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10181088_827 S. DENNIS - Plan (2)
CITY OF SANTA ANA BUILDING PERMIT APPLICATION WORKSHEET PLEASE PRINT 3/2/05:forms/Blda.App.Worksheet PROJECT ADDRESS:n-1 9 06nm' f St SUITE:SAPIN #toi €10902 USE OF BUILDING:RESIDENTIAL -COMMERCIAL INDUSTRIAL OTHER MASTERID# NATURE OFWORK: NEW ADD ALTERIT. I.DEMO REROOF REPAIR SIGN MISC NEW/ADIDITION/ALTERATION· 1ST FL.. 2ND FL.. TOTAL OF OTHER FLS- GARAGE/CARPORT: SF BASEMENT: YES/NO SF PATIO/ENCL. PATIO: SF RES. REMODEL: SF ALTER/T.I.: SF NO. OF STORIES: SF BLDG. HEIGHT: SF PROPOSED USE SF JOB DESCRIPTION (non-residential projects see reverse side of this application) :5 K\N 2666--1¥YNAA+<61 <6161% '10 ?OAA,6, 10 ™C)¢.6 -\nOR]00f \ rAnt\, 1 5&(D Melk j \Ur ewid¥- BUILDING OWNER'S NAME:WWMh 'MOUS PHONE NO: ADDRESS:tla € Omn€ St- TENANT'S NAME (Comm/Ind) CONTRACTOR'S NAME:\frvint Sagrk ADDRESS:11 961 9 500 \14 WORKERS COMP. POLICY#:EXP. DATE \Nt 029 8413 14 il/\ (ILA ARCHITECT/ENGINEER: ADDRESS: CONTACT NAME:WA\ES( Ae-lnlf CITY:Santa Anc\STATE: C,A. ZIP:quO5 PHONE NO: STATE CONTR, #:LICENSE CLASS:PHONE NO: 011315u CUiD \6-ll¥]6K251- CITY:&040 STATE: 1 M-ZIP:FLAUM INSURANCE COMPANY:SANTA ANA BUS. LIC. # A\G, t.laiwd HU, STATE LICENSE #:PHONE NO: CITY:STATE:ZIP: PHONE NO: (06-1 · OOD· 7252 r E-MAIL ADDRESS:(32.angE r ax\Hy*\11*03 V\Vm¥, Con-b OFFICE USE ONLY:ACC OR SPC (CIRCLE ONE)HRS PER BLDG. FEE $ OCC. GROUP:RECEIPT#P/C FEE PD $ TYPE OF CONSTR:VALUATION: $ 5, 6®. 0 0 SUBMITTAL DATE:4-\6>-) 4 FIRE SPKR: YES / NO A/C: YES / NO FLOOD ZONE PROCESSED r- 1'5 RES. DEV. FEE: YES / NO PRIOR DWELLING UNIT: YES / NO COMMENTS: PLANNING OKTOCHECK& DATE -BLDG. DEPT. APPROVAL & DATE PLNG CONDITIONS: 4 m PLEASE CHECK ALL THAT APPLY TO YOUR PROJECT JOB DESCRIPTION CHECKLIST: J Additional square footage U Awnings E Canopy El Card readers El Ceiling work C] Change of occupancy (use) O Disabled accessible (H/C) restrooms El Dust collector U Elevator shaft U Exterior doors or windows D Equipment pads 01 Interior demo U Kitchen equipment U Partition walls D Rated corridors U Rated shafts E] Roof mounted equipment 0 Security bars 01 Screening for equipment U Skylights U Stairs U Storefront/facade improvements U Storage racks or shelving over 5'-9" El Walk-in coolers ITEMS REQUIRING SEPARATE BUILDING PERMIT APPLICATIONS: Block wall Complete demo Fence Fire signaling system Fire sprinklers Flagpole Lawn sprinkler system Light Standards Parking lot paving Parking lot striping Pedestrian protection Pool/Spa Signs Spray booth Temporary power pole Trash enclosure INDER OF DRAWINGS SHEET PV 1.0 - SITE PLAN SHEET PV 2.0 - ROOF PLAN SHEET PV 3.0 - MOUNT DETAILS, 116' OF 1" EMT CONDUIT- FROM JUNCTION BOX TO ELEC PANEL T Pv SYSTEM SIZE: .I-& ./ --I ..'..I';//'''E - I,i....| PERMITTYPE:BLD ELECT PtG5 k\N DC MECH GRADING \' - 3'OFFSET FOR PERMIT#J, ROOF ACCESS OCC. GROUP | CONSTR. TYPE__ 46- CODE EDITION--=9=.2113.-FLOOD ZONE___ 1 1 FLOOD ZCNE GERTIE REOD YES <JUNCTION BOX ATTACHED TO---n ARRAY USING ZEP ZS-GAB TO C KEEP JUNCTION BOX OFF ROOF,r-* =-=LIZ2212:E==========21YES= =N° - URADIANT BARRIER @ ROOF\YES MO RESIDENTIAL DEV. FEE 2-22111]rFECTURAL SFIRUCTRJURAL THOOL DISTRICT YES\NO - ACCEPTIED {FOR COUFFRUCTEON 05 SER %PATE NES"rr# r p'=.,2.r-p »11 · I .1 KVJ'lDILECTRCAL, IPLACJ.:.DVEr CIR'J,5-F:- ·i'.-?COri OLR"-0 ,'' Ehis se/, 0 1 planS 896 SPEDI·c f --18 r --.-' in 1- 2 53 r C job / ..11 81! tin:139 and 11 i: 445111'7'7'.d t? Ft"" 3 .79' 7,-., -1 :/91"enon; C• 807 r,imout co:Xco c.·40'ru:o fdy>ff . * .. /«\41 X§ *:ity 0, se ate Ama.1/ ..Cll ke -i* Ane•-'evt"11:-10 543ALLMKA*11 -i-".2 TI ille acce *noe 0,7 f.th B - . , . . ,1 ./ \In i -·-6 - 'r !274An W, eni,(proNion,filittlyld164 crstate Laill-b W9 UU i'j A -rAccepted By ==L===*f-De-2=.2 -20) Yingli Energy YL250P-29b MODULES WITH £=---- crrf,·92&&14 w.*-- (20) Enphase M215-60-2LL-32»ZC MICRO-INVI (ONE ON THE BACK OF EACH MODULE) Date issued -- 1 STORY STRUCTURE CA 927 2 % ***G DIV#SiON NNE ATE D:4 . : Cody . Oram NONE W GENERAL NOTES: 1 ALL WORK SHALL CONFORM TO 2013 CBC, 2013 CRC, 2013 CPC 2013 CMC, 2013 CEC, 'he 2013 CALIFORNIA ENERGY CODE 2013 CA *GREEN CODE AND CITY ORDINANCES INSPECTION NOTES: „APR 15 2014 1. THE FIRST REQUIRED INSPECTION SHALL UO 0 BE.FOR THE MODULE RACK SUPPORT BASES. 00) 6 · MODULE RACK SUPPORT BASES SHALL BE O dj..g ur tianta Ana INSTALLED PER MANUFACTURE'S C 4-W P mINSTALLATION INSTRUCTIONS. 2. LADDERS SHALL BE PROVIDED AND P Joi D SECURED TO THE STRUTURE FOR INSPECTION 0 2<z O 5 °6PURPOSES.Al O ED3. CONTRACTOR TO BE PRESENT FOR FIRST LL (0<0 AND FINAL INSPECTIONS. -N (0 0 W N -O 4. ALL INV.ERTERS, MOTOR GENERATORS (1) 9411; . , PHOTOVOLTAIC MODULES. PHOTOVOLIAIC 1- 9 PANELS, AC PHOTOVOLTAIC MODULES,9 ACMEMEN SOURCE-CIRCUITS COMBINERS, AND LL k- J CHARGE CONTROLLERS INTENDED FOR USE IN A PHOTOVOLTAIC POWERSYSTEM SHALL IDENTIFIED AND LISTED FOR THE mt!C#W ;(-1 OLOF_- - m.==f=,F 3135 21= APPLICATION PER 690.4(D).. 12*90& 02? Crf5. THE DISCHARGE OF POLLUTANTS TO ANY 1 STORM DRAINAGE SYSTEM IS PROHIBITED.1 81¢41,18 00 E NO SOLID WASTE, PETROLEUM BYPRODUCTS,el"T *91.UncSOIL PARTICULATE CONSTRUCTION WASTE MATERIAL OR WASTEWATER GENERATED ON 91©j, V LIA, e.#/tr. CONSTRUCTION SITE OR BY CONSTRUCTION ACTIVITIES SHALL BE PLACED CONVEYED OR , DISCHARGED INTO THE STREET, GUTTER OR , STORM DRAIN SYSTEM. ; lilli 1.11 \---LITILITY METER LOCATION 94004940-,2 1 \' 11·1l'iu VII P, ELECTRICAL PANEL LOCATION, PV INTERCONNECTION POINT,.... gLOCKA8LE DISCONNECT SWITCH S Z· MAST®-D 1.014- il 3694-- ach-03+1-Z 54%!RZ.}ne g. 1 CO H <D- DATE 4-14-1*12 W R 2 3 2 5» 4 X.VAYSz* ED 5 -DA > i.u w z mof 05 0 > 1- 1- J <, ddu,zG IN**CT®4 REQUIRE ---..I-<<92 ROUGH \PN.t SHEET 600- *ele QNAME(714) -1 story Structure RETAIN PLANS FOR FUTURE REVISIONS. LU LSUBJECT TO ITEMS CHECKED AND CONDITIOIJS BELOW: TERS. O INTERIOR TI ONLY O NO EXTEWOR ALTERATIONS/MODIFICATION 3 SHEET 4"""' n a, i v.r=v. #A _c -13 f/.a- NCH EX!ST!MC NUMBER: O 21225..'iu REQuiRED O SUDMiT LANDSCAPE PLANS PV SYSTEM SITE PLAN 0 - r- -Ii- C - DITIONS:20< -*p SAA .SCALE: 1/8" = 1'-0"P fi NAME: Roof Section 2 Roof Azi nuth: 270 Roof TA: 23 11. // Al.ll\Li 'NNh -11 / l /#111Imi ./¥/ 1 1 .9-i///1/, ////*/# .1 111111 01/9 -·TIE INTO METER# 222013:585881 Efi,RE 00:13 4-1821,€•1? ppr=: 17! f» 4·.'-,·-mmE '14# g t eraan Roof Section 1 Roof Azimuth: 90 Roof Tilty 23 11.1.j ¢E. 091#wo' 1 :GAOTAB 5 == ==== -PV CIRCUIT #1: 11 MODULES t CIL 0 U) 5 5 24111\ -COMP. SHINGLE Roof Section 3 RoofAzimlf#i: 180 Roof Tilt 23 „,tttll,0„, dE/fe of Ca//7//,42 e... ...........0» t. < 1 /061/ 1965.6. 1 - c.*=*- guuy t. Oram 2 - Nag....1 -i <6 14. '<1 873lt..'4, ed C oniti'/4 1,1,1 "'ll, Z SHEET =10021 NUMBER: PV CIRCUIT#2:- 9 MODULES Roof Section 4 Rdof Admulh: 180 Roof nt 23 PV SYSTEM ROOF PLAN MAXIMUM OUTPUT SHALL BE RATED FOR ARRAY ORIENTED TO THE EAST SCALE: 1/4" = 1'-0" 333 PVARRAY TYP. ELEVATION NOT TO SCALE --LF- LEVELING FOOT (ZS-LFB) - 15/16"011831- STAINLESS -ISTEEL M.B. TORQUE = 16*1 ft-lbs. COMP; MOUNT (ZS-CIVIA)-.))T.c WATERPROOFING SEALANTi AS NEEDED, WITH FLASHING H in i Pr :WASHER PACKAGED WITH COMPMOUNT Th MOUNTING12 n k DETAIL X rRISERUN=5 N =F PV MODULE, TYP. MOUNT TO RAFTERS OF COMP SHINGLE ROOF, PARALLEL WITH PLANE OF ROOF jr 15/16·0x 41/2" MINIMUM J -]STAINLESS STEEL LAG SCREW 'TORQUE = 13*2 ft-lbs. 'r'-' ·Ir, ry R r / rt·, ·EK' - to· ·.0·.i th3 = 11@11@11 Win ter 10 00/Uk 4 . Ew ll?