "B" mm (In.) This outline drawing is for reference only. See respective model data sheet for specific model outline drawing number. Do not use for installation design Dim "C" mm (In.) Set Weight* dry kg (Ibs) 2656 (104.6) 1100 (43.3) 1549 (61) 2656 (104.6) 1100 (43.3) Set Weight* wet kg (Ibs) 1180 (2602) 1225 (2700) 2656 (104.6) 1100 (43.3) 1549 (61) 1263 (2784) Note: Weights represent a set with standard features. Cummins Power Generation 1400 73nd Avenue N.E. Minneapolis, MN 55432 USA Telephone: 763 574 5000 Fax: 763 574 5298 See outline draw ngs for weights of other configurations. Warning: Back feed to a utility system can cause electrocution and/or property damage. Do not connect to any building's electrical system except through an approved device or after building main switch is open. Our energy working for YOU.TM www.cumminsoower.com 02010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry and `Our energy working for you.' are trademarks of Cummins Power Generation. Other company, product or service names may be trademarks or service marks of others. Specifications are subject to change without notice. S -1544h (9/10) Power Generation Model: DSGAC Frequency: 60 Fuel type: Diesel KW rating: 150 standby 135 prime Emissions level: EPA NSPS Stationary Emergency Tier 3 Exhaust emission data sheet: EDS -1085 Exhaust emission compliance sheet: EPA -1119 Sound performance data sheet: MSP -1057 Cooling performance data sheet: MCP -172 Prototype test summary data sheet: PTS -285 Standard set - mounted radiator cooling outline: 500 -4659 Optional set - mounted radiator cooling outline: v�r Optional heat exchanger cooling outline: 1/4 Optional remote radiator cooling outline: 3/4 Fuel consumption Standby 4 Prime Continuous Engine manufacturer kW (kVA) kW (kVA) kW (kVA) Ratings 150 188) 135 (169) v�r Load 1/4 1/2 3/4 Full 1/4 1/2 3/4 Full Full US gph 3.80 6.62 9.15 12.25 3.52 6.06 8.31 10.56 L/hr 14.4 25.1 34.7 46.4 13.3 22.9 31.5 40.0 Overtpeed limit, rpm Engine y l rating Continuous rating rating Engine manufacturer Cummins Maximum fuel flow with C174, Uhr (US gph) Engine model • QSB7 -G3 NR3, Configuration Cast iron, in -line, 6 cylinder e� �4:: Aspiration Turbocharged and air -to -air aftercooled 152 Gross engine power output, kWm (bhp) 186 (250) 162 (217) ;% BMEP at set rated load, kPa (psi) 1703 (247) 1532 (222) Bore, mm (in) 107 (4.21) Stroke, mm (in) 124 (4.88) t Rated speed, rpm 1800 Piston speed, m/s (ft/min) 7.4 (1464) Compression ratio 17.3:1 .S. „ ".. Lube oil capacity, L (qt) 17.5 (18.5) -` Overtpeed limit, rpm 2100 Regenerative power, kW 20.4 Fuel flow Maximum fuel flow, Uhr (US gph) 106 (28) Maximum fuel flow with C174, Uhr (US gph) Maximum fuel inlet restriction with clean filter, mm Hg (in Hg) 127 (5) Maximum return restriction, mm Hg In (in 152 ( 6 ) ©2010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. "Our energy working for you." Is a trademark of Cummins Power Generation. Specifications are subject to change without notice. D-3351d (9/10) Air Standby Q rating Prime rating Continuous rating Combustion air, m' /min (scfm) Maximum air cleaner restriction with clean filter, kPa (in H2O) Alternator cooling air, m' /min (cfm) 14.4 (510) 13.9 (490) 3.7 (15) 41.3 (1460) Exhaust Exhaust flow at set rated load, m° /min (cfm) 35.6 (1256) 33.3 (1175) Fan load, kW. (HP) Exhaust temperature, ° C (0 F) 496 (924) 474 (885) Coolant capacity (with radiator), L (US Gal) Maximum back pressure, kPa (In H2O) 10 (40) 10 (40) Cooling system air flow, m' /min (scfm) Standard set - mounted radiator cooling Ambient design, ° C (0 F) 50 (122) Amble esign, °C ( °F) Fan load, kW. (HP) 6.5 (8.7) 6.5 (8.7) �h- Coolant capacity (with radiator), L (US Gal) 23 (6.1) 23 (6.1) Cooling system air flow, m' /min (scfm) 324 (11450) 324 (11450) =: Total heat rejection, MJ /min (Btu /min) 8.52 (8071) 7.72 (7318) Maximum cooling air flow static restriction, kPa (in H2O) 0.12 (0.5) c ;. tional set- mounted radiator cooling Amble esign, °C ( °F) Fan load, k' ., (HP) Set coolant capacity, L (US Gal.) Coolant capacit ith radiator), L (US Gal.) � �� ."Z Cooling system air • m' /min (scfm) Heat rejected, jacket water circuit, MJ /min (Btu/ ' • Total heat rejection, MJ/ • (Btu/min) �.;,s Maximum cooling air flow sta . restriction, kPa (in. H2O) Heat rejected, aftercooler circuit, MJ /min (Btu/min) Optional heat exchan . -= cooling Set coolant capacity, L (US Gal.) Heat rejected, jacket water circuit, MJ /min (Btu/ ' • Heat rejected, aftercooler circuit, MJ /min (Btu/min) Heat rejected, fuel circuit, MJ /min (Btu/min) Total heat radiated to room, MJ /min (Btu/min) ��.n,,:� .0 �� ' „• ��� row' Maximum raw water pressure, jacket water circuit, kPa (psi)':�� Maximum raw water pressure, aftercooler circuit, kPa (psi) ':; a Maximum raw water pressure, fuel circuit, kPa (psi) Maximum raw water flow, jacket water circuit, Umin (US GaVmin) Maximum raw water flow, aftercooler circuit, Umin (US GaVmin) Maximum raw water flow, fuel circuit, Umin (US GaVmin 3 Minimum raw water flow at 27 °C (80 °F) inlet temp, jacket water circuit, Umin (US GaVmin) �< Minimum raw water flow at 27 °C (80 °F) inlet temp, aftercooler circuit,�� Umin (US GaVmin) .., Minimum raw water flow at 27 °C (80 °F) inlet temp, fuel circuit, Umin (US Gal/min) ` 'e ■ Raw water delta P at min flow, jacket water circuit, kPa (psi) ` Raw water delta P at min flow, aftercooler circuit, kPa (psi) Raw water delta P at min flow, fuel circuit, kPa (psi) Maximum jacket water outlet temp, °C ( °F) ■ Maximum aftercooler inlet temp. °C ( °F) Maximum aftercooler inlet temp at 25 °C (77 °F) ambient, °C ( °F) Our energy working for you: ” www.cumminsoower.cont 02010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. "Our energy working for you." is a trademark of Cummins Power Generation. Specifications are subject to change without notice. 1-3351 d (9/10) Power Generation ionai remote radiator cooling' S Standby I I Prime I I Continuous Set coolant . - - city, L (US gad Max flow rate at m- • ion head, jacket water circuit, Umin (US gaVmin) Max flow rate at max friction hea., : 4 ercooler circuit, Umin (US Heat rejected, jacket water circuit, MJ /min (Btu • Heat rejected, aftercooler circuit, MJ /min (Btu/min) Heat rejected, fuel circuit, MJ /min (Btu/min) Total heat radiated to room, MJ /min (Btu/min) ° ° Maximum friction head, jacket water circuit, kPa (psi) ? ? , ,' Maximum friction head, aftercooler circuit, kPa (psi) d d ` ` .._ ` ` Maximum static head, jacket water circuit, m (ft) ■ ■ , ,.; Maximum static head, aftercooler circuit, m ft" 4 _..''{si Weights2 Unit dry weight kgs (lbs.) Unit wet weight kgs (lbs.) 1263 (2784) Notes: ' For non- standard remote installations contact your local Cummins Power Generation representative. 2 Weights represent a set with standard features. See outline drawing for weights of other configurations. Derating factors Standby <1 Prime Engine power available up to 2621 m (8600 ft) at ambient temperature up to 40° C (104° F) and 1981 m (6500 ft) at 50° C (122° F). Consult your Cummins Power Generation distributor for temperature and ambient requirements outside these parameters. Engine power available up to 2255 m (7400 ft) at ambient temperature up to 40° C (104° F) and 1707 m (5600 ft) at 50° C (122° F). Consult your Cummins Power Generation distributor for temperature and ambient requirements outside these parameters. Ratings definitions Emergency standby power Limited -time running power Prime power (PRP): Base load (continuous) (ESP): .; (LTP): power (COP): Applicable for supplying power to Applicable for supplying power Applicable for supplying power Applicable for supplying power varying electrical load for the to a constant electrical load for to varying electrical load for continuously to a constant duration of power interruption of a limited hours. Limited Time unlimited hours. Prime Power electrical load for unlimited reliable utility source. Emergency Running Power (LTP) is in (PRP) is in accordance with ISO hours. Continuous Power (COP) Standby Power (ESP) is in accordance with ISO 8528. 8528. Ten percent overload is in accordance with ISO 8528, accordance with ISO 8528. Fuel capability is available in ISO 3046, AS 2789, DIN 6271 Stop power in accordance with accordance with ISO 3046, and BS 5514. ISO 3046, AS 2789, DIN 6271 and AS 2789, DIN 6271 and BS 5514. BS 5514. Our energy working for YOU.TM www.cumminsoower.com ©2010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. `Our energy working for you? is a trademark of Cummins Power Generation. Specifications are subject to change without notice. D-3351d (9/10) Power Generation Our energy working for YOU.TM www.cumminsoower.com ©2010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. `Our energy working for you? is a trademark of Cummins Power Generation. Specifications are subject to change without notice. D-3351d (9/10) Power Generation Alternator data Three Phase Table' 105'C 105'C 105'C 125'C 125'C 125'C 125'C 125'C 150'C 150'C 150'C Feature Code B418 B415 8304 8417 B414 B267 8246 8303 8416 8413 8419 Alternator Data Sheet Number 210 210 209 210 210 212 209 209 210 209 208 Voltage Ranges 110/190 Thru 120/208 220/380 Thru 240/416 120/208 Thru 139/240 240/416 Thru 277/480 347/600 110/190 Thru 120/208 220/380 Thru 240/416 120/208 Thru 139/240 240/416 Thru 277/480 120/208 Thru 139/240 240/416 Thru 277/480 139/240 277/480 347/600 110/190 Thru 120/208 220/380 Thru 240/416 120/208 Thru 139/240 240/416 Thru 277/480 347/600 Surge kW 165 165 166 165 165 167 166 166 165 164 164 Motor Starting kVA (at 90% sustained voltage) Shunt 563 563 516 563 563 770 516 516 563 516 422 PMG 663 663 607 663 663 920 607 607 663 607 497 Full Load Current - Amps at Standby Rating 120/208 127/220 139/240 220/380 240/416 : r 277/480 :r • r r 521 493 452 285 261 24• 226 81 Single Phase Table 105' C 105' C 125' C 125' C 125' C 150' C Feature Code B418 8415 B417 8414 8267 B413 Alternator Data Sheet Number 210 210 210 210 212 209 Voltage Ranges 120/2402 120/2402 120/2402 120/2402 120/2402 120/2402 Surge kW 152 152 152 152 164 152 Motor Starting kVA (at 90% sustained voltage) Shunt 330 330 330 330 420 305 PMG 385 385 385 385 500 360 Full Load Current - Amps at Standby Rating 120/2402 120/240' 417 625 ' Single phase power can be taken from a three phase generator set at up to 2/3 set rated 3 -phase kW at 1.0 power factor. Also see Note 3 below. 2 The broad range alternators can supply single phase output up to 2/3 set rated 3 -phase kW at 1.0 power factor. 'The extended stack (full single phase output) and 4 lead alternators can supply single phase output up to full set rated 3 -phase kW at 1.0 power factor. Formulas for calculating full load currents: Three phase output Single phase output kW x 1000 kW x Single Phase Factor x 1000 Voltage x 1.73 x 0.8 Voltage Cummins Power Generation 1400 73rd Avenue N.E. Minneapolis, MN 55432 USA Telephone: 763 574 5000 Fax: 763 574 5298 Warning: Back feed to a utility system can cause electrocution and/or property damage. Do not connect to any building's electrical system except through an approved device or after building main switch is open. Our energy working for you."" www.cumminsoower.conl 02010 Cummins Power Generation Inc. M rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. "Our energy woddng for you.' Is a trademark of Cummins Power Generation. Specifications are subject to change without notice. D-3351d (9/10) Power Generation Power } ommand® 2 ®2 control syste Control system description The PowerCommand® control system is a microprocessor -based generator set monitoring, metering and control system designed to meet the demands of today's engine driven generator sets. The integration of all control functions into a single control system provides enhanced reliability and performance, compared to conventional generator set control systems. These control systems have been designed and tested to meet the harsh environment in which gensets are typically applied. Features • 128 x 128 pixels graphic LED backlight LCD. • Multiple language support. • AmpSentryTM Protective Relay - UL Listed true alternator overcurrent protection. • Real time clock for fault and event time stamping. • Exerciser clock and time of day start/stop. • Digital voltage regulation. Three phase full wave FET type regulator compatible with either shunt or PMG systems. • Generator set monitoring and protection. • 12 and 24 VDC battery operation. • Modbus® interface for interconnecting to customer equipment. • Warranty and service. Backed by a comprehensive warranty and worldwide distributor service network. • Certifications - Suitable for use on generator sets that are designed, manufactured, tested and certified to relevant UL, NFPA, ISO, IEC, Mil Std., CE and CSA standards. ©2008 I Cummins Power Generation Inc. I All rights reserved I Specifications subject to change without notice I Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry, InPower and Our energy working for you." are trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. S- 15138b (4/08) Page 1 of 7 PowerCommand digital generator set control PCC 2300 Description The PowerCommand generator set control is suitable for use on a wide range of generator sets in non - paralleling applications. The PowerCommand control is compatible with shunt or PMG excitation style. It is suitable for use with reconnectable or non- reconnectable generators, and it can be configured for any frequency, voltage and power connection from 120 -600 VAC line -to -line. Power for this control system is derived from the generator set starting batteries. The control functions over a voltage range from 8 VDC to 30 VDC. Features • 12 and 24 VDC battery operation. • Digital voltage regulation - Three phase full wave FET type regulator compatible with either shunt or PMG systems. Sensing is three phase. • Full authority engine communications (where applicable) - Provides communication and control with the Engine Control Module (ECM). • AmpSentry protection - for true alternator overcurrent protection. • Common harnessing - with higher feature Cummins Power Generation controls. Allows for easy field upgrades. • Generator set monitoring - Monitors status of all critical engine and alternator functions. • Digital genset metering (AC and DC). • Genset battery monitoring system to sense and warn against a weak battery condition. • Configurable for single or three phase AC metering. • Engine starting - Includes relay drivers for starter, fuel shut off (FSO), glow plug /spark ignition power and switch B+ applications. • Generator set protection — Protects engine and alternator. • Real time clock for fault and event time stamping. • Exerciser clock and time of day start/stop. • Advanced serviceability - using InPowerTM, a PC- based software service tool. • Environmental protection - The control system is designed for reliable operation in harsh environments. The main control board is a fully encapsulated module that is protected from the elements. • Modbus interface for interconnecting to customer equipment. • Configurable inputs and outputs - Four discrete inputs and four dry contact relay outputs. • Warranty and service - Backed by a comprehensive warranty and worldwide distributor service network. • Certifications - Suitable for use on generator sets that are designed, manufactured, tested and certified to relevant UL, NFPA, ISO, IEC, Mil Std., CE and CSA standards. Base control functions HMI capability Operator adjustments - The HMI includes provisions for many set up and adjustment functions. Generator set hardware data - Access to the control and software part number, generator set rating in KVA and generator set model number is provided from the HMI or InPower. Data logs - Includes engine run time, controller on time, number of start attempts, total kilowatt hours, and load profile. (Control logs data indicating the operating hours at percent of rated kW load, in 5% increments. The data is presented on the operation panel based on total operating hours on the generator.) Fault history - Provides a record of the most recent fault conditions with control date and time stamp. Up to 32 events are stored in the control non - volatile memory. Alternator data - Voltage (single or three phase line -to -line and line -to- neutral) - Current (single or three phase) - kW, KVAR, power factor, KVA (three phase and total) - Frequency Engine data - Starting battery voltage - Engine speed - Engine temperature - Engine oil pressure - Engine oil temperature - Intake manifold temperature - Comprehensive Full Authority Engine (FAE) data (where applicable) Our energy working for you.TN www.cumminspower.com G2008 I Cummins Power Generation Inc. I All rights reserved I Specifications subject to change without notice I Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry, InPower and Our energy working for you.' are trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. S -1568b (4/08) Page 2 of 7 Power Generation Service adjustments - The HMI includes provisions for adjustment and calibration of generator set control functions. Adjustments are protected by a password. Functions include: - Engine speed governor adjustments - Voltage regulation adjustments - Cycle cranking - Configurable fault set up - Configurable output set up - Meter calibration - Display language and units of measurement Engine control SAE -J1939 CAN interface to full authority ECMs (where applicable). Provides data swapping between genset and engine controller for control, metering and diagnostics. 12 VDC /24 VDC battery operations - PowerCommand will operate either on 12 VDC or 24 VDC batteries. Temperature dependent governing dynamics (with electronic governing) - modifies the engine governing control parameters as a function of engine temperature. This allows the engine to be more responsive when warm and more stable when operating at lower temperature levels. Jsochronous governing - (where applicable) Capable of controlling engine speed within +/ -0.25% for any steady state load from no load to full load. Frequency drift will not exceed +/ -0.5% for a 33 °C (60 `F) change in ambient temperature over an 8 hour period. Droop electronic speed governing - Control can be adjusted to droop from 0 to 10% from no load to full load. Remote start mode - It accepts a ground signal from remote devices to automatically start the generator set and immediately accelerate to rated speed and voltage. The remote start signal will also wake up the control from sleep mode. The control can incorporate a time delay start and stop. Remote and local emergency stop - The control accepts a ground signal from a local (genset mounted) or remote (facility mounted) emergency stop switch to cause the generator set to immediately shut down. The generator set is prevented from running or cranking with the switch engaged. If in sleep mode, activation of either emergency stop switch will wakeup the control. Sleep mode - The control includes a configurable low current draw state to minimize starting battery current draw when the genset is not operating. The control can also be configured to go into a low current state while in auto for prime applications or applications without a battery charger. Engine starting - The control system supports automatic engine starting. Primary and backup start disconnects are achieved by one of two methods: magnetic pickup or main alternator output frequency. The control also supports configurable glow plug control when applicable. Cycle cranking - Is configurable for the number of starting cycles (1 to 7) and duration of crank and rest periods. Control includes starter protection algorithms to prevent the operator from specifying a starting sequence that might be damaging. Time delay start and stop (cooldownl - Configurable for time delay of 0 -300 seconds prior to starting after receiving a remote start signal and for time delay of 0- 600 seconds prior to shut down after signal to stop in normal operation modes. Default for both time delay periods is 0 seconds. Alternator control The control includes an integrated three phase line -to- line sensing voltage regulation system that is compatible with shunt or PMG excitation systems. The voltage regulation system is a three phase full wave rectified and has an FET output for good motor starting capability. Major system features include: Digital output voltage regulation - Capable of regulating output voltage to within +/ -1.0% for any loads between no load and full load. Voltage drift will not exceed +/- 1.5% for a 40 °C (104 °F) change in temperature in an eight hour period. On engine starting or sudden load acceptance, voltage is controlled to a maximum of 5% overshoot over nominal level. The automatic voltage regulator feature can be disabled to allow the use of an external voltage regulator. Droop voltaoe regulation - Control can be adjusted to droop from 0 -10% from no load to full load. Torque - matched V /Hz overload control - The voltage roll -off set point and rate of decay (i.e. the slope of the V /Hz curve) is adjustable in the control. Fault current regulation - PowerCommand will regulate the output current on any phase to a maximum of three times rated current under fault conditions for both single phase and three phase faults. In conjunction with a permanent magnet generator, it will provide three times rated current on all phases for motor starting and short circuit coordination purpose. Protective functions On operation of a protective function the control will indicate a fault by illuminating the appropriate status LED on the HMI, as well as display the fault code and fault description on the LCD. The nature of the fault and time of occurrence are logged in the control. The service manual and InPower service tool provide service keys and procedures based on the service codes provided. Protective functions include: Battle short mode When enabled and the battle short switch is active, the control will allow some shutdown faults to be bypassed. If a bypassed shutdown fault occurs, the fault code and Our energy working for you."" www. cu mm in spower. com 02008 I Cummins Power Generation Inc. I All rights reserved I Specifications subject to change without notice I Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry, InPower and Our energy working for you." are trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. S -1568b (4/08) Page 3 of 7 Power Generation description will still be annunciated, but the genset will not shutdown. This will be followed by a fail to shutdown fault. Emergency stop shutdowns and others that are critical for proper operation are not bypassed. Please refer to the Control Application Guide or Manual for list of these faults. Derate The Derate function reduces output power of the genset in response to a fault condition. If a derate command occurs while operating on an isolated bus, the control will issue commands to reduce the load on the genset via contact closures or Modbus. Configurable alarm and status inputs The control accepts up to four alarm or status inputs (configurable contact closed to ground or open) to indicate a configurable (customer- specified) condition. The control is programmable for warning, shutdown or status indication and for labeling the input. Emergency stop Annunciated whenever either emergency stop signal is received from external switch. Full authority electronic engine protection Engine fault detection is handled inside the engine ECM. Fault information is communicated via the SAE -J1939 data link for annunciation in the HMI. General engine protection Low and high battery voltage warning - Indicates status of battery charging system (failure) by continuously monitoring battery voltage. Weak battery warning - The control system will test the battery each time the generator set is signaled to start and indicate a warning if the battery indicates impending failure. Fail to start (overcrankl shutdown - The control system will indicate a fault if the generator set fails to start by the completion of the engine crack sequence. Fail to crank shutdown. - Control has signaled starter to crank engine but engine does not rotate. Cranking lockout - The control will not allow the starter to attempt to engage or to crank the engine when the engine is rotating. Alternator protection AmpSentry Protective relay - A UL Listed comprehensive monitoring and control system integral to the PowerCommand Control System that guards the electrical integrity of the alternator and power system by providing protection against a wide array of fault conditions in the generator set or in the load. It also provides single and three phase fault current regulation so that downstream protective devices have the maximum current available to quickly clear fault conditions without subjecting the alternator to potentially catastrophic failure conditions. See document R1053 for a full size time over current curve. High AC voltage shutdown (59) - Output voltage on any phase exceeds preset values. Time to trip is inversely proportional to amount above threshold. Values adjustable from 105 -125% of nominal voltage, with time delay adjustable from 0.1 -10 seconds. Default value is 110% for 10 seconds. )_ow AC voltage shutdown (27). - Voltage on any phase has dropped below a preset value. Adjustable over a range of 50 -95% of reference voltage, time delay 2 -20 seconds. Default value is 85% for 10 seconds. Function tracks reference voltage. Control does not nuisance trip when voltage varies due to the control directing voltage to drop, such as during a V /Hz roll -off during synchronizing. Under frequency shutdown (81 u). - Generator set output frequency cannot be maintained. Settings are adjustable from 2 -10 Hz below reference governor set point, for a 5- 20 second time delay. Default: 6 Hz, 10 seconds. Under frequency protection is disabled when excitation is switched off, such as when engine is operating in idle speed mode. Over frequency shutdown /warning (81o). - Generator set is operating at a potentially damaging frequency level. Settings are adjustable from 2 -10 Hz above nominal governor set point for a 1 -20 second time delay. Default: 6 Hz, 20 seconds, disabled. Our energy working for you.r• www.cumminspower.com 02008 I Cummins Power Generation Inc. I All rights reserved I Specifications subject to change without notice I Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry, InPower and °Our energy working for you." am trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. S -1568b (4/08) Page 4 of 7 Power Generation Overcurrent warning /shutdown - Thresholds and time delays are configurable. Implementation of the thermal damage curve with instantaneous trip level calculated based on current transformer ratio and application power rating. Loss of sensing voltage shutdown - Shutdown of generator set will occur on loss of voltage sensing inputs to the control. Field overload shutdown - Monitors field voltage to shutdown generator set when a field overload condition occurs. Over load (kW) warning - Provides a warning indication when engine is operating at a load level over a set point. Adjustment range: 80 -140% of application rated kW, 0- 120 second delay. Defaults: 105 %, 60 seconds. Reverse power shutdown (32) - Adjustment range: 5 -20% of standby kW rating, delay 1 -15 seconds. Default: 10 %, 3 seconds. Reverse Var shutdown - Shutdown level is adjustable: 15- 50% of rated Var output, delay 10 -60 seconds. Default: 20 %, 10 seconds. Short circuit protection - Output current on any phase is more than 175% of rating and approaching the thermal damage point of the alternator. Control includes algorithms to protect alternator from repeated over current conditions over a short period of time. Field control interface Input signals to the PowerCommand control include: - Coolant level (where applicable) - Fuel level (where applicable) - Remote emergency stop - Remote fault reset - Remote start - Battleshort - Rupture basin - Start type signal - Configurable inputs - Control includes (4) input signals from customer discrete devices that are configurable for warning, shutdown or status indication, as well as message displayed Output signals from the PowerCommand control include: - Load dump signal: Operates when the generator set is in an overload condition. - Delayed off signal: Time delay based output which will continue to remain active after the control has removed the run command. Adjustment range: 0 - 120 seconds. Default: 0 seconds. - Configurable relay outputs: Control includes (4) relay output contacts (3 A, 30VDC). These outputs can be configured to activate on any control warning or shutdown fault as well as ready to load, not in auto, common alarm, common warning and common shutdown. - Ready to load (generator set running) signal: Operates when the generator set has reached 90% of rated speed and voltage and latches until generator set is switched to off or idle mode. Communications connections include: - PC tool interface: This RS -485 communication port allows the control to communicate with a personal computer running InPower software. Modbus RS -485 port: Allows the control to communicate with external devices such as PLCs using Modbus protocol. Note - An RS -232 or USB to RS -485 converter is required for communication between PC and control. - Networking: This RS -485 communication port allows connection from the control to the other Cummins Power Generation products. Mechanical drawings 4 255.5 (10.00) 0 0 I 69.5 (2.74) 1. Control Board 0 o p o 0 s-- 100 (394)-1. GOVERNOR POWER STAGE 75 (2.95) 1 4 38 (1.59) Our energy working for you.*" www.cumm Inspower.com 02008 I Cummins Power Generation Inc. I All rights reserved I Specifications subject to change without notice I Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry, InPower and "Our energy working for you.' are trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. S -1568b (4/08) Page 5 of 7 198.5 (7.85) Power Generation PowerCommand human machine interface 1M1220 Description This control system includes an intuitive operator interface panel that allows for complete genset control as well as system metering, fault annunciation, configuration and diagnostics. The interface includes five generator set status LED lamps with both internationally accepted symbols and English text to comply with customers needs. The interface also includes an LED backlit LCD display with tactile feel soft- switches for easy operation and screen navigation. It is configurable for units of measurement and has adjustable screen contrast and brightness. The run /off /auto switch function is integrated into the interface panel. All data on the control can be viewed by scrolling through screens with the navigation keys. The control displays the current active fault and a time - ordered history of the five previous faults. Features: • LED indicating lamps - genset running - remote start - not in auto - shutdown - warning - auto - manual and stop • 128 x 128 pixels graphic LED backlight LCD. • Two tactile feel membrane switches for LCD defined operation. The functions of these switches are defined dynamically on the LCD. • Seven tactile feel membrane switches dedicated screen navigation buttons for up, down, left, right, ok, home and cancel. • Six tactile feel membrane switches dedicated to control for auto, stop, manual, manual start, fault reset and lamp test/panel lamps. • Two tactile feel membrane switches dedicated to control of circuit breaker (where applicable). • Allows for complete genset control setup. Our energy working for you.*'' www.cumminspower.com 02008 I Cummins Power Generation Inc. I All rights reserved I Specifications subject to change without notice I Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry, InPower and Our energy working for you." are trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. S -1568b (4/08) Page 6 of 7 • Certifications: Suitable for use on generator sets that are designed, manufactured, tested and certified to relevant UL, NFPA, ISO, IEC, Mil Std., CE and CSA standards. LCD languages supported: English, Spanish, French, German, Italian, Greek, Dutch, Portuguese, Finnish, Norwegian, Danish, Russian, Czech and Chinese Characters. Communications connections include: - PC tool interface - This RS -485 communication port allows the HMI to communicate with a personal computer running InPower. - This RS -485 communication port allows the HMI to communicate with the main control board. Mechanical drawing 208.8 (11.8) HMI 38.7 0' 234.8(&241 Dimensions: nm (Indies) Software InPower (beyond 6.0 version) is a PC -based software service tool that is designed to directly communicate to PowerCommand generator sets and transfer switches, to facilitate service and monitoring of these products. Environment The control is designed for proper operation without recalibration in ambient temperatures from -40 °C to +70° C (104 °F to 158 °F) and for storage from -55 °C to +80 °C (131 °F to 176 °F). Control will operate with humidity up to 95 %, non - condensing. The HMI is designed for proper operation in ambient temperatures from -20 °C to +70 °C ( -4 °F to 158 °F) and for storage from -30 °C to +80 °C ( -22 °F to 176 °F). The control board is fully encapsulated to provide superior resistance to dust and moisture. Display panel has a single membrane surface, which is impervious to effects of dust, moisture, oil and exhaust fumes. This panel uses a sealed membrane to provide long reliable service life in harsh environments. The control system is specifically designed and tested for resistance to RFI /EMI and to resist effects of vibration to provide a long reliable life when mounted on a generator set. The control includes transient voltage surge suppression to provide compliance to referenced standards. Power Generation Certifications PowerCommand meets or exceeds the requirements of the following codes and standards: - NFPA 110 for level 1 and 2 systems. - ISO 8528 -4: 1993 compliance, controls and switchgear. CE marking: The control system is suitable for use on generator sets to be CE- marked. - EN 50081 -1,2 residentiaVlight industrial emissions or industrial emissions. - EN 50082 -1,2 residentiaVlight industrial or industrial susceptibility. - ISO 7637 -2, level 2; DC supply surge voltage test. - Mil Std 202C, Method 101 and ASTM 8117: Salt fog test. - UL 508 recognized or Listed and suitable for use on UL 2200 Listed generator sets. - CSA C282 -M1999 compliance - CSA 22.2 No. 14 M91 industrial controls. - PowerCommand control systems and generator sets are designed and manufactured in ISO 9001 certified facilities. Warranty All components and subsystems are covered by an express limited one year warranty. Other optional and extended factory warranties and local distributor maintenance agreements are available. PC Chet COMPATIBLE See your distributor for more information Cummins Power Generation Americas 1400 73rd Avenue N.E. Minneapolis, MN 55432 USA Phone: 763 574 5000 Fax: 763 574 5298 Europe, CIS, Middle East and Africa Manston Park Columbus Ave. Manston Ramsgate Kent CT 12 5BF United Kingdom Phone 44 1843 255000 Fax 44 1843 255902 Asia Pacific 10 Toh Guan Road #07 -01 TT International Tradepark Singapore 608838 Phone 65 6417 2388 Fax 65 6417 2399 Warning: Back feed to a utility system can cause electrocution and/or property damage. Do not connect to any building's electrical system except through an approved device or after building main switch is open. Our energy working for you TN www. cu mm inspower.com 02008 I Cummins Power Generation Inc. I All rights reserved I Specifications subject to change without notice I Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand, AmpSentry, InPower and 'Our energy working for you.' am trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. S -1588b (4/08) Page 7 of 7 Power Generation THE WIC GROUP g=F-,...aNtgezaroxseez4.- The Power of Together SEISMIC DESIGN OF NON-STRUCTURAL COMPONENTS AND SYSTEMS CERTIFICATE OF COMPLIANCE Powe Gene Cummins Power Generation has qualified the listed standani engine generator set packages at CERTIFIED' for seismic application. The basis of qualification is by shake table testing and analysis, in accordance with the following International Building Cortez (IBC) releases. IBC 2000, IBC 2003, IBC 2006 The following model designations and bufteted. options are included in this .certification. A complete list of Certified models, options, and int011ation methodt.are detailed in report number VMA-44265-RS as issued by The VMC Group. This--certification includes- the open generator set and the eneloted generator set when instated with Or without the tub-b,Sse. tank. This Certification also includes the sub-base lank, as a Sterid-alone adcessory: The generator set and included Options MUST be a catalogue and factory supplied The generator '061404 ,applicable Options. MUST be installed and attached to the building structure per the manufacturer supplied seismic installation instructiant, this .certification excludes all non-factory supplied accessories, including , limited to mufflers. .isolation/restraintdeVices, and -electrical components.- The abeiti referenced equipment it APPROVED forseittnic application when properly instalted,:,3 used'at intended, and loCatodin the United Bliates: Lookup the interpolated project specific Design Specfral Response Acceleration at Short Periods ; 50a, value in the table below as it pertains to the applicable building codeand Importance Factor, 1:0; and compare to the allowed value. As limited by the tabulated values, below grade, grade, and roof-level installations, as well as installations in essential facilities and for life safety applications . both requiring post event -functionality, -functionality, were Ip=1:5are:nierrnitted and included in this certification . : The basis_ cif thiS certification Is through finite efernertVanalytia -Of the main farce resisting inertibers of the unit. Additionatcalcalations were conducted ensure Carnp§nentS. -‘accertsarie,s, and option remained intact and attached to the unit under seismic dad conditions. All non= robust aoniponentt considered Critical to the units 'cantinued function, were successfully shake tested, in three '(3) orthogonal axes, under, the witness of and analytical evaluation by erilndependent approval agency; The VMC GroUp. Seismic • shake :table testing was conducted In accadancewith:ICC-ES AC-156 to envetOpe the required response spectrum (RRS) Of a maximum flexible region acceleration (Arlo() of 3,09g and a zero.peried acceleration (A,) Of For Calculalicins end analysis, the'Beismic Design AcOateietion, Fc,/Wp,'' was calculated as 4.35g for t.oad' Resistance Factored Design (LRFD) methods equivalent to 3:049;fer.Allowable:Strats,Desigrt(ASD) methods. All calculations were conducted using the ASG-ariatysis, method This included but was not limited. to the skid anchoring, requirements tank anchoring • requirements„ tank to skid attachment, -enclosure to skid attaChn1ent tank structural Comparison, encbsUrc.strattural comparison; internal isolation ratings, and variduseomptitient. stress -analyses. The Seitrnit Design Acceleration used for and analYtis, it defined per the building code (or respective standerd)'fdr. the section titled Seismic Design Requirements for Non structural (architectural mechanical; and elettricat)CanipOneritt. The seismic design level is based on the'LRFD calculation shown-belorf IBC 2006. FtA/Wis 9.4 x 2/3(S2, 90) x(fA=1.0) x (6=1.5) x (ar,/R.,=1 .25) x (1 +2(z/h=1-.0)) 4-35g Fp/Wp 0.4 x2 ./.3(4F-1-42) x (FA=1,0) x(lft=1.5) x (aaRp=1.25) x (1+2(zill=0.77)) = 4.35g IBC 2003 2000 FP/W = 6.4 x 213.(8,=3,02) x (FA=1.0), x.(4=1.5') x (/R100) x (11.2(i/h=1.0)) = 4,35g Fp/Wp s 0.4 x2/3(64,73169) x (FA=1,0) x (10=1.5) x (ap/R>=1,00) x (1+2(z/hz--0.97))'-4 435g jbjS:certiuiflijxifs all appiicatops tht fall beLow the limitations in the chartbelow. 1E3;2006 4,— '" Steel Enclosure Options Aluminum Enclosure Options Fuel Tank Qpnons Standard Sub-base Sdt <=', 1,93 . , : Model Designation Basic Open Generator Set Weather Protective Sou • Sound Level 3- Weather Protective Sound : Level 2 Sound Level 3 Level ' DSGAA • • • • • • • • OSGAB • • • • • • • . e • • • • 0 0 • . I› DSGAC . This--certification includes- the open generator set and the eneloted generator set when instated with Or without the tub-b,Sse. tank. This Certification also includes the sub-base lank, as a Sterid-alone adcessory: The generator set and included Options MUST be a catalogue and factory supplied The generator '061404 ,applicable Options. MUST be installed and attached to the building structure per the manufacturer supplied seismic installation instructiant, this .certification excludes all non-factory supplied accessories, including , limited to mufflers. .isolation/restraintdeVices, and -electrical components.- The abeiti referenced equipment it APPROVED forseittnic application when properly instalted,:,3 used'at intended, and loCatodin the United Bliates: Lookup the interpolated project specific Design Specfral Response Acceleration at Short Periods ; 50a, value in the table below as it pertains to the applicable building codeand Importance Factor, 1:0; and compare to the allowed value. As limited by the tabulated values, below grade, grade, and roof-level installations, as well as installations in essential facilities and for life safety applications . both requiring post event -functionality, -functionality, were Ip=1:5are:nierrnitted and included in this certification . : The basis_ cif thiS certification Is through finite efernertVanalytia -Of the main farce resisting inertibers of the unit. Additionatcalcalations were conducted ensure Carnp§nentS. -‘accertsarie,s, and option remained intact and attached to the unit under seismic dad conditions. All non= robust aoniponentt considered Critical to the units 'cantinued function, were successfully shake tested, in three '(3) orthogonal axes, under, the witness of and analytical evaluation by erilndependent approval agency; The VMC GroUp. Seismic • shake :table testing was conducted In accadancewith:ICC-ES AC-156 to envetOpe the required response spectrum (RRS) Of a maximum flexible region acceleration (Arlo() of 3,09g and a zero.peried acceleration (A,) Of For Calculalicins end analysis, the'Beismic Design AcOateietion, Fc,/Wp,'' was calculated as 4.35g for t.oad' Resistance Factored Design (LRFD) methods equivalent to 3:049;fer.Allowable:Strats,Desigrt(ASD) methods. All calculations were conducted using the ASG-ariatysis, method This included but was not limited. to the skid anchoring, requirements tank anchoring • requirements„ tank to skid attachment, -enclosure to skid attaChn1ent tank structural Comparison, encbsUrc.strattural comparison; internal isolation ratings, and variduseomptitient. stress -analyses. The Seitrnit Design Acceleration used for and analYtis, it defined per the building code (or respective standerd)'fdr. the section titled Seismic Design Requirements for Non structural (architectural mechanical; and elettricat)CanipOneritt. The seismic design level is based on the'LRFD calculation shown-belorf IBC 2006. FtA/Wis 9.4 x 2/3(S2, 90) x(fA=1.0) x (6=1.5) x (ar,/R.,=1 .25) x (1 +2(z/h=1-.0)) 4-35g Fp/Wp 0.4 x2 ./.3(4F-1-42) x (FA=1,0) x(lft=1.5) x (aaRp=1.25) x (1+2(zill=0.77)) = 4.35g IBC 2003 2000 FP/W = 6.4 x 213.(8,=3,02) x (FA=1.0), x.(4=1.5') x (/R100) x (11.2(i/h=1.0)) = 4,35g Fp/Wp s 0.4 x2/3(64,73169) x (FA=1,0) x (10=1.5) x (ap/R>=1,00) x (1+2(z/hz--0.97))'-4 435g jbjS:certiuiflijxifs all appiicatops tht fall beLow the limitations in the chartbelow. 1E3;2006 4,— '" ' IBC 2006 IBC 20034 200 ':, IBC:-2003 / 2000 Sdt <=', 1,93 . , : 1.93. Sds i-:,2:28 Stil'.', 2,41 _ SOS 2.-46 ip .kr..1.5, fp-<= 1:5 • . 1p,<= 1.5' ap/Rp <= 1.2.-5 I afj1RP.-1:25 ap/Rp <= 1:0 . -ap/Rp <,.. to . __x/11, 45=7 1:0 ,z1b)<=t0.73'. z//1,0 SCII Classes C. 1). E. Selsmic.,Ute'groupt I; II, Ill V,:and Seismic Design _Categories AB, C b Ei and F are in. covered under this certificatiori, iirinted"by the SdSitalfie ttated The Vti4C-:Oalip StreeLtfideiiiingdefe, NI 07403• Tel: 973-836-1766--fax: 9,492:;039*IirAtthevIntf(014dm• Page,rof THE VINO GROUP The 'Power of Together SEISMIC DESIGN OF NON-STRUCTURAL COMPONENTS AND SYSTEMS CERTIFICATE OF COMPLIANCE Notes and Comments: 1. All equipment fisted herein successfully passed the seismic acceptance criteria fcr shake testing non-structural components and systems as set forth in the ICC AC-156 (2007). The test response spectrum (TRS) enveloped the design response spectrum (DRS) for all units tested. The units cited in this certification were representative samples of a contingent of models and all remained captive and structurally sound after the seismic shake simulation. The units also remained Functionally operational after the simulation testing as functional testing was completed by the equipment manufacturer before and after the seismic Simulations. Although a seismic qualified unit inherently contains some wind resisting capacity, that capacity is undetermined and is excluded from this certification. ,Snovilte loads have been neglected and thus limit the unit to be installed both indoors (covered by an independent protective structure) and out of doors (exposed to accumulating snow/ice) fcr snoW/ice loads no greater than 30 Of for all applications. 2: The following building codes are addressed under this certification: IBC.'2000 — referencing ASCE 7-g8 and ICC AC-156 IBC 2003 referencing ASCE 7-02 and ICC AC-156 IBC 2006-- referencing ASCE 7-05 and ICC AC-156 3. Rater to the manufacturer supplied installation drawings for anchor requirements and mounting considerations for seismic applications. Required anchor locations, .size style, and load .capacities (tension and shear) are specified on the installation drawings. Mounting requirement details. such as anchor brand, type embedment depth, edge spacing., anchor-toenchor spacing, concrete strength, special inspection; wall deSigm, and etiachmentlornon-bufiding structures must be outlined and approved by the Engineer of Record for the project or Wilding.. Structural -Walk 'structural fibers, and trdutekeeping. pads must also be seismically. designed and approved by the project' or building Structural Engineer of Record to withstand the seismic anchor loads as defined on the installation &awings The installing contractor is responsible for obSerVing the Installation requirements detailed- In the seismic installation drawings and the proper installation of all anchors and .mounting hardware. 4. When the site soil properties-or'finatequipmentinstallation location are not known, the soil site coefficient. FA, defaults to the Soil Site Class D coefficient Soil Classes A, B.. C. D. E. Seismic Use groups I, II, Ill, IV, and Seismic Design Categoriet A, a, C D E, and F ate all covered. under this certifitafion, limited. by the S,, values on page 1, respective to the applicable building code, Importance factor, and z/11 ratio. A seismic importance facto, 11.5, applies to this certification to include essential facility requirements and fife safety applicationsfor post event functionality. Certification Issued By: The VMC Group Document Control Number: VMA-44265LCCS (Revision 0) diuRano, PE PreSident, The VMC GrOl4o Issue Date: 04/06/2009 Expiration Date 05/31/2010 Gary A. Latina Product. Management Director Consumer and Genset ausiness Cummins PowerGeneration The VMCGroup *113 MalkilliSet, BIpo gdaEe 41'07403*Te1: 973-838:1780. Fax: 173-49241430. wvoiv.thevoxgroup.atro Patje2,.6k2 . , Exhaust Emission Data Sheet 150DSGAC 60 Hz Diesel Generator Set EPA NSPS Stationary Emergency Engine Information: Model: Cummins Inc. QSB7 -G3 NR3 Type: 4 Cycle, In -line, 6 Cylinder Diesel Aspiration: Turbocharged and CAC Compression Ratio: Emission Control Device: Turbocharger and CAC 17.3:1 Bore: 4.21 in. (107 mm) Stroke: 4.88 in. (124 mm) Displacement: 408 cu. in. (6.7 liters ) TEST CONDITIONS Data is representative of steady -state engine speed (± 25 RPM) at designated genset loads. Pressures, temperatures, and emission rates were stabilized. Fuel Specification: ASTM D975 No. 2 -D diesel fuel with 0.03 -0.05% sulfur content (by weight), and 40-48 cetane number. Fuel Temperature: 99 ± 9 °F (at fuel pump inlet) Intake Air Temperature: 77 ± 9 °F Barometric Pressure: 29.6 ± 1 in. Hg Humidity: NOx measurement corrected to 75 grains H2O /Ib dry air Reference Standard: ISO 8178 The NOx, HC, CO and PM emission data tabulated here are representative of test data taken from a single engine under the test conditions shown above. Data for the other components are estimated. These data are subjected to instrumentation and engine -to- engine variability. Field emission test data are not guaranteed to these levels. Actual field test results may vary due to test site conditions, installation, fuel specification, test procedures and instrumentation. Engine operation with excessive air intake or exhaust restriction beyond published maximum limits, or with improper maintenance, may results in elevated emission levels. Cummins Power Generation Data and Specifications Subject to Change Without Notice eds -1085b . 