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13120114CITY OF CUPERTINO BUILDING PERMIT BUILDING ADDRESS: 1625 JAMESTOWN DR CONTRACTOR: VALLEY HEATING & PERMIT NO: 13120114 COOLING OWNER'S NAME: RENWALD JUDITH T 1171 N 4TH ST DATE ISSUED: 12/23/2013 OWNER'S PHONE: 4082532804 SAN JOSE, CA 95112 PHONE NO: (408)294-6290 LICENSED CONTRACTOR'S DECLARATION JOB DESCRIPTION: RESIDENTIAL COMMERCIAL INSTALL PV SYSTEM ON ROOF TOP 13 PANELS, 3.25 KAY License Class C-/Zb Lic. 4 95 9 q O Contractor Date /`� ZZ 317 1 hereby affirm that 1 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. I hereby affirm under penalty of perjury one of the following two declarations: 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 Sq. Ft Floor Area: Valuation: $0 performance of the work for which this permit is issued. 1 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 APN Number: 36610101.00 Occupancy Type: permit is issued. APPLICANT CERTIFICATION I certify that I have read this application and state that the above information is PERMIT EXPIRES IF WORK IS NOT STARTED correct. I agree to comply with all city and county ordinances and state laws relating WITHIN 180 DAYS PERMIT ISSUANCE OR to building construction, and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes. (We) agree to save 180 DA T CALLED INSPECTION, 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 corn Date ?I"g- with all non -point source regulations per the Cupertino Municipal Code, 9KTion 9.18. Signature/3,,ul�r„-�- Date T 2� 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. ❑ OWNER -BUILDER DECLARATION Signature of Applicant: Date: I hereby affirm that 1 am exempt from the Contractor's License Law for one of the following two reasons: ALL ROOF COVERINGS TO BE CLASS "A” OR BETTER 1, 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) I, as owner of the property, am exclusively contracting with licensed contractors to HAZARDOUS MATERIALS DISCLOSURE construct the project (Sec.7044, Business & Professions Code). I have read the hazardous materials requirements under Chapter 6.95 of the California Health & Safety Code, Sections 25505, 25533, and 25534. 1 will I hereby affirm under penalty of perjury one of the following three maintain compliance with the Cupertino Municipal Code, Chapter 9.12 and the declarations: Health & Safety Code, Section 25532(a) should I store or handle hazardous I have and will maintain a Certificate of Consent to self -insure for Worker's material. Additionally, should I use equipment or devices which emit hazardous Compensation, as provided for by Section 3700 of the Labor Code, for the air contaminants as defined by the Bay Area Air Quality Management District I performance of the work for which this permit is issued. will maintain compliance with the Cupertino Municipal Code, Chapter 9.12 and I have and will maintain Worker's Compensation Insurance, as provided for by the Health & Safety Code, Sections 25505, 25533, and 25534. Section 3700 of the Labor Code, for the performance of the work for which this - Tz/ 9 Owner or authorized agent: Date: permit is issued. 