-4 CLEVELING FOOT ON COMP MOUNT D ir·21_- NOT TO SCALE yft'%'8'2- 3PERMITTED LEVELING &£03 --FOOT SPACING -. Ch : C 5-1-Cody E. Oram : i - - CANTILEVER = U3 OR LESS - (2' MAX CANTILEVER) - C MAX SPACING 48" 1 , LEVELIN6 FOOT (ZS-LFB) FRAMING BELOW SHOWNASHED FOR CLARITY ZEP COMPATIBLE | | - Pv MODULE 3 9- i 4,1% %41 97316:..'yj fibeJOonG*y HYBRID - INTERLOCK - PHOTOVOLTAIC MODULE r..11. 1 , 5.11-Tm 90 ® INTERLOCK (ZS-ILB) t HYBRID INTERLOCR - LEVELING FOOT (ZS-LFB)"--ROOF FRAMING Ci ll/l! I 111 1 1 1 1 1 1 1 1 C 1 lili - LEVELING FOOT (ZS-LFB) 1 1 1 1 \Kf I Z INTERLOCK (ZS-ILB) -PERMITTED LEVELINGPV SYSTEM MOUNT DETAIL FOOT SPACING SCALE: 1/2" = 1'-0" (6'MAX SPAN)SHEET NUMBER: MODULES IN PORTRAIT/LANDSCAPE NOT TO SCALE 3 1 Inverter Ratings (Guide Section 4) MODULE DETAIL Inverter Make/Model Enphase M215-60-2LL-S2»ZC Max DC Volt Rating 45 Volts Yingli Ehergy YL250P-29b Max Power @ 40C 215 Watts SOLAR MODULE Nominal AC Voltage 240 Volts Max AC Current 0,g Amps Max OCPD Rating 20 Amps Max Number of Panels/Circuit 17 NOTES FOR INVERTER CIRCUITS (Guide Section 8 and 9):1 1 1.) IF UTILITY REQUIRES A VISIBLE-BREAK SWITCH, DOES THIS SWITCH MEET THE REQUIREMENTS?Enphase M215-60-2LL-SZx-ZC YES NO X NAMICRO-INVERTER ATEACH MODULE, ATTACHED {) ]2.) IF GENERATION METER REQUIRED, DOES THIS METER WITH ZEP HARDWARE 'SOCKET MEET THE REQUIREMENTS? YES NO X NA 3.) SIZE PHOTOVOLIAIC POWER SOURCE (DC) CONDUCTORS BASED ON MAX CURRENT ON SIGN OR OCPD RATING AT DISCONNECT. 4.) SIZE INVERTER OUTPUT (AC) CONDUCTORS ACCORDING MICRO-INVERTER CONNECTION .O TO INVERTER OCPD AMPERE RATING (See Guide Section 9).ENPHASE ENGAGE TRUNK CABLE- . 5.) TOTAL OF 2 INVERTER OCPD(s). ONE FOR EACH PV CIRCUIT. DOES TOTAL SUPPLY BREAKERS COMPLY WITH 120% BUSBAR EXCEPTION X YES NO #6 BARE CU GROUND (GROUNDING ARRAY)'-Signs (See Guide Section 7) Sign for inverter OCPD and AC Disconnect: If Main Disconnect is Solar PV System AC Point of rated less than the Connectjon Busbar rating: AC Output Current 22.500000 Amps "Caution-Solar Nominal, AC Volt.240 Volts . Connection. Do Not incr.ease size of main THIS PANEL FED BY MULTIPLE SOURCES disconnect" (UTILITY AND SOLAR) Tag Description Wire Gauge #:of Conductors Conduit Type Conduit Size -1 Enphase ehgage cable - TH\AN-2 12 AWG 4 14/A - Free Air N/A - Free Air 1 Bare Copper Ground (EGC/G E¢) 6 AWG 1 N/A - Free Air N/A - Free Air 2 THWN-2 10 AWG 6 EMT 01-1" 2. TH\AN-2 - Ground 8 AWG 1 EMT 0'-1" 3: TH\AN-2 8 AWG 3 PVC 0'-1 i 3 | THWN-2 -Ground 8 AUG 1 PVC 0'-1" (D 0 C PV Module Ratings @ STC (Guide Section,5)0 -i 9¤ cD E Model Make/Model Yingli Energy YL250P-29b lai·%2Max Power-Point Current (Imp)8.11 Amp*s (DI LMax Power-Point Voltage (Vmp)30.2 Volts Open-Circuit Voltage (Voc)37.8 Volts Short-·Circuit Current (Isc)8.63 Amps ) Max, Series Fuse (OCPD)15 Amps L G 0 Nominal'Maximum Power atjSIC (Pinax)240 Watts LL Maximum System Voltage 1000(IEC)/600(UL) Voc Temperature Coefficient -0.33 %/°C NOTES FOR ARRAY CIRCUIT WIRING (Guide Section 6 and 8 and Appendix Dj: 1 ) Lowest expected ambient temperature based on ASHRAE minimum mean extreme dry bulb temperatore for ASHRAE location mosf similar to installation location: -1.5°C 23 Highest continuous ambient temperature based on ASHRAE highest month 2% dry bulb temperature for ASHRAE location most similar to installation location: 37°C 3.) 2005 ASHRAE fundamentals 2% design temperatures do not exceed 47°C in the United States (Palm Springs, CA is 44.1°C). For less than 9 current-carrying conductors in roof-mounted sunlit conduit at least 0.5" above roof and using the outdoor design ten,perature of 47°C or tess (all of United States) a.) 12 AWG: 90°C conductors are generally acceptable- for modules with Isc of 7.68 Amps or less when protected by a 12-Amp or smaller fuse. b.) TO AWG, 90°C conductors are generally acceptable for modules with isc of 9.6 Amps or less when protected by a 15-Amp or smaller fuse.... NOTE' ALL PLACARDS SHALL HAVE A RED BACKGROUND, MINIMUM 3/8" LETTER HEIGHTS, ALL CAPITAL LETTERS, ARIAL OR SIMILARFONT, NON BOLD, REFLECTIVE WEATHER MATERIAL SUITABLE FOR THE ENVIROMENT. PV CIRCUIT 1: 11 MODULES/PARALLEL n 0 0 0 POINT OF DELIVERY AND INTERCONNECTION COMBINER VISIBLE/LOCKABLE MY!/ PANEL 'KNIFE' A/C PV CIRCUIT 2· 9 MOn[]l FR/PARALLEL 1-/ ·125A/240V DISCONNECT 1 EXISTING 240V/200A 4 LOAD-CENTER 2 2CD.H e e 15A 3 2 - 11 . r A- 1 1 1-."„=18=79.%<C P fe N.......:44 4-LU 05e <Duel.Z O E < . - 46 E. uran·Fr-r--Siemens _17 1 ;2 SHEET --1- / 1 \ 3 #LNF222R 9 -1-'; / ..0· 97314'/*·NUMBER: 60A/240V (04 12 9> I.*®.*.#_ 0 4, NOTE. NEUTRAL CONDUCTOR(S) OMITTED FOR CLARITY i )JUNCTION BOX \\ E 1.0 / <*E 1.0 /1 \ E 1.0 UNFUSED .°NzssyALL INVERTER OUTPUT CIRCUITS WILL HAVE A NEUTRAL CONDUCTOR. \ /WITH IRREVERSIBLE \ / , NEMA3 WARNING LABELS WITH WHITE LETTERS/RED BACKGROUND WILL BE GROUNDSPUCE \ PROVIDED ON A/C DISCONNECT LU IOA 30A £ 1 444 37 12 6.4 0191 04 - 0 1 .4 :f.//3 'IK 1/1 1 f 7 Photo-voltaic Placard Labels All labels have red back grounds with white lettering. All labels are made of reflective, weather resistant material that is suitable for the environment. All labels appeaf on this sheet as they would appear posted on equipment. Propert¢ of Vivinj Sc)144 TURN OFF PHOTOVOLTAIC AC DISCON,ECT PRIOR TO WO9*'Kr IN Sing PAA'=1 Listed on Junction Boxes and Main Panel Vivint.solar 1874.404.4129 Thigs solat pholovelfait system:and it: tomponelits *e thepsold pers*nal ptoperty of VivintlSblar 'SOL*R BREAKER DO NOT RELOCATE Listed on Djsconnect Listed on PV Breaker WARNING DUAL POWER SoLECE iProperty ef \Avint Solar SECOND SOURCE IS PV SYSTEM PHOTOVOLTAIC PROPERTY OF! VIVINT SOLAR AC DISCONNECT - Listed on Main Panel Listed on Disconnect PHOTOVOLTAIC AC DISCONNECT Properfv :of VivirIt Solar - - MAX. AC OPERATING CURRENT: NOM. AC OPERATING VOLTAGE: 240v PHOTOVOLTAI•*DE)ISCONNECT MAXIMUM AC OPERATING CURRENT:NOM.INAL OPERATING AG VOLTAGER Listed on Disconnect Listed on Disconnect Listed on all conduit ZepSolar Bill of Materials 3604187 Project Contact Information Name: Email;: Phone: System Details Module Manufacturer: Yingli Solar PV Module Model: YL250P-29b Quantity of PV Moduiles: 8 Array Size (kW): 2.000 Street Address: 827 S Dennis St Suite/PO#: City, State, Zip. Santa Ana, California Country: United States Mounting System Manufacturer: Zep Solar Mounting System Type: ZS Comp Roof type: Composition Shingle Attachment Type: Comp Mount, Type C Module-level electronics: Enphase Energy - M215-Z Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-22 02:35 UTC Page 1 of 3 ------- ZepSolar Bill of Materials Bill of Materials Core Hardware Part Number Description Quantity YL250P-29b Yingli Solar YL250P-29b 8 M 215-Z 8 850-1397 Leveling Foot 12 850-1448 DC Wiretlip 32 850-1209 Enphase Connector Bracket 8 850-1388 Interlock 9 850-117'2 Ground Zep 1 850-1361 Array Skift, black 4 850-1421 Grip 8 8i50-1405 End Cap 2 850-1345 Comp Mount, Type C 12 850-1196 Universal Box Bracket 1 Tools Part Number Description Quantity 850-1201 Zep Tool 2 850-1199 Zep Flat Tool 1 Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-22 02:35 UTC Page 2 of 3 ZepSolar Bill of Materials Array Layout --1© 24.00 21.34 Modules Interlocks C Thermal Break Leveling Feet < Ground Zeps Array Skirts Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-22 02:35 UTC