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Plans ABBREVIATIONS ELECTRICAL NOTES JURISDICTION NOTES `;_ E. c- riy"1 A AMPERE 1. THIS SYSTEM IS GRID-INTERTIED VIA A1•141•••• •• Q {'* AC ALTERNATING CURRENT UL-LISTED POWER-CONDITIONING INVERTER. "~ . CI BLDG BUILDING 2. THIS SYSTEM HAS NO BATTERIES, NO UPS. •• .no. 4. Q CONC CONCRETE 3. A NATIONALLY-RECOGNIZED TESTING DC DIRECT CURRENT LABORATORY SHALL UST ALL EQUIPMENT IN •• EGC EQUIPMENT GROUNDING CONDUCTOR COMPLIANCE NTH ART. 110.3. ) _ d N I � � E� �S t- (E) EXISTING 4. WHERE ALL TERMINALS OF THE DISCONNECTING n P.RO i.rj 4 EMT ELECTRICAL METALLIC TUBING MEANS MAY BE ENERGIZED IN THE OPEN POSITION, FSB FIRE SET-BACK A SIGN RLL BE PROVIDED WARNING OF THE 11.11 NOV 1 1 2015 GALV GALVANIZED HAZARDS PER ART. 690.17. V 0 GEC GROUNDING ELECTRODE CONDUCTOR 5. EACH UNGROUNDED CONDUCTOR OF THE04 GND GROUND MULTIMRE BRANCH CIRCUIT WILL BE IDENTIFIED BY /� CITY OF TIGARD HDG HOT DIPPED GALVANIZED PHASE AND SYSTEM PER ART. 210.5. t 1. ill q� I CURRENT 6. CIRCUITS OVER 250V TO GROUND SHALL y " BUILDING DIVISION Imp CURRENT AT MAX POWER COMPLY WITH ART. 250.97, 250.92(B). �y ^ Isc SHORT CIRCUIT CURRENT 7. DC CONDUCTORS EITHER DO NOT ENTER ////II�� V 4 kVA KILOVOLT AMPERE BUILDING OR ARE RUN IN METALLIC RACEWAYS OR Al ( () kW KILOWATT ENCLOSURES TO THE FIRST ACCESSIBLE DC0 § • KLBWLOAD BEARING WALL DISCONNECTING MEANS PER ART. 690.31(E). g • MIN MINIMUM 8. ALL WIRES SHALL BE PROVIDED WITH STRAIN (N) NEW RELIEF AT ALL ENTRY INTO BOXES AS REQUIRED BY /1. i---_ NEUT NEUTRAL UL LISTING. V r 4t NTS NOT TO SCALE 9. MODULE FRAMES SHALL BE GROUNDED AT THE --____. OC ON CENTER UL-LISTED LOCATION PROVIDED BY THE '"p" I PL PROPERTY LINE MANUFACTURER USING UL LISTED GROUNDING ^>� 1 POI POINT OF INTERCONNECTION HARDWARE. �. N n PV PHOTOVOLTAIC 10. MODULE FRAMES, RAIL, AND POSTS SHALL BE '� SCH SCHEDULE BONDED WITH EQUIPMENT GROUND CONDUCTORS. ((J%4 IMI S STAINLESS STEEL STC STANDARD TESTING CONDITIONS TYP TYPICAL UPS UNINTERRUPTIBLE POWER SUPPLY V VOLT Vmp VOLTAGE AT MAX POWER VICINITY MAP INDEX Voc VOLTAGE AT OPEN CIRCUIT W WATT t ' S44,iii.tTnT '`I ri'i/,a ar ;. - '""" PV1 COVER SHEET 3R NEMA 3R, RAINTGHT • ` ' tT • PV2 SITE PLAN .. • ,!, 'n z .�'"�'' r, ? 8�1 PV3 STRUCTURAL VIEWS ' , PV4 UPLIFT CALCULATIONS LICENSE GENERAL NOTES ,. ,'' °-:�� __-` ,, PV5 ELREEECT LINE DIAGRAM SWMCDOnai PV6 ELECTRICAL CALCULATIONS Cutsheets Attached # OR 180496 1. ALL WORK TO BE DONE TO THE 2014 OSSC ,. P r _,AND 2012 IBC. r • , r RGC, CGC1 2. ALL ELECTRICAL WORK SHALL COMPLY WITH - ' .„,u,y. i” b,; . _^ THE CURRENT NATIONAL ELECTRIC CODE AS AMENDED BY THE OREGON ELECTRICAL SPECIALTY yy n F CODE. 4 _ c • t( MODULE GROUNDING METHOD: ZEP SOLAR T �'` „ ' ...REV BY DATE COMMENTS AHJ: Tigard ^ f Y'' nimCMC2111 COMMENTS r: UTILITY: Portland General Electric -'-'" MIIIIIIIMIIIIMIMINIIIM tvletro` Porfland Oregon, State of Oregon, U.S. Geological Survey imilm� camoa+n,E-THE IN<DRUATIw TEREM 1®MAel PRET'OMdli �S DEM V-t, JB-9723068 00 Marco Casares `�` BENEFITED SHALL NOT BE USED FOR THE ELLIS, HOA ELLIS RESIDENCE �."'Zee.r. NEVES'OF FIN°"CLOSE sN WU I Comp Mount 9515 SW ELROSE ST 3.38 KW PV ARRAY ',� NOR SHALL a BE asCLDSEE THE xHDEE DR i" Com Mount Type C PART TO OTHERS OUTSIDE RECIPIENT'S p TIGARD, OR 97224 ORGANIZATION,EXCEPT T CONNECTION NSR RULES: 3055 THE SALE AND USE OF THE RESPEe (13) REC #REC260PEZ PAS 644 srcE: RET' DAF r(uw)San sMarin e CA 638-1029650) PERMISSCURCO EMINENT,WITTYN INC. THE rrtaTrEN � PERas9oNocsaaTarc. ABB; PVI-3.0-OUTD-S-US-Z-A (503) 381-7625 COVER SHEET PV 1 10/31/2015 (588)-SD(-CITY(765-2489)•n.wlucRrmn PITCH:30 ARRAY PITCH:30 MP2 AZIMUTH:180 ARRAY AZIMUTH:180 MATERIAL:Comp Shingle STORY:2 Stories ,> 1 / N.. 4LEGEND Ihik ®I (E)UTILITY METER &WARNING LABEL Front Of House e INVERTER W/INTEGRATED DC DISCO & WARNING LABELS r , A temporary porno!to practice m Oregon has ® DC DISCONNECT &WARNING LABELS boon granted to NICHOLAS GORDON v�aha `� ;,Inv';' 0 '' only ohtaorectaiaction utaken onI1/IOnols Ac AC DISCONNECT &WARNING LABELS cn L L: Oregon rg trawn `O Oe DC JUNCTION/COMBINER BOX &LABELS rrt (E)DRIVEWAY , Digitally signed by Nick Gordon Po' , Date:2015.11.02 10:07:17-08'00' 10 DISTRIBUTION PANEL&LABELS �/ r —1 "Pse— Ec LOAD CENTER & WARNING LABELS n frw..8/–— trt"I - O DEDICATED PV SYSTEM METER y , STANDOFF LOCATIONS CONDUIT RUN ON EXTERIOR / --- CONDUIT RUN ON INTERIOR — GATE/FENCE O0 HEAT PRODUCING VENTS ARE RED nR '_, A 5t 2. INTERIOR EQUIPMENT IS DASHED F L-J SITE PLAN N TOTAL ARRAY AREA(SF):236 TOTAL ROOF AREA (SF):3059 Scale:3/3r=1' C E TOTAL ARRAY AREA IS on 7.7 O1' 10' 21' PERCENT OF TOTAL ROOF AREA JB-9723068 00 PREMISE MET DEsaaPna. MTN: CONTAINED S-THE NOT BE USED NEnoe Tee MAW: NA,tA BENEFIT SHALL BE USED rax n¢ ELLIS, HOA ELLIS RESIDENCE Marco COsares �. COh��I�" BEHEST ar ANYONE EXCEPT SaAROTY PIC.. MOUNTING SYSTEM: 'is r. NOR SHALL it BE OOEOSA IN WHOLE OR IN Com Mount Type C 9515 SW ELROSE ST 3.38 KW PV ARRAY PART TO OTTERS OUTSIDE THE RECIPIENT'S Moon TIGARD, OR 97224 wss ,wcY ORGANIZAnhN,EXCEPT IN CuNNECDON WITH THE SALE AND USE Or TIE RESPECTS (13) REC )y REC260PEZ PACE NAVE SXEE. REY oA E Motto.CA 84402 SOAROTY EQUIPMENT.WITHOUT THE WRITTENm. F.