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Plans ABBREVIATIONS ELECTRICAL NOTES JURISDICTION NOTES A AMPERE 1. THIS SYSTEM IS GRID-INTERTIED VIA A AC ALTERNATING CURRENT UL-LISTED POWER-CONDITIONING INVERTER. BLDG BUILDING 2. THIS SYSTEM HAS NO BATTERIES, NO UPS. FEB 2 4 2015 CONC CONCRETE 3. A NATIONALLY-RECOGNIZED TESTING _ DC DIRECT CURRENT LABORATORY SHALL LIST ALL EQUIPMENT IN I:ITYUFT[GARD EGC EQUIPMENT GROUNDING CONDUCTOR COMPLIANCE WITH ART. 110.3. (E) EXISTING 4. WHERE ALL TERMINALS OF THE DISCONNECTING BUILDING DIVISION EMT ELECTRICAL METALLIC TUBING MEANS MAY BE ENERGIZED IN THE OPEN POSITION, FSB FIRE SET-BACK A SIGN WILL BE PROVIDED WARNING OF THE CITY OF'I`IGAItD GALV GALVANIZED HAZARDS PER ART. 690.17. . GEC GROUNDING ELECTRODE CONDUCTOR 5. EACH UNGROUNDED CONDUCTOR OF THE REVIEWED FOR CODE COMPLIANCE GND GROUND MULTIWIRE BRANCH CIRCUIT WILL BE IDENTIFIED BY HDG HOT DIPPED GALVANIZED PHASE AND SYSTEM PER ART. 210.5. OTC ; 1 I CURRENT 6. CIRCUITS OVER 250V TO GROUND SHALL Imp CURRENT AT MAX POWER COMPLY WITH ART. 250.97, 250.92(B). Penni:A gl..57-2.Q( -CC j Isc SHORT CIRCUIT CURRENT 7. DC CONDUCTORS EITHER DO NOT ENTER kVA KILOVOLT AMPERE BUILDING OR ARE RUN IN METALLIC RACEWAYS OR Address, Imo,7 C'')S I ( '4.--Av' kW KILOWATT ENCLOSURES TO THE FIRST ACCESSIBLE DC Suite#i LBW LOAD BEARING WALL DISCONNECTING MEANS PER ART. 690.31(E). MIN MINIMUM 8. ALL WIRES SHALL BE PROVIDED WITH STRAIN By: Date: :3 14,-_-, (N) NEW RELIEF AT ALL ENTRY INTO BOXES AS REQUIRED BY NEUT NEUTRAL UL LISTING. NTS NOT TO SCALE 9. MODULE FRAMES SHALL BE GROUNDED AT THE OC ON CENTER UL-LISTED LOCATION PROVIDED BY THE OFFICE COPY PL PROPERTY LINE MANUFACTURER USING UL LISTED GROUNDING P01 POINT OF INTERCONNECTION HARDWARE. PV PHOTOVOLTAIC 10. MODULE FRAMES, RAIL, AND POSTS SHALL BE SCH SCHEDULE BONDED WITH EQUIPMENT GROUND CONDUCTORS. 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 1 " 2 .T+ . . 'w 3R NEMA 3R, RAINTIGHT � � ► . � a PV1 COVER SHEET -- q � ' PV2 SITE PLAN PV3 STRUCTURAL VIEWS PV4 STRUCTURAL VIEWS PV5 UPLIFT CALCULATIONS LICENSE GENERAL NOTES t b w n PV6 THREE LINE DIAGRAM OR # 180498 1. ALL WORK TO BE DONE TO THE 2010 OBC - .-,-,:� _ . . : PV7 ELECTRICAL CALCULATIONS RGC, CGC1 BASED ON THE 2009 IBC. - ks 1 Cutsheets Attached 2. ALL ELECTRICAL WORK SHALL COMPLY WITH Ati THE CURRENT NATIONAL ELECTRIC CODE AS AMENDED BY THE OREGON ELECTRICAL SPECIALTY CODE. MODULE GROUNDING METHOD: ZEP SOLAR AHJ: Tigard CL REV BY DATE COMMENTS < REV A NAME DATE COMMENTS UTILITY: Portland General Electric (�C IT r or�o,F8 nd lafegon, State of-Oregon, U.S. Geological Survey PREMISE OWNER: DESCRIPTION: DESIGN: CONFIDENTIAL - THE INFORMATION HEREIN JOB NUMBER J B—9 7 2 2 3 8 0 00 ����. CONTAINED SHALL NOT BE USED FOR THE COMSTOCK, DONALD COMSTOCK RESIDENCE Jim McLean i- SolarCity BENEFIT OF ANYONE EXCEPT SOLARCITY INC., MOUNTING SYSTEM: �.�„ NOR SHALL IT BE DISCLOSED IN WHOLE OR IN 12020 SW 118TH AVE 16.64 KW PV ARRAY ►IN PART TO OTHERS OUTSIDE THE RECIPIENT'S Multiple Mounting Hardware Types ORGANIZATION, EXCEPT IN CONNECTION MATH MODULES: TIGARD, OR 97223 THE SALE AND USE OF THE RESPECTIVE (64) REC # REC260PEZ 3055 Cleorview Way SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN PAGE NAME: SHEET: REV: DATE: San Mateo, CA 94402 PERMISSION OF SOLARCITY INC. VOTER: (503) 319-7059 COVER SHEET PV 1 2/2/2015 (ess)�sa�a ss 2489)w,wsdar�ty.com Multiple Inverters PITCH: 18 ARRAY PITCH: 18 MP1 AZIMUTH: 175 ARRAY AZIMUTH: 175 MATERIAL: Comp Shingle STORY: 1 Story PITCH: 18 ARRAY PITCH:18 MP2 AZIMUTH: 265 ARRAY AZIMUTH: 265 MATERIAL: Comp Shingle STORY: 1 Story PITCH: 18 ARRAY PITCH: 18 MP3 AZIMUTH:85 ARRAY AZIMUTH: 85 MATERIAL: Comp Shingle STORY: 1 Story PITCH: 18 ARRAY PITCH: 18 • MP4 AZIMUTH: 165 ARRAY AZIMUTH: 165 MATERIAL: Comp Shingle STORY: 1 Story a � Z - f iii ----1----'- ,E,DRIVEWAY - -60. y.. ,,pp- �.�r 3 r TI---- *1 - • • - s.s N LEGEND r o IIII O (E) UTILITY METER & WARNING LABEL a Y INVERTER W/ INTEGRATED DC DISCO I ® & WARNING LABELS I-H DC DISCONNECT & WARNING LABELS Front Of House 0 . I PH AC DISCONNECT & WARNING LABELS • I ( DC JUNCTION/COMBINER BOX & LABELS 3 IV D DISTRIBUTION PANEL & LABELS N 0 LOAD CENTER & WARNING LABELS f (F)oRivewnv _ I2 F56 _ cro _--_ M DEDICATED PV SYSTEM METER STANDOFF LOCATIONS 1 L P1 CONDUIT RUN ON EXTERIOR AC CD® ® ® a �� CONDUIT RUN ON INTERIOR O " GATE/FENCE U 4 0 HEAT PRODUCING VENTS ARE RED it r„-7..-1 l‘ 'I INTERIOR EQUIPMENT IS DASHED L�'J SITE PLAN N TOTAL ARRAY AREA (SF): 1160 TOTAL ROOF AREA (SF): 5525 Scale:1/16" = 1' w `r E TOTAL ARRAY AREA IS a 21 01' 16' 32' PERCENT OF TOTAL ROOF AREA d— S CONFIDENTIAL – THE INFORMATION HEREIN JOB NUMBER: PREMISE OWNER: DESCRIPTION: DESIGN: CONTAINED SHALL NOT BE USED FOR THE J B-9722380 00 �: SoIarCity COMSTOCK, gqDONALD COMSTOCK RESIDENCE Jim McLean BENEFIT OF ANYONE EXCEPT SOLARCITY INC., MOUNTING SYSTEM: 12 02 0 S W 1 1 8TH A VE 16.6 4 K W P V ARRAY NOR SHALL IT BE DISCLOSED IN WHOLE OR IN Multiple Mounting Hardware Types /.�,` PART TO OTHERS OUTSIDE THE RECIPIENTS MODULES: TI G A R D, OR 97223 3055 Cleary ew Way ORGANIZATION, EXCEPT IN CONNECTION YWTH THE SALE AND USE OF THE RESPECTIVE (64) REC # REC260PEZ SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN PAGE NAME: SHEET: REV DATE: Sal Mateo, CA 94402 PERMISSION OF SOLARCTY INC. INVERTER: (503) 31 9-7059 SITE PLAN PV 2 2/2/2015 (888)-SOL-OTTYY(7ss 2489)www arcciity.com Multiple Inverters (E) 2x4 0 ler'® /\ / (E) 2x4 4 " 4" 0 5'-2" 4'-9" PRE-MANUFACTURED TRUSS • 2'-4" ! 8'-3" / 6'-10" PRE-MANUFACTURED TRUSS STRUCTURE MEETS THE (E) LBW STRUCTURE MEETS THE (E) LBW PRESCRIPTIVE REQUIREMENTS { PRESCRIPTIVE REQUIREMENTS SIDE VIEW OF MP1 NTS OF THE OSISC SECTION 305.4 SIDE VIEW OF MP2 NTS OF THE OSISC SECTION 305.4 A QE3_ MP1 X-SPACING X-CANTILEVER Y-SPACING Y-CANTILEVER NOTES MP2 X-SPACING X-CANTILEVER Y-SPACING Y-CANTILEVER NOTES LANDSCAPE 72" 24" STAGGERED LANDSCAPE 72" 24" STAGGERED PORTRAIT 48" 19" PORTRAIT 48" 19" ROOF AZI 175 PITCH 18 TOP CHORD 2x4 @ 24" OC ROOF AZI 265 PITCH 18 STORIES: 1 TOP CHORD 2x4 @ 24"OC ARRAY AZI 175 PITCH 18 STORIES: 1 ARRAY AZI 265 PITCH 18 B BOT CHORD 2x4 @24" OC Comp Shingle BOT CHORD 2x4 @24" OC Comp Shingle 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. (4) 2-) SEAL PILOT HOLE WITH ZEP COMP MOUNT C POLYURETHANE SEALANT. ZEP FLASHING C 4e41.4mIL .a (3)) INSERT FLASHING. (E) COMP. SHINGLE . _ 'rI j<.. (4) PLACE MOUNT. (E) ROOF DECKING NOE , (5) INSTALL LAG BOLT WITH 5/16" DIA STAINLESS (5) SEALING WASHER. STEEL LAG BOLT LOWEST MODULE SUBSEQUENT MODULES — INSTALL LEVELING FOOT WITH WITH SEALING WASHER ` BOLT & WASHERS. (2-1/2" EMBED, MIN) (E) RAFTER STANDOFF ___ Scale: 1 1/2" = 1' CONFIDENTIAL THE INFORMATION HEREIN PREMISE OWNER: DESCRIPTION: DESIGN: NUMBER: JB-9722380 00 COMSTOCK, DONALD COMSTOCK RESIDENCE Jim McLean ....z.,,,.