Page 3 of 3 1-9 Zep Solar Bill of Materials 3604187 Project Contact Information Name: Email:; Phone: System Details Module Manufacturer: Yihgli Solar PV Module Model: YL250P-29b Quantity of PV Modules: 3 Array Size (1<W): 0.750 Street Address: 827 S Dennis St Suite/PO#: City, State, Zip: Santa Ana, California Country: United States Mounting System Manufacturer: Zep Solar Mounting System Type: ZS Comp Roof type: Composition Shingle Attachment Type: Comp Mount, Type C Module-level electronics: Enphase Energy - M215-Z Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:31 UTC Page 1 of 3 *i ZepSolar Bill 'of Materials Bill of Materials Core Hardware, Part Number Description Quantity YL250P-29b Yingli Solar YL25OP-29b 3 M215-Z 3 850-1184 Leveling Foot 8 850-1448 DC Wire Clip 12 850-1209 Enphase Connector Bracket 3 850-1388 Interlock 2 850-1172 Ground Zep 1 850-1361 Array Skin, black 2 850-1421 Grip 4 850-1405 End Cap 2 850-1345 Comp Mount, Type C 8 850-1196 Universal Box Bracket 1 Tools Part Number Description 'Quantity 850-1201 Zep Tool 2 850-1199 Zep Flat Tool 1 Zep Solar, Inc. www.zepsolar.com 3604187 I 2014-03-2301:31 UTC Page 2 of 3 04 Bill of Materials Array Layout 13.08 21.34 Modules Interlocks Thermal Break Leveling Feet Ground Zeps Array Skirts Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:31 UTC Page 3 of 3 ZepSolar ZepSolar Bill of Materials 3604187 Project Contact Information Name: Email: Phone: System Details Module Manufacturer: Yingli Solar PV Module Model: YL250P-29b Quantity of PV Modules: 5 Array Size (kW): 1.250 Street Address: 827 S Dennis St Suite/PO#: City, State, Zip: Santa Ana, California Country: United States Mounting System Manufacturer: Zep Solar Mounting System Type: ZS Comp Roof type: Composition Shingle Attachment Type: Comp Mount, Type C Module-level electronics: Enphase Energy - M215-Z Zep Solar, Inc. www.zepsolar.corn I 3604187 I 2014-03-23 01:35 UTC Page 1 of 3 ---- Zep Solar Bill of Materials Bill of Materials Core Hardware Part Number Descriptioh ·Quantity YL250P-29b Yingli Solar YL250P-29b 5 M215-Z 5 850-1184 Leveling Foot 16 850-1448 DC Wire Clip 20 850-120!9 Enphase Connector Bracket 5 850-1388 Interlock 5 850-1172 Ground Zep 3 850-1361 Array Skirt, black 5 850-1421 Grip 10 850-1405 End Cap 6 850-1345 Comp Mount, Type C 16 850-1196 Universal Box Bracket 3 Tools Part Number Description Quantity 850-1201 Zep Tool 2 850-1199 Zep Flat Tool 1 Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:35 UTC Page 2 of 3 ZepSolar Bill of Materials Array Layout 02 4.33 15.492.633.60 18.93 6.82 Modules Interlocks Thermal Break El Leveling Feet Ground Zeps Array Skirts Zep Solar, Inc. www.zepsolar.com l 3604187 I 2014-03-23 01:35 UTC Page 3 of 3 - -- -- - 1 Zep Solar Bill of Materials 3604187 Project Contact Information Name: Email: Phone: System Details Module Manufacturer: Yingli Solar PV Module Model: YL250P-29b Quantity of PV Modules: 4 Array Size (kW): 1.000 Street Address: 827 S Dennis St Suite/PO#: City, State, Zip: Santa Ana, California Country: United States Mounting System Manufacturer: Zep Solar Mounting System Type: ZS Cemp Roof type: Composition Shingle Attachment Type: Comp Mount, Type C Module-level electronics: Enphase Energy - M215-Z Zep Solat. Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:35 UTC Page 1 of 3 ZepSolar Bill of ,Materials Bill of Materials Core Hardware Part Number Description Quantity YL250P-29b Yingli Solar YL250P-29b 4 M215-Z 4 850-1184 Leveling Foot 10 850-1448 DC Wire Clip 16 850-1209 Enphase Connector Bracket 4 850-1388 Interlock 4 850-117;2 Grouhd Zep 1 85;0-1361 Array Skin, black 3 850-1421 Grip 6 850-1405 End Cap 2 850-1345 Comp Mount, Type C 10 850-1196 Universal Box Bracket 1 Tools Part Number Description Quantity 850-1201 Zeplbol 2 850-1199 Zep Flat Tool 1 Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:35 UTC Page 2 of 3 el =UL ZepSolar Bill of Materials Array Layout 24.00 3.88 Modules Interlocks [L] Thermal Break Leveling Feet Ground Zeps Afray Skirts Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:35 UTC Page 3 of 3 1 Customer AR Customer Address 3604187 827 S Dennis St Santa Ana, CA Utility Company Name Utility Account Number Electrical Meter Number Estimated Annual CONSUMPTION Estimated Annual PRODUCTION SCE 3-005-1822-84 222013-585881 13941 7334 Offset: 52.6% Number of Panels Total System Size/DC Source Rating/Total Array Output: (DC Watts) Inverter Ampere Rating (Amps AO Number of Phases Inverter Voltage Rating Nominal DCVolts I'nverter Power Factor (%) Module Manufacturer and Model Number Power Rating per Module (DC Watts) Inverter Manufacturef and Model Number Inverter Continuous AC Rating (AC Watts) Inverter Peak Efficiency(%) 20 5000 0.9 1 240 30.2 0.95 Yingli Energy YL250P-2-9b 250 Enphase M215-60-2LL--522 215 96.3% Totals Number of Modules/Inverters System Size/DC Source Rating/Array Output (DC Watts) Total Inverter Rating (kW AC) Total Inverter Output (AC Watts) Estimated Production Building Permit Valuation Electrical Permit Valuation Total Valuation @55.00/Watt:5.00 20 5000 0.215 215 7334 $ 1,000.00 $ 24,000.00 $ 25,000.00 $ 25,000.00 Buildihg Permit Valuation per watt $ 0.20 Electrical Permit Valuation per watt $ 4.80 Constraint:Roof Space Customer Estimated Monthly Usage:(Total annual usage: 13941 I<Wh) january February Maf€h April 1116 980 1023 990 May June July August 1147 1170 1302 1519 September October November December 1290 1178 1110 1116 Vivint Solar - PV Solar Rooftop System Permit Submittal 1. Proiect Information Project Name:MARTIN FLORES Project Address:827 S Dennis St, Santa Ana CA A. System Description: The army consists oF a 51¢WDC roof-mounced Photovoltaic power system operaring in parallel with the utility grid. There arc (20) 250- Watt modules :ind (20) 215-watt micro-inverters, mounted on the back ofeach PV module, The arrgy includes (2) PV circuit:(s). The array is moun[ed to the roof usihg the engineered racking solution from Zep Solait. B. Site Design Temperature: Average low temperature: Average high temperature: (From Fullerton Municipal AP weather station) 0.9 °C '(33,62 op) 40.9 °C (105.62 °F) C. Minimum Design Loads: Ground Snow Load:0 psf (ASCE 7-TOG.2)) Design Wind Speed:100 mph (,\SCE 7-10(26.5.1)) 2. Structural Review of PV Arrav Mounting Svstem: A. System Description: 1. Reoftype 2. Method and type of weatherproofing roofpenetraions: Comp. Shingle Flashing B. Mounting System Information: 1. Mounting system is an engineered product: designed to mount: PI modules 2. Foy nianufactured mount:Ing systerns, following information applies: a. Mounting Syitem Manufacturer:Zep Solar b. Product Name:ZS Comp c Total Weight ofPV Modules and mount:ing hs*lwate 842.2 lbs d. Total numberofattachment points: 46 c. Weight per .it:tachment po'int:18.3 lbs/square foot £ Maximum spacing between attachment points: *See attached Zep engineering calcs g. Total surface area of PV array:350.56 square feet h. Array pounds per square foot:2.4 lbs/square foot i. Distriliut·cd weight of PV at:iray on roofsectiong: -Roof secrion 1:(8) niodules, ('12) attachments 28.07 pounds per square foot -Roof section 2 (3) modules, (8) attachments 15.79 pounds per square foot -Roof section 3':(5) inoclules, (16) atachments 1.3.15 pounds per square f0ot -Roof section 4:(4) modules, (10) attachments 16.84 pounds per