(650)Son Mott r:(sso)2 ion PERW59aNasaVJtan INC. ABB PVI-3.0–OUTD–S–US–Z–A (503) 381-7625 SITE PLAN PV 2 10/31/2015 (888)-Sa-arY(785-2688)m.Yamriq.aan il e di 2x6 DF#2 /,fr CO ,, 4" I 11'-9" 1'-a� (E)LBW Ci) SIDE VIEW OF MP2 NTS SISTER UPGRADE INFORMATION: RAFTER UPGRADE INDICATED BY HATCHING UPGRADE NOTES: ' MP2 X-SPACING X-CANTILEVER V-SPACING V-CANTILEVER NOTES 1. CUT AND ADD(N)SISTER AS SHOWN IN THIS SIDE VIEW AND REFERENCED TOP VIEW. LANDSCAPE 72" 24" STAGGERED 2. FASTEN (N)SISTER TO(E) MEMBER WI SIMPSON SDW 22300(IF 2-PLY) OR 22458 PORTRAIT 48" 20" (IF 3-PLY) SDW SCREWS AS SHOWN AT 16" O.C. ALONG SPAN AS SPECIFIED, IF RAFTER 2x6 @ 24"OC ROOF AZI 180 PITCH 30 STORIES:2 WOOD SPLITTING IS SEEN OR HEARD, PRE-DRILL WITH A h" DRILL BIT. ARRAY AZI 180 PITCH 30 [.7. 2x6 @24"OC Comp Shingle ALT. OPTION FOR FULL LENGTH MEMBERS ONLY- FASTEN (N) SIDE MEMBER TO (E) RAFTER W/10d(IF 2-PLY) OR 16d FROM EACH SIDE(IF 3-PLY) COMMON NAILS AT 6"O.C. ALONG SPAN. •SISTER ALL RAFTERS ON THIS MP SECTION INTO WHICH THE ARRAY IS LAGGED A temporary permit to practice in Oregon has been granted to NICHOLAS GORDON valid only until uffr,al acnon is taken un 1 I/1012015 fur Oregon rcgntration SIMPSON SOW 22300 WOOD SCREWS (E) RAFTER 6" END DISTANCE I (E) WALL OR (N) SISTER MEMBER CENTERED (E) RIDGE BOARD (' G"�`l6"O.C. TTP.-7 r (E) 2x6 RAFTER SUPPORT BELOW BETWEEN SUPPORTS OR SUPPORT BELOW I l 1 lII it -- - - —i��IM 23/4" _.I — I. — -I — A SEE MP SIDE VIEW FOR REQUIRED LENGTI I X I SIMPSON SDW WOOD SCREWS (N) 2x6 SIDE' -4 OA m MEMBER v MIR v m TOP VIEW OF PARTIAL LENGTH SISTERD2 2x6 END FASTENER GROUPING Scale:3/4"=1'-0" Scale:1"=1'-0" cwroENnu-THE INFORMATION HEREIN .IDe NUMBER JB-9723068 00 PROM OM: DEscwPna+. DEIGN: \`1 CONTAINED SHALL NOT BE USED FOR THE ELLIS, HOA ELLIS RESIDENCE Marco Cosares �:4< BENEFIT OF ANYONE EXCEPT SOEARGTV INC. MOUNTING�IEI ;; olar ity. NOR SHALL IT BE DISCLOSED IN MIME OR IN Comp Mount Type C 9515 SW ELROSE ST 3.38 KW PV ARRAY PART TO OTHERS OUTSIDE THE RECIPIENTS ORCANIZA0ON,EXCEPT IN CONNECTOR VAN Kau& TIGARD, OR 97224 3055 aaoMa.war THE SALE AND USE OF THE RESPEentE (13)REC #REC260PEZ PATH NAME 9QFT: REV DA E s30 Malee,CA Bt•02 so a ON OF S EQUIPMENT. NCr THE wrTT ET (503) 381—7625 PV 3 10/31/2015 (8813)-50.-013(T16501 ss2�g1 .o. N� ABB#PVI-3.0-OUTO-S-US-Z-A STRUCTURAL VIEWS PV MODULE 5/16" BOLT WITH LOCK INSTALLATION ORDER • & FENDER WASHERS LOCATE RAFTER, MARK HOLE ZEP LEVELING FOOT (1) LOCATION, AND DRILL PILOT ZEP ARRAY SKIRT (6) HOLE. SEAL PILOT HOLE WITH (4) (2) __ POLYURETHANE SEALANT. ZEP COMP MOUNT C -I��FF'w►--- • II-- l`f,MsIMM_ ZEP FLASHING C .....71111;&51,.Wllit (3)it INSERT FLASHING. (E)COMP. SHINGLE .-..a... �=-:- -- �iI�II IDI (4) PLACE MOUNT. (E) ROOF DECKING (5) INSTALL LAG BOLT WITH 5/16" DIA STAINLESS (5) SEALING WASHER. STEELSLAGI LAG BOWASHER LOWEST MODULE SUBSEQUENT MODULES (6) INSTALL LEVELING FOOT WITH WITH(2-1/2" EMBED, MIN) BOLT& WASHERS. (E) RAFTER STANDOFF SA temporary perms to praetise to Oregon has 111 Scale:11/2"=1' been granted to NICHOLAS GORDON valid only until official anion IN taken on 11/10/2015 for Oregon regulratInn CONFIOENRAL-INE INFORMATION HEREIN ,#3 NUMBER: JB-9723068 00 PREMISE MINED DESCRIPTION: DERa. CONTAINED SHALL NOT BE USED FOR IME ELLIS, HOA ELLIS RESIDENCE Marco Cosares ''N}'!SolarCity. BENEFIT OF ANYONE EXCEPT SOLARCIIY INC., MOUNTING SYSTEM Nat SHALL IT BE DISCLOSED IN MOLE OR IN Comp Mount Type C 9515 SW ELROSE ST 3.38 KW PV ARRAY '►iN PART 10 OTHERS OUTSIDE IRE RECIPIENTS ORCA ZAI1TN.EXCEPT IN CONNECTION WITH MOOUES T GARD, OR 97224 DIE SALE AND use OF THE RESPECTIVE (13) REC #REC260PEZ JOSS ae,nle.Wry SOIMOTY EQUIPMENT.NNTHa1T THE BRITTEN PACE NAME SHEET: REV. DATE Son Males.CA 9440040 BPARIER 2 PERMISSION a sa wan INC ABBE PVI-3.0—OUTD—S—US—Z—A (503) 381-7625 UPLIFT CALCULATIONS PV 4 10/31/2015 IBe2 91-arO(7625-2 F:(650) 9)i.v.scla0291y.enrn GROUND SPECS MAIN PANEL SPECS GENERAL NOTES INVERTER SPECS MODULE SPECS LICENSE BOND(N)p8 GEC TO(E)DEER AT PANEL Panel Number:NoMatch Inv 1: DC Ungrounded INV 1-(1)ABB#P14-3.0-WTD-S-US-Z-A LABEL A -(13)REC REC260PEZ OR#180498 WITH IRREVERSIBLE CRIMP Meter Number:25 041 197 FCI Inverter; Zigbee 3000W,240V,967. PV Module; 260W,236.6W PTC,MC4,40mm,Black Frame,ZEP Enabled RGC.CGC1 Underground Service Entrance INV 2 Voc: 37.8 Vpmax: 30.7 INV 3 Isc AND Imp ARE SHOWN IN THE DC STRINGS IDENTIFIER E 200A MAIN SERVICE PANEL (E)Distribution Panel ! (E)200A/2P MAIN CIRCUIT BREAKER ADJUST MIN.ACTIVATION VOLTAGES (E)WIRING A (E)LOADS COOPER Inverter 1 PAR 200A/2P 3 — Meter Socket (2) ABB h1 ^ PVI-3.0-OUTD-S-US-Z-A • (E)LOADS 20A/2P B L7 ECM 1 • • �• n • �� • •- --.