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Plans (22) PITCH: 30 ARRAY PITCH:30 MP1 AZIMUTH: 180 ARRAY AZIMUTH: 180 MATERIAL:Comp Shingle STORY: 2 Stories 8952 SW Ashford St Front Of House (E) DRIVEWAY \,........, \ // LEGEND 0 (E) UTILITY METER & WARNING LABEL ® INVERTER W/ INTEGRATED DC DISCO I I . © Sc WARNING LABELS Ii i I ._.1 DC V-i DC DISCONNECT & WARNING LABELS • AC0 AC AC DISCONNECT & WARNING LABELS 12" FSB -mp-ii — — HH •l: \ 0 ' Q DC JUNCTION/COMBINER BOX & LABELS o 0 0 0 0 © o 0 0 0 0 0 0• 0 0 0 \ DISTRIBUTION PANEL & LABELS 12" FSB - o 0 0 0 0 ® o b o LG LOAD CENTER Sc WARNING LABELS o 0 0 0 0 0 0 0 o O DEDICATED PV SYSTEM METER • Un-Locked Gted 0 STANDOFF LOCATIONS 0 Un-Locked fated = -• _ _ _ - _ _ - CONDUIT RUN ON EXTERIOR --- CONDUIT RUN ON INTERIOR GATE/FENCE 0 HEAT PRODUCING VENTS ARE RED r,.7.-1 � _;J INTERIOR EQUIPMENT IS DASHED SITE PLAN N TOTAL ARRAY AREA (SF): 414 TOTAL ROOF AREA (SF): 1936 Scale: 1/8" = 1' w m E TOTAL ARRAY AREA IS a 21.36 0 1' 8' 16' PERCENT OF TOTAL ROOF AREA ■■m� s PREMISE OWNER: DESCRIPTION: DESIGN: CONFIDENTIAL- THE INFORMATION USED HERON pe NUMBER: JB-9722244 00 SALEHI, BOBAK SALEHI RESIDENCE Jim McLean \‘� CONTAINED SHALL NOT BE FOR THE ��.�} itY. BENEFIT OF ANYONE EXCEPT SOLARCITY INC., MOUNTING SYSTEM: ��NOR SHALL IT BE DISCLOSED IN WHOLE OR IN Comp Mount Type C with Lifter 8952 SW ASHFORD ST 5.865 KW PV ARRAY PIO olar PART TO OTHERS OUTSIDE THE RECIPIENT'S MODULES: TIGARD, OR 97224 ORGANIZATION, EXCEPT IN CONNECTION WITH NE SALE AND USE OF THE RESPECTIVE (23) TRINA SOLAR # TSM-255PA05.18 3055 aearvlew Way SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN INVERTER: PAGE NAME SHEET: REw DATE T:(650)638-1028anto, CA 9440238-1029 PERMISSION OF soLARaTY INC. ABB # PVI-5000-OUTD-US-Z-A (503) 557-0446 SITE PLAN PV 2 10/23/2014 (868)-sal-aTY(765-2489)www.soIarcity.cam PV MODULE 5/16" BOLT WITH LOCK INSTALLATION ORDER & FENDER WASHERS (6) ZEP LEVELING FOOT LOCATE RAFTER, MARK HOLE ZEP ARRAY SKIRT (1) LOCATION, AND DRILL PILOT _At�_wMr 1* Tier SIM HOLE. iffno:' (4) ....E7� (2) SEAL PILOT HOLE WITH (E) 2x4 ZEP COMP MOUNT C POLYURETHANE SEALANT. II \ ZEP FLASHING C (3) (\) INSERT FLASHING. (E) COMP. SHINGLE �'; :� (4) PLACE MOUNT. ® \ (E) ROOF DECKING INSTALL LAG BOLT WITH ,,,,, , / (5) PRE—MANUFACTURED TRUSS 5/16 DIA STAINLESS (5) SEALING WASHER. / STRUCTURE MEETS THE STEEL LAG BOLT LOWEST MODULE SUBSEQUENT MODULES ( INSTALL LEVELING FOOT WITH WITH SEALING WASHER (6) BOLT & WASHERS. J PRESCRIPTIVE REQUIREMENTS (2_1/2" EMBED, MIN OF THE OSISC SECTION 305.4 ) 4'-8" / 4'-5"— / 5'-9" / (E) RAFTER STANDOFF40, 1'—,'t (E) LBW Scale: 1 1/2" = 1' A SIDE VIEW OF MP1 NTS MP1 X-SPACING X-CANTILEVER Y-SPACING Y-CANTILEVER NOTES LANDSCAPE 48" 20" STAGGERED PORTRAIT 24" 12" TOP CHORD 2x4 @ 24" OC AAZI 180 PITCH 30 ARBRRAYY AZI 180 PITCH 30 STORIES: 2 BOT CHORD 2x4 @24" OC Comp Shingle CONFIDENTIAL- THE INFORMATION HEREIN JOB NUMBER: J B-9722244 00 PREMISE OWNER: DESCRIPTION: DESIGN: CONTAINED O SHALL NOT BE USED FOR THE SALEHI, BOBAK SALEHI RESIDENCE Jim McLean \`!'BENEFITD ANYONEEXCEPTSD FORTTINC., MOUNTINGSYSB]I:NOR SHALL IT BE DISCLOSED IN WHOLE OR IN Comp Mount Type C with Lifter 8952 SW ASHFORD ST 5.865 KW PV ARRAY i;tSoIarCity PART TO OTHERS OUTSIDE THE RECIPIENT'S MODULESTI G A R D OR 97224 ORGANIZATION, EXCEPT IN CONNECTION WITH THE SALE AND USE OF THE RESPECTIVE (23) TRINA SOLAR # TSM-255PA05.18 3055 aear iew way SOLARCITY EQUIPMENT, VATHOUT THE WRITTEN INVITER: PAGE NAME SHEEE REV: DATE: San Mateo,CA 94402 PERMISSION OF SOLARaTY INC. ABB # PVI-5000—OUTD—US—Z—A (503) 557-0446 STRUCTURAL VIEWS PV 3 10/23/2014 (888)`Sol aTTYY(765-2489)wwww.salartccitycom 2" MAX 2" MIN CLEAR SPAN UPLIFT CALCULATIONS DIAMETERTO UNDERSIDE VENT SPANNING DETAIL OF MODULE pati 10.23.2014 00 NTS / i ; '� SoIarCitv SleekMount'M PV system Version#39.5 1 Structural Design Software _ ,- — r . — s 6" MIN. VENT Project Ikon&Table Of Contents HEIGHT FROM TOP SOLAR PANEL - > / Pk Category: II e Solaraity SleekMcwrtt'" / OF ROOFING MATERIAL Comp Roof Comp Roof SOLAR MODULE 2 e0--- Rt Slope camp Roatit 3a° MOUNTING HARDWARE %/ RafterSPaCin9 24"0-G SEE STANDOFF DETAIL) PV System Module Orientation Landscape and Portrait ( PV Module Area 405 sf �' / PV Module Width 39" / PV Module Length 65" ROOFING MATERIAL / Standoff(Attachment Hardware) Comp Mount Type