square foot vivint. ic r a: 3. Electrical Components: A. Module (UL 1703 Listedf Yingli Energy YL250P-29b QW 20 modules Module Specs Pmax -nominal maximum power :a[ STC Vmp - rated voltige at maximum power Voc - rated open-circuit voltage Imp - rated current at maximum power Isc - rate short circuit current 250 watts 30.2 volts 37·.8 volts 8.11 amps 8.63 amps B. Inverter (UL 1741 listed) El·iphase M:15-60-2LL-S22 Qty 20 inverters Inverter Specs 1. Input Data (DC in) Retommended input power (DC) -260 watts Max. input DC Voltage -45 volts Peak power tracking voltage -2<V -367 Min./Max. starr voltage -22*/45V Max. DC shott circuit Current -15 amps Max. input current -10.5 amps 2. Output Data (AC Out) Max. output power -215 watts Ndminal output current -0.9 amps Nominal voltage -240 volts Max. uni LS per PV circuit -17 micro-inverters Max. OCPD rating -20 amp circu i r breaker C. System Configuration Number e f PV circuits 2 PV circuit 1 -11 modules/inverters (15) amp breaker PV circuit 2 -9 modules/inverters (15) amp breaker vivint. s<ia D. Electrical Calculations 1. PV Circuit current PV circuit nominal current Continuous current adjustindnt factor PV circuit continuous current rating 9.9 'amps 125% 12.375 amps 2013 CE€ Arricle 7(15.611(13)) 2. Overcurrent protection device rating PV circuit continuous curt-chr rating Next.standard size fuse/breaker to protect coriductots 12375 amps 15l amp breaker Use 15 amp AC rated fuse or breaker 3. Conductor conditions of use adjustment (conductor ampacity derate) a. Temperature adder Average high temperature 40'9°C (105.62 °F) Conduit is installed 1 " above the roof surface Add 22 °C to ambient ,Adjusted maximum ambient remperacure 62.9 °C (145.22°19 2013 CEC Table 310. I 5(B)(2)(a) b. PV Circuit current adjustment for new ambient temperature Derate factor for 62.9 °C (145.22°F)58% Adjusted PV circuit continuous current 243 amps 2013 CE¢Table 310.16 (bottom of rable) c. PV Circuit current adjustment for conduit fill Number of current-carr·ing conducrors Conduit fill derate factor Final Adjusted PV circuit continuous cufrent 6 conductors 80°k 26.6 amps 2013 CEC Table 31 0.15(13)(2)(1) Total derated ampacity; for PV circuit 26.6 ami?s Conductors (tag2 on 1-line) must be rated for a minimum of 26.6 amps THWN-2 (90 °C) #12AWG conductor is rated for 3Qi amps (Use #12AWG or larger)2013 CEC Table 310.16 4. Voltage drop (keep below 3% total) 2 pEaks: 1. Voltage drop across longest PV circuit micre-inverters (fr(·mi modules to inbox) 2. Voltage drop across A C conductors (from j-box to poinc of interconnection) 1. Mirco-inverter:voltage drop: The largest nornber of micro-i'nvercers in a row in the entire arrayis 4 inCitcuit: 1. According to manufacturer's specifications ihis equals a voltage drop ot- 0.09 °4. 0.09% 2. AC conductor voltage drop: = I x R x D (+ 240 x 100 to conveut to percent) = (Nominal current of largest circuit) r (Resistance of #12AWG copper) x (Total wird ruh) = (Circuit 1 nominal current is 9.9 i mps) x (0.002019) x (232) + (240 vojt© x (100)1.92%, Total system voltage drop:2.01% -vivint 90. 4 . -- - Engineering Calculations 3604187 Project Contact Information Name: Email: Phone: System Details Module Manufacturer: Yingli Solar PV Module Model: YL250P-29b Quantity of PV Modules: 8 Array Size (kW): 2.000 Street Address: 827 S Dennis St Suite/PO#: City, State, Zip: Santa Ana, California Country: United States Mounting System Mahufacturer: Zep Solar Mountihg System Type: ZS Comp Roof type: Composition 5hingle Attachment Type: Comp Mount, Type C Module-level electronics: Enphase Energy - M215-Z Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-22 02:35 UTC Page 1 of 4 Sol ZepSolar Engineering Calcu'lations Design Variables Description (Symbol)Value Unit Module Orientation Landscape Module Weight 45.2 lbs Average Roof Height ('h)30.0 ft Least Horizontal Dimension (lhd)15.0 ft Edge 'and Corner Dimension "a"3.0 ft Roof Slope (8)23.0 deg Rafter/Truss spacing 24.0 ih Rafter/Truss dimension Min. nominal framing member depth of 4" Basic Wihd Speed (V)110 mph Exposure Categofy B Ground Snow Load (Pg) 0 psf Risk Category 11 Topographic Factor (1<t)1.0 Thermal Factor for Snow Load (Ct)1.2 Exposure Factor for Snow Load (Ce)0.9 Effective Wind Area 10 M Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-22 02·35 UTC Page 2 of 4 ZepSolar Engineering Calculations Snow Load Calculations Using calculation proced;ure of ASCE 7-10 Chapter 7 Description (Symbol)Interior Edge C;orner Un it, Flat Roof Snow Load (Pf)O.0 O.0 O.0 psf Slope Factor (Cs)0.9 0.9 0.9 Roof Snow Load 0.0 0.0 0.0 psf Wind Pressure Calculations Using simplified p.recedure of ASCE 7-10 Chapter 27 Description (Symbol)Interi;or Edge Corner U n it Net Design Wind Pressure uplift (Prieso_up)-19.9 -34.7 -51.3 psf Net Design Wind Pressure downforce (Pnet3O-down)12.5 12.5 12.5 psf Adjustment Factor for Height and Exposure 1.0 1.0 1.0 Category (X) Design Wind Pressure uplift (Wup)-19.9 -34.7 -51.3 psf Design Wind Pressure downforce (Wdown 16.0 16.0 16.0 psf ASD Load Combinations Using calculation procedure of ASCE 7-10 Section 2.4 Description .(Symbol)Interior Edge Corner Unit Dead Load (D)2.6 2.6 2.6 psf Snow Load (S)0.0 0.0 00 psf Load Combination 1 (D+0.75*(0.6*Wdown)+0·75*S)9.6 9.6 9.6 psf Load Combination 2 (D+0.6*Wdown)12;.0 12.0 12.0 psf Load Combination 3 (D+S)2.4 2.4 2.4 psf Uplift Design Load (0.6*D+0.6*Wup)-10.5 -19.4 -29.4 psf Maximum Absolute Design Load (Pabs)12.0 12.0 12.0 psf Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-22 02:35 UTC Page 3 of 4 Engineering Calculations Spacing Calculations Description (Symbol).Interior Edge Corner Unit Max allowable spacing between attachments 72.0 72!.0 72.0 in User selected spacing between attachments given 72.0 72.0 72.0 in a rafter/truss spacing of 24.0 in Max cantilevef from attachments to perimeter of 24.0 24.0 24.0 in PV array Distributed and Point Load Calculations In conformance with SolaF ABC's Expedited Pefmit Process for PV System (EPP) Description (Symbol)Value Unit Weight of Modules 361.6 lbs Weight of Mounting Sy5tem 28.51 lbs Total System Weight 390.11 lbs Total Array Area 140.67 fe Distributed Weight 2..77 psf Total Number of Attachments 12 Weight per Attachment Point 3;2.51 psf Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-22 02:35 UTC Page 4 of 4 mp Sol ZepSolar Engineering Calculations 3604187 Project Contact Information Name: Email: Phone: System Details Module Manufacturer: Yingli Solar PV Module Model: YL250P-29b Quantity of PV Modules: 3 Array Size (kW): 0.750 Street Address: 827 S Dennis St Suite/PO#: City, State, Zip: Santa Ana, California Country: United States Mounting System Manufacturer: Zep Solar Mounting System Type: ZS Comp Roof type: Composition Shingle Attachment Type: Comp Mount, Type C Module-level electronics: Enphase Ehergy - M2115-Z Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:31 UTC Page 1 of 4 - ZepSolar Engineering Calculations Design Variables Descri ption (Symbol)Value Uhit Module Orientation Landscape Module Weight 45.2 lbs Avefage Roof Height (h)30.0 ft Least Hofizontal Dimension (Ihd)15.0 ft Edge a;hd Corner Dim;ension "a"3.0 ft Roof Slope (8)23.0 deg Rafterfl-russ spacing 24.0 in Rafter/Truss dimension Min. nominal framing member depth of 4" Ba5ic Wind Speed (V)110 mph Exposure Category B