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B-2016-1923CITY OF CUPERTINO BUILDING PERMIT BUILDING ADDRESS: CONTRACTOR: PERMIT NO: B-2016-1923 10149 S TANTAU AVE CUPERTINO, CA 95014-3543 (375 07 018) SLINGSHOT POWER INC LOS ALTOS, CA 94022 OWNER'S NAME: WANG R TRUSTEE & ET AL DATE ISSUED: 05/10/2016 OWNER'S PHONE: 650-918-6619 PHONE NO: (650) 308-9055 LICENSED CONTRACTOR'S DECLARATION BUILDING PERMIT INFO: License Class CT Lic. #984488 Contractor SLINGSHOT POWER INC Date 06/30/2017 X BLDG X ELECT _PLUMB MECH X RESIDENTIAL _ COMMERCIAL I hereby affirm that I am licensed under the provisions of Chapter 9 (commencing with Section 7000) of Division 3 of the Business & Professions Code and that my license is in full force and effect. JOB DESCRIPTION: (N) 39 - ROOF MOUNTED PV PANELS (12.75 KW); (1) SUBPANEL I hereby affirm under penalty of perjury one of the following two declarations: (125 AMP)- GARAGE 1. I have and will maintain a certificate of consent to self -insure for Worker's Compensation, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. 2. I have and will maintain Worker's Compensation Insurance, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this Sq. Ft Floor Area: Valuation: $58673.00 permit is issued. APPLICANT CERTIFICATION I certify that I have read this application and state that the above APN Number: Occupancy Type: information is correct. I agree to comply with all city and county ordinances 375 07 018 375 and state laws relating to building construction, and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes. (We) agree to save indemnify and keep harmless the City of Cupertino against liabilities, judgments, costs, and expenses which PERMIT EXPIRES IF WORK IS NOT STARTED may accrue against said City in consequence of the granting of this permit. WITHIN 180 DAYS OF PERMIT ISSUANCE OR Additionally, the applicant understands and will comply with all non -point source regulations per the CupertinoMunicipal Code, Section 9.18. 180 DAYS FROM LAST CALLED INSPECTION. Signature .� —�11' �_ - ` Date 5/10/2016 Issued by: AbbyAvende o p g Date: 05/10/2016 IA.WIiliVlGl Y A OWNER -BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law for one of the following two reasons: s. I, as owner of the property, or my employees with wages as their sole compensation, will do the work, and the structure is not intended or offered for sale (Sec.7044, Business & Professions Code) 2. I, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec.7044, Business & Professions Code). I hereby affirm under penalty of perjury one of the following three declarations: 1. I have and will maintain a Certificate of Consent to self -insure for Worker's Compensation, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. 2. I have and will maintain Worker's Compensation Insurance, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. 3. I certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as to become subject to the Worker's Compensation laws of California. If, after making this certificate of exemption, I become subject to the Worker's Compensation provisions of the Labor Code, I must forthwith comply with such provisions or this permit shall be deemed revoked. APPLICANT CERTIFICATION I certify that I have read this application and state that the above information is correct. I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes. (We) agree to save indemnify and keep harmless the City of Cupertino against liabilities, judgments, costs, and expenses which may accrue against said City in consequence of the granting of this permit. Additionally, the applicant understands and will comply with all non -point source regulations per the Cupertino Municipal Code, Section 9.18. RE -ROOFS: All roofs shall be inspected prior to any roofing material being installed. If a roof is installed without first obtaining an inspection, I agree to remove all new materials for inspection. Signature ofApl Date: 5/10/2016 ALL ROOF COVERINGS TO BE CLASS "A" OR BETTER HAZARDOUS MATERIALS DISCLOSURE I have read the hazardous materials requirements under Chapter 6.95 of the California Health & Safety Code, Sections 25505, 25533, and 25534. I will maintain compliance with the Cupertino Municipal Code, Chapter 9.12 and the Health & Safety Code, Section 25532(a) should I store or handle hazardous material. Additionally, should I use equipment or devices which emit hazardous air contaminants as defined by the Bay Area Air Quality Management District I will maintain compliance with the Cupertino Municipal Code, Chapter 9.12 and the Health & Safety Code, Sections 25505, 25555333, and 25534. Owner or authorized agent: Date: 5/10/2016 CONSTRUCTION LENDING AGENCY I hereby affirm that there is a construction lending agency for the performance of work's for which this permit is issued (Sec. 3097, Civ C.) Lender's Name Lender's Address ARCHITECT'S DECLARATION I understand my plans shall be used as public records. Licensed Signature Date 5/10/2016 Professic ALTERNATIVE ENERGY PERMIT APPLICATION COMIAUMTY DEVELOPMiEN T DEPARTMENT • BUILDING DIVISION 10300 TORRE AVENUE • CUPERTINO, CA 95014-3258 (408) 777-3228 • FP -X (408) 777-3333 • buildingOCUDariino.orq U -2o1(, - lqn PROJECT ADDRESS ��iArV APN R "3115- o 1i V 5� OCJt �R N.4I.,_ I P ONS E -NAIL l STREET DRESS Ct Y, STA-- ZIP I FAX �� CbF 't\W d CONTACT NAME I PHONE I =-MAIL 1 y CITY, STATE, ZIP I 4X 4 z ❑ oem'ER ❑ 0\V1%ER-BTJZ-DER ❑ OWT=RAGEN 1p"l\TRACTOR ❑ CON71%',CTORAGENT ❑ ARCHIEECr ❑ ENGTL_R ❑ DE\_LOPER ❑ i_TfTT CONTR42b4E- LICENSE - TYPE I B&IC R •S( COb?ANY NAME � L � FAX TREii AD RESS r CITY, STA �, ZIP I PHONE- (� ARCH1 T =CT/ENGINu`R NAJ,fB I LICENSE- TJMBER ( BUS. LIC R COb4PANY NAME I E-MAIL FAX STREET ADDRESS I CITY, STATE, ZIP: PHONE USE of VSFD or Duplex ❑ Multi -Family PROJECT IN WILDLAND PROJECT IN ❑ Commercial URBAN INTERFACE AREA ❑ Yes [-ILIO FLOOD ZONE- ❑ Yes D--ro STRUCTURE: OLAR PANELS ❑ ELECTRIC VEHICLE CP.,RGING STATION ❑ SOLAR WATER HEATING ❑ OTHER FOR SOL<R PANELS: Nlib!BE-R OF ?ANi1S/L Ts: YILO\� ?TES (CO TOTAL VP?LATION:M. DESCRIP T ION OF WORK By my signature below, I ce, ti7y toe h o= the following: I am the property owner or authoriztd agent to act on the property o\\mer's ehalf. I ' aver tad this application and the information I 1 ro\'idq is correct. I have read the Description of Work and verij' it is accuratt. I agree to comply with all applicable local ordinances and state laws re.l -,' uld' o SLruction. I zuthoriz representatives of Cupertino to enter the above -idem' ode p;pptrty for inspection purposes. S i,nature of Applicant/Agtnt: Date: SUPPLEMENTAL INT-ORMATION REQUIREDum E.D SLY �y hp'1Y M OvR2H1iCOTJITERS, ?r� On Z� LARC}T - �F - 3Tin rr� PM4pp_201 J.doc revised 03/16/11 ABBREVIATIONS A AC ART BLDG CONC DC EGC (E) EMT GALV GEC GND HDG Icont Imp ISc kVA kW LBW MAX MIN N NEC NTS (N) OC PL POI PTC PV PVC SCH SS STC TYP UPS V Vmp VOc W AMPERE ALTERNATING CURRENT ARTICLE BUILDING STRUCTURE CONCRETE DIRECT CURRENT EQUIPMENT GROUNDING CONDUCTOR EXISTING ELECTRIC METALLIC TUBING GALVANIZED GROUNDING ELECTRODE CONDUCTOR GROUND HOT DIPPED GALVANIZED CURRENT CONTINOUS CURRENT MAX POWER CURRENT SHORT CIRCUIT CURRENT KILOVOLT AMPERE KILOWATT LOAD BEARING WALL MAXIMUM MINIMUM NEUTRAL NATIONAL ELECTRIC CODE NOT TO SCALE NEW ON CENTER PROPERTY LINE POINT OF INTERCONNECTION PVUSA TEST CONDITIONS PHOTOVOLTAIC POLYVINYL CHLORIDE SCHEDULE STAINLESS STEEL STANDARD TES CONDITIONS TYPICAL UNINTERRUPTIPLE POWER SUPPLY VOLT MAX POWER VOLTAGE OPEN CIRCUIT VOLTAGE WATT ELECTRICAL NOTES 1. A NATIONALLY RECOGNIZED TESTING LABORATORY SHALL LIST ALL EQUIPMENT IN COMPLIANCE WITH ART 110.3 2. ALL EXTERIOR EQUIPMENT SHALL BE RAIN TIGHT AND APPROVED FOR USE IN WET CONDITIONS 3. BACKFEED BREAKER MUST BE LOCATED AT THE OPPOSITE END OF BREAKER OR LUGS PROVIDING POWER FROM THE UTILITY 4. DC CONDUCTORS ENTERING A BUILDING WILL BE RUN IN METALLIC RACEWAYS TO THE FIRST ACCESSIBLE MEANS OF DISCONNECTION PER ART 690.31(E) 5. ALL CONDUCTORS SHALL BE PROVIDED WITH STRAIN RELIEF UPON ENTRY INTO ENCLOSURES. 6. EACH UNGROUNDED CONDUCTOR SHALL BE IDENTIFIED BY PHASE AND SYSTEM PER ART 210.5 7. WHERE ALL TERMINALS OF THE DISCONNECTING MEANS SHALL REMAIN ENERGIZED IN THE OPEN POSITION, A WARNING SIGN SHALL BE PROVIDED PER ART 690.17 8. THE DC GROUNDING ELECTRODE CONDUCTOR SHALL BE SIZED PER ART 690.47 AND 250.66(B) 9. MODULE FRAMES SHALL BE GROUNDED AT THE UL -LISTED LOCATION PROVIDED BY THE MANUFACTURER USING UL -LISTED HARDWARE 10. ALL METALLIC COMPONENTS COM SHALL BE GROUNDED VIA ELECTRIC GROUNDING CONDUCTORS AND GROUNDED AT THE MAIN SERVIC�issptofp b site dur therefrom, GENERAL NOTES 1. THIS SYSTEM IS GRID -TIED WITH A UL LISTED POWER CONDITIONING INVERTER 2. THIS SYSTEM HAS NO BATTERIES. NO UPS 3. ALL WORK SHALL COMPLY WITH THE 2013 CALIFORNIA BUILDING CODE AND THE 2013 CALIFORNIA RESIDENTIAL CODE 4. ALL WORK SHALL COMPLY WITH THE 2011 NATIONAL ELECTRIC CODE AS AMENDED BY THE 2013 CALIFORNIA ELECTRIC CODE 5. LOCAL UTILITY SHALL BE CONTACTED PRIOR TO ENERGIZATION OF THE SYSTEM OPTIMIZER NOTES 1. SYSTEM IS UNGROUNDED 2. OUTPUT CHARACTERISTICS ARE INDEPENDENT OF TEMPERATURE 3. INVERTER INPUT VOLTAGE IS CONSTANT AT 350V 4. INVERTER INPUT CURRENT IS CALCULATED WITH OHMS LAW WITH VOLTAGE CONSTANT AT 350V AND POWER FROM THE ARRAY'S Pstc 5. 'INVERTER INPUT CURRENT MAX IS 15A BASED ON OPTIMIZER TOPOLOGY NC DIVISION - CUPERTINO APPROVED is and specifications MUST be kept at the a construction. It is unlawful to make any or alterations on same, or to deviate thout approval from the Building Official. The stamping of this plan and specifications SHAD NOT be held top 3rmit or to be an approval of the violation of any proviions of any c'ty Ordinance or State Law. / o,.%1 .