C with Lifter / Reduced(imued/Roof Live/; +r Loads PLYWOOD Ground Snow Load pg 25.0 psf 'ASCE Table 7-1 VENT PIPE Surrounding Roof Snow 100% 25.0 psi 'AS Eq:7-4-1 (E) RAFTER Roof Snow Over PV Modules 100% 25.0 psi 'ASCE Eq:7.4-1 Wind Design Create Wind Design Code ASCE 7-05 I Wind Design Method Partially/Fuly'Endosed Method SPANNING PHOTOVOLTAIC MODULES OVER VENTS Basic Wind Speed V 95 mph Rg.6-1. Exposure Category C Section 6:55.6:3 Roof Style Gable/Hip Roof 'Fig.6-11B/C/D-14A/8 MINIMUM VENT HEIGHT IS 6" ABOVE THE SURFACE OF THE ROOF PER 2007 CPC SECTION 906.1. Mean Roof Height h 25 ft Section 6.2 Effective Wind Area(1 Module) A 17.6 sf IBC 1509.7.1 2013 CPC 310.5 STATES 'NO FITTING, FIXTURE, AND PIPING CONNECTION, APPLIANCE, DEVICE, OR METHOD OF INSTALLATION THAT OBSTRUCTS Wind Cam Coefficients' OR RETARDS THE FLOW OF WATER, WASTES, SEWAGE, OR AIR IN THE DRAINAGE OR VENTING SYSTEMS IN AN AMOUNT EXCEEDING THE NORMAL Wind Pressure Exposure Kz 0.95 Table 6-3 FRICTIONAL RESISTANCE TO FLOW, SHALL BE USED UNLESS IT IS INDICATED AS ACCEPTABLE IN THIS CODE OR IS APPROVED IN ACCORDANCE Topographk Fes'- KA LOU Section 6.5.7 WITH SECTION 301.1 OF THIS CODE." FROM THIS SECTION, IT IS CLEAR THAT MOUNTING SOLAR MODULES OVER A VENT IN A MANNER THAT Wind LanceDirectFedoronality Factor Kd 0.85 Table 6-4 WILL NOT HAVE A GREATER FRICTIONAL RESISTANCE TO AIR FLOW WOULD BE ACCEPTABLE. Importance Factor I .0 =< ' Tile fr i Velocity Pressure (lb Equation=0.00256(1(z)(Kzt)(Kd)(V^2)(I) Equation 6-15 18.6 psi EQUATIONS: Ext.Pressure Coefficient(Up) GCp(Up) -0.95 Fig.6-11B/qD-14AJB THE FRICTIONAL RESISTANCE TO FLOW IS DIRECTLY PROPORTIONAL TO THE AREA THAT THE AIR CAN FLOW THROUGH. IN THE VENT, THAT IS Ex Pressure Caeedent(Down) GQ)(Dor) i)..: Fig.a-1is W-14A/e THE CROSS—SECTIONAL AREA OF THE VENT PIPE: Design Wind Pressure p p=qh( ) Equation 6-22 Avent = Ir*R 2 Wind Preauwe Up p(rp) -17.7 ptif Wind Pressure Down p(down) 16.3 psi WHEN THE AIR EXITS THE VENT, THE AREA IT HAS TO FLOW THROUGH IS THE CIRCUMFERENCE OF THE VENT TIMES THE VERTICAL DISTANCE Ailoveable Sendoff*woos BETWEEM THE VENT AND THE MODULE ABOVE (IN THIS CASE, WE ARE LEAVING THE DIAMETER BETWEEN THE TOP OF THE VENT AND THE BOTTOM OF THE PANEL). THIS METHODOLOGY ASSUMES THE WORST CASE SCENARIO OF MOUNTING THE MODULES HORIZONTALLY OVER THE Max Allowable Standoff Spacing Landscape 48" 39" VENT. IN ACTUALITY, THE MODULES WILL BE TILTED WHICH WILL OFFER MORE AREA FOR AIR TO FLOW THROUGH. Max Allonable;C:altilever landscape NA Standoff Configuration Landscape Staggered Agap = C*CLEARANCE = (ir*D)*D = (ir*2*R)*(2*R) = 4*7r*R2 4*1r*R2 > 71"*R2 Max SmndoffTrNwteryArea Trib 13sf PV Assembly Dead Load W-PV 3 psf FROM THE EQUATIONS ABOVE, IT IS EVIDENT THAT MOUNTING THE MODULES IN THIS MANNER ALLOWS FOUR TIMES THE AMOUNT OF AIR FLOW Net Wind Uplift atStandoff Tactual 209 lIbs ABOVE THE VENT THAN IN THE VENT ITSELF. uplift Capacity of Standoff Tallow 500% Standoff L7emanrVi�adh+ MR 41.x, Max Allowable Standoff Spacing Portrait 24" 65" " VENT HEIGHT WILL BE A MINIMUM OF 6 INCHES ABOVE THE ROOF, OR THE MINIMUM VALUE ALLOWED BY LOCAL BUILDING CODE. Max Allowable Cantilever Portrait 12" NA Standoff Configuration Portrait Staggered _ MINIMUM CLEARANCE BETWEEN THE TOP OF THE VENT AND THE BOTTOM OF THE SOLAR MODULE GLASS SHALL BE AT LEAST THE DIAMETER OF Max StimdaffTribubvy Area Trib 11 s1 . THE VENT. PV Assembly Dead Load W-PV 3 psi Net Wind Uplift*Standoff T actual 174 lbs IN THE DIRECTION OF THE SLOPE OF THE ROOF, THERE SHALL BE A GAP OF AT LEAST 1/2 INCH BETWEEN MODULES. Uplift Capacity of Standoff T-allow 500 lbs Standoff Demand/C3paefly UCR34.6% THE ROOF SLOPE MUST HAVE A MINIMUM INCLINATION OF 10' OR THE PANELS MUST BE SLOPED AT A MINIMUM INCLINATION OF 10'. PREMISE OMER: DESCRIPTION: DESIGN: CONFIDENTIALESHALL- THE INFORMATION UFORHERHN JOB NUMBER: JB-9722244 00 SALEHI, BOBAK SALEHI RESIDENCE Jim McLean �o��,; • BENEFIT OF NOT USED THE So�arC�ty. BENEFIT ANYONE EXCEPT SOLARGTY INC., MOUNTING SYSTEM: z NOR SHALL IT BE DISCLOSED IN WHOLE OR IN Comp Mount Type C with Lifter 8952 SW ASHFORD ST 5.865 KW PV ARRAY ,„ • PART TO OTHERS OUTSIDE THE RECIPIENT'S MODULES: TIGARD OR 97224 ORGANIZATION, EXCEPT IN CONNECTION WITH THE SALE AND USE OF THE RESPECTIVE (23) TRINA SOLAR # TSM-255PA05.18 3055 Gearview Way SOLARGTY EQUIPMENT, WITHOUT THE WRITTEN