The URL can be used to link to this page

Plans (37) PITCH: 34 ARRAY PITCH:34 MP1 AZIMUTH:180 ARRAY AZIMUTH: 180 MATERIAL:Comp Shingle STORY: 2 Stories • 12310 SW Hollow Ln Front Of House � 1 , 1 , • TOTAL ARRAY AREA: 341 .37 TOTAL ROOF AREA: 2617.17 ARRAY COVERAGE: 13% \/. STRUCTURE MEETS THE LEGEND PRESCRIPTIVE REQUIREMENTS OF r--- THE OSISC SECTION 305.4 k` D Q Q (E) UTILITY METER & WARNING LABEL O INVERTER W/ INTEGRATED DC DISCO °Un-eocked Gaffed ° Un-Locked Gated inv & WARNING LABELS i Inv p DC DISCONNECT & WARNING LABELS ---- ATTACHMENTS SHALL HE SPACED NO AC GREATER THAN 24 INCHES ON CENTER ® AC DISCONNECT & WARNING LABELS IN ANY DIRECTION WHERE ARRAY IS LOCATED WITHIN 3 FEET OF A ROOF 0 JUNCTION BOX EDGE, HIP, SAVE OR RIDGE OSISC 305.4-.3(k3) 0 DC COMBINER BOX & WARNING 0 DISTRIBUTION PANEL & WARNING 00 J f ° ° 0 LOAD CENTER & WARNING LABELS o c � MP1 i I o O DEDICATED PV SYSTEM METER v o o 6 0 CONDUIT RUN ON EXTERIOR --- CONDUIT RUN ON INTERIOR (0 o ® o 0 o o — GATE/FENCE Ib INTERIOR EQUIPMENT ° o c 0 0 0 SITE PLAN N A PV3 Scale: 3/32" = 1' w E 01' 10' 21' ■,._.�� S CO NnK- THE INFARMATICW HERE94 'I°B NUMBER JB-9721625 0 0 PRELISE O R OESMIPTIOlt NTA9ED SHALL NOT 8E USED FOR YTHE P TIDRICK, ROBERT C. DESIGN: !�!!!. BENEFIT OF ANYONE T 8E U saLARarr I4c, MOUNTING SYSTEM TIDRICK RESIDENCE Grayson Tonks NOR SHALL IT BE DISCLOSED IN*OLE OR n+ CompMount Type 41JSO �PART TD A,HERs OUTSIDE THE REaPENOR yP C 12310 SW HOLLOW LN 5 KW PV ArrayniE SALE AND USE OF TME EORGANIZATION.EXCEPT MI Ac ON '" (20)TRINA SOLAR # TSM-250PAO5.18TIGARD, OR 97223 SALARCITY EAUIPAENT, WITHOUT THE%BITTEN WRIER PACE NATE 3065 Mateo.Clean* NW/ PERMISSION OF saLAaaTY 5039273252 SHEET: BEY DALE San"°L°0.CA 94402 POWER—ONE i AURORA PVI-4.2—OUTD—S—US SITE PLAN PV 2 9/9/2013 T.(65o)x-1028 F.(650)638-1029 (888)-SOL-aTY(765-2489)°)63oi it cam ,77r' (a) C7 , —5 -3" / 6'-3" / 6'-5" / , (E) LBW A SIDE VIEW OF MP1 RAFTER: (E) 2x4 0 24" O.C. PRE—MANUFACTURED TRUSS NTS CEILING JOIST: (E) 2x4 0 24" O.C. MAX SPAN: 6'-5" STRUCTURE MEETS THE MAX STANDOFF DISTANCE: 72" O.C. PRESCRIPTIVE REQUIREMENTS OF THE OSISC SECTION 305.4 PV MODULE 5/16" BOLT WITH LOCK INSTALLATION ORDER & FENDER WASHERS LOCATE RAFTER, MARK HOLE ZEP LEVEUNG FOOT (1) LOCATION, AND DRILL PILOT ZEP ARRAY SKIRT (6) HOLE. (4) SEAL PILOT HE WITH (2) POLYURETHANEOLSEALANT. ZEP COMP MOUNT C bsse riw401*!ti M 11111160160 ZEP FLASHING C t'��Tf� 1_S_ (3) INSERT FLASHING. (E) COMP. SHINGLE rv��I�i � p.- (1..) PLACE MOUNT. J (E) ROOF DECKING IMMI (5) INSTALL LAG BOLT WITH 5/16" DIA LAG BOLT (5) SEALING WASHER. WITH SEALING WASHER LOWEST MODULE SUBSEQUENT MODULES INSTALL LEVEUNG FOOT WITH (2-1/2" EMBED, MIN) (6) BOLT & WASHERS. (E) RAFTER 4. STANDOFF Scale: 1 1/2" = 1' ` NIAL- 1HE iOR'''A""°N HEREIN "NIMH J B-9721625 00 OMNI D 10Ik CONTANED SHALL NOT BE USED FOR THE OMR ie. BENEFIT OF ANYONE EXCEPT saARCI Y INC. MOUNTING srs>E�c TIDRICK, ROBERT C. TIDRICK RESIDENCE Grayson Tonks �; ; NOR SHALL ITH BE DISCLOSED EHOIE OR IN CompMount Type C 12310 SW HOLLOW LN i�� Ofa�' PART TO OTHERS OUTSIDE THE RECIPIENTS 5 KW PV Array �� ORGANIZATION, EXCEPT IN CONNECTION MTH MoatE2 TIGARD, OR 97223 m TME SAL:AND USE OF THE RESPECTIVE (20) TRINA SOLAR # TSM-250PA05.18 rroy SOLARCITY EQUIPMENT, MAHOUT THE MRn1EN SHEET REV: DALE Sm 5 De CA 94 02 PEF'" 101'of Soman INC. POWER—ONE # AURORA PVI-4.2—OUTD—S—Us 5039273252 STRUCTURAL VIEWS PV 3 9/9/2013 T�650) 1028 `(��636-1029 oesT -CITY 7065-2�8s)°)63-102ycan UPLIFT CALCULATIONS 09.09.2013 Solarcity SIeekMountTr4 PV System Version#14.8 Structural Design Software Prolect Tuan Risk Category II PV System Type SolarCity SleekMount'" Comp Roof Comp Roof Number of Layers 1 Roof Slope 340 Rafter Spadng 24"O.C. PV Module Orientation Landscape Total Area of Array 352 sf PV Module Width 3.2 ft PV Module Leh 5:4 ft Standoff Comp Mount Type C Goold d/R oI Load8' Ground Snow Load P9 25.0 psf 4 ASCE Table 7-1 SurTg Roof Snow 100% 250 psf 'ASCE Eq:7.4-1 Roof Snow Over PV Modules 