- • CONTAINED OF SHALL NOT EXCEPT E USED FOR THE SolarC�ty.. BENEFIT OF ANYONE EXCEPT SOLARCITY INC., MOUNTING SYSTEM: � NOR SHALL IT BE DISCLOSED IN WHOLE OR IN 12020 SW 118TH AVE ; PART TO OTHERS OUTSIDE THE RECIPIENT'S Multiple Mounting Hardware Types 16.64 KW PV ARRAY ►�� ORGANIZATION, EXCEPT IN CONNECTION WITH MODULES: TIGARD, OR 97223 THE SALE AND USE OF THE RESPECTIVE (64) REC # REC26OPEZ 3055 Oearview Way SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN PAGE NAME: SHEET: REV DATE: San Mateo, CA 94402 PERMISSION OF SOLARCITY INC. '"vER (503) 319-7059 STRUCTURAL VIEWS PV 3 2/2/2015 (888)(SOL—01Y(765-2489)�wwwsolarr0ty.com ltilti ple Inverters PV MODULE 5/16" BOLT WITH LOCK & FENDER WASHERS (6) INSTALLATION ORDER ' (E) 2x4 ZEP LEVELING FOOT LOCATE RAFTER, MARK HOLE �/ ZEP ARRAY SKIRT (1) LOCATION, AND DRILL PILOT co / t I/�I�I�I M � . HOLE. �/ A (4) ! Sa �2) SEAL PILOT HOLE WITH II II 9 ZEP COMP MOUNT C POLYURETHANE SEALANT. 6" 2'-1" •, 5'-5" / 4'–g" / -4'-9" / PRE–MANUFACTURED TRUSS ZEP FLASHING C (3) ` INSERT FLASHING. + (E) LBW STRUCTURE MEETS THE (E) COMP. SHINGLE �:∎ �v_— �i�r= PRESCRIPTIVE REQUIREMENTS (4) PLACE MOUNT. D SIDE VIEW OF MP4 NTS OF THE OSISC SECTION 305.4 (E) ROOF DECKING INSTALL LAG BOLT WITH 5/16" DIA STAINLESS (5) — SEALING WASHER. MP4 X-SPACING X-CANTILEVER Y-SPACING Y-CANTILEVER NOTES STEEL LAG BOLT LOWEST MODULE SUBSEQUENT MODULES ------(6) INSTALL LEVELING FOOT WITH LANDSCAPE 72" 24" STAGGERED WITH SEALING WASHER BOLT & WASHERS. PORTRAIT 48" 18" (2-1/2" EMBED, MIN) TOP CHORD 2x4 @ 24" OC ROOF AZI 165 PITCH 18 STORIES: 1 (E) RAFTER � STANDOFF ARRAY AZI 165 PITCH 18 BOT CHORD 2x4 @24" OC Comp Shingle Scale: 1 1/2" = 1' CONFIDENTIAL — THE INFORMATION HEREIN JOB NUMBER: PREMISE OWNER: DESCRIPTION: DESIGN: CONTAINED SHALL NOT BE USED FOR THE J8-9722380 0 0 = t. COMSTOCK, DONALD COMSTOCK RESIDENCE Jim McLean SoIarCity BENEFIT OF ANYONE EXCEPT SD FOR TT INC., MOUNTING SYSTEM: NOR SHALL IT BE DISCLOSED IN WHOLE OR IN Multiple Mounting Hardware Types 12020 SW 118TH AVE 16.64 KW PV ARRAY ,„ PART TO OTHERS OUTSIDE THE RECIPIENTS MODULES: TIGARD, OR 97223 3055 Geartiew Way ORGANIZATION, EXCEPT IN CONNECTION WITH THE SALE AND USE OF THE RESPECTIVE (64) REC # REC260PEZ PAGE NAME: SHEET: REV DATE: San Mateo, CA 9402 SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN INVERTER: T:(650)638-1028 F:(650)638-1029 PERMISSION OF SOLARCITY INC. Multiple Inverters (503) 319-7059 STRUCTURAL VIEWS PV 4 2/2/2015 (888)—SOL—CITY(765-2489)wwr.solarcity.com 2" MAX 2" MIN CLEAR SPAN UPLIFT CALCULATIONS DIAMETER TO UNDERSIDE VENT SPANNING DETAIL OF MODULE 02.0,.2015 Iv Ts ot PV System Structural ra I Version#42.2 - -- 10''':. ' ' -:;;SoIarCit�i Desian Software '' % 6" MIN. VENT Project Information &Table Of Contents - HEIGHT FROM TOP Risk Category: II • SOLAR PANEL - - -- OF ROOFING MATERIAL add. PV System Type SolarOty SleekMount'" Comp Roof Comp Roof ,'/�I/ Layers of Comp Roofing 2 SOLAR MODULE jl/� Roof Slope ls� MOUNTING HARDWARE %/ Rafter Spadng 24"O.C. PV System Module Orientation Landscape and Portrait (SEE STANDOFF DETAIL) —' PV Module Area 1243 sf PV Module Width 39" � . PV Module Length 66" / Standoff(Attachment Hardware) Comp Mount Type C with Lifter ROOFING MATERIAL �� Reduced Ground/Roof Live/Snow Loads PLYWOOD VENT PIPE Ground Snow load pg 25.0 psf 'ASCE Table 7-1 Surrounding Roof Snow 100% 25.0 psf 'ASCE Eq:7.4-1 (E) RAFTER Roof Snow Over PV Modules 100% 25.0 psf 'ASCE Eq: 7.4-1 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 SPANNING PHOTOVOLTAIC MODULES OVER VENTS Exposure Category C ' Section 6.5.6.3 Roof Style Gable Roof 'Fig.6-11G/C;D-14A/B MINIMUM VENT HEIGHT IS 6" ABOVE THE SURFACE OF THE ROOF PER 2007 CPC SECTION 906.1. Mean Roof Height h 15 ft Section 6.2 _Effective Wind Area(1 Module) A 17.8 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 Pressure Calculation 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 0.85 Table 6-3 FRICTIONAL RESISTANCE TO FLOW, SHALL BE USED UNLESS IT IS INDICATED AS ACCEPTABLE IN THIS CODE OR IS APPROVED IN ACCORDANCE Topographic Factor Kzt 1.00 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 Wino importance Factor Kd 1.0 Table 6-4 Importance Factor __ I _ 1.0 Table 6-1 WILL NOT HAVE A GREATER FRICTIONAL RESISTANCE TO AIR FLOW WOULD BE ACCEPTABLE. qh =0.00256(Kz)(Kzt)(Kd)(V^2)(I) Velocity Pressure qh Equation 6-15 16.7 psf EQUATIONS: Ext.Pressure Coefficient(Up) GCp(Up) -0.88 Fig.6-11B/C/D-14A'B THE FRICTIONAL RESISTANCE TO FLOW IS DIRECTLY PROPORTIONAL TO THE AREA THAT THE AIR CAN FLOW THROUGH. IN THE VENT, THAT IS Ext.Pressure Coefficient(Down) GCp(Down) 0.45 Fig.6-1113JCJD-14N8 THE CROSS—SECTIONAL AREA OF THE VENT PIPE: Design Wind Pressure p p - qh(GCp) Equation 6-72 Avent = IT*R2 Wind Pressure Up p(up) -14.6 psf Wind Pressure Down p(down) 10.0 psf WHEN THE AIR EXITS THE VENT, THE AREA IT HAS TO FLOW THROUGH IS THE CIRCUMFERENCE OF THE VENT TIMES THE VERTICAL DISTANCE Allowable Standoff Spacings BETWEEM THE VENT AND THE MODULE ABOVE (IN THIS CASE, WE ARE LEAVING THE DIAMETER BETWEEN THE TOP OF THE VENT AND THE - . THIS METHODOLOGY ASSUMES THE WORST CASE SCENARIO OF MOUNTING THE MODULES HORIZONTALLY OVER THE X-Direction Y Direction BOTTOM OF THE PANEL). Max Allowable Standoff Spacing Landscape 72" 39" VENT. IN ACTUALITY, THE MODULES WILL BE TILTED WHICH WILL OFFER MORE AREA FOR AIR TO FLOW THROUGH. Max Allowable Cantilever Landscape 24" NA Standoff Configuration Landscape Staggered Agap = C*CLEARANCE = (tY*D)*D = (ir 2*R)*(2*R) = 4*iT*R2 4*ir*R2 > WIR 2 Max Standoff Tributary Area Trib 20 sf 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 at Standoff T-actual -251 lbs Uplift Capacity of Standoff T-allow 500 lbs ABOVE THE VENT THAN IN THE VENT ITSELF. Standoff Demand/Capacity DCR 50.2% Max Allowable Standoff Spacing Portrait 48" 66" - 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 18" 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 Standoff Tributary Area Trib 22 sf THE VENT. PV Assembly Dead Load W-PV 3 psf Net Wind Uplift at Standoff T-actual -281 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 fffDe ynd Demand/Capacity Tallow 500 % Standoff Demand/Capacity DCR 56.3% THE ROOF SLOPE MUST HAVE A MINIMUM INCLINATION OF 10' OR THE PANELS MUST BE SLOPED AT A MINIMUM INCLINATION OF 10'. CONFIDENTIAL - THE INFORMATION HEREIN JOB NUMBER: JB-9722380 00 PREMISE OWNER: DESCRIPTION: DESIGN: DONALD COMSTOCK RESIDENCE Jim McLean ���'s. • BENEFIT OF SHALL NOT EXCEPT CE USED FOR THE COMSTOCK, - SolarCity. BENEFIT OF ANYONE EXCEPT SD FOR INC., MOUNTING SYSTEM: �., NOR SHALL IT BE DISCLOSED IN WHOLE OR IN Multiple Mounting Hardware Types 12020 SW 118TH AVE 16.64 KW PV ARRAY ' PART TO OTHERS OUTSIDE THE RECIPIENT'S MODULES TIGARD, OR 97223 - ORGANIZATION, EXCEPT IN CONNECTION WITH THE SALE AND USE OF THE RESPECTIVE (64) REC # REC260PEZ PAGE NAME: SHEET: REV DATE: San 3 55agoearCe 9Way SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN INVERTER: (503) 319-7059 T:(650)PERMISSION OF SOLARCITY INC. Multiple Inverters UPLIFT CALCULATIONS PV 5 2/2/2015 (888)(sso)6 (6582:(650)638-1029 com GROUND SPECS MAIN PANEL SPECS GENERAL NOTES INVERTER SPECS MODULE SPECS LICENSE BOND (N) #8 GEC TO (E) GROUND ROD Panel Number: Upgraded Inv 1: DC Ungrounded INV 1 -(1)ABB PV1-5000-OUTD-US-Z-A -(64)REC y REC260PEZ OR # 180498 AT PANEL WITH IRREVERSIBLE CRIMP Meter Number:23 789 071 Inv 2: DC Ungrounded AFCI!inverter; Zigbee 5000W, 277V/240V/208V, 96.5%/96.5%/969. PV Module; 260W, 234.3W PTC, MC4, 40mm, Black Frame, ZEP Enabled RGC, CGC1 Underground Service Entrance Inv 3: DC Ungrounded INV 2 -(1)ABBY PVI-3.0-OUTD-S-US-Z-A Tie-In: Supply Side Connection AEU Inverter; Zigbee 3000W, 277V/240V/208V, 96Z/96%/96% Voc: 37.8 Vpmax: 30.7 INV 3 -(1)AAFCI Inverter;60Z00-Oe 6000W,Z2 7V/240V/208V, 96.5%/96.5%/96% Isc AND Imp ARE SHOWN IN THE DC STRINGS IDENTIFIER (N 200A MAIN SERVICE PANEL N5 200A/2P MAIN CIRCUIT BREAKER ADJUST MIN. ACTIVATION VOLTAGES! CUTLER-HAMMER BRYANT Inverter 1 IND Disconnect CUTLER-HAMMER COOPER (N) 125A Load Center T � Vstart = 120V ® Disconnect Meter Socket (9) © ABB Dc- PVI-5000-OUTD-US-Z-A DC- MP 1: 1x11 • .