1/4 1/2 3/4 Full i__ Full Prime PERFORMANCE DATA Standby Standby Standby Standby BHP @ 1800 RPM (60 Hz) 65 119 174 229 206 Fuel Consumption (gal /Hr) 3.8 6.6 9.2 11.7 10.6 Exhaust Gas Flow (CFM) 543 843 1046 1256 1175 Exhaust Gas Temperature ( °F) 639 780 849 924 885 EXHAUST EMISSION DATA HC (Total Unburned Hydrocarbons) 0.13 0.05 0.02 0.02 0.02 NOx (Oxides of Nitrogen as NO2) 2.00 2.00 3.00 3.00 3.00 CO (carbon Monoxide) 1.33 0.65 0.46 0.32 0.36 PM (Particular Matter) 0.12 0.07 0.06 0.05 0.06 SO2 (Sulfur Dioxide) 0.15 0.14 0.13 0.13 0.13 Smoke (Bosch) 0.49 0.49 0.75 0.80 0.79 All values are Grams per HP -Hour TEST CONDITIONS Data is representative of steady -state engine speed (± 25 RPM) at designated genset loads. Pressures, temperatures, and emission rates were stabilized. Fuel Specification: ASTM D975 No. 2 -D diesel fuel with 0.03 -0.05% sulfur content (by weight), and 40-48 cetane number. Fuel Temperature: 99 ± 9 °F (at fuel pump inlet) Intake Air Temperature: 77 ± 9 °F Barometric Pressure: 29.6 ± 1 in. Hg Humidity: NOx measurement corrected to 75 grains H2O /Ib dry air Reference Standard: ISO 8178 The NOx, HC, CO and PM emission data tabulated here are representative of test data taken from a single engine under the test conditions shown above. Data for the other components are estimated. These data are subjected to instrumentation and engine -to- engine variability. Field emission test data are not guaranteed to these levels. Actual field test results may vary due to test site conditions, installation, fuel specification, test procedures and instrumentation. Engine operation with excessive air intake or exhaust restriction beyond published maximum limits, or with improper maintenance, may results in elevated emission levels. Cummins Power Generation Data and Specifications Subject to Change Without Notice eds -1085b EPA Tier 3 Exhaust Emission Compliance Statement 1 50DSGAC 60 Hz Diesel Generator Set Compliance Information: The engine used In this generator set compiles with the Tier 3 emissions limits of U.S EPA New Source Performance Standards for Stationary Emergency engines under the provisions of 40 CFR 60 Subpart 1111 when tested per ISO 8178 D2. Engine Manufacturer: EPA Certificate Number: Effective Date: Date Issued: EPA Diesel Engine Family: CARB Executive Order: Cummins Inc. TBD TBD TBD TBD Engine Information: Model: Cummins Inc. QSB7 -G3 NR3 Engine Nameplate HP: 250 Type: 4 Cycle, In -line, 6 Cylinder Diesel Aspiration: Turbocharged and CAC Compression Ratio: 17.3:1 Emission Control Device: Turbocharged and CAC Bore: Stroke: Displacement: 4.21 in. (107 mm) 4.88 in. (124 mm) 408 cu. in. (6.7 liters ) U.S. Environmental Protection Agency NSPS Stationary Emergency Tier 3 Limits COMPONENT NOx + HC (Oxides of Nitrogen as NO2 + Non Methane Hydrocarbons) CO (Carbon Monoxide) PM (Particulate Matter) (All values are Grams per HP -Hour) 3.0 2.6 0.15 Engine operation with excessive air intake or exhaust restriction beyond published maximum limits, or with improper maintenance, may result in elevated emission levels. Cummins Power Generation Data and Specifications Subject to Change Without Notice epa -1119c Cooling System Data DSGAC High Ambient Air Temperature Radiator Cooling System Notes: 1. Data shown are anticipated cooling performance for typical generator set. 2. Cooling data is based on 1000 ft (305 m) site test location. 3. Generator set power output may need to be reduced at high ambient conditions. Consult generator set data sheet for derate schedules. 4. Cooling performance may be reduced due to several factors including but not limited to: Incorrect installation, improper operation, fouling of the cooling system, and other site installation variables. Cummins Power Generation Specification May Change Without Notice Bulletin mcp -172c Duty (W) g Max Cooling @ Air Flow Static Restriction, Unhoused (inches water /mm water) Housed in Free Air, No Air Discharge Restriction 0.0/0.0 1 0.25/6.4 1 0.5/12.7 0.75/19.1 F182 / F216 F173 / F233 I /1217 I F232 Maximum Allowable Ambient Temperature, Degree C ® 60 Hz Standby 150 55 55 55 55 54 55 ® 55 Prime 135 55 55 55 55 53 54 54 Continuous N/A N/A N/A N/A N/A N/A N/A 50 Hz Standby N/A N/A N/A N/A N/A N/A N/A Prime N/A N/A N/A N/A N/A N/A N/A Continuous N/A N/A N/A N/A N/A N/A N/A Notes: 1. Data shown are anticipated cooling performance for typical generator set. 2. Cooling data is based on 1000 ft (305 m) site test location. 3. Generator set power output may need to be reduced at high ambient conditions. Consult generator set data sheet for derate schedules. 4. Cooling performance may be reduced due to several factors including but not limited to: Incorrect installation, improper operation, fouling of the cooling system, and other site installation variables. Cummins Power Generation Specification May Change Without Notice Bulletin mcp -172c er e eration Sound Data 150DSGAC 60Hz Sound Pressure Levels @ 7 meters dB(A Configuration Octave Band Center Frequency (Hz) Position (Note 1) 8 Position Average 1 2 3 4 5 6 7 8 Standard - Unhoused (Note 3) Infinite Exhaust 84.2 87.7 84.5 85.6 82.2 85.3 86 87.7 85.7 F182 Enclosure-Steel,Weather Protective,with ExhSys Mounted Muffler 84.2 88.6 88.3 87.2 84.1 88.9 88.8 90.5 88.0 F216- Enclosure-Aluminum,Weather Protective,w /Exh System Mounted Muffler 84.2 88.6 88.3 87.2 84.1 88.9 88.8 90.5 88.0 F173 Enclosure-Steel,Sound Att,Level 2,w /Exhaust System Mounted Muffler 73.5 75.4 74.3 74.2 72.5 75.0 75.5 75.8 74.6 F217- Enclosure-Aluminum,Sound Att,Level 2,w/ExhSystem Mounted M1lfflpr 75.5 77.4 76.3 76.2 74.5 77.0 77.5 77.8 76.6 F232 Enclosure-Steel,Sound Mounted Muffler 68.6 69.2 68.1 71.7 69.9 68.3 69.5 69.9 69.6 Att,Level 3,w /Exhaust System F233- Enclosure-Aluminum,Sound Att,Level 3,w/ExhSystem Mounted Muffler 72.2 71.0 69.2 71.2 67.8 70.0 69.8 71.1 70.5 Note: 1. Position 1 faces the engine front at 23 feet (7 m) from the surface of the generator set. The positions proceed around the generator set in a counter - clockwise direction in 45° increments. 2. Data based on full rated load with standard radiator -fan package. 3. Sound data for generator set with infinite exhaust do not include exhaust noise. 4. Sound pressure levels per ANSI S1.13 -1971 as applicable. 5. Reference sound pressure is 20 µPa. 6. Sound pressure levels are subject to instrumentation, measurement, installation and generator set variability. Configuration Octave Band Center Frequency (Hz) 1r l Octave Band Center Fre i ency hz 9 y ( ) Sound Power Level 63 125 250 500 1000 2000 4000 8000 Standard - Unhoused (Note 3) Infinite Exhaust 78 92.8 106.1 104.1 107.1 106 101.1 95.9 112.5 F182 Enclosure Steel,Weather Protective,with ExhSys Mounted Muffler 96.3 102.6 104.8 106.9 111.3 108.4 107.5 103.3 115.9 F216 Enclosure-Aluminum,Weather Protective,w /Exh System Mounted Muffler 96.3 102.6 104.8 106.9 111.3 108.4 107.5 103.3 115.9 F173 Enclosure-Steel,Sound Att,Level 2,w /Exhaust System Mounted Muffler 84.3 90.7 94.0 95.5 97.4 96.2 93.5 89.0 103.1 F217- Enclosure-Aluminum,Sound Att,Level 2,w/ExhSystem Mounted Mufflor 86.3 92.7 96.0 97.5 99.4 98.2 95.5 91.0 105.1 F232- Enclosure-Steel,Sound Mounted ' P Att,Level 3,w /Exhaust System Muffler 82.0 88.9 89.8 89.3 89.5 89.7 89.5 84.6 97.6 F233- Enclosure - Aluminum,Sound Att,Level 3,w/ExhSystem Mounted Muffler 77.9 90.2 92.7 89.4 91.1 91.5 91.0 88.0 99.3 Note: 1. Sound pressure levels per ANSI S12.34 -1988 and SIO 3744 as applicable. 2. Data based on full rated load with standard radiator -fan package. 3. Sound data for generator set with infinite exhaust do not include exhaust noise. 4. Reference sound pressure is 1pW- 1x10.12 W. 5. Sound pressure levels are subject to instrumentation, measurement, installation and generator set variability. Exhaust Sound Pressure Levels @ 1 meter dB(A Open Exhaust (No Muffler) @ Rated Load Octave Band Center Frequency (Hz) Sound Pressure Level 63 125 250 500 1000 2000 4000 8000 79.8 89.5 97.5 99.3 103.6 108 108 106.5 113.5 Note: Sound pressure level per ISO 6798 Annex A as applicable. Cummins Power Generation Data and Specification Subject to Change Without Notice Bulletin msp -1057b PROTOTYPE TEST SUPPORT (PTS) 60 HZ TEST SUMMARY GENERATOR SET MODELS Power 100 DSGAA 125 DSGAB Generation -150 DSGAC REPRESENTATIVE PROTOTYPE Model: 150 DSGAC Alternator: UC27H Engine: QSB7 -G3 NR3 The following summarizes prototype testing conducted on the designated representative prototype of the specified models. This testing is conducted to verify the complete generator set electrical and mechanical design integrity. Prototype testing is conducted only on generator sets not sold as new equipment. Maximum Surge Power: 172 kW Steady State Performance: The generator set was evaluated to determine the stated The generator set was tested to verify steady state maximum surge power. operating performance was within the specified maximum limits. Voltage Regulation: ±0.5% Random Voltage Variation: ±0.5% Frequency Regulation: lsochronous Random Frequency Variation: ±0.25% Transient Performance: Torsional Analysis and Testing: The generator set was tested with the alternator listed to The generator set was tested to verify that the design is verify single step loading capability as required by NFPA not subjected to harmful torsional stresses. A spectrum 110. Voltage and frequency response on load addition or analysis of the transducer output was conducted over the rejection were evaluated. The following results were speed range of 1350 to 1950 RPM. recorded: Cooling System: 50 °C Ambient Full Load Acceptance: 0.50 in. H2O restriction Voltage Dip: 18.0 % The cooling system was tested to determine ambient Recovery Time: 2.3 Second temperature and static restriction capabilities. The test Frequency Dip: 8.2 ok was performed at full rated load in elevated ambient Recovery Time: 2.4 Second temperature under stated static restriction conditions. Full Load Reiection: Voltage Rise: 16.3 % Durability: Recovery Time: 2.3 Second Frequency Rise: 4.1 % The generator set was subjected to a minimum 250 hour endurance test operating at variable load up to the standby rating based upon MIL - STD -705 to verify Recovery Time: 1.9 Second Harmonic Analysis: structural soundness and durability of the design. (per MIL - STD -7058, Method 601.4) Line to Line Line to Neutral Electrical and Mechanical Strength: Harmonic No Load Full Load N_ o Load Full Load The generator set was tested to several single phase and three phase faults to verify that the generator can safely 3 0.0 0.2 0.0 0.2 withstand the forces associated with short circuit 5 1.0 0.8 1.0 0.8 conditions. The generator set was capable of producing 7 0.6 1.9 0.6 1.8 full rated output at the conclusion of the testing. 9 0.1 0.0 0.1 0.0 11 0.3 0.6 0.3 0.6 13 0.2 0.5 0.2 0.5 15 0.0 0.0 0.0 0.0 Cummins Power Generation Specification May Change Without Notice pts -285a over Generation ALTERNATOR DATA SHEET Frame Size UCD3J CHARACTERISTICS WEIGHTS Wound Stator Assembly 441 kg kg 972 lb Rotor Assembly 265 kg kg 584 lb Complete Alternator 706 kg kg 1556 lb MAXIMUM SPEED 2250 rpm EXCITATION CURRENT Full Load 2.20 Amps No Load 0.50 Amps INSULATION SYSTEM Class H Throughout lb lb lb 1 0 RATINGS (1.0 Power Factor) Hz (winding no.) 50 Hz (winding no) t> 60 (Based on specified temperature rise at Double Delta 4 Lead (06) '. uble Delta 4 Lead (05) 40 °C ambient temperature) (311) (311) 120/240 120/240 110 120/220 -240 110 - 120/220 -240 125 °C Rise Ratings kW/kVA 161/201 175/219 1.0/175 N/A 105 °C Rise Ratings kW /kVA 150/188 157/196 1.6/158 N/A 3 Qj RATINGS (0.8 Power Factor) Upper Broad Range LBR* 347/600 Broad Range ( 311) (14) (07) (311) (Based on specified temperature rise at 120/208 127/220 139/240 190 -208 110/190 115/200 120/208 127/220 40 °C ambient temperature) 240/416 - ,....:,b' 277/480 380 -416 347/600 220/380 230/400 240/415 254/440 150 °C Rise Ratings kW 230 240 255 255 230 200 200 200 172 kVA 288 300 319 319 288 250 #50 250 215 125 °C Rise Ratings kW 215 225 240 240 215 184 :4 184 164 kVA 269 281 300 300 269 230 2;0 230 205 Rise Ratings kW 200 21 la 220 220 200 168 16; 168 148 >105°C kVA 250 264 275 275 250 210 21• 210 185 80 °C Rise Ratings kW 170 180 190 190 170 154 154 154 128 kVA 213 225 238 238 213 193 193 193 160 3 0 REACTANCES (per unit± 10 %) 415 440 4$Q 3$Q 600 an 400 415 A40 (Based on full load at 105 °C Rise Rating) Synchronous 0.62 0.58 0.51 2.00 2.00 1.77 1.60 1.48 1.16 Transient 0.04 0.04 0.03 0.13 0.13 0.09 0.08 0.08 0.06 Subtransient 0.02 0.02 0.02 0.07 0.07 0.06 0.06 0.05 0.04 Negative Sequence 0.05 0.04 0.04 0.14 0.14 0.02 0.02 ' .01 0.01 Zero Sequence 0.01 0.01 0.01 0.04 0.04 0.05 0.04 .04 0.03 3 qi MOTOR STARTING Broad Range LBR" 600 Broad Ra qe Maximum kVA (Shunt) 770 770 770 535 (90% Sustained Voltage) (PMG) 920 920 920 678 TIME CONSTANTS (Sec) Transient 0.045 0.045 0.045 0.045 Subtransient 0.015 0.015 0.015 0.015 Open Circuit . 1.270 1.270 1.270 1.270 DC 0.030 0.030 0.030 0.030 WINDINGS ( @20 °C) Stator Resistance (une to Line, Ohms) 0.0128 0.0128 0.0128 0.0128 Rotor Resistance (Ohms) 2.0000 2.0000 2.0000 2.0000 Number of Leads 12 12 6 12 • Lower broad range 110/190 thru 120/208, 220/380 thru 240/416. Cummins Power Generation Specification May Change Without Notice ads -212d ower Generation ALTERNATOR DATA SHEET Frame Size: UCD3J 60 Hz Winding 311 THREE PHASE EFFIC.IENCY CURVES 416 7r, • .96 94' 93 92 '91 11111.0.P.P.—..4■101111110M ISPAMIIIIIIIII _...011111. V IIIIIIII --- , --............„......_ ....—........... . .. . 020 0.30 MO: 0.60 asp 0,70 ' 0,80 0.90 1.00 1. P.c. 1.0 0.9 0 269 .10A ., • 0'20 Cummins Power Generation " •• lcve er? 010' 60 .0.80 •9:911 Specification may Change Without Notice .,1;c16 pa: 160 KVA ads-212d Power Generation ALTERNATOR DATA SHEET Frame Size: UCD3J Three--phase Short,Clrourt Pecremant Curve. No-load Excliailon.at Rated Speed Based On star (wye)•connection. HZ.: 60 Hz 10000. 1. .1000 31,1•11111MISANIMMIIINI MM. 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MUM MINIMMENiNIMONEORS romeicememmminamielegenenewmwmetesgmemommeneen 111•11111.11161ZMIIIMMIIIIIIIMINSIMMIIIIIIIIIIIIIMP"" 'HEM 1111111111111WAIIMI 11111111111111111011/1111.111111111111111111 imilmmaseramemesums,rucotummersonmersmrs...snowiszw...srumraterwr-ocaoloa 011110.1MIIMMINSISYMNI.1.1111•19.131M.10.:41ffIFFIGMINIIIIIIIIMI MI =; SININSMIIMINEIM MEM121111• =It NM 11111CIEMILIEJLIMIIMINIIMMEI MUM 121041=1.11•5411121116215 ULMER IMIINEWEI1114 MEM 1111=11111111=11111 SCARIMrell111111111011111119118181111/11 RI Iim........afill116■11•1•1111 IKE II iimmninutasiumm ii IIIMIUMIIILSEMEIIIIIHME1111111111111111i11111101111121111MIIIIIIPHIMENIII MIIIIIINIMMERIMI111111111111111MMIIIIIIIIIIIIIIIIINEI Of .1111.111111111•118111 illi1111111111111111111.11111 100: A00:1 ' XtOtt SesialitalSfroil•gireiiit*Vio0 • • • • • - - The WOO be !ki.084o4oishcitOsto:464-0.6%,9;4*yero.: ,t10100.,.tbA00-11,„0.iiiigtifie.ezipaqiimpite4.• Apros • 7.fartiii'efii:Siiiid..10041ied to, c'ailVeriribb YOlike0:fdttra:tai_hiLfIcterdeAci#5,4itIvril67.E2:1 •b:the,Variotta...typ4ttvtifAkciiii •• • • • •07Atiiilreercbottif6WimeleperatiribNoittotiki . ' • •- • • • . • • . :.;,.6014Z;s: - .2_ .•) ..1- - . ' ,. N,.60Hi:l....;.. --.- '....7:votta 0, I • :?.Fectet...-.1 i• X tagewr sEactor-i '...f.; • . .- . t:001',17 ;•1; AlOY.',V..... '; • ;00,4 _ 400v' • ••• ` •••••0000).5.i. •i /...::1",•''..44..N.f...... tX1XJAtQZ•.. " •41.5.*_••.-J . itX.44:194..;! 46.0y,-: Ite94114.2-; 1- -.4409:-. -...4 : -..%11-1418•• .i .• iyA00• :-.20(0.40-•:...i . , ... . '';' - • , • . . .....i ;:•• haS61, .Z1ohasaritt441aset.04.4 • Ittstantanebbs. , - , • .:- :t . , • , .1109 : 0,?• : •,:x10:131;...--.. kft130:. , i MIttitilOtrt- --.....• „. ..•••-•,•,..._.; • '; • ;00,4 _ -.1411190;,, ..,. ..X.3;20;.. . Sustained : ' - . 1.. ; ' •• x1 00 • ''' 1'. bctl50.• ! •-!'itt2::59.V.. . IVItatittsustaitted;duration .1: t;..-.• -. ! , r $1 01.Stic,a' ,„ t..roStsee,.. -..; . 2;set.m-; • . 9 r Mos 9.riet 99. 9gP. • . ". ..:TtattA sta ned-,carrentAralaajtarcanstartt igsspa At. ,2-911vOtta90..te?/* : '....z..: '''' .' •:.' ' • •.::.-:,. . ': . . .. ....... ,. . . • ...,. ,...,.... .1. y% : • • ' ' • . . " • A i. '!' ...• •;:. :....',„ .... . • .. '•''' '.. •';"•*"'.'"il.'•• . • ; '. ■ I • • • • . , • . • ....... ,r . ...; : . - ..v.1.-.::,,I.,,,$!). , . • • -- - 4 •''. ...i'.......• • -•-.. :••:':› g :':::•:' : •• :,. ••••• "' •-• ' - ': • - :-..-:; -• .' ''''' '' • . .' • ' . • • . Cilryekere;,•strevrfilertlitrAVViej;•6onnejk eoririateti ;ti f'lowiJ mtitiplur e Pgd, l • values 4iieliii+1611V' i i : ....-Parallel Star = Curve currenLvalue X 2 • • • ,sz.z • • • ecification may Change VVithOut Notice • • " • • • .• • ad6-212ci. ower Generation ALTERNATOR DATA SHEET Frame Size: UCD3J Winding-311 Locked Rotor Motor Starting Curve 50 Hz 30 it 15 io Acy ,4100 ■ ■ULAN'S r■■mm∎;:s o■muipAfntmmDsmsr■ ■eAroaemmmmmm5mema■ ■rerq emslq•e?ggg4MAMp*, Fwe iriiISIMINMNSMiiii ANMOLAPeit.ai►_+NeiNse ai ■memosae ■ ■mmea• ■momm mr .c ,2orma moos_ essaommia eiaeee asies ommeApf @amseesericomsmoame ■ssammcmmmaamresaise.useme®m■ mum ■cumaal.v. smsimemamiussemmoArwmmus coM®e■ss'memraiseium ■ memo ■ommensiouxgArdommae ■eeeramemr mosmos eiiie� fsiiiieieiiewsiiiaSeeiier■eeiie ■mrm■av 4.9 ■uummossuemaaermmam osemai■amm■ issNIWAANeieie °neswMMBENs�®eaeeeSsiwii uri ■INWZee ■II ■msrmllse.Oea■erectsaSS ISB ■aea■■orse ■E�l lABAWS ■Warm a ia ■umNSBNO Rmmlil7liim ■e■■qr!■ ■ r, A ■er7r ■Be■r ■■sereer ■es■aeaae ■■r■ ■mom■ ■rtm■am ■n1■ ■Moor ■ ■m ■m ■emBSOSm OMMSMee■ ■Bar■ 100 MX, sx. 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(!F3 d mmmumemosomum ammmmerMSUMmmriWSMMOMM m MOSO!®leml2rlmm ! ABmm!■ mElieP�Ddm'iMNBuNNEMmm]'SE'mm$m Rm MM MKS '6� i71�3lmamm!>6ismmmmlmiIImm msmmwomm■omme p' mm smsm Ammmaa mmmNmmomam amemm msolommsmear +s,,mmamimamml■r_mm mmmammmmrmmmm aelOalm[9amy ,4mom FoasinlilSraitig L�fE37tsonsomonio ■memmga m Bammoommmmmr mmmmem ®r► "ommamm amour oomommms■meemmmmlmr Aemoi m 000smmems um gar, /mmm mmu mommm =r ®e0mhrMS SLLmSB7$SedmollssUMilANnm m mm mcom/r ommmsram mxummoommummmmumarema Bsr/i Nnassommmnml p* HmsuMMamlmiummsm 'gm lmid•+mpSmsSSp WIMM rRI mlSsims AOOWMIO G2X ImIt==mlo■muonr lsm1mri■ooao my!smm!romcmaesoommmmmmmm MMMM Cummins Power Generation Specification may Change Without Notice ads -212d • Enclosures and tanks 35 -230 kW gensets Enclosure features 14- gauge, low carbon, hot - rolled ASTM A569 steel construction (panels) 12- gauge, low carbon, hot - rolled ASTM A569 steel construction (posts) - Stainless steel hardware - Compact footprint - Zinc phosphate pretreatment, e-coat primer and super durable powder topcoat paint minimize corrosion and color fade Package listed to UL 2200 Fuel and electrical stub -up area within enclosure perimeter Two or three recessed doors per side, depending on generator set dimensions, for service access Doors key and padlockable for added security Weather protective seals around all doors on sound - attenuated enclosures Enclosed exhaust silencer improves safety and protects against rust Critical sound level exhaust silencers in sound - attenuated enclosures - Rain collar and rain cap - Non - hydroscopic sound - attenuating material - Easy access lifting points for spreader bars or forklift, depending on model Compatible with most under -set fuel tanks Enclosure attaches directly to generator set skid base or fuel tank, depending on model Designed for ambient temperatures up to 50 °C (122 °F) Refer to genset model cooling system data sheets for specific capabilities Enclosures are designed for outdoor use only Options - Two levels of sound attenuation, and weather protective enclosure, steel and aluminum (most models). - Super durable powder coat painted aluminum construction minimizes corrosion and color fade, panels and posts .1" thick, ASTM B209, 5052 H32. - Aluminum wind rated to 150 mph (per ASCE 7 -05 exposure D, category 1 importance factor) (also available on some steel enclosures). - Window for control viewing. - Kits to up fit existing gensets or to upgrade existing enclosures with additional sound attenuation. - Exterior oil and coolant drains with interior valves for ease of service. - Overhead 2 -point lifting brackets (some models). ©2009 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. "Our energy working for you.' Is a trademark of Cummins Power Generation. Specifications are subject to change without notice. S-1012y (11/09) Enclosure package sound pressure levels @ 7 meters dB(A) Genset model Weather protective enclosure steel: F182 aluminum: F216* Level 1 sound attenuated enclosure steel: F172 aluminum: F231* Level 2 sound attenuated enclosure steel: F173 --Lb aluminum: F217* Level 3 sound attenuated enclosure steel: F232 aluminum: F233* Natural Gas 35 GGFD 80 73 65 N/A 42/47 GGFE 83 73 66 N/A 60 GGHE 86 77 68 N/A 70/75 GGHF 87 77 69 N/A 85 GGHG 80 76 70 N/A 100 GGHH 80 76 71 N/A 125 GGLA 83 81 72 N/A 150 GGLB 84 81 73 N/A Diesel N/A 35 DGBB 82 71 63 N/A 35 DGGD 81 72 66 N/A 35 DSFAA 87 78 70 N/A 40 DGBC 82 72 63 N/A 40 DGHD 79 71 64 N/A 40 DSFAB 87 79 70 N/A SO DGCA 83 72 66 N/A 50 DGHE 79 70 65 N/A 50 DSFAC 87 79 70 N/A 60 DGCB 84 73 67 N/A 60 DSFAD 87 79 71 WA 80 DGCG 84 76 67 N/A 80 DSFAE 87 82 72 N/A 100 DODD 86 77 70 N/A 100 DSGAA 87 N/A 73 68 125 DGDK 86 80 71 WA 125 DSGAB 87 N/A 74 69 150 DGFA 89 77 72 N/A 150 DSFAC 88 N/A 70 75 p' 175 DGFB 90 78 72 N/A 175 DSHAB 95 88 78 N/A 200 DOFC 91 80 74 N/A 200 DSHAC 95 88 78 N/A 230 DGFS* 91 81 75 N/A 230 DSHAD 96 89 78 N/A Where two natural gas ratings are shown above, the first is the natural gas rating and the second is the propane rating. Data is a measured average of 8 positions, and is 60Hz, full load standby rating, steel enclosures only. Sound levels on aluminum enclosures are approximately2 dB(A) higher than steel as measured above. Aluminum not available on model, 230 DGFS. Our energy working for you.YM www.cumminspower.com 02009 Cummins Power Generation Inc. PJI rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. "Our energy working for you.' is a trademark of Cummins Power Generation. Specifications are subject to change without notice. S -1012y (11/09) Power Generation Dual wall sub -base fuel tanks 35 -230 kW p DSGAA/B /C (QSB7G3), Description Cummins Power Generation diesel fuel tanks are constructed of heavy gauge steel (7 and 11 gauge) and include an internally reinforced baffle structure for generator support. This design has fewer exposed seams and welds for increased corrosion resistance, and has been tested to withstand greater than 18,000 pounds of load bearing. All tanks are pressure washed with an iron phosphate solution and then coated with a medium texture finish TGIC Black Polyester powder paint. This paint has superior UV and chemical resistance with best -in -class adhesion, flexibility, and durability to resist chipping and substrate corrosion. The interior is coated with a solvent -based rust preventative. Tanks are UL and ULC Listed as Secondary Containment Generator Base Tanks. Inner and outer containments are pressurized at 3 psi and leak checked per UL and ULC testing procedures to ensure integrity of weld seams. Cummins Power Generation fuel tanks are designed in various capacities to satisfy hours -of- operation installation requirements with or without an overfill protection valve (OFPV). These tanks are also designed to be field upgradeable to meet local code and application specifications. Features UL 142/ULCS601 -07 Listed - Secondary containment generator sub -base tank meets UL requirements. N FPA 30/37/110 & IFC 2003/2006/2009 Compliant - Secondary containment sub -base tanks meet both NFPA and IFC requirements. E mergency pressure relief vent cap - Meets or exceeds UL requirements. Insures adequate venting and pressure relief for inner and outer tank under extreme temperature and emergency conditions. Low fuel level switch - Activates at 50% remaining usable fuel. Secondary containment basin switch - Activates with primary containment failure. Atmospheric vent cap - Accommodates normal venting (oversized 2" vent is raised above the fuel fill). Raised fuel fill - Includes lockable flip top to prevent tampering and /or fuel contamination. May be installed inside or outside generator set skid rails. Fuel level gauge - Provides direct reading, top mounted. Available with electronic sending. Modular tank design - Generator set support and mounting design accepts multiple Cummins Power Generation generator sets within engine platforms. E nclosure compatible - Accepts drop -over weather protective and sound attenuated enclosures. Tank to foundation ground clearance - Allows for visual secondary containment leak detection. Tank top mounting bracket - Provides mounting for (optional) pump and control for day tank operation. Lifting rings - Eliminates the need for spreader bars. Fork lift positioning slots. Redundant fuel fill port - Can relocate inside enclosure. Spare ports - Can add extra switches or senders etc. Optional Features - Spill fill box, over fill prevention valves, high fuel switches, high fuel alarm panel, critical low fuel switch, fill down tube, fuel gauge with sender, normal and emergency vent extensions, pump, motor, and control. 