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Permit M13-193 - AT&T - ALTERATION
AT&T 15700 NELSON PL M13-193 City M Tukwila • Department of Community Development 6300 Southcenter Boulevard, Suite #100 Tukwila, Washington 98188 Phone: 206-431-3670 Inspection Request Line: 206-431-2451 Web site: http://www.TukwilaWA.gov MECHANICAL PERMIT Parcel No.: 0005800029 Address: 15700 NELSON PL TUKW Project Name: AT&T Permit Number: M13-193 Issue Date: 10/30/2013 Permit Expires On: 04/28/2014 Owner: Name: WILTON LP Address: 18515 134TH ST NE , MONROE WA 98272 Contact Person: Name: JESSE MONTEZ Address: 7717 DETROIT AV SW , SEATTLE WA 98106 Email: JESSE.MONTEZ@MACMILLER.COM Contractor: Name: MACDONALD MILLER FAC SOL INC Address: PO BOX 47983 , SEATTLE, WA 98106 Contractor License No: MACDOMF972BF Phone: 206 768-4278 Phone: 206 763-9400 Expiration Date: 01/06/2015 DESCRIPTION OF WORK: REMOVE (2) WALL MOUNTED AC UNITS AND REPLACE WITH (2) 5 -TON VERTICAL WALL MOUNTED AC UNITS. RECONNECT TO EXITING GRILLES AND DUCTWORK. Value of Mechanical: $8,458.00 Type of Fire Protection: UNKNOWN Electrical Service Provided by: Permit Center Authorized Signature: Fees Collected: $299.25 International Mechanical Code Edition: 2012 Date: 10 -so--( 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: Date: Y 0(3 U ( 13 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. d.... IRA(' A/111 KA1'1_1a'i Printed• 10-30-2013 • • PERMIT CONDITIONS Permit No. M13-193 1: ***BUILDING DEPARTMENT CONDITIONS*** 2: No changes shall be made to the approved plans unless approved by the design professional in responsible charge and the Building Official. 3: All mechanical work shall be inspected and approved under a separate permit issued by the City of Tukwila Permit Center (206/431-3670). 4: All permits, inspection records, and approved plans shall be at the job site and available to the inspectors prior to start of any construction. These documents shall be maintained and made available until final inspection approval is granted. 5: 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: Remove all demolition rubble and loose miscellaneous material from lot or parcel of ground, properly cap the sanitary sewer connections, and properly fill or otherwise protect all basements, cellars, septic tanks, wells, and other excavations. Final inspection approval will be determined by the building inspector based on satisfactory completion of this requirement. 7: Manufacturers installation instructions shall be available on the job site at the time of inspection. 8: All plumbing and gas piping work shall be inspected and approved under a separate permit issued by the City of Tukwila Building Department (206-431-3670). 9: All electrical work shall be inspected and approved under a separate permit issued by the City of Tukwila Building Department (206-431-3670). 10: 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. _1.n• IIRA0_A/1n M11 -1Q1 Printed. 10-30-2013 • CITY OF TUKWILA Community Development Department Permit Center 6300 Southcenter Blvd., Suite 100 Tukwila,' WA 98188 http:/iwww.Tukwila WA. gov • Mechanical Permit No. Project No. a Date Application Accepted: D It Date Application Expires: (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 King Co Assessor's Tax No.: 0005800027 Site Address: 15700 Nelson Pl Tukwila, WA 98188 Suite Number: Cell Site Floor: 1 2 pri4 t New Tenant: ❑ Yes 0..No Tenant Name: PROPERTY OWNER Name: JESSE MONTEZ Name: AT&T Mobility & Affiliates City: SEATTLE State: WA Zip: 98106 Address: PO Box 66786 Email: jesse.montez@macmiller.com City: Saint Louis State: MO Zip: 63166 CONTACT PERSON — person receiving all project communication Name: JESSE MONTEZ Address: 7717 DETROIT AVE SW City: SEATTLE State: WA Zip: 98106 Phone: (206) 768-4278 Fax: (206) 768-4279 Email: jesse.montez@macmiller.com MECHANICAL CONTRACTOR INFORMATION Company Name: MACDONALD MILLER Address: 7717 DETROIT AVE SW City: SEATTLE State: WA Zip: 98106 Phone: (206) 768-4278 Fax: (206) 768-4279 Contr Reg No.: MACDOFS980RU Exp Date: 12/31/2013 Tukwila Business License No.: BUS -0100868 Valuation of project (contractor's bid price): $ 8,458 Describe the scope of work in detail: REMOVE (2) EXISTING WALL MOUNTED AC UNITS AND REPLACE WITH (2) NEW 5 -TON VERTICAL WALL MOUNTED AC UNITS, RECONNECT TO EXISTING GRILLES AND DUCTWORK Use: Residential: New ❑ Replacement ❑ Commercial: New ❑ Replacement Fuel Type: Electric m Gas ❑ Other: H:Wpphcations\Forms-Applications On Lme\2011 Apphcations'Mechanical Permit Application Revised 8-9-11.docs Revised: August 2011 bh Page 1 of 2 Indicate type of mechanical work being installed and the quantity below: Unit Type Qty Furnace <100k btu Furnace >100k btu 2 Floor furnace Suspended/wall/floor mounted heater Appliance vent Repair or addition to heat/refrig/cooling system Air handling unit <10,000 cfm Unit Type Qty Air handling unit >10,000 cfm 2 Evaporator cooler Ventilation fan connected to single duct Ventilation system Hood and duct Incinerator — domestic Incinerator — comm/industrial • Unit Type Qty Fire damper Diffuser Thermostat Wood/gas stove Emergency generator Other mechanical equipment Boiler/Compressor Qty 0'-3 hp/100,000 btu 3-15 hp/500,000 btu 15-30 hp/1,000,000 btu 30-50 hp/1,750,000 btu 50+ hp/1,750,000 btu 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. BUILDING Signature: Print Name: DARLA DOLL AUTHORIGENT: Mailing Address: 7717 DETROIT AVE SW H:Wpphcaiions\Forms-Applications On Line \201 I Applications Mechanical Permit Application Revised 8-9.1 l.docx Revised: August 2011 bh Date: 10/18/2013 Day Telephone: (206) 768-4278 SEATTLE WA 98106 City State Zip Page 2 of 2 • 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.TukwilaWA.nov Parcel No.: 0005800029 Address: 15700 NELSON PL TUKW Suite No: Applicant: AT&T RECEIPT Permit Number: M13-193 Status: PENDING Applied Date: 10/18/2013 Issue Date: Receipt No.: R13-02911 Initials: User ID: JEM 1165 Payment Amount: $299.25 Payment Date: 10/18/2013 12:37 PM Balance: $0.00 Payee: MACDONALD-MILLER FACILITY SOLUTIONS, INC. TRANSACTION LIST: Type Method Descriptio Amount Payment Check 3758 • 299.25 Authorization No. ACCOUNT ITEM LIST: Description i Account Code Current Pmts MECHANICAL - NONRES PLAN CHECK - NONRES 000.322.102.00.00 239.40 000.345.830 59.85 Total: $299.25 Printed• 10-18-2013 INSPECTION RECORD Retain a copy with permit n113-19 3 INSPECTION NO. PERMIT NO. CITY OF TUKWILA BUILDING. DIVISION 6300 Southcenter Blvd., #100; Tukwila. WA 98188 (206).431-3670 Permit Inspection Request Line (206) 431-2451 Project:......,..--. Type of Inspection: ..... Address: 157co Ne.156k P 1 --- Date Called: special Instructions: /-4 / 0�.f Date W1 nted: l /Z �r/ -3 •. CP p--fr� Requester /0/1/y Phone o: c y23 503 7 Approved per applicable codes. Corrections required prior to approval. COMMENTS: 6)1206h199(01/'1- ;4-6=h:1plsfp /> iia/ Date: . /i1.12 SPECTION: FEE REQUIRED. Prior to next inspection, fee must be at 6300 Southcenter Blvd.; Suite 100. Call to -schedule reinspection. 1201 First Avenue South, Suite 310 Seattle, Washington 98134 208-402-5156 www.lunclopsahl.com FILE COPY Po rml# No. STRUCTURAL CALCULATIONS MacDonald Miller Marvair 5 Ton Unit 15700 Nelson Road South Tukwila, WA 98188 10/16/2013 REVIEWED FOR CODE COMPLIANCE " APPROVED OCT 252013 City of Tukwila BUILDING DIVISION . RECEIVED CITY OF TUKWILA OCT 182013 PERMIT CENTER AM I 1201 1st Avenue South + Suite 310 + Seattle, WA 98134 + 206.402.5156 + www.Iwo-se.com 1201 First Avenue South, Suite 310 Seattle, Washington 98134 206-402-5156 www.lundopsahl.com Site Address 15700 Nelson Road South Tukwila, WA 98188 Unit Being Installed Marvair 5 Ton Unit Wunit= 552 lbs u arr..wra..m.a..04weerNp Attaching to Concrete Seismic Design Criteria (From USGS Hazard Calculator) Sos= 0.965 Unit attachment is OK per Appendix Calculations Unit Attachment (10) 3/8" Diameter Simpson Titan HD with 2 3/4" embed. or (10) 3/8" Diamter Hilti Kwik Bolt 17 with 2 3/8" embed. :-Ir;‘); ,•.r 1201 1st Avenue South + Suite 310 + Seattle, WA 98134 + 206.402.5156 + www.lwo-se.com 10/16/13 Design Maps Summary Report Design Maps Summary Report User -Specified Input Report Title 15700 Nelson Road South Wed October 16, 2013 22:06:05 UTC Building Code Reference Document ASCE 7-10 Standard (which utilizes USGS hazard data available in 2008) Site Coordinates 47.46155°N, 122.2424°W Site Soil Classification Site Class D - "Stiff Soil" Risk Category I/II/III USGS-Provided Output SS = 1.447 g S1 = 0.540 g SMs= 1.447g SMi = 0.809 g SpS = 0.965 g SD1 = 0.540 g For information on how the SS and Si values above have been calculated from probabilistic (risk -targeted) and deterministic ground motions in the direction of maximum horizontal response, please return to the application and select the "2009 NEHRP" building code reference document. 1.65 1.50 1.35 1.20 1.05 01 0.90 A 0.75 0.60 0.45 0.30 0.15 0.00 0.00 NICER Response Spectrum 0.20 0.40 0.60 0.80 1.00 1,20 1.40 1.60 1.80 Period, T (sec) 2.00 Design Response Spectrum 1.10 1.00 0.90 0.80 0.70 rw CT 0.60 0.50 0.40 0.30 0.20 0.10 0.00 0.00 For PGA,, T„ C,s, and CR1 values, please view the detailed report. 0.20 0.40 0.60 0.80 1.00 1.20 1.40 1.60 1.90 Period, T (sec) 2.00 g eohazards.usg s.g or/desig nmaps/us/sunrnary.php?template=mi ni mal &I afitude=47.461553&longnude=-122.242401 &siteclass=3&ri sicateg ory= Medi tion= asce... 1/2 10/16/13 Design Maps Summary Report Although this information is a product of the U.S. Geological Survey, we provide no warranty, expressed or implied, as to the accuracy of the data contained therein. This tool is not a substitute for technical subject -matter knowledge. g eohazards.usg s.g rn/desig nmaps/us/sumnary.php?template=minimal&latitude=47.461553&long hulls=-122.242401&sitedass=38.rislxateg orr0&edition=rice... 212 LUND WRIGHT OPSAHL STRUCTURAL ENGINEERS Appendix 1201 1" Avenue South + Suite 310 + Seattle, WA 98134 + 206,402.5156 + www.Iwo-se,com LUND WRIGHT OPSAHL STRUCTURAL ENGINEERS 1201 1st Ave. S I Suite 310 I Seattle, WA 98134 www.lwo-se.com I Tel: 206.402.5156 Project i *C utl`-1 O M"'xJ kI � ll( j Project No. Date Designer Pt`' Sheet LUND WRIGHT OPSAHL STRUCTURAL ENGINEERS 1201 1st Ave. S Suite 310 I Seattle, WA 98134 www,lwo-se.com Tel: 206.402.5156 Protect k -(c UPI15 MnNA, Project No. Date Designer Sheet ma:Fri www.hilti.us Company: Specifier: Address: Phone I Fax: E -Mail: Page: Project Sub -Project I Pos. No.: Date: Profis Anchor 2.3.3 1 1/11/2013 Specifier's comments: 1 Input data Anchor type and diameter: Effective embedment depth: Material: Evaluation Service Report:: Issued I Valid: Proof: Stand-off installation: Anchor plate: Profile: Base material: Reinforcement: Seismic loads (cat. C, D, E, or F) Geometry [in.] 8 Loading [Ib, In.Ib] Kwik Bolt TZ - CS 3/8 (2). h,f = 2.000 in., h„a, = 2.313 In. Carbon Steel ESR 1917 4/1/201215/1/2013 design method ACI 318 / AC193 eb = 0.000 in. (no stand-off); t = 0.125 in. I, x ly x t = 3.000 in. x 3.000 in. x 0.125 in.; (Recommended plate thickness: not calculated) no profile cracked concrete, 2500, fb' = 2500 psi; h = 8.000 in. tension: condition B, shear: condition B; no supplemental splitting reinforcement present edge reinforcement none or < No. 4 bar yes (D.3.3.4) Z 0 Input date and results must be checked for agreement with the existing conditions end for plausibility! PROFIS Anchor ( c) 2003-2009 Hilti AG, FL -9484 Schaan HIS is a registered Trademark of Hilti AG. Schoen 3 www.hiltl.us Company: Specifier: Address: Phone I Fax: E -Mail: Page: Project: Sub -Project I Pos. No.: Date: Profis Anchor 2.3.3 2 1/11/2013 2 Load case/Resulting anchor forces Load case: Design loads Anchor reactions [Ib] Tension force: (+Tension, -Compression) Anchor Tension force Shear force Shear force x Shear force y 1 • 161 98 98 0 max. concrete compressive strain: - (%o] max. concrete compressive stress: - (psi] resulting tension force in (x/y)=(0:000/0.000):. 161 [Ib] resulting compression force in (x/y)=(0.00010:000): 0 [Ib] 3 Tension load Load N. [Ib] Capacity On [ib] Utilization of, = NJ,/4iNn Status Steel Strength* 161 4875 4 OK Pullout Strength' 161 1107 15 not recommendedA Concrete Breakout Strength" 161 1172 14 not recommendedA • anchor having the highest loading "anchor group (anchors in tension) A When D.3.3.4 is selected for seismic design, the design steel strength must be the governing design strength having the highest utilization. 3.1 Steel Strength N. = ESR value refer to ICC -ES ESR 1917 4, Nst0, a Nua ACI 318-08 Eq. (D-1) Variables n Ase H (in.2] fn, (Psi] 1 0.05 115000 Calculations Nm (Ib) 6500 Results N. [Ib] (NW 15 N. [Ib] 6500 0.750 4875 3.2 Pullout Strength •iT NPn•4 NP'2e°° 2500 Nwr,E Z Nue Nue [Ib] refer to ICC -ES ESR 1917 ACI 318-08 Eq. (D-1) 161 Variables fe (Psi] Np.2500 [lb] 2500 2270 Calculations 7, 55 1.000 Results N,, [Ib] 4,concrete 4,eeiurie Q Na, f: flb] Nue [Ib) 2270 0.650 0.750 1147 161 Input data and results must be checked for agreement with the existing conditions and foe plausibility) PROFIS Anchor (c) 20032009 Hilti AG, FL -9494 Schoen Hilti is a registered Trademark of Hila AG, Schaan Pull I Inn' I www.hilti.us Company: Specifier: Address: Phone I Fax: E -Mail: Page: Project: Sub -Project I Pos. No.: Date: Profis Anchor. 2.3.3 3 1/11/2013 3.3 Concrete Breakout Strength Ark Nth - () 4/ed,N WeN Ww,N ND 11) Nob Z Nue A,,k see ACI 318-08, Part D.5.2.1, Fig. RD.5.2.1(b) Nth = 9 hl 1 y thp-1+ 2eN 51.0 3he,� Wed.N = 0.7 + 0.3 (-31:71f) 3n f) 51,0 a 4," = MAX(C--"'n 1.5he,1 s 1.0 cmc cee Np=kcX'rfcher Variables h.r [in.l 2.000 eet,N [in.) 0.000 ecz,N [in.)' 0.000 ACI 318-08 Eq. (D-4) ACI 318-08 Eq. (0-1) ACI 318-08 Eq. (D-6) ACI 318-08 Eq. (D-9) ACI 318-08 Eq. (D-11) ACI 318-08 Eq. (0-13) ACI 318-08 Eq. (D-7) Oil lilt] Watt 1.000 cac [in.] kc X fe [psi] 4.000 17 1 2500 Calculations 2, Ark n.2] Nofin. ]ec1,N li/ec2,N tyed,N Wep N Nb (Ib) 36.00 36.00 .000 1.000 1.000 1.060 2404 Results Ncb [Ib] $concrete4)ulsric 4t Nth [Ib] Nue [Ib] 2404 0.650 U 750 1172 161 Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor (c) 20032009 Hilti AG, FL -9494 Schaan Huh Is a registered Trademark of Hila AG, Schaen www.hilti.us Company: Specifier: Address: Phone I Fax: E -Mail: Page: Project: Sub -Project I Pos. No.: Date: Prof'sfAnchor 2.3.3 4 1/11/2013 4 Shear load Load V,, [Ib] Capacity 4V„ [Ib] Utilization p, = V,,,/OV„ Status Steel Strength* 98 1466 7 OK Steel failure (with lever army. N/A N/A N/A N/A Pryout Strength** 98 1262 8 not recommended" Concrete edge failure In direction" N/A N/A N/A N/A ' anchor having the highest loading "anchor group (relevant anchors) A When D.3.3.4 is selected for seismic design, the design steel strength must be the governing design strength having the highest utilization. 