__ In DATE - PERMIT NO. SCOPE OF WORK SLINGSHOT POWER IS TO INSTALL A ROOF MOUNTED PV ARRAY. jvwakff4 CONTRACTOROREN: SLINGSHOT POWER 164 MAIN ST LOS ALTOS, CA 94022 800.887.9414 CSLB #C-46 984488 AHJ: CITY OF CUPERTINO Q UTILITY: PG&E HOA: N/A 4 a �pRGpO Rev\ SHEET INDEX PV01 COVER SHEET PV02 SITE PLAN PV03 ARRAY DETAILS PV04 LINE DIAGRAM LBLS LABELS DATA SHEETS ATTACHED VICINITY �, - :Y 1,J SLUE�., �j o co U) D ti o J_ Lo W W w Z) Lu WWoL,u, cL EL><�— W z W_ 0)»0U)3W C CO rl c) 06 w # REVISION DATE �J �WZVoo U��o Z I — Z) #'.7073892 GN:RDELGADO E: COVER PAGE PAGE NUMBER � o � 0 #'.7073892 GN:RDELGADO E: COVER PAGE PAGE NUMBER W E ^OZETTE LN MP1 Pitch: 3:12 (14 °) AZI: 90 ° 'a Mat.: Standing Seam Stories: 2 MP2 Pitch: 3:12 ( 14 °) AZI: 180 ° Mat.: Standing Seam Stories: 2 MP3 Pitch: 3:12 ( 14 °) AZI: 90 ° C J Mat.: Standing Seam Stories: 1 CD MP4 Pitch: 3:12 ( 14 °) AZI: 180 ° Mat.: Standing Seam Stories: 2 MP5 Pitch: 3:12 ( 14 °) AZI: 270 ° Mat.: Standing Seam Stories: 2 D DC CONDUIT RUN THROUGH ATTIC SPACE W W >, (IN COMPLIANCE WITH NEC ARTICLE 300 & U) Z Q � 690 PART III, MINIMUN 1 2' FROM BOTTOM }' W M OF ROOF DECKING) > 0 U CD (EXACT RUN TBD AT INSTALL) U LU O < Z o Z � De- 2 w Oaa- + W � w ti C/) D N M U O Q _ ¢ O LL z O Q z O LL W Q o J wCD S) Q W fr J W w Woo iiLU d><�� Z Q Lll LLj_ ?CnClco 0SCgW # REVISION DATE JOB #: 7073892 DESIGN: RDELGADO SITE PLAN PAGE: SITE PLAN APAGE NUMBER Scale: 3/32" = 1' �` ,O2 11 `4, 10'-3 MP5 M P4 (N) INVERTERS (N) SUB -PANEL MAIN SERVICE PANEL PV STRING IS INDICATED AS AS FOLLOWS: 3'-1 ) AC DISCO 31-5" MP1 7'-3 MP3 27'-7" SOLAR MODULE WITH EREST CLAMPS SOLAR RAIL EREST CR -48S L -FOOT EREST S-5! CLAMP METAL SEAM `(E) DECKING (E) 2x RAFTER D—Al RAY DETAIL Scale: NTS 2 X 4 MANUFACTURED TRUSSES @ 24 O.C. TOTAL SYSTEM WEIGHT (Ibs): TOTAL AREA (SQFT): Array roof coverage (%): LBS / SQFT: LBS/STAN DOFF: STAN DOFF MAX SPAN (ft): A ARRAY PLAN U) o N C J_ W o w Q W inWwWZ) co ��ooU� WWo6cn a-a..�< Of z W_ Cc= d O 06 Cn 10 w # REVISION DATE 0 Original 4/27/16 A — — B — — D — — E — — JOB #:7073892 DESIGN: RDELGADO PAGE: ARRAY DETAILS PAGE NUMBER PV03 W 2i W W Z , Nt _ 1--U CD Z QCD rn >_W � Q co � CL � U00 1887.29 U � Fes- OZ p 685.1220Z�� 19/0 Q + 2.75468 ti 0 29.489 CV Cy, U 6 0 U) o N C J_ W o w Q W inWwWZ) co ��ooU� WWo6cn a-a..�< Of z W_ Cc= d O 06 Cn 10 w # REVISION DATE 0 Original 4/27/16 A — — B — — D — — E — — JOB #:7073892 DESIGN: RDELGADO PAGE: ARRAY DETAILS PAGE NUMBER PV03 # CONDUCTORS CONDUIT LENGTH PROPERTIES NOTES A (2) #10 TYPE PV, (1) #6 BARE EGC N/A 5' DC: Vmax=500, Vmp=350, Imax=15, Imp=14.94 SEE ELECTRICAL NOTES AND OPTIMIZER NOTES ON PAGE 1 B (4) #10 THWN-2, (1) #8 EGC 3/4" EMT 45' DC: Vmax=500, Vmp=350, Imax=15, Imp=14.94 W C (2) #10 THWN-2, (1) #8 EGC 3/4" EMT 45' DC: Vmax=500, Vmp=350, Imax=15, Imp=14.94 D (2) #8 THWN-2, (1) #8 N, (1) #8 EGC/GEC 3/4" EMT 10' AC: V=240, 1=32 E, (2) #10 THWN-2, (1) #10 N, (1) #8 EGC/GEC 3/4" EMT 10' AC: V=240, 1=24 F (2) #4 THWN-2, (1) #4 N, (1) #8 EGC/GEC 3/4" EMT 5' AC: V=240, 1=24 (1) INVERTER#1 A (n INSIDE THE GARAGE 7600W,240V,98% EFF B SOLAREDGE SE760OA-US 15 MODULE :D DC+ 0101 STRING #1 Q z (N) SUB PANEL DC- I I W W W It INSIDE THE GARAGE L, U > O 125A, 240/120V, I�, 3W EGC U) z <U) (E) MAIN SERVICE A B D >- w Q� FCfl 400A, 240/120V, 1 �, 3W U EATON HP402442 (N) 40A/2P — �� I T_ W Q Overhead Service Feed L1 _ - o M V � ~ N) 400A/2P N G L2 I DC 8 MODULE STRING #2 0 z O z H I— Lo A B I I I I 2QZ)Lu N N �, DC- _ (E) LOADS EGCGEC G EGC_ F ti U j F lolf Nm U O M (N) 70A/2P (N) 30A/2P — --Ai A L1 _ZTI�L _ _ 16 MODULE _ L2 j DC+ D � STRING #3 � N N N N —y DC- I I IO I Co r Qo I G�u EGC GEC G EGC ♦— M 8 I�wwWD _jN 00 E (39) PV MODULES o w o o cn H C 327W, 301 AW PTC > O> W Co Cb w _ I SUNPOWER SPR -E20-327 a Z z J W U? w I L_— J (39) PV OPTIMIZERS v5>010 `. > U) (L � 'd U) w 400W, 15Amax, 80Vmax # REVISION DATE 240/120V SOLAREDGE P400 0 Original 4127/16A SINGLE PHASE JUNCTION BOX(S) UTILITY SERVICE (1) AC DISCONNECT NEMA 3R e — — C — — 100A, 240V, 2P, NEMA 3R (1) INVERTER #2 D — — EATON DG223NRB INSIDE THE GARAGE E (2) 70A FUSES 5000W, 240V, 98% EFF (EXTERIOR- UTILITY ACCESSIBLE) SOLAREDGE SE5000A-US JOB #:7073692 120% RULE (MSP): _ GEC BONDED DIRECTLY. TO MAINS RATING = 400A _ DESIGN:ROELGADO PAGE: LINE DIAGRAM (E) GROUNDING ELECTRODE. 400A * 1.2 = 480 AMPS ALLOWABLE PAGE NUMBER ALL AVAILABLE ELECTRODES TOTAL OF BREAKERS FEEDING BUS BAR = 470A SHOULD BE USED PER CEC 250.50 120% OF BUS NOT EXCEEDED (NEC 705.12(D)(2)) PV04 REQ. BY NEC 690.17 APPLY TO: DISCONNECTS PV LOAD CENTERS COMBINER BOXES REQ. BY NEC 2 APPLY TO: MAIN SERVICE PANEL REQ. BY NEC 690.53 3 APPLY TO: INVERTER LABELS REQ. BY NEC 690.5 C 4 APPLY TO: INVERTER REQ. BY NEC 690.5 4 5 APPLY TO: PV SYSTEM DISCONNECT REQ. BY NEC 705.12 (9 )(7) APPLY TO: " PV SYSTEM BREAKER REQ. BY NEC 690.1 4 C 2 7 APPLY TO: AC DISCONNECT CD N O J CN REQ. BY NEC 690.31 (E)(3) ? w DC: Vmax=500, Vmp=350, Imax=15, Imp=14.94 o of W ? 00 EXPOSED RACEWAYS, CABLE ° w o o U) ►�- INVERTER #1: AC: V=240, 1=32 a ° > Q I- OF JUNCTION BOXES a > > o � > INVERTER #2: AC: V=240, 1=24 M w m w o w W 0 # REVISION DATE SIGNAGE REQUIREMENTS: D Original 4/27118 t 1. RED BACKGROUND e - - 2. WHITE LETTERING co D • • • 3. MIN. 3/8" LETTER HEIGHT 4. ALL CAPITAL LETTERS JOB#:7073892 5. ARIAL OR SIMILAR FONT REQ. BY NEC 705.1 2(D)(4) PAGE: LABELS co PAGE NUMBER 8 APPLY TO: LELS MAIN SERVICE PANEL W Z) W W A® - • o • I—U< U) Z L REQ. BY CRC R331.7 W Z U 00 9 APPLY TO: <Do MAIN SERVICE U = F: Lo DISCONNECTS co Q Lo�0� W + 0 REQ. BY 690.1 3 (B)(2)10 APPLY TO: DC DISCONNECT CD N O J CN REQ. BY NEC 690.31 (E)(3) ? w 11 APPLY TO: o of W ? 