100% 25.0 psf 'ASCE Eq:7.4-1 wind,Dewar.criteria . Wind Design Code ASCE 7-05 Wind Design Method Partially/Fully Enclosed Method Basic Wind Category V 95 mph Rg.6-1 ExpC ' Section 6.5.6.3 Roof Style Gable Mean Roof Height h Roof 'Fig.6-I18/C/D-14A/B Sedioon 6.2 Effective Wind Area 11 Module) A 17.6 sf IBC 1509.7.1 wind Pressure Cakadation Coefficients Wind Pressure Exposure Kz 0.95 Table 6-3 Topographic Factor Kit 1.00 Section 6.5.7 Wind Directionality Factor Kd 0.85 Table 6-4 Importance Factor I 1,0 Table 6-1 Velodty Pressure qh qh=0.00256(1(z)(Kzt)(1(d)(V^2)(I) 18.6 psf Equation 6-15 Ext.Pressure Coefficient(Up) GCp(Up) -0.95 Ag.6-I1B/4o-14A/B Ext Pressure Coeffident(Down) GCp(Down) 0.88 Ag.6-118/C/D-14A/8 Design Wind Pressure p p=qh(GC0 Equation 6-22 Wind Pressure Up P(w) -17.7 psi I Wind Pressure Down p(down) 16.3 psf Anoivabia Standoff X-Dire tion if-Direction Max Allowable Standoff Spadng Landscape 72" 39" Max Allowable Cantilever Landscape 24" NA Standoff Configuration Landscape Staggered Max Standoff Tributary Area Trib 19 sf PV Assembly Dead Load W-PV 3 psf Net Wind Uplift at Standoff T-actual -315 lbs Uplift Capacity of Standoff T-allow 637 lbs Standoff Demand/Capadty DCR 49.4% C�RDENTAL- leE efCeeATION HEREIN Xe NIS J B-9721625 00 "�" °" BEs oEs ,%1164 CONTAINED SHALL NOT 8E USED FOR 1HE TIDRICK, ROBERT C. �.•„t%� CONEAIT ANYONE EXCEPT ED FOR Y INC., YP IIMG SY511E�t TIDRICK RESIDENCE Grayson Tonics �; ; NOR SHALL'T BE DISCLOSED IN"MOLE OR IN Com Mount Type C 12310 SW HOLLOW LN i��•S01arb' PART To OTHERS OUTSIDE THE RECIPIENTS P 5 KW PV Array •�� ORGAIMZA11DN,EXCEPT 61 CONNECTION YMTH MODUEs TIGARD, OR 97223 m TME SALE ANO USE OF THE RESPECTIVE (20) TRINA SOLAR a TSM-250PA05.18 3055 O.m'4w Way SOLARCITY EMINENT,YNIHOUT THE WRITTEN PAGE SHEET REV OATS San Nobs CA 84102 PERMISSION saARaTr POWER-ONE AURORA PVI-4.2-OUTD-S-US 5039273252 UPLIFT CALCULATIONS PV 4 9/9/2013 T:(650)636-1028 F(BSm) 1029 ( )-SOI-CITY(765-2489)I n adadexean GROUND SPECS MAIN PANEL SPECS GENERAL NOTES INVERTER SPECS MODULE SPECS LICENSE BOND (N) 16 GEC TO (E) UFER AT PANEL Panel Number.CUTLER HAMMER Inv 1: DC Ungrounded INV 1 -(1)POWER-ONE I AURORA PVI-4.2-OUTD-S-US LABEL: A WITH IRREVERSIBLE CRIMP Meter Number.24 158 406 Inverter, Zigbee 4200W, 240V, 96% -�0)PV ModululeA;;R �W,M227 5W PTC, 40MM, Block Frame, MC4, ZEP Enabled ORGR C,ICGC18 INV 2 Voc: 37.6 Vpmax: 30.3 INV 3 Isc AND Imp ARE SHOWN IN THE DC STRINGS IDENTIFIER E 200A MAIN SERVICE PANEL (E) 200/2P MAIN CIRCUIT BREAKER (E) WIRING CUTLER-HAMMER COOPER Inverter 1 IND IY00A/2P Disconnect Meter Socket (3) POWER-ONE ' oc+DO NOT ADJUST MIN.ACTIVATION V TAGE d AURORA PVI-4.2-OUTD-S-US A. ' DC- 1 String(s)Of 10 On MP 1 (E)LOADS p B - A Ll MI 1— GFP/GFCI e— 00+ I U m m 25A/2P NM--� " =4�- I n EV'----Z��-10-- -1 GNO� -- V GE' _nzi DC. Y �+DO NOT ADJUST MIN.ACTIVATION V TAGS GND I____EGC —- + 4 S String(s)Of 10 On MP 1 I 1 EGC J J 1 T/I N (1)Conduit Kit; 3/e EMT -L — 1f EGC/GEC a-ig- 1____GEC TO 120/240V SINGLE PHASE UTILITY SERVICE I 1 II Voc* = MAX VOC AT MIN TEMP POIr--(1) er;H 25A/2PAMMBR #2� Sp cea PV BACKFEED BREAKER A —(1)CUTLER-HAMMER/DG221UR8 AC Disconnect; 30A,/240Vac,Nan-Fumble,NEMA 3R DC -(')CUTLER-HAMMER Ground/Neutral Kit; 30A,General Duty(Dc) B I--(1) Meter��ne 125A,t4-14AMG.RingSocket TDpe 1)AW CAP; B-Line Meter Socket Accessory -(1)111.13A/6(11:L2001 Meter; FORM 2S (1)AWG/10. THWN-2,Block 3 (1)AWG#10, r►1WN-2,Red (2)AWG/10. PV WIRE, Black Voc* _421.72VDC Isc =8.85 ADC (1)AWG/t0, THW I-2, We NEUTRAL Vmp 240 VAC Imp=20 MC O (1)AWG#10, Slid Bore Copper EGC Vmp =303 VDC Imp=8.27 ADC -(1)AWG/s, THWN-2,Green EGC/GEC-(1)ConduR Kit 3/4'EMT (1)Conduit Kit 3/4�EMT [K(2 AWG ro,PV WIRE.Black Voc* =421.72 VDC Isc =8.85 ADC 2 -(1)AWG#10.Solid Bore Copper EGC Vmp =303 VDC Imp=8.27 ADC ��-(1)Conduit Kit; 3/4'EMT CONTCEitinCeAALINED NOT NE " VER6t' �'ilAffipt JB-9721625 00 TIDRENISERICK, ROBERT C. �`bigam BENEFIT of ANYONE EXCEPT SOLARarr INC, MG IITING s11STEtt TIDRICK RESIDENCE Grayson Tonks = In NOR SIAL iT 6E DlsaoSED IN WFIOLE 0R IN Com Mount Type C 12310 SW HOLLOW LN •.4e uuau' PART TO OTHERS OUTSIDE THE RECIPIENTS P 5 KW PV Array ►� ORGANIZATION,EXCEPT at CONNECTImN WON ICCOM TIGARD, OR 97223 1HE SALE ANO USE OF THE RESPECTIVE (20) TRINA SOLAR # TSM-25OPAO5.18 3055 Peonies Way SOLARCITY EQUIPMENT,WITHOUT NE WWTR]r SHEET: REV DAIS Stn Mateo CA 94402 PERMISSION Cf SaLARaTy INC. POWER—ONE AURORA Put-4.2—OUTD—s—us 5039273252 PTHREE LINE DIAGRAM PV 5 9/9/2013 T.