Ground Snow Load (P,) 0 psf Risk Category 11 Topographic Factor (1<zt)1.0 Thermal Factor for Snow Load (Ct)1.2 Exposure Factor for Snow Load (Ce)0.9 Effective Wind Area 10 m Zep Solar, Inc. www.zepsolar.com 3604187 I 2014-03-23 01:31 UTC Page 2 of 4 4 ZepSolar Engineering Calculations Snow Load Calculations Using calculation procedure of ASCE 7-10 Chapter 7 Description (Symbol)Interior Edge Corner U n it Flat Roof Snow Load (Pf)O.0 O.0 0.0 psf Slope Factor CCS)0.9 0.9 0.9 Roof Snow Load 0.0 0.0 0.0 psf Wind Pressure Calculations Using simplified procedure of ASCE 7-10 Chapter 27 Description (Symbol)Interior Edge Corner Unit Net Design Wind Pressure uplift (net:30_up -19.9 -34.7 -51.3 psf Net Design Wind Pressure downforce (Pnet30_down)12.5 12.5 12.5 psf Adjustment Factor for Height and Exposure 1.0 1.0 1.0 Category (A) Design Wind Pressure uplift (Wup)-19.9 -34.7 -51.3 psf Design Wind Pressure downforce (Wdown 16.0 16.0 16.0 psf ASD Load Combinations Using calculation procedure of ASCE 7-10 Section 2.4 Description (Symbol)Interior Edge Corner Unit Dead Load (D)2.6 2.6 2.6 psf Snow Load (S)O.0 O.0 0.0 psf Load Combination 1 (D+0.75*(0.6*Wown)+0.75*S) 9.6 9.6 9.6 psf Load Combination 2 (D+0.6*Wdown)12.0 12.0 12.0 psf Load Combination 3 (D+S)2.4 2.4 2.4 psf Uplift Desig;n Load (0.6*D+0.6*Wup)-10.5 -19.4 -29.4 psf Maximum Absolute Design Load (Pabs)12.0 12.0 12.0 psf Zep. Solar, Inc. www.zepsolar.com 3604187 2014-03-23 01:31 UTC Page 3 of4 Engineering Calculations Spacing Calculations Descfiption (Symbol)Interior Edge Corner Unit Max allowable spacing between attachments 72.0 72.0 72.0 in User selected spacing between attachments given 72.0 72.0 72.0 in a rafter/truss spacing of 24.0 in Max cantilever from attachments to perimeter of 24.0 24.0 24..0 in PV a rra y Distributed and Point Load Calculations In cohformance with Solar ABC's Expedited Permit Process for PV System (EPP) Description (Symbol)Value Unit Weight of Modules 135.6 lbs Weight of Mounting System 16.8 lbs Total System Weight 152.4 lbs Total Array; Area 52.75 fe Distributed Weight 2.89 psf Total Number of Attachments 8 Weight per Attachment Point 19.05 psf Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:31 UTC Page 4 of 4 :epSolar Engineering Calculations 3604187 Project Contact Information Name: Email: Phone: System Details Module Manufacturer: Yingli Solar PV Module Model: YL250P=29b Quantity of PV Modules: 5 Array Size (kW): 1.250 Street Address: 827 S Dennis St Suite/PO#. City, State, Zip: Santa Ana, California Country: United States Mounting System Manufacturer: Zep Solar Mounting System Type: ZS Comp Roof type: Composition Shingle Attachment Type: Comp Mount, Type C Module-level electronics: Enphase Energy - M215-Z Zep Solar. Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:35 UTC Page 1 of 4 tep Sol Engineering Calculations Design Variables Description (Symbol)Value Unft Module Orientation Landscape Module Weight 45.2 lbs Average Roof Height (h)30.0 ft Least Horizontal Dimension (lhd)1;5.0 ft Edge and Corner Dimension "a"3.0 n Roof Slope (8)210 deg Rafter/Truss spacing 24.0 in Rafter/Truss dimension Min. nomina,1 framing member depth of 4" Basic Wind Speed (V)110 mph Exposure Category B Ground Snow Load (Pg) 0 ps£ Risk Category 11 Topographic Factor (Kzt)1.0 Thermal Factor for Snow Load (Ct)1.2 Exposure Factor for Snow Load (Ce)0.9 Effective Wind Area 10 2 Zep Solar, Inc. www.zepsolar.com 3604187 I 2014-03-23 01:35 UTC Page 2 of 4 S Solar Engineering Calculations Snow Load Calculations Using calculation procedure of ASCE 7-10 Chapter 7 Descriptioh (Symbol')Interior Edge Corner Onit Flat Roof Snow Load (Pf)0.0 O.0 0.0 psf Slope Factor (Cs)0.9 0.9 0.9 Roof Snow Load 0.0 O.0 0.0 psf Wind Pressure Calculations Using simplified procedure of ASCE 7-10 Chapter 27 Description (Symbel)Ihterior Edge Corner Unit Net Design Wind Pressure uplift (Pnet30_up)-19.9 -34.7 -51.3 w Net Design Wind Pressure downforce ( Pnet30_down)12.5 12.5 12.5 psf Adjustment Factor for Height and Exposure 1.0 1.0 1.0 Category (A) Design Wind Pressure uplift (Wup)-19.9 -34.7 -51.3 psf Design Wind Pressu:re downforce (WdowJ 16.0 16.0 16.0 psf ASD Load Combinations Using calculation procedure of ASCE 7-10 Section 2.4 Description (Symbol)Interior Edge Corner Unit Dead Load (D)2.6 2.6 2.6 psf Snow Load (S)O.0 O.0 0.0 psf Load Combination 1 (D+0.75*(0.6*Wdown)+0.75*S)9.6 9.6 9.6 psf Load Combination 2 (D+0.6*Wdown)12.0 12.0 12.0 psf Load Combination 3 (D+S)2.4 2.4 2.4 psf Uplift Design Load (0.6*D+0.6*Wup)-10.5 -19.4 -29.4 psf Maximum Absolute Design Load (Pabs)12.0 12i. 0 ·12.0 psf Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:35 UTC Page 3 of 4 TeDSolar Engineering Calculations Spacing Calculations Description (Symbol)Interior Edge Corner U n:it Max allowable spaci;ng between attachments 72.0 72.0 72.0 ih User selected spacing between attachments g'iven 72.0 72.0 72.0 in a fafter/truss spacing of 24.0 in Max cantilever from attachments to peri:meter of 24.0 24.0 24.0 in PV array Distributed and Point Load Calcul.ations In conformance with Solar ABC's Expedited Permit Process for PV System (EPP) Description (Symbol)Value Unlt Weight of Modules 226.;0 lbs Weight of Mounting System 34.15 lbs Total System Weight 260.15 lbs Total Array Areai 87.92 fe Distri;buted Weight 2.96 psf Total Number of Attachments 16 Weight per Attachment Point 16.26 psf Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:35 UTC Page 4 of 4 ZepSolai ZepSolar Engineering Calculations 3604187 Project Co.ntact Information Name: Email: Phone: System Details Module Manufacturer: Yingli Solar PV Module Model: YL250 P-29b Quantity of PV Modules: 4 Array Size (kW): 1.000 Street Address: 827 S Dennis St Suite/Po#: City, State, Zip: Santa Ana, Califofnia Country: United States Mounting System Manufacturer: Zep Solar Mounting System Type: ZS Comp Roof type: Composition Shingle Attachment Type: Comp Mount, Type C Module-level electronics: Enphase Energy - M215-Z Zep Solar. Inc. www.zepsolar.com 1 3604187 I 2014-03-23 01:35 UTC Page 1 of 4 ZepSolar Engineering Calculations Design Variables Description (Symbol)Value Unit Module Orientation Landscape Module Weight 45.2 lbs Avera;ge Roof Height (h)30.0 ft Least Horizontal Dimension (Ihd)15;.0 ft Edge and Corner Dimension "a"3.0 ft Roof Slope (8)23.0 deg Rafter/Truss spacing 24.0 in Rafter/Truss dimension Min. nominal framing member depth of 4" Basic Wind Speed (V)110 mph Exposure Category B Ground Snow Load (Pg) 0 ps£ Risk Category Topographic Factor (1<20 1.0 Thermal Factor for Snow Load (Ct)1.2 Exposure Factor for Snow Load (Ce)0.9 Effective Wind Area 10 M Zep Solar, Inc. www.zepsolar.com I 3604187 I 2014-03-23 01:35 UTC Page 2 of 4 . ZepSolar Engineering Calculations Snow Load Calculations Using calculation procedure of ASCE 7-10 Chapter 7 Description (Symbol)Interior Edge Corner Unk Flat Roof Snow Load (Pf)O.0 0.0 0.0 psf Slope Factor (Cs)0.9 0.9 0.9 Roof Snow Load 0.0 0.0 O.0 psf Wind Pressure Calculations Using simplified procedure of ASCE 7-10; Chapter 27 Description (Symbol)Interior Edge Corner Unit Net Design Wind Pressure upi ift (net3O-up -19.9 -34.7 -51.3 psf Net Design Wind Pressure downforce net3O down 12.5 12.5 12.5 psf Adjustment Factor for Height and Exposure 1.0 1.0 1.0 Category (A) Design Wind Pressure uplift (Wup)-19.9 -34.7 -51.3 psf