—. (al) 200A/2P rrEul I EGfI1 •�_oc. Qx. IVstart=200V 1 ,j1• , I V I Gem 1 b a0 V cec TN y�_Dc 1 , oc� MP 1:1x13CLEI r• e + GO I_ MC _____ EGC J V N J __ EGCIGEC_J —T GEC 1 TO 120/240V SINGLE PHASE UTIUCt SERMCE Voc' = MAX VOC AT MIN TEMP A y —(I)�edRc,H2OA P-200AAC/1P 20�/1P.2 Spaces,Quo •AC • DC • B —(1)CIleto stBeta125A 44-11AdW6.ORing Type . —(1)AW CAP;B-L.re Mel Socket Accemory - )MSoliilbonk Mid-lata 2S a-Itron C Phan Meter;0191101 r�(1}AWG#1,nIWN-2.Block IIT��T(I)AWG#10,THAN-2,Block [�(2}AWG/ID,PV Wre,600V.Block Voc' =541.82 VOC TSC=9.01 ADC O knF-(1)AWGµ,iNWN-2,Rad .O LL(1)AWG/10.THWN-2.Red I O IGF(1)600 p6,SOmded Bare Copper EGC VmP =399.1 VDC Imp=8.5 AX (1)AWGµ,0444-2,Mite VmP =240 VAC Imp=N/A AAC L1(1)AWG/10,THYM-2,White NEUTRAL VmP =240 VAC Imp=14.5 MC EElI(1)Conduit Kit;3/4'EMT -(I)AWG 14,114N-2,Green EGC -(1)Cg1NoUlTT KIT Conduit "' .-(I)AwG 1660 (B,1 -2,Green EGC/GEC-(1)Cendult KIC 5/4'EMT 0 0'EMT • • • CONPIDENRAL-1HE INroRMAncN HERON JCR NUMBER J B-9723068 00 PREMISE OVER OEsaan06 OE908 �\Y CONTAINED SHALL NOT BE USED roe ICE ELLIS, HOA �:'§ BONEr1T a ANYONE EXCEPT SOLARCITY INC.. WRONG SYSTEM ELLIS RESIDENCE Marco Casares -.,,;COI��I+" NCR SHALL IT BE DISCLOSED N YMOLE OR IN CompMount Type C 9515 SW ELROSE ST 3.38 KW PV ARRAY ►IA l.�/ PART TO OTHERS OUTSIDE 116E RECOIENYS Kota TIGARD, OR 97224 CRGANZp10N,CCM N CONNECnON WITH THE SALE AND USE Or THE RESPECTRE (13) REC #REC260PEZ 3055 Circrrin Way 402 SOLARCITY EOUPMENT,6110061 NE 618T1EN INVERTER PACE NAME SHEET REV DATE 7.(650)638-1028ol Mateo, CA 94638-1029 OF w PERMISSION uRan INC. ABBE PVI-3.0-OUTD-S-US-Z-A (503) 381-7625 THREE LINE DIAGRAM PV 5 10/31/2015 )ORA)-Sa-aTY(Ts5-2489)e...waralty.aam ELECTRICAL CALCULATIONSModule: 13 RK 260PEZ 234.3 Inv Power WPIC Voltage Drop Calculations Version 5_8.0 Inverter 1: 1 ABB PVI-3.0-5 AFCI 0.96 3300 2924.06 Vdrop= Ito. • 2'Len.h ' Resistance / top) Module: REC 260PEZ 234.3 EMI1♦ MISMIII. Inverter 2- String: EIEMMIINEI ®' , at Max Ave HI.87 deg F Module: REC 260PEZ 234.3 Vdrop= 8.5 1 I 1.111 4 Ohms / 333.65 0.54 Inverter 3: Branch: Ell2= 1111111M®' 11 at Max Ave Hi:87 deg F Module: RK 260PEZ 234.3 Vdrop= ,.5 111 1.1 1 4 Ohms)/ 399.1 0.32 Inverter 4. Total voltage dro2221n DC conductors= 10.85 1 Inverter: 1 14.5 I 20 AWG#10 I at 240V Vdrop= (14.5 40 0.001 4 Ohms)/ 240 V 0.17 Total.'13 'Modules Total Inv Pwr:3300 2924.06 IPTC CombinedI I I 1 at 240V Photovoltaic Module Electrical Specifications: Total STC'3380 Vdrop= Ohms)/240 V Voc 37.8 V deg F deg C Vmp: 30.7 V Record Low Temp-8 -13 Total voltage drop in AC conductors=[0.17 I Isc' 9.01 A Max Average Hi Temp: 87 31 Total voltage drop in AC and DC conductors=I 1 Imp. 8.5 A Record Hi Temp: Tvoc: -0.1 V/deg C Tisc: 2.16 mA/deg C I String Type A and 2 Combined Strings Type A Voc Correction Method:Manuf TVoc Data Branch Circuit Type A 1 way wire length. N/A Voc Correction Factor 1 strings per branch 1 stringsper branch 2 ABB PVI-3.0-5 AFCI Inverter Min Vdc Input: 139 I g I g p 13 REC 260PEZ Min Vmp at Max Temp: 333.65 _ 13]modules per senes stung I modules per senes string Voc=491.4 Voc= 491.4 V Voc= V Max Voc at Min Temp: 541.82 Vmp= 399.1 Vmp= 399.1 V Vmp= V Inverter Max Vdc Input: 600 Isc=9.01 Isc= 9.01 A Isc= A Imp= 8.5 Max String Size: 14 Imp= 8.5 A Imp= A (cont= 11.26 Art 690.8(A)(1) Tway wire length: 50 (cont= 11.26 A (cont= A Art 690.8(A)(1) t.a Conductor AWG#10 IPV Wire 2.a Conductor 1. N/A Conductor 2. (cont'1.25=(Amps) 14.08 Conductor 1 Conductor 2 30 deg C ampacity= 40 1 'cont'1.25=(Amps) 14.08 1 b lcont=(Amps) 11.26 I 30 deg C ampacity= N/A I Start ampacity 40 2.b 'cont=(Amps) 11.26 Temperature derate(%=F) 0.76 Start ampacity N/A Conduit fill derate(%_#) 1 Temperature derate(%=F) N/A Derated ampacity 30.4 I Conduit fill derate(%_#) N/A 1.c Derated ampacity N/A I (cont'1.25=(Amps) 14.08 I 2 c Term 1 Term 2 Ampacity 40 I Temp table N/A Icont'1.25=(Amps) 14.08 1.d 'cont'1.25=(Amps) 14.08 OCP Size= 15 Ampacity N/A 1 Inverter Type A Output 2 d OCP Size= I 15 I I ABB PVI-3.0-S AFCI 1 1 way wire length:I 20'R Combined Inverter Output [cont= I 14.5 I A Art 690 8(A)(1) Service Voltage= 3.a 'cont'1.25=(Amps) 18.12 Art 690.8(8)(7) Total Inverter Power= 1 way wire length= 20 OCP Size= 20 Art 240.6(A) Icont=#of inveners'max inverter current Art 690 8(A)(1) 3 b Conductor]AWG#10 THN-2 at 90 deg C'Table 310.16 (cont=(Amps) W 'cont'1.25=(Amps) 18.12 4.0 Icont'1.25=(Amps) 18.12 Art 690 8(B)(1) 30 deg C ampacity= 40 1 OCP size= 20 Art 240 6(A) 3 c 'coni=(Amps) 14.5 4.b Conductor. 'AWG#10 THWN-2 at 90 deg C:Table 310 16 Start ampacity 40 'cont'1 25=(Amps) 18.12 Temperature derate(%=F) 0.91 30 deg Campacity= 40 ' Conduit fill derate(%_#) 1 4 c 'cont=(Amps) 14.5 Derated ampacity 36.4 1 Start ampacity 40 3.4 'cont'1.25=(Amps) 18.12 Temperature derate(%=F) 0.91 Ampacity 35 Conduit fill derate(%=#) 1 Derated ampacdy 36.4 1 4.d 'cont'1 25=(Amps) 18.12 I Ampacity 35 1 DDNFIDcsnuL-190INFDRUAIDNtenth aNABER JB-9723068 00 PREMISE OVER °`SCRIPTON 0E9OR �\.;,SQ�1�C�ty. CONTAINED SHALL NOT BE USED FOR THE ELLIS, HOA ELLIS RESIDENCE Marco Casores �. . BENEFIT OF ANYONE EXCEPT 50LARC1T5 WC., ROIR711N0 MEN a''••t NCH SHALL IT BE DISCLOSED W WHOLE OR IN Comp Mount Type C 9515 SW ELROSE ST 3.38 KW PV ARRAY PART TO OTHERS Ot1TSDE THE RECIPIENTS 0RcAaazAnON,EXCEPT W CONNECTION YETI uoXiu TIGARD, OR 