(a5a)838-'°� F:(850)°'°-'°2� (Bee)-SOL-a1Y(765-2489).n.sdvcRXann ELECTRICAL CALCULATIONS Module: 20 Trina TSM-250PA05.08 Black 227.5 Inv Pwr W PTC StrLen Voltage Drop Calculations Version 5_9.11 krerter 1: 1 Power-One PVI-4.2-S 96.0% 4,600 4,368 10 Vdrop= (Imp) * (2'Length)*(Resistance) / (Vmp) Module: Imp(A) Max.Length(ft) Wire knerter 2: String: 8.27 80 C AWG 10 at Max Are Hi: 80 deg F Module: Vdrop= (8.27 A * 160 ft *0.00124 Ohms) / 279 V= 0.59% irnerter 3: Module: Branch: 8.27 I 0 I C AWG 10 at Max Are Hi: 80 deg F * * Vdrop= (8.27 A 0 ft 0.00124 Ohms) / 279 V= 0.00% Irnerter 4: Total voltage drop in DC conductors=I 0.59%I Inverter: 20.00 I 10 I C AWG 10 at 240V Total: 20 modules Total Inv Pwr 4,600 4,368 PTC Vdrop= (20.00 A ' 20 ft *0.00120 Ohms) / 240 V 0.20% Photovoltaic Module Electrical Specifications: Total STC 5,000 Combinedi 20.00 I 0 I E AWG 06 at 240V Voc= 37.6 V deg F deg C Vdrop= (20.00 A * 0 ft *0.00049 Ohms) / 240 V 0.00% Vmp= 30.3 V Record Low Temp: 8 -13.3333333 Total voltage drop in AC conductors= 0.20% Isc= 8.85 A Max Average Hi Temp: 80 26.66666667 Total voltage drop in AC and DC conductors= 0.79% Imp= 8.27 A Record Hi Temp: 106 41 Two= -0.12032 V/deg C Power-One Strings: Individual MPPT Tisc= 4.1595 mA/deg C String Type A and 2 Combined Strings Type A Voc Correction Method: Manuf Tux data Branch Circuit Type A 1-way wire length: 0 ft Power-One PVI-4.2-S 1 strings per branch 1 1 strings per branch 2 10 Trina TSM-250PA05.08 Black Inverter Min Vdc Input: 120 Vdc 10 modules per series string 10 modules per series shin Voc= 376 V Min Vmp at Max Temp: 236 Vdc Voc= 376 V 376 V Vmp= 303 V Max Voc at Min Temp: 422 Vdc Vmp= 303 V 303 V Ise= 8.85 A Inserter Max Vdc Input: 600 Vdc Ise= 8.85 A 8.85 A Imp= 8.27 A Max String Size: 14 Imp= 8.27 A 8.27 A !cant= 11.06 A Art 690.8(AX1) 1-way wire length: 80 ft lcont= 11.06 A 11.06 A Art 690.8(AX1) 1.a Conductor.C AWG 10 PV Wire 2.a Conductor 1:C AWG 10 PV Wire Conductor 2:C AWG 10 PV Wire Conductor 1:Conductor 2: Icont*1.25=(Amps) 13.83 Icont*1.25=(Amps) 13.83 13.83 30 deg C ampacity= 40 I 30 deg C ampacity= 40 40 I 1.b !contr.(Amps) 11.08 2.b 'cant=(Amps) 11.06 11.06 Start ampacity 40 Start ampacity 40 40 Temperature derate(%=F) 0.71 Temp.derate(%=F) 0.82 0.82 Conduit ill derate(%=#) 1 Cndt.fill derate(%=#) 0.8 0.8 Derated ampacity 28.40 Derated ampacity ty 28.24 26.24 I Term 1 Term 2 1.c Icont*1.25=(Amps) 13.83 Temp table 75degC 75degC Ampacity 40 2.c Icont*1.25=(Amps) 13.83 13.83 Ampacity 35 35 I 1.d Icont*1.25=(Amps) 13.83 2.d EGC C AWG 10 C AWG 10 Art.250.122 OCP size= 15 OCP size= 15 15 Inverter Type A Output Combined Inverter Output Power-One PVI-4.2-S 1-way wire length: 10 ft Service Voltage= 240 Volts tont= 20.00 A Art 690.8(AX1) Total Iraerter Power= 4,600 Nameplate Watts 1-way wire length: 0 ft 3.a !cont*1.25=(Amps) 25.00 A Art 690.8(6x1) !cont=#of inverters*max inverter current Art 690.8(Ax1) OCP size= 25 A Art.240.6(A) !cont=(Amps) 20.00 3.b Conductor C AWG 10 THWN-2 at 90 deg C:Table 310.16 4.a tont 1.25=(Amps) 25.00 A Art 690.8(6x1) Icont*1.25=(Amps) 25.00 OCP size= 25 A Art.240.6(A) 30 deg C ampacity= 40 4.b Conductor E AWG 06 THWN-2 at 90 deg C:Table 310.16 3.c Icont=(Amps) 20.00 Icont*1.25=(Amps) 25.00 Start ampacity 40 30 deg C ampacity= 75 I Temperature derate(%=F) 0.91 4.c Icont=(Amps) 20.00 Conduit ill derate(% ) 1 Start ampacity 75 Derated ampacity 38.4 I Temp.derate(%=F) 0.91 3.d Icont*1.25=(Amps) 25.00 Cndt.ill derate(%=#) 1 Ampacity 35 I Derated