4.1 Steel Strength V,,,, = ESR value refer to ICC -ES ESR 1917 Vetoer z VUe ACI 318-08 Eq. (D-2) Variables n Aee,v [in.21 f„to [psi] 1 0.05 115000 Calculations V„ [lbj 2255 Results v„ Ilbj 2255 �sleel 4 Via [lbl Vee [lb) 04'.650 1466 98 4.2 Pryout Strength VV,— k`° L) Aec 41004 W;N Wcp.N NbJ Vcp Z Vue AN, see ACI 318-08, Part D.5.2.1, Fig. RD.5.2.1(b) ANco = 9 her (1W1 \ «N=ZeN )51.0 + 3 h,1 Wed.N = 0.7 + 0.3 a.nin 1 s 1.0 t.5ho, Wcp.N = MAX(c nin 1.5-) 5 1.0 cac ' cec Nb=kclVTch;)5 Variables kg, 1 hat (in.] 2.000 eel.N On.) 0.000 ACI 318-08 Eq. (D-30) ACI 318-08 Eq. (D-2) ACI 318-08 Eq. (0-6) ACI 318-08 Eq. (D-9) ACI 318-08 Eq. (D-11) ACI 318-08 Eq. (D-13) ACI 318-08 Eq. (0-7) ec2.N [in.] comm [in.) 0.000 Wc.N can [in.] ke A fc (Psi] 1.000 4.000 17 1 2500 Calculations AN, (in.21 36.00 Results Vg, (Ib] 2404 ANco (In.2) tyecl.N Wer2,N Wed.N 36.00 1.000 1.000 1.000 it)ooncrete 0.700 4eeterric Vg, [Ib] VeB [Ibj 0.750 1262 98 5 Combined tension and shear loads PN 0.145 PNv=P'h+(3(i<=1 (Iv 0.078 Wcp.N 1.000 Nb [lb] 2404 Utilization ANv [%] Status 5/3 6 OK Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor (c) 20032009 Hal AG, FL -9494 Schaan Ifilti is a registered Trademark of Rile AG, Shcaan 10 www.hiltLus Company: Specifier: Address: Phone I Fax: E -Mail: Page: Project: Sub -Project I Pos. No.: Date: Profis Anchor 2.3.3 5 1/11/2013 6 Warnings • To avoid failure of the anchor plate the required thickness can be calculated in PROFIS Anchor. Load re -distributions on the anchors due to elastic deformations of the anchor plate are not considered. The anchor plate is assumed to be sufficiently stiff, in order not to be deformed when subjected to the loading! • Condition A applies when supplementary reinforcement is used. The 0 factor is Increased for non -steel Design Strengths except Pullout Strength and Pryout strength. Condition B applies when supplementary reinforcement is not used and for Pullout Strength and Pryout Strength. Refer to your local standard. • Refer to the manufacturer's product literature for cleaning and installation Instructions. • Checking the transfer of loads Into the base material and the shear resistance are required in accordance with ACI318 or the relevant standard! An anchor design approach for structures assigned to Seismic Design Category C, D, E or F is given in ACI 318-08 Appendix D, Part D.3.3.4 this requires the governing. design strength of an anchor or group of anchors be limited by ductile steel failure. If this is NOT the case, Part D.3.3.5 requires that the attachment that the anchor is connecting to the structure shall be designed so that the attachment will undergo ductile yielding at a load level corresponding to anchor forces no greater than the controlling design strength. In lieu of 0.3,3.4 and D.3.3.5, the minimum design strength of the anchors shall be multiplied by a reduction factor per D.3.3.6. An alternative anchorr:lesign approach to ACI 318-08, Part'D.3.3 is given in IBC 2009, Section 1908.1.9. This approach contains "Exceptions" that may be applied in lieu of D.3.3 for applications involving "non-structural components" as defined in ASCE 7, Section 13.4.2. An alternative anchor design approach to ACI 318-08, Part D.3.3 is given in IBC 2009, Section 1908.1.9. This approach contains "Exceptions" that may be applied in lieu of D.3.3 for applications involving "wall out -of -plane forces" as defined in ASCE 7, Equation 12.11-1 or Equation 12.14-10. It is the responsibility of the user when inputting values for brittle reduction factors (0„.,,d„,w.) different than those noted in ACI 318-08, Part D.3.3.6 to determine if they are consistent with the design provisions of ACI 318-08, ASCE 7 and the governing building code. Selection of Oso„aate = 1.0'as a means of satisfying ACI 318-08, Part D.3.3.5 assumes the user has designed the attachment that the anchor is connecting to undergo ductile yielding at a force level <= the design strengths calculated per ACI 318-08, Part D.3.3.3. Fastening does not meet the design criteria! Input data and results must be checked for agreement with the existing conditions end for plausibility! PROFIS Anchor (c) 2003-2009 HOU AG, FL -9494 Schaan Had is a registered Trademark of Hili AG, Schaan ®1, www.hiltl.us Company: Specifier: Address: Phone I Fax: E -Mail: Page: Project: Sub -Project I Pos. No.: Date: Profis Anchor 2.3.3 6 1/11/2013 7 Installation data Anchor plate, steel: - Profile: no profile; 0.000 x 0.000 x 0.000 In. Hole diameter in the fixture: dr = 0.438 in. Plate thickness (input): 0,125 in. Recommended plate thickness: not calculated Cleaning: Manual cleaning of the drilled hole according 1.500 Anchor type and diameter. Kwik Bolt 17 - CS, 3/8 (2) Installation torque: 300.000 in.Ib. Hole diameterin the base material: 0.375 in. Hole depth in the base material: 2.313 in. Minimum thickness of the base material: 5.000 in. to instructions for use is required. 1.500 1.500 1.500 Coordinates Anchor In. Anchor x y c.x C,0 1 0.000 0.000 c.y coy T Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor (c) 20032009 Hilti AG, FL -9444 Schoen Hilb is a registered Trademark of Milli AG, Schoen x 8 0 S 0 to 1 o 0 2 1.500 1.500 Coordinates Anchor In. Anchor x y c.x C,0 1 0.000 0.000 c.y coy T Input data and results must be checked for agreement with the existing conditions and for plausibility! PROFIS Anchor (c) 20032009 Hilti AG, FL -9444 Schoen Hilb is a registered Trademark of Milli AG, Schoen x 8 www.hlltLus Company: Specifier: Address: Phone I Fax: E -Mail: Page: Project:. Sub -Project I Pos. No.: Date: Profis Anchor 2.3.3 7 1/11/2013 8 Remarks; Your Cooperation Duties • Any and all information and data contained in the Software concern solely the use of Hi16 products and are based on the principles, formulas and security regulations in accordancewith Hilti's technical directions and operating, mounting and assembly. Instructions„ etc.;. that must be strictlycomplied with by the user. All figgures contained therein are average figures; andtherefore use -specific tests are to be conducted prior to using the relevant Hilti product. The results of the calculations carried out by means of the:Software are based essentially on the data you put in. Therefore, you bear the:sole responsibility for the absence of errors, the completeness and the relevance: of the data to be put in by you. Moreover, you bear sole responsibility for having the results of the calculation checked and cleared by an expert, particularly with regard to compliance with applicable norms and permits, prior to using them for your specific facility. The Software serves onlyas an aid to Interpret norms and permits without any guarantee as to the absence of errors, the correctness and the relevance of the results.or suitability for a specific application. • You must take all necessary and reasonable steps to prevent or limit damage caused by the Software: In particular, you must arrange for the regular backup of programs and data and, if applicable, carry out the updates of the Software offered by Hilti on a regular basis. If you do not use the AutoUpdate function of the Software, you must ensure that you are using the current and thus up-to-date version of the Software in each case by carrying out manual updates via the Hilti Website. Hilti will not be liable for consequences, such as the recovery of lost or damaged data or programs, arising from a culpable breach of duty by you. Input data and results must be checked for agreement with the existing conditions and for plausibility) PROFIS Anchor ( c ) 20032009 Hilti AG, FL -9494 Schaan Hilti is a registered Trademark of Hilti AG, Schoen Page 1 of 8 Anchor Calculations Anchor Selector (Version 4.11.0.0) Job Name : Date/Time : 1/11/2013 8:31:14 AM 1) Input Calculation Method : ACI 318 Appendix D For Cracked Concrete Code : ACI 318-08 Calculation Type : Analysis Code Report : ICC -ES ESR -2713 a) Layout Anchor : 3/8" Titen HD Number of Anchors : 1 Embedment Depth : 2.75 in Built-up Grout Pads : No Gz1 pax ANCHOR` 'Nue IS POSITIVEFOR TENSIONAND NEGATIVE FOR COMPRESS)ON: + INDICATES. CENTER OF__TM ANCHOR Anchor Layout Dimensions : cx1 : 24 in cx2 : 24 in cyi :24in cy2 : 24 in bx1 : 1.5 in bx2:1.5in byj:1.5in bye : 1.5 in (c about:blank /1 /201 l b) Base Material Concrete : Normal weight Cracked Concrete : Yes Condition : B tension and shear Thickness, ha : 8 in Supplementary edge reinforcement : No c) Factored Loads Load factor source : ACI 318 Section 9.2 Nua : 161 lb Vuay : 98 lb Muy : 0 lb*ft ex:0in e:0in Moderate/high seismic risk or intermediate/high design category : Yes Apply entire shear load at front row for breakout : No d) Anchor Parameters From ICC -ES ESR -2713 : Anchor Model = THD37 Category = 1 hmin = 4.5 in cmin = 1.75 in Ductile = No 2) Tension Force on Each Individual Anchor Anchor #1 N ua1 = 161.00 lb Sum of Anchor Tension ENua = 161.00 lb ax= 0.00 in a = 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 V ua1 = 98.00 lb (V ualx = 0.00 lb , V ualy = 98.00 lb ) da = 0.375 in hef = 1.98 in cagy = 3 in smin = 3 in rage 2 or 8 fc : 2500.0 psi ;Ai • 1.00 4F:1381.3 psi Vuax : 0 lb Mux : 0 Ib*ft about:blank 1/11/2013 Sum of Anchor Shear EVuax = 0.00 lb, EVuay = 98.00 lb e'vx=0.00in e'vy = 0.00 in 4) Steel Strength of Anchor in Tension [Sec. D.5.1] Nsa = nA se luta [Eq. D-3] Number of anchors acting in tension, n = 1 Nsa = 10890 lb (for a single anchor) [ ICC -ES ESR -2713 ] = 0.65 [D.4.4] 4)Nsa = 7078.50 lb (for a single anchor) 5) Concrete Breakout Strength of Anchor in Tension [Sec. D.5.2] Ncb = ANc/ANcoPed,N`Pc,N`f'cp, NNb [Eq. D-4] Number of influencing edges = 0 hef = 1.98 in ANCO = 35.28 in2 [Eq. D-6] ANc = 35.28 int Smallest edge distance, ca,min = 24.00 in gjed,N = 1.0000 [Eq. D-10 or D-11] Note: Cracking shall be controlled per D.5.2.6 `Yc,N = 1.0000 [Sec. D.5.2.6] `Ycp,N = 1.0000 [Eq. D-12 or D-13] Nb = kj, f' c hef1.5 = 2368.19 lb [Eq. D-7] kc = 17 [Sec. D.5.2.6] Ncb = 2368.19 lb [Eq. D-4] �=0.65[0.4.4] 4)seis = 0.75 4)Ncb = 1154.49 lb (for a single anchor) 6) Pullout Strength of Anchor in Tension [Sec. D.5.3] Neq = 1723Ib (fc/2,500 psi)0.5 = 1723.00 lb = 0.65 4)seis = 0.75 4)Neq = 839.96 lb (for a single anchor) 7) Side Face Blowout of Anchor in Tension [Sec. D.5.4] about:blank Page 3 of 8 t'2 - 1/11M11 Page 4 of 8 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 = 2855.00 lb (for a single anchor) [ ICC -ES ESR -2713 ] = 0.60 [D.4.4] Veq =1713.00 lb (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... Vcbx = Avcx/Avcox'f'ed,V'f'c,V'f'h,V Vbx [Eq. D-21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcx = 384.00 in2 Avcox = 1152.00 in2 [Eq. D-23] 'I'ed,V 1.0000 [Eq. D-27 or D-28] To/ = 1.0000 [Sec. D.6.2.7] Th.v = "J (1.5cai / ha) = 1.7321 [Sec. D.6.2.8] Vbx = 7(le/ da )0.2 daXq fc(cai)1.5 [Eq. D-24] 1e=1.98 in Vbx = 19133.32 lb Vcbx = 11046.63 lb [Eq. D-21] = 0.70 4)seis = 0'75 4)Vcbx = 5799.48 lb (for a single anchor) In y -direction... Vcby = Avcy/AvcoyPed,v'Pc,v'f'h,v Vby [Eq. D-21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcy = 384.00 in2 Avcoy = 1152.00 in2 [Eq. D-23] 't'ed,V = 1.0000 [Eq. D-27 or D-28] = 1.0000 [Sec. D.6.2.7] Thy = (1.5cal I ha) = 1.7321 [Sec. D.6.2.8] about:blank 1 /11 /91111 Vby = 7(le/ da )0.2..J da?4 f c(ca1)1.5 [Eq. D-24] le = 1.98 in Vby = 19133.32 lb Vcby = 11046.63 lb [Eq. D-21] = 0.70 4seis = 0.75 Vcby = 5799.48 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`f'ed,Vg'c,V`f'h,V Vbx [Eq. D-21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcx = 384.00 in2 Avcox = 1152.00 in2 [Eq. D-23] ''ed,V 1.0000 [Sec. D.6.2.1(c)] Pc,V = 1.0000 [Sec. D.6.2.7] Th V = (1.5cal / ha) = 1.7321 [Sec. D.6.2.8] Vbx = 7(le/ da )0-2qda?4 f'c(ca1)1.5 [Eq. D-24] le = 1.98 in Vbx = 19133.32 lb Vcbx = 11046.63 lb [Eq. D-21] Vcby = 2 * Vcbx [Sec. D.6.2.1(c)] Vcby = 22093.26 lb = 0.70. 4seis = 0.75 4Vcby = 11598.96 lb (for a single anchor) Check anchors at cy1 edge Vcby Avcy/Avcoy`t'ed,V`f'c,V`1'h,V Vby [Eq. D-21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcy = 384.00 in2 Avcoy = 1152.00 in2 [Eq. D-23] about:blank rage 3 ox 1/11/2013 Ted,V = 1.0000 [Sec. D.6.2.1(c)] Pc,v = 1.0000 [Sec. D.6.2.7] Th V = (1.5cal / ha) = 1.7321 [Sec. D.6.2.8] Vby = 7(Ie/ da )0.2q J daX f c(ca1)1.5 [Eq. D-24] 1e=1.98 in Vby = 19133.32 lb Vcby = 11046.63 lb [Eq. D-211 Vcbx = 2 *Vcby [Sec. D.6.2.1(c)] Vcbx = 22093.26 lb = 0.70 4seis = 0.75 4Vcbx = 11598.96 lb (for a single anchor) Check anchors at cx2 edge Vcbx = Avcx/AvcoxPed,A,VPh,V Vbx [Eq. D-21] cal = 16.00 in (adjusted for edges per D.6.2.4) Avcx = 384.00 in2 Avcox = 1152.00 in2 [Eq. D-23] 1.0000 [Eq. D-27 or D-28] [Sec. 0.6.2.1(c)] = 1.0000 [Sec. D.6.2.7] Th,V = .J (1.5cal I ha) = 1.7321 [Sec. D.6.2.8] Vbx = 70e/ da )0.2 _ J dad J fc(ca1)1.5 [Eq. D-24] Ie = 1.98 in Vbx = 19133.32 lb Vcbx = 11046.63 lb [Eq. D-21] Vcby = 2 * Vcbx [Sec. D.6.2.1(c)] Vcby = 22093.26 lb = 0.70 4seis = 0.75 OVcby = 11598.96 lb (for a single anchor) Check anchors at cy2 edge Vcby Avcy/AvcoyPed,V''c,V''h,V Vby [Eq. D-21] about: blank Page 6 of 8 IS 1 /11001'1 Page 7 of 8 cal = 16.00 in (adjusted for edges per D.6.2.4) Avcy = 384.00 in2 Avcoy = 1152.00 in2 [Eq. D-23] `yed,V = 1.0000 [Sec. D.6.2.1(c)] ;,v = 1.0000 [Sec. D.6.2.7] Th V = (1.5ca1 /ha) = 1.7321 [Sec. D.6.2.8] Vby = 7(le/ da )0.2 da?4 f c(Ca1)1.5 [Eq. D-24] le = 1.98 in Vby = 19133.32 Ib Vcby = 11046.63 lb [Eq. D-21]. Vcbx = 2 * Vcby [Sec. D.6.2.1(c)] Vcbx = 22093.26 lb 4=0.70 4)seis = 0.75 (1)Vcbx = 11598.96 lb (for a single anchor) 10) Concrete Pryout Strength of Anchor in Shear [Sec. D.6.3] Vcp = kcpNcb [Eq. D-29] kcp = 1 [Sec. D.6.3.1] Ncb = 2368.19 lb (from Section (5) of calculations) Vcp = 2368.19 lb 4) = 0.70 [D.4.4] 4)seis = 0.75 Vcp = 1243.30 lb (for a single anchor) 11) Check Demand/Capacity Ratios [Sec. D.7] Tension - Steel : 0.0227 - Breakout : 0.1395 - Pullout : 0.1917 - Sideface Blowout : N/A Shear - Steel : 0.0572 - Breakout (case 1) : 0.0169 - Breakout (case 2) : N/A - Breakout (case 3) : 0.0084 about:blank 1 /1 1 nn1 l Page 8 of 8 - Pryout : 0.0788 V.Max(0.08) <= 0.2 and T.Max(0.19) <= 1.0 [Sec D.7.1] Interaction check: PASS . Use 3/8" diameter Titen HD anchor(s) with 2.75 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 structuresassigned 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 1/11/2011 { 111111 CLIMATE CONTROL SOL:47)9 % THE WALL-MOUNTTM 6 -TON AIR CONDITIONERS Model W70A - Right Side Control Panel Model W7OL - Left Side Control Panel 68,000 Btuh 9.5 EER 60Hz The Bard Wall -Mount Air Conditioner Is a self contained energy efficient system, which is designed to offer maximum indoor comfort al•a minimal cost without using valuable indoor floor space or outside ground space. This unit is the ideal product for versatile applications such as: new construction, modular offices, school modernization, telecommunication structures, portable structures or correctional facilities. Factory or field installed accessories are available to meet specific job requirements. neere Aluminum Finned Copper Coils: Grooved tubing and enhanced louvered fin for maximum heat transfer and energy efficiency. Twin Blowers: Move air quietly. Most models feature multispeed blower motors providing airflow adjustment for high and low static operation. Motor overload protection is standard on all models. Air Conditioner Compressor: Scroll Compressors eliminate need for crankcase heater. R -410A Refrigerant: Designed with R -410A (HFC) non ozone depleting refrigerant in compliance with the Montreal protocol and 2010 EPA requirements. Phase Rotation Monitor: Standard on all 3 phase scroll compressors. Protects against reverse rotation if power supply is not properly. connected. Galvanized 20 Gauge Zinc Coated Steel Cabinet: Cleaned, rinsed, sealed and dried before the polyurethane primer is applied. The cabinet is handsomely finished with a baked on textured enamel, which allows it to withstand 1000 hours of salt spray tests per ASTM B117-03. Foil Faced Insulation: Standard on all units. Full Length Mounting Brackets: Built into cabinet for improved appearance and easy installation. NOTE: Bottom mounting bracket included to assist In installation. Electrical Components: Are easily accessible for routine inspection and maintenance through a left side, service panel opening. Features a lockable, hinged access cover to the circuit breaker or toggle disconnect switch. Electric Heat Strips: Features an automatic limit and thermal cut-off safety control. Heater packages can be factory or field installed. Filter Service Door: Separateservice door provides easy access for filter change. One Inch, Disposable Alr Filters: Are standard equipment. Optional one inch washable filters available and filter racks permit the addition of 2• pleated filter. Factory or field installed. Condenser Fan and Motor Shroud Assembly: Slides out for easy access. Barometric Fresh Air Damper: Standard on all units. Allows up to 25% outside fresh air. Optional ventilation packages available. Built-in Circuit Breakers: Standard on all electric heat versions of single (230/208 volt) and three phase (230/208 volt) equipment.. Toggle disconnects are standard on all electric heat versions of three phase (460 volt) equipment. Slope Top: Standard feature for water run-off. Top Rain Flashing: Standard feature on all models. Liquid Line Filter Drier: Standard on all units. Protects system against moisture. Compressor Control Module: Standard on all units. Built-in off -delay timer adjustable from 30 seconds to 5 minutes. 