00 EXPOSED RACEWAYS, CABLE ° w o o U) ►�- TRAYS COVERS OR ENCLOSURES a ° > Q I- OF JUNCTION BOXES a > > o � > M w m w o w W # REVISION DATE SIGNAGE REQUIREMENTS: D Original 4/27118 1. RED BACKGROUND e - - 2. WHITE LETTERING O D E 3. MIN. 3/8" LETTER HEIGHT 4. ALL CAPITAL LETTERS JOB#:7073892 5. ARIAL OR SIMILAR FONT DESIGN: RDELGADO PAGE: LABELS 6. WEATHER RESISTANT PAGE NUMBER MATERIAL, PER UL 969 LELS A\ r T • 20.A% efficiency Ideal for roofs where space is at a premium or where future expansion might be needed. • High performance Delivers excellent performance in real world conditions, such as high temperatures, clouds and low light. 1,2.3 • Proven value Designed for residential rooftops, E -Series panels deliver the features, value and performance for any home. Maxeon® Solar Cells: Fundamentally better. Engineered for performance, designed for durability Engineered for peace of mind Designed to deliver consistent, trouble-free energy over a very long lifetime.',' Designed for durability The SunPower Maxeon Solar Cell is the only cell built on a solid copper foundation Virtually impervious to the corrosion and cracking that degrade Conventional Panels .4,5 #1 Ranked in Fraunhofer durability test.10 100% power maintained in Atlas 25+ comprehensive PVDI Durability test.'' HIGH PERFORMANCE & EXCELLENT DURABILITY E20 - 327 PANEL HIGH EFFICIENCY° Generate more energy per square foot E -Series residential panels convert more sunlight to electricity producing 36% more power per panel,' and 60% more energy per square foot over 25 years. 3,4 HIGH ENERGY PRODUCTION' Produce more energy per rated watt High year one performance delivers 7-9% more energy per rated wait.3 This advantage increases over time, producing 20% more energy over the first 25 years to meet your needs.' 0 120% 20% More Energy \ 110% - "---------------Per Rated Waft 100% 0 90% i 35% more, 77 a year 25 rn 80% c 70% rx www 1,rro ) t W ri 60% x W 50% N 0 5 10 15 20 25 Years O 10% 3 __ ______ ---- ___------------------- .._._. .. GYP ,tR j Maintains High v Nominal Power 12 (Pnom) I Power at High Temps a 8%---------P o +5/-0% +5/-0% No Light -Induced 0 6% 6% Rated Voltage (Vmpp) PHOT PHOTON .:: ----- Degradation - - z -a 5.98 A 5.86 A High Average Watts rn 4% ---- Lr�K ""' I Better Low -Light and Max. System Voltage 600 V UL & 1000 V IEC .r I Spectral Response r' -t 2% �i -------- High -Performance Voltage Temp Coef. -176.6 mV /'C I ; Anti -Reflective Glass r 0% i www.sunpower.com _- SUNPOWER OFFERS THE BEST COMBINED POWER AND PRODUCT WARRANTY _ _ -- POWER WARRANTY 100 °w i 95% - - _ I 85% � 1.1181:IAW 75% 0 5 10 15 20 25 Years More guaranteed power: 95% for first 5 years, -0.4%/yr. to year 25.8 REFERENCES: 1 All comparisons are SPR -E20327 vs. a representative conventional panel: 250W, approx. 1.6 m2, 15.3% efficiency. 2 PVEvolution Labs "SunPower Shading Study," Feb 2013. 3 Typically 7-9% more energy per waft, BEW/DNV Engineering "SunPower Yield Report," Jan 2013. 4 SunPower 0.2551o/yr degradation vs. 1.07./yr cony. panel. Campeau, Z. et al. "SunPower Module Degradation Rate," SunPower white paper, Feb 2013; Jordan, Dirk "SunPower Test Report," NREL, Oct 2012. 5 "SunPower Module 40 -Year Useful Life" SunPower white paper, Feb 2013. Useful life is 99 out of 100 panels operating at more than 70% of rated power. 6 Second highest, after SunPower XSeries, of over 3,200 silicon solar panels, Photon Module Survey, Feb 2014. 7 8% more energy than the average of the top 10 panel companies tested in 2012 (151 panels, 102 companies), Photon International, Feb 2013. 8 Compared with the top 15 manufacturers. SunPower Warranty Review, Feb 2013. 9 Some exclusions apply. See warranty for details. 10 5 of top 8 panel manufacturers from 2013 report were tested, 3 additional silicon solar panels for the 2014. Ferrara, C., et al. "Fraunhofer PV Durability Initiative for Solar Modules: Part 2". Photovollaics International, 77-85. 2014. 11 Compared with the nor' -stress -tested control panel. Atlas 25+ Durability test report, Feb 2013.from 2013 report were tested, 3 additional silicon solar panels for the 2014. Ferrara, C., et al. ''Fraunhofer PV Durability Initiative for Solar Modules: Part 2". Photovoltaics International, 77-85. 2014. 12 Standard Test Conditions (1000 W/m2 irradiance, AM 1.5, 25° C). 13 Based on average of measured power values during production PRODUCT WARRANTY i ��filrl•1.41i 1n f_r 0 5 10 15 20 25 Y Combined Power and Product defect 25 year coverage ELECTRICAL DATA includes panel replacement costs. E20-327 E19.320 Nominal Power 12 (Pnom) 327 W 320 W Power Tolerance +5/-0% +5/-0% Avg. Panel Efficiency" 20.A% 19.8% Rated Voltage (Vmpp) 54.7 V 54.7 V Rated Current (Impp) 5.98 A 5.86 A Open -Circuit Voltage (Voc) 64.9 V 64.8 V Short -Circuit Current (Isc) 6.46 A 6.24 A Max. System Voltage 600 V UL & 1000 V IEC Maximum Series Fuse 15 A Power Temp Coef. -0.38% / mC Voltage Temp Coef. -176.6 mV /'C Current Temp Coef. 3.5 mA / °C REFERENCES: 1 All comparisons are SPR -E20327 vs. a representative conventional panel: 250W, approx. 1.6 m2, 15.3% efficiency. 2 PVEvolution Labs "SunPower Shading Study," Feb 2013. 3 Typically 7-9% more energy per waft, BEW/DNV Engineering "SunPower Yield Report," Jan 2013. 4 SunPower 0.2551o/yr degradation vs. 1.07./yr cony. panel. Campeau, Z. et al. "SunPower Module Degradation Rate," SunPower white paper, Feb 2013; Jordan, Dirk "SunPower Test Report," NREL, Oct 2012. 