97224 wss � THE SALE AND USE or THE RESPECOYE (13) REC N REC260PEZ PAGE NAS: sHm: �. wTE 5„Mateo,CA sWay PESERIASSIONEOF�+*MOW, WRITTEN (503) 381-7625 PV 6 10 31 1:(650) 1028 F:(650)638-i029 ABBE PVI-3.0-OUTD-S-US-Z-A ELECTRICAL CALCULATIONS / /2015 (Bea)-SOL-arr(715-2459)m.ad>dtycun • Label Location: Label Location: Label Location: CAUTION:SOLAR CIRCUIT (C)(IC)(CB) MAXIMUM AC_A (AC)(POI) WARNING (P01) Per Code: OPERATING CURRENT Per Code: Per Code: IFC 605.11.1.4 MGVOLTMil V NEC 690.54 INVERTER OUTPUT NEC 690.64.6.7 OPERATING VOLTAGE CONNECTION '' DO NOT RELOCATE Label Location: THIS OVERCURRENT •-•TOVOLTAIC DC (DC)(INV) DEVICE ISCONNECT Per Code: NEC 690.14.C.2 ' Tia;,f z;w - Label Location: WWRN 'NG (AC)(P01) k. Per Code: Label Location: hLi,CfHICSOCK ' i:L DO',NOTTOUGHT RC MINALS NEC 690.17(4) WARNING (DC)(INV) Label Location: {ERMINALS ON'BUI H LuseAND ;: Per Code' MAXIMUM POWER-_A (DC)(INV) YLOAD:51DES,MA\IIBE:CNERGIZED ELECTRIC SHOCK HAZARD NEC 690.35(F) POINT CURRENT(Imp) Per Code: INlTHEUOPEN POSITION �.!: THE DC CONDUCTORS OF THIS �`"' PHOTOVOLTAIC SYSTEM ARE TO BE USED WHEN MAXIMUM POWER- NEC NEC 690.53 j - "'`="' UNGROUNDED AND POINT VOLTAGE(Vmp)_� INVERTER IS MAXIMUM SYSTEMMAY BE ENERGIZ€D VOLTAGE(Voc)_v UNGROUNDED SHORT-CIRCUIT_A Label Location: CURRENT(Isc) , PV SYSTEM (AC) DISCONNECT FOR UTILITY OPERATION 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 PHOTOVOLTAIC POINT OF (P01) LOAD SIDES MAY BE ENERGIZED INTERCONNECTION Per Code: IN THE OPEN POSITION "WARNING:ELECTRIC SHOCK DC VOLTAGE IS HAZARD.DO NOT TOUCH NEC 690.17.4,NEC 690.54 ALWAYS PRESENT WHEN TERMINALS.TERMINALS ON SOLAR MODULES ARE BOTH THE LINE AND LOAD SIDE EXPOSED TO SUNLIGHT 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 ME WARNING (DC)(INV) MAXIMUM AC -V Per Code: OPERATING VOLTAGE ELECTRIC SHOCK HAZARD ROUND FAULT IS INDICATED NEC 690.5(C) ,IORMALLY GROUNDED "ONDUCTORS MAY BE -OUNDED AND ENERGIZED Label Location: CAUTION (P01) DUAL POWER SOURCE Per Code: SECOND SOURCE IS NEC 690.64.8.4 Label Location: PHOTOVOLTAIC SYSTEM PHOTOVOLTAIC AC (AC)(P01) (AC):oDisconnect Per Code: (C):Conduit DISCONNECT (CB):Combiner Box NEC 690.14.C.2 Label Location: (D):DDCb co Panel (DC):DC Disconnect (ID)(P01)CAUTION (IC):Interior Run Conduit Per Code: PHOTOVOLTAIC SYSTEM (INV):Inverter With Integrated DC Disconnect CIRCUIT IS BACKFED NEC 690.64.6.4 (LC):Load Center (M):Utility Meter (P01):Point of Interconnection CONFIDENTIAL-ME INFORMATION HEREIN CONTAINED SHALT.NOT BE USED RB %V4 =. a,� 3055 Ci r, Wry CF THE BENEFIT ANYONE EXCEPT SMARMY INC,NOR SHALL IT BE DISCLOSED San Mateo,CA 94902 W WHOLE OR IN PART TO OTHERS OUTSIDE THE RECIPIENT'S ORGANIUDCW. Label Set �•n9 (85)83&1028 F:(650)83&1029 EXCEPT W CONNECTION AIN TIE SALE AND USE IA THE RESPECTIVE OlQ �tU SOLARCITY EQUIPMENT,'MTHO)'DIE BTITI(N PERMISSION CF SOLMCITY WC. 1 J�o (888)-SOL{fiY()8S2iB9)wwx.aahrtRysom • • ZS Comp Edge Zone Calculations 1 of 4 O ZS Comp Edge Zone Calculations 2 of 4 Zep Solar 3/26/15 Zep Solar 3/26/15 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 down force spacing= calculations will vary the design variables to account for the worst case for each failure mode that is being 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= 120 mph 14 30 45 System Weight= 3 psf Ground Snow Load= 30 psf GC„landscape= 0 5 0.9 0.9 GC„portrait= 0.4 0.9 0.9 Comp Mount Allowable Loads Load Duration Wind Snow � design load„�a„,o�= 15.35 27.64 27.64 psf design load port,,,,= 12.28 27.64 27.64 psf Uplift= 656 lbs N/A �6,•r��' Lateral= 357 lbs 290 lbs Es 65619 note:use 10 psf minimum Down Force= 1074 lbs 771 lbs MON Snow Calculations ,a To account for unbalanced snow loads,ground snow loads will be used for roof pitches 30 degrees and lower. Attachment Spacing Calculations *i-•„n4e Per section 7.6.1 of ASCE 7-10 unbalanced snow loads do not need to be considered for slopes above 30 Uplift Spacing t01lf3S:12/31/16 degrees. Allowable Uplift Load FOR PAGES 1-4 uplift spacing= Ground Snow load= 30 psf module length or width x design load Roof Pitch Wind Uplift Calculations 14 30 2014 OSSC and ASCE 7-10 Method 2 Design Snow Load 29.11 25.98 psf p=q„GC„ (snow load spread over the length of the rafter) Rn=0.00256K,K„K,V0 I Down Force Load Roof Pitch Basic Wind Speed= 120 mph Combinations: 14 30 Exposure= C Roof Zone=Edge Zone --- D+5= 31.16 25.10 psf Importance Factor= 1.0 K,=0.98 from Table 6-3 050.6'W= 12.91 19.18 psf Gable/Hip Roof Kn 1.0 per 6.5.7.2 D+0,75'0.6'W+0.75S 31.59 31.91 psf • Borst Case Roof Pitch= 14 degrees Ke=0.85 from Table 6-4 Roof Height= 30 GC„landscape=-1.6 Allowable Spacing for Down Force dscape effective area= 13.0 ft' GC„portrait=-1.5 bs iortrait effective area= 21.7 ft' landscapef mce spacing 39„ 31.9 down 9tpsf ftz x 144-=89" Pa„a„:P:= -49.13 psf qn=30.71 psf pm,,,,,,= -46 06 psf 7711bs m portrait down force spacing= 65"x 31.91psf x 1447=53" Uplift Load Combination:0.60+0.6W(ASCE Section 2.4.1 equation 7) design load i,,,„,c,= -27.73 psf design load,,,,,,,,= -25 89 psf 656 lbs in landscape uplift spacing = x 1447=87" 39"x 27.73 psf ft 656 lbs in pot-trait uplift spacing = x 1447-=56" 65"x 25.89 psf ZS Comp Edge Zone Calculations 3 of 4 O ZS Comp Edge Zone Calculations 4 of 4 Zep Solar 3/26/15 Zep Solar 3/26/15 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 the landscape module spacing=-1.4545 x Maximums Uplift or Down Force Pressure+120.7273 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=-0.8182 x Maximums Uplift or Down Force Pressure+79.909 Allowable Lateral Load Maximum Uplift Pressure Landscape= -27.73 lateral spacing= module width x design load Maximum Uplift Pressure Portrait= -25.89 Snow Calculations Maximum Down Force Pressure= 31 91 psf Ground Snow Load= 30 psf Ps=C,Pr Roof Pitch= 31 45 degrees landscape module spacing=-1.4545 x 31.91 psf+120.7273=74" pm=0.7 C<C,l pg C<=0.9 C,= 0.71 045 C,=1.2 Pr= 22.68 22.7 psf portrait module spacing=-0.8182 x 31.91 psf+79.909=54" 1=1.0 p,= 16.1 102 psf Calculation Summary Roof Pitch Spacing Check Calculated Edge Zone Spacing 27 30 31 45 Landscape Portrait Design Snow Load 26.73 25.98 13.80 7.22 psf Uplift 87" 56" (snow load spread over the length of the rafter) Down Force 89" 53" Lateral 30' 27° 30' Lateral Force Component 74" 43" 44" Down Force Load Roof Pitch Module Deflection 74" 54" Combinations: 27 30 31 45 DOS= 13.50 14.49 8.65 7.22 psf As can be seen in the table above,for Design Wind Speeds up to 120 mph and Ground Snow Loads up to 30 D+0.75'0.6W+0.755 10.46 11.24 6.88 5.95 psf psf with modules orientated in landscape,the system is strong enough to be installed at 72"on center in the Edge Zone.When modules are installed in portrait,the spacing for edge zone installations can be 48"on Allowable Spacing for Lateral Force 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 44". 2901bs in landscape lateral spacing=39" x 144 x 14.49 psf ftz=74" 2901bs to portrait lateral spacing= 65"z 14.49 psf a 144 ftz=44" Portrait spacing is less than 48".Try roof pitch of 27 degrees 2901bs in portrait lateral spacing= 65"x 13.50 psf x 1447=48" • • ,•r; ® %r' © Next-Level PV Mounting Technology Solaidty ZepSolar Next-Level PV Mounting Technology •^SOlarCity Zep Solar . Zep System Components for composition shingle . 0 Z > i \Up roof ~ Imik9 � \ '' i ' ,^vy ,� s a cbrp47.a .4) \. i _/k Description fa \ y7r • PV mounting solution for composition shingle roofs fy *`' �)) �T� �� F'cpO.. • Warks with all Zep Compatible Modules ", gyy:- \' C • Auto bonding UL-listed hardware creates structual and electrical bond `**• ` , 1111 • Zep System has a UL 1703 Class"A"Fire Rating when installed using OUSTED modules from any manufacturer certified as"Type 1"or"Type 7' Comp Mount Interlock Leveling Foot Part No.850-1382 Part No 850-1388 Part No 850-1397 Listed to UL 2582& Listed to UL 2703 Listed to UL 2703 Specifications Mounting Block to UL 2703 CV Designed for pitched roofs • Installs in portrait and landscape orientations ,.. r� • Zep System supports module wind uplift and snow load pressures to 50 psf per UL 1703 \`' • Wind tunnel report to ASCE 7-05 and 7-10 standards bat }}}�� .� • Zep System grounding products are UL listed to UL 2703 and ETL listed to UL 467 \ " l i$��` • Zep System bonding products are UL fisted to UL 2703 J • Engineered for spans up to 72"and cantilevers up to 24" • Zep wire management products listed to UL 1565 for wire positioning devices Ground Zep Array Skirt,Grip,End Caps DC Wire Clip • Attachment method UL listed to UL 2582 for Wind Driven Rain Part No.850-1172 Pan Nos 500-0113. Pan No 850-1448 Listed to UL 2703 and 850-1421.850-1460. Listed UL 1565 ETL listed to UL 467 850-1467 Listed to UL 2703 zepsolar.mm zepsolar.com This document doesrid create any express warranty by Zep Solar or about aspralucis or services Zep Solar s sole warranty iscomamed.n the wntien product warranty fpr Tms document does not crease any express warranty by Zep Solar or about its products or services Zep Sdars sae warranty iscomamee In the written produce warranty for ecnproducr.m.ehduserdocumemeuon,Mppedwnn ZepsouriproductsconsututestnasoNspe0r1ni $rererredeo,ntne productwarrao5.Tnecustow,,0,cNry achpraduct Tne endua.rducum.nsroosippedmNZ.p Soiar'sproduclscaooc4,stnewkepececenoner.f.n.dtomtnepraducrwarramy Tnecustomerusouiv r.sponaNe for v.nry,np the surtesiay of Zap Soiar,product for each use SpecOc,cers ere subi.v to cnanpewrthoa nonce.Patents end Appszap.,cam responsibMfot wrdying N.sudnbm00 or Zap Solar,poducb far earn us.Spacvcaeons ere audNH to cnanpe wdnout nooc..P,t.oO erd Apps 000.5.com. 02 27 16 Z5 for Come snmgto Culsn..012.004 pet Page: 1of2 02cr 15 ZS for Comp Snmpe.cwh..t P.O 04 poli Page. 2of2 • Additional highlights: +�----•�`--- solar inverters - RS-485 communication interface i ABB string inverters (for connection to laptop or data logger). PVI-3.0/3.6/ 3.8/4.2-TL-OUTD - Integrated Arc Fault Detection and ., 3.0kW to 4.2kW Interruption(-A Version) .,L.'',L. :-J •i•i M (j — t _,, Technical data and types Type coda PVI-3.c-0UTC u5 PVI-3.6-OUTJ--us P,-3.6-0030-1.15 PVI-a.2.OUTD-US • Am Mechanical