INVERTER: PAGE NAME SHEET: REV: DATE: ST:(650)San Mateo, ,CA 944 238-1029 PERMISSION OF SOLARCITY INC. ABB # PVI-5000—OUTD—US—Z—A (503) 557-0446 UPLIFT CALCULATIONS PV 4 10/23/2014 (888) SOL CITY(765-2489)vreesolarcitycom GROUND SPECS MAIN PANEL SPECS GENERAL NOTES INVERTER SPECS MODULE SPECS LICENSE BOND (N) #8 GEC TO (E) GROUND ROD Panel Number:Cutler Hammer Inv 1: DC Ungrounded INV 1 —(1)ABB # PVI-5000—OUTD—US—Z—A —(23)TRINA SOLAR ## TSM-255PA05.18 OR # 180498 AT PANEL WITH IRREVERSIBLE CRIMP Meter Number:24 525 232 FCI Inverter; Zigbee 5000W, 240V, 96.5% PV Module; 255W, 232.2W PTC, 40MM, Black Frame, MC4, ZEP Enabled RGC, CGC1 Underground Service Entrance INV 2 Voc: 37.7 Vpmax: 30.5 INV 3 Isc AND Imp ARE SHOWN IN THE DC STRINGS IDENTIFIER NE 200A MAIN SERVICE PANEL E 200A/2P MAIN CIRCUIT BREAKER Inverter 1 IND (E) WIRING COOPER 200A/2P Meter Socket `'J ABB 19 DC+ Vstart= DEFAULT PVI-5000—OU1D—US—Z—A DC- MP 1: 1x11 :� (E) LOADS A 240V - _ EGG C111 • r1 ■ • \ L2 ;- k, • I . .- •_ DG I 2 Ill fD N -=1„.........-•-• 30A/2P — 1 GND� EGCI ___ • - �� Dc+ DC+ Vstart= DEFAULT �, Lf„ �• A \ '� GEC a �- DC- 1 DG MP 1: 1x12 • 4,___B I 1 GND I EGC -----__ - . EGC / J I (1)Conduit Kit; 1° EMT N J_ — JEGC/GEC � m- z-z C., GEC 1) TO 120/240V I SINGLE PHASE UTILITY SERVICE II I Voc* = MAX VOC AT MIN TEMP POI—(1)CUTLER—HAMM R /BR230 PV BACKFEED BREAKER A —0)COOPER /B—Line Meter Socket O11 n C DC Breaker, 3OA/2P, 2 Spaces Meter Socket; 125A, 4-14AWG, Ring Type /y -(1)AW CAP; B—Line Meter Socket Accessory —(1)Milbank #CL200D /Itron C1S Solid—State Single—Phase Meter; Digital O—(1)AWG #10, THWN-2, Black —(2)AWG #10, PV WIRE, Black Voc* =465.13 VDC Isc =8.92 ADC --(1)AWG #10, THWN-2, Red O §°—(1)AWG #6, Stranded Bare Copper EGC Vmp =335.5 VDC Imp=8.36 ADC —(1)AWG #10, THWN-2, White NEUTRAL Vmp =240 VAC Imp=23 MC (1)Conduit Kit; 3/4' EMT —(1)AWG #8, THWN-2, Green EGC/GEC—(1)Conduit Kit; 3/4' EMT (2)AWG #10, PV WIRE, Black Voc* =507.41 VDC Isc =8.92 ADC O 25—(1)AWG#6, Stranded Bore Copper EGC Vmp =366 VDC Imp=8.36 ADC --(1)Conduit Kit; 3/4°EMT • COPREMISE OWNER: DESCRIPTION: DESIGN: CONTAINED — THE INFORMATION HERON loe NUMBER: J B-9722244 00 SALEHI, BOBAK SALEHI RESIDENCE Jim McLean \%‘ , BEN FIT OF SHALL NOT EXCEPTBE USED FOR THE ��2,SolarCityBENEFIT ANYONE SOLARGTY INC., MOUNTING SrSIM: NOR SHALL IT BE DISCLOSED IN WI0LE OR IN Comp Mount Type C with Lifter 8952 SW ASHFORD ST 5.865 KW PV ARRAY PART TO OTHERS OUTSIDE THE RECIPIENTS MODULES TIGARD OR 97224 ORGANIZA11ON, EXCEPT IN CONNECTION WITH r THE SALE AND USE OF THE RESPECTIVE (23) TRINA SOLAR # TSM-255PA05.18 3055 Clearview Way SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN 2 INVERTER: PAGE NAME SHEET: REV: DATE T:(650)San 1 n to F:(650)638-1029 PERMISSION OF SOLARCITY INC. ABB # PVI-5000—OUTD—US—Z—A (503) 557-0446 THREE LINE DIAGRAM PV 5 10/23/2014 (888)—SOL—CITY(765-2489)www.solarcity.com ELECTRICAL CALCULATIONSModule: 23 TRINA SOLAR#TSM-255 ZEP 232.2 Inv Power WPTC Voltage Drop Calculations Version 5.8.0 Inverter 1: 1 ABB PVI 5000 S AFCI 0.965 5000 5153.68 Vdrop= Imp) * (2*Length)*(Resistance) / (Vmp) Module: Imp(A) Max. Length(ft) Wire Inverter 2: String: 8.36 80 AWG_10 at Max Ave Hi:78 deg F Module: Vdrop= (8.36 * 160 *0.00124Ohms) / 309.3432 0.58 Inverter 3: Branch: 8.36 50 AWG_10 at Max Ave Hi:78 deg F Module: Vdrop= (8.36 * 100 *0.00124Dhms) / 309.3432 0.37 Total voltage drop in DC conductors= 0.95 F Inverter 4: Inverter: 8.36 15 AWG_10 at 240V Vdrop= (8.36 *30 *0.0012 Ohms) / 240 V 0.1254 Total: 23 Modules Total Inv Pwr: 5000 5153.68 PTC Combined: 0 0 AWG_10 at 240V Photovoltaic Module Electrical Specifications: Total STC: 5865 Vdrop= (0 *0 0.0012 Ohms) / 240 V 0 Voc: 37.7 V deg F deg C Vmp: 30.5 V Record Low Temp: 8 -13 Total voltage drop in AC conductors= 0.13 lsc: 8.92 A Max Average Hi Temp: 78 26 Total voltage drop in AC and DC conductors= 1.08 Imp: 8.36 A Record Hi Temp: 105 41 Tvoc: -0.12064 V/deg C Tisc: 4.1924 mA/deg C String Type A and 2 Combined Strings Type A Voc Correction Method: Manuf Tvoc data Branch Circuit Type A 1 way wire length: 50 Voc Correction Factor: ABB PVI-5000-S AFCI LI strings per branch 1 1 strings per branch 2 Inverter Min Vdc Input: 120 12 TRINA SOLAR#TSM-255 ZEP 12(modules per series string 11 modules per series string Voc= 452.4 Min Vmp at Max Temp: 309.34 Voc= 452.4 V Voc= 