02010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. Our energy working for you.' Is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -185a (9 /10) Page 1 of 0 Genset Models to Fuel Tank Part Numbers and Specifications QSB5G3 Fuel Tank P/N A030Y654 A030Y655 A030Y657 A030Y660 A030Y661 Total Capacity 168 gal 252 gal 340 gal 428 gal 559 gal LxWxH 108.4 x 65.5 x 15.7 126.4 x 65.5 x 16.7 126.4 x 65.5 x 20.7 126.4 x 65.5 x 24.7 126.4 x 65.5 x 30.7 Notes 3 & 10 w/ OFPV w/o OFPV w/ OFPV w/o OFPV w/ OFPV w/o OFPV w/ OFPV w/o OFPV w/ OFPV w/o OFPV Useable Fuel 135 148 193 224 281 305 369 390 500 515 Genset Model KW Rating @ 60 Hz (standby) Fuel Consumption at Full Load (GaVHour) Hours of Operation 60 Full Load Rating Hours of Operation 0 Full Load Rating Hours of Operation @ Full Load Rating Hours of Operation 0 Full Load Rating Hours of Operation 0 Full Load Rating DSFAA 35 3.8 36 39 51 59 74 80 97 103 132 136 DSFAB 40 4.5 30 33 43 50 62 68 82 87 111 114 DSFAC 50 5.1 26 29 38 44 55 60 72 76 98 101 DSFAD 60 5.7 24 26 34 39 49 54 65 68 88 90 DSFAE 80 6.9 20 21 28 32 41 44 53 57 72 75 ® QSB7G3 Fuel Tank P/N Fuel Tank P/N A030Y663 A030Y665 'A030Y666 A030Y667 Total Capacity 369 gal 560 gal 683 gal 956 gal 163.4 x 65.5 x 15.7 LxWxH 151.4 x 65.5 x 18.7 151.4x65.5x25.7 151.4 x 65.5 x 30.2 151.4x65.5x40.2 Notes 3 & 10 w/ OFPV w/o OFPV w/ OFPV w/o e • w/ OFPV w/o OFPV w/ OFPV w/o OFPV Useable Fuel 307 330 505 511 628 628 887 887 Genset Model KW Rating 0 60 Hz (standby) Fuel Consumption at Full Load (GaVHour) Hours of Operation 0 Full Load Rating Hours of Operation ® Full Load Rating Hours of Operation 0 Full Load Rating Hours of Operation 0 Full Load Rating DSGAA 100 8.45 36 39 60 60 74 74 105 105 DSGAB 125 10 31 33 51 51 63 63 89 89 - DSGACG 150 12.25 25 27 41 42 1> 51 51 72 72 QSL9G2 Fuel Tank P/N A030Y669 A030Y671 A030Y672 A030Y676 Total Capacity 330 gal 526 gal 966 gal 1398 gal LxWxH 163.4 x 65.5 x 15.7 163.4x65.5x22.0 163.4 x 65.5 x 36.0 163.4 x 65.5 x 49.7 Notes 3 & 10 w/ OFPV w/o OFPV w/ OFPV w/o OFPV w/ OFPV w/o OFPV w/ OFPV w/o OFPV Useable Fuel 246 290 450 477 882 895 1310 1310 Genset Model KW Rating 0 60 Hz (standby) Fuel Consumption at Full Load (Gal/Hour) Hours of Operation 0 Full Load Rating Hours of Operation 0 Full Load Rating Hours of Operation 0 Full Load Rating Hours of Operation 0 Full Load Rating DSHAB 175 14.9 17 19 30 32 59 60 88 88 DSHAC 200 16.4 15 18 27 29 54 55 80 80 DSHAD 230 18.2 14 16 25 26 48 49 72 72 Note 1: OFPV includes downtube and 2' Cam Lock Connector Note 2: Activation point is based on total fuel tank capacity Note 3: Useable capacity accounts for Over Fill Prevention Valve (OFPV) activation and unusable fuel below the suction tube Note 4: Emergency Vent Extension Kit Includes support brackets pipes for both Primary and Secondary Containment E Vents Note 5: Vent extension kits meet IFC Code 2009 of 12' above grade. Includes coupler and support bracket. Note 6: Critical Low Fuel Switch provides signal at 10% useable fuel remaining Note 7: Fill downtube terminates within 6' of primary tank bottom Note 8: Requires a High Fuel Switch Kit Note 9: Vent kits differ by model and diameter of E vent Note 10: Useable capacity accounts for 5% expansion space in top of tank and unusable fuel below the suction tube ®2010 Cummins Power Generation Inc. Ali lights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. Our energy working for you.' is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -165a (9/10) Page 2 of 6 Fuel Tank Part Numbers to Feature Part Numbers Fuel Tank Part Number Spill Box @5 Gal) OFPV 95% Activation (Note 1,2) (Note 3,10) OFPV 90% Activation (Note 1,2) (Note 3,10) High Fuel Switch 90% (Note 2) High Fuel Switch 85% (Note 2) High Fuel Alarm Panel NEMA SR,4 (Note 8) Critical Low Fuel Switch (Note 8) All Down Tube (Note 7) Fuel Gauge w/ Sender Normal Vent Extension (Note 5 .9) Emergency Vent Extension (Note 4,5,9) Pump, Control, Motor, & Switch Kit 5 Float Switch Depth 8' A030Y654 A034F063 A034F051 A034F051 A034F093 A034F095 A034F224 A034F227 A034F004 A034F268 A034F378 A034F395 0415 -0828 -01 A030Y655 A034F063 A034F051 A034F051 A034F094 A034F116 A034F224 A034F232 A034F004 A034F273 A034F379 A034F396 0415-0828-01 8' A030Y657 A034F063 A034F051 A034F051 A034F094 A034F102 A034F224 A034F234 A034F004 A034F276 A034F379 A034F396 0415- 0828 -01 8' A030Y660 A034F063 A034F052 WA A034F093 A034F116 A034F224 A034F236 A034F005 A034F279 A034F379 A034F396 0415-0828-02 15.75' A030Y661 A034F063 A034F054 N/A A034F095 A034F140 A034F224 A034F239 A034F006 A034F282 A034F370 A034F388 0415-0828-02 15.75" A030Y663 A034F063 A034F051 A034F051 A034F093 A034F116 A034F224 A034F240 A034F004 A034F275 A034F380 A034F399 0415-0828-01 8' A030Y665 A034F063 A034F052 N/A A034F093 A034F102 A034F224 A034F241 A034F005 A034F281 A034F30 A034F389 0415-0828-02 15.75' 'A030Y6 6 -I> A034F063 "P A034F054 N/A — lA034F095 A034F140 A034F F A034F242 A034F006— �A034F282 A034F3877 A034F389 0415-0828-02 15.75' A030Y667 A034F063 A034F055 N/A A034F105 A034F217 A034F224 A034F243 A034F007 A034F289 A034F366 A034F389 0415- 0828 -05 15.75' A030Y669 A034F063 A034F051 A034F051 A034F093 A034F095 A034F224 A034F227 A034F004 A034F268 A034F379 A034F403 0415 -0828 -03 9.5' A030Y671 A034F063 A034F052 A034F052 A034F095 A034F218 A034F224 A034F244 A034F005 A034F277 A034F379 A034F392 0415 -0828 -04 14.75' A030Y672 A034F063 A034F055 WA A034F102 A034F108 A034F224 A034F246 A034F007 A034F283 A034F370 A034F392 0415-0828-05 14.75' A030Y676 A034F063 A034F056 WA A034F108 A034F219 A034F224 A034F247 A034F008 A034F290 A034F367 A034F394 0415-0828-05 28' Note il-FOFPV fret ides iiowntike,`and2`.Carn'.tACk Connector Note 2: Activ or%poi It is based'6n total fuel tarik;capacity. Note'3: ` Useable capacity:acc "otiriis for Over All Prevention Vailre (OFPV)'activation:and unusable fuel below the suction tube Note'4; Ernergency;VentExtension Kitincludes-support brackets. pipes'for bothPrimary and Secondary: Containment E Vents Note 5 Verit:extension`kitsimeet IFC Code:2009, of 12l'abo've grade. includes coupler and'support bracket: Note 6 Critical t ow!Fuel Switctprovides signal. at 10% useable.fuel remaining Note 7: Fill downtube terminates within 6' of primary tank bottom Note 8 R quifes a HigFt Fdel'Switch Kit Note 9;n:Viiiie ii rddligi tiy:model and `diiametei.oftE.vent Note:10' Useable 'capa`c'ity - "accounts; for 5% expansion'. space in top of tank=and unusable fuel below the auction tube Our energy working for you.TM www.cumminspower.com 102010 Cummins Power Generation Inc. AS rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. 'Our energy working for you." is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -185a (9/10) Page 3 of 8 Power Generation Local Code Requirements Note 1 - FDEP approved rupture basin switch required Note 2 - In most states the E Vents only need to be located outside the enclosure not necessarily extended Note 3 - Depending on distance from building. Tanks should be designed with OFPV in mind. Note 4: Vent opening must be 12' above grade. Per UL 2008/2009 all openings must be equal or above top cover 02010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. 'Our energy working for you.' Is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -185a (9/10) Page 4 of 6 Base Design Michigan Ohio Florida California (exc SF) UL- = Containment X X X X X Rupture Bas Itch X X X X (1) X Low Fuel Switch 50% X X X X High Fuel Switch 90% 90% 90% 90% High Fuel Switch w/ FlII Alarm w/ Aud & Vis Alarms w/ Aud & Vis Alarms w/ Aud & Vis Alarms w/ Aud & Vis Alarms Spill Containment Include fuel lines 5 Gal - Ext 5 Gal - Ext 5 Gal 5 Gal Over FM Protection Valve (OFPV) 95% (3) 95% 9 95% Fill Down Tube <6' from bottom <6' from bottom Fire Proof Fuel Unes X X Rupture Basin Drain None Risers under Tank for Visual Inspection 2' High Risers 2' High Risers 2' High Risers 2' High Risers 2' High Risers Extended Vents (2, 4) All All All All Additional Design Criteria 110% Basin 275 Gal max FDEP for >549 gal Note 1 - FDEP approved rupture basin switch required Note 2 - In most states the E Vents only need to be located outside the enclosure not necessarily extended Note 3 - Depending on distance from building. Tanks should be designed with OFPV in mind. Note 4: Vent opening must be 12' above grade. Per UL 2008/2009 all openings must be equal or above top cover 02010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. 'Our energy working for you.' Is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -185a (9/10) Page 4 of 6 San Francisco Chicago New York City Nassau Co. Suffolk Co. UL -142 Sec Containment X X X Open Top Dike X Rupture Basin Switch X X X X Low Fuel Switch X X X X X High Fuel Switch 90% 90% High Fuel Switch w/ nil Alarm w/ Aud & Vis Alarms w/ Aud & Vis Alarms Spill Containment Include fuel lines al - Ext 5 Gal - Ext Over FlII Protection Valve (OFPV) 9 95% Fill Down Tube <6' from bottom Flre Proof Fuel Unes Rupture Basin Drain Risers under Tank for Visual Inspection 2' High Risers 2' High Risers 2 Risers Extended Vents (2, 4) All All Additional Design Criteria 275 Gal max Note 1 - FDEP approved rupture basin switch required Note 2 - In most states the E Vents only need to be located outside the enclosure not necessarily extended Note 3 - Depending on distance from building. Tanks should be designed with OFPV in mind. Note 4: Vent opening must be 12' above grade. Per UL 2008/2009 all openings must be equal or above top cover 02010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. 'Our energy working for you.' Is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -185a (9/10) Page 4 of 6 Local Code Requirements (continued) Note 1 - FDEP approved rupture basin switch required Note 2 - In most states the E Vents only need to be located outside the enclosure not necessarily extended Note 3 - Depending on distance from building. Tanks should be designed with OFPV in mind. Note 4: Vent opening must be 12' above grade. Per UL 2008/2009 all openings must be equal or above top cover 02010 Cummins Power Generation Inc. M rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. 'Our energy working for you." is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -185a (9/10) Page 5 of 6 Georgia (GEFA) Co. pass Denver) Denver Wa State (exc Seattle) Seattle/King County X UL -142 Sec Containment X X X X Rupture Basin Switch X X X X X Low Fuel Switch X X X X X High Fuel Switch 90% 90% 85% 90% 90% High Fuel Switch w/ Fill Alarm w/ Aud & Vis Alarms w/ Aud & Vis Alarms w/ Aud & Vis Alarms w/ Aud & Vis Alarms >1,300 gallon tanks Spill Containment 5 Gal - Ext 5 Gal 5 Gal 5 Gal 5 Gal Over Fill Protection Valve (OFPV) 95% 95% 90% 95 %, >1,300 gal tanks 95 %, >1,300 gal tanks Fill Down Tube Fill Down Tube <6' from bottom <6" from bottom <6" from bottom Fire Proof Fuel Lines Fire Proof Fuel Lines X Rupture Basin Drain Rupture Basin Drain Risers under Tank for Visual Inspection 2' High Risers 2" High Risers 2" High Risers Extended Vents (2, 4) All All All Normal ONLY Normal ONLY Additional Design Criteria NA for <120 gal tanks Note 1 - FDEP approved rupture basin switch required Note 2 - In most states the E Vents only need to be located outside the enclosure not necessarily extended Note 3 - Depending on distance from building. Tanks should be designed with OFPV in mind. Note 4: Vent opening must be 12' above grade. Per UL 2008/2009 all openings must be equal or above top cover 02010 Cummins Power Generation Inc. M rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. 'Our energy working for you." is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -185a (9/10) Page 5 of 6 Dallas Phoenix (AZ) Industrial Bldg Code IFC 2003 IFC 2008 & IFC 2009 UL -142 Sec Containment X X X X X Rupture Basin Switch X X X X X Low Fuel Switch X X X X X High Fuel Switch 90% 90% 90% 90% 90% High Fuel Switch w/ FM Alarm w /Aud & Vis Alarms w/ Audible Alarm at fill >1,300 gal tanks >1,300 gal tanks Spill Containment 5 Gal 5 Gal - Ext 10 Gal 5 Gal 5 Gal Over Fill Protection Valve (OFPV) 95% 95 %, >499 gal tanks 95 %, all tanks 95 %, >1,300 gal tanks Fill Down Tube <6' from bottom <6" from bottom <6' from bottom <6' from bottom Fire Proof Fuel Lines X Rupture Basin Drain Risers under Tank for Visual Inspection Extended Vents (2, 4) Normal ONLY Normal ONLY All Normal ONLY Normal ONLY Additional Design Criteria Note 1 - FDEP approved rupture basin switch required Note 2 - In most states the E Vents only need to be located outside the enclosure not necessarily extended Note 3 - Depending on distance from building. Tanks should be designed with OFPV in mind. Note 4: Vent opening must be 12' above grade. Per UL 2008/2009 all openings must be equal or above top cover 02010 Cummins Power Generation Inc. M rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. 'Our energy working for you." is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -185a (9/10) Page 5 of 6 Certifications /standards /codes NFPA uaw+u UL 142 Listed - Cummins Power Generation dual wall sub -base tanks are UL Listed (File MH45787) and constructed in accordance with Underwriters Laboratories Standard UL 142 "steel aboveground tanks for flammable and combustible liquids ", as a "secondary containment generator base tank" NFPA - Cummins Power Generation tanks are built In accordance with all applicable NFPA codes: - NFPA 30 - Flammable and Combustible Liquids code - NFPA 37 - Standard for Installation and use of Stationary Combustible Engine and Gas Turbines - NFPA 110 - Standard for Emergency and Standby Power Systems 1S09001 - This product was designed and manufactured in facilities certified to IS09001. ULC - Cummins Power Generation dual wall sub -base tanks are ULC listed (File MH45787) and constructed in accordance with Underwriters Laboratories Standard ULCS601 -7. Americas 1400 73rd Avenue N.E. Minneapolis, MN 55432 USA Phone: 763 574 5000 Fax: 763 574 5298 Europe, CIS, Middle East and Africa Manston Park Columbus Ave. Manston Ramsgate Kent CT 12 5BF United Kingdom Phone 44 1843 255000 Fax 44 1 843 255902 Asia Pacific 10 Toh Guan Road #07 -01 TT International Tradepark Singapore 608838 Phone 65 6417 2388 Fax 65 6417 2399 Warning: Back feed to a utility system can cause electrocution and/or property damage. Do not connect generator sets to any building electrical system except through an approved device or after building main switch Is open. Warning: For professional use only. Must be Installed by a qualified service technician. Improper installation presents hazards of electrical shock and improper operation, resulting in severe personal Injury and /or property damage. 02010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. "Our energy working for you.' Is a trademark of Cummins Power Generation. Specifications are subject to change without notice. AC -185a (9/10) Page 8 of 8 6 I s I 4 1' 3 I 2 I - - A RADIATOR FILL (27 511 OIL FILL AIR CLEANER (D036-21 ENEAATOR ELECTRICAL LOAD CONNECTIONS MID THREADED STUDS IA - c <- B - A F1o13010 16030631 1 e I PAwu0TIo4_RELEAXo SEE 010(1 1 • TA • TA TA 81 TA 10 05 -0T-01 00 -33 -01 2 iFE SKEET A - TA TA 10 00 -30-01 o • o o • • t, o . • ' wl��� 'I 111x, iii INN' Luc, Il .I I:.,Il. n III l I'll - A � lion 'MIL, ..7)".7A F �� /113 �__ •1 =! •' f0� NOTES: I. DIMENSIONS 58089 IN [ I ARE INCHES. 2. X25.1 TANK ATTACHMENT HOLES NARKED BY AAE FOR SUBBASE FUEL TANK LME OR SECURING TO MOUNTING SURFACE, OR SUPPLEMENTAL VIBRATION ISOLATORS. 3. GENSET SUPPLIED WITH FLEXIBLE FUEL LINES THAT CAN II ■ '�Il0IJl'A�_ C In:I,'ulL _V'II -Ji'" - r _ . -- ulu lu 01; ��, I . �. 1::�— IilZir� vi: =�S1 �II 732 [2B BU CRANK8�. - 130 [5.127 I '�!l �_ p �'uml;;vl N��- )119;•' • (� -172 BE CONNECTED TO ENGINE INTERFACE POINTS. (tl 3.1 FUEL RETURN LINE: 1061 [12] LONG WITH I /1 -I8 NPTF FUEL DRYSEAL HALE. 1.2 FUEL SUPPLY LINE: 815 0707 LONG WITH I /1 -I8 NPTF [21 65] /;y /:16116.., ,16 V -!INI �. -'�A WA.�/ � ��� iLIIJ�/MI �M����� • . 0 DRTSEAL MALE. -126 [1'981 UEL RETURN BARB 221 [8.77 ITTING UEL STUB UP 509 , [20.031 175 [6.89) 83.3 4. REFER TO CIRCUIT BREAKER OUTLINE DARNING FOR ELECTRICAL STUB -UP AREA FOR SPECIFIC BREAKERS. [3) 4.1 REFER TO SUBBASE FUEL TANK OUTLINE DRAWING FOR ELECTRICAL STUB -UP AREA AVAILABLE WITH FUEL TANKS. OPTIONAL DUCT ADAPTER (NOT SHOWN) 832 [331 FOR 3 FUEL 700 SEE NOTE 8' HOSE 3.1 1016 (40] FILTER [27.571 XHAUST CONNECTOR [21 3 INCH NPT (A299-2) UEL BARB FOR LECTRICAL 5. TABULATED WEIGHT AND C6 IS FOR GENSET WITH NO OPTIONS. SUPPLY UP FITTING SEE BNOTE 4 6 4.1 3/8' HOSE NOTE 3.2 14011 IIIIIIII IIII ��_ I FILL OIL CHECK _� ��1IIII11_�)��1 �� I 111Ti ��) SEE ;I.) • a 1111 �� -- �:: �. � :- �II7�I Q *!I8 •®l a �E 500 [19.71 1551 i —_ a 9 1 ° IRCUIT BREAKER (OPTIONAL) (SEE BREAKER OUTLINE FOR CONNECTIONS) " -� ' II\.y _ _N "�' -,� ��ft�� _^`^•- • +; .► .1.1 , 1198 [ 58 99 ] - = I ATi1 ■ _ — \ ^ _____ _ TABULATION "ii\� 1I•,!�71i� `•,vim •� .L'� II,�= �� - . , 1 Iii u � , e 6 ___ ALT DATA SHEET/ DIM 'A' DIN 'B' GEN SET MET WEIGHT kg 16 -� A o •1 e 206 1266 (19.81] 630 [21.80] 1134 (2499) •'� a o,ll• �� r _ ■ _1 207 1292 738.78 [29.11 ��•"�•� ��� 1111!71 t : r�� 208 [50.861 1317 [51.851 631 121.811 632 124.881 1180 (2602) 1225 (2700) �.� CRANK ,163 209 1312 [52.63) 637 [21.12) 1263 (2784) 52 9.1 (20.81 1 • 1 1 210 1368 [53.651 634 [24.961 1315 (2898) DIM_B _ __ _ _ 211 1393 [54.841 635 [25.001 1361 (3000) I 1 , o - 8212/213 1419 [55.1161 631 [25.07) 1456 132091 I PLEASE NOTE: DOES '1 ° IFTING SLOTS NOT INCLUDE FUEL TANK WEIGHT -4,--554 OOLANT DRAIN 13.16 + [1.7] 531 [21.031 568 [22.360 1010 140.961 ,1 2X 197 [1.761 DIN_A ILL DRAIN (21 (28.391 UEL FILTER F179 HOUSING READY SKID BASE [21.81] 1317 REAR FACE OF BLOCK IS 81 1100 (13.311 1935 [76.181 2656 1104.511 I I I I I 1 1 m 11,01.•.. 1131)1111.4).,ela mu°'mlola I. utoeto "• . T_ABEL �I C'ISe Pu® Oueuln GENSET OUTLINE (F111) :1 1'16. oo1n11A..1�r r.\ `� m T ABEL ( _ .131,1 .0)31.3 I,.. I.. Ian,I. 11 il.n 3.n . II 1 'I'IB_8ENNIN6 \/F •'108 -02.07 Entton AN TA: 3 I.rI 14)01: I /8 ,^°° "."°.e :Xfal PUT 01 0500.4690 I i' '4 11 .ibk.a 5 I 5 I 4 'r 3 I 2 I I 'Pro /ENGINEER' 8 1 B 1 4 J. 3 I 2 I 1 - 4 B " �A D C E B _ A 3997.16 [1$1.1] 71035 10 71(33501 I I I t10DUCT IOII.REL155( 1232 WA3 FI1): F213 WAS 1017 TA 0A TA TA OH TA LO 06.00 -01 05-30-01 I_ 1 •UII11111I1111• .. _• ...•. • • • • • • • • • • • • PLEASE NOTE: DOES NOT INCLUDE FUEL TANK WEIGHT 1119::: 11 ?1I /•1 Ii %! ;•![!!c • • • • • UU /111 /1UIIIP1 II����I����� • 1141 2= 71/,111 111211:46:0611 1111. :e:LAI11i 2361N.01011 • 1.II.H. II01 11I111111IIUU1 • 11II111111I111 ALT OATA SIEETI DIM 'A' DIY •0' 6ESSET WET WEINIT 301143 fICL05U1[ kg TEEI lb 115[2 WET fEIWR 0 ENCLOSURE !ALUMINUM • • • • • • eN •• I ONTROL ACCESS DOOR <1 882 DOOR SWING (4 DOORS) 001 1203 [531)1 010 QIJI 101 [13:31 II 111111 io1 0131,53:.:1 Q: 721.61 202104011 140 2177 006 1333 152.51 02 124.11 2072 [0741 1521 13 51 201 1353 153.31 03 (21.11 2111 [10561 150 1345 111 U1, [51.21 134 (23 DI 21.1 [4721 114 135771 211 1311 155.01 05 125.01 2201 14041 105 731151 I] 212/213 1425 151.11 137 (25.11 2333 150131 1751 13141 ADIATOR FILL DOOR LATCHES ARE KEY LOCKABLE AND PADLOCKABLE 1082 [42.81 I O �.ppw 0 �� O O • • = E. = IN NO IN INMI IN NO = - MI I I • • 1M MI = .- 1N1 1958.12 [77.1) • • DIM_B 523.22 (20.61 I '=• I I t •=• 223.76 [8.81 I • t DIM_A >F232 SOUND HOUSING (STEEL) W /MUFFLER 1019.21 - 876 [41.31 [34.5] 87611 -' F233 SOUND HOUSING (ALUMINUM) W /MUFFLER (34.51 [92.311 I I I I.1 I I " I..I..,- I ..4I "I...1...4 mos magma An IT Num= ••• . - T_ABEL Cue= PDmL UM= GENSET OUTL I NE :;.2.9., ' ..,.4 f.,,- 1::31/1. i !Milli Il.a •..HI 1.11 11.31. ,A...CU/ •I, oo YOrdaNR �\ Ej .. .. T ABEL ••••B_HENNIN6 .. 09 -02.37 Mm.�I�fAA.�.�.44 CU DM PGF 171111 RI 0500_4690 Il73IV 410105:2 I.lJ KALE: 1/8 .tl,. w 1 5 I 4 3 � IPre /ENBINEEI4 8 I 6 I 4 y 3 I 2 I I 4 9 A HEATERS(F01310 COLANT HEATER DUCT ADAPTER 'A D E 6 A FID2er1 I PAODOCTIOA.RELEASE De TA DG 00-11 -0/ goIS3N e 1 ADO PoI3 3D DC ID LO 12 -03 -0T ' ADD ASIO. A21011 38 DC LD ID 12 -03.07 1309 [527 _I -f " -- �--/0.I (1.6] ledil___p�lp 680 (271 • • H036: 120V, 1500 WATTS ON: 12 CONNECTION: 1220 [48'1 CORD WITH TROL CABINET HEATER NEMA 5 -15P 1IIP1 CORD END. A3 10 -125V, 50 WATTS CONNEC 1830 (6 FT/ 11071: 208V, 1125 WATTS; 339 [I3] NOTE: I. DIMENSIONS SHOWN IN [ 1 ARE IN INCHES. _ 1 } },,,}„} ° I 4 �� 11W-1".11 `. p !I 1 LOAD WITH S -IS PLUG 210V, 1500 WATTS CONNECTION: 1220 [48'1 CORD WITH NEMA 6 -i5P [212] CORD END. _-�� ' ``li _= ,I l� 8321 1 �� I•''.1�1 Ir'I � ei ''• —' - I D i • 1.ialIIIa I1i1. _ = e rrW Vii„ �_ca, �- ' t ^, \r It.-74?' �OF CRANK . - • Iw�4 Eill F 9�Iairi jr4ili: IVI' �� �i� .•�g i:_____ �+ 71 W .� u�..,' REAR FACE OF BLOCK 'III,�I - "_- 1r II �OF ���1`_i' _ ENGINE NGI L HEATER IFARSIDEI TOP ENTRY BOXES REAR FACE OF BLOCK I7(71 L RNATOR HEATER H487: 12 50 WATTS A292. 110 -125V, 100 WATTS CONNECTION: (12'1 CORD WITH CONNE ON: 2132 (7 FT/ NEMA 5 -15P (I1P1 END. CORD WI NEMA 5-I5 PLUG. EXHAUST CONNECTOR (A298, A299) B2 160 [61 T 304 [121 1.OF ENGINE 1--M.,, [45.71 REAR FACE OF BLOCK 182 [i] 7 (291 30✓�.79 [12.21 11 8 • rB► QOF CRANK [241 [3] NI " Elk_ l .ItilII (7 (228] REAR Of FACE BLOCK Q ENGINE n I I I IT 1 1 I" I Im6arr I ,aa,rlr..a,Iu m�av Ia as Ii�r1 m u auI . ImmW D -BAAEA In[ act ElTms PON91 OAT GENSET- OUTLINE OPTIO" _'. T 5 � - T ABLE .., .1 :41r ::�i i -° I .r r.r �Lm 11.13 - D- 6ILLETT + Q-OF CRANK .a 08/14/06 .m,, ArTOb I.rIaAl2: I/1 ,m 'e...rag,u,wp P6 pIO500_4662 IhilI e I e I 4 T 7 1 2 t IPre /ENGIxEE4 _ C Pr•IEMGINEEI4 6 6 4 3 1 I .L I 2 no e I I ECO-111 1}1 6 I CREATED D1A6116 EDI £2110116 PART •JTVLOI.el[u. 2911010 D C E- 8 - A F 641 [25.51 � 96 [3.81 ` p [Mare BaalV;,10 SECT ION A -A Spar. II-I /1• YPT Fmk) 11/2' APT 51n• (1•I /1' YPT Femlel SAW • IY NPT Female) S.ppl} WV ll' IPT Femlel 1414r. 1114. feral•1 495 Le. F'eI S.11r1 II -111• APT Fmk/ A rml Y ♦11 /� / / //• [19.51 111 [1.5] -�{ Elee lriwl Sf.b -Up Ar •' Spu• (3 /1' NPT Femlel 12' NPT Femlel 13/ met St14 N•..Ilag Clam! Q fmrNOT 0 Yu Emr a :e 1 11' APT Femlel 11' �PT �e 1.1 / / / / NOTES: I. TANKS ARE UL -142 / ULC-S661-07 LISTED, SECONDARY CONTAINMENT GENERATOR BASE TANK. REFER TO TANK LABELS AND REQUIREMENTS OFOR 80TH COMPARTMENTS. 2. SUBBASE FUEL TANN MOUNTING.. EXCESSIVE TWISTING OF THE FUEL TANK, WHEN FASTENING IT TO A FOUNDATION, MAT RESULT IN STRUCTURAL FAILURE OF THE TANK. TO INSURE THE INSTALLATION DOES NOT EXCESSIVELY TWIST THE FUEL TANG. THE FOLLOWING PROCEDURE MUST BE OBSERVED: 0.1 REFER TO CUMMINS POSER GENERATION a 7 II�U•_-`_. 1739 [68.51 912 [35.91 i r j j j 150 [11.31 1422 [56.01 376 [14.81 11- ''• - -I • - APPLICATION MANUAL T030 FOR GENERAL } 127 [28.61 _ 2094 3/1••10 Me.•11.9 Tlr4.1 1013 11 SET MOUNTING GUIDELINES. 2.2 AFTER PLACING SET ON FOUNDATION, VERIFY ALL Spire lt' NPT (oral.) MOUNTING PADS CONTACT FOUNDATION. Fol Fill 2.3 TIGHTEN TANK HOLD DOWN MOUNTING FASTENERS. e [82.4) 3791 S116-Up Am. Papal (1 49.11 12. RT Fee.1,) SR.,. ID' IPT Fsm le) 3. INDICATES PIPE S12E OF INTERFACE PORT ON FUEL TANN Fool 6'4ge FOR FEATURE OR OPTION INDICATED. 1. DIMENSIONS IN [ I ARE IN INCHES. 3632 [113.0) A 5. LOW FUEL LEVEL SWITCH PROVIDES AN ELECTRICAL CONTACT CLOSURE WHEN APPROXIMATELY 50% OF USABLE FUEL REMAIN IN THE TANK. ♦ _ 6. RUPTURE BASIN SWITCH PROVIDES AN ELECTRICAL CONTACT CLOSURE WHEN FLUID IS PRESENT IN THE RUPTURE BASIN. 1. TANK VOLUME - 2,585 LITERS 1683 GALL NOMINAL 2,377 LITERS 1628 GAL) MAXIMUM USABLE 8. TANN DRY WEIGHT - 1,361 kg I3,D0D Ib,I I. THIS PART IS MANUFACTURER SOURCE CONTROLLED. 766 [30.2) 4A 1193 (11.01 1661 J8 /1 [65.51 10. ALL DIMENSIONS ARE REFERENCE IIH. uem °: uidev - S. THOMAS a Y. aSOY MN= 9'6Ra OaeaTs TANK, FUEL 663 6Al [151.41 ��� m � .e .1 2•.1 1i: .ni:ii!-�:�� ee.n n. '•�S. AIIDERSON "^ 23AUG10 rt ®l i1PGF .. IOU2 I.'I min ion s,WU.. ldIDS,DO pIA030Y666 174! 6 I 6 1 4 'T 3 I 2 I I Drawing Name: A03451380 Revision: A Part Name: ADSOY888 Revision: B Sheet 1 of 2 Drawing Name: A0345413 Revision: A Pert Name: A034F051 Revision: A Sheet 1 of 2 Pro /ENGINEERI 4 3 4, 2 I W Ill o rn a srnsw le co Am rn I D C 4- B _ A ECO- 110741 A I PRODUCTION RELEASE GJT VLO L.AMRLRSOM 01SEP10 F ...T.N.lb....11111,1111111." NOTES: I. THIS PART IS MANUFACTURER SOURCE CONTROLLED. 2. ALL DIMENSIONS ARE REFERENCE 3. DESCRIPTION: F INTEGRAL MECHANICAL TEST MECHANISM. VALVE DESIGN ALLOWS FOR A FULL FLOW UP UNTIL SHUT -OFF HEIGHT. O A 111 111 _ _______ VALVE FLOW RATE IS 60 GPM AT 60 PSI. 4. REQUIREMENTS: A PRESSURIZED TIGHT FILL CONNECTION IS REQUIRED FOR OPERATION. THIS VALVE SHOULD BE USED IN CONJUNCTION WITH A GAUGING 499.2 OR WARNING SYSTEM. 10 PSI 1. 5 GPM ARE THE MINIMUM PRESSURE AND FLOW REQUIREMENTS. FOR VALVE OPERATION. THE MAXIMUM OPERATING PRESSURE IS IOD PSI. -..— 240.6 A - _ j rA- .• j95413.3 11/2 NPT PIPE NIPPLE SECTION F -F TABULATION PART NUMBER CURRENT_ER DIM_A SECONDARY_TANK_DEPTH A034F051 ECO- 110141 - 219.4 -406.4 A034F052 ECO-110741 157.0 508 -558.8 ..A034F054 ECO- 110141 370.0 635-762 A034F055 ECO- 110141 522.0 787.4-939.8 A034F056 ECO-I10141 741.0 1143 OXESS MIO1a SrrnnEA Au MieErsloa 420 II nwlehn .•• sa G. THOMAS Dumps PO®t GBBiATW m NOT sa• Ma i� V% " V. OLSON r ± I o .0 t 1.0 .IM±1.51 0.00- 4.00 .0.151 -0.R0 4 5.10- 0.00 40.001-0.10 10.10 -07.11 .0.101-0.17 17.10W.11 0.101 0.13 .Tn S. ANDERSON VALVE A`n U1SEP10 SITE CORE AlIG TOL: 3 .0'I SCALE: , as IlA�aw• °:a�� DS, •DO PGF c I A034S413 1.11 A T 1 Drawing Name: A0345413 Revision: A Pert Name: A034F051 Revision: A Sheet 1 of 2 Drawing Name: A034S303 Revision: A Pelt Name: A034F063 Revision: A Sheet 1 of 2 Pro /ENGINEER) 4 3 2 ) 1 y Cl. 1 1 10 1 111111 [0 "w 11 111.10 111.10 1R D C E- B - A ECO- I(0741 A I RELEASED PRODUCTION OJT VLO S.AND(RSON 31AUG10 4, NOTES: 27210.7 31212.3 o o 0 I. THIS PART IS MANUFACTURER SOURCE CONTROLLED. 