2 -minute on -delay if power interrupt. 120 -second bypass for low pressure control, and both soft and manual lockouts forhigh and low pressure controls. Alarm output for alarm relay. High 8 Low Pressure Switches are Auto -Reset: Standard on all units, Built-in lockout circuit resets from the room thermostat. Provides commercial quality protection to the compressor, • Complies with efficiency requirements of ANSI/ASHRAE/IESNA 90.1-2010. • Certified to ANSI/ARI Standard 390-2003 for SPVU (Single Package Vertical Units). • Intertek ETL Listed to Standard for Safety Heating and Cooling Equipment ANSI/UL 1995/CSA 22.2 No. 236-05, Fourth Edition. • Commercial Product - Not intended for Residential application. Form No. S3409-712 Supersedes S3409.511 1ofe Page Models Operating• Volts Voltage Range Compressor Type W70A1-A, W70L1-A 230/208 197 - 253 SCROLL W70A1-B, W70L1-13 230/208 197 - 253 SCROLL VV70A1-C, VV70L1-C 414-508 . SCROLL (D Capacity Is certified In accordance with ANI/ARI Standard 390-2003. aiEER = Energy Efficiency Ratio and is certified In accordance with ANSI/ARI Standard 390-2003. All ratings based on fresh air Intake being 100% closed (no outside air Introduction). Cooling , CFM / ESP Phase Cap. BTUH CD (Rated - Wet Coll) EER 2l 3 3 68,000 68,000 68,000 "rola Ir Electrical CintiOresiof ' Outdoor Fan Motor 'Indoor;BloWei;fisfoter 'Filter S hIng Models Rating 60 HZ RLA - B CSC • LRA 0 HP / RPM / SPD FLA .DIA/ CFM ! RPM / SPD .,FLA lInches) Std.'‘ Weight W70A1-A, VV70L1-A 230/208-1 26.9 / 31 31 145 1/2 / 1075 / 1-Spd 4.0 2e r 3,500 1/2 / 1.070 / 2-Spd. 3.3 20 x 30 x 1 575 W70A1-B, VV70L1-B 230/208-3 23 / 26.6 26.6 160 1/2 / 1075 / 1-Spd 4.0 24' / 3,500 12 / 1,070 / 2-Spd 3.3 20 x op x 1 575 VV70A1-C, W70L1-C 460-3 14.1 14.1 87 3/4 / 107511-Spd 1.7 24' /3,500 1/2 / 1,070 / 2-Spd 1.9 20 x 30 x 1 575 IMPORTANT - While this electrical data Is presented as a guide, It is important to electrically connect properly sized fuses and conductor wires In accordanie with the National Electrical Code and ell existing local codes. 1800 / .2 1,800 / 2 1,800 / 2 9.5 9.5 9.5 eottic;31.'$jOedifications'.• ''' ' '1'-''''''' , -i''71- MODELS .•-• • .- • ;''f •:4,1,-.(ii03 , ••,,,..-' r .: ., .; Rated Volts -• • ', ,.-' -.. ... ?.' "- - 1- ,4 ,, :.(.7, •c•..,.,. •;illo • . Field tPoyek CirCulis .•-1•••.4- .1e-., ,.1).,71;,.b.f1../,, .•'-•••1:":,-... i4.q• .., '.;. ; - ' :i',.-•.•,'z''"-r,t---,-,--,------- . ,..1' :,•• .1. Irgt.e.• ....! - . ; • - •:. .• A NIaxlmilriiZ' FI Id. • r '• I • , ..Fuse •• ' Wle Minimum:r••••,v...,:t,- 4.,El1ex: .tkre..-.tmvr.....al• r•t _. Power ,..G°"•• •-ro-•,"Tu.•,n,d0 ,OrCircult,- -tdreaser-S,_e SIzu i' : ',-;...1.. • : ,7,-.,°.-.3:',...ti.-1.:',..: .' '-..-.. f • : - r>,:` "... • ,r„4 -.!;--7;-.,J- -;:--..4F1mSINGLECIRCUTT DUAIICIRCU•••-•IiT9q.:,pwr. . • --; ,•,•• A 4.`,.•!,..' P ..,• • .. 1 ‘.:41.,."-vt. L-, -,''.... -: , • ,.• • 03:84milmtini••:' •i 11,....:,,•1 ti. -1,74" rr,.es, if ' 0,...,,,•,A,:.G..WB-. ri•izoufan•il.l,da Circut (Fuse •,Powar•r,Phase tfi...i:',..•. 01..Misn1-vi-mc.•' u• ,.m ..2:-,x1....11•dE.slrCete aiya Fi.„4f4li!e,0e*la,li.dee••d-•.-,,•fe AntiailA_paGur•1., ,.,-...,....• ,..,_ • •••••••• ;CitiA....Clci: B: 'CitiaCit7CleSt:',GiitrA4-CktflBeCiriti...kcCkt'S W70A1-A00, AOZ / W70L1-A00, AOZ W70A1,405 / W70L1-A05 W70A1-A10 / W7OL 1-A10 W70A1 -A15 / W701.1 -A15 W70A1-A20 2307208-1 1 1 1 1 or 1 or 2 2 49 60 49 60 59 60 85 90 110 125 8 8 6 4 2 10 10 10 8 6 59 26 60 30 6 10 10 10 59 52 60 60 8 6 VV70A1-1300, BOZ / W70L14300, BOZ W70A1-809 / VV70L1-1309 W70A1-015 / W701.1-015 VV70A1-818 23 08- 0/23 1 1 1 • 2 Kw 43 50 43 50 53 60 8 8 6 10 10 10 43 28 60 30 8 10 10 10 W70A1-000, COZ / Wi0L1-000, COZ W70A1-009 / VV70L1-009 W70A1-C15 / W70L1-C15 460-3 1 1 1 12,799 23 30 23 30 27 35 10 10 8 10 10 10 „ 9.0 9.0 10 . 10 Maximum aizeo e tlme delay tuse or HACR type circuit breaker for protection of field wiring conductors. Q) Based on 75C copper wire. An wiring must conform to the National Electrical Code (NEC) end all local codes. a) These 'Minimum CircuitAmpacity" values are to be used foretztng the field poy'rer conductors. Refer to the National Electric Code (latest revision), artde 310 for (*kir conductor sizing. Caution: When more than one field power conductor circuit Is run through one conduit, the conductors must be derated. Pay special attention to note 8 dibble:310 regarding Ampacity Adjustment Factors when more than 3 conductors are in a raceway. .• : Nominal KW At 240V (1) At 208V (1) - o At 480V (2) r ' o e At 460V (2) • Kw 1 -Ph Amps 3 -Ph Amps Btuh Kw 1 -Ph Amps 3 -Ph Amps Btuh Kw 3 -Ph Amps Btuh • Kw 3 -Ph Amps Btuh 5.0 5.0 20.8 17,065 3/5 18.0'. 12,799 „ 9.0 9.0 , 21/ 30,717 6.75 18.7 23,038 9.0 10.8 30,717 828 104 28,260 10.0 10.0 41.7 34,130 .7.50 36.1 25,598 15.0 15.0 62.5 36.1 51,195 11.25 54.1 31.2 38,396 15.0 18.0 51,195 13.80 17.3 47.099 18.0 18.0 43.3 61,434 13.50 37.5 46,076 20.0 (11 These 20.0 electric heaters 83.3 em availabka In 2annripv 68260 ' 15.00 72.1 51,195 (2) These electric healers are available In 480V units only. HeaterLf*.11i)100110:41'CIWIPI.,9rilil Oesigred for addir#ElectriOleittp,01ONUnlis -Circut Breaker Standard on 230/20814Modeb Standardton;:160V Modelsit t.t1 4USVCanada Alr Conditioner •.-COO'ModeLs Models- • • 46013 r: • Heater.Model # •KW 1" Heater Mddel # : KW: HeataiWridel C.. KW EHWA60-A05 5 EHW70A-B09 9 EHWAO5A-009 9 EHWA05-A10 10 EHWA05-1315 15 EHWAO5A-C15 15 El-fwA05-A15 15 EHWI0A-818 18 EHWA05-A20 20 0) Field installed heater package not available for W7OL models. 1N70A ID .'•:A0ONertels-, 230/208:1 „ • 00 Models' • 230/208-3 • ' Form No. S3409-712 Supersedes 53408-511 Pape 2018 n ooriEl ower .Petformance, cRwat23o.voitt f-• WOK/ W7OL HIGH SPEED LOW SPEED E.S.P. In HIO .0 DRY /WET COIL DRY I WET COIL 2,200 / 2,000 - J - .1 2,100 / 1,900 - - .2 2,000 I 1,800 - / - .3 1,875 / 1,700 - / - .4 1,775 / 1,600 - / - .5 MODELS • LEFT SIDE RIGHT SIDE W70A / W7OL 20" 20" r*I4S40 A ai t'4 0 0 0 2 t0 u1 0) C E .0 50 c 0 .in c a) E 0 a) ar U c c td a c 0 N C a) E MODELS 0) W7OA / W7OL SUPPLYAIRDUCT - CABINET FIRSTTHREE:'FEET 1/4" 0" 42.00 Fitter Access Door 13.50 I rq�t••♦ .._tt.�] Front View W70A 43.68 43.00 ,44:. : - � 29.88 —..16,06 r 16.00 1- 16 00 16.00 Return' Air Opening 2100 Supply Air Opening 21.00 Healer Access Panel . Circuit Breaker Disconnect Access Panel (Lockable) Electrical Entrances Standard flush vent door for non-ERV/Econ. models ERV and 3.00-( ECONWMS only hood Electric Heal 43.88 43.00 29.88 Supply Air Opening I� —18.00 Low Voltage Electrical Entrances Equipmem Butl&g Hood ECONWkrT- 5; T5. Electrical Entrances 16.00 1600 16 DO 2100 44 89 42 43 3387 2100 Right Side View W7OA 2.13 - r--- 22.25 Side Wall Mounting Brackets (Bulli In) sr-- 3.25 Electrical Entrances 10.00 J W70 44 69 42 43 33 87 Drain 94 87 15 88 W7OL Built In Slope Top 2' Pitch Electric Heal Heater Access Panel Circuit Breaker Disconnect Access Panel (Lockable) Standard flush vent door for non-ERV/Econ. 3.00 models, ERV r— ECONWMS and only hood 18.00 --I Low Voltage Electrical Entrances Electrical Entrances Equipment Bui Hood ECONWMT-E5,•T5 Bath• View , -118 Installation Bracket MIS -3125 W7OA 42.00 Filter Access Door owninemonii3 • `Ven0Yabon Air' W7OL 13.50 Form No. S3409-712 Supersedes S3409.511 Pelle 3 of B Bard Wall -Mounts are designed to pro All units are equipped with a barometric or field -installed at a later date. Barometric Fresh Air Damper Motorized Fresh Air Damper Energy Recovery Ventilator Form No. :53409-712 Supersedes -53400.511 Pape 4 dB .;3-1441 %��ss; vide optional ventilation packages to meet all of your ventilation and indoor air quality requirements, fresh air damper as the standard ventilation package. All ventilation packages can be built-in at the factory, BAROMETRIC FRESH AIR DAMPER - BFAD STANDARD The barometric fresh air damper is a standard feature on all models, It is installed on the inside of the service. door and allows outside ventilation air, up to 25% of the total airflow rating of the unit, to be introduced through the air inlet openings and to be mixed with the conditioned air. The damper opens during blower operation and closes when the blower is off. Adjustable blade stops allow different amounts of outside .air to be introduced into the • building and can be easily locked Closed ifrequired, BLANK OFF PLATE - BOP OPTIONAL A blank off plate is installed on the inside of the service door. it covers the air inlet openings, which restricts any outside air from entering the. unit. The blank off plate should be utilized'in applications where outside air is not required to be mixed with the conditioned air. MOTORIZED FRESH AIR DAMPER - MFAD OPTIONAL The motorized fresh air damper is internally:mounted behind the service door and allows outside ventilation air, up to 25% of the total airflow rating of the, unit, to be introduced through the air inlet openings and. to be mixed with the conditioned air. The two position damper can:be fully opened or closed. The damper blade is powered open by a 24VAC motor with spring return on power loss, The damper can be controlled by indoor blower operation or can be field connected to be managed based on building occupancy. NOTE: The above vent systems are intake only without bull -in exhaust capability. Building wit likely require separate field installed barometric relief or mechanical exhaust elsewhere within the conditioned space. Balancing dampen) In the return air grille may be required to achieve specified amount of outdoor air Intake. COMMERCIAL ROOM VENTILATOR - CRV OPTIONAL The built -In commercial room ventilator is, internally mounted behind the service door and allows outside ventilation air, up to 50% of the total airflow rating of the unit, to be introduced through the air inlet openings. It includes a built-in exhaust air damper. The commercial room ventilator (CRV) Is a simple and innovative approach to improving the indoor air quality by providing fresh air intake and exhaust capability through the CRV, The damper can be easily adjusted to control the amount of fresh air supplied into the building. The CRV can be controlled by indoor blower operation or field controlled based onroom occupancy. Two versions are available: the CRVS is power open -spring return on power loss; the CRVP Is poweropen and power return. Complies with ANSI/ASHRAE Standard 62.1 "Ventilation for Acceptable Indoor Air Quality." ECONOMIZER - ECONWMSerles OPTIONAL The built-in.economizer system is internally mounted behind the service door and allows outdoor air to be introduced through the air inlet openings. The amount of outdoor air varies in response to the system controls and settings defined by the end user. it Includes a built-in exhaust air damper. The economizer is designed to Provide 'free cooling" when outside air conditions are cool and dryenough to satisfy cooling requirements without running the compressor. This in turn provides lower operating costs, while extending the life of the compressor. • ECONWMT.Equipment Building. versions have extended air intake hood to deliver up to 100% of cooling rated airflow. s- 16" for ECONWM.T-E2 or T2, and E3 or T3 •t• 18" for ECONWMT-E5 or T5 • ECONWMS Classroom versions have 3" air intake hood to deliver up to 75% of cooling rated airflow. Standard Features: • Fully modulating • 'Honeywell Direct Drive Hi -Torque Actuator • No linkage required • Simple single blade design • Positive shut-off with non-stick gaskets • Electronic DB and/or Enthalpy sensors depending upon version • Honeywell JADE electronic economizer module with precision settings and diagnostics • DB or Enthalpy economizer versions'available WALL -MOUNT ENERGY RECOVERY. VENTILATOR - ERVF OPTIONAL The wall -mount energy recovery ventilator is a highly innovative approach to meeting indoor air quality ventilation requirements; as established by ANSI/ASHRAE Standard 62.1. The ERVF allows from 200. to 450 CFM (depending upon model) of fresh air and exhaust through the unit while maintaining superior indoor comfort and humidity levels. In most cases, this can be accomplished without increasing equipment sizing or operating costs. Heat transfer efficiency is up to 67% during summer and 75% during winter conditions. The ERVF consists of a unique "rotary energy recovery cassette" that provides effective sensible and latent heat transfer capabilities during summer and winter conditions. Various control schemes are addressed - including limiting ventilation during building occupancy only. The ERVF is designed to be internally mounted behind the service door in the W70A or W70L model wall mount units. It can be built-in at the factory or field installed as an option. ERVF-•5C can be independently adjusted for intake and exhaust rates. Manufactured under U.S. Patent Nos. 5,485,878 W70A, W7OL HIGH SPEED TOTAL AND VENTILATION AIRFLOW LLUU 2100 ! 2000 1900 1800 1700 1600 y F 1400 7 1300 1200 1100 1 - „ ".: ,._,_,., ._ 1000 1500 1400 --- .. `"mss 900 800 1300 1200 700 1100 1000 800 900 • 400 800 400 700 300 000 200 500 100 •111111.10"."1""'" 400 74i010111."'"-- 0 - 300 200 100 Oi ......"'"--- - — 8 C Vont Position D E W70A, W7OL LOW SPEED TOTAL AND VENTILATION AIRFLOW F I VUU 1500 1400 1300 1200 1100 1 - „ ".: ,._,_,., ._ 1000 --- .. `"mss 900 800 700 800 400 400 300 200 100 •111111.10"."1""'" 0 - A 0 C Vont PosItIon D E F ",•Tatal Air 0 ESP "411—Tote1 Air 2 ESP Total Air .4 ESP ."....