414.7 V Max Voc at Min Temp: 507.41 Vmp= 366 Inverter Max Vdc Input: 600 Vmp= 366_V Vmp= 335.5 V Isc= 8.92 Max String Size: 14 Isc= 8.92 A Isc= 8.92 A Imp= 8.36 1-way wire length: 80 Imp= 8.36 A Imp= 8.36_A Icont= 11.15 Art 690.8(A)(1) Icont= 11.15 A lcont= 11.15 A Art 690.8(A)(1) 1.a Conductor: AWG_10 PV Wire 2.a Conductor 1: AWG_10 Conductor 2: AWG_10 Icont*1.25=(Amps) 13.94 Conductor 1 Conductor 2 30 deg C ampacity= 40 Icont*1.25=(Amps) 13.94 13.94 1.b Icont=(Amps) 11.15 30 deg C ampacity= 40 40 Start ampacity 40 2.b lcont=(Amps) 11.15 11.15 Temperature derate(%=F) 0.82 Start ampacity 40 40 Conduit fill derate(°/a=#) 1 Temperature derate(%=F) 0.82 0.82 Derated ampacity 32.8 Conduit fill derate(%=#) 0.8 0.8 1.c Derated ampacity 26.24 26.24 Icont*1.25=(Amps) 13.94 2.c Term 1 Term 2 Ampacity _ 40 Temp table 75degC 75degC (cont*1.25=(Amps) 13.94 13.94 1.d Icont*1.25=(Amps) 13.94 Ampacity 35 35 OCP Size= 15 Inverter Type A Output 2.d OCP Size= 15 15 ABB PVI-5000-S AFCI 1 way wire length: 10 ft Combined Inverter Output (cont= 23 A Art 690.8(A)(1) Service Voltage= 3.a Icont*1.25=(Amps) 28.75 Art 690.8(6)(1) Total Inverter Power= 1 way wire length= 0 , OCP Size= 30 Art 240.6(A) Icont=#of inverters*max inverter current Art 690.8(A)(1) 3.b Conductor: AWG_10 THN-2 at 90 deg C:Table 310.16 Icont=(Amps) W Icont*1.25=(Amps) 28.75 4.a Icont*1.25=(Amps) 28.75 Art 690.8(6)(1) 30 deg C ampacity= 40 OCP size= 30 Art 240.6(A) 3.c Icont=(Amps) 23 4.b Conductor: AWG_10 THWN-2 at 90 deg C:Table 310.16 Start ampacity 40 Icont*1.25=(Amps) 28.75 Temperature derate(%=F) 0.91 30 deg C ampacity= 40 Conduit fill derate(%=#) 1 4.c Icont=(Amps) 23 Derated ampacity 36.4 Start ampacity 40 • 3.d Icont*1.25=(Amps) 28.75 Temperature derate(%=F) 0.91 Ampacity 35 Conduit fill derate(%=#) 1 Derated ampacity 36.4 4.d Icont*1.25=(Amps) 28.75 I Ampacity 35 CONFIDENTIAL- THE INFORMATION HEREIN JOB NUMBER: J B-9722244 00 PREMISE OWNER: DESCRIPTION: DESIGN:SALEHI, BOBAK SALEHI RESIDENCE Jim McLean ��ka, ' BENEFIT OF SHALL NOT E USED THE S��a�C�ty. CONTAINED NEAT ANYONE EXCEPT SFORTY INC., MOUNTING SYSTEM: ��� NOR SHALL IT BE DISCLOSED IN WHOLE OR IN Comp Mount Type C with Lifter 8952 SW ASHFORD ST 5.865 KW PV ARRAY ,„ PART TO OTHERS OUTSIDE THE RECIPIENT'S MODULES: TIGARD, OR 97224 - ORGANIZATION, EXCEPT IN CONNECTION WITH THE SALE AND USE OF THE RESPECTIVE (23) TRINA SOLAR # TSM-255PA05.18 3055 aearview Way SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN INVERTER: PAGE NAME: SHEET: REV: DATE: San Mateo, CA 94402 PERMISSION OF SOIARaTY INC. (503) 557-0446 PV 6 10/23/2014 (888)-SOL-CITY(650) TY(76s-2F:(650)ws.sorrcity°«n ABB # PVI-5000-OUTD-US-Z-AELECTRICAL CALCULATIONS Label Location: Label Location: Label Location: CAUTION: SOLAR CIRCUIT (C)(IC)(CB) MAXIMUM AC _ A (AC)(P01) CAUTION (P01) Per Code: OPERATING CURRENT Per Code: DUAL POWER SOURCE Per Code: IFC 605.11.1.4 MAXIMUM AC _ v NEC 690.54 SECOND SOURCE IS NEC 690.64.B.4 OPERATING VOLTAGE PHOTOVOLTAIC SYSTEM Label Location: PHOTOVOLTAIC DC (DC) (INV) DISCONNECT Per Code: NEC 690.14.C.2 Label Location: Label Location: PV SYSTEM (AC) WARNING (DC)(INV) DISCONNECT FOR Per Code: UTILITY OPERATION ELECTRIC SHOCK HAZARD NEC 690.35(F) Label Location: THE DC CONDUCTORS OF THIS MAXIMUM POWER (DC)(INV) PHOTOVOLTAIC SYSTEM ARE TO BE USED WHEN _A UNGROUNDED AND INVERTER IS POINT CURRENT (Imp) Per Code: MAY BE ENERGIZED MAXIMUM POWER UNGROUNDED _v NEC 690.53 POINT VOLTAGE(Vmp) MAXIMUM SYSTEMLabel Location: _ VOLTAGE(Voc) V SHORT-CIRCUIT WARNING (AC) (P01) Per Code: CURRENT(Isc)_A ELECTRIC SHOCK HAZARD NEC 690.17(4) DO NOT TOUCH TERMINALS TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION Label Location: WARNING (DC)(CB) Per Code: ELECTRICAL SHOCK HAZARD DO NOT TOUCH TERMINALS NEC 690.17(4) Label Location: TERMINALS ON BOTH LINE AND WARNING (P01) LOAD SIDES MAY BE ENERGIZED Per Code: IN THE OPEN POSITION INVERTER OUTPUT DC VOLTAGE IS CONNECTION NEC 690.64.B.7 ALWAYS PRESENT WHEN DO NOT RELOCATE SOLAR MODULES ARE THIS OVERCURRENT EXPOSED TO SUNLIGHT DEVICE Label Location: Label Location: WARNING (DC) (INV) PHOTOVOLTAIC POINT OF (P01) Per Code: INTERCONNECTION Per Code: ELECTRIC SHOCK HAZARD NEC 690.5(C) WARNING: ELECTRIC SHOCK NEC 690.17.4; NEC 690.54 IF A GROUND FAULT IS INDICATED HAZARD. DO NOT TOUCH NORMALLY GROUNDED TERMINALS.TERMINALS ON CONDUCTORS MAY