2. ALL DIMENSIONS ARE REFERENCE 3. DESCRIPTION: I. SPILL BOX CAPACITY W/ ACCESSORIES INSTALLED IS 20 I (5.3 GAL). 2. PADLOCKABLE 31912.6 r_ ONTINUOUS HINGE 27310.7 v / c + -�_, u_, OUPLING (2') 1.:6==i4 14.11 LOSE NIPPLE (2') ITC171 7C77' NION (2') 11x10711 magi Au f11mm An a nwltxn — • A. G. THOMAS [Vy� Woos PO®( G[38tA101 to m Wee Ken /.\� \ -/ r ° V. OLSON 1 t 1 e 0 0.S .NAt0.37 0.00- 4.n .0.15/.0.07 5.00- f.n.0.x0A-0.10 17.10 -14.11 .0.x0 /•0.13 17.50-24.11 O.soA 7.13 ..^S. ANDERSON TANK, FUEL SYSTEM • °'^ 31AUG10 SITE COOP An Tat .d� SCALE: #t �'°'xu1g , m'1....91. . •(: ADS, ADO PGF c A034F063 1:11 A T Drawing Name: A034S303 Revision: A Pelt Name: A034F063 Revision: A Sheet 1 of 2 _ Pro /ENGINEEI2l 4 3 y 2 I E R e E4 e I 1111181 A CU Am UTE - C F B A (CO -I 12054 A I CREATED DRAWING FOR EXISTING PART GJT 01.0 S.AIIDESSON XI AUG 10 I/8 NPT NIPPLE BUSHING, 1/2 NPT X 1/8 NPT BUSHING, I -1/4 NPT X 1/2 NPT F �%'\ _— =mill � �r mI'Wil �ll ,111 iir i1 ilitC ft NOTES: I. THIS PART IS MANUFACTURER SOURCE CONTROLLED. 2. ALL DIMENSIONS ARE REFERENCE FULL COUPLING, I/8 NPT FLOAT SWITCH W/ 3048 CABLE F • i =I� - 1.1 62.12 TABULATION 39.0 I— PART NUMBER CURRENT_ER DIM_A A034F093 ECO-112058 28.4 A034F094 ECO-112058 34.5 > A034F095 ECO- 112058 41.1 A034F102 ECO- 112058 53.8 A = i�` f A034F105 ECO- 112058 66.5 A034F108 ECO- 112058 91.4 Age MIIIiiii_ A034F116 ECO- 112058 48.3 - - - -- �.I•II�. A0341140 ECO- 112058 11.1 4q0:05 010.3 A034F217 ECO- 112058 109.2 A034F218 ECO- 112058 61.0 A034F219 ECO- 112058 144.8 SECTION F-F MU XTEEITIXX rrttmn ALL 1164104 A4 11 women, °� o G. THOMAS �jil twos Pa®r GOMEAml m UN mn ASA %# r" V. OLSON i ± I e .57:0.0 .11-± 0.35 o.eo- CIO .o.1SA o,oe 5.00 -1.N .0.101 -0.10 : 10.00 -17.41 .0.25/ -0.13 11.50 -2A.11 .0.701 0.11 ° 'S. ANDERSON SWITCH, FUEL LEVEL • "rr 31AUGIO SITE CODE Ale 701.: L .d l SCALE: $$k reran l0ii - ?;TL;i= IMP DS, "DO rarA aeune AA"r POT C A034S231 1 • 1 i gyp' 1 1 Drawing Name: A034S231 Revision: A Part Name: A034F093 Revision: B Sheet 1 ore -3 Pro /ENGINEERI 4 3 2 I 1 4, 16 C a 0 lA 1 MIMI A Co WO WI D C E- B A ECO- 112062 I DRAM! NG CREATED EAR EXISTING PARTS GJT DLO E.ARDERSON 01 SEP10 BUSHING, DOUBLE TAP ,0'-'"\ 1/8 NPT NIPPLE BUSHING, 1/2 NPT 0 1/8 NPT 1 -1/4 NPT o 1/2 NPT X III;i1' NOTES: I. THIS PART IS MANUFACTURER SOURCE CONTROLLED. 2. ALL DIMENSIONS ARE REFERENCE (I FLOAT SWITCH W/ 3048 (10') CABLE FULL COUPLING ■ Il8 NPT 010.3 TABULATION PART NUMBER CURRENT_ER DIM_A A034F227 ECO-112062 198.1 A034F232 ECO- 112062 221.0 A034F234 ECO-112062 312.4 A034F236 ECO- 112062 403,9 A034F239 ECO- 112062 541.0 A034F240 ECO- 112062 266.7 A ���` �t A034F241 ECO- 112062 426.7 ,1'/, yy�� v A034F242 ECO- 112062 530.9 I'= _n_�.���= A034F243 ECO- 112062 759.5 . _ _ • A034F244 ECO- 112062 348.0 SECTION % -X A034F246 ECO-112062 660.4 A0341247 ECO- 112062 975.4 aA2a urznle OPECIFC/ 4u 1laalnl a2 MI nulMNtn1 •. �- .. G. THOMAS Caws Poem GBERATICN MOr M:a. Pna /. \� V% m V. OLSON I * 1 u .1 *0.1 u± 035 0.10- 4.11 .0.151 -0.10 " 5.00-/./1.0.201 -0.10 g 10.00-17.41 .0.20/0.13 17.50 -24.11 0.20/ 4.13 rz- S. ANDERSON SWITCH,FUEL LEVEL 0`rz 01SEP10 SITE COOS 410 TOE:* ..rI ECALE: 11011rz2 Torsi 'a,IN7 ..IDS PGF rI A034S453 11:'111• Drawing Name: A034S453 Revision: A Pert Name: A034F227 Revision: B Sheet 1 of 2 Drawing Name: A034S268 Revision: A Part Name: A034F268 Revision: B Sheet 1 of 2 Pro /ENGINEERI 4 3 2 1 1 4. la 10 Ill e 1 100001 111 CO KO .a D - C 4- B - A ECO-112050 A I CREATED DRAW! NG FOR El 1ST I NG PART GJT VLO S. UNARM 30AUG10 I I NOTES: 240-30 OHM SENDER � I. THIS PART IS MANUFACTURER SOURCE CONTROLLED. • 2. ALL DIMENSIONS ARE REFERENCE .fr♦ur•m -,. TABIA.ATION PART NUMBER CURRENT_ER DIM_A A034F268 ECO-112050 186.0 A034F273 ECO- 112050 211.0 A034F275 ECO- 112050 261.0 III A034F276 ECO- 112050 315.0 6034F211 ECO- 112050 3445.0 A034F219 ECO- 112050 411.0 15.0° A034F281 ECO-112050 436.0 *- A034F282 ECO- 112050 561.0 A034F283 ECO- 112050 100.0 A034F289 ECO- 112050 158.0 A034F290 ECO-112050 965.2 aaa lu a1a n eua u .° .. G. THOMAS Mums POEM OEPERATO1 m MT "Z rmr 5. V. OLSON 1 31 o. .0 t 0.o .:3t f.SO 0.00- 2.11•0.IL5.10 u 0.00- f.41 .0.x51 -0.15 g 10.50-01.11 •0.301 -0.17 ❑.so -tA.ff 20.30/ 0.13 /.1 \% ,,...S. ANDERSON KIT, FUEL TANK °R 30AUG10 uTE coo[ A6 TM: t .�I SCALE: #i � 0 ° - a.n..f• L q IDS ADO PGF C I A034S268 I1='"I A 1 Drawing Name: A034S268 Revision: A Part Name: A034F268 Revision: B Sheet 1 of 2 - Pro /ENGINEERI 4 3 2 1 I 4, 1a . 111 III 1 10113010 NI r. AM MR 0 - F 8 — A ECO- 112012 A I DRAWING CREATED FOR EXISTING PART GJT VLO S.ARDERSON 30AUG10 BRACKET 'A' TABULAMMN NOTES: I. THIS PART IS MANUFACTURER SOURCE CONTROLLED. 2. ALL DIMENSIONS ARE REFERENCE PART NUMBER CURRENT_ER DIM_X DIM_Y BRACKET -) A034F366 ECO- 112042 2438.4 1977.5 A BRACKET 'B' A034F367 ECO- 112042 2438.4 1851 B A034F370 ECO- 112042 2143.2 1854.2 A A034F311 ECO- 112042 2743.2 1979.5 B A034F378 ECO- 112042 3048 1854.4 A A034F319 ECO- 112042 3048 1854.4 B • tc A034F380 ECO-112042 3048 1980.4 C BRACKET 'C' — BRACKET F 2' NPT [060.3 F / (UNPAINTED ALUMINUM) r X Y l SECTION F -F mISS 017 1n3X ar01r1n ALA e.Xmou u[ a 11w1[1XU '.. • Y. G. THOMAS `J Cams Pavel GE3aA7NlA m mf s... muff #% V V r " V. OLSON 1 3 1 .0 J: op .0E±0.30 0.00- 4.11 0.131 0.00 W 3.00- 1.11'0.01 -0.10 g 10.00 -11.40 '0.231 -0.13 17.30 -21.110 10.301 0.13 °^ S. ANDERSON VENT, FUEL TANK • 1.. 30AUG10 MEOW Ala mt. A: .el SCALE: arm uq x"7,1•:4 I�p$, DO PGF I A034S170 1171 I I Drawing Name: A034S170 Revision: A Part Name: A034F386 Revision: B Sheet 1 of 2 O - 9 _ A Pro /ENGINEEAI a 6 4 1, I I 3 SEISMIC INSTALLATIONS NOTES: I. THE DESIGN OF POST- INSTALLED ANCHORS IN CONCRETE USED FOR THE COMPONENT ANCHORAGE IS PRE - QUALIFIED FOR SEISMIC APPLICATIONS IN ACCORDANCE WITH 'ACI 355.2' AND DOCUMENTED IN A REPORT BY A REPUTABLE TESTING AGENCY. (EX. THE EVALUATION SERVICE REPORT ISSUED BY THE INTERNATIONAL CODE COUNCIL) I ECO- 1011574 C I 2 ADD MISERS DM. RSPB, S 66PC ADD INC 2005 TABLE COLUMN. BUR CRS BAR CRS CIS CRS O40E111 041E011 A 4 UPDATE TABLE DATES SEE SKEET 2 BUR CRS DOR CRS CRS CRS 04FEB11 0400011 S SEE SDCET S BUR GIS CRS 040E011 2. ANCHORS MUST BE INSTALLED TO AN EMBEDMENT DEPTH AS RECOMMENDED IN THE PER - QUALIFICATION TEST REPORT AS DEFINED IN NOTE I. FOR 'IBC 2000' AND 'IBC 2003' APPLICATIONS, THE MINIMUM EMBEDMENT MUST BE 8X THE ANCHOR DIAMETER. 3. ANCHORS MUST BE INSTALLED IN MINIMUM 4000 PSI COMPRESSIVE STRENGTH NORMAL WEIGHT CONCRETE. CONCRETE AGGREGATE MUST COMPLY WITH 'ASTM C33 ". INSTALLATION IN STRUCTURAL LIGHTWEIGHT CONCRETE IS NOT PERMITTED UNLESS OTHERWISE APPROVED BY THE STRUCTURAL ENGINEER OF RECORD. 4. ANCHORS MUST BE INSTALLED TO THE TORQUE SPECIFICATION AS RECOMMENDED BY THE ANCHOR MANUFACTURER TO OBTAIN MAXIMUM LOADING. 5. ANCHORS MUST BE INSTALLED IN LOCATIONS SPECIFIED ON THIS INSTALLATION DRAWING. 6. WIDE WASHERS MUST BE INSTALLED AT EACH ANCHOR LOCATION BETWEEN THE ANCHOR HEAD AND EQUIPMENT FOR TENSION LOAD DISTRIBUTION. WIDE WASHERS MUST BE SERIES 'W' OF AMERICAN NATIONAL STANDARD TYPE 'A' PLAIN WASHERS (ANSI BIB.22.1 -1965, R1915) WITH THE NOMINAL WASHER SIZE SELECTED TO MATCH THE SPECIFIED NOMINAL ANCHOR DIAMETER. R E Q U I REMENTS FOR GENSETS D - DSOAA, MAT? DSGAC DSFAE, DSFAD, DSFAC, DSFAB, DSFAA PARAMETERS IBC 2009/2006 IBC 2009/2006 IBC 2003/2000 IBC 2003/2000 Sds < =1.03 1.93<SdsO'2.28 Sdsc_2.41 Sds< =2.46 Ip < =1.5 Ip< =1.5 Ip < -1.5 Ip< =1.5 ap /Rp< =1.25 apIRpc =1.25 apIRp< =1.0 op /Rp< =1.0 2 /h< -1.00 tlh < =0.71 z /h < =1.0 E /h< 0.91 1. CONCRETE FLOOR SLAB AND CONCRETE HOUSEKEEPING PADS MUST BE DESIGNED AND REBAR REINFORCED FOR SEISMIC APPLICATIONS IN ACCORDANCE WITH 'ACI 318'. THE DESIGN LOADS SHALL BE TAKEN AS THOSE PUBLISHED ON THIS CUMMINS INSTALLATION DRAWING. 8. ALL THE PRE QUALIFICATION TEST REPORT AS DEFINED IN NOTE OR <- B _ A A MINIMUM OF ISD THE ANCHOR EMBEDMENT DEPTH, WHICHEVER IS LARGEST 9. ALL HOUSEKEEPING PADS MUST BE DOWELLED OR CAST INTO THE BUILDING STRUCTURAL FLOOR SLAB AND DESIGNED FOR SEISMIC APPLICATION PER 'ACI 318' AND AS APPROVED BY THE STRUCTURAL ENGINEER OF RECORD. 10. WALL MOUNTED EQUIPMENT MUST BE INSTALLED TO A REBAR REINFORCED STRUCTURAL CONCRETE WALL THAT IS SEISMICALLY DESIGNED AND APPROVED BY THE ENGINEER OF RECORD TO RESIST THE ADDED SEISMIC LOADS FROM COMPONENTS BEING ANCHORED TO THE WALL. II. FLOOR MOUNTED EQUIPMENT (WITH OR WITHOUT A HOUSEKEEPING PAD) MUST BE INSTALLED TO A REBAR REINFORCED STRUCTURAL CONCRETE FLOOR R E Q U I REMENTS F O R GENSETS DSHAD, DSHAC, DSHAB DGHE, DGHD, DGGD DSKCA, DSKBA, DSKAB, DSKAA GGLB, GGLA) (GGMC, GGMB, GGMA GGHH, GGHG, GGHF, GGHE, GGFE, GGFD GGPA, GGPB, GGPC THAT IS SEISMICALLY DESIGNED AND APPROVED BY THE ENGINEER OF RECORD TO RESIST THE ADDED SEISMIC LOADS FROM COMPONENTS BEING ANCHORED TO THE FLOOR. IBC 2009 IBC 2006 IBC 2003 IBC 2000 12. WHEN INSTALLING TO A FLOOR OR WALL, DEBAR INTERFERENCE MUST BE CONSIDERED. Sds< -2.28 Sds< =2.28 Sds < =2.46 Sds c =2.16 13. ATTACHING SEISMIC CERTIFIED EQUIPMENT TO ANY FLOOR OR WALL OTHER THAN THOSE CONSTRUCTED OF STRUCTURAL CONCRETE AND DESIGNED TO ACCEPT THE SEISMIC LOADS FROM SAID EQUIPMENT IS NOT PERMITTED BY THIS SPECIFICATION AND BEYOND THE SCOPE OF THIS CERTIFICATION. PARAMETERS Ip< =1.5 Ip< =1.5 Ip< =1.5 I1>< =1.5 14. ATTACHING SEISMIC CERTIFIED EQUIPMENT TO ANY FLOOR CONSTRUCTED OF LIGHT WEIGHT CONCRETE OVER STEEL DECKING IS NOT PERMITTED BY ap /Rp< =1.25 ap /Rp< =1.25 ap /Rp< =1.0 ap /Rp< =1.0 THIS SPECIFICATION AND BEYOND THE SCOPE OF THIS CERTIFICATION. t /h< -1.0 z /hc =1.0 t /h < =1.0 z /h< -I.0 15. ATTACHING SEISMIC CERTIFIED EQUIPMENT TO ANY CONCRETE BLOCK WALLS OR CINDER BLOCK WALLS IS NOT PERMITTED BY THIS SPECIFICATION AND BEYOND THE SCOPE OF THIS CERTIFICATION. 16. INSTALLATION UPON A ROOFTOP STEEL DUNNAGE SHALL BE COORDINATED WITH THE STRUCTURAL ENGINEER OF RECORD. 11. INSTALLATION UPON ANY ROOFTOP CURB SHALL BE COORDINATED WITH THE CURB MANUFACTURER AND THE STRUCTURAL ENGINEER OF RECORD. ANY CURB OR CONCRETE PAD THAT SUPPORTS THE GENSET UNIT IS BEYOND THE SCOPE OF THIS CERTIFICATION. 18. CONNECTIONS TO THE EQUIPMENT, INCLUDING BUT NOT LIMITED TO CONDUIT, WIRING FROM CABLE TRAYS, OTHER ELECTRICAL SERVICES, DUCTING. PIPING SUCH AS EXHAUST, STEAM, WATER, COOLANT, REFRIGERANT, FUEL, OR OTHER CONNECTIONS, ARE THE RESPONSIBILITY OF THE INSTALLING CONTRACTOR AND BEYOND THE SCOPE OF THIS DOCUMENT. TYPICAL REQUIREMENTS FOR THESE CONNECTIONS ARE STATED IN THE EQUIPMENT INSTALLATION MANUAL. SPECIAL CONSIDERATIONS FOR SEISMIC APPLICATIONS ARE AS FOLLOWS; CONNECTIONS TO NON- ISOLATED COMPONENTS OR EQUIPMENT NAY BE INSTALLED AS TYPICAL FOR THAT PARTICULAR APPLICATION. CONNECTIONS TO ISOLATED COMPONENTS (EX. BREAKER BOX BOLTED DIRECTLY TO AN ISOLATED GENSET) OR ISOLATED EQUIPMENT (EX. AN ENCLOSED GENSET MOUNTED ON EXTERNAL ISOLATORS) MUST BE FLEXIBLY ATTACHED. THE FLEXIBLE ATTACHMENT MUST PROVIDE FOR ENOUGH RELATIVE DISPLACEMENT TO REMAIN CONNECTED TO THE EQUIPMENT AND FUNCTIONAL DURING AND AFTER A SEISMIC EVENT. niuw01Qim»°uwihn -. w 6-SE ENESS Cams P® GBENRTLI INSTALLATION, GENSET SEISMIC REQUIREMENTS p I A029J530 I1al! ='.1 t�.1 L I.A - .Il 4.13/4.04 I.»- R.33.m3.1t 41:4:3 3.m3:1: MAN-14.110 .1.11/4.11 DR �' qB IIBa A.e '% m B LFNNANN ••+ B1ANNANN "^ 03- 11-DI is ALI . SITE R PGF .M "...'k .rl w1E: III COB�IIYIL , inia' 3(ia I 1 T 3 2 I 6 5 4 Drawing Name: A029J531 Revision: C Part Name: A029J530 Revision: C Sheet 1 of 0 0 g Pre /ENGINEER/ B B 4 I I Y 3 1 2 • 1 I o C B _ A ECM-IDR14 C BED IOW IS BSA CIS CO IO[WI1 ROOF MOUNTED GENERATOR SETS CUMMINS GENSET MODEL RANGE CONFIGURATION CONCRETE ANCHORS ANCHOR EMBEDMENT ANCHOR SPACING DISTANCE TO THE NEAREST EDGE CONCRETE SLAB THICKNESS 1 DSHAD, DSHAC, DSNAB 1045,144:1.361 SKID /TARN /ENCLOSURE (OTT 1) 3//' DIA. HOP DUC31-1000H CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 10' MIN. 254mm MIX. 30' MIN. 762mm MIN. 15' MIN. 381mm MIN. 15' MIN. 38Imm MIN. 2 DSHAD, DSHAC. DSNAB 11.364Sd44:2.28) SKID /TANK /ENCLOSURE FOR THIS APPLICATION SEE DIAGRAM ON SHEET tl SEE TABLE ON SHEET 11 SEE TABLE ON SHEET t1 SEE TABLE OH SHEET t1 SEE TABLE ON SHEET t4 3 DSHAD, DSHAC, DSHAB (045,144 -2.28) SKID WITH OR WITHOUT ENCLOSURE IOTY 41 3/4' DIA. USP DUC34 -1000H CONCRETE ANCHORS THOU THE BASE RAIL MOUNTING HOLES. 10' MIN. 2511m MIN. SO' MIN. 762mm MIN. 15' MIN. 38Imm HIM. IS' MIX. 38Imm MIN. 4 DSGAA, DSGAB, DSGAC 104Sds<:I.35) SKID /TANK /ENCLOSURE (OTT 41 3/4' DIA. USP DUC34 -1000H CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. ' MIN. 2 101S MN. 0 MIN. ' 3 730' MIN. IS' MIN. 38Imm MIN. IS' MIN. 38Imm MIN. 5 OKRA, OSCAIO.DSGAC 11.354564 =I.m SKID /TANK /ENCLOSURE FOR THIS APPLICATION SEE DIAGRAM ON SHEET NO SEE TABLE ON SHEET 65 SEE TABLE ON SHEET IS SEE TABLE ON SHEET IS SEE TABLE OH SHEET tS 6 OSGAA, DSGAB, DSGAC 1045,144:1.93) SKID WITH OR WITHOUT ENCLOSURE (OTT 4) 3/4' DIA. USP DUC34 -1000H CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 10' MIN. 254mm MIN. 30' MIN. 762mm MIN. 15' MIN. 38Imm MIN. 15' MIN. 38Imm MIN. 7 DSFAE. DSFAD, DSFAC, DSFAD. DSFAA, DGHE, DGHD, DGGD (085,144:2.281 SKID /TANK /ENCLOSURE (OTT 11 3/4' DIA. USP 0UC34 -1000H CONCRETE ANCHORS THOU THE BASE RAIL MOUNTING HOLES. 10' MIN. 254as MIN. 30' MIN. 762mm MIN. IS' MIN. 38Imm MIN. 15' MIN. 38Imm MIN. 8 DSfAE, DSFAD, DSFAC, DSFAB, DSFAA, DGNE, DGHD, DGGD (O <Sd,< -2.28I SKID WITH OR WITHOUT ENCLOSURE (OTT 1) 3/1' DIA. USP DUC JI -I000H THE BASE CONCRETE 10' MIN. 254rm MIN. 30' MIN. 762mm MIN. I5' MIN. 38Imm MIN. IS' MIN. 38Imm MIN. 9 DSKCA, DSKBA, OSKAB, DSFAA 10<Sds4:2.28) SKID /TANK /ENCLOSURE (OTT 1) 3/4' DIA. USP DUC34 -500L CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 5' MIN. 121mm MIN. IS' MIN. 38Imm MIN. 7.5' MIN. 190.Smm MIN. 1.5' MIN. 190.5mm MIN. 10 DSKCA, DSKBA, DSFAB. DSKAA 10<Sds<:2.28) SKID WITH OR WITHOUT ENCLOSURE (OTT 1) 3/4' DIA. HILTI KB -ED CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3 -3/1' MIN. 95.25® MIN. 7.5' MIN. 190.Smm MIN. 10' MIN. 251mm MIN. 6' MIN. 152.Imm MIN. II GGHH, GGHG, GORE, GGHE 1045,144:2.281 SKID WITH OR WITHOUT ENCLOSURE (OTT 1) 3/4' DIA. USP DUC34-1000H CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 10' MIN, mm 25l MIN. 30' MIN. 762mm MIN. 15' MIN. 38Imm MIN. 15' MIN. 38Imm MIX. (2 GGFE. GGFD (045,1, "2.28) SKID WITH OR WITHOUT ENCLOSURE (OTT I) 3/4' DIA. HILTI 110-72 CONCRETE ANCHORS THOU THE BASE RAIL MOUNTING HOLES. 4-3/1• MIN. (20.65mm MIN. 9.5' MIN. 211.3 MIN. mm 9' MIN. 228.6mm MIN. 8' MIN. 203.2mm MIN. 13 6GNL, GGMB. GGNA, GGND 104$444:2.28) 5,144:2.28) WITH OR WITHOUT ENCLOSURE (OTT /) 5l8' DIA. HILTI KB -TZ CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3 -I /8' MIN. 79, 3Bmm MIN. 6-I /1' MIN. (58.75mm MIN. 7' MIN. 177.8mm MIN. 5• MIN. 127mm MIN. 14 GGLB, GGLA I04Sd44:2.28) SKID WITH OR WITHOUT ENCLOSURE (OTT 11 3/1' DIA. USP DUC34 -1000N CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 1 NIX, 2500' ' MIN. 30' MIN. 762mm MIN. 15' MIN, 381ma MIN. 15' MIN. 38Imm MIN. IS GGPA, GGPB, GGPC f0<Sd44:2.271 SKiD WITH OR WITHOUT ENCLOSURE (OTT 1) X161190/10 HILTI HDA -P CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 7.5' MIN. (15.Smm MIN. 39' MIN. 990.Gmm MIN. 12' MIN. 30 /.Bmm NIX. 12' MIN. IO /.BMm MIX. nior:r°uwiA4n w GJERNESS {Itt 4 t Ours Pa= Omuta INSTALLATION, GENSET SEISMIC IUOII I(ICIIt .w .n 1.14, 1.0 .......... a. W LEHMANN 1 .Il.., .IIl,.w .p -i.41 ".tw -1.13 -n.41 ,1.i,hLU n.31 x4.11 1.w, 1.13 �� \. 0.W-LEHNAMM qe D3-11 0I AA RC. Ili 64.0 I/I qqq, ".XIALL� PGF pI A029J530 11:41! 8 I B I 4 T 3 3 I 1 Drawing Name: A029J531 Revision: C Pert Name: A0219J530 Revision: C Sheet 2 06 D - C B _ A Pre /ENGINEER B B d I I 3 V I 2 I I • m sa[eu g - C B - A (CO- llesll C s ADD Rw a ea as cis GRADE MOUNTED GENERATOR SETS CUMMINS GENSET MODEL RANGE CONFIGURATION CONCRETE ANCHORS ANCHOR EMBEDMENT ANCHOR SPACING DISTANCE TO THE NEAREST EDGE CONCRETE SLAB THICKNESS 1 DSHAD, DSHAC, DSHAB (04Sd14-2.28) SKID /TANK /ENCLOSURE 1077 41 3/4' DIA. USP DUC34 -5001 CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 5' MIN. 127mm MIN. IS' MIN. 381.4 MIN. 7.5' NIX. 190.5.4 MIN. 1.5' MIN. 190.5.4 MIN. 2 DSHAD, DSHAC, DSHAB (O<Sd1 <_2.28) SKID WITH OR WITHOUT ENCLOSURE (OTT /I 3/1• DIA. HILTI KB-T2 CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3-3/1' MIN. 95.25mm NIN. 7.5' MIN. I90.5mm MIN. 10' MIN. 25lmm NIN. 6' MIN. IS2.lmm MIN. 3 1045ds<:1.93> SKID /TANK /ENCLOSURE IOTY I) 3/4' DIA. USP DUC31-500L CONCRETE ANCHORS THOU THE BASE RAIL MOUNTING HOLES. 5' MIN. 127.4 MIX. WHIN. 381.4 MIN. 1.5' MIN. 190.5.4 MIN. 1.5' MIN. 190.5.4 MIN. DovAA, 1348, DSGAC 1 DSGAA, 000AB, DSGAC 10(Sds4:1.931 SKID WITH OR WITHOUT ENCLOSURE IOTY 41 311' DIA. USP DUC31 -550L CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 5' MIN. 127.4 NIN. WHIN. 38141011111. 1,5' MIN. 190.5.4 MIN. 1.5' MIN. 190.5.4 MIN. 5 DSFAE. DSF AO, DSFAC, TAB, DSFAA. DGHE, DGHD, DGGD (0 <Sds< =2.281 SKID/TANK/ENCLOSURE !OTT II 3/1' DIA. HILTI KB-T2 CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3 -3/4' MIN. 95.25.4 MIN. 7,5' MIN. 190.5cm MIN. 10' MIN. 254mm MIN. 6' NIN. 152.4co MIM. 6 DSFAE, DSFAD, DSFAC, DSFAB, DSFAA, DGHE, DONS, DGGD (O<Sds <:2.281 SKID WITH OR WITHOUT ENCLOSURE 10TY 41 3l1' DIA. HILTI KB -T1 CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3-3/4' MIN. .4 95.25 MIM. 7.5' MIN. 190.Smm MIN. IS' MIN. .4 251 MIN. 6' MIN. .4 152.1 MIN. 7 DSKCA, DSKCA, DSKAB, DSKAA ID <S45<:2.28) SKID /TANK /ENCLOSURE INTO 41 3/4' DIA. HILTI KB-TO CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3 -3/4' MIN. 95.25.4 MIN. 7.5' MIN. 190.5mm MIX. 10' MIN. 251.4 MIN. 6' MIX. 152.1.4 MIN. 8 DSKCA, DSKCA, DSHAB, DSKAA (0 <Sd14:2.28) SKID WITH OR WITHOUT ENCLOSURE fOTY 1) 3/4' DIA. HILTI KB -T2 CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3-3/4' MIN. 95.25.4 MIN. 7.5' MIN. 190.Smm MIN. 10' MIN. 251.4 MIN. 6' NIN. 152.1.4 MIN. 9 G6HH, GGNG, GGHF, GGHE 10 4Sd44:2.28) SKID WITH OR WITHOUT ENCLOSURE IOTY NI 3/4' DIA. HILTI KB-TI CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3 -311' MIN. 95.25.4 MIN. 7.5' MIN. 190.5.4 MIN. NIN. 25l10' .4 NIN. 6' NIN. 152.lmm MIN. 10 GGFE. GGFD l0 <Sd s<_2.28) SKID WITH OR WITHOUT ENCLOSURE (STY 11 3 /4' DIA. HILTI KB-77 CONCRETE ANCHORS TARS THE BASE RAIL MOUNTING HOLES. 3-3/4' MIN. 95,25.4 MIN. 7.5' MIN. 190.5.4 MIN. 10• MIN, 251.4 NIN. 6' MIN, 152.1.4 MIN. II GGNG, GONG, GGMA, GOOD (0<Sd1 <: 2'28) SKID WITH OR WITHOUT ENCLOSURE fOTT 41 5 /8' DIA. HILTI KB-i2 CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3 -1/8' MIN. 79.38mm MIN. 6 -I /4' MIN. I58.75mm MIN. i' MIN. 177.8cm NIN. 5' MIN. 127.4 MIN. 12 GGLB, GGLA (04544 “2.28) SKID WITH OR WITHOUT ENCLOSURE IOTT 11 3/1' DIA. HILTI KB -T2 CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3.3/1' MIN. 95.25 MIN. .4 7.5' MIN. 190.5 MIN. .4 10' MIN. 251 MIN. .4 6' MIN. 152. tom MIN. 13 GGPA, GGPB, GGPC C0<Sd1<:2.27) SKID WITH OR WITHOUT ENCLOSURE INTO 41 5/8' DIA. HILTI NB -T2 CONCRETE ANCHORS THRU THE BASE RAIL MOUNTING HOLES. 3 -1 /8' MIN. 19.38.4 MIN. 19' MIN. 990.6mm MIN. 6' MIN. 152.1.4 MIN. 6• MIN. 152.1.4 NIN. Aw m -. Ie G- WERXESS Inc cm CIKRee P® �aTO1 INSTALLATION, GENSET SEISMIC IEDU IREUEITS 11.131.1 M I ,�.i1 :li.n•3 :M3.lD 0.11 0.11 1.111 ♦.0 mm clle"I �El m W LEHMANN - W-LENNANM •n 07-19 -199 .1131.11 la All IAlcu,: I/I tIL.MAJ ALL" PGF 31 A029,1530 ]1:,I D I B I d T 3 I : 1 1 Drawing Name: A029J531 Revision: C Part Name: A029J530 Revision: C Sheet 3 of B 1 B 1 4 y 3 I 2 I I 0 — C: B I--1 in MA D — O B — j@RAa 6 I HOSED NOTES i ! s • NJ, 00 w OPTIONAL MOUNTING 158.1 (6.217 OPTIONAL MOUMTIN �� I I _ `� `• l SEE SHEET ! - AR SO RI MIJAA01 A g } 158.1 [6.24) I MOVED MOTES i t ! To SHEET 16 ROVED MOTE FLAGS TO MATEM - AJA NO RV lIJAAOt — — — _ (j 0 I _ _ _ [18181 REAR BLOCK _ — _ 1 , [18.28) T _ _ _ ( o I J 0 .. • •, n FFEAtif o o I'C'I NOTES: I. DIMENSIONS SHOWN IN ) ARE IN INCHES. .NS. SHUNT TRIP HAS NO NO INTERNAL CONTACTS. IT MUST BE USED IN CONJUNCTION WITH AUXILIARY CONTACTS TO ACCEPT CONTINUOUS APPLIED VOLTAGE. IT CAN OPERATE AT 15i OF NOMINAL VOLTAGE. © ORMALUVOL VOLTAGE AND BILLAACCEPT10MOIIENTARTXOR — — • _ _ , ) o ( o o I 461.3 BLOCK F I 414.281 [18.281 CONTINUOUS APPLIED VOLTAGE. STANDARD NOUNTINGG D STANDARD MOUNT —f & 800 AMP BREAKER: A LUG ACCEPTING (2) 3/0 -600 94m11 CONDUCTORS IS AVAILABLE iNRU ACCESSORIES. PGA PART NUMBER 0372 -1278. 1200 AMP BREAKER: ----�� \ 1 1 1 — N F_� F!F!� 158.1 1[l���Gal AVAILABLE THRUGACCESSORIES. PGA) PARTNNUMBER50332 -4279. CIRCUIT BREAKER CO GUTTER SPACE) 1161.7 [15.71] NEUTRAL BUS INSULATOR STANDOFF (3/8-16 SCREW) 1161.7 (15.71) 658 125.911 BREAKER (t) SPACE) SB A NII 0 (APPROX. CIRCUIT D (APPROX. C (MINIMUM GUTTER C (MINIMUM NEUTRA AWG 250 -500 KCNIL IN PLACES) 12 BUS S— CO \ r ^t(+:dr xl 1237 • (18.7] ppIo.i;'3 I 1. ® . ail [18.71 ��`7 I I I I I I •I • 81 1 1 A _I J _G -6 TT i_ J 1 I e o 8 Lk� 8 ° o ��. . 113 41,) — — — — 113 (17] ■ — — — — A • ° • GROUND BON • • ° GROUND BON S ABS 1/0 -500 KCMIL CU AW6 I /0-500 KCNIL CU I I 1 I 1 I I' In.) ..e 1....-....... ( >700A) rIILI eIIII -• • .tl CUIT _BR KR_OUTLINE • D 1 0500_4668 11:31 W >( <630A) " � •• a T�m« 1.1: :.Nr, ::' I : .:i : w o4n niio •+D_61LLETT ee 08 -21 -06 3?t no I1A0.A.0.A SITE cam PGF AA Ta: A: I. 'I 5004: 3/ 16 � r 8 1 5 1 4 T 3 I 2 I I IPro /ENGINEERI a 1 B 1 • y 3 I 3 ( I B D B A 1 :114(1 p I. I.... 171.'7rI of w ILJ11oo r r 11 v ®!.• .. 0000 • 1d( r- -- -" -D'� • �/'0.��� 6,J - .o� SE FOR TOP ENTRY ONLY SED FOR TOP ENTRY ONLY y B © 8 • ,--U // B V D © 8 / • • 8 8 g ®. g a • _ • ( >700A) (<630A) 00 . . A 0000 —491--__ TYPICAL CONDUIT AND WIRE 512E BASED ON NEC TABLE 310.16 AT NYC TYPICAL CONDUIT AND WIRE 512E BASED ON NEC TABLE 310.16 AT 40C BREAKER TRIP SETTING WIRE (COPPER) CONDUIT BREAKER TRIP SETTING WIRE (COPPER) CONDUIT OTT SIZE OTT SIZE OTY SIZE OTT SIZE 600 A 2 350 KCNIL 2 2.5' 1200 A 4 350 KCNIL 4 2.5' 400 A 2 3/0 2 2.0' 1000 A 3 100 KCNIL 3 3.0' I I 1 I I I 1 "' 1'm1...r. I mm■.w.. 250 A I 250 KCNIL 1 2.5' 800 A 3 300 KCNIL 3 2.5' m.a ouulm ° • ■ 1 -ABEL CYAW� PD61 Oa6um' C IRCUIT_ BRKR_OUTLINE . p 31 0500_4668 11711 3 ISO A I 2 I 1.25' m NoraN.. m T ABEL 2'r ••• .• i:: -iu 32,1::: 11 u -i: n i rnr a � . ..D- 6ILLETT p.. DB -21 -j06 IDYK: luwl.u,a,u irz ma , PGF 1013 ra . ..fl aa0 3/16 � R I B I 4 3 z I IPro /ENGINEERI 6 I B 1 4 y 3 I 2 [ I 0 _ O B A '1'1' j O O f B A 1V3241 i 2119G[6 FLAGS 1 1 5 17:127 1 PY I2UAt01 CAT# JGL36225 UL /IEC LUGS ACCESSORY SPECIFICATIONS LUG FRAME MAX AMPS NICE RANGE COPPER DIM A DIM 8 DIM C DIM D ACCESSORY DESCRIPTION CONTACT RATING INRUSH CURRENT CONNECTION TYPE O 400A 3 OR 4 POLE 62 -600 RCM 381 [IS1 176 [6.91 257 [10.11 327 [12.91 12 VDC SHUNT TRIP - 10A© COMPRESSION TERMINALS 120-16 AVG OR SMALLER TORQUE: 10 LB -IN NSJ 'E 600/690V e0 600A 3 -POLE NSDA 4-POLE 2/0-350 KCMIL I EA. FORM C I AUX CONTACT 1 TRIP ALARM 6A AT 690 VAC 2.5A AT 48 HOC, 0.3A AT 250 VDC _ 0 ODL 240V 250A 2 -POLE 14-300 RCMIL 466 [18.31 72 [2.81 295 [11.61 314 [12.41 NONE AVAILABLE ODL DADA 250A 3-POLE 14-300 KCMIL 466 [16.3] 12 [2.81 255 [101 312 [12.31 NONE AVAILABLE ® 240 O4 0 400A 11-600 KCMIL 401 [15.81 123 [4.81 251 [9.91 327 [12.91 NONE AVAILABLE � op P BOOR 3-POLE 3/0 -500 KCMIL 398 [15.71 127 [51 265 [11.21 792 [15.41 12 HOC SHUNT TRIP _ 20 YA } COMPRESSION TERMINALS I EA, FORM C 4 AUX CONTACTS . I TRIP ALARM 6A AT 240 VAC. 6A AT 480 VAC, 3A AT 600 VAC, 2.5A AT 48 VDC, 0.8A AT 125 HOC. 0.3A AT 250 VDC - FOR I OR 2 11-18-16 AVG. TOROUE: 19 LB -IN ei r� *� P 12006 3 -POLE 1 /0-500 KCMIL 389 [15.3] 170 [6.71 285 [11.21 392 [15.11 12 VDC SHUNT TRIP _ 20 VA 3 COMPRESSION TERMINALS I EA. FORM C 4 AUX CONTACTS 5 I TRIP ALARM 6A AT 240 VAC, 6A AT 480 VAC, 3A AT 600 VAC. 2.5A AT 48 VDC, 0.8A AT 125 HOC, 0.3A AT 250 VDC _ FOR I OR 2 11-18-16 ANG. TOROUE: 10 LB-IN al H IS -150 111 111 -3 /0 ANG 464 [18.3113.691 93.8 275 [10.87 327 [12.91 12 VDC SHUNT TRIP EA I FCONTACT COIL BURDEN < SW MIN LOAD . 10 me WITH 240 AC ION COMPRESSION TERMINALS 114 -910 RIG, 50 LB -IN 18-3/0, 129 LB -IN If t, 175 (II 110 -4/0 AK 454 [17.97 108 [1.25] 275 [10.61 327 [12.11 200-250 (II 3/0-350 RCMIL AUX L I TRIP ALARM 48 2.5A 125 250 0.8A 0.3A 240 6.ON {BO 600 6.08 .OA COMPRESSION TERMINALS 3/0-350 RCMIL 225 LB-IN I I I I I I I° 7 ,m I.. e 1 ....M.....,.. nm el..A. °6uiitr0 oo ... .. T_AOEL CUMIN Pin Garo C I RCU I T_BRKR_OUTL I NE • Ne N.oe�r C. ca m I ABEL •; e jE : .tM LII +'N- I.U'In-I I u:. -d. .t.ev-t.0 M0_61LLETT n.tt -u.0 .t... -t.1t .^ 08 -2�1 -101 tin [a[ INYM i.IItw[: 3/16 ti a' '�4'Teiel:u....a.m PGF 6 010500_4668 1u.51B B I G I 4 T 3 I 2 I 1 IP.e /ENGINEERI 0320_2341 0 1.30 --� [33,0] 1.38- [35,01 2.06 [52,41 1.52 [191,0] 6.22 [158,01 0 .20 [5,11 (MOUNTING HOLE) -1.38 [35,0] 4.12 [104,1] 1.38- .66 135,0) [21,91 1.76 [44,11 2.60 [66,1] 5.57 (141,51 I1.9° OFF 21.5° TRIPPED 3.44 324 T 2 [81,4] [82,41 [722,9.9 ] 5.14 [145,8] 6.66 [169,2] I9.5° ON 1.31 [34,8] 1 5.00 3.24 3.74 [127,01 [82,4] (95.1] 4.25 [108,0] 1.91 [48,51 NOTES: I. THIS PART IS VENDOR SOURCE CONTROLLED. 2. 3 POLE THERNAL-MAGNETIC 50/60 Hz. 3. SUPPLIED NITH LINE 6 LOAD LUGS 01 /0 - 4/0 AL OR CU). (200 -250 AAP 3/0 -350 4CNIL AL OR CU). 