�; A A 90A B C D 30A/2P EGC Cill •I L2 _ Li 1 240V 1 r /7[13---M0 N --L __- DG I \ / ' Vstart = 120V �J +.._..\1--c GND - ---- GNU - - GND I- '— EGG �J DC- DC, - Q t/ - o GEC Ta �� Da Dc MP Vstart 1x 0 mo• • -_I I z I ®--_ EGC L EGO - • • --- *-��a�J 7 ---- ----f rl YJ mi (E) LOADS 1 ADJUST MIN. ACTIVATION VOLTAGES! (1)COJJx 10' EMT Conduit I , _ N Inverter 2 PAR Square D: SR96064A Solar Ready Kit O 7 ABB Z-z i I PVI-3.0-OUTD-S-US-Z-A I 20A/2P — T GEC ' I �-,--• • I L1 1 240V 1 TO 120/240V I I -• • L2 N Vstart = 120V I I ,•. ., - 3 SINGLE PHASE I ll„J„� Ecc; •� DC. DC. / UTILITY SERVICE I T GEC N Dc- DC- MP 2: 1x11 ®�� II I I / EGC EGG J I I Ji ADJUST MIN. ACTIVATION VOLTAGES! — � Inverter 3 IND I a Vstart = 120V I ® ABB DC. PVI-6000-OUTD-US-Z-A DG MP 3: 1x13 35A/2P I 240V I EGC wij -• • �— DC, i bc. Vstart = 120V t' N Z.r DC- I �G /II _.,,-1-----}y -i - ..!DC• DC- MP 3: 2x9 i, I ®^---EC--- ----f- * _1iGc J Voc* = MAX VOC AT MIN TEMP (1)C01,1DUIT,KIT POI SQUARE D SOLAR READY PANEL A -(1)CUTLER-HAMMER r DG223NRB 1 10 EMT Cend1 ! Disconnect; 100A, 240Vac, Fusible, NEMA 3R AC DC D -(1)BRYANT I BR816L125RP _(1)CUTLER-HAM Groou d/Neutral Mt D 60ooN100A, General Duty(DG) Load Center; 125A, 120/240V, NEMA 3R -(1)CURER-HAMMER #DS16FK -(1)CUTLER-HAMMER # BR230 Class R Fuse Kit Breaker, 30A 2P, 2 Spaces -(2)FERRAZ SHAWMUT A TR9OR PV BACKFEED OCP -(1)CUTLER-HAMMER #BR220 Fuse; 90A, 250V, Class RK5 0L� .(2)AWG /6, tr HARE, Blade Voc* =337.76VDC Isc =8.51 ADC Breaker, 20A 2P, 2 Spaces ( AWG /6, Stranded Bare Copper EGC Vmp =337.7 VDC Imp=8.5 ADC -(1)CUTLER-HAMMER /BR235 B (1)CUTLER-HAMMER I DG323URB . . (1)Conduit Kit; 3/4- EMT Breaker, 35A2P, 2 Spaces Disconnect; 100A 24OVoc, Non-Fusible, NEMA 3R —(2)AWG /10, Pv WARE, Block Voc* =458.46 VDC Isc =9.01 ADC • -(1)CUTLER-HAMMER if DG100NB o0 SSC-SUPPLY SIDE CONNECTION. DISCONNECTING MEANS SHALL BE SUITABLE Ground/Neutral Kit; 60-100A, General Duty(DG) 2 Z-(1)AWG #6, Stranded Bare Copper EGC Vmp =337.7 VDC Imp=8.5 ADC AS SERVICE EQUIPMENT AND SHALL BE RATED PER NEC, ._.._._ _ __.__._ ____ ._.__._._ .___.... __. 0• (1..?Conduit Kit; 3/4' EMT (1)COOPER B L'ne Meter Socket 011 )) — --- ®�(1)AWG X18, THWN-2, Block Meter Socket; 125A, 4-14AWG, Ring Type (2 AWG /l0, PV WIRE, Black Voc* =458.46 VDC Isc =9.01 ADC (1)AWG �8, THWH-2, Red -(1)AW CAP; B-Line Meter Socket Accessory O 5Z-(1)AWG/6, Stranded Bore Copper EGC Vmp =337.7 VDC Imp=8.5 ADC ���LLC(1)AWG /j10, THWN-2. White NEUTRAL Vmp =240 VAC Imp=28 MC -(1)Milbank I CL200D /Itron C1S (1)Conduit Kit; 3/4' EMT -(1)AWG X18, THWN 2, Green EGC/GEC -(1)Conduit Kit; 3/4- EMT Solid-State Single-Phase Meter; Digital(1)Conduit Kit; 3/4" EMT (2)AWG /10 PV WIRE, Block Voc* =541.82 VDC Isc =9.01 ADC �(1)AWG 14. THWN 2, Black (1)AWG #10, THWN-2, Block 4 ao OEE(1)AWG 14, THWN-2, Red ©I �(1)AWG #10, THWN-2, Red 5�-(1)AWG /6 Stranded Bare Capper EGC Vmp =399.1 VDC Imp=8.5 ADC I (1)AWG #4, THWN-2, White NEUTRAL Vmp =240 VAC Imp=65.5 AAC I (1)AWG I#10, THWN-2, White NEUTRAL Vmp =240 VAC Imp=23 AAC rt (1)Awc •1 , PV WIRE,EMT -(1)AWG #8, THWN-2, Green EGC/GEC-(1)COfIDUIT KIT -(1)AWG #8, THWN-2, Green EGC/GEC-(1)Conduit Kit; 3/4*.EMT 5 (4)AWG /6, tr WIRE, Black Voc* =375.1 VDC Isc =9.01 ADC 1 x 10' EMT Conduit s;-0 LE (1)AK f3, THWN-2, Block II (1)AWG #10, THWN-2, Black �-(1)AWG /6, Stranded Bore Copper EGC Vmp =276.3 VDC Imp=8.5 ADC (1)AWG 03, THWN-2, Red O 6 �(1)AWG #10, THWN-2. Red (1)COfIDUIT KIT 6 1 x 10'EMT Conduit (1)AWG /3, THWN-2, White NEUTRAL Vmp =240 VAC Imp=65.5 MC (1)AWG #10, THWN-2, White NEUTRAL Vmp =240 VAC Imp=14.5 MC -(1)AWG 16 Solid Bare C000rr GFC -(1)CONDUIT_KIT 1-x 10' EMT Conduit -(1)AWG y8, THWN-2, Green EGC/GEC CONFIDENTIAL - THE INFORMATION HEREIN JOB NUMBER: PREMISE OWNER: DESCRIPTION: DESIGN: CONTAINED SHALL NOT BE USED FOR THE J B-9722380 00 COMSTOCK, DONALD „„ ■ COMSTOCK RESIDENCE Jim McLean ,SOIarClty BENEFIT OF ANYONE EXCEPT SOLARCITY INC., MOUNTING SYSTEM; 12020 SW 118TH AVE ��' NOR SHALL IT BE DISCLOSED IN WHOLE OR IN Multiple Mounting Hardware Types 16.64 KW PV ARRAY PART TO OTHERS OUTSIDE THE RECIPIENTS MODULES TIGARD, OR 97223 ORGANIZATION, EXCEPT IN CONNECTION WITH THE SALE AND USE OF THE RESPECTIVE (64) REC # REC260PEZ 3055 Clearview Way SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN PAGE NAME: SHEET: REV: DATE: San Mateo, CA 94402 PERMISSION OF SOLARCITY INC. MUTER: title Inverters (503) 319-7059 THREE LINE DIAGRAM PV 6 2/2/2015 (888)-(65)CIT�1 (10282F:(650)638-1029 1029 m ELECTRICAL CALCULATIONS Module: Inverter 1: 22 REC 260PEZ 1 ABB PVI 5000 S AFCI 234.3 Inv Power WPTC 5000 4974.19 Voltage Drop Calculations Vdrop= Imp) * (2*Length)*(Resistance) / (Vmp) Version 5.8.0 Module: 11 REC 260PEZ 234.3 Imp(A) Max. Length(ft) Wire Inverter 2: 1 ABB PVI-3.0-S AFCI 0.96 0.96 3300 2474.21 String: 8.5 85 AWG #10 at Max Ave Hi:87 deg F Module: 31 REC 260PEZ 234.3 Vdrop= (8.5 170 0.00124 Ohms) / 333.65 0.54 Inverter 3: 1 ABB PVI-6000-S AFCI 0.96 6000 7009.08 Branch: 1 8.5 1 50 [ AWG#10 at Max Ave Hi:87 deg F Vdrop= (8.5 100 0.00124 Ohms) / 399.1 0.32 Module: REC 260PEZ 234.3 Total voltage drop in DC conductors= 0.85 Inverter 4: Inverter: I 28 I 10 AWG #8 I at 240V Vdrop= (28 20 0.00078 Ohms) / 240 V 0.06 Total: 64 Modules Total Inv Pwr: 14300 14457.48 PTC Combined: 52.4 1 40 AWG#3 I at 240V Photovoltaic Module Electrical Specifications: Total STC: 16640 Vdrop= (52.4 80 0.00024 Ohms) / 240 V 0.26 Voc: 37.8 V deg F deg C Vmp: 30.7 V Record Low Temp: 8 -13 Total voltage drop in AC conductors= 0.31 Isc: 9.01 A Max Average Hi Temp: 87 31 Total voltage drop in AC and DC conductors= Imp: 8.5 A Record Hi Temp: Tvoc: -0.1 V/deg C Tisc: 2.16 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: N/A Voc Correction Factor: ABB PVI-6000-S AFCI 2 I strings per branch 1 1 'strings per branch 2 Inverter Min Vdc Input: 130 13 REC 260PEZ Min Vmp at Max Temp: 333.65 9 I modules per series string 13 modules per series string Voc= 491.4 Voc= 340.2 V Voc= 491.4 V Max Voc at Min Temp: 541.82 Vmp= 399.1 Vmp Inverter Max Vdc Input: 600 276.3 V Vmp= 399.1 V lsc= 9.01 lsc= 18.02 A lsc= 9.01 A Max String Size: 14 Imp= 8.5 1-way wire length: 50 Imp= 17 A Imp 8.5 A Icont= 11.26 Art 690.8(A)(1) Icont= 22.52 A Icont= 11.26 A Art 690.8(A)(1) 1.a Conductor: AWG#10 I PV Wire 2.a Conductor 1: N/A