ampacity 68.25 I 3.e EGC/GEC = D AWG 08 Art.690.47(CX3),250.166(B) 4.d Icont*1.25=(Amps) 25.00 Ampacity 65 I WIEIDE a - THE DFORYA"HEREN 43e JB-9721625 0 0 PREMISE owElt °a'TNIitD sHML HOT sE USED FOR THE TIDRICK, ROBERT C. DEEM veto," eD TT Cf ANYONE EXCEPT saARa1Y INC., t10lM1itIG SYSTEM 12310 SW HOLLOW LN TIDRICK RESIDENCE Grayson Tonks , ; NOR SNAIL FIEOUTSIDE DISCLOSED IN NHOLERECIPIENT'S OR IN Comp Mount Type C 5 KW PV Array ►t SoiarCity PART m OTHERS ETa9E CN ECIONNrs TIGARD, OR 97223 aacAwzATlal4 EXCEPT M oola+ECTaN YYITH DE SALE AND USE or THE RESPEcmE (20) TRINA SOLAR # TSM-250PA05.183055 p eaniew Way SOIaRCITY EQUPAIENT, NInIDUT 1HE WRITTENmum PAGE NATE: SHEET REV: DATE r( )Son Mateo. ��)638-1029 ""�10N OF SOLAR"n INC. POWER-ONE # AURORA PVI-4.2-OUTD-S-US 5039273252 ELECTRICAL CALCULATIONS PV 6 9/9/2013 (888)-sa-cm(765-2489),,.,,,.,1,,, yc m • CAUTION POWER TO THIS BUILDING IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS LOCATED AS SHOWN: - Address: 12310 SW Hollow Ln UTILITY SERVICE INVERTER AND DC DISCONNECT 'likiAT 0_ SOLAR 0 PHOTOVOLTAIC ON ROOF PHOTOVOLTAIC BACK-FED CIRCUIT BREAKER RI MAIN ELECTRICAL PANEL IS A/C DISCONNECT PER NEC 690.17 - OPERATING VOLTAGE = 240V MAX CURRENT = 19.17 A `"4F/CenlAL- THE'" HERE" 108"'"' J B-9721625 00 PREF°'"N DESCRIPTION CONTAINED SHALL NOT BE USED FOR THE TIDRICK, ROBERT C. DESIGN ``w. NaR SHALL'�°'�°�°BENEFIT OF ANYONE EXCEPT TM�R+ Comp M unt Type C 12310 SW HOLLOW LN TIDRICK RESIDENCE Grayson Tonks 1�,��; PART TO OTHERS OUTSIDE THE RECIPIENrs 5 KW PV Array ►� SolarCity ORGANIZATION,EXCEPT IN CONNECTION YAM Ho°utEs TIGARD, OR 97223 THE SALE AND USE OF THE RESPEC1K (20) TRINA SOLAR # TSM-250PA05.183055 aeorwe. May SO ARCITYPERMISSION EQUIPMENT,NIIHOUT THE NRITTEN NVERRR PAGE NAAE SHEET: REM DATE: San Nata0.CA 91102 Cr saaRaTr INC POWER—ONE # AURORA PVI-4.2—OUTD—S—US 5039273252T:(650)&TB-1048 F(890)aae-1029 SITE PLAN PLACARD PV 7 9/9/2013 (888)-soy-aTY(ns-2 ),0)"2 aa�Hx�,n, Label Location: Label Location: Label Location: CAUTION. SOLAR CIRCUIT (C) MAXIMUM AC A (AC)(P01) CAUTION (POI) Per Code: OPERATING CURRENT Per Code: DUAL POWER SOURCE Per Code: CA Fire Guidelines MAXIMUM AC NEC 690.54 SECOND SOURCE IS OPERATING VOLTAGE PHOTOVOLTAIC SYSTEM NEC 690.64.B.4 Label Location: PHOTOVOLTAIC DC (DC)(INV) DISCONNECT Per Code: NEC 690.14.C.2 Label Location: Label Location: PV SYSTEM (AC)(POI) 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 POINT CURRENT(Imp) A Per Code: MAY BEUNDED ENERGIAND ZED INVERTER IS MAXIMUM POWER-_� NEC 690.53 UNGROUNDED POINT VOLTAGE(Vmp) MAXIMUM SYSTEM Label Location: VOLTAGE(Voc) WARNING (AC)(P01) SHORT-CIRCUIT_A Per Code: CURRENT(Isc) ELECTRIC SHOCK HAZARD DO NOT TOUCH TERMINALS NEC 690.17(4) TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION Label Location: WARNING (DC)(CB) ELECTRICAL SHOCK HAZARD Per Code: DO NOT TOUCH TERMINALS NEC 690.17(4) Label Location: TERMINALS ON BOTH LINE AND WARNING (POI) 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 IF A GROUND FAULT IS INDICATED HAZARD. DO NOT TOUCH NEC 690.17.4; NEC 690.54 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 _ PHOTOVOLTAIC AC (AC)(P01) MAXIMUM AC (AC):AC Disconnect DISCONNECT Per Code: OPERATING VOLTAGE - V (C): Conduit NEC 690.14.C.2 (CB): Combiner Box (D): Distribution Panel (DC): DC Disconnect Label Location: (IC): Interior Run Conduit CAUTION (D)(POI) (INV): Inverter With Integrated DC Disconnect Per Code: (LC): Load Center PHOTOVOLTAIC SYSTEM NEC 690.64.8.4 (M): Utility Meter CIRCUIT IS BACKFED (P01): Point of Interconnection CONFIDENTIAL- 1HE INFORMATION HEREIN CONTAINED SHALL NOT BE USED FOR THE BENEFIT OF ANYONE EXCEPT SOLAROTY INC.,NOR SHALL IT BE DISCLOSED v.of, 3055 Cleavlew Way IN WHOLE OR IN PART TO OTHERS OUTSIDE THE RECIPIENT'S ORGMNZATION, SC - OR Label Set .: ' T:�65o,�M"eo,CA9463&1029 EXCEPT IN EQUIPMENT, WITH NE SALE AND USE OF THE RESPECTIVE SoiarC'ty (888)-SOL-CITY(765-2489)www.solarciey.com SOLARCITY EQUIPMENT, WITHOUT THE MITTEN PERAISSION OF SOLARCITY INC o ZS Comp Edge Zone Calculations 1 of 4 ZS Comp Edge Zone Calculations 2 of 4 ZeSolar 5/28/13 5/28/13 p ZepSotar 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 calculations will vary the design variables to account for the worst case for each failure mode that is beingdown force spacing= module width x design load 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 Comp Mount Allowable Loads GCN portrait= 0.4 0.9 0.9 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 . Fro ,�.., note:use 10 psf minimum l, Agir 7---.