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 CONSTRUCTION LENDING AGENCY become subject to the Worker's Compensation provisions of the Labor Code, I must I hereby affirm that there is a construction lending agency for the performance of forthwith comply with such provisions or this permit shall be deemed revoked. work's for which this permit is issued (Sec, 3097, Civ C.) Lender's Name APPLICANT CERTIFICATION Lender's Address 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 ARCHITECT'S DECLARATION indemnify and keep harmless the City of Cupertino against liabilities, judgments, costs, and expenses which may accrue against said City in consequence of the I understand my plans shall be used as public records. granting of this permit. Additionally, the applicant understands and will comply with all non -point source regulations per the Cupertino Municipal Code, Section Licensed Professional 9.18. Signature Date ALTERNATIVE ENERGY PERMIT APPLICATION COMMUNITY DEVELOPMENT DEPARTMENT • BUILDING DIVISION 10300 TORRE AVENUE • CUPERTINO, CA 95014-3255 v (408) 777-3228 o FAX (408) 777-3333 ^ building 5-cupertino.org 0 1� PROJECT ADDRESS ;� 7 APN N 6 / _ /0 )0 � OWNER NAME PHONE DL E-MAIL STREET ADDRESS CITY, ATE, ZIP ®� FAX C' CONTACT NAME PHO C - - E-MAIL �jsrq/ STREET ADDRESS J� CITY, TATE. IP �� FADX� ❑ OWNER ❑ OWNER -BUILDER ❑ OWNER AGENT ❑ CONTRACTOR ❑ CONTRACTOR AGENT ❑ ARCHITECT ❑ ENGINEER ❑ DEVELOPER ❑ TENANT CONTRACr ,;eME A6� LICENS UMBERLICEN TYPE !: � o BUS. LIC a COMPANY NAME E-MAIL FAX STREET ADDRESS CITY, STATE, ZI? PHOP�` ARCHITECT/ENGINEER NAME LICENSE NUMBER BUS. LIC H COMPANY NAME E-MAIL FAX STREET ADDRESS CITY, STATE, ZIP PHONE USE OF ❑ SFD Or Duplex ❑ Multi -Family STRUCTURE: ❑ Commercial PROJECT IN WILDLAND URBAN INTERFACE AREA ❑ Yes ❑ No PROJECT IN FLOOD ZONE ❑ Yes ❑ No OLAR PANELS ❑ ELECTRIC VEHICLE CHARGING STATION ❑ SOLAR WATER HEATING ❑ OTHER: FOR S0/.4R PANEI_S: NUMBER OF PANELS/UNITS: H KILOWATTS: TOTAL VALUATION. DESCRIPTION OF WORK ld RECEIVED BY: By my signature below, I certify to each of the following: application and the information I have provi d is correct. ordinances and state laws relating to b Signature of Applicant/Agent: I am the property owner or authorized agent to act on the property owner's behalf. I have read this I have read the Description of Work and verify it is accurate. I agree to comply with all applicable local I authorize re esentatives of Cupertino to enter the above- identified property for inspection purposes. Date: i /"PL&ENTAL INFORMATION REQUIRED OFFICE USE ONLY ❑ OVER-THE-COUNTER a E te ❑ EXPRESS U U ❑ DARD z. . ai ❑' LARGE ` _ ❑' MAJOR PVApp_2012.doc revised 06/20/12 FMW �I Y OF CIJFERTIN® FEE ESTIMATOR - BUILDING IDMSION J ADDRESS: 1625 jamestown dr DATE: 12/16/2013 REVIEWED BY: MENDEZ Mecb. Perwit Tee: APN: 1BP#: / 31,_;11011L1"VALUATION: Other Afech. Insp.Lj 1$13,000 *PERMIT TYPE: Building Permit. PLAN CHECK TYPE: Alteration / Repair PRIMARY SFD or Duplex USE: Flec. Insp. Fite: PENTAMATION SOLAR -RES PERMIT TYPE: wORK install pv s stem on roof top 13 panels, 3.25 