specrircatans r Nominal output power " Ralod9rid0Atvt quiw8ttag8--------Iz eG I 2069•2]00 209CV 2n0!I2cc ledh 2aaVBCCZ)wa 2 ^200 2WD 36CCW MasImurn 7V I _ W W--_W _ --- - Input side toc) I ) v = Number of mdependem MPPT channels _ f 2 2 2 2 1 .............. - Mownum usable power for each channel � 2000W__ _ 3000W 3000W 3000W Stan-up maximum terff IVmzn) --7 _ 6002 - __- Ftan-upvoltageNolan 200V_(ad)120__14_ Full power MPPT voltage range flip-5302 X120-5302 ao-5302 ; 140.5302 a _ Opdrdin MPPT vdllage range « -- - -- -_-0.).Vsta�l_5602(>=9020_ -e aMaximum current Ibcmex)for bolo MPPT in ; 20A 32A 1, 32A- ----�--_- -32A ) pnrailel Maximum usable current per channel 10A IEA 16A 18A Maximum short circuit Current limit per i channel ernn9 -_ --- —pressur 20 OA 200A 2.5* 20 OA d Number 01 was landing terminals per cnennCl 2 emirs IS „s��vm Arraytermination Terminal block, p clemO.AWG10-AWGa Output side fact Grid connection type 2262 13W 10/ 1W ,Spirt-' tW 1W Split-/3tW 1 1Split-/31W _._..-..- ZW 2W i0'3W' 2W„I, 2W O/3t- 2W 2W3 0/3W' c ar f'f-nai. luslnbmlo vow Be rnngoI mm-Vmw1(V) 2W 013W 234- r 183- 2'11- 244- 183- 211- 044:- 183- 211- 23n. m. _ ----. t 30pV.2282 2632 3032 t 2282 2642 304V„],2280„ ,2,(ia V,;,_3032„ Grid Ir ______ Ad ustabla d lra uent ran C 14 5 14.5 r—- 57.60 5Hz- -------- --—- -- JCflc q_Y9_ _ __O . ih,o .__ - _- -_ Maximum current g...l r— ft2.0 I)2 16.0 180-'76 0 160 160 200 200 200 6.... 6...c A.... :-A...s A..,....A .',,A,,, .A..,,• A,.,. A...c_'A..u_ 6..u. Power l >0 0 9 995 Toia1 harmonic 3 drstoruon at rated power -------------<2%— --- -This family of single-phase string The high-speed MPPT offers real- Highlights: Grid wiring terrnmatan type I Termrnel bleak.Press rV a clamp.AWGIO-AWGa everters complements the typical time power tracking and improved - Single phase and spirt phase output Input protection devices mummer of rooftop solar panels energynarvestin rid connection, Over.ve,poleyouratxuon__ _ Yes 5 9 -'0"ver�Jouoge protection type "'----- -"------------v_ristoc 2lor eachi cnannei------- ----- enabling home-owners to get the most The flat efficiency curve ensures high -Wide input range for increased PV awaygraund fault detection Ie start-up Riso and Dynamic GFOt(requires floating arrays) IP re energy harvesting for the size efficiency at all output levels allowing stringing flexibility. career praleclan devices of the property a consistent and stable performance -The high speed and precise MPPT Ane--standing potecti on ) Meets uL nstor,2EE•OI requirements P P Y P 9 OverislandIn protection type ___ - --- Vanstor,2 h 1 /L-G across the entire input voltage and algorithm otters real time power Maximum*C OCPO Rating 120*„„'20A,,,, 1.5Ar,_:253n,-1204,,,,120A,,,,120Or.n,20A„,„, 00A•„‘125x r 1256._i 25A,,,< This inverter offers a anal input output power range. tracking and improved energy Efficiency section that processes two strings The transformerless operation gives the harvesting ,Maximum en"c7cy__ 1 96.9% I 97% l_ 97% ,f. --- 9)% Cpe pti geed 96% with independent Multiple Power Point highest efficiency of up to 97.0%, - Outdoor NEMA 4%rated enclosure Operating performance - I Tracking(MPPT). The wide input voltage range makes for unrestricted use under any Night time consumption 1 __ <0 oW_, This is especially useful for rooftop the inverter suitable to low power environmental conditions. Stand-by cgnsumptan - <13W,„ commgecatlont installations with two different installations with reduced string size - Integrated DC disconnect switch user-interlace .1 16 charaers a 2lrnes Ldisplay Remote monitorin -__-_ ----_ -_- --- orientations from two sub-arrays This rugged outdoor Inverter has been in compliance with international q NxR53a5 incl) VSN)00ctDole Loqqer CD tool 1 oriented in different directions.(For designed to be a completely sealed Standards(-S Version) Environmental • Ambient ar operat6g temperature range 1 -13•F to-Ia0•F with aerating above 122•F example.East and West) unit able to withstand the harshest Ambient err storage temperature range 4 -30•F to-1)6•F 1-aD•c to-60'CI The dual input sections with environmental conditions Relative humidity 0.100%RH condensing Acoustic noise emission level ___ ______ _ _ _ _-__ - - --- --- -- Independent MPPT enable amore < b telatm MaRimum operating alliluid without derating _ _ ___65so601106%11 12000-_f optimal energy harvesting condition. Power and productivity 'C.aN='re-•=e^ar9.