5 "SunPower Module 40 -Year Useful Life" SunPower white paper, Feb 2013. Useful life is 99 out of 100 panels operating at more than 70% of rated power. 6 Second highest, after SunPower XSeries, of over 3,200 silicon solar panels, Photon Module Survey, Feb 2014. 7 8% more energy than the average of the top 10 panel companies tested in 2012 (151 panels, 102 companies), Photon International, Feb 2013. 8 Compared with the top 15 manufacturers. SunPower Warranty Review, Feb 2013. 9 Some exclusions apply. See warranty for details. 10 5 of top 8 panel manufacturers from 2013 report were tested, 3 additional silicon solar panels for the 2014. Ferrara, C., et al. "Fraunhofer PV Durability Initiative for Solar Modules: Part 2". Photovollaics International, 77-85. 2014. 11 Compared with the nor' -stress -tested control panel. Atlas 25+ Durability test report, Feb 2013.from 2013 report were tested, 3 additional silicon solar panels for the 2014. Ferrara, C., et al. ''Fraunhofer PV Durability Initiative for Solar Modules: Part 2". Photovoltaics International, 77-85. 2014. 12 Standard Test Conditions (1000 W/m2 irradiance, AM 1.5, 25° C). 13 Based on average of measured power values during production PRODUCT WARRANTY i ��filrl•1.41i 1n f_r 0 5 10 15 20 25 Y Combined Power and Product defect 25 year coverage that includes panel replacement costs. OPERATING CONDITION AND MECHANICAL DATA Temperature_ - 40°F to +_185_ °F (- 40°C to +85°C) _ Max load Wind: 50 psf, 2400 Pa, 245 kg/m2 front & back It Spray test Snow: 112 psf, 5400 Pa, 550 kg/m2 front Impact resistance 1 inch (25mm) diameter hail at 52 mph (23 m/s). Appearance Class A y Solar Cells 96 Monocrystalline Maxeon Gen II Tempered Glass High transmission tempered Anti -Reflective Junction Box i IP -65 Rated -- - Connectors MCA Compatible Connectors Frame - - Class 1 black anodized (highest AAMA rating) Weight 41 lbs (18.6 kg) TESTS AND CERTIFICATIONS Standard tests UH 703 (Type 2 Fire Rating), IEC 61215, IEC 61730 Quality tests ISO 9001:2008, ISO 14001:2004 EHS Compliance ROHS, OHSAS 18001:2007, lead free Ammonia test IEC 62716 It Spray test _- - IEC 61701 (passed maximum severity) PID test Potential -Induced Degradation free: 1000V10 1 Available listings UL, CEC, CSA, TUV, JET, KEMCO, MCS, FSEC [61.4in] 1046 mm [41.2 in] see http://w zunpower.com/facts for more reference information. For more details, see extended datosheeF. www.sunpower.com/dotasheets. Read safety and installation instructions before using this product. www.sunpower.com @December 2014 SunPower Corporation. All rights reserved. SUNPOWER, the SUNPOWER logo, MAXEON, MORE ENERGY. FOR LIFE., and SIGNATURE are trademarks or registered Document It 504860 Rev D /LTR_us trademarks of SunPower Corporation. Specifications included in this datasheet are subject to change without notice. so I a r " • • Single Phase Inverters for North America SE3000A-US / SE380OA-US / SE5000A-US / SE6000A-US / SE760OA-US / SE10000A-US / SE1140OA-US SE3000A-US SE3800A US SE5000A-US SE6000A-US SE7600A-US SE10000A US SE11400A-US P300 OUTPUT P405 Nominal AC Power Output 3000 3800 5000 6000 7600 9980 @ 208V 11400 VA .............................................................................................................. 10000,�a 240V....... ....................... Max. AC Power Output 3300 5400 @ 208V 10860 @ 208V 4150 6000 8350 12000 VA .................................................. Absolute Maximum Input Voltage 5450 �n 240V.. 10950, a�1240V, 48 80 125 AC Output Voltage Min. -Nom : Max.('> Voc at lowest tem erature ✓ ✓ 183 - 208 - 229 Vac .......................................... ............................................................. ................... ..._............ ........ ,.......... AC Output Voltage Min.-Nom.-Max.l') ✓ ✓ ✓ ✓✓ 1 .........................,........................... 211- 240 - 264 Vac Maximum DC Input Current 12 5 AC Frequen Min: Nom: Max. ry ........................................ 59.3 - 60 - 60.5 (with HI count setting 57 .60.60.5) ..... ' Hz Max. Continuous Output. Current 12.5 z4 @ 2osv 4a @ zosv 16 I 25 I 32 f 47.5 � A Overvoltage Category ...............1.. 21,Qa 240V ........ .......... 4................1.. 42 tat 240V...1............................. 11 GFDI Threshold i OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING INVERTER) 1 A Utility Monitoring, Islanding Protection Country Configurable I Thresholds Yes Yes INPUT ..................................:................. 60 � 85 .... Vdc _ Maximum DC Power(STC 4050 5100 6750 8100 10250 13500 15350 ............................-............ W ......... ...................g ... Transformer -less, Un rounded Yes EMC ............................................................................, Max. Input Voltage ................................................................................................................. ... 500 Vdc Nom:,DC 1nQut Voltage .....1 325 @ 208V 1350 @ 240V Vdc Max Input CurrentIrl Yes ( 1 I INSTALLATION SPECIFICATIONS ................. ........... .......... ..........J ...............�.155,La 2 OV.I... 18......1 ....,23.......1..3 5@ 40V..�.....................Adc Max. Input Short Circuit Current Vdc 45 ............................................................ Adc... ..................................................................................... Reverse_Polaritp Protection mm/In Yes Ground _Fault Isolation Detection ,....,....... mm/in 600ko Sensitivity Maximum Inverter Efficlency 97.7 98.2 98 3 98 3 98 98 98 ... ............ 96 ......... ........ ........ .......... CEC Weighted Efficiency .......... 97.5 97.5 @ 208V .... ..-..... . --'97 @ 208V 98 97.5 97.5 97.5 770/1.7 930 / 2.05 930 / 2.05 �.-.., t .............................._....,..... r % Ib 98 (a1240V........... 97-A.e.240V.. _......................... 1 ....... . Nighttime Power Consumption < 2.5 < 4 W ADDITIONAL FEATURES Output Wire Length ................................4:95.4,?: ......... Supported Communication Interfaces ......................................... .................................................................... RS485, RS232, Ethemet, ZigBee (optional) .............................................................. Operating Temperature Ilan? ............. ......... .............. Revenue Grade Data,AN51 C12.1 40 : +85 /; 40 -+185 .......................................... Option 13 ............................................................... Protection Rating Pxxx-2 series Shutdown- NEC 2014 690.12 IP65� NEMA4 Functionality enabled when SolarEdge rapid shutdown kit is installed(`) Pxxx-5 series ... .... .. ................... ..Relative _Rapid STANDARD COMPLIANCE IP68./ NEMA6P Safety UL1741.UL16998, UL1998 , CSA 22.2 .......... Grid Connection Standards I. IEEE1547 Emissions FCC part15 class B A SOLAREDGE INVERTER(2) INSTALLATION SPECIFICATIONS - AC output conduit size /AWG range 3/4" minimum / 16-6 AWG 3/4" minimum/ 8-3 AWG ... ......... ...................................................... (Power Optimizers)..................................................................................................................... DC input conduit size / ff of strings / 3/4" minimum / 1-2 strings / 16-6 AWG 3/4' minimum / 1-2 strings / Maximum String Length AWG ,,,,,,, 14;6,AWG (Power O timizers Dimensions with Safety Switch 30.5 x 12.5 x 10.5 / 30Sx12,Sx7.2/775x315x184 in / JO%WO) .... 775 x 315 x 260 mm ..................I.. Weight with Safety Switch ...... 51.2 J 23:2.......... 54.7 / 24.7 88:4 40.1 .... ......... . ...................................................... ........... ............. Ib / kg ........... or Orientations ........................................................,..........................................................,...........................,.......... Natural RI It.Is not allowed tomb: P405 with P300/P4OD/P600(P700 in one stripg. convection ............. Cooling Natural Convection and internal Fans (user replaceable) fan (user .................................................................. .................:...........................replaceable) ............... Noise <25.................................................................................. I ... ...dBA.... Min: Max Operating Temperature 13 to+140/-25 to+60(-40 to+60 versionavailabie(sl) 'F/'C Range............................................................................, Protection Rating ......:NEMA 3R 0! For other regional settings please contact SolarEdge support. ('( A higher current source may be used; the inverter will limit Its input current to the values stated. (n Revenue grade inverter P/N: SEzpaA-US000NNR2 (for 760M lnverterSE7600A-US002NNR2). (4( Rapid shutdown kit P/N: SE1000-RSD-S3. in 40 version P/N: SE-A-US000N1,11.14 (for76DOW inverterSE7600A-U5002NN1.14). RoHS -reserved.• are trademarks or registered trademarks of SaiarEdge are trademarKs of their respective owners. Date: 12/2014. • OPTIMIZED BY SOLAREDGE Technologies, Inc. All other tradoniarks mentioned herein V.01. subject to change without notice. solar- • • SolarEdge Power Optimizer Module Add -On for North America P300 / P400 / P405 P300 P400 P405 (for 60 -cell modules) (for 72 & 96 -cell modules) for thin film modules) )INPUT Rated Input DC Poweell........... 300 .._....._ .................... 400............................. 405................... ... w...... Absolute Maximum Input Voltage 48 80 125 Vdc Voc at lowest tem erature MPPT Operetin Range 8 - 48 8 - 80................12.5 -105 ...... ..................._............................. Vdc Maximumo Circuit Current Isc ............................. ......................)............................................................... 1 .........................,........................... Adc..... Maximum DC Input Current 12 5 Adc, Maximum Efficiency .99.5 Wei.hted. Efficient. ................... .................................. ........................... 98:8 ......... , ........,...................................%...... Overvoltage Category 11 i OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING INVERTER) Maximum Output Current. ,._......................................I...................6.0 15 Adc Maximum Output Voltage ..................................:................. 