4, INTERRUPTING RATINGS UL/ CSA/ NOM 240V 65 4800/277 Vac 35 480 Vac 35 600(/347 Vac 18 600 Vac 18 IEC 947.2 Ice /Ic, 220/240 Vac 65/16 380/415 Vac 35/8 500 /525 Vac 18/4 5. 1.00' HIRE STRIP LENGTH, LUG TORQUE =225 LB-IN, 53 [13,4] 1.06 [21,0] I!III!III!III! 61!111! I 1E11C 0016 WHOM CLASSIFICATION 6 CNARACTCRISTICI CRITICAL wolf) APPROVES _9.1.646O4 01000 IMONEI DATE _93:42:40 LINE BELOW 171001 :APPLIES TO UPPER LIMIT LINE ABOVE SneOL•APPLIES TO LOWER LIMIT NO LINE WITH 1111eOL APPLIES TO 00T1 LIMITS 1FREI INSTRUCTION ISO TOLEIAMCEI ISOMETRIC VIEW Viso AMMO rlkFIImll nl.:.:1�_i1t,.e.l 151. 171101II4t77IM ... PRODUCTION P/N AMP RATING FRAME SIZE POLES CURRENT ER 0320_2341_51 250A 250 3 FRD23772 0320_2347_52 225A 250 3 FR023112 0320_2347_53 200A 250 3 FRD23772 0320_2347_54 175A 250 3 FRD23772 ACCESSORIES P/N MATERIAL CURRENT ER 0320_2347_01 0320_2347_51 FRD23772 0320_2347_02 0320_2347_52 FRD23772 0320_2347_03 D320_2347_53 FRD23772 0320_2347_04 D320_2347_54 FRD23772 Oa Own pan ,oL„oo 1 [ I ,IM 1 • 031•101 • 1141.1.4 I: D3 MN sou Parr g S 1. IIII -1111 °1 /I 8 5 M. 00KM sa .o P_LARSOII OS -Il-OS E1L.=f.0 WM _ aa1nW MAVAO o-.e ,AMPS an,rs. yl GENERAL ua. aeaW :r.e .a.e T 3 1 2 CW 6_JOHIS01 OS -12-05 a= o -E ."'. R P_LH330N OS-O2 -05 CeMt Humph. I•ESan OMR CIRCUIT_BREAKER (J-FRAME) 0320.2341 II.I I o 1 D B A e I 6 1 • y 3 1 2 1 0 - B � .. a b MT at ECOIII1a 0 1 AMTS E-ITM ICIEST t.0SLO, US 01ES • TA TA LO 01SEP01 0 C B A N TO S7-A SHEET I F208 (20A) OUT IN FS (SA) IN p O I » TO (15-1 ON SHEET 2 T— KS 1 I i TO T26 ON SHEET 3 TO TB BI ON SHEET 3 �- SPIO IN Fl IIA OUT PCC 2. (0321-1636 %011 J20 -9 J20-10 J20 -2 J20 -21 I JI2-I J20 -I3 JI2.4 JI2 -2 J20-15 JI2 -5 J 20 -3 J12-6 120 -2 J20.4 J20-7 J20-12 J22-I 320 -I 322 -2 J22-3 322 -1 320 -IN (CONFIG INPUT 11 J20-I9 JI8 -1 J20.17 (CONFIG INPUT 3) JIB -2 J18.3 J17-I 3)7 -2 XX. (FI) TO C05-13 ON SHEET 2 FIO ((OA) IN i, OUT AL T » TO SP9 ON SHEET 2 FOOA (20A) S TO SP21 ON P8 N I. � ��T SHEET 3 P20 9 P20 10 P20 20 P20 21 P20 17 P20 15 P20 -3 P20 2 P20 4 P20 7 P20 12 P20 I P20 IB P20 19 P20 17 XX- IF2) U V 1 fLl) {L2) (L3 N 4. I SP PI2 I PI2 4 PI2 2 PI2 5 PI2 6 CTI XI 61 B1 B' I BI BATT SM —1K1 5 S 1 KS KI %2/X3 61 I2V 2) X2 /X3 _ 6 6 _# CT3 G ALT B GND %2/63 t f ? TO SP13 (SHEET 2) SENSE U GND SPIT P22 I P22 2 P22 3 p22 / SENSE V OPTIONAL r-- LF GND LF - I II SENSE t SENSE X --I> OPTIONAL I— — J _ [Si C (COOLANT LEVEL) 8I P18-I P)8- 2--'\r� PI8 -3 FIOA (10A) -r SHUNT 1 v T FIOB ((OA) i I� SHUNT 2 — — — J OPTIONAL --- 11 BS, R, BSN - < FROM BI BATT ON SHEET I I - - - -, I P2 P3 I L - - - —.TO TB- ON SHEET 3 PIT I PI7 -2 — OPTION TI Q NOTE: MAXIMUM AYR SHUNT LEAD CONNECTION IS 240 VAC. WEN ALTERNATOR OUTPUT IS GREATER THAN 240 VAC, SHUNT LEAD CONNECTIONS SHALL BE MADE AT THE HALF VOLTAGE LOCATION ON THE ALTERNATOR OUTPUT TERMINAL BLOCK. 1 I I I I I I° I I,.I... 1 ...IrT.I..I.I.. O Mlln KOM/4 II eT LABEL Guam P06 Oe1MT WD- GENSET • p 1 0630_3629 III I I A:I I.n 1.1u CU W Am..L. .. .. -El m T ABEL A: I.I i .ItlI II .a 1.Y -0.II .I.a / -I.11 1 .a -ITA •l.TL.I.IA IT.a MIA I.a01.11 •. L_DENET p.�. 07 -30-07 D79'R. 1aa,a.. 11 SITS WY PUP AN TCA:3 I. /I KALE: I/1 s ,� m e 1 5 I 6 3 1 2 Pre /EMDIMEERI O - 0 9 - A [rtr11111* N I R01[ 1-PT» MOW COINER of MN �' TA IA IN 011[P01 D - O f B - A 60 PIN CONN [N85D CO2 CRANKSHAFT SPEED SENSOR IIIIII'� _ 3 II 2 • I CRANXINAFT POSITION SIGNAL CRANKSHAFT P03 1T ION RETURN 18 16 26 I 1 _ _ R50 \ SP13 auuurt 2GSmUS s wLr SUPPLY ` < FROM 81 ONO SHEET I <FROM FIO ON SHEET I PRO 120 n r,L,A,� PCC 2 • X J11 -17 IJ1959 SHELDI 111 -20 IJ1939 (NI 1II-191J19391 -)1 \ SPA c*NSRAFT POSITION PIGNAL 1 C B A '•� R51 CAMSHAFT IIIIII,'PHCANSXAFT POSITION SENSOR POSITION NFU P51 1z20n S 3 c ` � RAIL FUEL Than PRESSURE SENSOR 1 SP2 SP� SPS P11 -17 PII 20 PII 19 : 25 �� 37 28 32 LTJ n 6P7 PER IN FUEL S1S1 `P% Y SP_ 6 WATER IN ® FUEL SENSOR ®®WI 11 COS — \�U- INTAKE MAIFORLD III PRESSURE /AIR Nom' TEMPERATURE j c mn1l+n*1- *—�ir�..l 37 ,� 13 03 38 33 IS 02 32 8 O6 IS 53 51 51 55 52 56 58 2 R3 9' IRK I1 PIN SERVICE SPIT I CONNECTOR A B C D E INNA —< FROM Fl SHEET I ^ AI IY' ENGINE OIL DOPE OIL FII000010[IOUL PRESSURE III I, I�� [MINE OIL h EllOIIE MMN SENSOR I EMIR 01L Mt M POW., ./ - DETAIL A K15 /- f FROM F5 OUT SHEET I ' I S� 11 } r9 ! Junit 2 SI3I II,—,�� PI I 22 P I I 21 BAROMETRIC III PRESSURE SENSOR 3 SAID FTRI[ MUSIC SIMI. 2m °[n«""""[E[uu I -i I ILay E sraFU ■ I INIOIfR11t rIEMME 1 Mlr , ENGINE COOLANT �11��B [MINE COOLAM 1EMENAT0NE 1 PAL =A CR I 2 I 51 39 L d II�R C A IU�[I 011110 =CANT ¢IN[uTU[ 1 SENSORATURE sKEMU P25 -2 P25 6 FUEL PUMP 1 16 I h1 ro Lt WO /STRATUS ACTUATOR 2 IAA JIM[ [MINE 1.1 SAE JI939 ENGINE DATAL INK A CIF JIM [MINI I-1 a OPTIONAL REMOTE E -STOP CILIMM 110.1 ARROW PIMLI I•I. INJECTOR N I OTLIMEN 10.I ACTIONS 1[1011 1.1 - HS MO JI3 MOO M.[ AOMATM SOW, 1.1 INJECTOR B2 E J cOLIMM M.1 ACTIUM HMS I -I CRIN »I WS ACTMTq SOILS UI� ■■ .■ VIEW A -A INJECTOR B3 INJECTOR N4 E MOWN M.s SMTRATR KIM 1-I CRIMEI M.1 /STUldl 30PRr 10 cILIMM 10.4 ACTOAIUS RUM 1.1 I I I 1 1 I I° I,s1,*.■ I ....:......a tv.11aw:a uXUmau • . T_ABEL Care Paw Ormem� WD- GENSET • DI 0630_3629 1'7'1 S' •11.1» ........... `. a oa 7 ABEL ,;;., .NU 1.» i: :1031.1.1 -1.» .•61.11 11.1» -1.11 17.31 e1.n 1.w Lu •- L_DEWET .a 07.30-07 Slit UM AM TO.:: 1.1 »AM I/1 X.°'».» RWL,IL1 USGAA, ALPRF B I B I 4 T 3 I 2 I I IPro /ENGINEERI 6 1 6 1 4 .f ' 3 I 2 I I B B CUSTOMER CONNECTIONS SUPPLIED ON DINRAIL n • MIMS OK IN CO M m. im -I.Kfl D I IOTA t -Iiv cmiACl Min. to OKI - TA TA ED OfSEM D C B A ❑ 1 TB B. T NOTES: 1&. T26 OUTPUTS FUSED AT 20 AMPS. 0 ® HAS CURRENT =30 AMPS. 3. NOMINAL CONDUCTOR SIZE PER TERMINAL:26 -10 ANG. © 4. TORQUE TERMINALS TO 0.6 -0.8 Mm. FROM BI BATT ON SHEET I> FROM NS•/ ON SHEET 1 Ll = TB B. 1- ❑ ❑ T26 I FROM BI -OND ON SHEET I ) �nI D-' I T26 I- ❑ ❑ I TB B- - -❑ ❑-I TB B- I-❑ PCC 2.0 J25 -3 125-1 J25 -5 J25 -10 J25-1I J25-B J25 -12 P25 3 P25 1 P25 5 P25 10 P25-II P25 8 P2S 12 FROM SP8 ON SHEET I) SP21 SPUI5 OPPI 3 OPPI -2 OPPI - I OPPI -1 OPPI -6 OPPI.7 OPPI -S NOT USED S°I7SPQ16 SP19 SYIB 5d0 • PCC 2.2, 2.3 J29-2 J29 -I J29-3 J29-6 J29 -1 J28-3 J28 -I DISPLAY P29 2 P29-I P29 -3 P29 6 P29 -1 P28 3 P28 I HMII12 OR HMI 114 PI 4 PI -3 PI 5 JI -4 JI-3 JI -5 P6-2 J6-2 BARGRAPH P6 -1 JN -I I I I I I I I'•I ..V+.• II.I..•••... AAw•m•anauid MS 13 mu- ... .. 7 -ABEL le] CuNregPo•BIl tl WD- GENSET • p10630_3629 (ACI$ ;; . . .Iit l.r ;�:ii-�'r lE u. I •I.w -I.Ii m..1u• rn �� w re 7 ABEL ••L_DEIET AI II.M t1.11 I. MI 1.11 � r 'j•�•�^.6^7�'-30-01 wYT'�i.,�I:MiuIAA.r.IC IItt MK POE Ir IA:! It' AMU I/I 6 I 6 I 4 T` 3 I 2 I 1 IPrs /ENGINEERI 0 I 5 I 4 y 3 I 2 1 s - t: B - A CUSTOMER CONNECTIONS • .R 1. 015[105 D _ C B A «o-.u51 D W 1 FIT. O.2ACT uAQS. VAS .ES - TA TA TA LO OPTIONAL PCC PCC NET DEVICES KC NET A 10 TBI 2 1 1 I , 2 I II li 11 1S II PCC 2.X 1.5A �� e, — 3_ -S -3_ -J 0\ o > �\ g �.\ \ T08 S 1 2 T U s II 10 1 7815 I WILL RESET INPUT PCC NET A 1.1 FAULT RESET RETURN -1T- FAULT RESET GOAD START TYPE INPUT READ1 TO LOAD DRIVER 1 START TYPE nnuu T START TYPE cesraMR FUSED D. c1sTaIG1 INPUT N CUSTOMER OUTPUT tl NC CUSTOMER INPUT 03 IETUNN T CUSTOMER INPUT t3 CUSTOMER OUTPUT 11 Cpl CUSTplO1 INPUT N OUTPUT It ND N T CUSTOMER IXPUT II CUTD1 INPUT 11 ETURI / COSTCSIE1 OUTPUT 02 CCN DELAYED OFF DRIVER \ CUSTOMER GAD e. rIW nl -same. 1 REMOTE START T n15RE START INrN NSTOME1 INPUT II STITCHED 5. DRIVER I(1Y ) CUSTOMER INPUT tl T CUSTOMER INPUT N RETURN LOAD DUMP DRIVER a3TpIE1 INPUT li I ¢ Y CUSTOMER INPUT II 1 CUST11 STUD 005TCIIC0 OUTPUT 03 DRIVER n- REMOTE E'STOr nSTTE STOP IYPIT CUSTOM WTNT II NIYFt I P I / 210 JUMPER DEUCES 151-15 MID 111l -I1 I1100 MOTE E. tTOP IS USED. I� 13115 1001(1DI nos 1.1 505003 (41 ( I ET CIVIC 10413 I'I O 0 S/SFFN I OPTIONAL ACE-Ur 1a 1 I I I I I I I I "' IAA IAA - I- A.m1 -..mm 1Ma mw 001111uidm m" T_ABEL iyl b�C7 Corn ...m WD- GENSET • p10630_3629 IDIOM I :i .11 I. ni 1.. Wee 70.. 522 A- T ABEL ,1311 .2LL I.Y 7:7.1.2V -1.11 1:::::17.3 .1.2" -1.1, II.N 21.11 I.MI 1.0 ..- L_DEIEY -° 07-30'01 °71i'Cy:,I .u.. {IL[ 0[ PGF MR, A: 1.el suF: in ,.A•°- �+ B 1 B I 4 T 3 I 2 I I IPT•/ENGINEER 6 I 5 I 4 4, 3 I 2 I I ° — ° 9 B — A UC GENERATORS . (10 MD mo ° ` C B — A 1113214 A 1 IROOUCTION RELEASE - TA L D L -DEWEr 0T -11-01 PCC 2 X 4CC 3 X . , NOTES: 3 PHASE RECONNECTABLE. 12 LEAD I PHASE RECONMECTABLE, 12 LEAD I. Un NIASE SEOUEHCE 11TH C.1. NOTATION F41NG 0111E END. CURRENT TRANSFORMER SECONDARY CONNECTION CURRENT TRANSFORMER SECONDARY CONNECTION CURRENT TRANSFORMER SECONDARY CONNECTION CURRENT TRANSFORMER SECONDARY CONNECTION I 2. 1HE1 RECOIIECTINB 6EELL1101 LEADS. BOLTS SHOULD BE TORQUED Ai 22 AS IT -IBS- S. ONE CDIIMENERAT CHIPS STERN NE/RESENTS ENE 1 IDRAI PNOUIDED TERMINAL POSTS REPRESENTTAN ELECTRICAL CONNECTION BETWEEN PPOSTS AND THE CONNECTED LEADS. TO PROVIDE EASIER ASSEIGLEY SONE PRODUCT NAT RAVE BUS BARS INSTALLED ACROSS THE TERNIAIL POSTS PRICK ARE NOT SWORN IN IRIS CONNECTION DIAGRAM. WHERE BUS BARS AND USED. BUT NOT SHORN IM THE CONNECTION DIAGRAM, AN INSULATOR NWT BE USED 70 ELECTRICALLY SEPARATE THE LEADS FOR PROPER OPERATION. XI X3 XI 53 7f1 X2 X) 53 • RANGE • 110.120/220-240 VOLTS CT! • RANGE • 110-139/ 1 90-240 VOLTS TI • RANGE • 220 - 271/300.480 VOLTS -- L I ( U ) VIM L2(V) m rtI' nlru CT? Nirt4 S51Tn ASTIR) • RANGE • 110-120/220-210 VOLTS I ( 1rI:, • LI(U) LOIN) user LI(U) crz ; • -- t - I-2(V) YI fT2L nanl L U ) CHTII run VI , rI'T' CT, gill: Ian Ir VMS MITI MNITIn RITA, n GAIT 1a ve“,,,L3(W) vTrt /, vKIM CT2 °' "IrI L 0 ( N ) '> SI TN, 271 cn oNilln LOIN) 'VIII, RIIU CI u51n, LOIN) UIITTO, . -- 12(V) SER S DELTA 3 PH SE 4 WIRE OUTP TERMINALS U.V.W. . • -- L3(W) PAR LLEL STAR 3 P SE 4 WIRE OUTPUT TERMINALS U,V, N Pura L3(W) SERIES STAR 3 PHASE 4 WIRE OUTPUT TERMINALS U,V,W,N R111n\ :EA-) L2(W) DOUBLE DELTA I PHAS 3 WIRE OUTPUT RMINALS U,W, CEN ER TAP N. , VVr6(t7T111) SENSEIW Ug6U(TpIO) VII(Ti)2 ENS V ' I(T112) SENSE U yz7 (c 77 0453 W2(T6) W5IT9 VSITB) SHUNT 2 US(T7) SHUNT I -- _ gFg $ }FI�43 i 1121 WIIT3) SENSE W VI(T2) SENSE V UIITI) SENSE U W5(T9) W2(T6) VS(T8) SENSE p7 N U6(TIOi WI(T3) SENSE SENSE V UI(TI) SENSE U up 5pE 7T 75 U2(T4 - N '' W SENSE N WIITSE)W SElSE01 ` WNIT12) 1(72) TII> U (TT )) S SE U WS(T9) V, U WS(T9) V5ITB) W2(T6) V [ ] V5(78) V2(75) U5(77) ■I� V2(TS) SHUNT 2 US( T7) p , U2(T4 SHUNT I -- SHUNT I— — \ -- S NT I —01 —02 -03 -04 TEAATTUE E VOLTAGE EARS {ORE iC UERE 1004 USSR IOU R020 8017 YOIiAGE 110/110 115 /200 Ito/2011 127)220 13I /24 71X2 1110110 11 0 N I N - {0, FEATURE YDLTAGE SOHN —I> {0M2 F [fMK E VOIiUE S1N2 II M2 !ADULATION OE 1U0_3{22 -01 27032041 EIDEMIEMMUMGEr"ym OEIMM00MIG_ OffiEsirsoammm WINDING II - • I I 1 II .IRO 11 N - - ■INDINU 11 RIMEIRI II RIIDINO II RINGING 2/3 11 FULL 11MD1MG 2/3 11 FULL 111011 11 N130_5122_02 FIDS2IU um 220 /510 I - I 2/3 I• l 1{30_5122_0) FID32N111 1021 2{0/1{0 I - I OUTPUT Mum DIHPIE OUTPUT OUTPUT 007 T 1{00.5122 -04 0113204 WM= CECIET•ao•t R005 24/111 1 S I 104 111/220 I I - - I - 1330.3122 -05 15132141 NOTE: SENSE LEAD N IS NOT USED. TAPE END AND TIE BACK. 1021 2331110 I S - 1041 115/230 N N - - 1 1630_3122.00 1110321141 .C1 1002 211144 I - 1104 1201210 I I I I I I I I I I I T'inz.P'^. I ...no.w.. ° />'a .T , u'aihr °` 1431-241 •• LABEL Cue= P® Comm WD- GENSET IRECONIECTI = ,, :• -I cc.... 3.11_ ;.15 1,ER / -I,II U .3.4/ -I.a DO TAR rut. r IS -fE 'i T. L DERES ..I._DEWEY ICI 21. .U/ 1.11 .d /•n ST-II-ST SILT neC IOU no: A: Le I/I tTt"�r tti- ,.r.7.1.,.,I/RNa/IM• PGF rs 0630.3622 I R D I I I I' 6 3 I 2 I I Pre /ENGINEEEll 8 l 5 I 4 y 3 I 2 1 D - O _ A 0630_2810 ID I Pr3�r� I MRC DWG m. "° � N MN D C B - A FC >11 #iT E - - JR AS SCIgiIRS I 4JA101 GENSET PACKAGE WITH PCC 2100 OPTIONAL 101 -N SSI-I0 101 -12 OUTPUT RELAYS PCC INTERCONNECTION BOX TBI r l 0 T E C UT T I L I T Y TO O GENSET E N S E T NOT WIRE SIZES MUST BE AS FOLLOWS: 'O =' =m li7 =1�m 111 1 111 ICNOTE ETARTO IFYOTC E -5101 REMOTE RESET I 1 \ MOUNTED IN OTEC CABINET � TB 3 c REAR WALL OF CABINET I NET RUN 61-GENSET TO TRANSFER SWITCH -LEAD SIZE MUST BE INCREASED IF A BATTERY CHARGER IS INSTALLED IN THE SWITCH. WITH NO BATT CHARGER -LEADS I-I, -2, •3, -4, •5 USE COL A. WE7 I 1-2 !17 lTI RI NO =1 =NE1 N7 M ` CONFIGURABLE CUSTOMER u1UN H O flow YWLI ,, - �o �- ° m< AC LINE FAILURE H I BATTE VOLTAGE LOW BATTERY If VOLTAGE c NC No C NC O ' L NC NO m�m - ° �-' o i ` iBl (NOTE 9) WITH 2 AMP CHARGER, MAXIMUM VOLTAGE DROP OF 1.5 VOLTS. LEADS 1 -1, 01 -1 USE COL B. WITH 12115 AMP CHARGER MAXIMUM VOLTAGE DROP OF 1.5 VOLTS, LEADS I-I 6 I.3 USE COL. C. rEAD521AMP dI CHARGER, COL D. VOLTAGE DROP OF 0.75 VOLTS, WITH 12/15 AMP CHARGER, MAXIMUM VOLTAGE DROP OF 0.15 VOLTS, LEADS 1 -1, 1 1-3 USE COL E. TO MEET THE NFPA110 REQUIREMENT TO RETURN A FULLY DISCHARGED BATTERY TO 1001 OF IT'S AMPERE -HOUR RATING WITHIN 24 HOURS USE COL. E. 2. FOR MULTIPLE TRANSFER SWITCHES, DUPLICATE RUN II FOR SWITCH. DAISY CHAIN CONNECTION IS ACCEPTABLE PROVIDED SIZE d DISTANCE TO THE LAST SWITCH MEET THE SPECS IN NOTE I . 3. CONNECT AN OPEN DRY CONTACT BETWEEN THE APPLICABLE TERMINAL AND COMMON (TB2 -81, FOR REMOTE TEST, TRANSFER INHIBIT AND RETRANSFER INHIBIT. CLOSE TO ACTIVATE. /. CONTACTS RATED: 4 AMPS AT 30 VDC OR 120V MAX. 5. REFER TO OMAN 900-0529 POWERCOMMAND NETWORK INSTALLATION d OPERATION MANUAL FOR WIRING TWSSTEDTPANA WWAES WHEN CONNECTNNGHDATA! ANDADATA2 TO NETWORK. PART 6 0334 -1350 OR EQUAL. 6. CONNECTIONS TO TBI -4 THRU 7 ON GENSET ARE FOR CUSTOMER USE AND MAY BE CONFIGURED TO DISPLAY CUSTOM UN= ®1® .7.-..111 101=i= es Ma al it O NI m NIB - \ I -5 ®�® 111 UJ +� �.�`, 0; flg IF-1 2Fi 31-1 f m,m II N��j TRANSFER SWITCH iCX ■ W11 11N I - to in I 3 © NC+ r1 NORMAL © c _f AUXILIARY Awr SWITCH i12 ®�® 101 =1 =m mIm HI= =ND 121 =1 =m III ND NFl NO EMERGENCY E- STOP O No- � TRANSFER SWITCH © xc J EMERGENCY AUXILIARY SWITCH c 11 TIT Q'GMD © (SEE NOTE 7I © B. (SEE NOTE 21 Li PMT m .m ' W11W1N FORCE NI IND TOTALI NED N. lie® MITI NM \ (WHEN USED) dim 182 110A NIT ND - -'1 I 2 -I IMO y m♦m AMP. 12 AMP, 15 AMP CHARGER u_U7-A IS.USJ B . N N4 i7 III 2-2 \ SEE NOTE 5 B. (NOTE 10) l CO aT1 NEIWMN INTERFACE l cONTROI Ilil M 210 NE u 1 i 2 2-3 \ NET DAT 2-4 1 \ - 1 -I STARTER (NOTE OTE TEMPERATURE II) ENSER INPUT COMMON ALARM 0 (NOTE CONTACT RATING 2 AM 12> AT 30 voc I.2 'OPTIONAL COOLANT ANO/OR ALTERNATOR NEATEA($1 1-1 '. GND © REMOTE TEST Q TRANSFER INHIBIT Q RETRANSF ER INHIBIT SEE NOTE 7 I -1 2 -0 i-4 /En ICE IN- INTALLF� DAY TANK COMMON 120 OR 240 VAC SOURCE (PLUG CONNECTION) AC SOU Low NFUEL _ CONTACT 5/1 -0511 ANNUNCIATOR JI i ALARM MESSAGES ON GENSET CONTROL. LOW FUEL IS REQUIRES FOR NFPAIlO COMPLIANCE. 7. INSTALL JUMPER BETWEEN TB2-I d TB2 -2. 8. 9. TRANSFER SWITCH SHOWN CLOSED TO NORMAL. 10. CONFIGURATION SHOWN IS FOR ATS- MOUNTED BATTERY CHARGER. IF WALL- MOUNTED CHARGER IS USED, CONNECT B. AND GND FROM CHARGER DIRECTLY TO BATTERY OR STARTER, II. USE THE REMOTE TEMPERATURE PROBE 10193- 05301. AS DESCRIBED ON SUBMITTAL DATA ------<;111 02 > 6, 3 2 1 1 REMOTE TI (WHEN USED) NO 6 2-2 1 -12 C _ NOTE 11 / NET DATA I NET DATA 2 2 ., 2'3 ANNUNCIATOR TBI 300-5121 i 2 -1 \ 2-14 \ 2 -12 \ 2 IS TBt-/ \ TB2 TB2 1 ..� 3 1 5 N T W 1 0 -U- 12 I3 -� ii I 2 CUSTOMER FAULT I CUSTOMER FAULT 2 CUSTOMER FAULT 3 GENSET SUPPLYING LOAD CHARGER AC FAILURE LOW COOLANT LEVEL LOW FUEL LEVEL NORMAL UTILITY J2 / / 2 -II ° I'S - flUN NI \ 12. THE FOLLOWING FAILURES WILL CAUSE A BATTERY CHARGER ALARM OUTPUT: LOW BATTERY VOLTAGE, HIGH BATTERY VOLTAGE, LOW AC INPUT VOLTAGE, HIGH AC INPUT VOLTAGE OVERCURRENT, HIGH CHARGER TEMPERATURE, BATTERY FAILURE, HIGH BATTERY TEMPERATURE (NOT AVAILABLE ON 2 AMP CHARGER). 13, TB2 -4 GND / TB2 -3 B. / TB2-I / I l 7-, 73:. GND \ SEE NOTE I ( 14. REFER TO 0900 -0301 FOR INSTALLATION O TB2 2 / OF 0300-5929. GNDT GxD NOT IN AUTO T83 I TP 15. 0300-5929 COMMUNICATION ONLY AVAILABLE WITH (NOTE II PCC2I00 SOFTWARE VERSION 2.400 OR HIGHER. 7 GENSET RUNNING 5 1 FAIL TO : 1.-- N WIRE SIZE DISTANCE IN FEET, ONE WAY (MULTIPLY BY 0.3 FOR METERS) (AWG) A B C D E 16 1000 90 - 50 1 LOW COOLANT TEMP I PRE -HIGH ENGINE TEMP 10 HIGH ENGINE TEMP 11 PRE-1.011 OIL PRESSURE LOW OIL PRESSURE "Y OVERSPEED 11 14 1600 150 20 BO 5 12 10 2400 4000 225 350 30 50 125 200 IO IS 1,.1.... 1a1N4.4.4m...mu ]N CO ODD AJW[PiiT r........ 1.1i,e • °'Liu N o En ara2 Maws PONER GENERATION >r ■12 WD-INTERCONNECTION . !2= b. .0 a: C. - • 6_COLLEEN N2 -17.01 B - 600 50 300 25 • O W J MILLER 02 -17 -01 62 -0 -11' 6 - 1000 125 500 40 Li • .1.7.3 `01' N :VI Nna ulAO .iAN iWx.a "'i'"° Jo-.tl ... .o.e .nrJR .row ..p.Nl gr_3 !MILLER =71,1 Er .1 _ _ _ ciPM10TEC PGA 0630_2810 11:111 0 8 5 I 4 'T 3 1 2 1 I Power Gen RS-485 PCCNet and Modbus Wiring Specifications Modbus Interface on PCC 1.X, 2.; 3.X The RS -485 port allows the control to communicate with external devices such as iWatch and PLC on Modbus protocol. PCCNet on PCC 1.X, 2.; 3.X, and 2100 The RS -485 port allows the control to communicate between a single genset and its peripheral devises such as annunciators, and 110 modules on Cummins Power Generation proprietary PCCNet protocol. Wiring Specifications It is highly recommended that when using any PCCNet or Modbus interface device on a genset control application that the wiring used to connect ALL devices in the network is as specified: Belden 9729 Two Pair, Stranded Shielded Twisted Pair Cable 24 AWG Maximum 4000ft Wire Length Please contact your Project Manager with any questions or concerns. Note: It is the responsibility of the customer to replace the cable if an alternative cable is used and any the network does not function correctly. Cummins cannot troubleshoot the network effectively when an unproven cable is substituted. Transfer switch OTEC open transition Speclrlcat!c 40 1200, <An Our energy Description OTEC transfer switches are designed for operation and switching of electrical loads between primary power and standby generator sets. They are suitable for use in emergency, legally required, and optional standby applications. The switches monitor both power sources, signal generator set startup, automatically transfer power, and return the load to the primary power source once a stable utility is available. The fully integrated controller is designed for practical functionality, with LED indicators and digital pushbuttons for ease of operator use. All switches are UL 1008 Listed with UL Type Rated cabinets and UL Listed CU -AL terminals. All switches are certified to CSA 282 Emergency Electrical Power Supply for Buildings, up to 600 VAC. NEC Equipment shall be suitable for use in systems compliant to 700, 701 and 702. All switches comply with NFPA 70, 99 and 110. NMI NFPA' All switches comply with NEMA ICS 10. All switches comply with IEEE 446 EE E Recommended Practice for Emergency and Standby Power Systems. This transfer switch is designed and manufactured in facilities certified to ISO9001. Features Microprocessor control - Easy -to -use, standard control. LEDs display transfer switch status; pushbuttons allow operator to activate control test, exercise timing and transfer mode. Programmed transition - Open transition timing can be adjusted to completely disconnect the load from both sources for a programmed time period, as recommended by NEMA MG -1 for transfer of inductive loads. Advanced transfer switch mechanism - Unique bi- directional linear actuator provides virtually friction -free, constant force, straight -line transfer switch action during automatic operation. Manual operation - Manual operating handles, shielded termination, and over - center contact mechanisms allow effective manual operation under de- energized conditions. Positive interlocking - Mechanical and electrical interlocking prevent source -to- source connection through the power or control wiring. Main contacts - Heavy -duty silver alloy contacts with multi -leaf arc chutes are rated for 100% load interruption. They require no routine contact maintenance and provide 100% continuous current ratings. Easy service /access - Single -plug harness connection and compatible terminal markings simplify servicing. Access space is ample. Door - mounted controls are field - programmable; no tool is required. Complete product line - Cummins Power Generation offers a wide range of equipment, accessories and services to suit virtually any backup power application. Warranty and service - Products are backed by a comprehensive warranty and a worldwide network of distributors with factory- trained service technicians. 02010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins am registered trademarks of Cummins Inc. PowerCommand and Our energy working for you." are trademarks of Cummins Power Generation.. Specifications are subject to change without notice S-1464n (7/10) Transfer switch mechanism Specifications • Transfer switch mechanism is electrically operated and mechanically held in the Source 1 and Source 2 positions. The transfer switch incorporates electrical and mechanical interlocks to prevent inadvertent interconnection of the sources. • Independent break - before -make action is used for both 3 -pole and 4- pole /switched neutral switches. This design allows use of sync check operation when required, or control of the operating speed of the transfer switch for proper transfer of motor and rectifier -based loads (programmed transition feature). • True 4 -pole switching allows for proper ground (earth) fault sensing and consistent, reliable operation for the life of the transfer switch. The neutral poles of the transfer switch have the same ratings as the phase poles and are operated by a common crossbar mechanism, eliminating the possibility of incorrect neutral operation at any point in the operating cycle, or due to failure of a neutral operator. • Electrical interlocks prevent simultaneous closing signals to normal and emergency contacts and interconnection of normal and emergency sources through the control wiring. • High pressure silver alloy contacts resist burning and pitting. Separate arcing surfaces further protect the main contacts. Contact wear is reduced by multiple leaf arc chutes that cool and quench the arcs. Barriers separate the phases to prevent interphase flashover. A transparent protective cover allows visual inspection while inhibiting inadvertent contact with energized components. • Switch mechanism, including contact assemblies, is third -party certified to verify suitability for applications requiring high endurance switching capability for the life of the transfer switch. Withstand and closing ratings are validated using the same set of contacts, further demonstrating the robust nature of the design. Voltage rating Transfer switches rated from 40 A through 1200 A are rated up to 600 VAC, 50 or 60 Hz. Arc Interruption Multiple leaf arc chutes cool and quench the arcs. Barriers prevent interphase flashover. Neutral bar A full current -rated neutral bar with lugs is standard on enclosed 3 -pole transfer switches. Auxiliary contacts Two contacts (one for each source) are provided for customer use. Wired to terminal block for easy access. Rated at 10A continuous and 250 VAC maximum. Operating temperature -22 °F ( -30 °C) to 140 °F (60 °C) Storage temperature -40 'F ( -40 'C) to 140 T (60 *C) Humidity Up to 95% relative, non - condensing Altitude Up to 10,000 ft (3,000 m) without derating Total transfer time (source- to- source) Will not exceed 6 cycles at 60 Hz with normal voltage applied to the actuator and without delayed transition enabled. Manual operation handles Transfer switches are equipped with permanently attached operating handles and quick - break, quick - make contact mechanisms suitable for manual operation under de- energized conditions. Open transition/programmed — Controls the time required for the device to switch from source to source, so that the load- generated voltages decay to a safe level before connecting to an energized source. Recommended by NEMA MG -1 to prevent nuisance tripping breakers and load damage. Adjustable 0 -60 seconds, default 0 seconds. Open transition/in -phase — Initiates open transition transfer when in -phase monitor senses both sources are in phase. Operates in a break - before -make sequence. Includes ability to enable programmed transition as a backup. If sources are not in phase within 120 seconds, the system will transfer using programmed transition. Our energy working for you.TM www.cumminspower.com ©2010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand and "Our energy working for you." are trademarks of Cummins Power Generation.. Specifications are subject to change without notice S -1464n (7/10) Power Generation Microprocessor control • Simple, easy -to -use control provides transfer switch information and operator controls • LED lamps for source availability and source connected indication, exercise mode, and test mode. LED status lamps also provided for control set -up and configuration. • Pushbutton controls for initiating test, overriding time delays and setting exercise time. • Field - configurable for in -phase open or programmed open transition. • Integral exerciser clock • Control is prototype- tested to withstand