Conductor 2: N/A Icont*1.25=(Amps) 14.08 Conductor 1 Conductor 2 30 deg C ampacity= 40 Icont* 1.25=(Amps) 28.16 14.08 1.b Icont=(Amps) 11.26 30 deg C ampacity= N/A N/A Start ampacity 40 2.b Icont=(Amps) 22.52 11.26 Temperature derate(%=F) 0.76 Start ampacity N/A N/A Conduit fill derate(%=#) 1 Temperature derate(%=F) N/A N/A Derated ampacity 30.4 I Conduit fill derate(%=#) N/A N/A 1.c Derated ampacity N/A N/A Icont* 1.25=(Amps) 14.08 2.c Term 1 Term 2 Ampacity 40 I Temp table N/A N/A Icont*1.25=(Amps) 28.16 14.08 1.d Icont* 1.25=(Amps) 14.08 Ampacity N/A N/A OCPSize= 15 Inverter Type A Output 2.d OCP Size= 30 I 15 I ABB PVI-6000-S AFCI 1 way wire length: 10 ft Combined Inverter Output Icont= I 28 IA Art 690.8(A)(1) Service Voltage= 3.a Icont*1.25=(Amps) 35 Art 690.8(B)(1) Total Inverter Power= 1 way wire length= 40 OCP Size= 35 Art 240.6(A) Icont=#of inverters*max inverter current Art 690.8(A)(1) 3.b Conductor AWG#8 THWN-2 at 90 deg C:Table 310.16 Icont=(Amps) Icont* 1.25=(Amps) 35 4.a Icont*1.25=(Amps) 81.88 Art 690.8(B)(1) 30 deg C ampacity= 55 OCP size= 90 Art 240.6(A) 3.c Icont=(Amps) 28 4.b Conductor: AWG#4 THWN-2 at 90 deg C:Table 310.16 Start ampacity 55 Icont*1.25=(Amps) 81.88 Temperature derate(%=F) 0.91 30 deg C ampacity= 95 Conduit fill derate(%=#) 1 4.c Icont=(Amps) 65.5 Derated ampacity 50.05 I Start ampacity 95 3.d Icont*1.25=(Amps) 35 Temperature derate(%=F) 0.91 Ampacity 50 Conduit fill derate(%=#) 1 Derated ampacity 86.45 4.d Icont*1.25=(Amps) 81.88 I Ampacity _ 85 I CONFIDENTIAL - THE INFORMATION HEREIN JOB NUMBER: PREMISE OWNER: DESCRIPTION: DESIGN: JB-9722380 00 4�� CONTAINED SHALL NOT BE USED FOR THE COMSTOCK, DONALD COMSTOCK RESIDENCE Jim McLean +''.SolarCity BENEFIT OF ANYONE EXCEPT SOLARCITY INC., MOUNTING SYSTEM: 1 2020 SW 11 8TH AVE NOR SHALL IT BE DISCLOSED IN WHOLE OR IN U �l V A.o PART SHALL OTHERS OUTSIDE THE REHOLENOR Multiple Mounting Hardware Types 16.64 KW PV ARRAY �1� • ORGANIZATION, EXCEPT IN CONNECTION WITH MODULES: TIGARD, OR 97223 3055 aearview way THE SALE AND USE OF THE RESPECTIVE (64) REC # REC260PEZ PAGE NAME SHEET: REV DATE: San Mateo, CA 94402 SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN INVERTER: T:(650)638-1028 F:(650)638-1029 PERMISSION OF SOLARCITY INC. Multiple Inverters (503) 319-7059 ELECTRICAL CALCULATIONS PV 7 2/2/2015 (1188)-SOL-CITY(765-2489) www.sdarcity.com 2" MAX 2" MIN CLEAR SPAN UPLIFT CALCULATIONS VENT SPANNING DETAIL DIAMETER ____4,TO MODULIDE 07.02.2015 N Ts � PV System Structural Version#42.2 f: SolarCity Design Software - - 6" MIN. VENT Project Information &Table Of Contents HEIGHT FROM TOP Risk Category: II SOLAR PANEL - ' OF ROOFING MATERIAL System Type SolarCity SleekMount Comp Roof Comp Roof �i� Layers of Comp Roofing 2 ,i �� Roof Sloe 18° SOLAR MODULE "� j/ P MOUNTING HARDWARE 0 Rafter Spadng 24"O.C. _ (SEE STANDOFF DETAIL) PV System Module Orientation Landscape and Portrait ( 7 —I PV Module Width 1243 39'sf —. PV Module Width 66" Standoff Module Length 66" ROOFING MATERIAL Standoff(Attachment Hardware) Comp Mount Type C with Lifter leo / Reduced Ground/Roof Live/Snow Loads PLYWOOD VENT PIPE Ground Snow Load pg 25.0 psi . ASCE Table 7-1 Surrounding Roof Snow 1009b 25.0 psf 'ASCE Eq; 7.4-1 (E) RAFTER Roof Snow Over PV Modules 1000/u 25,0 psf 'ASCE Eq: /.4--1 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 SPANNING PHOTOVOLTAIC MODULES OVER VENTS Exposure Category C ' Section 6.5.6.3 Roof Style Gable Roof 'Fig.6-11a1C,D-14AiB MINIMUM VENT HEIGHT IS 6" ABOVE THE SURFACE OF THE ROOF PER 2007 CPC SECTION 906.1. Mean Roof Height h 15 ft Section 6.2 Effective Wind Area(1 Modulel A 17.8 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 Pressure Calculation 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 0.85 Table 6-3 FRICTIONAL RESISTANCE TO FLOW, SHALL BE USED UNLESS IT IS INDICATED AS ACCEPTABLE IN THIS CODE OR IS APPROVED IN ACCORDANCE Topographic Factor Kzt 1.00 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 LDirectionality ce fr Factor Kd 1.0 Table 6-1 Importance Factor I 1.0 Table 6-1 WILL NOT HAVE A GREATER FRICTIONAL RESISTANCE TO AIR FLOW WOULD BE ACCEPTABLE. J qh 0.00256(Kz)(Kzt)(Kd)(V^2)(I) Velocity Pressure qh 16.7 psi Equation 6-15 EQUATIONS: Ext.Pressure Coefficient(Up) GCp(Up) -0.88 Fig.6-118/C/D-14NB THE FRICTIONAL RESISTANCE TO FLOW IS DIRECTLY PROPORTIONAL TO THE AREA THAT THE AIR CAN FLOW THROUGH. IN THE VENT, THAT IS Ext.Pressure Coefficient(Down) GCp(Down) 0.45 Fig.6-118/C/D-14A(B THE CROSS–SECTIONAL AREA OF THE VENT PIPE: Design Wind Pressure p p= qh(GCp) Equation 6-22 Avent = MR' Wind Pressure Up p(up) -14.6 psf Wind Pressure Down p(down) 10.0 psi WHEN THE AIR EXITS THE VENT, THE AREA IT HAS TO FLOW THROUGH IS THE CIRCUMFERENCE OF THE VENT TIMES THE VERTICAL DISTANCE Allowable Standoff Spacings BETWEEM THE VENT AND THE MODULE ABOVE (IN THIS CASE, WE ARE LEAVING THE DIAMETER BETWEEN THE TOP OF THE VENT AND THE ][Direction Y-Direction BOTTOM OF THE PANEL). THIS METHODOLOGY ASSUMES THE WORST CASE SCENARIO OF MOUNTING THE MODULES HORIZONTALLY OVER THE Max Allowable Standoff Spacing Landscape 72" 39" VENT. IN ACTUALITY, THE MODULES WILL BE TILTED WHICH WILL OFFER MORE AREA FOR AIR TO FLOW THROUGH. Max Allowable Cantilever Landscape 24" NA Standoff Configuration Landscape Staggered Agap = C*CLEARANCE = (7r*D)*D = (ir*2*R)*(2*R) = 4*ir*R2 4*ir*R2 > 7r*R2 Max Standoff Tributary Area Trib 20 sf PV Assembly Dead Load W-PV 3 psi FROM THE EQUATIONS ABOVE, IT IS EVIDENT THAT MOUNTING THE MODULES IN THIS MANNER ALLOWS FOUR TIMES THE AMOUNT OF AIR FLOW Net ft ft Capacity Uplift of Standoff Tactual 251 lbs uplift of Standoff T-allow 500 lbs ABOVE THE VENT THAN IN THE VENT ITSELF. Standoff Demand/Capacity DCR 50.2% Max Allowable Standoff Spacing Portrait 48" 60' 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 18" 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 Standoff Tributary Area Trib 22 sf THE VENT. PV Assembly Dead Load W-PV 3 psf Net Wind Uplift at Standoff T-actual -281 lbs IN THE DIRECTION OF THE SLOPE OF THE ROOF, THERE SHALL BE A GAP OF AT LEAST 1/2 INCH BETWEEN MODULES. uplift Standoff ff Dem of Demand/Capacity it T-allow 500 % Standoff Demand/Capacity DCR 56.3% THE ROOF SLOPE MUST HAVE A MINIMUM INCLINATION OF 10' OR THE PANELS MUST BE SLOPED AT A MINIMUM INCLINATION OF 10'. CONFIDENTIAL — THE INFORMATION HEREIN JOB NUMBER: PREMISE OWNER: DESCRIPTION: DESIGN: CONTAINED SHALL NOT BE USED FOR THE JB-9722380 00 �\∎∎� ■ COMSTOCK, DONALD COMSTOCK RESIDENCE Jim McLean SolarCity BENEFIT OF ANYONE EXCEPT SOLARCITY INC., MWNTING SYSTEM: �'.,,i NOR SHALL IT BE DISCLOSED IN WHOLE OR IN Multiple Mounting Hardware Types 12020 SW 118TH AVE 16.64 KW PV ARRAY PART IZ TO OTHERS OUTSIDE THE RECIPIENTS VAT MODULES: TIGARD, OR 97223 3055 Cleardew Way ORGANIZATION, EXCEPT IN CONNECTION WITH THE SALE AND USE OF THE RESPECTIVE (64) REC # REC260PEZ PAGE NAB SHEET: REV: DATE: Si a Mateo, CA e 9Way SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN INVERTER: T:(650)638-1028 F:(650) 638-1029 PERMISSION OF SOLARCITY INC. Multiple Inverters (503) 319-7059 