60 � 85 .... Vdc OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM INVERTER OR INVERTER OFF) Safety Output Voltage per Power Optimizer ( 1 Vdc I STANDARD COMPLIANCE EMC ............................................................................, FCC Part15 Class B IEC61000-6-2, IEC61000-6-3 Safety .......................... ............................., .................a................'...........,................................... IEC62109;1(class II safety). UL1741........................................... ROH$: Yes I INSTALLATION SPECIFICATIONS Maximum Allowed System Voltage 1000 Vdc Pxxx-_2 series .......-..--„ 141 x 212 x 40.5 / 5.55 x 8.3.4 x 1.59 .............[...-....S2'x',........... mm/In Dimensions (W x L x H) Pxxx-5 series 128 x 152 x 27.5 / 128 x 152 x 35 / 128 x 152 x 48 J } ,....,....... mm/in Sx5.97x1.08 5 ..97x1.37 5x5.97x1.89 Weight includin cables Pxxx-2 series g g ...... .................................. ................. 950 / 2.1 . . . . .... ........... ii . yr / Ib series 770/1.7 930 / 2.05 930 / 2.05 �.-.., t .............................._....,..... r % Ib Input Connector .............................................................. MC4 Compatible ....................................................................... Out ut Wire T e /Connector Double Insulated; Am henol Output Wire Length ................................4:95.4,?: ......... I. 1,2 / 3.9 ....... . ....................................... I ............... ............. Operating Temperature Ilan? ............. ......... .............. 40 : +85 /; 40 -+185 .......................................... �F... Protection Rating Pxxx-2 series IP65� NEMA4 Pxxx-5 series ... .... .. ................... ..Relative ............................ IP68./ NEMA6P Humid) .,-..,tY.................................................................. ......................................................:. 0 -100 .............,................................ .............. ..... ... 0t Rated STC power of the module. Module of up to+5% power tolerance allowed. PV SYSTEM DESIGN USING A SOLAREDGE INVERTER(2) SINGLE PHASE THREE PHASE 208V THREE PHASE 480V Minimum String Length g 10 18 (Power Optimizers)..................................................................................................................... Maximum String Length 25 25 50 (Power O timizers Maximum Power per Stfing..................:................5250... ....... .......6000........,..................12750................. W...... Parallel Strings of Different Lengths or Orientations ........................................................,..........................................................,...........................,.......... Yes RI It.Is not allowed tomb: P405 with P300/P4OD/P600(P700 in one stripg. ............. Everest Solar Systems CrossRad 48-S CrossRail 48-S is the latest addition to our residential product line. It has been optimized for installations with low to moderate snow loads, and can be used as a more economical solution for these markets. ➢ Cost effective solution for areas with snow loads under 40 psf ➢ 6' spans achieved under 10 psf snow load ➢ UL 2703 Listed System ➢ Available in mill or dark anodized finish ➢ Compatible with existing CrossRail hardware solar system s New rail connector uses only two bolts! CrossRail 48-S shown with EverFlash roof attachment CrossRail 48-51 US1 10615 Product images are for illustrative purposes /�T6 `1 VSE VDE only. Specifications are subject to change <- 1 ✓f °°'p without notice. All sales of our products shall be Ow REG. -Nr. E524 — REG.•Nc E524 subject to Everest Solar Systems terms and VDE CEIAB (fr) Pass'Innovatior TOV Rheinland VIDE Certificate conditions, including the exclusive limited Declaration of 2011-128 (fr) -ISO (de) warranty set forth therein. Conformity 9001:2008 Everest Solar Systems CrossRail 48-S Technical data: 48-S Rail Connector Material: corrosion resistant aluminum and 1.811 in stainless steel 146 mm] Engineering: stamped engineering letters available for all solar states Warranty: 12 years Certification: UL 2703 Listed System for I bonding and fire 2.028 in �_ 1.890 in [52 mm] ; Y [48 mm] t I Z solar system l 48-S Rail Profile 1.535 in N y 20150618-03 Table 1: Rail Selection Chart Everest Solar Systems, LLC 3809 Ocean Ranch Blvd., Suite 111 Oceanside, CA 92056 Ld, a4- +1.760.301.5300 ® REG. -Nr: E524 REG.•N, E524 Info@everest-solarsystems.com www.everest-solarsystems.com ��STD E VDE Declaration of CEIAB (fr) Pass'Innovatior 2011-128 (fr) TOV Rheinland ISO VDE Certificate (de) 20150618-03 Conformity 9001:2008 y 20150618-03 Wm The S -5-S and S -5-S Mini clamps are each furnished with '13-5-3 U a m p the hardware shown to the right. Each box also includes a bit tip for tightening setscrews using an electric screw M6-1.25 x 16.00 mm gun. A structural aluminum attachment clamp, the S-5-5 --Hex Flange Bolt is compatible with most common metal roofing materials ; excludingcopper. All included hardware is stainless 2.00" '. oso PP 12.70 mm) steel. Please visit www.S-5.com for more information (s1.00 mm) including CAD details, metallurgical compatibilities and (2x) M6-1.25 Threaded Hole specifications. 