Design Wind Pressure downforce (Wdown 16.0 16.0 16.0 psf ASD Load Combinations Using calculation procedure of ASCE 7-10 Section 2.4 Description (Symbol)Interior Edge Corner Unit Dead Load (D)2.6 2.6 2.6 psf Snow Load (S)O.0 O.0 O.0 psf Load Combination 1 (D+0.75*(0.6*Wdown)+0.75*S) 9.6 9.6 9.6 psf Load Combination 2 ( D+ 0.6*Wliown)12.0 12.0 12.0 psf Load Combination 3 (D+S)2.4 2.4 2.4 psf Upiift Design Load (0.6*D+0.6*Wup)-10.5 -19.4 -29.4 psf Maximum Absolute Design Load (Pabs)12.0 12.0 12.0 psf Zep Solar, Inc. www.zepsolar.com 3604187 I 2014-03-23 01:35 UTC Page 3 of 4 Engineering Calculations Spacing Calculations Description (Symbol)Intefior Edge Corner Un'it Max allowable spacing between attachments 72.0 72.0 72.0 in User selected spacing between attachments gjv.en 72.0 72.0 72.0 in a rafter/truss spacing of 24.0 in Max cantilever from attachmehts to perimeter of 24.0 24.0 24.0 in PV array Distributed and Point Load Calculations In' conformance with Solar ABC's Expedited Permit Process for PV System (EPP) Description (Symbol)Value Unit Weight of Modules 180.8 lbs Weight of Mounting System 21.83 lbs Total System Weight 202.63 lbs Total Array Area 70.34 M Distributed Weight 2.88 psf Total Number of Attachments 10 Weight per Attachment Point 20.26 psf Zep Solar, Inc. www.zepsolar.com 3604187 I 2014-03-23 01:35 UTC Page 4 of 4 :ep Sol YL260P-29b r- YL255P-29b CELL SERIES YL250P-29b YL245P-29b YL240P-29b U.S. Soccer Powered by Yingli Solar YGE 60 YINLAR ¤IZE!10.11,firm-Our signature product line is a top performer in every application, from rooftop systems to utility-scale power plants. BUILT TO PERFORM High performance, multicrystalline solar cells deliver a module series efficiency of up to 15.9%, reducing installation costs and maximizing the kWh output per unit area. Tight positive power tolerance of 0 / +3% ensures modules are delivered at or above rated power, improving system performance through the reduction of module mismatch loss. With proven experience in over 7 GW of projects worldwide, Yingli modules deliver reliable performance in residential, commercial, and utility-scale applications. PROVEN QUALITY AND RELIABILITY Robust, corrosion resistant aluminum frame independently tested to withstand wind and snow loads of up to 2400Pa and 5400Pa, respectively, ensuring mechanical stability. Independent labs certify that Yingli modules resist the highest levels of ammonia and salt mist, demonstrating their reliable performance in challenging environmental conditions. Manufacturing facility certified by TOV Rheinland to the following standards: ISO9001 Quality Management System, ISO 14001 Environmental Management System, and BS OHSAS 18001 Occupational Health and Safety. Leading limited power warranty* ensures 91.2% of rated power for 10 years, and 80.7% of rated power for 25 years. 10-year limited product warranty * In compliance with our warranty terms and conditions UL 1703 and ULC 1703, CEC. FSEC, ISO 9001:2008, ISO 1 4001:2004, BS OHSAS 18001:2007, SA8000 cus LISTED AP,fOF/IMJAIC, I•(/'ll 4400 If you buy from Yingli Americas, Yingll Americas acts as the Importer and complles with allapplicabletariffs Cu,tomerscan buy from Yingli America, with no womy that ihey will be liable for any import tari ff. YINGLISOLAR.COM/US Yingli Americas Imilillilillilll YGE 60 CELL SERIES Powered by YINGLI ELECTRICAL PERFORMANCE GENERAL CHARACTERISTICS Module type YL260P-29b YL255P-29b Yl.250P.29b YL.245P.29b YL.240P.296 Dimensions (1/W/H)64.96in (1650mm) / 38.9810 (990rnin) / 1.57in (40mmi Power output P... W 260 255 250 245 240 Weight 40.81bs(185kg) Power output tolerances ap- lA -0/+3 Module efficiency B % 15.9 15.6 15.3 15.0 14.7 Volt'glat P-V- V 30.3 30.0 29.8 29.6 29-3 PACKAGING SPECIFICATIONS Current at P-Impp A 8.59 8.49 8.39 828 8.18 Number of modules per pdot 26 Numbor ef pallou por 40· conlainar 28Open-circuit voltage V- V 37.7 327 37.6 37.5 37.5 Short-circuit curmit 4 A 9.09 9.01 8.92 8.83 8.75 Packaging box dimensions 67,32ih (1710mm)/45.67!n (1160mm) (L/W/H)/46,3ein (1178mm) STC: 1000W/mz irradiance, 25'C cell temperatui. AM 1,59 spectium acc«rding to EN 60904·3 Awerage relative efficiency reduction 6( 363% at ZOOW/m' alccording to EN 60904-1 Box weight li133lbs (514kg) Electrical oarameters at Nominal Ooeratina Cell Temoerature (NOCT}Units: inch (mm) Power outpd Pri. W 189.7 1 86.0 182.4 178.7 175.1 38.98 (990} Voltage at Pma.Vapp V 27.6 27.4 27.2 27.0 26.8 37.24 (946}12-19) Current st P-16.p A 6.87 6.79 6.71 6.62 Open-circuit voltage V.. V 34.8 34.8 34.7 34.6 Short-circuit current 6 A 7.35 7.26 7.21 7.14 NOCT: open-circuit operatin g c ell tem pera ture at 800W/nArradiance. 20°C ambient tempe rature, 1 mh:win d sp eed THERMAL CHARACTERISTICS Nominal operating dell temperature NOCT 'C Temperature coaff}clant of Pm„ y 96/°C Temperature coefficient of V. 0- 96/t Temperature coefficient of I. m. 96/•C Temperature coefficient of VApp 04. %/t 6.54 M34.6 7.07 ILL 46 +/- 2 -0.42 4.32 0.05 -0.42 Gieur.digholcse ® , 6-,0.236 (6) MounT,g holes 3-0.256.0,315(6.5,81 OPERATING CONDITIONS Max.,Ftem valtig:600\,6c or 1000*ic Max· series fuse rating 15A Limiting reverse current 15A Operating temperature range -40 to 1899 640 to 85'C) Max. hailicne impact (diameter / velocity)25mm /23,8/0 [lum,90 holes 8'··8 E!250.315 (3*8) MT - J · em 1-- 3.94 (100) -- I . :' 0211!2, --, / I ' . t S w SECTION 8-8 1CONSTRUCTION MATERIALS - Front cover (material /thickness) Cell (quinti9 / material / dimensions / number of busbus) Encepsulant (material) Frame (material / color / edge sling) Junction box (Ingres protection rating) Cable (length / cross-sectional area) Conneor (typo / ingress protection rating} low-iron tempered glass /3,2mm 60;/ multicrystallinesilicon / 156mm x 156mm,/20,3 ethylenevinyl acetate (EVA) anondized aluminum alloy/:silver or black /siliceneor tape 2IP65 1100mm/4mm' MC4 or Arnphenol H4 / aIP67 31-' / I -I 1,26 1321 ,/ - Warning: Read the Installation and Use, Manual in its entirety before handling, installing, and operating Yingli module5. eureartners The specifications in this datasheet are not guaranteed and are subJect to change without prior'notice. This datashect con·,plics with EN 50380:2003 requirernents. Yingli Green Energy Americas, Inc. info@yingliamericas.com Tel: +1 (888) 686-8820 YINGLISOLAR.COM/US NYSE:YGE © Yingli Green Ene,99 Holding Co. Ltd. | YGE60(elISeries2013_[EN__201309_ V01 3IYINI ]LAR 1 U.5- Soccer Powered by Yingli Solar -1- .. - ENPHASE M211MIMICROINVERTER [elenph ase ENERGY 0 e cp€S)0 The M215-Z Microinverter attaches directly to the frame of Zep Compatible solar modules for seamless integration with the Zep System. Like all Erphase Microinverters, it improves energy harvest, increases reliability, and dramatically simplifies design and management of solar power systems. The Enphase System includes the microinverter, the Envoy Communications Gateway, and Enlighten, Enphase's monitoring and analysis software. enphase.com 1/</ - Maximum energy production PRODUCTIVE -Resilient to dust, debris and shading - Performance monitoring per module - System availability greater than 99.8% RELIABLE - No single point of system failure - Quick and simple design, installation SMART and management - 24/7 monitoring and analysis - Low voltage DC SAFE -Reduced fire risk ISC J=tf7ttjD- - .2-9-51r l £ 4/44. 