—,Vent Air 0 ESP "•Vent Air .2. ESP • Ven1 Air .4 ESP •"*.Total Air 0 ESP (Total Air 2 ESP —dr—Total Air .4 ESP Vent Air 0 ESP lVent Air 2 ESP "`Vent Air .4 ESP Form No. S3409-712 Supersedes 53409-511 Pape 5 of 8 SUMMER COOLING PERFORMANCE (INDOOR DESIGN CONDITIONS 75°DB/62°WB ERVF= 5C WINTER HEATING PERFORMANCE (INDOOR DESIGN`CONDRIONS 70°F DB) Obiet . -:'0:".:r. = -• 7. ,4 + VENTItLATION;RATE _ i �x ~Amen Ambient O.D. '7 T x1375 CFM'' - EFE:, , VENTILATION RATE - 450. CFM 65% EFFICIENCY VENTILATION RATE - 375 CFM 66% EFFICIENCY VENTILATION RATE - 300 CFM 67% EFFICIENCY DB/ WB F •VLT VLS ;VLL' HRT. HRS HRL. VLT VLS :VLL . HRT. • HRS ,HRL. VLT ;;VLS ';VLL =,,HRT.. HRS �55, 75 105 70 65 21465 14580 14580 14580 14580 14580 6884 • 0 0 13952 9477 9477 9477 -9477.= 9477 4475 0 0 17887 .12150 '12150 12150 12150. 12150 5737 0 . 0 11805 8018 8018 8018 "8018 8018 3786 0 ' 0' 14310 9720 9720 -9720 9726 .9720 .4590 0 : 0 • 9587 6512 6512 6512 '6512 6512 ,HRL. 3075 0 ' 0 80 75 100 70 65 60 31590 21465 12352 12150 12150 12150 12150 12150 12150 12150 19440 9314 202 0 .0, 20533 13952 8029 7897. .7897 7897 7897; 7897 7897 7897-. 12635 6054 131,, ; 0 0 26325 17887 10293 10125 :-10125 10125,16200 10125 10125 10125. 10125 7762 168 0 ; 0. 17374 11805 6793 6682 ;6582 -6682 6682 6682 6682 ,.6682' 10692 5123 111.,.8235 0 0 ::8100 21060 '-14310 '8100 08100 ='6100' 8100 18100 4100 k .,12960 4.6210 135 0 >;%0� ; 14110 9564 5517 5427 . 5427 X5427: E5427 5427 5427 ' I 5422. 8683- 4160 90 0 0:.,. 80 75 95 70 65 60 31590 21465 12352 9720 9720 9720 9720' 9720 9720 9720 21870 11744 2632 0 0 20533 13952 8029 6318 6318 6318 6318 • 6318 6318 6318 14215 7634 1711 0 0 26325 17887 10293 8100 .8100 8100 8100 8100 8100 8100 18225 9787: 2193 0 0 17374 11805 6793 5345 5345 5345 5345 5345 5345 5345 12028 6459 1447 .' 0 21060 14310 8235 6480. .6480. 6480 :6480 6480 6480' '6480: 14580 7830 1755 0 0 .14110 9587 5517 4341 4341 4341 4341 4341 4341„ : 9768 5246 1175 0 0 80 75 90 70 65 60 31590 21465 .12352 :7290 ' „7290 7290 7290 7290 7290 7290 :rig': 24300 14175 5062 \<'v-•: 0 , 0' 20533 • 3952 '8029. 738 .4738 'a�: n4738ht, 4738:, 4738;.+9213 :4738. ,473 8• , 4738 � 147,38y k15794 ,3290 t.te,,. .,,,0;+/J "0" •26325 .17887 )0293 -6075 ,.*^ s ,6075 '6075 6075 6075• 6075 .,:a. ::6075. 20250 '11812 42:18" 4 0 k1 e. ,0 . N 17374 11805 6793 ; . 4009 ,t ; 5.4009y� `4009` 4009 4009 0 4009 .., t 4009 13365 77961 •2784 •' 0 , s< • PO ," (21060 "14310 8235f a' 0 C''4860� ` 4860 4860 4441a,;''3375 I48 O3 �48 0.:, 1'4860' 16200 940 ^iy0 , 0 �1 1,..0'1,3 ..4341 14110 9587 '5517' �f G 3256 3256x1 Fk3256.' 'x3256` 3256x2261 . 28« 1 3258• 4254 10854: 6331' �' 0 ''',Olt'' 80 75 85 70 65 60 31590 21465 12352 4860 4860 4860 4860 4860 4860 4860 26730 16605 7492 0 0 '.20533 13952 8029 3159 3159..•3159 3159 3159 3159 3159 17374 10793. 4870 0 .0 26325 17887 10293 4050 4050 4050 4050 4050 4050 _4050 2025 2025 -2025 x2025 '22275 13837 6243 0 0. 15862 � ..• 8268 1518 ' 0 ' 17374 11805 6793 2672 2672 X11805 6793. 2338' 1336 2672 2672 2672 2672 .2672. 1336 • 1336 1336 1336:. 14701 9132 4120 0 0 _ 1.10469 � 5457 1002 _.,.o.:.::t .21060 14310 8235 3240 3240 14310 .8235P `2835•(,1620 ;1620 3240 3240 3240 3240 3240 ?r162O Y 1 l a16620i ;4791.-.2'6.;:. 17820 11070 4995 0 0 12690 baa :661 1215` 8iA 14110. 9587 5517 2170 2170 `!958'7 �r ,3155, t•1899t 061(5.1.146:k 2170 2170 2170 2170 2170 tf0' '5 1085: 1085! 11939 7416 3346 0 0 '?8502• 4432 .814,, 0; 75 • 70 80 65 60 - 21465 12352 a 4252 .2430 2430 .2430 2430 2430 19035 ,9922. ....iii; 1822 0'• .,13952 .80 9te tp - 2764" ,c ;1579. 715799. X1579 • »tr i t 1579 e-ause , ,1579 12372 .e .6449 :!..1.48.4...3543 0,- .. 1,7887 •10293 e j2025 70 75 65 60 12352 4252 0 0 0 0 12352 4252 0 8029 2764 0 0 0 0 8029 2764 0 '' 10293 3543 0 0 0 0 10293 3543 0 6793 2338 0 0 0 0- 6793 2338 0 8235 2835 0 0 0 0 8235. 2835 0 5517 1899 0 0 0 0 5517- 1899 0 ERVF= 5C WINTER HEATING PERFORMANCE (INDOOR DESIGN`CONDRIONS 70°F DB) Obiet . -:'0:".:r. = -• 7. ,4 + VENTItLATION;RATE _ i �x ~Amen '" ' "450 CFM'`'• :.50% EF..F'"•.;: -1,;,,,....,•,::t81% '7 T x1375 CFM'' - EFE:, , 300 "CFM .;82%-tEFF. . ,DBL",F,> . f.'1 VLi ,, ,:'.WHR.;.",:: T,WVL°.:.: _,.WHR»-, . ;. WVL ..,,WHR..:;, ::165 2430 1944 2025 1640 ' • 1620 '" 1328: -;6074,: . 4860 3888 4050 : 3280 3240 •, 2656 �55, ., '7290' 5832 ' 6075 4920 4860' 3985 50'' "° '9720' . 7776 8100" 6561 :6480 .., _ :..5313 X45;?;, 12150 . 9720 10125 _ 8201 8100 6642. 40Y4` 14580 11664 12150 9841 '9720 7970 35""''' 17010 13608 ' 14175 11481 11340 9298. ":30' 19440 • 15552 16200 13122 12960 10627 "25-•• 21870 17496 18225 14762 14580 11955 '•20,h• 24300 19440 20250 16402 16200 13284 15'• 26730 21384 22275 18042 _ 17820 14612 Sensible performance only Is shown for winter application. Form No. 53409-712 Supersedes 53409-511 Page 6 018 LEGEND: VLT = Ventilation Load - Total VLS = Ventilation Load - Sensible VLL = Ventilation Load - Latent HRT= Heat Recovery - Total HRS= Heat Recovery - Sensible HRL t Heat Recovery- Latent WVL= Winter Ventilation Load WHR = Winter Heat Recovery • ....t:'... @ iy 1 %_ 1 8,a I . °.. i �A �. . r' l''. ( I . a... .., .. , d ; ( y� { ,: . � S...t.»,L..;. � . tc 1 �. I,`, ('� w # {-''t i � , Model D.BJW.B. ® Cooling Capacity 75°F 80°F 85°F 90°F 95°F 100°F 105°F 110°F 115 F 115°F o 120 F' o 125 F W70A1 W70L1 75/ 62 Total Cooling Sensible Cooling 74,200 53,000 70,000 51,400 66,200 49,900 62,600 48,300 59,200 46,700. 56,100 45,100 53,100 43,600 :50,500 42;000 47,900 40,500 45,500 38,900 43,300; 37,300: 80/ 67 Totel Cooling Sensible Cooling 79,200 51,400. 76,300 50,400 73,500 49,400 70,800 48,300 68,000 47,100 65,400 45,900 71,500 44,400 62,700 44,700 67,600 42,600 60,200 ..43,400: 64,000 40,700 57,600. 42,100 60,500 38,800 55,100 40,700. 57,300 36;800 52;700 0 39,300; 54,200. 34,800` 85/ 72 . Total Cooling Sensible Cooling 94,300 52,600 89,200 51,200 84,400 49,600 79,900 48,000 75,500 46,200 Below 65°F. unit reauires a factory or lipid inefoUbd (n,., ornl.ienr r........., © Return air temp. F. Dimensipa MODE W70A W7OL WDTH DEPTH HEIG-SUPPLY. RETURN. (W) • (0) i 161 SERIES I-_ A NOMINAL CAPACITY 70. 6 Ton VOLTS & PHASE A - 230/208/60/1 B -230/208/6013 C - 460/60/3 TYPE A = Compressor & Controls - Right Side L= Compressar & Note: VENTILATION OPTIONS (See Table Below) COLOR OPTIONS X - Beige (Standard) 1 - White • 4 - Buckeye Gray 5 - Desert Brown 8 • Dark Bronze A - Aluminum S - Stainless Steel LI CONTROL MODULES (See Chart Below) —4 COIL OPTIONS X - Standard 1 - Phenolic. Coated Evaporator 2 - Phenolic Coated Condenser 3 - Phenolic Coated Evaporator and Condenser Controls • teff Side FILTER OPTIONS \, X • 1 -inch Throwaway (Standard) 1 W - 1 -inch Washable P • 2 -Inch Pleated For OKW and circuit breakers (230/208 Volt) or toggle disconnects (460 Volt): applications, insert OZ In the KW field of the model number. See Page 2 for available Factory Installed, KW. options and Field Installed Heater Packaaes. ; L1 4?,i11�✓iita., 7 5 � t.�tj-4 ,,4 t ` r r sh r�T t- �, t �R.,• ' '�lti�' fwn' . ^ a iF�y6i' '' Li. n' - i�"^4".A..'. t:+ kr-IJi-,. .Y+9 jl ;M. K}J .ff �� f.. Models -,,•:. -, W7OA, W701:-,. ::.--•'• Desai don Factory Installed Code No.-- -- ,.-. :Field, Installed . 'PattiN 1. �c,0 .':_ Barometric Fresh Air Damper - Standard X BFAD-5 - Blank -Off Plate B BOP -5 Motorized Fresh Air Damper. M MFAD-5 Commercial Ventilator - Spring Return w/Exhaust V CRVS-5 Economizer - School Versions, Enthalpy 0 s ECONWMS-E5 CD Economizer - Equipment Bldg., Enthalpy 0 W ECONWMT-E5 0 Economizer - Equipment Bldg., DB Temp. 0 T ECONWMT-T5 0 Energ,Recovery Ventilator - 230 Volt 0 R ERVF-A5 0 Energy Recovery Ventilator- 460 Vok Cr R ERVF-05 CD Door Kit for ERVF (Required) N/A WMDK5- 0 41 Intake and exhaust can be independentty adjusted. ra Insert color to match unit ("X" = Beige; "4". Buckeye Gray; etc.) 0 WMDK Door Kit must be ordered in addition to ERVF Assembly & color matched to unit ("X" = Beige; "4" = Buckeye Gray; etc.) 0) Partial Full Flow (75% o1 Rated Cooling CFM). All ECONWMS versions have 3" deep Intake hood. 0 Full Flow (100% of Rated Cooling CFM). ECONWMT-*5 has 18" deep intake hood. OUTLET OPTIONS X - Front (Standard) Air ConaItIonmg?ControlwM�odules ; ,.,,:... ° - `� w'..05e,4 � ' w o 4, o ' < HPC ® ac ;LPC;®. yrica tr, c+CCM(m 6,IAC O . 4''.. *dt67, rv-y .. ALR 0' ` '§k:.6,. ,. SK es .. ODT ® ,r,•••;,...y-a!>'il DDC CDD, actory,,,Instatled Code Lind 7,In11176'?-'74, s 7° Fletd Installed Part. _, x."r.s"'- i, STD SW STD ,_ ..: X .t•+::- N/A SW STD STD • _ E CMA -28 STD STD STD • • J Factory Only STD SW STD • • K CMC -15 and CMA -28 STD STD STD • • • M ` .. - Factory Only . STD STD STD • N,W18LOnly N/A STD STD STD - Field Installed Only CMC -15 CMA -14 STD STD STD • Field installed Only STD STD STD • • • V 0_ Factory Only _ __..CMA -24 - - STD STD • Field Installed Only._ STD CTf1 Clenel�ul STD nn,iin,wnnl G STD ....e a e..:f..J • Field Installed Only SK117 CD HPC. High pressure cont of is auto reset. Always used with compressor control module' (CCM) which is included. See note Cr. 0 LPC. Low pressure control is auto reset. Always used with compressor control module (CCM) which is included. See note CD. Cr CCM. Compressor contro module has adjustable 30 -second to 5-minule delay -on -break timer. On Initial power -up, or any time the power is interrupted,.the delay -on -make will be 2- -- • •-- minutes plus 10% of the delay -on -break setting. There is no delay -on -make during routine operation of the unit. The module also provides the lockout feature (with 1 retry) for high and/or low-pressure controls, and a 2 -minute timed bypass for low-pressure control. 0 LAC. Low ambient control permits cooling operation down to 0'F - 0 ALR. The alarm relay has a set of normally open and normally closed dry contacts to provide the ability to signal a condition of shutdown on either high or low pressure controls. CD SK, PTCR start kit can be used with all' -A single phase models. Increases starting torque 2-3x, Not used for •B or -C three phase models. Do not use if SK117 is used. m SK. Start capacitor and potential relay start kit can be used with all -A single phase models. Increases starting torque 9x. Not used for •B or -C three phase models. Do not use if CMC -15 is used. CD ODT. Outdoor thermostat isnadjustable from 0 to 50'F. It is suitable far use as a compressor cut-off thermostat. CD DDC. Incorporates 4 additional sensors: discharge air temperature, indoor blower airflow, compressor current, and dirty filter. These sensing devices function to Input analog data such as temperature, as well as digital data such as airflow, compressor status or filter status. 0'V control module should be ordered in conjunction with direct digital controller (DDC) model TCS24. Refer to DDC specification sheet S3280 for more information. 11111 CLIMMA E:CONTROL'sOL4 TIONS Page 8 of 8 Bard Manufacturing Company, Inc. Bryan, Ohio 43506 www.bardhvac.com Due to our continuous product Improvement policy, all specifications subject to change without notice. Before purchasing this appliance, read important energy cost and efficiency Information available from your•retailer, Form No. S3409 July, 2012 Supersedes S3409.511 '' "-.-';',:,...ZA11--1..W..t!..'itItt.44.14,.attal, # ^,,,,.,...,,.... 1'...,• .•cooa -- E (4.:i..:1„,:::,:„ mPa i an/air° 4, ..ert/Cat Iall1ounte IA11001%141 , , ,'" ,' /Vi'• C'..,...zia- 5t:** -5.-5-,.1,11.-,..;,, ,i,N,,, .:.:44., r.....:4474,-,-;,....;;., ,,, „,-;„4:-..... 0.,...-7,i;ce.,..1-,:, re,,?;,=-:.,:!:, i.,4, • taj. s.::, 4,....--;, :,-.ex," 0 ...f-,. :,.- .....:,, -11-",--,,..,4„-..„-;. ,,. ' Models AVPA4dfk-*-fk-20ciiii)ell- and Models AVPSA36-42-48-60 General Description The Marvairo ComPac5 I and ComPace II air - conditioners are used primprilY, to cool electronic and communication equipment shelters. Due to the high internal heat load, these shelters require cooling even when outside temperatures drop below 60°F (15°C). The ComPac I and ComPac II air conditioners have the necessary controls and components for operation during these (less than 60°F [15°C)) temperatures. All models use the non -ozone depleting R -410A refrigerant. All models use the non -ozone depleting R -410A refrigerant. The primary difference between the two models is that the ComPaco II air conditioner has a factory Installed economizer. When cool'and dry, the economizer uses outside air to cool.the shelter. The economizer provides temperature control, energy cost savings, and increased reliability by decreasing the operating hours of the compressor and thecOndenser tan. T,he.Conrac I and ComPac II air conditioners are problem solvers for a wide range of conditions and applications. To Insure proper operation and optimum performance, all economizers are non -removable, factory installed and tested. In addition, factory and • • • 10 approximately 65% of the total cooling capacity The 2 -stage compressor field installed accessories can be used to meet specific requirements. Models AVPSA36-42-48-60 have a 2 -stage compressor with first stage cg proliides lowerO0 start up amps which can be critical when operating with a generator. The two stage compressor can also reduce energy costs and is able to more precisely matCh,the.cooling capacity of the air conditioner with the heat load in the shelter Both ComPaC, I and ComPac II units are available with 2 stage compressors. See page 3 for a description of the operation of the 2 -stage units when they are used with the CominStat 3 SC" thermostat/ controller In a lead/lag Installation. Safety Listed and Energy Certified All ComPac air conditioners are built to UL standard 1995, 2nd edition and CAN/CSA C22, No. 236-5,' 2nd edition. For energy efficiency and performance; the units are tested and rated In accordance to the ANSI/ARI (Air -Conditioning and Refrigeration Institute) Standard 390- 2003 (Single Package Vertical Units). All AVPA units meet or exceed the efficiency requirements of ANSI/ASHRAE/IESNA 90.1.2007. The ComPac I and ComPac II air conditioners are commercial units and are not intended for use in residential applications. *ComPae II air conditioner only CamPac AVPA, supersede -1009. Standard Features Designed for Operation in Low Ambient Conditions • Low ambient control cycles condenser fan to maintain proper refrigerant pressures. Allows operation In mechanical cooling (compressor) down to OOF (-18°C). Note: I temperature operation Is affected by ambient conditions, e.g.