voltage surges per EN 60947 -6 -1. • Gold- flashed generator start contacts Control functions Voltage sensing: All phases on the normal source and single phase on generator source. Normal Source Pickup: adjustable 90 -95 %, Dropout: adjustable 70 -90% of nominal voltage; Generator Source Pickup: 90 %, dropout: 75% of nominal voltage. Frequency sensing: Generator Source Pickup: 90% of nominal frequency; Dropout: 75% of nominal frequency. E xerciser clock: Switch is furnished with an integral engine exerciser configurable for operation on a 7, 14, 21, or 28- day cycle with a fixed exercise period duration of 20 minutes. A 12 -hr exerciser time offset allows for the convenient setting of exercise time without the need to activate the timer at the exact time that you need to schedule the generator exercise for. Software selectable capability allows for the exercising of the generator with or without load. Time -delay functions E ngine start: Prevents nuisance genset starts due to momentary power system variation or loss. Adjustable: 0 -10 seconds; default: 3 seconds. Transfer normal to emergency: Allows genset to stabilize before application of load. Prevents power interruption if normal source variation or loss is momentary. Allows staggered transfer of loads in multiple transfer switch systems. Adjustable 0 -300 seconds, default 5 seconds. Retransfer emergency to normal: Allows the utility to stabilize before retransfer of load. Prevents needless power interruption if return of normal source is momentary. Allows staggered transfer of loads in multiple transfer switch systems. Adjustable 0 -30 minutes, default 10 minutes. Genset stop: Maintains availability of the genset for immediate reconnection in the event that the normal source fails shortly after transfer. Allows gradual genset cool down by running unloaded. Adjustable 0 -30 minutes, default 10 minutes. Delayed (programmed) transition: Controls the speed of operation of the transfer switch power contacts to allow load generated voltages from inductive devices to decay prior to connecting a live source. Adjustable 0 -10 seconds, default 0 seconds. E levator signal: Provides a relay output contact for the elevator signal relay (load disconnect). The signal can also be configured to provide a post transfer delay of the same duration. Adjustable: 0 -300 seconds (requires optional elevator signal relay for use). Options E levator signal relay: Provides a relay output contact for the signal relay function rogrammable exerciser clock: Provides a fully - programmable 7 -day clock to provide greater flexibility in scheduling exercise periods than standard integral exerciser. Time -of -day setting feature operates generator during periods of high utility rates. Our energy working for you.TM www.cu mminspower.corn ©2010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand and ''Our energy worldng for you.' are trademarks of Cummins Power Generation.. Specifications are subject to change without notice S-1484n (7/10) Power Generation UL withstand and closing ratings The transfer switches listed below must be protected by circuit breakers or fuses. Referenced drawings include detailed listings of specific breakers or fuse types that must be used with the respective transfer switches. Consult with your distributor /dealer to obtain the necessary drawings. Withstand and Closing Ratings (WCR) are stated in symmetrical RMS amperes. Transfer switch ampere 40, 70, 125 3 -pole 40, 70, 125 4 -pole MCCB protection Special circuit breaker protection WCR at volts max with specific manufacturers MCCBs Max MCCB rating Drawing reference With specific current limiting breakers (CLB) Max CLB rating Drawing reference 14,000 at 600 225 A 098 -6885 200,000 © 600 225 A 098 -6918 30,000 at 600 225 A 098 -6885 200,000 0 600 225 A 098 -6918 150, 225, 260 30,000 at 600 400 A 098 -6886 200,000 C 600 400 A 098 -6919 600 65,000 at 600 1200 A 098 -6887 200,000 D 600 1200 A 098 -6920 800, 1000 65,000 at 480 50,000 at 600 1400 A 098 -6888 200,000 0 600 1400 A 098 -6921 1200 85,000 at 480 65,000 at 600 1600 A A030U183 200,000 0 600 1600 A A030U185 Fuse protection Transfer switch ampere WCR at volts max. with current limiting fuses Max fuse, size and type Drawing reference 40, 70, 125 3- and 4 -pole 200,000 at 600 200 A Class, J, RK1, RK5, T 098 -6885 150, 225, 260 200,000 at 600 1200 A Class L or T, or 600 A class J, RK1, RK5 098 -6886 • It 600 200,000 at 600 1200 A Class L or T, or 600 A Class, J, RK1, RK5 098 -6887 - 800, 1000 200,000 at 600 2000 A Class L or 1200 A class T or 600 A class J, RK1, RK5 098 -6888 1200 200,000 at 600 2000 A Class L or 1200 A class T or 600 A class J, RK1, RK5 A030U183 3 -cycle ratings Transfer switch ampere WCR at volts max 3 -cycle rating Max MCCB rating Drawing reference 1200 42,000 at 600 2000 amps A030U183 Our energy working for you: M www.cumminspower.com 02010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand and "Our energy worldng for you." are trademarks of Cummins Power Generation.. Specifications are subject to change without notice S -1484n (7/10) Power Generation Enclosures The transfer switch and control are wall- mounted in a key - locking enclosure. Wire bend space complies with 2008 NEC. Dimensions - transfer switch In UL type 1 enclosure Q Amp rating Height Width Depth Weight Outline drawing Door closed Door open In mm In mm In mm in mm lb kg kg 40, 70, 125 3 -pole 27.0 686 20.5 521 12.0 305 31.5 800 82 37 0310 -0544 40, 70, 125 4 -pole 35.5 902 26.0 660 16.0 406 41.0 1042 165 75 0500 -4896 150, 225 35.5 902 26.0 660 16.0 406 41.0 1042 165 75 0310 -0414 260 43.5 1105 28.5 724 16.0 406 43.0 1093 170 77 0310 -0540 ' 600 54.0 1372 25.5 648 18.0 457 42.0 1067 225 102 0310 -1307 - - , Do- , 800, 1000 68.0 1727 30.0 762 19.5 495 48.5 1232 360 163 0310 -0417 1200 90.0 2286 39.0 991 27.0 698 63.0 1600 730 331 A030L411 Ions - transfer switch In UL type 3R, 4, 4X, or 12 enclosure Amp rating eight Width Depth Weight Cabinet type Outline drawing Door closed Door open in mm In mm In mm In mm lb kg 1 40, 70, 125 34.0 8 26.5 673 12.5 318 36.5 927 125 57 3R, 12 0310-0453 4 0310 -0445 3 -pole 46.0 1168 32. 813 16.0 406 46.0 1168 255 102 4X 0500 -4184 40, 70, 125 42.5 1080 30.5 7 16.0 406 44.0 1118 215 97 3R, 12 0500 -4896 4 0500 -4896 4-pole 46.0 1168 32.0 813 16. 406 46.0 1168 255 102 4X 0500 -4184 42.5 1080 30.5 775 16.0 40: 44.0 1118 215 97 3R, 12 0310-0454 4 0310 -0446 150,225 46.0 1168 32.0 813 16.0 406 4..: 1168 255 102 4X 0500 -4184 3R, 12 0310 -0455 260 46.0 1168 32.0 813 16.0 406 46.0 1 :s 255 102 4 0310 -0447 4X 0500 -4184 59.0 1499 27.5 699 16.5 419 41.5 1054 275 3R, 12 0310 -1315 4 0310 -1316 300,400,600 73.5 1867 32.5 826 19.5 495 49.5 1257 410 186 - 0500 -4185 3R, 0310 -0457 800, 1000 73.5 1867 32.5 826 19.5 495 49.5 1257 410 186 4 0310 -0449 4X 0 -4185 1200 90.0 2286 39.0 991 27.0 698 63.0 1600 730 331 3R, 12, 4, 4X A03 1 Transfer switch lug capacities All lugs accept copper or aluminum wire unless indicated otherwise. Transfer switch ampere Cables per phase Size 40, 70, 125 3 -pole 1 #12 AWG -2/0 40 4 -pole 1 #12 AWG -2/0 70, 125 4 -pole 1 #6 AWG - 300 MCM 150, 225 1 #6 AWG - 300 MCM 260 1 #6 AWG - 400 MCM 300, 400 1 3/0 - 600 MCM 300, 400 2 3/0 - 250 MCM 600 2 250 - 500 MCM 800 4 250 - 500 MCM 1000,1200 4 #2 AWG -750 MCM Our energy working for you: a www.cumminspower.com ©2010 Cummins Power Generation Inc. All rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PoweTCommand and °Our energy working for you.' are trademarks of Cummins Power Generation.. Specifications are subject to change without notice S-1484n (7/10) Power Generation Submittal detail Amperage ratings ❑ 40 ❑ 70 ❑ 125 ❑ 150 ❑ 225 ❑ 260 ❑ 300 ❑ 400 600 ❑ 800 ❑ 1000 ❑ 1200 Voltage ratings ❑ R020 120 ❑ R038 190 ❑ R021 208 ❑ R022 220 ❑ R023 240 ❑ R024 380 ❑ R025 416 ❑ R035 440 --1> R026 480 ❑ R027 600 Pole configuration A028 Poles - 3 (solid neutral) ❑ A029 Poles - 4 (switched neutral) Frequency A044 60 Hertz ❑ A045 50 Hertz Application A035 Utility to genset System options ❑ A041 Single phase, 2 -wire or 3 -wire A042 Three phase, 3 -wire or 4 -wire Enclosure Control voltage M033 12V, Genset starting voltage ❑ M034 24V, Genset starting voltage Control options J030 External exercise clock ❑ M032 Elevator signal relay ❑ attery chargers ❑ K001 2 amps, 12/24 volts ❑ KB59 15 amps, 12 volts ❑ KB60 12 amps, 24 volts Auxiliary relays Relays are UL Listed and factory installed. All relays provide (2) normally closed isolated contacts rated 10 A ® 600 VAC. Relay terminals accept (1) 18 gauge to (2) 12 gauge wires per terminal. ❑ L101 24 VDC coil - installed, not wired (for customer use). ❑ L102 24 VDC coil - emergency position - relay energized when switch is in source 2 (emergency) position. ❑ L103 24 VDC coil - normal position - relay energized when switch is in source 1 (normal) position ❑ L201 12 VDC coil installed, not wired (for customer use) L202 12 VDC coil - emergency position - relay energized when switch is in source 2 (emergency) position L203 12 VDC coil - normal position - relay energized when switch is in source 1 (normal) position Miscellaneous options CO27 Cover - guard M003 Terminal block - 30 points (not wired) Optional lug kits ❑ N032 Lug adapters, compression, th stab ❑ N045 Cable lugs, mechanical, 600 MCM, 4 per pole ❑ N066 Cable lugs, mechanical, 750 MCM, 4 per pole Warranty ❑ G009 1 year comprehensive ❑ G004 2 year comprehensive -I> G006 5 year basic ❑ G007 5 year comprehensive ❑ G008 10 year major components Shipping ❑ A051 Packing - export box (800 -1000 A) B001 Type 1: General purpose indoor (similar to IEC type 1P30) ❑ B003 Type 4: indoor or outdoor use, provides some protection from wind -blown dust and water spary (similar to IEC Type IP65) ❑ B010 Type 12: indoor use, some protection from dust (similar to IEC Type IP61) ❑ B025 Type 4X: stainless steel, indoor or outdoor use, provides some protection from corrosion (similar to IEC Type IP65) Standards A046 UL 1008/CSA certification ❑ A080 Seismic certification Cummins Power Generation Americas 1400 73rd Avenue N.E. Minneapolis, MN 55432 USA Phone: 763 574 5000 Fax: 763 574 5298 Our energy working for you.na www.cumminsoower.com Accessories ❑ AC -170 Accessories specifications sheet Europe, CIS, Middle East and Africa Manston Park Columbus Ave. Manston Ramsgate Kent CT 12 5BF United Kingdom Phone 44 1843 255000 Fax 441843 255902 ®2010 Cummins Power Generation Inc. M rights reserved. Cummins Power Generation and Cummins are registered trademarks of Cummins Inc. PowerCommand and Our energy working for you." are trademarks of Cummins Power Generation.. Specifications are subject to change without notice S-1484n (7/10) Asia Pacific 10 Toh Guan Road #07 -01 TT International Tradepark Singapore 608838 Phone 65 6417 2388 Fax 65 6417 2399 Power Generation C 6 0310 -1307 1Dl I 6 (76) h. LOAD NORMAL 4 y 9 2 10.00 (254) (459) 18.07 9 1 (4975) 7 SOLID NEUTRAL BAR SUPPLIED WITH 3 POLE MODELS ONLY. 25.15 (639) (254) 1 .75 (44) APPROX CENTER OF GRAVITY 53.81 (1367) (626 600) 0 6 10.00 (254) L _1 1.. -3.00 (76) 1 2 .50 (318) A 5 4 1 .75 (44) —10.00 (254) F-1.75 I (44) 12.50 (318) B) (3 12.50 1.75 (44) III It. 9 • LDOLlLID ' OLLIILIUISLIL' LJILILLI '' • 6JLIIL' 6ll�G1L''.`ILiII:UJ - ' bal wlna NOTES: I. UL TYPE 1 ENCLOSURE 2. APPROX. WEIGHT: 225 LBS MASS: 102 kg 3. DIMENSIONS IN ( ) ARE MILLIMETRES. 4. LUG CAPACITY: 300 400 AMP (QUANTITY I WIRE] 3/0 -600 (95 -300) MCM CU-AL (QUANTITY 2 WIRES) 3/0 -250 (25 -120) MCM CU-AL LUG CAPACITY: 600 AMP (QUANTITY 2 WIRES) 250 -500 (120 -240) ALCM CU -AL. 5. USE SEPARATE CONDUITS FOR CONTROL WIRING AND POWER WIRING. DO NOT COMBINE. 6. SHADED AREA INDICATES WIRING AND CABLE ENTRANCE AREA DO NOT INSTALL OUTSIDE OF SHADED AREA. 7 WIRE BENDING SPACE CONFORMS TO NEC TABLE 373 -6 (B). 8. REFER TO NATIONAL ELECTRIC CODE. ARTICLE 110 -16 WHICH STATES THE REQUIREMENT FOR THE MINIMUM CLEAR SPACE IN FRONT OF THIS UNIT. 9. 4 POLE SWITCHED NEUTRAL TRANSFER SWITCH SHOWN. A SOLID NEUTRAL BAR IS PROVIDED WITH 3 POLE TRANSFER SWITCHES. 13 AND 4 POLEI I REVISIO Deets L I W I I' ,,.I..., •. 1 11 1....,....n.., L. KAPLAN w A L. SNITM L. SMITH a.c ..:...�_ oTPC Soo -soaa IS MNICUPOIO. ImOmCTA YW OUTLINE- CONTROL BOX OMttiMf 0310 -1307 J1.iIg 3 I 2 1 C 3 A 8 1 6 1 4 4, 3 1 2 1 1 — D 6 — CUSTOMER CONNECTIONS STANDARD CONNECTIONS 1 min •r 0 - C B — A U *I ADDED ELENA Ta SIGNAL RELAY FOR CONTORTS CONNECTIONS Y JR JM Ns ITJUR0, ADDED NOTE II 26 JR a NS 11JUN0, WONTED ON FRONT OF TRANSFER SWITCH, AVAILABLE ON ALL UNITS. f NO S1 FOR CUSTOMER USE TRANSFER SWITCH NORMAL Y[ AUIILIARI Oil ttx 0011 NO TRANSFER SWITCH NORMAL U AAT NC , C • ATf -Y I I 10 AMP WAITERS TZABGER AlARYS I NOTES: I. TBI AND T32 ARE MOUNTED ON THE FRONT OF THE AUXILIARYiCNTACTS < RATED: IN AWS, 25D VAC I 010 1NAL:ATTEST CON [HAAGE� RNS AC LINE • -� CJ2 - -, RI J2 5 �+�L TRANSFER SWITCH. TBl IS MOUNTED ON THE LEFT I INSIDE PANEL OF THE ENCLOSURE. © SHOWN WITH SOURCE NOT CONNECTED. I © SHOWN UNDER NORMAL BATTEAY VOLTAGE CONDITION CONTACTS TRANSFER UNDER A HIGH BATTERY VOLTAGE I CONDITION. SHOWN UNDER A LOS BATTERY VOLTAGE CONDITION. FAILURE NC x0• Sf CONTACTS RA ' SIGNAL I C IC 4 AMPS AT 30 V: • I 120VAC MAX Q MO l I CON `SWITCH COY TO ENGINE GENERATOR CONTROL T112 01 I VOT ,TTERT M[ SIGNAL WASTE DVEU I Df INPUT I 3 I Cql REFER TO ORE INTERCONNECTION DRAWING FOR PROPER INSTALLATION ER SIRING AND IF NEEDED. CONTROL LOCATION. ER BETWEEN H. 6EISET CONTROL RID TRANSFER SWITCH. IOM PARALLELING SISTERS. REFER TO SYSTEM INTERCONNECTION ECTI ON DRAWII6 FOR CORRECT WINING. FOR CUSTOMER USE END J2.1 I 5. SEE SHEET 2 6. SEE SHEET 2 { 7. SEE SHEET 3. B. SEE SHEET 1. I I O 2- N J2-1 PS -1 PI -2 I I LO BATTER, VOLTAGE Nc SIGNAL I ' B 03 » P2- 6WJ2 -R P$-INTO TPI P2- 7,,J2-T F2-0)).124 RIO PS -R P /'B GENSET START on 04 �� 9. SEE SHEET 4. Q REMOTE OVERRIDE INPUT CONNECT AN OPEN CONTACT I BETWEEN P 4-2 t TB2 -8. THE FOLLOWING WILL CAUSE A BATTERY CHARGER ALARM OUTPUT. LOW BATTERY VOLTAGE I HIGH BATTERY VOLTAGE r LOW AC INPUT VOLTAGE TO USE REMOTE TEST. TRANSFER IRRIBIT AND PET[AONTAC INHIBIT CORRECT IC AN BLEI CONTACT AID COE APPLICABLE TERMINAL ERIC TO ITB2 -THE CLOSE THE CONTACT TO ACTIVATE THE FUNCTION. REMOTE TEST IFCR INHIBIT OS OI p2-5NAJ2 -5 REMOTE TEST N-5 TRANSFER INHIBIT RETIANSFEI T O P2 -1 J2 -/ P1 -N RETRANSFER INHIBIT INHIBIT COMMON OB A P2-10,,J2-10 PC -I _ ,010181 CONTROL - CUSTOMER CONNECTIONS LEFT S I D E WALL i I E ATOR SIGNAL RELAY OPTIONAL: HIGH AC INPUT VOLTAGE TTERY CHARGER ALARM HIGHC CHARGER HIGH 2 , 12 AMP, IS AMP BATTERY FAILURE HIGH BATTERY TEMPERATURE, OUTPUTS •. ATED ON BOTTOM I N BATTERY CHARG ' E T C` © C C NOT AVAILABLE ON 2 AMP CHARGER n /i USE THE INVERTER REMOTE TEMPERATURE PROBE. > FOR FACTORY USE ONLY IPART NO. 0193 -05301 13. SEE SHEET 2. COMMON ALARM OUTPUT /. ELEVATOR SIGNAL RELAY SHOWN DE-ENERGIZED. OVTAC7 RATING RELAY CHANGES STATE WHEN THE ELEVATOR P AT 30 VDC TRANSFER TIME DELAY ITDELI STARTS. REMOTE T ERATURE } SENSOR INP A UTILITY TO GENSET I TB2 -3 22 32 44 A2 ' V 13 21 43 Al I --0. 3 AND / POLE OTEC 40 -600 AMP R OTECSE 40 -125 AMP 120 VOLT I PHASE 210 VOLT I PHASE L N 120 VOLT 3 PHASE 208 VOLT 3 PHASE 220 VOLT 3 PHASE 210 VOLT 3 PHASE 380 VOLT 3 PHASE 41S VOLT 3 PHASE 440 VOLT 3 PHASE —0480 VOLT 3 PHASE P5 -5 OPTIONS: BATTERY CHARGER 1 BATTERY CHARGER ALARMS --------8AEECISER CLOCK ELEVATOR RELAY I I I 11 1 l'1...1••• I .......• • •••• D I uuuilm ''• . • 5 D MORE CuWWe P�1 OBI71Alnm nmlo , hi •.N- III I.IU •.M ........ A MAHADESHWAR Il1.1 IK Iu sn -IR 311; -1. II ffII:11- 17:43•1YUF.I.11 IIU SAI•N rJ 1. Il i: MILLER w� I-RN -ON E...' SIR L0II AIM TA:N I.V w10: I/i • i l'6•IOTEC PGF 31 0630_2766 Ii:,I B I 6 I 4 1' 3 I 2 I I IPrO /ENGINEER B I 6 I 4 4- 3 1 2 I I D — O —� B — SCHEMATIC DIAGRAM TP2 NA NB NC NN MAIN BONDING JUMPER Mir. F - - -- m- R JA KR fiMuNRK 8 — C E- 8 ` A co) 11 41711 • ONLY AVAILABLE ONMOTECSE 4I'1< PI'1 ■ M MUM JI-2< PI.2 IRAQ MINI N01 PRINIR102)22[014[6 ON 1200 U-K 0 III 1 JI7 PI 5 I THIN NIRf 004E600 f0 Jl -f 0 It•Y L'A VN)II I J PI 5 I � 4 Y2 TP T + P3 Y P3-7 P3 -5 PS f Jt-Y< - NO• 1_ _ _ NE_U TR_AL� M2 E[ECISEA CLOCK (OPTIONAL) 53 NORMAL POSITION NEUTRAL BAR USED I ON 3 POLE TRANSFER AUXILIARY SNITCH SWITCHES ONLY. K3 PROGRAMMED TRANSITION I RELAY RI TRANSFER TO NORMAL RELAY I SOURCE I P4 BATTER CHARGER (OPTIONAL) 22'6 �J2 -10 yv2 -p JJJJJ����vO IN CONTROL POSITION P5-0 =3 • C NCO RID EXTERNAL OPEN CLOCK EMERGENCY CLOSE OI TOY-3 T52 -0 T12 -1 11 -1 IN GYD UT P4 -4 NORMAL P5-3 P5'2 12 CI ND N J2-I PT-1 p CtlA5313 6YD WG0 K2 RI I • • • • i ( MI NOTES: I II AND R3 NO •-2 2I el < LINEAR MOTOR I CI MOTOR RUN CAPACITOR 5. ALL DEVICES ARE SHOWN DE-ENERGIZED, WITH I/ YI II .11-•<4.07 NCO ATS-Y JI- eC NOS WHY NI CI SLR • LA I CBI CIRCUIT BREAKER THE POLE TRANSFER SWITCH CLOSED HO TO NORMAL. / POLE TRANSFER SWITCH SHOWN. ON 3 POLE CUSTOMER CD MAIN CIRCUIT BREAKER MODELS THE SWITCHED NEUTRAL POLE IS REPLACED LOAD WITH A SOLID NEUTRAL BAR. CABLES S. FOR SINGLE PHASE UNITS: 120/240. 3 WIRE - CONNECT POWER CABLES TO A AND C 110 L-N, 2 WIRE - CONNECT POWER CABLES TO A AND NEUTRAL • • LB I I <PI'6 _A. MC i •C 222 • AT6 -F 2 JI- 7C'II�__R1 1 • LC— I NO 55 L N—I— 13. FOR OTECSE MODEL, LIST OF MAIN CIRCUIT BREAKER TYPE SHOWN BELOW: I SWITCH RATING MAIN CIRCUIT BREAKER TYPE I 40 -12SA SQUARE D. TYPE 'H6' I • I 602 TRANSFER TO EMERGENCY RELAY �, R 1 • • C Ilk) ATS-Y NJ Y-0 10 C 7 41-12< - NE • • ATB -E XI N2 2 e — I • • • • \e I I ST AUXILIARY POSITION SWITCH 4P5.1 OPEN NORMAL OTEC CLOSE PS / CONTROL EMERGENCY SOURCE 2 P6 -6 J2 3<,010 P2-3 17 POSITION P3-3 P3 -I C NC •i • JI- PI -II -IS P1-IS WM __JI T4 I4 VII) 601660[1 TO 11.11 Cl 1810 l-N R•ITN I JI-14 r MI JI -13< PI 13 EA EB EC EN 1 1 I I I I I° 1 .. I r•i • 1 22..E ^.•. • •.4'.[ WO moms ru o uuui5m -. ' 4 5 D MORE OINYe PIP! OB.YI ■ WD- TRANSFER SWITCH I.••- 6.•• �•.IS[ -•.22 ........ s m I A MANADESIIWAR - ,• K.K6 -11.0 C."S4:la MILLER n.42•.11 •. J • .IJ •^ I -26 -02 4134 0:04 u •,A . ;I WAN: LJ 1, 51."- 0ytIpTE PGF IN 0630_2766 I27'I7 0 I 6 I 4 1' 3 1 2 I I IProIENGINEERI B I B I 4 y 3 I 2 I 2 B - C - A MI ea un mu B - C F B _ A • IS A NS 17J016f REAR VIEW OF DOOR STANDARD WIRING S S LEFT SIDERALL REAR WALL OF CABINET CB 4 A FT _:Z: ■■,1, ,,,■,,, NN IS USED ON 4 POLE rNI-B MODELS GAILY fl21-II o ©oo ©000 o ©oo ©0000 PI PS PS TRANSFER SNITCH PI -1 TB! U S2-NO Q S2-NC El 52 -C 0e1 © �� Q Si.. NCNO A PI -3 4 -2J P2 iii, ©®' PI -7� -I 57-C I-2 S LI l3E PI - f-C Nx I kaji E3 -I B -C NEUTRAL JIBAIT IS USED ON 3 POLE MODELS ONLY. NOTES: 7Q ON ALL SINGLE PHASE, 2 OR 3 WIRE UNITS: THE WIRE CONNECTED FROM JI -2 TO TB11-1 IS NOT PRESENT. IN ADDITION, ON 120 VOLT L -M, 2 WIRE UNITS: THE WIRE CONNECTED FROM KI -1 TO JI-3 WILL BE CONNECTED FROM KI -1 TO 11 -5 AND THE WIRE CONNECTED CiRONCK2-4 FTO JI ?11,70 JI-IS WILL BE 0 Si -NC L BI -I 2 -2 PI -6 'I -ID d - J2-I GND DOOR PI -I` PS-I TPI / \J2 -10 Ii -I J2-e = 1— KI -B 16 -2 - 6ND CAD Ws TP2 P3-4 1i "! TP3 II /6 44 1_,3 -5 -1 TP2 [2 -f JI -I 'I'S a Si -C TB2 Q 640 Q P2.e Q P2 -0 Q P2 -7 TBI -2 CBI I 2 CI TRI-S r FTBI-I NCINO Si n MT wreLK PI rrMI �s1 -E MI 55-C -7 -WxT -c -RED IC[ 57 _Eli_ P2 -3 CI -I Cel I C1-2-1417T 6ND Fl-ID RC N0 Se AI NI -RED -BLK -GND IC NO Si n NI-B KI a a Q a I2-B II- 13 -7 mm mm °° NM mm mm mm °° suis KM 102107 50101 now L ODS A NB 4 -IC- eI -2- Sf -NO— SS-ID w 11-E- A — C Q P2 -6 Q P2 -S IIIIQO Q I2 B 5 -C 55 -C I-5 4-C Q P2 -I El Pi -16 1I -3 p I1 25 JI•I7 - e «,n u-6 TP7 -! II -1 K1- II- N7- I!- KI B Fl-IS � I-II�P I- IS�PI -I I� -Al TD2-MD -TB2-I EA E9 EC EN K2 7 U U U Q K! -B R3 -1 -6ND DOOR P11 1 131 31 j 1 P5 -3 Q ❑s Q ID Q U U KI A QI2- KI -B mGND CAB JI -IS [3-1 P3 -I KI -T AND DOOR JI IN 11 -I P5 -1 11 -! J2 P2 mm F BIN 55-C sI -ID K3 Q Q Q U © a II Q Q U I2 -B PI -1 PI -5 PS -S PS -2 TPI mm ©F1 pp TOD []m Tel-7- TB2 -6- -4 — TB2-3— JI-lo P5 -1 FS -T JI -I2 IND DOOR R2 -1 mm Kw mm T52 -2— TB2 -B— I I I I 1 I 1 '" Ism I'� • I m mw • .mir WFTIW7 NIw u: ulutm -- • . 5 D MORE Curls PPam O2313u- WD-TRANSFER SWITCH : i,7li.i mm..lip i8 m I A MANAOESHWAR lai.M 4.55 iii 0.mi.,1 Q 15.51 -11.0 u.rn -i.UA 1 .M -11.11 .4.30, A.li ++MILLER '.. Il-TI-OH MR ml[ IK701:A I. Ml KAI: III e:^" i'... R! OTEC POT 10630 _2166 1,741 1p 6 I B I 4 1' 3 I 2` I 1 [Pr eJENGINEERI 6 1 6 I 4 4, 3 I 2 I I p C �. B A OPTION W I R I NG .Na co 0 O B - A E - - -- - JR S K JI00-113331 17KO3 REAR VIEW OF DOOR - 4P> LEFT SIDEWALL REAR WALL OF CABINET PF CB St O N2-(31,A TB3 KEA ■111,1 ,,,,,,,, 6MD x2I-1 -) DOOR ('] N2-C NN IS USED ON 4 POLE MODELS ONLY. o ©oc ©000 o ©oo ©0000 P/ PS p3 Mill EMT/ Mm EMT mm mm Rim mm Film PS -I P5 -2 ED P5.1 PS -5 P5 -7 P5 -t PS -t P5 -10 P5-4 602 mm ®® m meJm m TBI -t KNA KNA -AI TBI -0 KEA -AI TBI -3 Ili—�0- Smti TRANSFER SNITCH T NB NC NN TB NEUTAARAAS USED ON 3 POLE MODELS ONLY NOTES: 9. WIRING FOR RELAYS DNA AND KEA IS TYPICAL. WORE CONNECTIONS MAT VARY SLIGHTLY IF MORE OR LESS RELAYS ARE USED. Q THE WIRE FROM N2 -(•) IS CONNECTED TO THE WIRE GOING TO P5 -9. 65 mom mom mm m2L.m TBI I I — ,.• N2 i ? mm OM 0 CM C3111 TPI f TP2 • ESA I 2 3 NO C NCI N ) j 7- - CBI MI TB2 -5 m�® m mm mL�m m P5- - — 2r— —BHT CIS — -7; 782 IL- RED BLK GNO TP3 .., —1 _ f d V JI PI ° KI 0n nn EAU HID oo nn CIO mm mm BAD ®® — ° 0 U ° cpp' NANO n L NCINO Ca NCINO C9 M L © 0 0 0 ❑5 0 000 v K2 F EA EB EC EM - KEA -A2 — KNA-A2 - m GND CAB P60 ©00 © El El O © 0 0 ILO 0 0 El 0 ©00 BATT ' CHARGE on 22O nn On OF2 an L1 \I KIM Oi\ mm 783-41 TB3 -42 783 -43 T83 -14 TB3 -It TB3 -15 J2 P2 Jul Hu op MU — — 781 -It K3 103 -17 183 -48 0 0 0 0 0 0 ❑a 000 o nO pp On UM — — — _ mm MID I I I I I I I° I .m 1 mm. I .ev■.me...■•m3 mai10 e6 m.p �• ' S D MORE ...... Pet. a 08W32At[� ' WD-TRANSFER SWITCH .. S.IV ,.,„ 3.33:3, .i3f11NPl�r G � m I A MAHADESHWAR = 2 Ism-mu .42s/ 00 11.33 M.n 3. ' 3.0 =.0 HILLER "^ I I-29 -D/ Mt W. .,3133 v .a:: ' r ISUU: Ill ,� m 1j; ;'q�,IOTEC PGF pi 0630_2766 lO":']? B I 5 I 4 T 3 1 2 I I IPre /ENGINEER PowerCommand® Annunciator Discrete Input or PCCNet Description The Universal Annunciator Module provides visual and audible indication of up to 20 separate alarm or status conditions, based on discrete (relay) inputs or network inputs. Each LED can be controlled by either a discrete wire input or by a signal on the PCCNet network sent from an external device, such as a PCC1301 or PCC2100 (version 2.4 or later) control. In addition to the LEDs, the annunciator can control four custom relays based on signals received over the PCCNet. When one of the annunciator's discrete inputs is activated, the annunciator will broadcast that information over the network. By taking advantage of the network, discrete inputs and custom relays, the annunciator can be used as expanded I/O for a genset controller. Easily installed in a location to give immediate notification of an alarm or warning status. Designed to give operating /monitoring personnel quick - glance status information. The module directly senses battery voltage to provide green/yellow /red alarm and status information for that parameter. Genset controller complies with NFPA level two requirements when used with the display but without the annunciator panel. When used with the annunciator it meets NFPA level one requirements (emergency and standby power systems). The annunciator module can also be used for monitoring of transfer switch or other equipment status. Features • Visual and audible warnings of up to 20 separate alarm or status conditions. • LEDs can be controlled either via PCCNet or discrete input. • Status of discrete inputs is broadcast on network. • Four custom relays can be controlled over the PCCNet network. • Configurable LED color (red, yellow or green) and selectable horn operation allows maximum flexibility. • Standard NFPA 110 label, field configurable for other alarm status and conditions. • Each audible alarm is annunciated, regardless of the number of existing alarm conditions displayed. • Sealed membrane panel design provides environmental protection for internal components and is easy to clean. • Configurable for negative (ground) input or positive input. • Integral DC voltage sensing. • Flush or surface mount provisions. • UL Listed and labeled; CSA certified; CE marked. 