UPLIFT CALCULATIONS PV 5 2/2/2015 (888)—SOL—CITY(765-2489) www.sorarcity.com Instruction Boletin de 73295-553-01 Bulletin instrucciones 07/2012 Replaces/Reem plaza 73295-553-01 Rev.00,07/2011 SR69064A Terminal Kit for Solar Ready Combination Service Class Series Entrance Device (CSED) close Merie 4120 M01 Kit de terminales SR69064A para base integral de medicion para acometida (CSED) de energia solar Retain for future use./Conservar para use futuro. Kit Contents Contenido del accesorio 2 Sub-feed phase terminals 2 Terminales de fase de subalimentacion 1 Sub-feed neutral terminal 1 Terminal de neutro de subalimentaciOn 2 Interactive inverter labels 2 Etiquetas de inversor interactivas Precautions Precauciones A DANGER / PELIGRO HAZARD OF ELECTRIC SHOCK, EXPLOSION,OR PELIGRO DE DESCARGA ELECTRICA, EXPLOSION 0 ARC FLASH DESTELLO POR ARQUEO • Apply appropriate personal protective equipment • Utilice equipo de proteccion personal(EPP)apropiado y siga las (PPE)and follow safe electrical work practices. See practices de seguridad electrica establecidas por su Compania, NFPA 70E and NOM-029-STPS. consulte la norma 70E de NFPA y NOM-029-STPS. • This equipment must only be installed and serviced • Solamente el personal electrico especializado debera instalar y by qualified electrical personnel. prestar servicio de mantenimiento a este equipo. • Turn off all power supplying this equipment before • Desenergice el equipo antes de realizar cualquier trabajo en el. working on or inside equipment. • Siempre utilice un dispositivo detector de tension nominal • Always use a properly rated voltage sensing device adecuado para confirmar la desenergizacion del equipo. to confirm power is off. • Vuelva a colocar todos los dispositivos, las puertas y las cubiertas • Replace all devices,doors and covers before turning antes de volver a energizar el equipo. on power to this equipment. Failure to follow these instructions will result in El incumplimiento de estas instrucciones podra causar la death or serious injury. muerte o lesiones serias. Installation Instalacion 1. Turn off all power supplying this equipment before 1. Desenergice el equipo antes de realizar cualquier trabajo dentro o working on or inside equipment. fuera de el. 2. Remove the deadfront.An insulating barrier is installed 2. Desmonte el frente muerto. Una barrera aislante ha sido instalada to isolate the line bus bars from the deadfront.See para aislar las barras de lines del frente muerto.Vea la figura 1,A. Figure 1,A. 3. Lift barrier to locate studs to attach the feed through 3. Levante la barrera para localizar los pernos para colocar las terminals.See Figure 1,B. terminales de paso.Vea la figura 1, B. I] SQUARE D by Schneider Electric SR69064A Terminal Kit for Solar Ready Combination Service Entrance Device(CSED) 73295-553-01 Kit de terminales SR69064A para base integral de medicion para acometida(CSED)de energia solar 07/2012 Figure I Figura 1: Removing Deadfront I Desmontaje del frente muerto iiiiii 2.... ._ ,t . E tt 4. Using a 7/16 in. socket,remove KepsTM nuts(A)from 4 Con una(lave de cubo de 7/16 pulgada,retire las tuercas de both circuit breaker connectors(B). See Figure 2. seguridad KepsTM(A)de ambos conectores(B)en el interruptor automatico.Vea la figura 2. Installing Current Transformers (CTs)on Instalacion de los transformadores de corriente (TC) en Bus Bars las barras • Maximum external dimensions for CTs 3 in. • Dimensiones maximas externas para los TC. 76 mm (3 pulg)de diameter(or height)x 1 in depth. diametro(o altura)x 25 mm (1 pulg)de profundidad. • Minimum window opening: 1 in diameter(or width). • Abertura minima de la ventana: 25 mm(1 pulg)de diametro(o ancho). 1. If CTs are to be installed on the line side of the main 1. Si se van a instalar los TC en el lado de la linea del interruptor circuit breaker, use 3/8 in hex(Allen®driver)to automatico principal, utilice una punta de destornillador(Allen®) loosen the wire binding screws(C)and remove the hexagonal de 3/8 pulg para aflojar los tornillos de sujecibn del circuit breaker connectors(B)from the main circuit cable(C)y guitar los conectores(B)de las terminales del breaker terminals. See Figure 2. interruptor automatico principal. Vea la figura 2. Figure I Figura 2: Keps Nuts Removal/Extraction de las tuercas de seguridad �_ r C • ------,—,-,. ____. .,:.2.„,,,.. ,„. , ,. . , . ,. ---0,,....4. co, . 4. nopo..... ,:;,.:...:::,::{ '� - 'as �e'-" , a> ` u.* of ii • , __,.„,,„ i ismomiliiimmormss...--- .„, ,,,..it.,,,,,,:. 1.„.7.,.::„ ,.,,,- , ,,__.: r., x ri a , 1 2 ©2011-2012 Schneider Electric All Rights Reserved/Reservados todos los derechos 73295-553-01 SR69064A Terminal Kit for Solar Ready Combination Service Entrance Device(CSED) 07/2012 Kit de terminales SR69064A para base integral de medicion para acometida(CSED)de energia solar 2. If CTs are to be installed on the line side of a twelve- 2. Si los TC deben instalarse en el lado de linea de un dispositivo de circuit main terminal device, use 7/16 in socket to terminales principal de doce circuitos, utilice una Ilave de cubo de remove the Keps nuts(A)and remove the bus 7/16 pulgada para guitar las tuercas de seguridad Keps(A) y connectors(B). See Figure 3. guitar los conectores(B)de la barra. Vea la figura 3. Figure/Figura 3: Keps Nuts Removal from Main Terminal Device I Desmontaje de las tuercas de seguridad Keps del - dispositivo de terminales principal B ": ' 7:4 1111kagr Wit ii A. A ir=' =.,f r - . -. - ; 3. Install CTs around connectors and re-install 3. Instale los TC alrededor de los conectores y vuelva a instalar estos connectors.Torque wire binding screws to 250 lb-in. ultimos.Apriete los tornillos de sujecion del cable en 28 N•m(250 (28 N•m)for main circuit breaker, or torque Keps Ibs-pulg)para el interruptor principal, o apriete las tuercas de nuts to 75 lb-in. (8.5 N•m)for twelve-circuit main seguridad Keps en 8,5 N•m(75 Ibs-pulg)para el dispositivo de terminal device See Figure 4. terminales principal de doce circuitos.Vea la figura 4. Figure/Figura 4: Install Current Transformers I Instalacion de los transformadores de corriente > . /i ' le c a #; , ©2011-2012 Schneider Electric All Rights Reserved/Reservados todos los derechos 3 . SR69064A Terminal Kit for Solar Ready Combination Service Entrance Device(CSED) 73295-553-01 Kit de terminales SR69064A para base integral de mediciOn para acometida(CSED)de energia solar 07/2012 Sub-Feed Terminal Assembly Installation Instalacion del ensamble de terminales de sub- alimentacion • 1. Attach sub-feed terminals to bus bars with Keps 1. Instate las zapatas de sub-alimentaciOn en las barras empleando nuts previously removed. Torque Keps nuts to las tuercas de seguridad que retiro anteriormente. Apriete las 75 lb-in. (8.5 N•m). See Figure 5. tuercas de seguridad en 8,5 N•m (75 Ibs-pulg). Vea la figura 5. Figure I Figura 5: Sub-Feed Terminal Assembly I Ensamble de terminales de sub-alimentacion 1 IP jo' lir M tS?! fit" 4 ...: 2. Install wires in sub-feed terminals. Using a 1/4 in hex 2 Empleando una Ilave de apriete prefijado y cubo