-?W ind and humid • Three minute by pass.. low pressure switcl up of compressor wh temperatures arer • Three minute delay on make for short cycle protection. Remote Alarm Capability • Dry contacts can be used for remote alarm or notification upon air conditioner lockout ow ' - - Ease of Installation • Sloped top with flashing eliminates need of rainhood. alitinmounting flanges facilitate `tallation and minimize chance water lea'' Upplyy and ,ema ye (13°C • Factory High`, !Mc •: High • n.... mai coils guilt -in galvanneal steel for maximum cabinet life. (Other,tlnlshes are available.) Ease of Service • Service access" valvesare stands rd; • Standard 2" (50, mm) pleated filter changeable from outsides • All"major components a e acces;'sible: t "` •Front Control Panel4alla access and compiles cice codess onr" any. *Comp A Marvair'n First — Factory Installed Economizer Marvair's ComPac• II air conditioner has been the Industry standard since its introduction in 1986. ,Tens of thousands of ComPac Il air conditioners are in operation from the metropolitan areas of North America to the deserts of the Mid -East to the Siberian tundra. Here's how the economizer works; On a signal from the wall mounted indoor thermostat that cooling Is required, either mechanical cooling with the compressor or free cooling with the economizer is provided. A factory installed enthalpy controller determines whether the outside air is sufficiently cool and dry to be used for cooling. If suitable, the compressor is locked out and the economizer damper opens to bring in outside air. Integral pressure relief allows the interior air to exit the shelter, permitting outside air to enter the shelter. The temperature at which the economizer opens is adjustable from 53°F (12°C) at 50% Relative Humidity to 78°F (26°C) at 50% Relative Humidity. After the enthalpy control has activated and outside air is being brought into the building, the mixed air sensor measures the temperature of the air entering the Indoor blower and then modulates the economizer damper to mix the right proportion of cool outside air with warm indoor air to maintain 50-56°F (10 - 13°C) air being delivered to the building. This prevents shocking the electronic components with cold outside air. The compressor is not permitted to operate when the economizer is functioning. If the outside air becomes too hot or humid, the economizer damper closes completely, or to a minimum open position with an optional minimum position potentiometer, and mechanical cooling Is activated. fomPac AVPA PD, 1/10 1 5 Savings with an Economizer The following table shows the annual electrical cost of cooling a 10 ft. x 20 ft. x 9 ft. (3m x 6m x 2.7m) shelter in nine cities in the US. Costs are shown for an air conditioner without an economizer (ComPac I units), for an air conditioner with an economizer (ComPac II units) and the savings. The'savings do not include any demand charges. The savings are based on the electrical usage of a five ton air conditioner and an electric rate of $.10 per kilowatt-hour, the approximate average commercial rate in the US. ours of. Operation Atlanta, GA Boston. _MA:, Chicago, IL Annual Compressor &'Condenser:Motor Run Time without Economizer (His) 6,531 6,348 6,361 Annual Compressor 8 GondenserMotor Run'Tlme with Economizer LHrs)_= -, 3,841 2,153 2,424 Run Time.Savings'withitheeEconomimizert(_His.1 . , 21690._. 4;195 nual:Coetrw� 3:937~ pili Sa�Mu [ irofillOIBBRlueltru+dtlts�ageogrtomiser.[COmPac`It)y AnnualOperating Cost: Controllers and Thermostats Controllers Comm5tat3T" Lead/Lag Microprocessor Controller P/N S/04581 • Solid state controller designed to operate a fully or partially redundant air conditioning system, Insures equal wear oniboth air conditioners while allowing the lag unit to assist upon demand. Lead/ lag changeover is factory set at 7 days, but is field programmable in 1/2 day Increments from 1/2 to 7 days. The Commstat 3" Controller has LED's to indicate status & function, digital display of temperature, a comfort override button for energy. savings, five alarm relays, a built in temperature sensor and is fully programmable. See CommStat 3" Controller Product Data Sheet for details on operation & installation. LL357D4 Lead/Lag Controller Two stage heat and cool thermostat with solid state module for redundant operation. (See the LL357D4 Product Data Sheet for details.) CommStat 3 SC Lead/Lag Controller• Used with Marvair air conditioners with two-stage compressors. See page 3 for a description on the operation of the CommStat 3 SC. Accessories Supply Grilles For AVPA24 20" x 8" (508 mm x 203 mm) P/N 80674 For AVPA30,36 28" x 8" (711 mm x 203 mm) P/N 80675 For AVPA42,48,60,72 30" x 10" (762 mm x 254 mm) P/N 80676 Return Grilles For AVPA24 20" x 12" (508 mm x 305 mm) P/N 80677 For AVPA30,36 28" x 14" (711 mm x 356 mm) P/N 80678 For AVPA42,48,60,72 30" x 16" (762 mm x 406 mm) P/N 80679 Return Filter Grilles Used when filter must be changed fromtheinterior. Not recommended for ComPac® II air conditioner. Note: Filter used In Return Filter Grille is 1" (25 mm) thick. For AVPA24 20" x 12" (508 mm x 305 mm) P/N 80671 For AVPA30,36 28" x 14" (711 mm x 356 mm) P/N 80672 For AVPA42,48,60,72 30" x 16" (762 mm x 406 mm) P/N 80673 CanPac AWA PD, 1/10 Thermostats & Thermostat Guards Thermostat P/N 50123 Digital thermostat. 1 stage heat, 1 stage cool. 7 day programmable. Fan switch: Auto & On. Auto -change over. Keypad lockout. Non-volatile program memory. Thermostat P/N 50107 Digital thermostat. 2 stage heat, 2 stage cool. 7 day programmable. Fan switch: Auto & On. Auto -change over. Status LED's. Backlit display. Programmable fan. Non-volatile program memory. Thermostat Guard P/N 50092 Thermostat guard for use with the 50123 and 50107 thermostats. Thermostat P/N 50186. Digital, non-programmablethermostat. 1 stage cool and 1 stage heat. Auto -changeover. WebStat P/N 5/06696., Internet enable thermostatVcontroller. Provides real time system status from a web, pageor a password protected OPC enabled computer running MS Excel*. The WebStat allows remote users to view or change set points. Seethe WebStatProductData'Sheet. Security Cages. Deters theft of the air conditioner and components Constructed of; 1" by 1.1 gauge square tube and 3/4 '#9 expanded:- metal: Hinges and latch are made -from steel plater The complete cage Is powder: coated for ibnngevity andito',match the s e tie color of Mar ,air*airticonditioners Field nstalIed. I Options The ComPacs I and ComPacs I1 air conditioners were designed and are built to stringent requirements of the communications/electronic shelter. Applications occur that have special requirements: Numerous options are available for the ComPac I and ComPac II air conditioners that meet these special needs. Hard Start Kit - Used on single phase equipment to give the compressor higher starting torque under low voltage conditions. (Field Installed only) (Note: Not recommended for use on scroll compressors.) Dehumidification - ComPace I and ComPace II A/C - Humidity controller overrides thermostat and allows electric heat to operate simultaneously with cooling. See Dehumidification Application;;Bulletin for details. Note: The:electrical characteristics and requirements of air conditioners with the dehumidification option are different from standard air conditioners. Refer to the appropriate Summary Rating Charts for:, the electrical characteristics of units with EiectrieReheat. Coastal Environment Package ComPacs I A/C only - Recommended for units to be Installed near an ocean or on seacoast. Includes corrosion resistant fasteners, sealed or partially sealed,. condenser fan motor, protective coating applied to all exposed internal copper and metai.in.the in the condenser section and an impregnated polyurethane or a phenolic coating on the condenser coil. See Coastal EnvlronmentalTechnical Bulletin for more details. External Low liaise Blower (ELNB) - ComPace I and ComPacs II A/C - A field. installed. kit that consists of a condenserair hood, a centrifugal blower, controls and a :compressor jacket to reduce the sound level by up to 6 dbA of Marvair ComPac air conditioners. Available for models AVP30-60. See External Low Noise Blower Product Data Sheet for details. ComPacm II Air Conditioner Transition CUrb - ComPac II NC only - A sheet metal curb that enables a 3-1/2, 4 or 5 ton ComPac II air conditioner to replace a 2-1/2 or 3 ton ComPac II unit. Curb transitions supply and return openings of the 3-1/2, 4 and 5 ton units to the smaller openings. Economizer Damper Control.- ComPacs II A/C only - A minimum position potentiometer that can be adjusted to prevent the economizer damper from closing completely. This control ensures that whenever the evaporator fan is operating, fresh air is being introduced into the building. Field or factory installed. Hot Gas By-pass - ComPacs I A/C Only - Used in specialty applications; i.e., Magnetic Resonance Imaging: (MRI) buildings, to prevent magnetic voltage disturbance caused by compressor cycling. Hot gas by-pass option packages are available to allow operation to 20°F (-7°C). Please refer to Hot Gas By- pass Application Bulletin for details. Not available on the AVPA24. High Filtration - Units are built with larger blowers/motors for use with higher efficiency filters s with MERV ratings of 11, 13 and 14 when tested to ASHRAE 52.2. Units with economizers have a prefilter on the outside air. Color - ComPacs I and ComPacs II air conditioners are available in five different: cabinet.; colors: -the standard Marvairs beige and white, gray, brown and dark bronze. The standard, cabinet's sides, top and front panels are constructed of 20 'gauge painted steel. As an option, these panels can be built of 16 gauge steel in beige & gray or .050 stucco aluminum: When the 16 gauge painted steel or the aluminum Is used, only the side, top:` and front:panels are 16 gauge or aluminum. Contact your Marvair representative for color chips The cabinet. can; al•so be constructed of type 316 stainless steelTwo. stainless steel cabinet. constructions areavailable- the complete cabinet, including most internal sheet metal or only the exterior sheet metal. Protective Coil Coatings Either the, condenser or evaporator coil can be coated, however,coating of the evaporator coil Is not common:' For harsh. conditions, e.g.; power plants, paper;mills.or sites were the unitwill be exposed to salt water, the coil should be coated with either an impregnated polyurethane ora phenolic. The coatings are sprayed on and pass 3,000 hours of B117 salt "fog test: Note: Cooling capacity may be reduced by up to 5% on units with coated coils. Factory Installed Disconnects on460V Units - Factory installed disconnects ane standard on all 208- 230V, 2'through 6 ton units. As an option, all 460V. units may be ordered with a disconnect. Extended Warranty - A first year labor - Silver, and a two year labor Gold, are available; Dirty Filter Indicator A factory installed„option • that measures the difference. -in pressure across the internal filter and illuminates a LED when the pressure exceeds the desired difference. Single,Point Power Entry - A field installed option that allows a single power entry into the air conditioner. Single point power entry should:only be selected when the air conditioner has two -electrical circuits. See the Summary Ratings Charts for units with two electrical. circuits. Phase Monitor - Monitors 30 power supply and will turn theair conditioner off if power supply is not phased properly Not required on 10 units. Thermal Expansion Valve - Available on all ComPac air conditioners. Allows operation In hot ambient temperatures, Sealed Condenser Fan Motors - Recommended on units to be installed corrosive sites, e.g., near the ocean and in deserts with blowing sand. Available on all units. Compressor Sound Jacket - To reduce sound of compressor. ComPac AWA PD, 1/20 Control Box The internal control board in the ComPacs air conditioners simplifies wiring, consolidates several of the electrical functions onto one device and improves the reliability of the air conditioner. In addition, the control board has LED's that indicate operational status and fault conditions. LED Indicator Lights COLOR Green TYPE Power STATUS. DESCRIPTION Red Status Constant On Constant On 1 Blink .. 2 Blinks. 3' Blinks 24 VAC power has been applied Normal operation High,pressure switch has opened twice Modes of Operation Normal Startup: On a call for cooling, and the with the high pressure switch closed, the cooling system (compressor, indoor blower motor and outdoor fan motor) will be energized. (Note; See the Delay: on Make feature). The cooling system will remain energized during the three minute low pressure switch bypass cycle. If the low pressure is closed,. the cooling system will continue to operate after the three-minute bypass. If the low pressure switch is open after the three-minute bypass, the cooling system will be de -energized. Lockout Mode: If•either the high or low pressure switch opens twice on the same call for cooling., the control board enters into the lockout mode. In the lockout mode, the compressor Is turned off, the alarm output is energized and the status LED's will blink to indicate which fault has occurred. If there Is a call for air flow, the indoor blower will remain energized. When the lockout condition has cleared, the unitwill reset, If the • demand of the thermostat Is removed or when power Is reset. The ComPaca air conditioners are factory wired for normally open contacts. The user can now have normally closed contacts by moving a wire on the control board. Delay on Make: On initial power up or on resumption of power, the air conditioner will wait .03 to 10 minutes from a call for cooling before allowing the contactor to energize. Low, pressure', switch has": opened. twice Freeze stat;,(optional)1 indoor coil temperature<;is below 35°F.(1°C) Model Identification AVP S A • T T 2 -Stage Compressor - Air Source Vertical Package Botrigerapt A a R410A 24 = 24,000 BTUH 30 = 30,000 BTUH 36 - 36,000 8TUH 48=. 48, 000.BTUH 72 = 72,000 BTUH AC r • ' T Power Sunniv A - 208/230V,1e 60Hz 1 C ; 208.230v,3e,60H2 D = 460V,30,60Hz System Type Air Condltioner SPeCALLIPtlenSpde R e Electric Reheat U,=, Scroll Comp. I N = ComPae•I A/C IC • comPacs H Nc I fjprtrir Heat-- kME.. 000 No Heat 090=9kW 04r=4 kW 100=10 kW 150 - 15 kW 050 = 5 kW 080 - 8 kW CarnPac AWA PD, 1/10 6 ci AVPA Summary Ratings (Wire Sizing) - Scroll C AVPA Summary Rat ngs :(Wire. Sizing) - Reheat with Scroll Compressor • ELECT. MEAT 000 = None 040 = 4 kw 050 e 5 kw 060 = 6 kw 080 = 8 kw 090 = 9 kw 100 a 0 kw . 1 120= 12 kw ' X150 • 76 kw BASIC MODEL VOLTAGE PHASE : CET el Oa J1 CMT 71 CKT 01 CKT 41 CRT Jl CM' *1 CKT JI 1 . CAT 42 'MT 11 . CKT J2 MCA MFS- MG MFS` MCA MFS ' S MCA MPS MCA. MFS NCA- NIS MCA MFS :: S . MG, NM .MPS, =1�s MFS MCA 'MPS MCA MPS' AVPA24ACA 208-230/1 18.9 30 22.3 30 ' 27.4 30": 32.7 35 43.0 45 53,5. 60 52.1• 60 ,NG 208.230/3 21:8 X35 45. AVPA30ACA 208-230/1 21.9 35 23 4, 35, 28.5 35', 33.8 35 44.1 45 .--.-- '23.4 34 ' 54.6 a': 60„ 23.4 35•i 41.6 ' 45 28:5' 35 ` 52.1 60 AVP436AG 108-230/1 26.7 40 26.7 40 : 28,5:.40 33.8 40 44.1 45 60 54.6., 60 26.7 30.7... 30 7' ; 40°' SO; 41,6 47.6 45: 451*-30,•?e 28 5 ' .50 206=230/1 60 AVPA42AG- .208-130/1 - 30,7 50 - . •' '30 7 50 _ • 70 7SO 55.1 60 AVPA48ACA 208-230/1 33:2 50. 4S '45 ' �. .• ..`4S ^,4S''4S6. �,;,•ntp 707. i3 2 •33.2 50 'J 60 i .1:60 A AVPA4l1AG, 206-2 70/7 33 2 -, 50 ''.55.2 •. 60 33.2 50,; 41.6 .52,1 33:1 40 6 AVPAGOACA 208.130/1 40:8 60 ; AVP/180l1G5 206-230!7 . 40.6 60 AI r 4DS8; 560. 26:0 30' 57.3 60.40 8 i 60 '43.6 .453 45: 33.2 j0:0". :50.• :52.1 52:1 > 60 AVPA72ACA 208-230/1- 45.6 60 26:0 30 `45.6 :60,- 4- 45.6. t60. AVM24ACt, 7'26843173,13 .. 57.3 • 60 45 .6 60T 43.6 4S` ,'6/1' 60 4556 60 52.1 60 AVPA24ACC 208.230/3 ;13;7.. • 20 : 15.6 '+10 : :.:. 194... 20 -..: 28.5 • 30• 35 "42.7 37.5 40 - * ;, s .- 80 y60 AVPAlOACC 208-230/3 15.6 20 , :.:.. ' AVPA3611_CC .206.230/3 20 5 '25: • 29.6' 30 366 4d; .474,'50 476 py .-. AVPA36ACC 208.230/3 208 3 -'30 115 20'8 45.1' 'Air, 20,6 .�, 30 208:230/3 229. 29.6 30 + 38 6 - 40 40.9 44:6 ;50.0 60-!'. AVPA42ACC 208-230/3 22.9 35 ... 23.0 27. ')S --35t36.1 40 .• 40 22.9 35 45.1 50, . , S0 30.2 35 234 ,35 ' 39.2 „40. .50 43.0:;715.:.-::50 50'"54:6r AVPA48ACC ,208-230/3 23.0 33 1 36' 73.0 • 35 _ 461 451 Ie. 30:2' ,.35 206-230/3 iii; 79 2 40 ,i 4B 2 4_ SO•, i•*. ;45:5 AVPA60ACC. 208-230/3 ►- •27.5 40 -`SO..: ... 