0.50" The S -5-S clamp has been tested for load -to -failure x(3800 mm) 0 1z results on most major brands and profiles of standing seam roofing. The°independent lab test data found at I www.S-5.com can be used `for load -critical designs and 0.91" (23.00 m-511 ) ": applications. S-5!®holding strength is unmatched in the industry. Profiles that are shaped as illustrated below will i �' work with the S-5-5 and S -5-S Mini. In order for the S-5-5 s" or 5-5-5 Mini to fit these types of seams, the finished seam �1� must: 1.50" / (38.00 mm)_✓ Four 318-24 X 0.80" • Be at least 1.00" high. "I Round -Point Setscrews • Have a height distance less than or equal to 0.25" between the male portion of the panel and female portion of the panel. a pgg Clamp Example Profiles S -5l® Warningl Please use this product responsibly! Products are protected by multiple U.S. and foreign patents. Visit the website at www.S-5.com for complete information on patents and trademarks. For maximum holding strength, setscrews should be tensioned and re -tensioned as the seam material compresses. Clamp setscrew tension should be verified using a calibrated torque wrench between 160 and 180 inch pounds when used on 22ga steel, and between 130 and 150 inch pounds forall other metals and thinnergauges of steel. Consuitthe S-51 website at www.S_5.com for published data regarding holding strength. Copydght2015 Metal Roof Innovations, Ltd.S-5! productsam patent protected. S•S.aggressivelyprotects its patents,tmdemarksandcupydghts.Vmion03191i „ 11118-1.25 X 16.00 mm Hex flange Bolt k 1.18" /� M8-1.25 f (30.00 mm) Threaded Hole 1.50" mmmm) 0.91" x x 23.00 m �y, xsr . S. f^� (14.00 mm 1.50" (38.00 mm) �r Two 3l8-24 X 0.80" Round -Point Setscrews Please note: All measurements are rounded to the second decimal place. Distributed by .- __ . S 1 \5/ The Right Way! =5,o The right way to aUach a6nact anything to nnatFd f oof-'Z? Installation Instructions P S-5!1 Warning! Please use these products responsibly! Visit our website or sW< contact your S-5! distributor for available load test results. The user and/or installer of these parts is responsible for all necessary engineering and design to ensure the S -5-S, S -5-E, or S-5-13 has been properly spaced and configured. t'5 - Notice to S-5! users: Due to the many variables involved with specific panel products, climates, snow melt phenomena, and job particulars, the manufacturer cannot and does not express any opinions as to the suitability of any S-51 assembly for any specific application and assumes no liability with respect thereto. S-5! products are tested for ultimate holding strength oczc on various profile types and materials. This information is available from the 2 S-51 website: www.S-5.com.This document is an installation guide only Za� and the photographs and drawings herein are for the purpose of illustrating ct� installation tools and techniques, not system designs. The S -5-S, S -5-E, and S -5-B clamps are designed to fit typical standing seam profiles. When attaching to machine folded seams (regardless of oxo panel profile and geometry), S-5! clamps are designed to engage the seam as shown*. For horizontal seam applications, the setscrews must be accessible from the top for tightening. Tools Needed 3 • Screw Gun • 3/16"Allen BitTip (Provided) • Dial -Calibrated Torque Wrench* (•For accurate tension values, do NOT use a clicking torque wrench) To Install S -5-S, S -5-E, or S-5-13 (and Minis) CS O 1. Partially thread the setscrew(s) into the clamp by hand. < r 2. Determine how to position the clamp. On many snap -together type seams, a m- a�qE the setscrew(s) are opposite the open (or overlap) side of the seam. On some seams, this aspect of clamp orientation is not critical. 3. Tighten the setscrew(s) at the base of the clamp using a screw gun and the <„ included screw gun bit tip. For optimal holding strength, setscrew(s) should be tensioned to 160 to 180 inch pounds on 22ga steel, and 130 to 150 inch « pounds on all other metals and thinner gauges of steel. r S-5!® Warning! Please use this product responsibly! *S-511 clamps are designed to engagetheseam. Products are protected by multiple U.S. and foreign patents. Visit the website at www.S-S.com for complete information on patents and trademarks. For maximum holding strength, setscrews should be tensioned and re -tensioned as the seam material compresses. Clamp setscrew tension should be verified using a calibrated torque wrench between 160 and 180 Inch pounds when used on 22ga steel, and between 130 and 150 inch pounds for all other metals and thinner gauges of steel. Consult the 5.51 website at www.S-S.com for published data regarding holding strength. Copyright 2013, Metal Roof Innovations, Ltd. S-5! products are patent protected. S-51 aggressively protects its patents, trademarks, and copyrights. Version 050313. These instructions are for use by those experienced in the trade. Always follow appropriate safety precautions and use appropriate tools a 0 X N J a U T W 2 Y, M I— z 0 LL W J v~i zo P sW< W t'5 - o oczc Gt_ W Qz Za� ct� UZ zp oxo Wr 2 CS O < r co ti z 2 a m- a�qE ao, <„ U)�� « U r ac F vw1 Z Z Z~ a—otn aca� a F.G LU^ rAWN O LU ~ S to 3i 0U._J E- W OU M to Q W W M Z cn :�Z LL 0 EL =Z=1 u_ (0�a. a. ZX60W �t12Xa N to e— to N Q Op aO X O(A2ci W ZIr N M �