-414R111/ Snow Calculations Attachment Spacing Calculations 85818 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 P above 30 degrees. Allowable Uplift Load F"w mp. :,,5 uplift spacing= eur Roc,- 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 P=qh GCN Design Snow Load 29.11 25.98 psf cin=0.00256 K,Krt 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 K,=0.98 from Table 6-3 Combinations: 14 30 D+S= 31.16 25.10 psf Gable/Hip Roof K,= 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+0.75S 31.59 32.46 psf Roof Height= 30 GCN landscape= -1.6 iscape effective area= 13.0 ft2 GCN portrait= -1.5 landscape downforce spacing_ 11471bs in ortrait effective area= 21.7 ft2 p p g 39"x 32.46psf x 144 ft2 = 130" Plandscape= -30.79 psf qh= 19.25 psf Pportrait= -28.87 psf 11471bs in portrait down force spacing= 65"x 32.46psf x 144 ft2 =78" 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 x 144 in =83" 656 lbs in portrait uplift spacing = x 144 65"x 27.12 psf ft2 =54" ZS Comp Edge Zone Calculations 3 of 4 ZS Comp Edge Zone Calculations 4 of 4 ZeC`a{a r 5/28/13 5/28/13 p l ZepSotar 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 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=0.7CeC5lpg Ce=0.9 C5= 0.71 0.45 Cr= 1.2 pf= 22.68 22.7 psf portrait module spacing=-1.7917 x 32.46 psf+118.58=60" I= 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) 300 27" 30" Lateral 74" 48" 45" Lateral Force Component Module Deflection 73" 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+0.755 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= 39"x 14.49 psf x 144 ftz = 74" 292lbs in portrait lateral spacing= 65"x 14.49 psf x 144 ftz =45" Portrait spacing is less than 48".Try roof pitch of 27 degrees 292lbs in portrait lateral spacing = 65"x 1330 psf x 144 ftz =48" SolarCity SleekMountTM - Comp SolarCity SleekMountTM - Comp The SolarCity SleekMount hardware solution •Utilizes Zep Solar hardware and UL 1703 listed ,. Installation Instructions is optimized to achieve superior strength and 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 listed to UL 2703 Fastener Size Per NDS Section 1.1.3.2 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 visually appealing system.SleekMount as"Grounding and Bonding System" Insert Comp Mount flashing under upper 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 Install lag pursuant to NDS Section 11.1.3 shingles are not required to be cut for this system, allowing for minimal roof disturbance. •Applicable for vent spanning functions \11111 0\ with sealing washer. Secure Leveling Foot to the Comp Mount using machine Screw Place module ';',-, itt 0 Components vor,► • 5/16"Machine Screw ` 4 ', 41 4��i • Leveling Foot �` 4 1 Y Z' -..-gook,,it4,,,,, ,,,,,,,,: til- -t,--40;_v- 4, Lag Screw E • Comp Mount � `4 3 Comp Mount Flashing Y 0 0AP' .t • s=: r �o�� ;x 'k Val I '' �� January 2013 �� V`:J LISTED '>' SolarCit� comp. J® January 2013 • • r‘ Parer-01181-- )6iiitiii?,01.4t iNk . . . ‘./Renewable Energy Solutions TECHNICAL DATA r VALUES PVI-3.0-OUTD-US PVI-3 6-otno-tis- PVI-4 2 OUTD Li .... . . Nominal Output Power W 3000 3600 4200 Maximum Output Power W 3000 3300" 3300" 3600 4000" 4000** 4200 4600". 4600** 0 Rated Grid AC Voltage V 208 240 277 208 240 277 208 240 277 Z input Side(DC) M Number of independent MPPT Channels 2 2 2 PVI-3.