hexagonal (Allen driver)and torque wrench,tighten wire binding de 1/4 pulg, apriete los tornillos de sujecion de cables.Aprietelos screws.Torque to 200 lb-in. (23 N•m). See Figure 6. en 23 N•m (200 Ibs-pulg). Vea la figura 6. Figure I Figura 6: Installing Wires I Instalacion de cables 4114 ter_. e .w r p Alternate Neutral Terminal (If Required) Terminale de neutro alternativa (si es necesaria) If an alternate neutral terminal is required, install neutral Si es necesaria una terminales de neutro alternativa, instale la terminal per instructions included with the lug.An terminale de neutro segun las instrucciones incluidas con la alternate neutral lug (LK100AN)with a wire range of#6- terminale. Este kit incluye una terminale de neutro alternativa 2/0 AWG is provided with this kit. (LK100AN)de tamano 13,3-67,4 mm2(6-2/0 AWG). Electrical equipment should be installed,operated,serviced,and maintained Solamente el personal especializado debera instalar,hater funcionar y prestar servicios only by qualified personnel.No responsibility is assumed by Schneider de mantenimiento al equipo electrico.Schneider Electric no asume responsabilidad Electric for any consequences arising out of the use of this material. alguna por las consecuencias emergentes de la utilization de este material. Square D'"and Schneider ElectricT"are trademarks or registered Square DT"y Schneider Electric"son marcas comerciales o marcas registradas de trademarks of Schneider Electric Other trademarks used herein are Schneider Electric.Cualquier otra marca comercial utilizada en este documento the property of their respective owners pertenece a sus respectivos propietarios. Schneider Electric USA,Inc. lmportado en Mexico por 1601 Mercer Road Schneider Electric Mexico,S.A.de C.V. Lexington,KY 40511 USA Calz.J.Rojo Gomez 1121-A 1-888-SquareD(1-888-778-2733) Col.Gpe.del Moral 09300 Mexico,D F www schneider-electric.us Tel.55-5804-5000 www Schneider-electric com mx 4 ©2011-2012 Schneider Electric All Rights Reserved/Reservados todos los derechos Label Location: Label Location: Label Location: CAUTION: SOLAR CIRCUIT (C)(IC)(CB) MAXIMUM AC A (AC) (P01) (POI) Per Code: OPERATING CURRENT Per Code: DUAL CAUTION 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) Per Code: DISCONNECT 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 PHOTOVOLTAIC SYSTEM ARE TO BE USED WHEN MAXIMUM POWER--A (DC) (INV) UNGROUNDED AND INVERTER IS POINT CURRENT(Imp) Per Code: MAY BE ENERGIZED UNGROUNDED MAXIMUM POWER-_V NEC 690.53 POINT VOLTAGE(Vmp) MAXIMUM SYSTEM Label Location: VOLTAGE(VaC) v WARNING (AC) (P01) SHORT-CIRCUIT CURRENT(Isc) A ELECTRIC SHOCK HAZARD Per Code: 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) Per Code: ELECTRICAL SHOCK HAZARD DO NOT TOUCH TERMINALS NEC 690.17(4) Label Location: TERMINALS ON BOTH ND (P01) LOAD SIDES MAY BE E .GIZED WARNING Per Code: IN THE OPEN I- - 'DN INVERTER OUTPUT NEC 690.64.8.7 DC VOLTAGE IS CONNECTION ALWAYS PRESENT WHEN DO NOT REt..00ATE SOLAR MODULES ARE THIS O\'L} CURRENT 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 - V (C): Conduit Per Code: OPERATING VOLTAGE DISCONNECT NEC 690.14.C.2 (D):)Distribution Panel (DC): DC Disconnect Label Location: (IC): Interior Run Conduit La La (POI) (INV): Inverter With Integrated DC Disconnect CAUTION Per Code: (LC): Load Center PHOTOVOLTAIC SYSTEM (M): Utility Meter CIRCUIT IS BACKFED NEC 690.64.B.4 (P01): Point of Interconnection . CONFIDENTIAL - THE INFORMATION HEREIN CONTAINED SHALL NOT BE USED FOR �NM4 ®C®�® THE BENEFIT OF ANYONE EXCEPT SOLARCITY INC., NOR SHALL IT BE DISCLOSED �. 2 EXCEPT OR IN PART TO THE ALEANDTUSER FIPTHErESPECTIVE ORGANIZATION, SC - OR Label Set ��4���a a � ®OLD Ell:lo[1:110=1:EIM ammo SOLARCITY EQUIPMENT, WITHOUT THE WRITTEN PERMISSION OF SOLARCITY INC. ZS Comp Edge Zone Calculations 1 of 4 df t` ZS Comp Edge Zone Calculations 2 of 4 5/28/13 5/28/13 Zi ZepSoLor ZepSo ar Lat 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 calculations will vary the design variables to account for the worst case for each failure mode that is being down force spacing = module width x design load the checked. at_ 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 Sn< System Weight= 3 psf Ground Snow Load= 30 psf GCN landscape= 0.5 0.9 0.9 Gr GCN portrait= 0.4 0.9 0.9 Comp Mount Allowable Loads PS= Uplift= 656 lbs design load landscape= 9.62 17.32 17.32 psf pt Lateral= 436 lbs ! design load portrit= 7.70 17.32 17.32 psf Down Force= 1147 lbs /� _`''l►I, note:use 10 psf minimum rir `, ► ,,p Snow Calculations Attachment Spacing Calculations 858th Vi To account for unbalanced snow loads,ground snow loads will be used for roof pitches 30 degrees and Uplift Spacing -, OREGON O lower.Per section 7.6.1 of ASCE 7-10 unbalanced snow loads do not need to be considered for slopes w P� ,''" above 30 degrees. Allowable Uplift Load e� 'c• �.�' uplift spacing= Fa+r Rot; 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=ghGCN Design Snow Load 29.11 25.98 psf qh=0.00256 KZ K„Kd V2 I (snow load spread over the length of the rafter) Basic Wind Speed= 95 mph - Down Force Load Roof Pitch Exposure= C Roof Zone= Edge Zone Combinations: 14 30 Importance Factor= 1.0 KZ= 0.98 from Table 6-3 D+S= 31.16 25.10 psf 30 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 32.46 `psf Roof Height= 30 GCN landscape= -1.6 lscape effective area= 13.0 ft2 GCN portrait= -1.5 114716s in ft2 landscape down force spacing = 39"x 32.46psf x 144 ft2 = 130" ortrait effective area= 21.7 ft Plandscape= -30.79 psf qh= 19.25 psf Pportrait= -28.87 psf 1147lbs in Por 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 in landscape uplift spacing = 39"x 29.05 psf x 144 ft2 = 83" 656 lbs in portrait uplift spacing = x 144 65"x 27.12 psf ft2 = 54" • %SolarCity I ZepSolar Next-Level PV Mounting Technology ,-SoIafCity Zep Solar Next-Level PV Mounting Technology Components lip Zep System for composition shingle roofs v,......, if _ . Up-roof „,,, „,....10,mind Zep ._ Interlock <<y soc shown• •••Leveling root Zap CorllpatBte PV Moduls Up Groove t./ Roof Attachment Array St ••.- L.../111111111 4 l ` + wconpgr���� Description -.. �%I `4-4'%* :.� �A®�� • PV mounting solution for composition shingle roofs \ - �- Y / cdnpat • Works with all Zep Compatible Modules to \%l t k ��/ 4, lor • Zep System UL 1703 Class A Fire Rating for Type 1 and Type 2 modules o Auto bonding UL-listed hardware creates structual and electrical bond O LISTEO Comp Mount Interlock Leveling Foot Part No.850-1345 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 (db.) • Designed for pitched roofs • Installs in portrait and landscape orientations ;�` • Zep System supports module wind uplift and snow load pressures to 50 psf per UL 1703 I 41‘411 • Wind tunnel report to ASCE 7-05 and 7-10 standards r • Zep System grounding products are UL listed to UL 2703 and ETL listed to UL 467 `� �� i ;at,, 4.