BE BOTH THE LINE AND LOAD SIDE UNGROUNDED AND ENERGIZED MAY BE ENERGIZED IN THE OPEN POSITION. FOR SERVICE DE-ENERGIZE BOTH SOURCE AND MAIN BREAKER. PV POWER SOURCE Label Location: MAXIMUM AC A OPERATING CURRENT (AC):AC Disconnect PHOTOVOLTAIC AC (AC) (P01) MAXIMUM AC - (C): Conduit DISCONNECT Per Code: OPERATING VOLTAGE (CB): Combiner Box NEC 690.14.C.2 (D): Distribution Panel (DC): DC Disconnect (IC): Interior Run Conduit Label Location: (INV): Inverter With Integrated DC Disconnect CAUTION (D) (P01) (LC): Load Center PHOTOVOLTAIC SYSTEM Per Code: (M): Utility Meter CIRCUIT IS BACKFED NEC 690.64.6.4 (P01): Point of Interconnection CONFIDENTIAL— THE INFORMATION HEREIN CONTAINED SHALL NOT BE USED FOR =044 3055 Cleaview Way THE BENEFIT OF ANYONE EXCEPT SOLARgTY INC., NOR SHALL IT BE DISCLOSED San Mateo,CA 94402 IN WHOLE OR IN PART TO OTHERS OUTSIDE THE RECIPIENT'S ORGANIZATION, SC - OR Label Set a��1�� T:(650)638-1028 F:(650)638-1029 EXCEPT IN EQUIPMENT, WITHOUT THE WRITTENUPERMISSION OF PSOLARCITY INC. I O'a IMTI1 THE SALE AND (888)-SOL-CITY(765-2489)www.solarcity.mm 0 ZS Comp Edge Zone Calculations 1 of 4 ZS Comp Edge Zone Calculations 2 of 4 Zep S o to r 5/28/13 Zep S o to r 5/28/13 This set of calculations is intended to show that ZS Comp has sufficient strength to allow for attachment Down Force Spacing spacings of at least 48"in Edge Zones whether the modules are orientated in landscape or portrait.The Allowable Down Force Load the design variables to account for the worst case for each failure mode that is beingdown force spacing- calculations will vary g module width x design load I - checked. Wind Down Calculations All variable the same as above except for roof pitch General Design Information: Roof Pitch Module Size: 39"x 65" Basic Wind Speed= 95 mph 14 30 45 System Weight= 3 psf Ground Snow Load= 30 psf GCN landscape= 0.5 0.9 0.9 GCN portrait= 0.4 0.9 0.9 Comp Mount Allowable Loads Uplift= 656 lbs design load landscape= 9.62 17.32 17.32 psf Lateral= 436 lbs design load portrait= 7.70 17.32 17.32 psf Down Force= 1147 lbs - •Ro,a*$, note:use 10 psf minimum ti -;--.7,64.0011111P11' Snow Calculations Attachment Spacing Calculations 85818 `g To account for unbalanced snow loads,ground snow loads will be used for roof pitches 30 degrees and Uplift Spacing A OREGON o lower.Per section 7.6.1 of ASCE 7-10 unbalanced snow loads do not need to be considered for slopes Allowable Uplift Load 'ep ro,z',�� above 30 degrees. uplift spacing = '6-Air Roo module length or width x design load EXPIRES: 12/31/14 Ground Snow Load= 30 psf Wind Uplift Calculations FOR PAGES 1-4 Roof Pitch ASCE 7-05 Method 2 14 30 GC Design Snow Load 29.11 25.98 psf p=qn N qn=0.00256 KZ KZt Kd V2 I (snow load spread over the length of the rafter) Basic Wind Speed= 95 mph Exposure= C Roof Zone= Edge Zone Down Force Load Roof Pitch Importance Factor= 1.0 KZ= 0.98 from Table 6-3 Combinations: 14 30 D+S= 31.16 25.10 psf Gable/Hip Roof KZt= 1.0 per 6.5.7.2 D+W= 12.91 19.92 psf /orst Case Roof Pitch= 14 degrees Kd= 0.85 from Table 6-4 D+0.75W+0.755 31.59 12.46` psf Roof Height= 30 GCN landscape= -1.6 lscape effective area= 13.0 ft2 GCN portrait= -1.5 11471bs in 2 landscape down force spacing = 39"x 32.46psf x 144 ft2 = 130" ortrait effective area= 21.7 ft Plandscape= -30.79 psf qn= 19.25 psf Pportrait= -28.87 psf 1147lbs in portrait down force spacing = 65"x 32.46psf x 144 f=78" t2 Uplift Load Combination:0.6D+W(ASCE Section 2.4.1 equation 7) design load landscape= -29.05 psf design load portrait= -27.12 psf , 656 lbs landscape uplift spacing = 39"x 29.05 psf ft2 x 144-= 83" 656 lbs in portrait uplift spacing = x 144 65"x 27.12 psf ft2 = 54" ] ZS Comp Edge Zone Calculations 3 of 4 5/28/13 ZS Comp Edge Zone Calculations 4 of 4 Zep So La r Zep S o to r 5/28/13 Lateral Spacing Module Deflection Spacing The lateral force on the system increases as the pitch of the roof increases,but the amount of snow on landscape module spacing= -1.4545 x Maximum Uplift or Down Force Pressure+120.7273 the roof decreases for slopes greater than 30 degrees.With this in mind,the lateral force will be checked at 30 degrees with ground snow load and 45 degrees with sloped roof snow. portrait module spacing =-1.7917 x Maximum Uplift or Down Force Pressure+118.58 Allowable Lateral Load lateral spacing= module width x design load 9 