02009 Cummins Power Generation Inc. All rights reserved. Cummins Power Generationand Cummins are registered trademarks of Cummins Inc. PowerCommand and Our energy working for you are trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. Specifications are subject to change without notice. S -1472e (8/09) Specifications Signal requirements Positive - Input impedance is 1.82 kOhms to ground; maximum input voltage = 31 VDC. Negative - Input impedance is 1.82 kOhms to Bat +: inputs are at Bat+ level when open. Sink/source current threshold for detection - 150 uA minimum, 3 mA maximum. Typical conductor size: 16 ga for 304.8 m (1000 ft) Max conductor size for terminal: 12 ga Relay outputs 0.2 A at 125 VAC and 1 A at 30 VDC Network connections Use Belden 9729 two pair, stranded, shielded 24 AWG twisted pair cable for all PCCNet connections. Total network length can not exceed 1219 m (4000 ft). Up to 20 nodes can be connected to the network. Note: Any communications wire connected to the generator set should be stranded cable. Power Maximum consumption: 15 watts Battery voltage Functional range - Audible and visual conditions operational from 6.5 to 31 VDC. Low voltage setting - 12.0 VDC for 12 Volt nominal systems; 24.0 for 24 Volt nominal systems. High voltage setting - 16.0 Volt for 12 Volt nominal systems; 32.0 Volt for 24 Volt nominal systems. Alarm horn Sound level: 90 dB at 30 cm Physical Weight (with enclosure): 1.4 kg (3.0 Ibs) Temperature -20 °C to +70 °C ( -4 °F to +158 °F) Humidity 10% to 95% RH (non - condensing) Default lamp configurations Can be configured for current NFPA 110 standard or as a replacement for Legacy (pre -2001) NFPA 110 annunciator (300 -4510 or 300 4511) Lamp Description NFPA 110 Color Horn Flash D31 Customer fault 1 Green No No 032 Customer fault 2 Amber No No 033 Customer fault 3 Red No No DS4 Genset supplying load Amber No No D35 Charger AC failure Amber Yes No DS6 Low coolant level Amber Yes No D37 Low fuel level Red Yes No DS8 Check generator set Amber No No D39 Not in auto Red Yes Yes 0310 Generator set running Amber No No 0311 High battery voltage Amber Yes No 0312 Low battery voltage Red Yes No 0313 Weak battery Red Yes No DS14 _ Fail to start . Red Yes No D315 Low coolant temp Red Yes No D318 Pre -high engine temp Amber Yes No 0317 High engine temp Red Yes No D318 Pre -low oil pressure Red Yes No 0319 Low oil pressure Red Yes No DS20 Overspeed Red Yes No Our energy working for you."' www.cumminspower.com 02009 Cummins Power Generation Inc. All rights reserved. Cummins Power Generationand Cummins are registered trademarks of Cummins Inc. PowerCommand and Our energy working for you." are trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. Specifications are subject to change without notice. S -1472e (8/09) Typical installation ATS #4 Genset Supplying Load** ATS #3 Genset Supplying Load** ATS #2 Genset Supplying Load** ATS #1 Genset Supplying Load Charger AC Failure BATTERY CHARGER Charger AC Failure EXTERNAL GENSET I/O Low Coolant Level* Low Fuel Level* GENSET Low Coolant Level* Low Fuel Level* Check Genset Not In Auto Genset Running High Battery Voltage Low Battery Voltage Weak Battery Fail to Start Low Coolant Temp Pre -High Engine Temp High Engine Temp Pre -Low Oil Pressure Low Oil Pressure Overspeed Custom Relay 1 Custom Relay 2 Custom Relay 3 Custom Relay 4 PCCNet Network Direct Wired The annunciator broadcasts its status upon direct wired input change and a minimum of once every five seconds. It only sets to °active" direct wired inputs that are active. ANNUNCIATOR 6•• Customer Fault 1" "•—••' Customer Fault 2** Customer Fault 3** Genset Supplying Load 2, Charger AC Failure —�� Low Coolant Level* 1. Low Fuel Levet* Check Genset Not In Auto Genset Running ■ High Battery Voltage 10 Low Battery Voltage Weak Battery Fail to Start Low Coolant Temp Pre -High Engine Temp • High Engine Temp 3. Pre -Low Oil Pressure • Low Oil Pressure Overspeed ■ Custom Relay 1 Custom Relay 2 ▪ Custom Relay 3 • Custom Relay 4 * Low Coolant Level and Low Fuel Level statuses can be either direct wired from External Genset I/O or be part of the PCCNet network status coming from the genset. If direct wired, then the annunciator sets the appropriate bit for the genset to reference. ** These can be Genset Supplying Load 2 thru 4 or Customer Faults. When enabled, High Battery Voltage, Low Battery Voltage, and Normal Battery Voltage takes precedence over the hardwired input. Normal Battery voltage can replace Weak Battery. 1 Our energy working for you.*' www.cumminspower.com 02009 Cummins Power Generation Inc. All rights reserved. Cummins Power Generationand Cummins are registered trademarks of Cummins Inc. PowerCommand and Our energy working for you.' are trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. Specifications are subject to change without notice. S -1472e (8/09) Dimensions Ordering information Part number 0300 - 5929 -01 Description Panel mount Dimensions: In (mm) ®• 300 - 5929 -02 Panel with enclosure POCNet o COMPATIBLE See your distributor for more information. Cummins Power Generation Americas 1400 73rd Avenue N.E. Minneapolis, MN 55432 USA Phone: 763 574 5000 Fax: 763 574 5298 Europe, CIS, Middle East and Africa Manston Park Columbus Ave. Manston Ramsgate Kent CT 12 5BF United Kingdom Phone 44 1843 255000 Fax 44 1843 255902 Our energy working for you." www.cu mmi nspower.com 02009 Cummins Power Generation Inc. All rights reserved. Cummins Power Generationand Cummins are registered trademarks of Cummins Inc. PowerCommand and "Our energy working for you.' are trademarks of Cummins Power Generation. Other company, product, or service names may be trademarks or service marks of others. Specifications are subject to change without notice. S -1472e (8/09) Asia Pacific 10 Toh Guan Road #07 -01 TT International Tradepark Singapore 608838 Phone 65 6417 2388 Fax 65 6417 2399 �e t 6. r of The Smart Choice for Mission - Critical Engine Starting • Fast, accurate, mission - critical charging — gives best starting reliability • Replace nearly any charger — without planning ahead • Industry -first battery -fault alarm - helps dispatch service early • 1 million hour observed MTBF — means longest charger life • Smart design — stops load dump and other damaging transients www.sens - usa.com • info @sens- usa.com • Toll -free 866.736.7872 • 303.678.7500 �1 fin+ SEN S® Our energy r leans business® _ i_ NRG Battery Charger Benefits and Features • • Failure to start due to battery problems is the leading cause of inoperable engine generator sets. SENS NRG battery charger maximizes starting system reliability white ;lashing genset servicing costs: One NRG replaces almost any charger without extra site visits. Installers can select or change at any time 120, 208 or 240 volts AC input, 12 or 24 -volt battery and output settings optimized for nearly any lead -acid or nickel cadmium battery. Easy to understand user interface provides state -of- the -art system status — including digital metering, NFPA 110 alarms and a battery fault alarm that can send service personnel to the site before failure to start. Batteries charged by NRG give higher performance and last longer. In uncontrolled environments precision charging by SENS increases battery life and watering intervals 400% or more. NRG meets all relevant industry standards— including UL, NFPA 110 and CE. All units are either C -UL listed or C -UL recognized. 50/60 Hz units add CE marking to UL agency marks. EnerGenius reliability technology built into every charger includes: • All- electronic operation with generous component de- rating • Disconnected /reversed/incorrect voltage battery alarm and protection • Protection of connected equipment against load dump transients • Widest temperature rating, and overtemperature protection • Superior lightning and voltage transient protection • Demonstrated field MTBF > 1 million hours • Standard 3 -year warranty and available reimbursement of customer field service costs Earn the best return on your charger investment — choose SENS NRG .2 -. ,: �+� k.��!! =- -w. lily' v— M-_. � .i:fdC�L�..:�::�lri•�t1iL.c_4��. _�i._. s- _.._c. ...mss => se...��� ...c_.t.,,.. t._. x. L: �... �. ti_: 1--. c�>, �.:, r- r..- t:=. iW�..,.,. �_ 3dc +:ac:.��T��.��u.t,r4- Ya�,ti•�� ��= ���w8a(rtc� SENS10A N RG Specifications AC Input Voltage 110- 120/208 -240 VAC, ±10 %, single phase, switch selectable Input current 10A charger: 6.6/3.3 amps maximum 20A charger: 12.6/6.3 amps maximum Frequency 60 Hz ±5% standard; 50/60 Hz ±5% optional Input protection 1 -pole fuse, soft -start, transient suppression Charger Output Nominal voltage ratings 12 or 24 volt nominal Optional voltage rating 12/24 volt, field selectable Battery settings Six discrete battery voltage programs - Low or high S.G. flooded - Low or high S.G. VRLA - Nickel cadmium 9, 10, 18, 19 or 20 cells Regulation ±0.5% (1/2 %) line and load regulation Current 10 or 20 amps nominal Electronic current limit 105% rated output typical — no crank disconnect required Charge characteristic Constant voltage, current limited, 4 -rate automatic equalization Temperature compensation Enable or disable anytime, remote sensor optional Output protection Current limit, 1 -pole fuse, transient suppression Standard 4 -rate charging Fast volt limit Float volt limit 0 ar Current limit Charger in "fast charge mode" Transition from current limit to fast charge voltage limit Battery current acceptance Constant current charge Transition from fast charge voltage to / float voltage Charger in "float mode" High -rate Finishing Maintaining taper charge charge charge User Interface, Indication and Alarms Digital meter Switch - selectable meter for output volts, amps Accuracy ±2% volts, ±5% amps Alarms LED and Form C contact(s) per table: Front panel status display Iarm System,Functionsa Alarm code "1 "1 Alarm code "C" imam requirements of NFPA 110) AC • ood LED LED Float mode LED LED Fast charge LED LED - Tern. corn. active LED LED AC fail LED2 LED and Form C contact Low batte volts LED and Form C contact Hi • h batte volts LED and Form C contact Char. er fail LED2 LED and Form C contact Battery fault3 LED2 LED and Form C contact 1. Alarms "1" available only on 10A charger 2. Form C contact provides summary alarm of these conditions. BBHH chargers include this alarm configuration. Contacts rated 2A @ 26 VDC resistive 3. Battery fault alarm indicates these fault conditions: - Battery disconnected - Battery polarity reversed - Mismatched charger battery voltage - Open or high resistance charger to battery connection - Open battery cell or excessive internal resistance Controls AC input voltage select Optional 12/24 -volt output select Battery program select Fast charger enable /disable Temp compensation enable Remote temp comp enable Environmental Operating temperature Over temperature protection Humidity Vibration (10A unit) Transient immunity Field- selectable switch Field - selectable two- position jumper Field- selectable six - position jumper Field - selectable two- position jumper Standard. Can be disabled or re- enabled in the field Connect optional remote sensor to temp comp port SENS1 OA Simple field adjustments -20C to +60C, meets full specification to +45C Gradual current reduction to maintain safe power device temperature 5% to 95 %, non - condensing UL 991 Class B (2G sinusoidal) ANSI/IEEE C62.41, Cat. B, EN50082 -2 heavy industrial Agency Standards Safety Agency marking EMI NFPA standards Optional agency compliance C -UL listed to UL 1236 (required for UL 2200 gensets), CSA standard 22.2 no. 107.2 -M89 CE: 50/60 Hz units DOC to EN 60335 60 Hz: C -UL -US listed 50/60 Hz: C -UL -US listed plus CE marked FCC Part 15 Class 8; EN 50081 -2 NFPA 70, NFPA 110. (NFPA 110 requires Alarms "C ") Units with Alarms "1" configuration available with additional compliance to UL category BBHH and NFPA 20 Construction Housing/configuration Packaging Dimensions Printed circuit card Cooling Protection degree Damage prevention Electrical connections Material: Heavy clear anodized aluminum. Configuration options: • Fully enclosed: C -UL listed enclosure • Open frame: C -UL recognized • Slimline: C -UL recognized open frame construction with remote isolation transformer Open -frame and Slimline configurations only available in bulk OEM quantities and packaging See Drawings and Dimensions page for details Surface mount technology, conformal coated Natural convection Listed housing: NEMA -1 (IP20). Optional NEMA 3R enclosure Fully recessed display and controls Compression terminal blocks Warranty Standard warranty Optional warranty Three year parts and labor warranty from date of shipment If specified at time of order, warranty coverage is increased to reimburse customer's documented field service costs up to the original charger price. Contact the factory for full details Optional features Input Remote temp comp sensor Drip shield NEMA 3R housing UL BBHH listing Field service warranty Input frequency, 50/60 Hz Recommended where battery and charger are in different locations Protects from dripping water Enables outdoor installation (remote temp sensor recommended) Available in 10A units with Alarms "1" Reimbursement of customer field service expenses up to charger price Drawings and Dimensions 10A Chargers Q Enclosed and Open Frame Configurations Open -frame configuration omits front cover 10A Chargers Slimline Open Frame Configuration Slimline can be mounted either flat or edgewise Open -frame configuration omits front cover ousing Dimensions Table SENSIOA 20A Chargers Enclosed and Open Frame Configurations Amps Configuration Width Depth Height 10 Enclosed 7.66' 195 mm 6.50" 165 mm 12.50" 318 mm 10 0. -n -frame 7.66" 195 mm 6.50" 165 mm 12.50" 318 mm 10 Slimline — flat mount 7.00" 187 mm 1.71" 43 mm 8.78° 223 mm mine — e••emount • am ___ _LIEGDZ M nc ose • >m>f______ m) imam m' 20 Open -frame RG,Ordering Information Output Output Model Available configurations NFPA 110 Lbs /Kg volts am .s Alarms No 12 10 NRG12 -10 -R1 Enclosed O.en -frame Slimline 19 / 8.7 12 10 NRG12-10-RC Enclosed Slimline Yes 19 / 8.7 24 10 NRG24 -10-R1 Enclosed O.en -frame Slimline No 24/ 10.9 24 10 NRG24 -10-RC Enclosed Slimline Yes 24 / 10.9 12/24 10 NRG22 -10-R1 Enclosed O.en -frame Slimline No 24/ 10.9 12/24 10 NRG22 -10-RC Enclosed Slimline Yes 24 / 10.9 12 20 NRG12-20-RC Enclosed O . en -frame Yes 39 / 17.7 24 20 NRG24 -20 -RC Enclosed O.en -frame Yes 42/ 19.1 12/24 20 NRG22 -20 -RC Enclosed, 0.en -frame Yes 42 / 19.1 SENSI OA All models offer field - selectable input 120/ 208 -240 volts. 60 Hz input is standard with C -UL listing. Optional 50/60 Hz input includes C -UL listing and adds CE mark. Model Number Breakout Model Output voltage 12: 12 volts 24: 24 volts 22: 12/24 -volt field selectable Output current 10: 10 amps 20: 20 amps AC input R: 120/208 -240 VAC, 60 Hz H: 120/208 -240 VAC, 50/60 Hz UL category code S: UL category BBGQ (standard) H: UL category BBHH (Alarms "1° only) 1 Alarm system code Housing/Agency 1: LED and single Form C contact L: Enclosed: C -UL listed C: LEDs and Form C contacts to meet R: Open- frame: C -UL NFPA 110 recognized S: Slimline open -frame: C -UL recognized (10A only) 0 0 •o The Smart Choice for Mission - Critical Engine Starting Additional Information Contact SENS or your local sales representative for additional specification, engineering and installation information US LISTED C E Contact Information For information and service on any SENS product, please contact us at: Sales 1.866.736.7872 • 303.678.7500 • Fax 303.678.7504 www.sens- usa.com • info@sens-usa.com 1840 Industrial Circle, Longmont, CO 80501 USA -& SENS STORED ENERGY SYSTEMS Our energy means business® INTERSTATE BATTERIES BCI Group Size SUGGESTED CUSTOMER Interstate Batteries Type PRICES ALL PRICES QUOTES ARE EXCHANG SAE Ratings CCA 30 Ssec. at 0° F Reserve Capacity(4) Comparative Ratings Only 32° F CA 80° F HCA W a O 4DLT 8D 8D 8D 29H 29NF 31 31 31 31 31 31 24 24F 27 27F 50 65 74 75U 78U N100 N120 N120 NS150 3EE 3ET 16TF 17TF 53 60K 6TN > z'ulD-XHD:A 4DLT -VHD 8D -MHD 8D -XHD 8D -P30 29H -VHD 29NF -VHD 31 -MHD 31 P -MH D 31 -LHD 31P-LHD 31 -VHD 31 -DC C24 -XHD C24F -XHD C27 -XHD C27F -XHD C50 -XHD C65 -XHD C74 -XHD C75CT -XHD C78DT -XHD N -100 N -120 N120 NS150 U3EE -VHD U3ET -VHD USRM -16TF U17TF -VHD U53K -VHD U60K -VHD U6TL W1000 850 1400 1155 1155 660 420 950 950 750 750 660 700 575 575 675 675 600 650 575 575 725 750 620 800 800 450 500 640 625 360 550 825 Ci* ;;295'.'.. 250 450 380 380 160 77 195 195 180 180 160 200 130 130 160 160 108 115 130 100 120 180 240 250 275 100 140 250 150 65 105 215 '•1250:x.:: 1065 1750 1445 1445 825 525 1190 1190 940 940 825 875 720 720 845 845 750 815 720 655 905 925 775 975 975 500 575 800 665 450 690 1030 1225 2015 1665 1665 950 605 1370 1370 1080 1080 950 1010 830 830 970 970 865 935 830 755 1045 1080 840 1150 1150 575 660 920 765 520 790 1180 STOCK NO. (1) VOLT; liEl liEl liEl ES lie ES I® [59001.: SERVICE ADJUSTMENT Non - Commercial Commercial Months Cost/Mo. Months Cost/Mo. •4r 6:x 5988 6 30 4.70 59811 6 36 5.28 59411 6 36 5.11 59121 6 36 5.64 5965 18 36 2.64 5974 6 36 2.22 5917 18 36 3.17 5917 18 36 3.17 5916 18 36 2.86 5916 18 36 2.86 5965 18 36 2.64 5917 18 36 3.17 5994 18 60 1.35 30 2.70 5994 18 60 1.35 30 2.70 5945 18 60 1.47 30 2.93 5945 18 60 1.47 30 2.93 5917 18 60 2.00 30 4.00 5926 18 60 1.67 30 3.33 5915 18 60 1.40 30 2.80 5925 18 60 1.42 30 2.83 5966 18 60 1.84 30 3.67 5997 6 24 5.54 59901 6 24 8.29 59131 6 24 9.12 59991 6 24 13.93 5905 6 30 2.83 5985 6 30 3.26 59501 6 30 5.52 5947 6 30 4.00 5994 6 30 2.77 5985 6 30 3.27 5939 6 30 5.20 4D City of Tukwila Jim Haggerton, Mayor Department of Community Development Jack Pace, Director 19.O.a 09 -01 -2011 JERRY KNUDSON 6402 S 144 ST TUKWILA WA 98168 RE: Permit No. M11 -042 6300 SOUTHCENTER BL TUKW Dear Permit Holder: In reviewing our current records, the above noted permit has not received a final inspection by the City of Tukwila Building Division. Per the International Building Code, International Mechanical Code, Uniform Plumbing Code and/or the National Electric Code, every permit issued by the Building Division under the provisions of these codes shall expire by limitation and become null and void if the building or work authorized by such permit has not begun within 180 days from the issuance date of such permit, or if the building or work authorized by such permit is suspended or abandoned at any time after the work has begun for a period of 180 days. Your permit will expire on 10/26/2011. Based on the above, you are hereby advised to: 1) Call the City of Tukwila Inspection Request Line at 206 -431 -2451 to schedule for the next or final inspection. Each inspection creates a new 180 day period, , provided the inspection shows progress. -or- 2) Submit a written request for permit extension to the Permit Center at least seven (7) days before it is due to expire. Address your extension request to the Building Official and state your reason(s) for the need to extend your permit. The Building Code does allow the Building Official to approve one extension of up to 180 days. If it is determined that your extension request is granted, you will be notified by mail. In the event you do not call for an inspection and/or receive an extension prior to 10/26/2011, your permit will become null and void and any further work on the project will require a new permit and associated fees. Thank you for your cooperation in this matter. Sincerely, Bill Rambo Permit Technician File: Permit File No. Ml 1 -042 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206 - 431 -3670 • Fax: 206 - 431 -3665 April 13, 2011 • City of Tukwila Jim Haggerton, Mayor Department of Community Development Jack Pace, Director Jerry Knudson 6402 S 144 St Tukwila, WA 98168 RE: Incomplete Letter #1 Mechanical Permit Application M11 -042 City of Tukwila Generator — 6300 Southcenter BI Dear Mr. Knudson, This letter is to inform you that your permit application received at the City of Tukwila Permit Center on April 7, 2011 is determined to be incomplete. Before your application can continue the plan review process the attached /following items from the following department(s) need(s) to be addressed: Building Department: Dave Larson at 206 431 -3678 if you have any questions concerning the following comment. 1. Structural design and plans are required for the generator foundation /slab. Please address the comment above in an itemized format with applicable revised plans, specifications, and /or other documentation. The City requires that two (2) sets of revised plans, specifications and/or other documentation be resubmitted with the appropriate revision block. In order to better expedite your resubmittal a `Revision Submittal Sheet' must accompany every resubmittal. I have enclosed one for your convenience. Revisions must be made in person and will not be accepted through the mail or by a messenger service. If you have any questions, please contact me at the Permit Center at (206) 431 -3670. Sincerely, 97)10 q, Bill Rambo Permit Technician Enclosures File: M11 -042 W: \Permit Center \incomplete Letters\2011\M11 -042 Incomplete Ltr #1.DOC 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206- 431 -3670 • Fax: 206 - 431 -3665 OPERMCf COORD COPY i PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER: M11 -042 DATE: 04/13/11 PROJECT NAME: CITY OF TUKWILA - GENERATOR SITE ADDRESS: 6300 SOUTHCENTER BL Original Plan Submittal Response to Correction Letter # X Response to Incomplete Letter # 1 Revision # after Permit Issued DEPART ENTS: Building ivision Public Works Fire Prevention Structural S" Planning ivision I■� Permit Coordinator ❑ DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete Y', Comments: Incomplete n DUE DATE: 04/14/11 Not Applicable a 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 REVIEWER'S INITIALS: Structural Review Required ❑ No further Review Required ❑ DATE: APPROVALS OR CORRECTIONS: DUE DATE: 05/12/11 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 PE WM CUPV • • PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER: M11 -042 DATE: 04 -07 -11 PROJECT NAME: CITY OF TUKWILA - GENERATOR SITE ADDRESS: 6300 SOUTHCENTER BL X Original Plan Submittal Response to Incomplete Letter # Response to Correction Letter # Revision # After Permit Issued DEPARTMENTS: Building Division Public Works Awk. 4-1-14\ Fire Prevention Structural Planning Division ❑ Permit Coordinator DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete n Incomplete DUE DATE: 04-12-11 Not Applicable Comments: Permit Center Use Only 1 INCOMPLETE LETTER MAILED: —3� l 1 LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg Fire ❑ Ping ❑ PW ❑ Staff Initials: Wl� TUES/THURS ROUTING: Please Route n Structural Review Required ❑ No further Review Required REVIEWER'S INITIALS: DATE: APPROVALS OR CORRECTIONS: DUE DATE: 05-10-11 Approved ❑ Approved with Conditions Ti Not Approved (attach comments) n 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 • 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 Revision submittals must be submitted in person at the Permit Center. Revisions will not be accepted through the mail, fax, etc. Plan Check/Permit Number: M 1 1-042 ® Response to Incomplete Letter # 1 Date: ❑ Response to Correction Letter # ❑ Revision # after Permit is Issued ❑ Revision requested by a City Building Inspector or Plans Examiner Project Name: City of Tukwila - Generator Project Address: 6300 Southcenter Bl Contact Person: je,.Ary > i,n, v nso,✓ Phone Number: ,-, 6 7 3Q �1ri' ' Summary of Revision: // Sc. / OF tti42.9✓l , /44.r 60x.isre* 5-44 Sheet Number(s): "Cloud" or highlight all areas of revision including date of revision Received at the City of Tukwila Permit Center by: Xr. Entered in Permits Plus on \applications \forms- applications on line\revision submittal Created: 8 -13 -2004 Revised: Contractors or Tradespeople Prater Friendly Page • General /Specialty Contractor A business registered as a construction contractor with L &I 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 GREEN RIVER CONST COMPANY INC UBI No. 600582949 Phone 2062469456 Status Active Address 6402 S 144Th St Ste 1 License No. GREENRC148MM Suite /Apt. License Type Construction Contractor City Seattle Effective Date 7/14/1986 State WA Expiration Date 7/14/2012 Zip 98168 Suspend Date County King Specialty 1 General Business Type Corporation Specialty 2 Unused Parent Company sated Licenses License icense Name Type Specialty 1 Specialty 2 Effective Date Expiration Date Status GREENRC158NACONSTRUCTION GREEN RIVER CO Construction Contractor General Unused 8/1/1985 7/14/1986 Archived GREENC'231CZ GREENRIVER CONSTRUCTION CO Construction Contractor Excavation /Grading Unused 2/9/1977 7/14/1985 Archived Business Owner Information Name Role Effective Date Expiration Date KNUDSON, GERRY C President 01/01/1980 Bond Amount PARSHALL, NOEL P Secretary 01/01/1980 YLI240695 Bond Information Page 1 of 2 Bond Bond Company Name Bond Account Number Effective Date Expiration Date Cancel Date Impaired Date Bond Amount Received Date 7 OLD REPUBLIC SURETY CO YLI240695 07/19/2005 Until Cancelled $12,000.00 06/03/2005 6 OLD REPUBLIC INS CO YLI240695 07/14/2002 07/19/2005 $12,000.00 04/15/2002 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 21 Continental Western Ins Co CWP2912671 12/08/2010 12/08/2011 $1,000,000.00 12/07/2010 20 ALASKA NATIONAL INS CO 08LPS32086 12/08/2008 12/08/2010 $1,000,000.00 12/07/2009 19 NORTH PACIFIC INS CO C06158305 07/14/2008 07/14/2009 $1,000,000.00 07/14/2008 18 UNDERWRITERS AT LLOYDS CJ0677054 07/14/2007 07/14/2008 $1,000,000.00 07/13/2007 17 UNDERWRITERS LLOYDS LONDON CJ0426116 07/14/2006 07/14/2007 $1,000,000.0007 /14/2006 16 NAVIGATORS INSURANCE COMPANY 16318A 07/14/2005 07/14/2006 $1,000,000.00 07/13/2005 https://fortress.wa.gov/lni/bbip/Print.aspx 04/28/2011