• Zep System bonding products are UL listed to UL 2703 • • 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 Part Nos.500-0113, Part No.850-1448 Listed to UL 2703 and 850-1421,850-1460, Listed UL 1565 ETL listed to UL 467 850-1467 zepsolar.com zepsolar.com Listed to UL 2703 This document does not create any express warranty by Zep Solar or about its products or services.Zep Solar's sole warranty is contained in the wntten product warranty for This document does not create any express warranty by Zap Solar or about its products or services.Zep Solar's sole warranty is contained in the written product warranty for each product.The end-user documentation shipped with Zep Solar s products constitutes the sole specifications referred to in the product warranty.The customer is solely each product.The end-user documentation shipped with Zep Solar's products constitutes the sole specifications referred to in the product warranty.The customer is solely responsible for verifying the suitability of Zep Solar's products for each use.Specifications are subject to change without notice.Patents and Apps zspats.com. responsible for verifying the suitability of Zep Solar's products for each use.Specifications are subject to change without notice.Patents and Apps:zspats.com. 12 22 14 ZS for Comp Shingle Cutsheet Rev 02.pdf Page: 1 of 2 12 22 14 ZS for Comp Shingle Cutsheet Rev 02.pdf Page: 2 of 2 1 Solar inverters Additional highlights: i", '- - RS-485 communication interface • ABB string inverters Ifforco)nectiontolaptopordata PVI-5000/6000-TL-OUTD - InegratedArc Fault Detection and 5kW t o 6 k W Interruption(-A Version). Technical data and types Type code PVI-5000-OUTD-US PVI-6000-OUTD-US Input side �— Nominal output power 5000W 6000W Maximum output power 5000W 6000W Rated grid AC voltage 208V 240V 277V 208V 240V 277V Input side(DC) Number of independent MPPT channels 2 Maximum usable power for each channel 4000W Absolute maximum voltage(Vmax) 600V Start-up voltage(Vstart) 200V(adj.120-350) Full power MPPT voltage range 200-530V Operating MPPT voltage range 0.7 x Vstart-580V • Maximum current(Idcmax)for both MPPT in paralel 36A Maximum usable current per channel 22A 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 Spilt-0/3W 10/2W 10/2W Split-8/3W 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(I:,:,,,,.)Ax 27Aws 23A.. 20A.. 30A 28A s 24A. Designed for residential and small The wide input voltage range Highlights: Power factor distortion at rated power >02 makes the inverter suitable to low _ commercial PV installations,this Single phase and split phase output Contributory fault current' 36.25 A / 36.5 A°,/ 31.75 A�/ 36.25 A k/ 36.5 A / 31.75 A k/ inverter fills a specific niche in the power installations with reduced grid connection. 25.63A‹A1z 25.81A,..v, 22.45ANM, 25.63At 25.81A.. ' 22.45AXMx trip size. Grid wiring termination type Terminal block.pressure clamp,AWG14-AWG4 s ABB product line to cater for those g - Wide input range for increased Input The transforrnerless operation offers Reverse polarity protection Yes installations producing between stringing flexibility. 5kW and 20kW. high performance efficiencies of up to _ 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 This inverter includes dual input Free remote monitoring capability tracking and improved energy Anti-islanding protection Meets UL 1741/1EEE1547 requirements Meets UL 1 741/IEEE1547 requirements section to process two strings with available with every installation.This harvesting. Over-voltage protection type Varistor,2(L-L/L -G) Varistor,2(L-1_,/L-G) independent MPPT. enables homeowners to view their - Outdoor NEMA 4X rated enclosure Maximum AC OCPD Rating 35A 30A 25A 40A 35A 30A energy production and offers installers Efficiency The high speed and precise MPPT gY p for unrestricted use under any Maximum efficiency 97.1% algorithm offers real-time power a proactive and economic way of environmental conditions. cEC efficiency 96% 96.5% 96.5% 96% 96.5% 96.5% • tracking and energy harvestin maintaining and troubleshooting the - Inte Integrated DC disconnect switch User interface Graphic display Graphic display 9 gY g S tem. 9 Operating performance Flat efficiency curves ensure high in compliance with international Stand-by consumption <8W.M. <8WHM5 • efficiency at all output levels ensuring Standards(-S Version). Night time consumption <0.6W ,< <0.6W,„,, Communication consistent and stable performance User-interface 16 characters x 2 lines LCD display across the entire input voltage and Remote monitoring(1 xRS485 incl.) VSN700 Data Logger(opt) output power range. Wired local monitoring(tsRS485 incl.) PVI-USB-RS485_232(opt.) Environmental This outdoor inverter has been Ambient air operating temperature range 13°F to+140°F(-25°C to+60°C) -13°F to+140°F(-25°C to+60°C)with designed as a completely sealed unit to derating above 122°F(50°C) 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) Withstand the harshest environmental Relative humidity 0-100%RH condensing 0-100%RH condensing . conditions. Acoustic noise emission level <50 db(A)al m <50 db(A)@l m • 11 II II Maximum operating altitutde without derating 6560 ft(2000 m) 6560 ft(2000 m) Power and productivity 2.Inverter can apply that much narrow-Breaker will open for a better world' �+��1� 2 ABB Solar Inverters I Product flyer for PVI-5000/6000-TL-OUTD • I Soler inverters Additional highlights: ,.„..,..---•- - RS-485 communication interface ABB string inverters 'for connection to laptop or data 99 PVI-3.0/3.6/3.8/4.2-TL-OUTD - Integrated Arc Fault Detection and Ass (. 3.0 k W to 4.2 k W Interruption(-A Version). ° t NO I Technical data and types Type code PVI-3.0-OUTD-US PVI-3.6-OUTD-US PVI-3.8-OUTD-US PVI-4.2-OUTD-US __<= MedlerAcal specifications ,,,y� Nominal output power 3000W 3600W W� 3800W 4200W .... ...._.......... __..:....3000 ,...3300{ 3300' 3600 4000'...4000' :..3300.....4200' 4200' 4200 .4600' Maximum output power wattage W W W W W W W W W W W W Rated grid AC voltage 208V 240V • 277V 208V 240V ' 277V 208V 240V 277V 208V 240V 277V Input side(DC) Number of independent MPPT channels 2 2 2 2 Maximum usable power for each channel 2000W 3000W 3000W 3000W Absolute maximum voltage(Vmax) 600V Start-up voltage(VStart) 200V(adj.120-350V) Full power MPPT voltage range 160-530V 120-530V 140-530V 140-530v ............................................ Operating MPPT voltage range 0.7 x Vstart-580V(>=90V) Maximum current(Idcmax)for both MPPT in 20A 32A 32A 32A parallel ............. Maximum usable current per channel 10A 16A 16A 16A Maximum short circuit current limit per 12 5A 20.OA 20.OA 20.OA channel Number of wire landing terminals per channel 2 pairs Array wiring termination Terminal block,pressure clamp,AWG10-AWG4 Output side(AC) Grid connection type 10/ Split- 10/ 10/ Split- 10/ 10/ Split- 10/ 10/ Split- 10/ 2W 0/3W ; 2W 2W 0/3W • 2W 2W 0/3W 2W 2W 0/3W 2W Adjustable voltage range(Vmin-Vmax)M 183- 211_- • 244- 183- 21 1- 244- 183- 211- 244- 183- 21 1- 244- 228V 264_- ' 304V 212 v- 264V ; 244v ! 228V 264V 304v 228V 226141v- 64V 320444v- Adjustable frequency 60Hz Adjustable grid frequency range 57-60.51-1z Maximum current(I.,o) I 14.5 14.5 1e2.0 1e7.2 " 16.0 e16.0 16.0 • 16.0 16.0 • 20.0 20.0 : 2e0.0 ._... ',....�.