1, .='-%4=€.2 G> ENPHASE M215-Z MICROINVERTER - TECHNICAL DATA Recommended input power (STC) Maximum input DC voltage, Peak power tracking voltage Operating range Min./Max. start voltage Max. DC shon circuit current Mak input current Output Data (AC) Maximum output power Nominal output current Nominal voltage/range Extended voltage/range Nominal frequency/range Extended frequency range Power Factor Maximum units per 20A branch circuit Maximum output fault current Efficiency 190 - 260W 45V 22V - 36V 16V - 36V. 22V/45V 15A 10.5A @208 Vac @240 Vac 215W 215W 1.0A (arms at nominal duration)0.9A (arms at nominal:duration) 208V/183-229V 240V/211-264V 208V/179-232V 240V/206-269V 60.0/59.3-60.5 Hz 60.0/59.3-60.5 Hz 60.0/59.2-60.6 Hz 60.0/59.2-60.6 Hz >0.95 >0.95 25 (three phase)17 (single phase) 1.05 Arms, over 3 cycles; 25.2 Apeak, 1.74ms duration GEC weighted efficiency 96.0% Peak inverter efficiency 963% Static MPPT efficiency (weighted, reference EN50530)99.6% Dynamic MPPT efficiency (fast irradiation changes, reference EN50530)99.3% Night time power consumption 46mW Mechanical Data Ambient temperature range Operating temperature range (internal) Dimensions (WxHxD) Weight Cooling Enclosure environmental rating Features Compatibility Communication Warranty Monitoring Compliance Enphase Energy, Inc. 201 1 st Street Petaluma, CA 94952 Phone: 877-797-4743 Fax: 707-763-0784 info@enphaseenergy.com http://www.enphase.com -40°C to + 65°C -40°C to + 85°C 17.3 cm x 16.4 cm x 2.5 cm (6.8" x 6.45" x 1.0")* 1.6 kg (3.5 lbs) Natural convection - No fans Outdoor - NEMA 6 Pairs with Zep Compatible Modules (60=cell only) Power line 25-year limited warranty Free lifetime monitoring via Enlighten software UL1741/IEEE1547, FCC Part 15 Class B CAN/CSA-C22.2 NO. 0-M91, 0.4-04, and 107.1-01 *without mounting bracket October 25, 2011 -- 1,® Installing the M215 Microinverter (M215-60) Read and follow all warnings and instructions in the M215 Installation and Operation Manual at http://www.enphase.com/support before installing the M215 Microinverter™. Install the Envoy Communications Gateway Install according to the steps in the Envoy Quick /nsta# Guide.EnvoyLeave the Envoy running while you install the microinverters so broadband that any required Envoy software upgrade completes.(+03 touter 00.000 0/0.00 Warning: Do not remove power from the Envoy if the LCD displays: "Upgrading. . . Do Not Unplug." AC power COFd lai Ethernet cable Position the Enphase EngageTM Cable a. Lay out the cabling along the installed racking for the AC branch circuit. terminator - b. Install an appropriately rated, off-the-shelf junction box at a suitable location on the racking./5»431 /,·ga»·t_-2--·474:d;LI>--<p« Engage CableSee notes in St€ - '--'-'- - - ' drop connector AC junction box p Deans on oacK. 0 000 cable ties connects to drop connectors M215 Hill -*>DC connectors h.21Ur#*-3 Check the drop connector labels to be sure that you have the right cable. You must use 240 VAC cable for single phase or 208 VAC cable for three-phase. un M215 Microinverter Quick install Guide e Attach the Microinverters to the PV Racking a. Mark the approximate centers of each PV module on the PV racking. See notes in Step Deta#s on back. ?C$ 0 Dress the Cable a. Attach the cabling to the rack using cable clips or tie wraps b. Dress any excess cabling in loops so that it does not contact the root. cable clip release holes Keep the drop connector release holes K **i,V b. Mount the microinverters under the PV module,clear and L. -2 6 away from rain and sun. Do not mount the accessible. 'r microinverter in a position that allows long-term exposure to direct sunlight or in a vertical orientation that allows water to collect in the DC connector recess. c. Torque the microinverter fasteners as follows: • 5Nm (45-50 in-lbs) for 6mm (1/4") hardware • 9Nm (80-85 in-lbs) for 8mm (5/16") hardware 0 Connect the Microinverters a. Remove and discard the temporary shipping cap from the cable connector and connect the microinverter. Usten for two clicks as the connectors engage. 0 Ground the System a. Route a continuous GEC (grounding electrode conductor) through each of the microinverters to the NEC-approved AC grounding electrode. , See notes in Step Details on back. b. Torque each 10/32 grounding cleat screw to 2 N m (20-25 in-lbs).-1 GEC 3 It , 1 '0 1 3__ b. Cover any unused connectors with sealing caps. Listen for two clicks as the connectors engage. See notesin Step Details on back. U \ grounding cleat Do not use shipping caps to cover unused connectors. The shipping cap does not provide an adequate environmental seal. 0 7 Terminate the Unused End of the Cable a. Remove 60 mm (2.5") of the cable sheath from the conductors. b. Check that all terminator parts are present. hex wire cap nut organizer 1 1 c. Slide the hex nut onto the cable. d. Insert the cable end all the way into the wire organizer (up to the stop). e. Attach the cap. bend wires down - into recesses of wire / organizer and trim to length place cap over f the wire organizer „5'' hold the cap with the discon- nect tool ora #2 screwdriver - rotate the hex nutwith your hand or a wrench until the latching mechanism meets the base-do not over torque f. Attach the terminated cable end to the PV racking with a cable clip or tie wrap. 0 .Ai t Connect the Cable to the AC Junction Box Connect the cable into the AC branch Gilcuit junction box. See notes in Step Details on back. \\ Complete the Installation Map Build the map manually, or you can use the ArrayGun feature from the Enphase installer Toolkit to build the system. For more information, go to htto.//enphase.com/products/arravaun/. To manually build the map, peel the removable se- rial number label from each microinverter and affix it to the respective location on the map included with this guide. serial *1,1 knurnber labels --- .-- Connect the PV Modules a. Mount the PV modules above the microinverters. b. Connect the DC leads of each PV module to the DC input connectors of their corresponding microinverter. 60-cell PV La modde\ verify polarity on at ]east one unit pair Never unscrew the hex nut. This action can twist and damage the cable. -- Energize the System a. Turn ON the AC disconnect or Circuit breaker for the branch circuit. b. Turn ON the main utili [y-grid AC circuit breaker. Your system will start producing power after a five-minute wait time 4 -0, status LED 0 4/ : 2. One minute after DC power is ap- plied, the status LED on the under- side of each M215 will blink green six times to indicate normal start up. Next Step Refer to the Envoy Communications Gateway Quick /nsta# Guide for inton-nation on Envoy® installation and Enlighten® access. Enphase Energy, Inc. 1420 N. McDowell:Blvd. Petaluma,CA 94954 USA info@enphaseenergy.com C UShttp //www.enphase.com 12 Step Details 0 NOTE- Verify that,AC voltage at the site is within range: 240 volt AC Split Phase 208 Volt AC Three Phase Ll to L2 211 te 264 VAC Ll to L.2 to L,3 1,83 to 229'VAC Ll. I-2, to N 106 to 132 VAC: Ll,12, L3 to N 106 t0 132 VAC WARNING: Only use: electrical system components approved fer wet locations. WARNING: Do NOT exceed the maximum number oi micro- inverters In an AC branch circuk as listed in the table below. Each breirch circuit must be protected by a dedicated circuit breaker ot 20 A or less. Service type Max M21 5s per branch 240 VAC split phase 17 208 VAC three phase 25 WARNING: Size the AC wire gauge ro account for voltage drop for both the branch circuit and all upstream conductors eading back to the FCC. See Circuit Ca/culations for M215 at http:// www.eniphase.com/support. 