kw SCOPE J Ifech. Plan Check Plhnrb. Plan Check Elec. Plan Check Mecb. Perwit Tee: F'lrtmb. Permit Free: Elec. Perna Fee: -L- Other Afech. Insp.Lj Other Plumh Insp. Other Elee. Insp. iWech. Insp. Fee: Pltunb. hasp. Fee: Flec. Insp. Fite: NOTE: This estimate does not include fees due to other Departments (i.e. Planning, Public Works, Fire, Sanitary Sewer District, School District. etc). These fees are based on the nreliminary information available and are only an estimate Contact the Dent for addn'1 info. FEE ITEMS (Fee Resolution 11-053 Ef. 7/1/13) FEE QTY/FEE MESC ITEMS Plan Check Fee:. $0.00 = # $229.00 Alternative Energy System IPHOTOVRES Photovoltaic System Suppl: PC Fee: (D Reg. OT 0.0 hrs $0.00 PME Plan Check: $0.00 Permit Fee: $0.00 Suppl. Insp. Fee -.0 Reg. OT El hrs $0.00 PME Unit Fee: $0.00 PME Permit Fee: $0.00 Construction Tax: Aelininistrati ve Fee: Work Without Permit? 0 Yes (j) No $0.00 Advanced Planning Fee: $0.00 Select a Non -Residential Building or Structure 0 Travel Documentatiort Fees: Strong Motion Fee: IBSEISMICR $1.30 Select an Administrative Item Bldg Stds Commission Fee: IBCBSC $1.00 SUBTOTALS: $2.30 $229.00 TOTAL FEE: $231.30 Revised: 10/01/2013 December 10, 2013 Valley Heating, Cooling, Electrical and Solar 1171 N. 4`h ST San Jose, CA 95112 - �� g V, tje7 -y 408-294-6290 Lic# 258540 _ 'Ok- -If" Cupertino Building Division 16's��P 0/': Or PHOTOVOLTAIC PERMIT APPLICATION, Single Family&sac nd Parce(Number # 366-10-101 Judith Renwald ® 22i 0;� �7��® 1625 James Town DR oho 'a;T, �'d� ,r�5 Cupertino, CA 95014 1. SCOPE. Install a 13 panel (3250 watt) photo; in -n&'string and.single*ow configuration. Panels are direct roof mount ori rear si t house (270 Ail uth). Panels will be attached to the composite shingle roof with iron ridge rail mounting sy9s'�t. There are 22 point of attachment, which are flashed and sealed IAW manufacture install instructions. All points of attachment are single lag bolt into rafter (24" OC). Junction boon roof edge transition power from panels down to inverter via DC disconnect. BothAre mounted on side of house close to electric service panel. All DC power is in conduit and external. AC power runs in conduit to crawl space, then 10' to electric service panel. 2. Equipment. , a. Fronius Inverter IG PLUS V 3.0-240 b. Motech IM6063-250-Y101350c c. BOSX. r., C rn CD eA ��`' �J V pl- n co y t!i O c ° E v v T = > .0 a b 3 u LLJv C M ._ O O U z Ln 01 Epp O UO C OD 41 W O p = QCf- 3 Ln w O Z N d C > Vf Lu kD U O o U U 41 N N 41 f`0 d c N a Q H U u 0 a �o O > O O N 7 f0 0 O E n u E m 0 C O N O QO C > C u 0 O c N v t .3 0 $ u o •' c O G C u ° N u u c W L+' U O Q — O. U m YO Otn N Z aCD N N 3 V CL Y 72 C ? > ` O ` GV d L) a r0 � 00 `° o Q ..a2> c a 1 c c L° E gO rt Om a 3 m `^ o u-1 MN C f0 > °?j or ti' :: aat m 00`0 v c o :: Q u Q o C W E!O c N� N U O N 3*� nw'00— „ au c m N c :3 L3 v 'i 3 v `o a "> > o c o W a n c, a o> a t'i c c a 'i a u�m O u p a> ° d ° z -0o = o ao� Y .ti p y c N O c O N a c _� E o 5 LL M m a o ??? d LLM c Q u j O C d) CX % m N f0 a O 7 by >aiaa 3 V C >> C.O ivW Z 0 rl N of V N kO f- W