Maximum Uplift of Down Force Pressure= 32.46 psf Snow Calculations Ground Snow Load= 30 psf landscape module spacing= -1.4545 x 32.46 psf+120.7273 =73" Ps=C5 Pf Roof Pitch= 31 45 degrees pf=0.7CeCtl Pg Ce= 0.9 C5= 0.71 0.45 Ct= 1.2 pf= 22.68 22.7 psf portrait module spacing = -1.7917 x 32.46 psf+118.58 = 60" l= 1.0 p5= 16.1 10.2 psf Calculation Summary Calculated Edge Zone Spacing Roof Pitch Spacing Check Landscape Portrait 27 30 31 45 Uplift 83" 54" Design Snow Load 26.73 25.98 13.80 7.22 psf Down Force 130" 78" (snow load spread over the length of the rafter) 30° 27° 30. Lateral 74" 487 45" Lateral Force Component Module Deflection 3" 60" Down Force Load Roof Pitch Combinations: 27 30 31 45 As can be seen in the table above,for Design Wind Speeds up to 95 mph and Ground Snow Loads up to 30 D+S= 13.50 14;49 8.65 7.22 psf psf with modules orientated in landscape,the system is strong enough to be installed at 72"on center in D+0.75W+0.75S 10.46 11.24 6.88 5.95 psf the Edge Zone.When modules are installed in portrait,the spacing for edge zone installations can be 48" on center for most roof pitches.For roof pitches that are greater than 27°but less than 31°,the maximum 30 degree roof pitch attachment spacing is 45". 292lbs in landscape lateral spacing = x 144 39"x 14.49 psf ft2 = 74" 292lbs in portrait lateral spacing = 65"x 14.49 psf x 144 ft2 =45" Portrait spacing is less than 48".Try roof pitch of 27 degrees 292lbs in portrait lateral spacing = =48" 65"x 13.50 psf x 144 ft2 t SolarCity SleekMountT"' - Comp SolarCity SleekMountTM Comp The SolarCity SleekMount hardware solution is optimized to achieve superior strength and •Utilizes Zep Solar hardware and UL 1703 listed Installation Instructions Zep CompatibleTM modules "" aesthetics while minimizing roof disruption and Drill Pilot Hole of Proper Diameter for labor.The elimination of visible rail ends and •Interlock and grounding devices in system UL Fastener Size Per NDS Section 1.1.3.2 listed to UL 2703 mounting clamps, combined with the addition of array trim and a lower profile all contribute •Interlock and Ground Zep ETL listed to UL 1703 Seal pilot hole with roofing sealant to a more visuallyappealing system.SleekMount as"Grounding and Bonding System" Insert CompMount flashingunder upper pp 9 Y utilizes Zep CompatibleTM modules with •Ground Zep UL and ETL listed to UL 467 as layer of shingle strengthened frames that attach directly to grounding device Zep Solar standoffs, effectively eliminating the Place Comp Mount centered need for rail and reducing the number of •Painted galvanized waterproof flashing upon flashing standoffs required. In addition, composition •Anodized components for corrosion resistance I \ Install lag pursuant to NDS Section 11.1.3 shingles are not required to be cut for this with sealing washer. system, allowing for minimal roof disturbance. •Applicable for vent spanning functions • Secure Leveling Foot to the Comp Mount using machine Screw 40 Place module ill 1 • Components c ���_• 0 5/16"Machine Screw , ii--III a L:;: oot 40 Lrew ® 0 Comp Mount 0 Comp Mount Flashing v 1 o Q® �� A. .> I l I L 0 ____. 40 M v rA Q�OMPgT�� ei 4l�1„,„ ®'f SolarCity® January 2013 Fq�%a LISTED r4'�SolarCity® January 2013 DMPP TSM-PA05.18 TRINAMOUNT II WITH THE UNIVERSAL MODULE Mono Multi Solutions TSM-240 TSM-245 TSM-250 TSM-255 TSM-260 DIMENSIONS OF PV MODULE TSM-PA05.18 ELECTRICAL DATA @ STC PA05.18 PA05.18 PA05.18 PA05.18 PA05.18 941mm Peak Power Watts-Pour(Wp) 240 245 250 255 260 Power Output Tolerance-Pour(%) 0/+3 0/+3 0/+3 0/+3 0/+3 1UNcnos o • NAMEPLATE I Ln Maximum Power geV (V) 30.3 30.5 30.7 BOX Maximum PowerVoltaCurrent--lourmr (A) 29.7 8.10 8.1330.2 8.27 8.36 8.47 37. 7.9 TSM pA05.1 c Open Circuitcuiurrege-Vac)V) 37.3. 8 37.6. 