27 5 • 40 .54:1 ...40..`� 32;3 .40 ... .3 41345 41 3 50", • ; 50.3 :5.0a ;60, • `60'' AVPA72ACC ,206.230/3 36.11 501• - • ' .15 • -.364 50 36.1 ISO:, ' ,11.3 - AVPA24ACO i.. 460/3 70. 15,'+ 25.8, _9,7 15 .. .. 14.2 ,15 ' i `-35 ; - 187 , :20.; AVIA30AC0 460/3 23:2 125: AVPA30ACo ' 460/3 .9.2 ` .15 19,2 20 : 10.3 15" '14.8 : 15: 27.7. AVPA36AC0 19.3 ;20; ]S : 23.8 -i..23:. AVPA36ACD 460/3 9.7 15...._ .23,2 ;23.2 25'. ..10.3 -..15 27.7 . . 30 '14.8 .1S' 20"19.6- 32.2 :35 '75 19.3 ;120 20: 460/3 .. 43:1 2411!;:25 i'2-56. . - AVPA41AC0 464/3 -10.1 23 79.6 10 23.3 - . 10.6' 15 15.1. AVPA48ACO 460/3 10.7, IS • 77,1 �. AVPA4EAC37 ,104 .;.15:. 15 ..151, .,'20 4- 29.6 20Y =25 _ • 24:3; :15.s'- 025;: . AVPA6OACO 460/3 13.6 20 ;. ' .: 3).2 35 _ 13.6 173 :20 `-25°, ...: :fill: 17.3: 20': 1255 � .. . ' 20.6 206 AVPA72ACO 460/3 173' 25'.:... 25 27.1 30 25. 251 390 MCA = Mkiknum C11118 Amp.cltty (VNr S11e Amps): MFS = Melhlum Fuee Site or HACK drain! b'AAker' MCA And MFS ulwlabd C0' models). MCA 6 MFS anointed al 460V. Al 460V uNts have I step down transformer for 330V motors: � El 240V for A• 6.'C• modeb.' For, 480V units AVPA Summary Rat ngs :(Wire. Sizing) - Reheat with Scroll Compressor mpe ry (VNro She Ampa). MFS • Mewmum Fun S W or HACR dawn banker. MCA and MFS alodeted Et 240V for •A• 6 •C' model►. Far 460V unlit Co. models), MCA I MFS calculated at 460V. Al 480V irks have • step down transformer for 230V motors. 7 Co,tPac AVPA PD, 1/10 �n • !LFR. MlAT ' 000 s+ N.rro 040 a 4 kl• •• - 050. S kw I ... . •.. 010. 6 Urn 090 a'9 kw ,. :. 100 • 80,1••• . 110 a•'l2 kw • kw kaM01 IACA) - X180 . 15 kw . *O.Mw A.Ae.5 DA.SIC NOOlL VOLTAGE . PHASE : 0`-•1 _ Chtr *30... .: COT, JI - 'GrT J2; '', GCT *1 :.'COT.1 CKT 91 _ - COT J3 .. .:CKT •1 CICT *2 ,j (ACA). MG MFS -MCA' MPS NCA MF• 'MG NMI :MG Mai tMrS ... , MG :. M/9. MCA' ...... MP$ NCA Mi _ Mk NCA: - _ ;MET ,, rlsu MCA' ' 9 .MPS, =1�s MCA 5 ,:7s , ,. Mil MG - - Syr` MPS AVPA24ACA 206-230/1 lea ' 30 ,39a 40' 44.9 -45' - '50 2 ,.,522 60. 184' 30 52.1• 60 AVPA30AG. 208.230/3 21:8 X35 42.9+ 45. ,47.9, SD s60, 21.9:.35» 52.1..60 '23.4 34 26 5' 52:r ';90' AVPA36ACA .208-230/1 26.7.:.40 47.6: . SO 57.7. 60 -57.9 60::2/7 40 „ 52.1 60 • ', 1'6a §4S 285:404 t '52:1 6 "60 .: AVPA42AG 206=230/1 30 7 50 30.4 56'.••26.0 '30 _ • 70 7SO S2 7 60 _ 313? `2 tl 6,6 494 r50 --50 140*. ?f04 1`61 4101 416 416 ... 4S '45 ' �. .• ..`4S ^,4S''4S6. �,;,•ntp 707. i3 2 50,, NI S2l, .52 1j 60 i .1:60 A AVPA4l1AG, 206-2 70/7 33 2 -, 50 30.7; 2 50 ; 26.0 • 30 .: 33:1 40 6 . SO , 60' 52 1 52 1 52.1' 1,.. , 60 60 `60, AVP/180l1G5 206-230!7 . 40.6.:. 60 4DS8; 560. 26:0 30' ... �,..�,� 406 ; 1731 e. g60yr'52 521 1 45a1;t'^50' ',;eq, k50:; AVPA72AG 208.230/1 45,6 +,60 .. 45.6' 60 26:0 30 „.. 4- 45.6. t60. AVM24ACt, 7'26843173,13 3 20 31.3 1S : ;40.4 45 4 _' AVPA3OACC 206.230/3 15.6 '+10 : w 33.6 35 "42.7 45' - S1 7 .- 80 y60 �'. 6, t200 Y30Y ' AVPA3611_CC .206.230/3 20.6 ; 30 38:E 40 .474,'50 - .-. 56 9 6p -'30 115 20'8 45.1' 'Air, S0 AVPA42ACC 208:230/3 229. ,135.,:- + 40.9 :,407. ;50.0 60-!'. ;.` ... 23.0 27. ')S --35t36.1 40 16.3 .• 40 229 ;;>S 45.1 50, . , S0 AVPA4$ACC 206 230/3 234 ,35 ' 43.0:;715.:.-::50 50'"54:6r 2 6p.' '14 ` 1 36' .'40, 361 83.0l350 27 S' 461 451 Ie. '+50' '¢0 AVPA60ACt, 206-230/3 iii; 40 .. ;45:5 AVPA72ACC 206.270/3 36 1.:' -`SO..: ... .54:1 6p ` ... ... • 361 ,• so 35.r 40 l .•1 s:3 sD AVPA24AC D 460/3 - -i:.11'.. .15 .16.1 2O ' ,11.3 - 25 25.8, 3a:► ;so, :- 30 , '.30< ,30?) 71:7 `-35 ; ..., . - AVIA30AC0 460/3 9.2 =:15- 19,2 20 : 22.7' 25 27.7. AVPA36AC0 460/3 • 9.7 ]S : 16,7. ' 20. .23,2 ;23.2 25'. 27.7 . . 30 32.2 :35 '75 AVPMIACD ` 460/3 10:9 15 79.6 10 23.3 25 16.6 . 78 7 , 30: 77,1 , ;95,. AVPA4EAC37 '460/3. 10.7 15 4 4- 19.7. 20 24:1 25` 70 3).2 35 ' AVPA604CO3 �AVPA72AC� 460/3 13.6 20 22;6 25 27.1 30 � 31.6 15 36.3. � kir, • Minimum 460/3 C'wlt A 17,3 d 25 _L- - r 76.7 30 ,70:'9'. 3S" 1 35.3 40 39.0 40 40 mpe ry (VNro She Ampa). MFS • Mewmum Fun S W or HACR dawn banker. MCA and MFS alodeted Et 240V for •A• 6 •C' model►. Far 460V unlit Co. models), MCA I MFS calculated at 460V. Al 480V irks have • step down transformer for 230V motors. 7 Co,tPac AVPA PD, 1/10 �n AVPA Electrical Characteristi '11/15IC MODEL . COMPRESSOR .: ,:' OUTDOOR FAN MOTOR IN FAN MOTOR VOLTS 14.64 MCC ' VOLTS RPM FLA MP ' VOLTS RPM FLA HP -• 4VP424AC4 208/2307801: 12.8, 66::0:: ]206 :208/230-60-1 1075 1.5 : 1/5 iosino-oo- ;on 21.4. • 1/4 4VPA304CA 208/230401 14.1 77:0: i22.11 ,-.208/230-601 , ,1075 1.9 1/4, :208/220-60.1 1075 :2.5 1/4 ' AVPA35ACA 208/230401 :17.9 11247 '.28.0: 1508/230401 ' 1075 1.8 1/4 208/230•601 1075 :. 2.5: I-35.11 , AVPA4?ACA .... 208/230-60:i 294 1000 :310:: !,208/230.7601., 025 : 2.8 : 1/3! ;208/230401 1075: 3.1 :. ,..1/4 1/2 AVPACLACA 200/2306014 .21,8 117.0 P- 04:0i •• ; 208i236,60-3;, 825t 1 2.8 :1/3" 108/230401 5075 51 .1/2 AVPA60ACA 208/230.4075i :26.2 .„ 134.0 ;:41.0 ,:203/230-604 825 2.8 1/3 200/230401 1075 5.2 " 3/4 AVPA72ACA 208/230401 50.1 158.0: 4720 408/230401 sas 2.9 ' 5/2 408/220-601 1075 ;.5.5 ! 3/4 ' AVPA24ACC. 208/230-501 . 54 81.0J 134! ,408/23174.01. .:1075 .1.5 ,.1/5. 108/2304011 1075' ;1.4 1/4 '. AVPA3OACC 208/230-60-2' 9:0 , ;• 73.0j 14:0 :200230401 1075 :1:8; 1/4, 400230401 1075 2.5 5/4 4VP436ACC 200/23040,3 .13:2! " 88:0:. '20.5.: '?i208/;30-0-) 6075 1.8 , , IA.' 400304071: '.107$ ,.., . 1/.4,'. hwiimiaAcc 208/2300F3. :OA 83.1 21.2: , , 208/23060-1 w 825 4.8. 113) 105/230-6012 1075:' „Li:, "':3:1:,• :!,112 Ai/PAIS:ACE 200/23040-3 r,13.7 'Ail?, i21.4 . ',;oenso-oo-r. _• 82S: i' 2.0 ' 1#31 .;200/230-50,V ,10,75: !- ,..,::311: 1/2 • AVFA6OACC ;205/230-604 ,15:4* ili:o •24.4,:j i2611/230560i1. ..; 825 4.8'. 1/3,' '2011/2:3-070155 :1075 1571'. . :.f,.:1/4-. 4VP472ACC .200/23040:3' :22.4' ;f:4-970 50: o08/233 -60-i ,1,825 eV* ' 2.9 .in- 208i73040-1. 1075 U51; i;.'.i3i4 * Ava,n24ACD'• 4604013 .! 1,-'5.1" 28'.0i ''s:4:1 0002.*6-04,, 788 '1.3 .. ;05i'. !I08/230404* ,.6070; I:477.: 7.6/4,f AVPA304C0 46040,3 , :',5.6 "_,311 .0 A ;C :420111230401=. ion ,21.5 pus :::,1/6: ':200230760: 305 hyptsciice. 04 AVPA36ACO 46040.1' '6:0,! .1.44:0, .;9.3'' ,308/23040-1 ,.1.6. 1075 1.8 1/4, 409/23040-1 1075 .,1,3.5,, :.2.5;:.: , 1%4 AVPAlsiACCI , 460401 , )3.3 . '4E0, ,:'9.5: f:206/230-.697.1, ,1075 2.8 . .: 1/3, 208/2.3040.1'; ::1075 ';,-3.1.i '1/2 AVFA48ACD 460-601 ' : 6.2 41.0 9.7 '','9:7.. Y200/230-001 825 . ji.e . :'.n/a ,,273 200330-60-i: 1075 i3.1 AVP24140 ArAGOACD 460-60;3 7.7 ' 152.0: :12,5. ii/o -' 1.- '.,208/230401 . 825 2,8 :1/3; '168/230401 14:4. , .1075 s:;.5.2 ..:1/2 , 3/4 AVPA72.4CD _._ 4604073 .. 10.6 75.0.. 463. 1011/73040-1 -P 825. : 2.9 • 1/2 ' 200230:604 3075 :5.2 .,, 3/4 RLA • Rated Load Anion LILL . leekid ne,..........:. ..e.- - .......,-.-_-_ _ lib” ::11.57.; Na -. RPM Revolutions per Mune HP. Norse PoWer AO 469V units luivo • step down transtaimer for 230V motors. AVPA Unit Load Arrips men LA . Full Load Amps IlAtOC VOLTA01 wont- PRASE LOAD.OFAISISTIVE HEATER; ELEM1POS WILY (AMPS) •CURIIENT. AMPS "! • TOTAL MAXIMA; maiiori!" . . HERTZ ' 'Ac ,,•; iiii li&AV/ 05kw 00kW 06 04 NW isiiii*; :Si kw ilkw 04irs ..!:.. A OLI:ItW, -:.... ..- Olidai. • - , - Oilers ' '7' 7-7.7;777.7,77.7-7.' SO NW 10 1;12riiii;igia* Avv24ACA. 260-230/1/60 15.7: :1:4 : 16.7 C ! 20.0 15.0 25;0 , :15.5- .• Na-. 417.;.:: i' NA : n/a, ,;..28.1;. r 22.2. 1‘26.4, 141:7,. n/o 1 j:',?/4-67,. AVP306CA! Phwii36o.r.k; 203..230/1/60•301 2„5:. 16.7 7 20787, :=-7.5.0 33.3 :.-Na. ,41,7 •50.0 : 62.5 . 19.2 23.3 27.5 I-35.11 , . n/ail :Oar:: 52..5;4, :'4./a, 105-2501i/6022:2 !..2.5. 16.7 I io:e::: 210.] :33.3 V 41.7:: L50.0 ' ,50.0 : 62.5 , ,62:5 1 .:19.2:. i/o .231. 23.9. .77.5 (4/a 7: i 35.5, ...?;i114;;,, ... W44 ,ri/a,,,. ...1;1452; -4412;', ::44.1M ,1 '.;'55'1 ,,•:`65.0, ; .:'610 N5.6 AVP42ACA 209130/V6D 25.7 '3:3 ''• lVi '', '. 20:5:, ' i4.77 :‘ WO ' - NS 41:7:.; AVP46ACA: 208130/1/60 .27.7 :3.1, 'VI • ' 20.5 l a - ,1 Na ' _Ns ' ; -41.7' .50.0 62.5 62,5 . , n/. .:423.9 • :,"Nn •• kiwil .-1-nl-ii.-ft.16.1r •,..'sja.i' ,651:' AliP6OACA 209-230/1/60 34.2 :'5:2 . Na , 20.8 • ND 'vs • rvo • n/a. 40 41.7 7, -50,0': ,.. 12.0 . : 62.5 ;; 62.5 ln/ai;:: . Na. r:i26,0 • ' 26:0:. . n/a.". ,,•6/10 ,r• : nia;:. •-•.'n/ii . Ni;. 11/8 " ". 46.9.4 f '46.9',‘ .• oral •^0.:1 : 55.2, ;:55.2,'; •:50.2,1 :,,,311:4, 17.7 AVP72ACA, 205-230/1/60... 38,0' '12 Na 20.8-Na:.,Na :, 67.7 :;37.5 AVP21.IACC 209-230/3/60 11.2 71.4 •, n/o. ' nil 14:4 . ,,:'n/o • 21.7'. .21:7 " ;6/o ' n/i '. ...lila •• ''' 56.9 ' 36.1 '36.2 'n/e :it/4 ; i . n/a:,:` l'4/4:: :.1513,1 16.91. "'Wm- ',Na 23.1' all AVP30/lCC. 200-230/3/60 113 2.5; %rya .... .11/o • .71.4";'Na AVP301.Ci 208130/3/60.17:5, 2.5., : • Ns : , Na ., 14.4 • . Va :' 21.7 'V 28.9 28,9•: , 36.1 n/a .1 ',... No :. 16,9 ir WA ' .: 24.2 ' 31.4'4 ::']354 J$8.6 AVOili*.Cc: 206-2i0/3/6019.5 3.1 :.3.t• . , Na . .:,rya'. 14.4 • No 21.7' eV* ' 7-;.21r.9 , 36.1 . 41/9:: .rw/i ''. 17.5 7 °;"4/4' :, i...lif!:; :ii/i ; '.',.3210 f•• - AVP10*; 2.08q70/7/50 494 ,3:1 ,v,-.., we . - 14.4 nie ' 21.7,, ,. ...:.iin, , ;28:4 :. .36.1, :.,,,,,,:,, .vivi .: Na : ,21.5 pus .'4,/,7- .!.jP:a:._ hyptsciice. 296,230060 :23.6'. :,512 -,•iVI : : ow - fis.. no'. ;21.7. Na :1':28.9 r -i,36,1 f --•.,n/a7, ::•:Na:, .17.5 1.10.0:: -,i-WI : ' , 26.9 ;".' No 34.1 !',! Aviriakr 208:230050 30,5 ;.5.2",' n/a Na 14.4 : • No i • 21.7. . rt/o 1. 20.9 35:1 oh •• •“:1VI • i'. ;'19.6 . :'.n/a „.. 26.9 7 11.5 : -. nil- nia.'l - 34.1 , 25.1, 41i3 _,41.3 AVP24140 '460/3/60"' w. 15:6! .. 0.7" • rt/i ' ii/o -' 1.- :1-7.2 .. Na: 10.13 ' Na ': 14:4. , 18.0 7 'VI - ' :‚Vi : i::-;n/a'. . 7.9::;' AVP306C0' ''':460/3/60 111. :,1:3: a - . n/a -: 7:2 , : 'Vi ' 10.6 , '` a 16:4 10.0 ! : ••;: lib” ::11.57.; Na :-it/O. ..111.7 nvp1/441-:-.460460 :' ',812!- .1:3 Ns Na ' 7.2 4 4/4 . 10.8 Vi nia ..• .44.4 ' :40.0,1: : ,•!vi.'' ''jiya,;." : 8.5 ;Ws.; : Na Na .12:1 , 12.1: 12.4 .- 12.4 : a/i. , Na`.. 7,16.0: Fits ;19.7i; ;.f15...,:',•, . 16.0 .19:3 ' 18.3AVF40.61 - 19.6 30 : A60/8/60 - 11.1:' - 1.6 . Na n/ 7.2 • 10 101! .'n/a i.',14.4 14.4 • .18.0 ' 18.0 ' '...n/o , Na 'Na' . 'VINa : 0.8 ' 8.8 ' AvP484C11; ; 460060 r.:51.2.:: 1.6 Na;nil 7.2 a 10.11-', : Na Avpodacp, 464/5/60 11,7• 2.6 n/a Na 7.2 li/a 10.8 ' nis '16,0 lila Ns ' 9.8 . 11/4 13.4 . Na :19.6 AVP72ACD 460/3/60 14.7 2.6 We 'Vi . 7.2 Na 10.8 ,14.4 Na 14.4 ..„„ 18.0 n/a Na 9.6 n/a 13.4 Na'17:0 17.0 20.6 Healing kW shown it 24LN for 'A' & •c• ...ion E....wk.. ...,.......... le. .__ ...... ___ ._ - . . . • 20.6 kW shown et 480V for PI 'D' models. imps Indude motor loads. NON: rime Phase equipment awilairn stnglio-phase motor loads. Values 'hewn an minimum phase loads. Loads are not equally balornsd on each phase. Total cooling and total heating . TODI lillUhig amps for AU. ACA units with iskw induges both circuits (111 and #2) Waster ComPac AVPA PD, 1/10 a AVPA Certified Efficiency and Capacity Ratings @ ARI Standard 390 MODEL 24 ACA ACC ACD 30 ACA ACC -1 ACCI 38 ACA 14CC ACD 42 48 COOLING STUN r"FER 24.000 30,000 35,500 ACA 'ACC I *co 42,500 ACA I ACCLA CD 47,000 DATED as 9.10 9.40 • 9.10 9.10 840 1000 • 1220 1520 1760 ESP 0.10 0.15 .00 0,15 0.2D C0 60m0 asoFovracet and I'/67' -wow, Nr now nevi ore iv unll'onth the ventnotle4 cartrouradon and no outaile Peolonlince NO be Owed by altitude. 60 ,ACA I ACC f ACD 56,500 9.00 1550 0.20 72 ' ACA ACC I 95.7/30•0 ACD 63,000 71,000 10.30 10.00 isatriasec 2050 0.20 0.25 26,840 25,920 AVPA Performance Chart Data based on 80°F(26.5°C) DB/67°F (19.5°C) Wet Bulb Return Air Temperature at Various Outdoor Temperatures at rated CFM. maw 7s•r/24v agrnae.e•c 95.7/30•0 10•P/33•C 66•7/33•C 100.9/36•C 105•P/40.5•C 100F/43.3°C isatriasec 24 27,840 26,840 25,920 24,960 24,000 23,040 32,086 11.020 so 34,900 /3,8130 . 21.400 21.200 30.000 26.000 32.600 26400 ,26,640 ' 25.500 36 41,180 39,760 . 38.340 36,920 35,500 34,080 32,660 31,240 30,330 a 49,300 47,600 46,900 44,200 42,505 44,800 39,100 37,400 36,550 48 54.520 22,4412, 20.760 40,500 47,000 45,120 43.240 41,360 40,420 60 65.540 63,280 11,020 58,760 ..- 56,500 54.240 51,980 49,720 411,590 72 (10) 73,080 70,560 65,040 65,520 63,000 80,410 57.960 55,440 54,180 77 (20) 61,360 79,520 76,680 73.640 71,000 68,560 65,320 62,400 ' 61;060 The coollne apache 0 the 4m692 Ism pm" Wilts 8 2,000 STUN lower when sefatee of NM no. AVPA Sensible Total Ratio @95°F (35°C) Outside Air DB 2411C. mac 3611C 42AC 45AC M1AC ?sac ph) 72aC p Ph) 4).000 TOTAL CAPACITY ssuslau MEAT RATIO Saltallifs cardscrry ourraiacsas ASA 24.000 30.000 ‘0.74 33.500 0.59 42,500 0.75 16:500 63.000 16,500 22,100 • 24,340 31,020 35,300 39 190 0.10 • 1,000 0.35 1,220 0.15 1,520 0.15 3,760 0.20 5e50A0le Milos basedUpon A0.1:93An#A54390 return 60 00,33111049 &WV (26.5v) Dry Dulb/67 (19,5'c) Wet bulb 1,950 0.20 0,70 :2.'71.009 44,060 2,050 0.20. 0.66 46.270 2,050 0.25 AVPA CFM @ ESP (Wet Coil) MODEL 0.10 ti„.251 AVPA24 AVPA30' AVPA36 ' 1160", '110 , 0.30 ' 0.40 0.50 :1000 -960 1910 - 1220- 1165 :920, ..810 AVPA42' AVP1(413-- 'AvPA60 1690. 15851 :•`-111,30, :1520 •' 1760 11)60 1450, .1700 -1830- 17611 1360 - :1620' 0 1620 2100 1950 1800 1730170 1660 Alr flow ratings of 208-230 volt units an at 230v, Air flow ratings of 460 volt units are at 460 volts. Operation of units at a voltage afferent from the rating point will affect air flow. AVPA72 "••••••••1. 9 ComPac AVPA PD, 1/10 AVPSA CFM @ ESP (Wet Coil) MODEL AVPSA36 AVPSA43 0.30 1310, 0.20 1220 0.25. 1185' 0.30 1150 0.40 1060 • 0.50. AVPSA48 AVPSA60 1650 1585 1520 1450 1900 1900 1830 1830 1760 1700 1360 1620 1760. 1700 1620 Air flow ratings of 208-230 volt units are at 230v, Air flow ratings of 460 volt units are at 460 volts. Operation of units at a voltage different from the rating point wit affect air flow. AVPSA Summary Ratings (Wire Sizing) - Scroll Compressor ELECT. NEAT ' .006 a None. MSIC MOOR AVPSA36ACA AVPSA42ACA AVPSA48ACA. AVPSA60ACGA AVPSA36ACC AVPSA42ACC AVPSA46ACC AVPSA60ACC AVPSA36ACo VOLTAGE PHASE 208-230/1 206-230/1 208-230/3 208.230/1 206.230/3 208-230/3 208-230/3 208-230/3 AVPSA42AC0 AVPSA484CD AVV51160ACD 46W3 ... 460/3 460/3;:. 460/3 CKs' as NG 25.1 26.7 32:3,. 40:0 18.2. 22.7 22.7 75 10.6 11,0 153: MFS' 40 40 040 4 kw COT 15 MCA PUS, 25.1 40 050 c 5 kw COT #1 MGI 28.5, 29.1 PIES 40. 40 060•6kw COT 01. MCA Mrs. 33.6: 40 060e81w 090=9kw 100a10kw 120 ■ 12 kw OCT t1 MCA 44.1 MFS 45. COT ti' MCA MPS' SO 25 32.3 40.0. SO 60 CET is MCA 54.6 55.2 55.2 57.3 MFS 60 60 60 22.3. .35,: 29.6 35 35', 40 15 15':. 15. 20 23.9' : 3S 30.2 30' • 35.. cots' iia MCA. MFS 150+ 15 kw K7 al COT03 MCA" 25.1 26.7 40: 33,3 ,SO 40.0 E0, 36.5 :40;:i 39.2 41.6' .41:6 41 6 41,6. MF6: 4S . ^S4S MCA 40:5, .1 :3213' X0.0' ,474, 23,9 35 30.0 .' 40' 10.3; 1 10.6 : 15 30:2 32.3' 14.6` 15.1 1. `10.6' `°IS t5.3 '-20; 15,1 �0' 16:1 20: 39.2 `'40 41.3 :45,, '19.3 ,20 19.6 20' 1! 6 20 4612 .2 MF6 +0•€ 60� 11CA' 52.0 52:1 52.1 152.1 MFS 60 60 '60 60 50:3' 23' ' 74.•1: .'24.15 s0' 50; 60' 25,• MCA : MW Circa' Am d Wrs Silo Amps). MFS 25,' !ownpe. ry (a Maximum Fuss Size or HACK &cull breaker. MCA and MFS slaiaOd al 24W for'A' 6 C modola 'For 480V units ('O• modals), MCA a MFS wk111aied al 460V. Al 480V units lune a slap dme11 transforms,. for 23W motors, ... . a AVPSA Summary Ratings (Wire Sizing) - Reheat with Scroll Compressor - ELECT. NEAT p 000 a None ' oo0 s 4 kw 050 .5 krroo 060 . 6 kw 090 . 9 kw 1 a 10 kw - 120. 