()-1'1.. Maximum Usable Power for Each Channel Absolute Maximum Voltage(Vmax) W V 2000 600 3000 600 3000 600 Start-Up Voltage(Vstart) V 200(adj.120-350) 200(adj.120-350) 200(ac/j.120-350) PVI-3.6-rt. beiit 5 Full Power MPPT Voltage Range V 160-530 120-530 140-530 4. Operating MPPT Voltage Rang* V 0.7xVstart-580 0.7xVstart-580 0.7xVstart-580 Maximum Current(idcmax)for both MPPT in Parallel A 20 32 32 PV1-11.2-1"1.. Maximum Usable Current per Channel A 10 16 16 Maximum Short Circuit Current Limit per Channel A 12.5 20 20 Number of Wire Landing Terminals Per Channel 2 Pairs(1 on-S version) 2 Pairs(1 on-S version) 2 Pairs(1 on-S version) GENERAL SP['_( IFICAT1C)NS Array Wiring Termination Terminal block,Pressure Clamp,AWGIO-AWG4 Output Side(AC) OUTDOOR MODELS • 4,,,,...i. '''C's-,:d.4,'dtS:e.'..e=e,e''.''''s .' 0,,I.-,, -se*.....se. -...,,x-.. Grid Connection Type 10/2W Slit Split 10/2W Split- 10/2W 10/2W Split- 10/2W 0/31PI 0/3W 0/3W Adjustable Voltage Range(Vmin-Vmax) V 183-228 211-264 244-304 183-228 211-264 244-304 183-228 211-264 244-304 Grid Frequency Hz 60 60 60 Adjustable Grid Frequency Range Hz 57-60.5 57-60.5 57-60.5 A Maximum Current(lacmax) AR., 14.5 14.5 12 17.2 16 16 20 20 20 . - -- Power Factor >0.995 >0.995 >0.995 Th , , anavensge- .-rz.,..,:.emost(muffs:tit rendentialkiverteris thekiealsbe for ''-' 5„ Total Harmonic Distortion At Rated Power % <2 <2 <2 , .„ .5r sized-family home. This family Of single-phase string Inverter '''',--*'.', ''' - . Grid Wiring Termination Type Terminal block,Pressure Clamp,AWG10-AWG4 comPlements the typical MaMbet of rtkoftoP sctitir Paneb,*Hewing ''' - Protection Devices input - -,, ' Reverse Polarity Protection Yes Yes Yes hOto!tOgto9tO, ,... to get the Most efficient energy' herveedng for the , -..;;?:` .. **of the property.This rugged outdoor inverter has been designed .1:;; '''''''-'''''-,-.•-• Over-Voltage Protection Type Varistor,2 for each channel Varistor,2 for each channel Varistor 2 for each channel PV Array Ground Fault Detection Pre start-up Riso and dynamic GFDI(Requires Floating Arrays) as a torripletely sealed unit to withstand the harshest enviromnernal -);;,,' Output CSInd-iti°1" , Meets UL 1741/IEE1547 Meets UL 1741/IEE1547 Meets UL 1741/10E1547 - - - .--- - .,°.'4';',; Anti4slanding Protection e,--,,?:,,,f,-,-;,.1;--,„;,1,Pet.:,,i-4,-1- ' . , requirements requirements requirements Over-Voltage Protection Type Varistor,2(L-L/L-0) Varistor,2(1-L/L-G) Varistor,2(L-L/L-0) One Of Ette key benefits of tlue Urns famlly of single-phase inverters -`•4, ':::---:-1;::-::: '' Maximum AC OCPD Ratin9 A 20 20 15 25 20 20 25 25 25 Is the dual input section topmcess two strings with independent ,,,i4 1 '' \ Efficiency Maximum Efficiency 96.9 97 97 MPPT especially useful for rooftop installations with two different 'ix '''' , CEC Efficiency % 96 96 96 ' ge East andiNest).The high speedMPPT offers real-time .".-'1 orientation ,... * - 4Performance Othlfalk9 .,. _ . Stand-by Consumption Wws <8 <8 <8 power tracking and Improved energy harvesting. ' -'''' • ' * Night time consumption W.,. <0.6 <0.6 <0.6 , - - . -.. Communication , User-Interface The transformedess operation gives the highest efficiency of up to •r . Remote Monitoring(1xItS4115 i 16 characters x 2 lines LCD display 970%. AURORA-UNIVERSAL(opt.) wide input voltage range Makes the inverter suitable to Wired Local Monitoring(1 xRS4115 Ind.) PVI-USB-R5485_232(opt),PVI-DESKTOP(opt) .. , , , - low power kistallistbns with reduced string shim. ''- Wireless Local Monitoring PVI-DESKTOP(opt)with PVI-RADIOMODULE(opt) ° ' - sous a auras. Environmental -13 to+140(-25 to+60)with -13 to+140(-25 to+60)with -13 to+140(-25 to+60)with Ambient Ak Operating Temperature Range °F(°C) derating above 131(55) derating above 131(55) derating above 113(45) a - . - Ambient Air Storage Temperature Range °F(°C) -40 to 176(-40 to+80) -40 to 176(-40 to+80) -40 to 176(-40 to+80) ,...,„ *- Relative Humidity %RH 0-100 condensing 0-100 condensing 0-100 condensing „ -, ,-,-.010/0/01. Acoustk Noise Emission