37.7.9 900 8 INSTALLING HOLE ,, Short Circuit Current-Isc(A) 8.62 8.68 8.85 8.92 9.00 Module Efficiency no(%) 14.7 15.0 15.3 15.6 15.9 THE TRINAMOUNT MODULE 3 3 STC:Irradiance 1000 W/m'.Cell Temperature 25°C,Air Mass AM1.5 according to EN 60904-3. Average efficiency reduction of 4.5%at 200 W/m'according to EN 60904-1. Eo o 5' ELECTRICAL DATA @ NOCT TSM-240 TSM-245 TSM-250 TSM-255 TSM-260 PA05.18 PA05.18 PA05.18 PA05.18 PA05.18 60 CELLMaximum Power-Pour(Wp) 174 178 181 184 188 i Maximum Power Voltage-Vor(V) 26.6 26.8 27.0 27.2 27.4 MULTICRYSTALLINE MODULE • 6-04.3GROUNDING HOLEA A Maximum Power Current-lurr(A) 6.55 6.64 6.70 6.77 6.86 WITH TRINAMOUNT FRAME 'z-osuiNHOLE Open Circuit Voltage(V)-Voc(V) 34.1 34.2 34.3 34.4 34.6 1 Short Circuit Current(A)-Isc(A) 7.04 7.10 7.25 7.31 7.37 812mm 180 NOCT:Irradiance at 800 W/m',Ambient Temperature 20°C,Wind Speed 1 m/s. 240 260W Back View POWER OUTPUT RANGE MECHANICAL DATA Our most versatile product 11 1 Solar cells Multicrystalline 156.156 mm(6 inches) • Compatible with all major BOS components and system - designs Cell orientation 60 cells(6.10) 15.9% o Module dimensions 1650 x 992 x 40 mm(64.95 x 39.05 x 1.57 inches) Weight 18.6 kg(41.O lbs) MAXIMUM EFFICIENCY El Glass High transparency solar glass 3.2 mm(0.13 inches) Backsheet White reg of the industry's most trusted modules Frame Black Anodized Aluminium Alloy with TrinamountGroove i'„.!. • Over 2 GW sold across all major global markets 0 +3% • Field proven performance I-V CURVES OF PV MODULE TSM-245 PA05.18 J-Box Cables IP 65 or IP 67 rated Photovoltaic Technology cable 4.0 mm'(0.006 inches'), t0.° 1100 mm(43.3 inches) POWER OUTPUT GUARANTEE 9m prow/m' Connector Original MC4 _700 800W/m' Highly reliable due to stringent quality control =6°° 6o0W/m'As a leading global manufacturer • Over 30 in-house tests (UV,TC, HF,and many more) U 4.40--400w(m' TEMPERATURE RATINGS MAXIMUM RATINGS of next generation photovoltaic t • In-house testing goes well beyong certification requirements a°° 200W/m' 1 Nominal Operating Cell 45°C(±2°C) Operational Temperature -40-+85°C products,we believe close 2.. temperature 140-------- Maximum System 1000V DC(IEC)/ Cooperation with our partners o.00 Temperature Coefficient of Pour -0.43%/°C Voltage 600V DC(UL) is critical to success. With local a. Ia. 2o. 3a. 40.00 presence around the globe,Trina isVdtage(V) Temperature Coefficient of Voc -0.32%/°C Max Series Fuse Rating 15A able to provide exceptional service Temperature Coefficient of Isc 0.047%/°C to each customer in each market Certified to withstand challenging environmental and supplement our innovative, ,� g g reliable products with the backing =;U conditions of Trina as a strong,bankable cig • 130 km/hr wind load (2400 Pa) WARRANTY partner. We are committed • 900 kg snow load per module (5400 Pa) t0 year Product Workmanship Warranty to building strategic,mutually beneficial collaboration with 25 year Linear Power Warranty installers,developers,distributors (Please referto product warranty For detailsi • and other partners as the backbone of our shared success in CERTIFICATION R driving Smart Energy Together. LINEAR PERFORMANCE WARRANTY PACKAGING CONFIGURATION 10 Year Product Warranty•25 Year Linear Power Warranty Q cw „r=�,� c 1 s Modules per box:24 pieces Trina Solar Limited pL Modules per 40'container:672 pieces ii CLE ° di/%OhgfY... 2/r0 nv so% (E C su US PV'Zr it www.trinasolar.com m 90% ._ ;"' ts3 Ors O6TE0 �/ 3100 Aq ISO t Valu l a rh Tri ithear Warran} CAUTION:READ SAFETY AND INSTALLATION INSTRUCTIONS BEFORE USING THE PRODUCT. oot4P4Ty Trinasolar So% y Trinasolar 02013 Trina Solar Limited.All rights reserved.Specifications included in this dotosheet are subject to N j @�W change without notice. Smart Energy Together Smart Energy Together 1''c Ce r Years 5 10 15 20 25 OMPP 1.. .Irma Solar Additional highlights: C acia - RS-485 communication interface (for connection to laptop or data logger). - Integrated Arc Fault Detection and Interruption(-A Version). PM t • AR f' (.' Technical data and types Type code PVI-5000-OUTD-US PVI-6000-OUTD-US r Ate Input side Nominal output power 5000W 6000W • Maximum output power 5000W 6000W >ffIllIg;v p .... ... ....... ........ Rated grid AC voltage 208V 240V 277V 208V 240V 277V t., Input side(DC) Number of independent MPPT channels 2 • t,47,'`' Maximum usable power for each channel 4000W 1 Absolute maximum voltage(Vmax) 600V Start-up voltage(Vstart) 200V(adj.120-350) a Full power MPPT voltage range 200 530V y iii Operating MPPT voltage range 0.7 x Vstart 580V Maximum current(Idcmax)for both MPPT in parallel 36A Maximum usable current per channel 22A it * Number of wire landing terminals per channel 2 Pairs Array wiring termination Terminal block,pressure clamp,AWG16-AWG6 ° Output side(AC) Grid connection type 10/2W Split-0/3W 10/2W 10/2W Split 0/3W 10/2W Adjustable voltage range(Vmin Vmax) 183V 228V 221V-264V 244V 304V 183V-228V 211V-264V . 