8 1w RolroM1(ACA) , CKTrt1 12 kw160 ,<.CKTaT ' ,x.10 kw 601603 '�CItTIl;; ..15 kw (ACA) Orr 12 9A61C MOOEI VOLTAGE PHASE 206.230/1 COT al :$416, COT 11 i•-.. CRT Al COT 02 CKT a1 COT al co a1 r'CKT P2 MCA 12511 40 MCA 46.2 NFS 'SO MCA 51.1 OFFS , 60 HCA ' MFS LMCA '56.3 PIES 60 'NCA . MFS ', NCA 25.1 MEG: '40' MCA 52.1..60: NFS MGL Mf5 14CA MFS, MG -OM MCA PMS AVP5A36ACA .25.1 40 41.6 4S 25.1 AVP5A42ACA 206.230/1 26.7 40 . 26.7 40 26,0 30 26.7 40 52:1 60 261 .: , 45 26 7 ,40j 40( 52.1 52.1 60`~ ' 60 AVPSA46ACA' 206-230/1 32.3 50 32.3 50 26.0 30 - 32,3 50 52.1 ;.40. ;41.6 32:3. 50 '41;41,6 32,3 : 501 52.1 60 AVPSA6OACA 201-230/1 40.0 60 40,0 60 26.0. 30 40.0 ;60 52.1 .60 45 : '' 60 40.0' 60 '41.,6 45 40.0 . 60. 52:1 •60 AVPSA36ACC 208.230/3 18.2 25:; 36.2' 40 45.3 Sti 54.3 60 18 - 25' 6S 1 s0; AVP5A42ACC 208:230/3 22.7 35':' 407 45 49.8 '°50 22.7. 35,; }36,1 .40 22,7 35. 45.1 Si" AVPSA46ACC .2010230/3 22.7 35 40.7 45 49.6 50 -r 22.7: 35.. 36.1. 40 22.7 AVPSA60ACC 208.230!3 30.0. 40 4t1.0 SO 57.1' 60 - 30:0 40 "36.3' 40"; 30.0 35 40 451•,_50 45.$ SO AVPSA36AC0 - 460/3` 7.6: =.15 • 46.6' 20 21.3 : 25 25.6' ~ 30 3013 • ]S` AVPSA42ACD 460/3 00.6 15 19.6 20 •24.1 23 28.6 30 .,_. .. AVPSA48AC0 460/3 11.0 15 20.0 25-r; 34,5", 25 39:0' 30 33:1 33,5 35. '35 AVP5A6DAC0 MCA a Minimum 469/3 Cimrll Am 15.3 sdry'(Wlrs 20- el... S 28.0 30 . 33.3 ;35 37.1 40 Amps). MFS =Maximum Fusa Oils or HACR eralltbreaker. MCA and MPS calculated at 240V for •A• 6 •C' modals. For 480V undo ('0• modsia), MCA 8 MFS calculated at 460V. AU 460V units noxa a slap down transtormer for•230V motors. Car,Pac AVPA PD, 1/10 10 AVPSA Electrical Characteris i BASIC MODEL COMPF150017 ,. - - - OUTDOOR FAN MOTOR . --: fli0005 FAN Whom VOLTS„ Aug:. LRA MCC . VOLTS RPM FLA: : HP VOLTS RPM ,PLA HP AVP5A35ACA 208/230-604 11.6 ,132.0 , , 264 20036.50.l 825 1.8 i . In 208/23040,* 105. 2.5 1/4 AVPSA42ACA 206/23040,1 16.6. -964 ;,26,11, 208/230-60-1 821 . 2.8 . 1/3 200/230-6071 .1075 3.1 7/2. AVPSA4IACA 200240*:$ -1 ;211.. . 9.c) )34 320220-60.1 825 2.8 1/2 218/230-6071 ;07,..1 „ 3.1: 2/2- Avy5A64ACA 200422240-1: ; 25.6 718.0 40.0 295030-60.1 825 2.8 '1/3 ' 208/2307104 2625 :.52 *47 AVPSA36ACC 201/225-60-31; 11i,1 i 580 i12.4;; -.44/220-60-1 125 1.5 1/3 : 211/2294071 I :19.79 . 2.5 1/4 . AVPSAI2ACC _.... 2084217.103; :11:S _.,e1.13 '1, niii°,5. 21:0 ; :;;205/220-601 iy'..4.4.11, 2./.... 1/3 200/23040.1 1075; 3.1 • 1/2 AVPSA48ACC 208/220:60,.3, ,,13.4 ilWI'• 1111..11 ..:.'31.0 Na ,E08/E304517.1 . ...,125 625 ill 1/3 ' 201030407f.: 2075 3,1 ' ,1/2.. AVPSA6OACC . 208/23040-3.• i'1:6 .45-0 ';7•5 • :20/22,0-6071 325' 2.5 1/3 ,' 20023076171 1075 . 5.2 3/4! AvkA36At3 460-50-3 4.5 55.0 74- 201423040.-2 ..825 1.6 1/3 •,• 208030407; ,"1075 2.5 04' AVPSA42ACD .. . 4604071.: 6.8 44 !:,',1:5':' '.T*211I/230-11071`. 121 3.6 • .1/3 - :201/210760.-1,' :1070 , 3.'v 1/2 '..• Al/PS*454EO . 4614073 , 64 .' '; 41.6 ";100..",,, •• 14.4 1i20i/230760,1 825 ill '1/3, '24/230760,1 3075' - 35' . Avpsokoimco _ 40414 _ CO..' 62.0 '' ..:.34'.0 .:,:.2011/23140-1 e21 48 1/3 .....408/230-604_1071 :,;, ,;Na' ; -- 8 • 5.2 3/4 RU1 - Rated Load Amps . IAA' Locked Rotor Amps : itcc Maximum ContinuousC.WWnt 'FLA 4 Put) Laid Amps RPM 4 Resolutions per Minute '': Hp *ithitia P0i4er All 460V units have i step down transhinner for 230V motors. . _ , . • . AVPSA Unit Load Amps AVPA and AVPSA Ship Weight BASIC Noon , AVPA24 LBS/IC- AVP,A3O .. 8.1$/KG _... PARC MODIL NUMBERMISTS44 VOLTAGE PHA5S CUARINT AVPA72 . . .. ISSLIM LOAD OP RE.5315T1VE RIATiNG ELIMINTS ONLY (R1814). . : - • TOTAL MAJOINUIS NIATENG AMPS (iTANDARN:utarrl -•.! . .,, 521/240 SUM 04 kef 4j kW ' .05 kW 'GO kW Pi osir.' 80kW a) kw` 11 AM .04, kW 011,EN1 Di NW Gle-NW' 01111 :10,147: 120W AVPSA35ACIS 2011-230/1/40 76.9i. ,2.5' 21.7 . 20.1 : . 25.1:2 33.2' SA : '41.7 , 50.1 ' 1e:5 .13.2..' ..'22•3' ' .27:$...., iiiii, :',:nVs .' 44.2 52J .517kW . 81.0 Avrseezece . 206-22c1iiie 22.5 tii '';iiii',', •‘2ofs • 'Vs '' s 'V. No 41.7. !. 50.0- :';62.5 '.7,!Oie,!. '. 723:9i : n/pi:., ,...:S% al.,, ?i, svpi.,--,.4 ,l44l9 7' AVPSA48ALA -208-7730oi0 •:27.6 ;,2,1: iija - .,20.8., 'Na!.. Ma AM ` ' 4:.7.. .10.0 , 62;1. : we, -23.9 :: '1, niii°,5. i'ii,.?iiii;; ..;? 'vu:.: iy'..4.4.11, ,.‘S3.l.. 1118,8 AVPsAsiski 2087230/1/4 :33:1: )5.2' IV. ;20.6- ilWI'• Oa Na 42.7 . 50.0 - 62. .-, Na ,.26:0'' ! i4a,i. ikti'.: . i;iii"i'• !::,iiar '1.,'iii4..1 ;24.2-:: ':49:9::, : ::;!;1311'.'. 7534 ' .Y•47...7' AYPEA.SeWd: 208;220r6/oo :2.4 2:5" '":irsia:'4 r'.ssia ,• 14.4 'vs 21.7 No , 213.9 361 -iiii' '44 't AypsA42mai, 204.231/2/10 ;193 ..24,„ ,..x/F :., ." 'Vs 14.4 NI 21.7 Na .... '28.9 '.' 38.7 ' 'Pisa •• Oa. ' 17.5 YrtWii: ':.2.1.8, , iii.'Vi ••,:rfii '',... i33'.1.:; S;j2.b ,046 AifisA412Acc-: 206-234/3/44 13,3 t 2,3 eli eli •• 14.4 VS n/a 2L7 'V. :F 25.9 .34.2 •,, ';';; 'VS . HVS" ; 3.7.5',. ,'"er/a,',: ;.;,34.11:; 4krs/a,:. -737:-&•• ,1,49;3• ' AVPSACkiket 3011430/8/88 25.6 .S.V, :,;, ,;Na' ; -- 8 • 14.4 • •4/.. ,sElll.a: Na 71.7. Ws . 2e.9. . 36.2 : .. ., is/s' i'i19:6:1:, ''.',..riiii-,4, ;.'.;js-:g.Ji •7T;‚Vs' Z!:,344,..,• Avpstessirij 46415/80,,,, '15:7 ' 7.3 stfa. nib ' 7.2 ' nii 10,11 eli 14.4., .111.0 . :: 'Vi ., ', o/i -...... CS:- i , cir'!... ,.. 'Vs f', '-•••i147.i, f,11;11'.i :•'111.41,:- '"'-'4e.'t-..` -_;4;76141.::i ;-?-iij., 31.0: !TE1-3' v.0:6': Avi5A42-A62: ::. 6610.40.... ;LI; ;2:6 7: nial- :::!n/e5.4 - 7.2 .-. n/i - tty.e._ lye, 'ice : .; ISO 'Vi Na ... 1,:ii.,11:-:.: AVP5k48Al:D : 460/3/150::: , 9.4 i ' 11'. .: : rVa :; ` ..rVi .' ' . 7:2 ... • 'V. 10.8 Na :14.4 _lit/ '' . Os. Na - ,6-8 ....rili!, ,:,,19.5.. i.317..6„ AvOsAioAcD: . 460/3/60 • 33i.0 -4:5i •,'' nia 7 Vi 7.3 • - 7.2 I." Ni. 10.5 • r/i - 14.4: -;19.42 :,.4/1 F - , 9.8 ..,nla': . Na 7.12:4,c , ':;13.4., ;,•.'Vi .150:-.: ;,37.0- f2i0,6 e.8018 OW shown at 240V for A' 6C• Models. Derate heat outPUt by 25% to 208V sante. TOOl.haatIng amps for AU. ACA units with snceiri a1460V for allir models. NaTt'liesiii Phase equipment cantilns slispla-phaqe motor loads. Values shown ire nostrnurn phase loads. Loads are not equally balanced Induct* motor hues. 3 SkW Indtitles on each both phase. lOtal !Proms tooting (el and fp) :Heate,. im and total healing amps AVPA and AVPSA Ship Weight BASIC Noon , AVPA24 LBS/IC- AVP,A3O .. 8.1$/KG AVIA36 LBS/KG . AVIA42 LOS/ KG rf1,VP4:41) •,'• LBS/KG AVPA60 , LBS/KG AVPA72 . . .. ISSLIM COMP** I 274/125 , ; 355/160 _ 355/160 - - 495/225 , -•.! . .,, 521/240 . 535/245 E40/272 comPAC4 21 206/130 ,... 3654170 651170 522/240/250 406 s 635 i 51 565/260 . . 640/290 AVPA and AV SA Filter Size 11 CorriPec AVPA PD, 1/10 BASIC NC7001. • _. AVpA24, AVPA70 . 1 AVPA36 . AVPA42 1 AVPA411 AVPA60 AVPA72 FILTER SUE (IN) . , . 16 x 25 x,2 J 16'30312 22 x 3671/2 x 2 111x24x24 . FUSER. SIZE (MN) 406 s 635 i 51 406 R 762 x 51 559 x 927 x 51 452 a 6111 si 51 * Tiro Niters required. 11 CorriPec AVPA PD, 1/10 r A c l l FRONT VIEW 0 DIMENSIONS AVPA42-60 C. 8, Y, & 2 DAMPERS v • +, R ACCESSHEATE COVER r3/4' _X 1 19mmr2Srm ELECTRICAL K.O.S FRESH AIR SLOTS J ALE INLET 166mx25mm1.0. DRAIN R.H. SIDE VIEW • L r 2.00 51 mni M MOUNTING HOLES CTR. TO CTR. H SUPPLY MR DUCT H RETURN AIR DUCT 3/4" X 1' 19 nun 25 mm ELECTRICAL KO.'S 3/8' SO (i 0 PLC'S) 10 own BACK VIEW ■ 76.00 198 mm 6000 1524 mm ►2.00 1667 mm 6f.00 0 men `6.00 152am] , �.-1.500 RANGE WIDTH 38 mm 4.1- 25 J 117 mm 0 BOTTOM MTG. BRKT. W/MTC. HOLE LOCATIONS AVPA:1. i. ./..... r. GI - I`_ ..1 1 LI r I 11 e . •I_ e 1 / 1/Y i t Y .. 1 ii TL .. -I. I7Y' LI.d{t .TX, lY { . iIK.. 16: ♦t :I! _ . 4.1- 25 J 117 mm 0 BOTTOM MTG. BRKT. W/MTC. HOLE LOCATIONS Application Considerations Advantages: • The return fan enhances total system static capability. • . The return fan discharges in two directions, thereby balancing exhaust and unit return air volumes. Horizontal Discharge Note: Horizontal discharge cannot be applied to units with return fans. The typical rooftop installation has both the supply and return air paths routed through the roof curb and building roof. However, many rooftop installations require horizontal supply and/or return from the rooftop because of a building's unique design or for acoustic considerations. Trane has two ways to accomplish horizontal supply and/or return.The first method is through special field supplied curbs that use the unit's standard discharge and return openings.The supply ...sand return air is routed through the curb to horizontal openings on the sides of the curb.The second method available for horizontal supply and return applies to 20 - 75tons SXHL, SFHL, SLHL, SSHL and 90 - 130 tons SXHK, SLHK and SSHK design units ONLY. With this method the standard discharge and return openings are blocked in the factory as a design special. Access panels are removed as indicated in Figure 4, p. 24.These openings are used for the discharge and return. No special curb is needed. SXHL, SFHL, SLHL, SSHL Units Figure 4 is a simplified sketch of the rooftop showing which panels can be used for horizontal supply and/or return.To supply air horizontally, the panels that normally house the heat accessory controls (Panel A) and the gas heat barometric dampers (Panel B) can be removed and either of the openings used as a unit discharge (see note'•).To return air horizontally, the exhaust fan access door (Panel C) can be removed and used as a return opening. Table 1, Table 2 and Table 3, p. 25 show dimensions for those panels (see note 4.). Horizontal Discharge on SXHL, SFHL, SLHL and SSHL Rooftops (20-75 Ton) The SXHL (extended casing cooling only), SFHL (gas heat), SSHL (steam heat) and SLHL (hot water heat) rooftops can be factory modified as a design special to supply and return air horizontally without the use of a horizontal supply/return curb. To supply air horizontally on SXHL only, the panels that normally house the heat accessory controls (Panel A) and the gas heat barometric dampers (Panel B) can be removed and either of the openings used as a unit discharge.To return air horizontally, the exhaust fan access door (Panel C) can be removed and used as a return opening (see note 41. RT-PRC036-E N 23 Application Considerations Figure 4. Horizontal discharge panel dimensions - SXHL, SFHL, SLHL, SSHL units (20-75Ton) Plan View f w z 1 Panel B Panel C Side View Y Panel A Note: Cannot remove panel A for horizontal discharge on S_HL units. --1 Notes: 1. For horizontal discharge on SFHL, SLHL and SSHL units, only the Panel B can be removed. Panel A cannot be used due to the location of the heating 2. Add an extra 0.20 -inches pressure drop to the supply external static to account for the extra turn the air is making. 3. The openings all have a 1.25 -inch lip around the perimeter to facilitate ductwork attachment. 4. If exhaust/return fans are being used, provisions should be made for access to the exhaust components, since the access door is now being used as a return. 6. Use the dimensions provided and the supply Cfm to calculate the velocity (ft/min) through the openings to be sure they are acceptable coils. Table 1. SXHL, SFHL, SSHL, SLHL - Panel A and B dimensions Total Area (H X W) Model S*HL *20 H (in.) W (In.) (In.2) (ft2) 40.7 25.5 1038 7.2 S*HL *25 40.7 25.5 1038 7.2 S*HL *30 52.7 25.5 1344 9.3 S*HL *40 64.5 34.5 2225 15.5 S*HL *50 76.7 34.5 2646 18.4 S*HL *55 76.7 34.5 2646 18.4 S*HL *60 64.6 34.5 2229 15.5 S*HL *70 64.6 34.5 S*HL *75 64.6 34.5 2229 15.5 * = Universal letter/number. See model number for specifics. 24 RT PRC036-EN r:i0 0 Alters U O! Return l I 0 0 Panel C Side View Y Panel A Note: Cannot remove panel A for horizontal discharge on S_HL units. --1 Notes: 1. For horizontal discharge on SFHL, SLHL and SSHL units, only the Panel B can be removed. Panel A cannot be used due to the location of the heating 2. Add an extra 0.20 -inches pressure drop to the supply external static to account for the extra turn the air is making. 3. The openings all have a 1.25 -inch lip around the perimeter to facilitate ductwork attachment. 4. If exhaust/return fans are being used, provisions should be made for access to the exhaust components, since the access door is now being used as a return. 6. Use the dimensions provided and the supply Cfm to calculate the velocity (ft/min) through the openings to be sure they are acceptable coils. Table 1. SXHL, SFHL, SSHL, SLHL - Panel A and B dimensions Total Area (H X W) Model S*HL *20 H (in.) W (In.) (In.2) (ft2) 40.7 25.5 1038 7.2 S*HL *25 40.7 25.5 1038 7.2 S*HL *30 52.7 25.5 1344 9.3 S*HL *40 64.5 34.5 2225 15.5 S*HL *50 76.7 34.5 2646 18.4 S*HL *55 76.7 34.5 2646 18.4 S*HL *60 64.6 34.5 2229 15.5 S*HL *70 64.6 34.5 S*HL *75 64.6 34.5 2229 15.5 * = Universal letter/number. See model number for specifics. 24 RT PRC036-EN mar Application Considerations Table 2. SXHL, SFHL, SSHL, SLHL - Panel C dimensions Total Area (H X W) Model S*HL *20 H (in.) W (in.) (in.2) (ft2) 40.7 34.5 1404 9.8 S*HL *25 40.7 34.5 1404 9.8 S*HL *30 52.7 34.5 1818 12.6 S*HL *40 64.5 34.5 2225 15.5 S*HL *50 76.7 34.5 2646 18.4 S*HL *55 76.7 34.5 2646 18.4 S*HL *60 64.6 34.5 2229 15.5 S*HL *70 64.6 34.5 2229 15.5 S*HL *75 64.6 34.5 2229 15.5 * = Universal letter/number. See model number for specifics. Table 3. SXHL, SFHL, SSHL, SLHL - X,Y and Z dimensions Model S*HL *20 X (in.) Y (in.) Z (in.) 43.5 44.0 201.5 S*HL *25 43.5 44.0 201.5 S*HL *30 43.5 56.0 201.5 S*HL *40 44.5 67.8 237.0 S*HL *50 44.5 80.0 237.0 S*HL *55 44.5 80.0 237.0 S*HL *60 44.5 68.0 237.5 S*HL *70 44.5 68.0 237.5 S*HL *75 44.5 68.0 237.5 * = Universal letter/number. See model number for specifics. Horizontal Discharge on 90-130 Ton Figure 5, p. 26 is a simplified sketch showing which panels can be used for horizontal supply and/ or return. On 90 to 130 ton units, only one side of the extended casing may be used for horizontal supply because of the location of the unit control panel.There are, however, two panels on SXHK models (Panels A) on the side opposite the control box which can be removed along with the vertical supportwhich separates the two. Removal of the vertical support is optional, but will ensure maximum airflow. On SLHK, SSHK models only one of the Panel A's may be used for horizontal supply because of the location of theheating. coil. Horizontal return is accomplished in much the same way as on S*HLs by removing the exhaust fan access door (Panel B)._See Table 4 and Table 5 for S*HK panel dimensions (see note 4.). When using an IntelliPakrM Rooftop for horizontal supply and return, an additional pressure drop must be added to the supply external static to account for the 90 degree turn.the air-is..making.This additional pressure drop depends on airflow and rooftop size, but a range of 0.10 inches to 0.30 inches can be expected.The openings on the rooftop all have a one inch lip around the perimeter to facilitate ductwork attachment. If exhaust/return fans are being used on an IntelliPakTM Rooftop unit with horizontal return, provisions should be made for access to the exhaust components, since the access door opening is now being used as a return. Perhaps the return ductwork attachment to the rooftop can include a section of removable duct. Use the dimensions provided and the supply and exhaust CFM to calculate the velocity (ft./min) through the openings. RT-PRC036-EN 25 This document was created with Win2PDF available at http://www.daneprairie.com. The unregistered version of Win2PDF is for evaluation