Level db(A)WI m <50 . <50 <50 .... ., Features - - Maximum Operating Altitude without Derating ft(m) 6560(2000) 6560(2000) 6560(2000) /Reamers.'Spedfications Enclosure rating NEMA 4X NEMA 4X NEMA 4X Cooling Natural Convection •Each inverter is set on specific grid codes which can be selected in the field Natural Convection Dimensions(H x W x D) in(mm) 338.128X 8.7(859 x 325 x 222)-s Version Natural Convection •Slieje phase output : Weight lb/(kg) <47.3(21.3)-S version <47.3(21.3)-5 version <47.3(21.3)-S version Wall bracket Wall bracket Wall bracket •Dual input sections with independent MPPT allows optimal energy harvesting from two sub-arrays oriented In Mounting System Trade size KOs:(2ea x 1/2")and Trade size KOs:(2ea x 1/2')and Trade size KOs:(2ea x 1/2')and tinrent. digctkarts_ (2ea x 1-1/4',3 places side,front, (2ea x 1-1/413 places side,front, (2ea x 1-1/41 3 places side,front, Conduit Connections ... +I VVIde INPUL WO - rear) rear) rear) . _ , . DC Switch RatingiPer Contact) AN 25/600 25/600 25/600 *High stiated imdpmcbe MPPT algorithin far raitkne payer tracking and kiminved „ energy harvesting - Safety Isolation Level Transformerless(Floating Array) Transformerless(Floating Array) Transformerless(Floating Array) ii,fitritbaden0 alfires ensure high efficiency at all. out.*levels ensuring-conshtent-and stable performance across . thirtoitheinput voltaimandoutputpotier -'' ' - - Safety and EMC Standard UL 1741,CSA-C22.2 N.107.1-01 UL 1741,CSA-C22.2 N.107.1-01 UL 1741,CSA-C22.2 N.107.1-01 Safety Approval ,CSA,,, CS/4,,, ,CSA„, •-Outdoor enclosure for unrestricted use under erivberunentat • _ any confiltions Warranty • in,tecoled oc disconnect, switch in omplance with fretemsonal systdards oversioto Standard Warranty years 10 10 10 Extended Warranty years 15&20 15&20 15&20 0"RS-485comnItIrtiattiOn interface(for connectkta to*stop or datalogged . Available Models - ' Standard-Without DC Switch and Wiring Box PVI-3.0-OUTD-US PV1-3.6-OVID-US PVI-4.2-OUTD-US , . , •C°"‘Paiihiti. with PVRADIOMOOME for witelets mitimitilicatien with Aurora PVI-OESKTOP With DC Switch and Vfiring Box PVI-3.0-OUTD-S-US PVI-3.6-OUTD-S-US PVI-42-OUTD-S-US ' •All data is subject to change widsout notice .Capahikty enabled at nominal AC voltage and with suffident DC power available AURORA UNO 1 AURORA UNO 3 •••When equipped with optional DC Search and Mang Box . CSA INTERNATIONAL Certificate of Compliance Certificate: 2096477 Master Contract: 173688 Project: 2439385 Date Issued: July 19,2011 Issued to: Power-One,Inc 740 Calle Plano Camarillo,CA 93012 USA Attention:Robert White The products listed below are eligible to bear the CSA Mark shown with adjacent indicators 'C'and 'US'for Canada and US or with adjacent indicator 'US'for US only or without either indicator for Canada only. Rob-}f empbtock Issued by: Rob Hempstock,AScT. C US PRODUCTS CLASS 5311 09 -POWER SUPPLIES-Distributed Generation Power Systems Equipment CLASS 5311 89 -POWER SUPPLIES-Distributed Generation-Power Systems Equipment -Certified to U.S.Standards Utility Interactive Inverter,Models PVI-4.2-OUTD-US,PVI-3.6-OUTD-US,PVI-3.0-OUTD-US,PVI-4.2- OUTD-S-US,PVI-3.6-OUTD-S-US,PVI-3.0-OUTD-S-US,PVI-4.2-OUTD-US-W,PVI-3.6-OUTD-US-W and PVI-3.0-OUTD-US-W;provided with two DC input channels,permanently connected. For details related to ratings,reference should be made to the CSA Certification Record,Appendix 1 or the Descriptive Report. APPLICABLE REQUIREMENTS CSA-C22.2 No.107.1-01 - General Use Power Supplies UL Std No. 1741-Second Edition - Inverters,Converters,Controllers and Interconnection System Equipment for Use With Distributed Energy Resources(January 28,2010) DQD 507 Rev.2009-09-01 Page:1 TSM-PA05.18 TRINAMOUNT II WITH THE UNIVERSAL MODULE • Mono Multi Solutions DIMENSIONS OF PV MODULE TSM-PA05.18 ELECTRICAL DATA C STC TSM-240 TSM-245 TSM-250 TSM-255 TSM-260 PA05.18 PA05.18 PA05.18 PA05.18 PA05.18 941mm Peak Power Wafts-Pv s(Wp) 240 245 250 255 260 ! _sTirrigt_ Power Output Tolerance-Pm.