0 WARNING: Allow a minimum of 1.9 cm (0.75") between the roof and the microinverter. Alse allow 1.3 cm (0.500 between the back of the PV:module and the top of the microinverter. NOTE: Torque the micfoinverter fastenets to the values shown. Do not over torque: • 6 mrn (1/4"l mounting hardware - 5. N m (45-50 in-lbs) • 8 mill (5/16:') mounting hardware -9 N m (80-85 in-lbs) Using a ipower screwdriver is not recommended due to the risk of thread galling. 0 NOIE: The:AC output neutral is not bonded to ground inside the microinverter. NOTE: The M215 grounding cleat can accommodate a 6 to 8 AWG conductor. Toique the 10/32 grounding cleat screw to 2 N m (20-25 in-lbs). Do not over torque. Using a power scfew- driver is not recommended due to the risk of thread galling. 0 WARNING: Install sealing ca.ps on all unused AC connectors as these become live when the system is energized by the utility. The IP67-rated .il disconnect scaling caps are required for 62#51 tool protection against moisti re ingress. NOTE: To remove a scaling cap, you must use the Enphase disconnect tool or E•XJRT&1 a #2 Phillips screwdriver.O<JI- 0 NOTE: The Engage Cable uses the following wiring scheme. 240 Volt AC, Split Phase Wiring 208 Volt AC, Three Phase Wiring Black - Ll Black - Ll Red - L.2 Red - L2 White - Neutral Blue - U Green - Ground White - Neutral Green - Ground © 2013 Enphase Energy Inc. All rights reserved. 00 Datasheet: LS Comp ZepSolar Illillimilillillill I ZSComp tp ' I [-j It A ZSComp™ from Zep Solaroffers the fastest and least expensive wayto mount PV arrays on composition shingle roofs. With a series of drop-in and quarter-turn connections, ZS Comp offers real [aborsavings compared to conventional mounting systems. The structural connections of ZS Comp are auto-grounding, eliminating the need for separate grounding hardware. And with its hyper-bonded grounding matrix, ZS Comp offers the safest, most reliable way to ground PVarrays. Key System Benefits Key Technical Features Dramalically reduces installation TOV tested to IEC 61215 for 5400Pa time load conditions -- Eliminates mounting railsandclip Suitable for high wind applications hardware Interlock El L listed to UL 1 103 as Eliminates separate groundirig ground bond means hardware Ground Zep UL and ETL listed to UL U,tra-reliable hyper bonded 467 as grounding and bonding device grounding matrix ----------- - --- --·---- Interlock, Leveling Footand Ground Rapid, too·accessible precision Zep listed to UL 2703 as PV bonding array leveling device U[tra low parts count Enhanced aesthetics Zep Compatible" - ZS Comp mounting hardware is designed for use with Zep Compatibler" PV modules from leadng PV module manufacturers. Visit zepsolar.com for a current list of Zep Compatible™ PV modules. Our Other Product Families ZS Aero- ZS Seam ZS Span 0 Zsl Zsy Page lof 2 File- Trap Vave LISTED CD Datasheet: ZS Comp Components Interlock (203 1 -----1 4 (M - The Intertock provrdes north south and east west structural and grouna bond connections creating 3 structurally contiguous hyper bonded array Interlock UL listed to UL 2703 and ETL listed to UL 1703 Leveling Foot lat apparatus and allows for easy array height adjustment (125 throw) Ul listed toll 2703 Comp Mount Type C 11.1 Ground Zep 20 - The Ground /ep provines a point of connection he.ween the PV airayand theequipment groundingconductor One Ground Zep is required for every 72 PV modules UL and ETI listed to UL 467 UL listed to !11 2703 Universal Box Bracket DC Wire Clip Grip The Universal Box Bracket allows rapid attachment of Clips into Zep Groove for ultra-fast and easy electrical boxes to the mod,de Frame management of DC PV wiring.Leveling feet or Cam Feet UL Isted toll 2703 Array Skin End Cap Tools p,Bil .j The Array Skin facilita les easy frorit-rowinstallation while provid:ng a dean look al the front 01 the PV array UL listed to UL 2703 File End Cap provides an aestnetic cover for the exposed end of the Array Skin Made of anodized aluminum Ul lisled le UL 2703 Zep Tool 4 functions. I tool Flat Too[ For 'nter·mon.le removal Thii Olmint 009$ 001 cr:@[e o ny en mwarrallty ty le p SoiN or 34,1 4% products I,r sm•te $ kn ScIA Sole wartanly:i con lilled in me wnlien pr06 1 V,878!Ily lor ech Vilit ,®i w eii !01010,e ntorrubunaood[Our Dmiuctiandromually :I 781?nial[E.04& J S ratel!149 313.b€ U S al:{ PE,ent;Fer#,19 1.Aillmfe JJ Ill/.20I]ID·BAM Page 2 42 ZepSolNeed Help?ZS Comp™ Quick Start ha USTechnica[Support www.zepsolar.com +1 (415) 230-2096 Support Manuals support@zepsolar.com Videos Training www.zepulator.com Zepulator online design tool Components Notice Tools and Accessories This Quick Start Guide is intended to provide a quick introduction to the standard installation procedure for the Zep Solari rooftop mounting solution ZS Comp™. Core Components Please visit the Zep Solar web site at www.ze,solar.com for further resources, including Installation videos, full-length installation guides. the Zepulatorrn online design tool component- level instattation videos, Engineering Certificaton Letters with Span Tables and training ctasses. For technical support questions, or to schedule a training class. please contact Zep Solar Support Copyright Notice Zep TroL Comp Mount, Type C Arnly Skin Interlock / *s-•-1 0... Wire Clip #30 Torx Bit © 2013 Zep Solar. Inc. Zep Solar reserves the right to make 5 peciflcations changes without prior notice. Atl rights reserved. Ground Zep Leve[Ing Foot Grip End Caps PAGEB L.,sl Mollili Jure l l. 2013 S 15 •M Document ND BOO·1451·Col RN A Wwl'"SIL.rcom PAGEI ZSCorn,Quic#St,rE 4 ZSComp g.lok 5#1 11 2 Layout Remaining Rows Of www.zepulator.com 1 Bill of Materials * Module dimeision \-\4 - PV Modute (Model) 9 +1/2'-I Leveting Foot 15 Interlock 6 1Span Table lookup 3 Roof Attachments 10 Ground the Array 0 14-10 AWG 40 inch-lbs 8 AWG 45 inch-lbs 6 AWG 50 inch-lbs 14 »Lfl w.w·-plolar.com L.,st Mullied June,1.21,3 S IS PM Do,umen[ ND 800·145<01*vA ...z--r=rn ZSComp Quick Start r V 39Vd ZS CompOuk:* St,rl 12 PAGE 7 Manage Wires , 4 Align First Row \ -- 11 1.U The DC Wire Clip hotds j wires In two orientations. m m . /6 -lib -1 1.25" Level alt Feet to strng line Secure Leveling Feet Complete first module row. Array Skirt Rotate onto Leveling Feet Level Align with center mark Secure Use Zep I Tool tf'---1: 41 3 1 * 1 |' 1 u m. Connect Skirt sections - /Ozli -«Xy1 « , 26/kial/t/"12*6 VJ U W./.zeps/lar....*Modil·cdownell 2DIGS·15 PM Docum/:No 8004451-001 RNA WIA,Jep'ut./.som 0 / 7,1\ OO ZGComp Quick st,ri 939¥d 25 Comp Oulck Start 13 PAGE 3 6 Grip First Row The Grip secures the Array S kirt to the Leveling Feet 8 6 t r Al,gn -112" gap Lower Drop in second module 41 9 One Grip for each front-row Leveling Foot Kickstand 7 First Module 8a Interlock Modules 8 - 0 Augn Use Zep Tool C C Align Stide e m -1 1 . CZ L $ 1. 0 Kickstand Interlock in closed position Swivel PAGE 4 v.'•ueplolar.com Ull[ Modified Junell 2013 5 15 PM Docbmel,;No 800·1451 001 Rev A --4....01./.corn PAGE 5 -1 ZS Comp Quick St-t 00 , ZS Comi Qulok St*rt 14