or non-commercial use only. IIPERMIT COORD COPY 0 k PLAN REVIEW/ROUTING SLIP ACTIVITY NUMBER: M13-193 DATE: 10/17/13 PROJECT NAME: AT&T SITE ADDRESS: 15700 NELSON PL X Original Plan Submittal Response to Incomplete Letter # Response to Correction Letter # Revision # after Permit Issued DEPARTMENTS: C tin—S'--13 Building Division Public Works fr MY/" (Di3HI Fire Prevention Structural Planning Division Permit Coordinator DETERMINATION OF COMPLETENESS: (Tues., Thurs.) Complete Incomplete DUE DATE: 10/22/13 Not Applicable Comments: Permit Center Use Only INCOMPLETE LETTER MAILED: LETTER OF COMPLETENESS MAILED: Departments determined incomplete: Bldg 0 Fire 0 Ping 0 PW 0 Staff Initials: TUES/THURS ROUTING: Please Route REVIEWER'S INITIALS: DATE: Structural Review Required ❑ No further Review Required ❑ APPROVALS OR CORRECTIONS: DUE DATE: 11/19/13 Approved ❑ Approved with Conditions 17f Not Approved (attach comments) n Notation: REVIEWER'S INITIALS: DATE: Permit Center Use Only CORRECTION LETTER MAILED: Departments issued corrections: Bldg 0 Fire 0 Ping 0 PW 0 Staff Initials: Contractors or Tradespeople Pnter Friendly Page • Electrical Contractor A business licensed by Lfil to contract electrical work within the scope of its specialty. Electrical Contractors must maintain a surety bond or assignment of savings account. They also must have a designated Electrical Administrator or Master Electrician who is a member of the firm or a full-time supervisory employee. Business and Licensing Information Name Phone Address Suite/Apt. City State Zip County Business Type Parent Company MACDONALD MILLER FAC SOL INC 2067639400 Po Box 47983 Seattle WA 98106 King Corporation UBI No. Status License No. License Type Effective Date Expiration Date Suspend Date Specialty 1 Specialty 2 602254260 Active MACDOMF972BF Electrical Contractor 1/6/2003 1/6/2015 General Unused Other Associated Licenses License Name Type Specialty 1 Specialty 2 Effective Date Expiration Date Status ENCOMMS981JP ENCOMPASS MECHANICAL SERVICES Electrical Contractor Hvac/Rfrg Unused 4/17/2002 4/17/2004 Archived ENCOMMS984JP ENCOMPASS MECHANICAL SERVICES Electrical Contractor Maintenance Hvac/Rfrg 4/17/2002 4/17/2004 Archived MACDOMS982BMM MILLER SERVICERVICE INC Electrical Contractor Maintenance Unused 1 /14/2002 1 /14/2004 Archived MACDOMS011RS MACDONALD MILLER SERVICE INC Electrical Contractor Hvac/Rfrg Unused 12/10/1999 12/10/2003 Archived MACDOMC329B5 MACDONALD MILLER CO INC Electrical Contractor General Unused 1/25/1968 1/31/2003 Archived Electrical Administrator INFORMATION License ADAMSEJ91662 Name ADAMS, EDWARD J Status Active Business Owner Information Name Role Effective Date Expiration Date CT CORP SYSTEM Agent 02/11/2013 SIMONDS, DERRICK President 02/11/2013 NICHOLES, STEVE Secretary 02/11/2013 TURLEY, DOUGLAS Treasurer 02/11/2013 WEBSTER, MARK Vice President - 02/11/2013 HACK, RICHARD R Agent 01/06/2003 02/11/2013 SIGMUND, FRED J President 01/06/2003 02/11/2013 KOPET, TYLER C Secretary 01/06/2003 02/11/2013 KOPET, TYLER C Treasurer 01/06/2003 02/11/2013 LOVELY, STEVE C Vice President 01/06/2003 02/11/2013 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 1 LIBERTY MUTUAL INS CO 023006952 12/11/2002 Until Cancelled $4,000.00 01/08/2003 https://fortress.wa.gov/lni/bbip/Print.aspx 10/30/2013 J:\733\6458 ATT Southcenter — B0\00\2 — Engineering\DWG\Shts\7336458TM0_01.dwg TITLE PROJECT ENGINEER ACCOUNT MANAGER SHEET METAL FOREMAN SHEET METAL FOREMAN SSP ELECTRICAL FOREMAN CONTROLS FOREMAN FACILITIES DIRECTOR NAME JESSE MONTEZ BRAD OLAND CHRIS HOLLINGSWORTH TIM FELTON CLAYTON PARKER LINDSEY ANDREWS PAUL ARMSTRONG COMPANY MACDONALD MILLER MACDONALD MILLER MACDONALD MILLER MACDONALD MILLER MACDONALD MILLER MACDONALD MILLER PHONE NUMBER 206-768-4178 206-768-3910 206-407-2620 206-407-2692 206-768-4234 206-768-4208 503-327-6847 EMAIL J ESSE.MONTEZ@MACM I LLER.COM B RAD.O LAN D@MACM I LLE R.COM CHRIS.HOLLINGSWORTH@MACMILLER.COM TIM.FELTON@MACMILLER.COM CLAYTON.PARKE R@MACM ILLER.COM LINDSEY.ANDREWS@MACMILLER.COM NAME TITLE NAME TITLE TM0.01 TM0.01 S TM2.01 TM3.01 SCHEDULES - HVAC SITE MAP FLOOR PLAN - HVAC ELEVATIONS ELECTRICAL VOLT/PH MCA 208-230/1 40.8 AC -2 AVPA6OACAO5OCUMU100 NOTES: 1. WITH R410A REFRIGERANT. 2. WITH ECONOMIZER. 3. UNIT TESTED IN ACCORDANCE WITH AHRI 390 AND IS IN COMPLIANCE WITH 2012 WSEC TABLE 403.2.3(3) SPVAC (COOLING MODE). 4. WITH 24/7 PROGRAMMABLE THERMOTSTAT AND LEAD/LAG CONTROLLER (COMSTAT 3 ENERGYSMART). 5. INSTALL PER STRUCTURAL CALCULATIONS. 6. WITH ECM FAN MOTOR. 7. REUSE EXISTING GRILLES. SEPARATE PERMIT REQUIRED FOR: ❑ Mechanical Electdcai mbing bas Piping City of Tukwila BUILDING DIVISION �I- No changes she' of work with( Tukwila E `'' Revisions Will :1 may include a VISIONS made to th® mops i Prior approval of Tiding Division. a new plan submittal "Nona! plan review fees. 1. THESE PLANS ARE SCHEMATIC AND DO NOT SHOW EXACT ROUTING OR EVERY OFFSET WHICH MAY BE REQUIRED. THE HVAC CONTRACTOR IS TO COORDINATE WITH ALL OTHER TRADES AND IS TO VERIFY ALL CLEARANCES BEFORE COMMENCING WORK. 2. MATERIALS, METHODS, AND INSTALLATION SHALL COMPLY WITH THE PROVISIONS OF THE 2012 EDITIONS OF THE INTERNATIONAL MECHANICAL CODE, INTERNATIONAL BUILDING CODE, INTERNATIONAL FIRE CODE AND STATE AND LOCAL CODES AND ORDINANCES. 3. DUCT CONSTRUCTION AND HANGING SHALL COMPLY WITH CHAPTER 6 OF THE 2012 IMC AND WITH CURRENT SMACNA STANDARDS. EARTHQUAKE BRACE ALL DUCTS 28" DIA AND LARGER WHICH ARE SUSPENDED MORE THAN 12" BELOW STRUCTURAL SYSTEM. 4. JOINTS OF MEDIUM AND HIGH VELOCITY DUCT SYSTEMS SHALL BE SEALED WITH GASKETS OR LISTED MASTIC TYPE DUCT SEALANT. 5. DUCTS SHALL BE INSULATED AS INDICATED ON PLANS, PER 2012 WASHINGTON STATE ENERGY CODE, COMMERCIAL PROVISIONS - DUCT WRAP, WHERE INDICATED, SHALL BE 1 1/2" 0.75 LB/CU FT FIBERGLASS DUCT INSULATION WITH A FACTORY APPLIED REINFORCED ALUM. FOIL VAPOR BARRIER (R-6 MIN.). - SOUND LINING, WHERE INDICATED, SHALL BE 1" 1.5 LB/CU FT FIBERGLASS DUCT LINING COATED TO PREVENT FIBER EROSION AT VELOCITIES UP TO 6000 FPM (R-6 MIN.). DUCT BOARD, WHERE INDICATED, SHALL BE 1" RIGID FRK FACED El 475 FIBERGLASS DUCT BOARD SYSTEM, UL 181 LISTED AS A CLASS 1 AIR DUCT (R6 MIN.). AIR DUCT (R6 MIN) SUPPLY DUCT WHICH CONVEY SUPPLY AIR AT TEMPERATURES LESS THAN 55 DEG F OR GREATER THAN 105 DEG F SHALL BE INSULATED WITH A MINIMUM OF R-3.3, WHEN LOCATED IN CONDITIONED SPACE. 6. FLEX DUCTS SHALL CONSIST OF A REINFORCED VAPOR BARRIER, 1 1/2" FIBERGLASS INSULATION, AND NON -PERFORATED INTERIOR LINER WITH WIRE HELIX. DUCT SHALL BE A UL 181 LISTED CLASS 1 AIR DUCT. FLEX DUCTS SHALL ONLY BE USED WHERE SHOWN AND SHALL NOT EXCEED 12' IN LENGTH UNLESS NOTED OTHERWISE. 7. PROVIDE EARTHQUAKE RESTRAINT FOR HVAC EQUIPMENT IN ACCORDANCE WITH SECTION 1613 OF THE 2012 IBC. 8. PROVIDE FIRE DAMPERS, SMOKE DAMPERS AND FIRE/SMOKE DAMPERS WHERE INDICATED ON PLANS AND AS REQUIRED BY SECTION 717.5 OF THE 2012 IBC. PROVIDE CEILING FIRE DAMPERS WHERE INDICATED ON PLANS AND AS REQUIRED BY SECTION 717.6.2.1 OF THE 2012 IBC. INSTALL FIRE DAMPERS SMOKE DAMPERS AND FIRE/SMOKE DAMPERS IN ACCORDANCE WITH THE MANUFACTURERS INSTRUCTIONS, THE TERMS OF THEIR LISTING, AND THE REQUIREMENTS OF THE CODE. 9. PIPING PENETRATIONS OF FIRE RATED WALLS OR FLOORS SHALL BE SLEEVED AND FIRE STOPPED WITH LISTED MATERIALS SO AS TO MAINTAIN THE INTEGRITY AND RATING OF THE FLOOR OR WALL. 10. PROVIDE RETURN DUCT SMOKE DETECTOR AUTOMATIC SHUT DOWN OF ALL NEW HEATING, COOLING, OR VENTILATION EQUIPMENT MOVING IN EXCESS OF 2000 CFM IN ACCORDANCE WITH SECTION 606 OF THE 2012 IMC. POWER AND INTERLOCK WIRING WITH THE BUILDING FIRE ALARM SYSTEM IS BY THE ELECTRICAL CONTRACTOR. 11. HVAC EQUIPMENT, VALVES AND DAMPERS SHALL BE LOCATED IN EASILY ACCESSIBLE LOCATIONS. UNLESS SHOWN ON ARCHITECTURAL DRAWINGS, REQUIRED ACCESS PANELS SHALL BE PROVIDED AND INSTALLED BY THE GENERAL CONTRACTOR. MINIMUM ACCESS DOOR SIZE FOR VALVES AND DAMPERS TO BE 18" X 18", 12. HEAT TRACING OF PIPING, WHERE INDICATED, SHALL BE PROVIDED AND INSTALLED BY THE HVAC CONTRACTOR. THE HVAC CONTRACTOR IS TO COORDINATE THE HEAT TRACE POWER WIRING WITH ELECTRICAL CONTRACTOR. 13. MOTORS STARTERS NOT LISTED AS BEING PROVIDED IN THE HVAC EQUIPMENT SCHEDULES ARE TO BE PROVIDED AND INSTALLED BY ELECTRICAL CONTRACTOR. 14. WITHIN 90 DAYS AFTER THE DATE OF SYSTEM ACCEPTANCE, RECORD DRAWINGS OF THE ACTUAL INSTALLATION TO BE PROVIDED TO THE BUILDING OWNER. RECORD DRAWINGS SHALL INCLUDE AS A MINIMUM THE LOCATION AND PERFORMANCE DATA ON EACH PIECE OF EQUIPMENT, GENERAL CONFIGURATION OF DUCT AND PIPE DISTRIBUTION SYSTEM, INCLUDING SIZES, AND THE TERMINAL AIR AND WATER DESIGN FLOW RATES. 15. OPERATING AND MAINTENANCE MANUALS TO BE PROVIDED TO THE BUILDING OWNER THAT INCLUDE: SUBMITTAL DATA, NAMES AND ADDRESSES OF AT LEAST ONE SERVICE AGENCY, HVAC CONTROLS SYSTEM MAINTENANCE AND CALIBRATION INFORMATION AND A COMPLETE OPERATIONAL NARRATIVE FOR EACH SYSTEM. 16. COMMISSIONING IS REQUIRED ON THIS PROJECT IN ACCORD WITH WASHINGTON STATE ENERGY CODE (WSEC), COMMERCIAL PROVISIONS, SECTION C408 AND WITH LEED NC -2.1 FUNDAMENTAL BUILDING SYSTEMS COMMISSIONING AND ADDITIONAL COMMISSIONING. 17. A COMPLETE REPORT OF TEST PROCEDURES AND RESULTS SHALL BE PREPARED AND FILED WITH THE OWNER 18. FOR ALL "SEALED AIR TIGHT" SHAFTS OR ROOMS, THE FOLLOWING MUST OCCUR: - ALL VERTICAL JOINTS INSIDE THE SHAFT SHOULD BE PROVIDED WITH A CONTINUOUS SEAL FOR THE LENGTH OF THE JOINT, INCLUDING THE SHAFT CORNERS (BY GC). - TOP AND BOTTOM WALL TRACKS SHOULD BE CAULKED ALONG THEIR ENTIRE LENGTH (BY GC). - ANY FLOOR DECKING PERPENDICULAR TO THE SHAFT SHOULD BE CAULKED. FILLING WITH ROCK WOOL OR FIRESAFING ("MONOCOAT") IS NOT ACCEPTABLE (BY GC). - ANY PENETRATIONS OF THE SHAFT CONSTRUCTION (DUCTWORK, CONDUIT, PIPING) SHOULD BE SEALED WITH FIRE CAULKING ON BOTH SIDES OF THE PENETRATION. - USE SECTION 909.5 OF THE 2012 IBC FOR MAXIMUM ALLOWABLE LEAKAGE AREA, FOLLOWING THE GUIDELINES FOR SMOKE BARRIER CONSTRUCTION. - ALL DOORS MUST BE PROVIEDED WITH TIGHT FITTING GASKETS, AND OPEN AGAINST THE DIRECTION OF ROOM/SHAFT PRESSURE. 19. DAMPERS USED FOR OUTDOOR AIR INTAKE, EXHAUST, OR RELIEF SHALL HAVE THE FOLLOWING MAXIMUM LEAKAGE RATES AT 1" W.G. (PER AMCA STANDARD 500D): MOTORIZED DAMPERS: 4 CFM/S.F. GRAVITY DAMPERS: 20CFM/S.F. (40 CFM/S.F. FOR DAMPERS SMALLER THAN 24" IN EITHER DIMENSION). 20. OUTSIDE AIR INTAKE, EXHAUST, AND RELIEF DAMPERS SERVING CONDITIONED SPACES MUST BE MOTORIZED (FAIL CLOSED) PER WSEC, COMMERCIAL PROVISIONS, SECTION C402.4.5.2 AND C403.2.4.4. EXCEPT AS ALLOWED BY WSEC. 21. RETURN AIR SHAFTS TO BE CONSTRUCTED BY THE G.C. TO WITHSTAND A MINIMUM 20 PSF DIFFERENTIAL PRESSURE ACROSS THE WALL. DIFFERENTIAL PRESSURE IS BASED UPON THE MAXIMUM STATIC PRESSURE CAPABILITY OF FAN SYSTEMS SUBJECT TO AUTOMATIC DAMPER CLOSURE. 22. PRESSURIZATION SHAFTS SHALL BE CONSTRUCTED BY THE G.C. AS FOLLOWS: - SHAFTS SERVED BY PRESSURIZATION FANS RATED UP TO 1" STATIC PRESSURE TO BE CONSTRUCTED TO WITHSTAND 10 PSF DIFFERENTIAL PRESSURE. - SHAFTS SERVED BY PRESSURIZATION FANS RATED BETWEEN 1-2.5" STATIC PRESSURE TO BE CONSTRUCTED TO WITHSTAND 20 PSF DIFFERENTIAL PRESSURE. - FOR SHAFTS SERVED BY PRESSURIZATION FANS RATED ABOVE 2.5" STATIC PRESSURE, CONTACT MECHANICAL ENGINEER. APN# 0005800027 ADDRESS: AT&T SOUTH CENTER 15700 NELSON ROAD SOUTH TUKWILA, WA 98188 SITE NUMBER: SSO5 LOCATION ID: LC00015454 F/A NUMBER: 10097911 LONGITUDE: -122.24275 LATTITUDE: 47.46113 FILE COPY Pim review approval Is , to toroval of construction documents does not authorize tli voiation of any adopted code or ordinance. Receipt ni approved Field Copy and i11 ' t Is Wedged: By • f:7 • l D[501 1-2, • LEGAL DESCRIPTION: MEADER HENRY D -C NO 46 LOT 2 OF CITY OF TUKWILA SHORT PLAT NO 91 -10 -SS RECORDING NO 9711101678 SAID SHORT PLAT BEG SW CORNER OF SECTION 24TH S 87-48-34 E 1110.88 FT TO MONUMENTED C/L OF STATE ROAD 2-M WEST VALLEY ROAD TH N 07-42-44 W 587.30 FT PUGET SOUND POWER & LIGHT CO R/W TH N 01-21-41 W 18.08 FT TO POB TH N 87-15-22 E ALG NLY MGN OF S 158TH ST 127.95 FT TO WLY MGN OF CHICAGO 87-15-22 W 152.17 FT TO PUGET SOUND POWER & LIGHT CO R/W TH SLY ALG ELY MGN OF SAID RAN 272 FT MORE OR LESS TO POB City Of Tukwila 6 IN SECTION 24-23-04 DAF - 519.25 FT TO ELY MARGIN OF - MILWAUKEE & ST PAUL RR R/W TH N 03-34-46 E 273.59 FT TH S REMOVE EXISTING VERTICAL WALL MOUNTED AC UNITS (2) AND DISPOSE PROPERLY. ADD TWO (2) NEW 5 TON VERTICAL WALL MOUNTED AC UNIT. PROVIDE TEMPORARY AIR CONDITIONING DURING SYSTEM REPLACEMENT. DISCONNECT/RECONNECT ELECTRICAL POWER. FURNISH AND INSTALL LEAD/LAG ENERGYSMART (COMSTAT 3) CONTROLLER. REUSE EXISTING SUPPLY AND RETURN GRILLES. PROVIDE AND INSTALL CORRECT FUSES. REVIEWED FOR CODE COMPLIANCE APPROVED OCT 2 5 2013 144 City of Tukwila ENERGY EFFICIENCY OF AC -1 AND AC -2 MEETS THE EER REQUIREMENTS DESCRIBED IN TABLE C403.2,3(3) FOR SPVAC (COOLING MODE), <65,000 BTUH. AC -1 AND AC -2 MEET THE ECONOMIZER REQUIREMENTS OF SECTION C403.3.1. ..` RECEIVED CITY OF TUKWILA OCT 182013 PERMIT CENTER a) • 0 0 0 CO 0 ..mJ 0 .macmiller.com I I I ct w F- z w 8 0 F- D D 0 El a. I 1<- WA Lic No: MACDOFS980RU EXPIRES: 07-06-14 'ar " .ara) Lzt'4_ oummilimm ENGINEER: J MONTEZ CHECKED BY: B GEZON CAD: R VI LLAN U EVA REVISIONS: 0 CL LAST REVISED: 10-17-13 DATE PLOTTED: 10-17-13 ISSUE DATE: 10-17-13 DRAWING NUMBER: 0-2044-7336458-00 SHEET NUMBER: TM0.01 0 of a M rn C c LIE 0 0 cc r N l0 r0 M Friday, October 18, 2013 8:06:20 AM REVIEWED FOR CODE COMPLIANCE APPROVED OCT 2 5 2013 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA OCT 182013 PERMIT CENTER ici5 0 F. .6 3 To p� oti rn▪ � a)0 � N LL 0 a) 0 c QC) QN r� •c ti▪ 0� .macmiller.com I I I I I I I I I I I I I I I I WA Lic No: MACDOFS980RU EXPIRES: 07-06-14 w Q 0 REVISIONS: I I I I I I 1:21 • 0 0 REVISIONS: L.L W F - Z W I I 0 U ZF- w O -62 °`7) (1) I— I— o w aC <C T va ENGINEER: LAST REVISED: J MONTEZ 10-17-13 CHECKED BY: DATE PLOTTED: B GEZON 10-17-13 CAD: ISSUE DATE: R VILLANUEVA 10-17-13 DRAWING NUMBER: C-2044-7336458-00 SHEET NUMBER: TM0.01 S Friday, October 18, 2013 8:07:40 AM w m EXIST EQUIP EXIST EQUIP EXIST EQUIP ELECTRICAL PANEL CONC NALL REVIEWED FOR CODE COMPLIANCE APPROVED OCT 2 5 2013 City of Tukwila BUILDING DIVISION . RECEIVED' CITY OF TUKWILA OCT 182013 PETMIIT CENTER z 1/4" = 1'-0" II— vJ z 1• " Ts 2 O 0 0 0 LL O 1N O 18 ti a)0 N g O CD 7 CD Q O (O i- O N N O 0. 1 1 1 1 1 w F -- z w EXPIRES: 07-06-14 REVISIONS: I I I I I I I ,,, I Q n o 0 z 0 LL, - I I I I I I\ Z ENGINEER: LAST REVISED: J MONTEZ 10-17-13 CHECKED BY: DATE PLOTTED: B GEZON 10-17-13 CAD: ISSUE DATE: R VILLANUEVA 10-17-13 DRAWING NUMBER: 0-2044-7336458-00 SHEET NUMBER: TM2.01 ROOF / - ROOF / AC -2 GROUND AC -1 GRADE AC -21 ACCESS DOOR FLOOR % - GRAD GROUND WEST ELEVATION \M3.0� 1/4" = 1'-0" REVIEWED FOR :ODE COMPLIANCE APPROVED OCT 2 5 2013 City of Tukwila BUILDING DIVISION RECEIVED CITY OF TUKWILA OCT 18 2013 PERMIT CENTER ge6 ci) ■5 L__ _.6 3 as 0 O a U to as LI F- Cn N. CO C �r Q N LL h5 co Qj O N E (n W asU cf) LL iU CD0�¢ ME� QM Z 00 N N O ti d I I I I I I I I I I I I I I I I EXPIRES: 07-06-14 W Q REVISIONS: 1111111 -I w Q 0 r 7 0 r U) L. 6i z w o w a I I I I I I< • U 00 07, U) oa m cn � �- I—F-zQ 2 O O Z F— o w < 1 2111 0_ ENGINEER: LAST REVISED: J MONTEZ 10-17-13 CHECKED BY: DATE PLOTTED: B GEZON 10-17-13 CAD: ISSUE DATE: R VILLANUEVA 10-17-13 DRAWING NUMBER: 0-2044-7336458-00 SHEET NUMBER: TM3.OIA