^e Ac vorag..,6.r-a..11c,en now.ova a3eABB ---------for abettor.vorid`” 2 A88 solar Inverter:I Product flyer for PVI•3 on 6x3 8/9 2.,OUTb • • WIIIP \ �} r Q l R P_..ige& ENERGIZING LIFE TOGETHER �` REC REL P E 7 \< ENERGY Z LINT< SERIES .........agmhak , iA€3°6 EKY HIGH PERFORMANCE SOLAR PANELS 10 YEAR PRODUCT WARRANTY 25 YEAR. AR POWER L 1 OUTPUT WARRANTY RECPEAK --€''_ _ 044. u5 IMPORT CUTYF -E e ENERGY\fU// l ' - TEMPERATURE RATINGS �� I'—IlU �JIJ�1 SE oE5 _ _ - _-_ ' Temper Operating Celt Temperature MOC77 4-0,0 /T empxraweCoefiCellient per -Oa0%/Y remperatureCcefSaent of,/,, -027%/'c TemperatereCoefaoent of L., 6024%/•c REC Peak Energy Z Link Series solar panels are the perfect choice for building 1=111111111 =3 I=MMIIIIIIIIIIIII solar systems that combine long lasting NomnelPower-P,„(WP) 250 Cell Type 60RECPEmuiRaystailme produdf qualitywith reliable power output Wattclas 5c,ong(W5 -/-5 3strhigs of 2acelfs withbypassdrodes Gies- 0125 mselar glasswt6 antereneceon REC combines high quality designand NpmwalPowery°Nage v, (v) 307 surface treatment manufactung produce standards to roducehi h- "pmwalPpwercarre^:I, (A) 378 Backsheet. OmsbleWreAnodized So l gt i.tater Open(rcut Voltage Vw(VI 378 Frame: ' An dized aluminum black) performance solar panels with Sh°rtorcoaCurrent-10(A) 9 m Tep Groove compatmlo uncompromising quality. Pa-e.Effioency(%) Ise lwcnone.. 1P67reted c i56 m li 2 AwG)s olar cable.2 x 4724 m ... ,.: , aleMr+reensecsa.e..:Din•/-M%o•rne:anatM.abevof l�.vs+,aP,,,+tsta,aa ate.r:o,fno,a1StC1 Conn ers ti4AmphenoI nr s:Clan-es.AM':.�+a.ace 10:0 r1/m'«Il.mn.ra ur.).'-115'(1) pee IM - G6`4 QGpl4PATjB a�+oaa.e «erw/-Av Seccl mn,;er+w,cn r125cllvm,a 57%ec-c52 ma:4nacay..�Ix,nk.m OrigC-et Madem5ngapue ELECTRICAL DATAra NOCT REl?GU:0 MA%IMUd/RATINGS \ai�� ~F�v Nominal Power P..,.(Wp) 197 Operaltonallomperateure -47..185•F(-40„•85•Ci �,/ A001,00- Nominal Power voltage-V,,,(V) 290 Maximum 5ysiemVoltage. 1000VUL Nominal Power Current-1,,(A) 581 Oeslgoload. 50As/ft2(2400Pa)long side SIORE OWER COMPATIBEMTN OpenCircwi Voltage•V.,(V) 357 301bs/f0(I436Pajshorlside < PERM IERGROOVEFRAME - ShortCocutCurrent-ly(A) 724 Max Sene;Fuse Rawl 15A ' rb-aRloar e-ore a pe arise 1.“8001W-...15.grxca Ms+mMear eem°nu,e 6d'=1AY1 Max Reverse Current 15A _ 11.1111110 / eO 10yea-product warren:), Orrenmors 1=11= 11111.1. 13:1111 + 6555 x3902x1.57m(1665 x 991x 40 rrro) 4 UsI PORT EASYSD / sL us (-ex year[milerpower performance of 07%o a) Aree 7775 fl°II.60 I A OUST FREE INSTALL _i van Eex+t ac*reel c,+a: x a o Weight 43ms095kg) Note! Ailgrvenspeci5catmnsaresub7ect tochange mm '�' 1 w7thoutnotkea<aryt'mle- S REC s a leading global orowder of solar energy solutions With mot e than 15 years of exoer e-ce we off el susta mole-gf per'prm ng /'� REC products serwces and Investments for the solar mdu:try Togetherwth our partners we create value by prpvdmg solutions:-,t Lener f\m1YCV' t et the world's growing energyneeds REC sheadquartered n Norway end listed on the Oslo Stock E xchange(ticker RECSOL)Our 500 f employees worldwide generated revenues of USD 647m11c--2013 www recgrovp.com AL A • Version#52.6-TBD �p04o' i RU P0 QI � RR iw,ECE VED NOV 11 2.015 October 31, 2015 RE: CERTIFICATION LETTER CITY OF TIGARD BUILDING DIVISION Project/Job # 9723068 Project Address: Ellis Residence 9515 SW Elrose St Tigard,OR 97224 Design Criteria: A temporary permit to practice in Oregon has been granted to NICI 101.AS GORDON valid -Applicable Codes = 2010 OSISC&2010 OSSC,ASCE 7-05, and 2005 NDS only until official action is taken on 11/10/2015 - Risk Category = II for Oregon registration -Wind Speed = 95 mph, Exposure Category C -Ground/Roof Snow Load = 25 psf(Unreduced) - MP2: Roof DL= 10.5 psf, Roof LL/SL= 25 psf Per Section 1613.1, W-(PV)/W-(exist roof) = 6.6%, Increase Seismic Shear Load < 10%, -> [OK] To Whom It May Concern, A jobsite survey of the existing framing system of the address indicated above was performed by a site survey team from SolarCity. Structural evaluation was based on site observations and the design criteria listed above. Based on this evaluation, I certify that the existing structure, with upgrades specified in the plans, directly supporting the PV system is adequate to withstand all loading indicated in the design criteria above based on the requirements of the applicable existing building and/or new building provisions adopted/referenced above. This review relies on the roof's structural system having been originally designed and constructed in accordance with the building code requirements and having been maintained to be in good condition. Additionally, I certify that the PV module assembly including all standoffs supporting it have been reviewed to be in accordance with the manufacturer's specifications and to meet and/or exceed all requirements set forth by the ASCE 7 standards for loading. The PV assembly hardware specifications are contained in the plans submitted for approval. Additionally a summary of the structural review is provided in the results summary tables on the following page. Digitally signed by Nick Gordon Date:2015.11.02 10:07:41 -08'00' 3055 Clearview Way San Mateo,CA 94402 T(650)638-1028 (888)SOL-CITY F(650)638-1029 solarcity.com Version #52.6-TBD • RU D HARDWARE DESIGN AND STRUCTURAL ANALYSIS RESULTS SUMMARY TABLES Landscape Hardware-Landscape Modules'Standoff Specifications Hardware X-X Spacing X-X Cantilever Y-Y Spacing Y-Y Cantilever Configuration Uplift DCR MP2 72" 24" 39" NA Staggered 62.7% Portrait Hardware-Portrait Modules'Standoff Specifications Hardware X-X Spacing X-X Cantilever Y-Y Spacing Y-Y Cantilever Configuration Uplift DCR MP2 48" 20" 66" NA Staggered 