(%) 0/+3 0/+3 0/+3 0/+3 0/+3 ,ONc N a Maximum Power Voltage-Vn v(V) 29.7 30.2 30.3 30.5 30.7 POx um T pA05 .1 oOpen Cir uoworage-VocI.rr(V)(A) 3..3 3..5 8.27 37.7 8.47NAMEPLATE Nacwx xC� o Open Circuit Voltage-Voc(V) 37.3 37.5 37.6 37.7 37.9 INSTILLING NOLE _ Short Circuit Current-Isc A ' � ( ) 8.62 8.68 8.85 8.92 9.00 Module Efficiency nm(%) 14.7. 15.0 15.3 15.6 15.9 THE TRINAMOUNT MODULE 3 STC:Irradiance 1000 WW,Cell Temperature 25°C,Air Mass AM1.5 according to EN 60904-3. Average efficiency reduction of 4.5%at 200 W/m2 according to EN 60904-I. E g 0 3 3 TSM-240 TSM-245 TSM-250 TSM-255 TSM-260 ELECTRICAL DATA C NOCT 60 CELL PA05.18 PA05.18 PA05.18 PA05.18 PA05.18 Maximum Power-PMox(Wp) 174 178 181 184 188 MULTICRYSTALLINE MODULE Maximum Power voltage-VMr(V) 26.6 26.8 27.0 27.2 27.4 re<.aGROUNDING HOLE Maximum Power Current-Ie. (A) 6.55 6.64 6.70 6.77 6.86 A A WITH TRINAMOUNT FRAMEEMIMMN HOLE Open Circuit Voltage(V)-Voc(V) 34.1 34.2 34.3 34.4 34.6 /� _i Short Circuit Current(A)-Isc(A) 7.04 7.10 7.25 7.31 7.37 240 zbOW 812mm 780 NOCT:Irradiance at 800 WWW,Ambient Temperature 20°C,Wind Speed I m/s. Back View POWER OUTPUT RANGE Our most versitile product MECHANICAL DATA CD • Compatible with all major BOS components and system -( n1 Solar cells Multicrystalline 156 x 156 mm(b inches) designs I CellorienTation 60cells)6 0 10) 15g� S �` Module dimensions 1650=992 a 40 mm(64.95 n 39.05 o 1.57 inches) Weight 18.6 kg(41.0 Ibs) MAXIMUM EFFICIENCY M Glass High transparency solar glass 3.2 mm(0.13 inches) One of the industry's most trusted modules Backsheet White fri • Over 2 GW sold across all major global markets Frame Black Anodized Aluminium Alloy with Trinamount Groove 0.r+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'), POWER OUTPUT GUARANTEE 10°° 1100 mm(43.3 inches) __. Connector Original MC4 9m,, 800W/m2 7ml Highly reliable due to stringent quality control 6 600W/m2 As a leading global manufacturer �% • Over 30 in-house tests(UV,TC,HF,and many more) 4e `f r VW/rn' TEMPERATURE RATINGS MAXIMUM RATINGS of next generation photovoltaic In-house testing goes well beyong certification requirements v. products,we believe close 2., N'/m2 Nominal Operating Cell 45°C(±2°C) Operational Temperature -40-+85°C cooperation with our partners 1 Temperature(NOCT) (IEC)/ is critical to success. With local 0• Temperature Coefficient of Nix -0.43%/°C Voltage Maximum System 1000V DC presence around the globe,Trina is o" to.� zoo 30° 4omboOVDC(uL) able to provide exceptional service Voltage(V) Temperature Coefficient ofvoc -0.32%/°C Max Series Fuse Rating 15A to each customer in each market Temperature Coefficient oflsc 0.047%/°C arta supplement our innovative. Certified to withstand challenging environmental reliable products with the backing conditions of Trina as a strong,bankable • 130 km/hr wind load (2400 Pa) WARRANTY partner. We are committed • 900 kg snow load per module (5400 Pa) to building strategic,mutually 10 year Product Workmanship Warranty beneficial collaboration with installers,developers,distributors 25 year Linear Power Warranty and other partners as the (Please refer to product warranty for details) backbone of our shared success in driving Smart Energy Together. LINEAR PERFORMANCE WARRANTY CERTIFICATION n PACKAGING CONFIGURATION 10 Year Product Warranty•25 Year Linear Power Warranty 11 C • sp Trina Solar Limited 'co mr us Modules per box:24 pieces www.trinasolar.com Modules per 40'container:672 pieces ml00% �r o Addrfrona/ ISO is (( c@in IW 2YcLE • 0 90% x-o ' ; vQ e/Tom Trina So/pr's/blear N,arront w.«. urns v (980% ¢ , y • CAUTION:READ SAFETY AND INSTALLATION INSTRUCTIONS BEFORE USING THE PRODUCT. 014P4r, r�nasolar Tr�nasolar a 2013 Tina Solar Limited.All rights reserved.Specifications included in this dafasheef are subject to ti4 � . °T' .>� ,.*�'#t�� change without notice. Smart Energy Together Smart Energy Together p Years 5 10 IS 20 25 gl Indu;trp,-,,,r1,-3 . Trina Solar COMPrr"W