�wrc :_._ARMS -ARIAG......_..` C....:..ARMS l ARIAS ARMS ARMS .Awns :.....! S....'__'HMS Power factor >0.995 Total harmonic distortion at rated power <2% This family of single-phase string The high-speed MPPT offers real- Highlights: Grid wiring termination type Terminal block,Pressure clamp,AWG10-AWG4 inverters complements the typical time power tracking and improved - Single phase and split phase output Input protection devices number of rooftop solar panels energy harvesting. grid connection. Reverse polarity protection tecten type for e Over-voltage protection type Varistor,2 for each channel enabling home-owners to get the most The flat efficiency curve ensures high - Wide input range for increased Pv array ground fault detection Pre start-up Riso and Dynamic GFDI(requires floating arrays) efficient energy harvesting for the size efficiency at all output levels allowing stringing flexibility. Output protection devices of the property. a consistent and stable performance - The high speed and precise MPPT Over-voltage rot ction Meets UL 174vI2EEt547 L.-Over-voltage protection type Varistor,2(L-L:./L-G) r across the entire input voltage and algorithm offers real time power Maximum AC OCPD Rating 20A„„, 20A„„, 15A 25A„„,, 20A„M° 20A,,,,° 20A,,,,, 2QA„u° 20A 25A,,,,,, 25A,,,,,; 25A,,,,, This inverter offers a dual input output power range. tracking and improved energy Efficiency section that processes two strings The transformerless operation gives the harvesting. Maximum efficiency 96.9% 97% 97% 97% CEC efficiency 96% with independent Multiple Power Point highest efficiency of up to 97.0%. - Outdoor NEMA 4X rated enclosure Operating performance__- Tracking(MPPT)- The wide input voltage range makes for unrestricted use under any Night time consumption <0.6W„M, This is especially useful for rooftop the inverter suitable to low power environmental conditions. Stand-by consumption <8W„,, Communication installations with two different installations with reduced string size. - Integrated DC disconnect switch User-interface 16 characters x 2 lines LCD display orientations from two sub-arrays This rugged outdoor inverter has been in compliance with international Remote monitoring(1xRS485 ind) VSN700 Data Logger(opt.) oriented in different directions.(For designed to be a completely sealed Standards(-S Version). Environmental Ambient air operating temperature range -13°F to+140°F with derating above 122°F(50°C) example:East and West) unit able to withstand the harshest Ambient air storage temperature range -40°F to+176°F(-40°C to+80°C) The dual input sections with environmental conditions. Relative humidity 0-100%RH condensing independent MPPT enable a more Acoustic noise emission level <50 db(A)6/1m �' ,D ,I Maximum operating attitutde without derating 6560 ft(2000 m]. optimal energy harvesting condition. Power and productivity 1 Capability enabled at nominal AC voltage and with sufficient DC power available. for a better world”' 11 U 2 ABB Solar Inverters I Product flyer for PVI-3.0/3.6/3.8/4.2-TL-OUTD I I 11,1 0 I I I I I I I II I I i I,I I 4 I I Illikillk ENERGIZING LIFE TOGETHER 45■ R C C REC PEAK ENERGY Z LINK SERIES HIGH PERFORMANCE - °2 �Q°. .- EFFICIENCY SOLAR PANELS YEAR PRODUCT WARRANTY SOLAR YEAR LINEAR POWER OUTPUT WARRANTY REC PEAK . .: _ BUT Y'FREE U5 IMPORT DUTY FREE 04 E NERGY _ t r _, t - TEMPERATURE RATINGS . NorninalOperating Cell Temperature(NDCT) 45.7°C(±2°C) i00 i Olga Oh 611P1 em---' Temperature Coefficient of fPMn 0.40%/°C Temperature Coefficient of V°, -0.27%/°C Temperature Coefficient of hr 0.024%/°C REC Peak Energy Z-Link Series solar All measurements in inches panels are the perfect choice for building LLCCTt (AI DATA iµSIL REC260PEZ GENERAL DATA 1 solar systems that combine long lasting Nominal Power-P,,„(Wp) 260 Cell Type: 60 REC PE multi-crystalline product quality with reliable power output. Watt Class Sorting-(Wp) «/-5 3 strings of 20 cells with bypass diodes REC combines high quality design and Nominal Power Voltage-V (V) 30.7 Glass: 0.125 in solar glass with anti-reflection surface treatment manufacturing standards to produce high Nominal PowerCurrent-i (A) 8.50 Back Sheet: Double layer highly resistant polyester OpenC'vcuitVdtage-V�(V) 37.8 Frame: Anodized aluminum(black) performance solar panels with Short Circuit Current Ix(A) 9.O1 ZepGroove[ompatibie uncompromising quality. Panel Efficiency(%) lgg lunctionBox: P67rated 0.156 in(12 AWG)solar cable,2 x 47.24 in The electrical characteristics are within.1-10%of the indicated values of I Va and R,,,,,,at standard Test conditions(STC). Values at standard test conditions STC(airmass AM 15,irradiance 1000 W/m',cell temperature 77•F(25•C)1. Conne[tors: H4 Amphenol �e c o Pq l/e` At low irradiance of 200 W/m'(AM 1.5&cell temperature 77•F(25•C))at least 97%of the 5TC panel efficiency will be achieved Origin: Made in Singapore • / �a • ELECTRICAL DATA(a'NOCT REC260PEZ MAXIMUM RATINGS 440> ea v NominaiPower-P r,,(Wp) 197 Operational Temperature: 40...*185°F)40...+85°C) Cp�Pp'(�� Nominal Power Voltage-el 29.0 Maximum System Voltage: 1000VUL Nominal Power Current-I (A) 6.81 Design Load: 50lbs/ft'(2400Pa)longside MORE POWER COMPATIBLE WITH Open al operating age-V«(V) 35.7 301bs/ft2(1436 Pa)short side PER FP ZEP GROOVE FRAME ShortC rcuitCurrent-Ix(A) 7.24 Max Series Fuse Rating: 15 A Nominal operating cell temperature NOCT(800 W/m',AM 1.5,windspeed I m/s,ambient temperature 68°F(20'C) Max Reverse Current: IS A filillei CERTIFICATION MECHANICAL DATA 4r- 10 year product warranty. Dimensions: 65.55 x 39.02 x 1.57 in(1665 x 991 x 40 mm) <- , '-i c ON 25 year linear power output warranty Area. 17.75ft2(1.65ma) o US IMPORT EASY TO L 170 (max.degression in performance of 0.7%p.a.). Weight: 43 (19 5 k y DUTY FREE INSTALL g kg) - �� a UL 1703,Fire rating:Type 1,Class C 1 Note! All given specifications are subject to change \ \ without notAt any time. REC is a leading global provider of solar energy solutions. With more than 15 years of experience,we offer sustainable,high per forming products,services and investments for the solar industry.Together with our partners,we create value by providing solutions that better R meet the world's growing energy needs.REC is headquartered in Norway and listed on the Oslo Stock Exchange(ticker:RECSOL).Our 1.600 employees worldwide generated revenues of USD 647 million in 2013. CC www.recgroup.com lik114111k Ah.A4A ' ZS Comp Edge Zone Calculations 3 of 4 ZS Comp Edge Zone Calculations 4 of 4 Z ep S o t3 r 5/28/13 Zep So 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 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=0.7CeCtIID, 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" 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) 30° 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". 2921bs in landscape lateral spacing = 39"x 14.49 psf x 144 ft- = 74" 2921bs in portrait lateral spacing = x 144 65"x 14.49 psf f=45" tz Portrait spacing is less than 48".Try roof pitch of 27 degrees • 2921bs in portrait lateral spacing = 65"x 13.50 psf x 144 ftz =48"