70.3% Structure Mounting Plane Framing Qualification Results Type Spacing Pitch Member Evaluation Results MP2 Stick Frame @ 24 in.O.C. 30° Member Analysis OK w/Upgrades as Specified in Plans Refer to the submitted drawings for details of information collected during a site survey. All member analysis and/or evaluation is based on framing information gathered on site.The existing gravity and lateral load carrying members were evaluated in accordance with the IBC and the IEBC. 3055 Clearview Way San Mateo,CA 94402 T(650)638-1028 (888)SOL-CITY F(650)638-1029 solarcity.com SEISMIC CONSIDERATIONS Seismic Design Criteria (per USGS) Seismic Design Code ASCE 7-05 Latitude 45.4179 Longitude -122.7748 SRA at Short Period SS 0.944 USGS SRA at is Period S1 0.338 USGS Soil Site Class D IBC 1613.5.2 Seismic Design Category SDC D USGS Seismic Check Required(Ss>_ Yes IBC 1613.1 0.4g&SDC>_ D)? ALTERATION LATERAL DESIGN 10% EXCEPTION CHECK Weight of Proposed PV System Area Dead Load Weight PV System Weight 231 sf 3 psf 693 lbs Total Weight of PV System W(pv) 693 lbs Weight of Roof on Existing Building Sum Area of MPs with PV 389 sf Portion of Roof Weight Area Dead Load Weight Roof 389 sf 10.5 psf 4,081 lbs Ceiling 389 sf 5.5 psf 2,138 lbs Interior Walls (Top Half) 315 sf 5.0 psf 1,577 lbs Exterior Walls(Top Half) 315 sf 8.5 psf 2,681 lbs Net Weight of Roof Under PV W(exist) 10,477 lbs Check% Increase of Roof Weight/ Seismic Shear Load 0/0 Increase of DCR of Lateral6.6% W W IBC Sect.3404.4 Force Resisting System MPV)/ (e:'st) Increase Seismic Shear Load < 10%, -> (OK] Note: Seismic base shear is directly proportional to roof weight. 'STRUCTURE ANALYSIS - LOADING SUMMARY AND MEMBER CHECK - MP2 Member Properties Summary MP2 Horizontal Member Spans Upgraded Rafter Properties Overhang 1.16 ft Net W 3.00" Roof System Properties Span 1 11.73 ft Equiv D 5.50" Number of Spans(w/o Overhang) 1 Span 2 Nominal Yes Roofing Material Comp Roof Span 3 A 16.50 in.^2 Re-Roof No Span 4 SX 15.12 in.^3 Plywood Sheathing Yes Span 5 IX 41.59 in.^4 Board Sheathing None Total Rake Span 14.88 ft TL Defl'n Limit 120 Vaulted Ceiling No PV 1 Start 0.92 ft Wood Species DF Ceiling Finish 1/2"Gypsum Board PV 1 End 9.58 ft Wood Grade #2 Rafter Slope 30° PV 2 Start Fb 900 psi Rafter Spacing 24"O.C. PV 2 End F„ 180 psi Top Lat Bracing Full PV 3 Start E 1600000 psi Bot Lat Bracing At Supports PV 3 End Emin 580000 psi Member Loading Summary Roof Pitch 7/12 Initial Pitch Adjust Non-PV Areas PV Areas Roof Dead Load DL 10.5 psf x 1.15 12.1 psf 12.1 psf _ PV Dead Load PV-DL 3.0 psf x 1.15 3.5 psf Roof Live Load RLL 20.0 psf x 0.85 17.0 psf Live/Snow Load LL/SL1'2 25.0 psf x 1 I x 1 25.0 psf 25.0 psf Total Load(Governing LC) TL 37.1 psf 40.6 psf Notes: 1. ps=Cs*pf; Cs-roof, Cs-pv per ASCE 7[Figure 7-2] 2. pf= 0.7(Ce)(Ct)(Is)p9; Ce=0.9,Ct=1.1, I5=1.0 Member Design Summary(per NDS) Governing Load Comb CD CL(+) CL(-) CF Cr D+ S 1.15 • 1.00 0.97 1.3 1.15 mber Analysis Results Summary Governing Analysis Max Demand @ Location Capacity DCR Result Bending (+) Stress 1073 psi 7.0 ft 1547 psi • 0.69 Pass CALCULATION OF DESIGN WIND LOADS - MP2 - Mounting Plane Information • Roofing Material _ Comp Roof PV System Type SolarCity SleekMountTM Spanning Vents No Standoff(Attachment Hardware) Comp Mount Type C Roof Slope 30° Rafter Spacing 24"O.C. Framing Type/ Direction Y-Y Rafters Purlin Spacing X-X Purlins Only NA Tile Reveal Tile Roofs Only NA Tile Attachment System Tile Roofs Only NA Standing Seam/Trap Spacing SM Seam Only NA Wind Design Criteria Wind Design Code ASCE 7-05 Wind Design Method Partially/Fully Enclosed Method Basic Wind Speed V 95 mph Fig. 6-1 Exposure Category C Section 6.5.6.3 Roof Style Gable/Hip Roof Fig.6-11B/C/D-14A/B Mean Roof Height h 25 ft Section 6.2 Wind Pressure Calculation Coefficients Wind Pressure Exposure KZ 0.95 Table 6-3 Topographic Factor Krt 1.00 Section 6.5.7 Wind Directionality Factor Kd 0.85 Table 6-4 Importance Factor I 1.0 Table 6-1 Velocity Pressure qh qh = 0.00256(Kz)(Kzt)(Kd)(V^2)(I) Equation 6-15 18.6 psf Wind Pressure Ext. Pressure Coefficient(Up) GCp run) -0.95 Fig.6-11B/C/D-14A/B Ext. Pressure Coefficient(Down) GC,(Down) 0.88 Fig.6-11B/C/D-14A/B Design Wind Pressure p p = qh(GCp) Equation 6-22 ' Wind Pressure Up Prep) -17.6 psf Wind Pressure Down Pmown) 16.2 psf ALLOWABLE STANDOFF SPACINGS X-Direction Y=Direction Max Allowable Standoff Spacing Landscape 72" 39" Max Allowable Cantilever Landscape24" NA Standoff Configuration Landscape Staggered Max Standoff Tributary Area Trib. 20 sf PV Assembly Dead Load W-PV 3.0 psf Net Wind Uplift at Standoff T-actual -314 lbs Uplift Capacity of Standoff T-allow 500 lbs Standoff Demand/Capacity DCR 62.7% X-Direction Y-Direction Max Allowable Standoff Spacing Portrait 48" 66" Max Allowable Cantilever Portrait 20" NA Standoff Configuration Portrait Staggered Max Standoff Tributary Area Trib 22 sf PV Assembly Dead Load W-PV 3.0 psf Net Wind Uplift at Standoff T-actual -351 lbs Uplift Capacity of Standoff T-allow 500 lbs Standoff Demand/Capacity DCR 70.3%