244V 304V Grid frequency......................................... 60Hz Adjustable grid frequency range 57-60 5Hz Maximum current(l,°,°•,)Aa,. 27Ae,� 23A,,44., 20Aa,,� 30A.,,.,. 28Aa„� 24Aa Designed for residential and small The wide input voltage range Highlights: Power factor >::0.995 makes the inverter suitable to low Total harmonic distortion at rated power <2 commercial PV installations,this - Single phase and split phase outputContributory fault current' 36.25 A0,,/ 36.5 Aak/ 31.75 Apk 36.25 A,,/ 36.5 Apk/... 31.75 APk/ ower installations with reduced 25,63Aaws..........25.81A,,,m.........22.45Aaks........_25,63Aarns..........25.:81.Aas...._.....22.45N,k...... Inverter fills a specific niche in the p grid connection. Grid wiring termination type Terminal block,pressure clamp,AWG14-AWG4 ABB product line to cater for those string size. - Wide input range for increased Input installations producing between The transformerless operation offers stringing flexibility. Reverse polarity protection Yes 5kW and 20kW° high performance efficiencies of up to - 9 p The high speed and precise MPPT Over-voltage protection type .. Varistor,2 for each channel 97 1% PV array ground fault detection Pre start-up Riso and Dynamic GFDI(requires floating arrays) algorithm offers real time power Output Free remote monitoring capability Anti-islandin potection Meets UL 1741/IEEE1547 requirements Meets UL 1741/IEEE1547 requirements This inverter includes dual input tracking and Improved energy 9 .r... , available with everyinstallation.This Over-voltage protection type Varistor,2(L Lz/L-G) Varistor,2(L, L2/1_, G) section to process two strings with harvesting. Maximum AC OCPD Rating 35A 30A 25A 40A 35A 30A enables homeowners to view their independent MPPT. - Outdoor NEMA 4X rated enclosure Efficiency The high speed and precise MPPT energy production and offers installers for unrestricted use under anyMaximum efficiency............................................................................................... 9710..................................................................................................... economic wayof + CEC efficiency 96% 96 5% 96.5% 96% 96.5% 96.5% algorithm offers real-timepower a proactive and environmental conditions. g User interlace Graphic display Graphic display maintaining and troubleshooting the - Integrated DC disconnect switch tracking and energy harvesting. operating performance system. Stand-by consumption <8W <8W Flat efficiency curves ensure high Y in compliance with international ................X.....................P...............................................................................................,........................................................n�5............................................i......................................................e..,............................................. efficiency at all output levels ensuring Standards(-S Version). Night time consumption <0.6Wpu,, <0.6Wq,s, Communication • 2..linesLCD ................................................................... consistent and stable performance User-interface 16 characters x 2 lines LCD display across the entire input voltage and Remote monitoring(1xRS485 incl) VSN700 Data Logger(opt) outputpower range. Wired local monitoring(1xRS485 incl.) PVI-USB-R5485_232(opt.) P g Environmental e -13°F to+140°F 25°C to+60°C with This outdoor inverter has been (-25°C +60°C) • Ambient air operating temperature range -13°F to+140°F(-25°C to+60°C) derating designed as a completely sealed unit to above 122°F 50 C g p Y withstand the harshest environmental Ambient air storage temperature range -40°F to+176°F(-40°C to+80°C) 40°F to+176°F(-40°C to+80°C) i.. Relative humidity ; 0-100%RH condensing 0-100%RH condensing conditions. Acoustic noise emission level i <50 db(A)@1 m <50 db(A)@1 m , ,I ,I Maximum operating altitutde without derating.................................................................6560 ft(2000 m) 6560 ft(2000 m......................................................................................(.................)................................... Power and productivity 2.Inverter can apply that much current-Breaker will open for a better world'" ��,.,. 2 ABB Solar Inverters I Product flyer for PVI-5000/6000-TL-OUTD