O) rl .E LL E 0 Rhe {N; U) Q N_ C E CL E 'S u Q E M E En � w II x II C E N � O � U M M N '""' fNn .N x x x N t L O O �G [� O N fr, v II II 11 m _ C !v io > O E m w N U cn o, W >+ m v U rn O x N o m O O N 3 x O @ C E w (U 0 3 U L E E x n 3 N U _ A 0 ` N N O. O C o N 07 0 u � v C E U ` �O O v S 75 w � v a) 0U Eu E > U E 0) II 11 II � E E o (D M A � = F > U %W S1 t?. S1 U U x ca >x d c I- > � U D L K' w �1 a, NCL i i E Q M E � L II c E y O N N y O N Rf O M y > x N r L O O N � N O N r 0 II II II N *k C � � P � 0 P _Occ N N N ` mE m a m a o E d N N w fA N O '� d � U 3 :3 Q V C u ` a� o O LO N F 3 > n E CU x n O (0 O ` E � C 3o x E n ` O EEi U O u a� Q v m x U W o - U E (D II II II � 17 tp L) o_ Q d+ M N $y fl v m G1 O > v ~ O = L) A. W U Scn' a. U D 310.15 ARTICLE 310 - CONDUCTORS FOR GENERAL WIRING Table 310.16 Allowable Ampacities of Insulated Conductors Rated 0 Through 2000 Volts, 60°C Through 90°C (140°F Through 1940F), Not More Than Three Current -Carrying Conductors in Raceway, Cable, or Earth (Directly Buried), Based on Ambient Temperature of 30°C (86°F) Temperature Ratingof Conductor SLe,:Table 310:1;3 '; 60°C 140-F) 75°C (167°F) I 90°C 094°F) 60°C (140°F) I 75°C 167°F 90°C (l 94°F) appropriate factor shown below. Types TBS, SA, Temp. (°F) 21-25m C.--1:08;-- t 1.05 1.04 1.08 1.05 SIS, FEP, FEPB, 70-77 Types TBS, SA, I' - I:00>. _ , 1.00 1.00 Types RHW, MI, RHH, RIIW-2, Types RHW, SIS, THHN, 11,-35= !i 091 .' , 0.94 THHW, THHN, TIIHW, THHW, THHW, THW-2, 87-95 36'_i0• ' 1 0.82 THW, THW-2, THWN-2, TRW, THWN-1, RHH, 0.91 96-104 • 45n-1- TIIWN, USE -2, XHH, THWN, RHW-2, USE -2, 0.82 Size 105-113 XHHW, XHHW, XHHW-2, Types TW, XHHW, XHH, XHHW, 0.58 AWG or Types TW, OF I USE, ZW I ZW-2 IJF I USE I XHHW-2, ZW-2 Size AWG or kcmil COPPER ALUIVIINUM OR COPPER -CLAD ALUMINUM kemil 18 - - 14 - - - - 16 - - 18 - - - -- 14* 20 20 25 - - - - 12* 25 25 30 20 20 25 12* 10* 30 35 40 25 30 35 10* 8 .40 50 55 30 40 45 8 6 55 65 75 40 50 60 6 4 70 85 95 55 65 75 4 3 85 100 110 65 75 85 3 2 95 115 130 75 90 100 2 1 110 130 150 85 1 100 115 1 1/0 125 150 170 100 120 135 1/0 2/0 145 175 195 115 135 150 2/0 3/0 165 200 225 130 155 175 3/0 4/0 195 230 260 150 180 205 4/0 250 215 255 290 170 205 230 250 300 240 285 320 190 230 255 300 350 260 310 350 210 250 280 350 400 280 335 380 225 270 305 400 500 320 380 430 260 1 310 350 500 600 355 420 475 285 340 385 600 700 385 460 520 310 375 420 700 750 400 475 535 320 385 435 750 800 410 490 555 330 395 450 800 900 435 520 1 585 355 425 480 900 1000 455 545 615 375 445 500 1000 1250 495 590 665 405 485 545 1250 1500 520 625 705 435 520 585 1500 1750 545 650 735 455 545 615 1750 2000 560 665 750 470 1 560 630 1 2000 UVKKE(-TAUN P'AU'IURS Ambient For ambient temperatures ulher than 30°C (86°F), multiply the a{lowable ampacities shown above by the Ambient Tem p. (°L') appropriate factor shown below. Temp. (°F) 21-25m C.--1:08;-- t 1.05 1.04 1.08 1.05 1.04 70-77 26-301? I' - I:00>. _ , 1.00 1.00 1.00 1.00 1.00 78-86 11,-35= !i 091 .' , 0.94 0.96 0.91 0.94 0.96 87-95 36'_i0• ' 1 0.82 0.88 0.91 0.82 0.88 0.91 96-104 • 45n-1- !.1v-03-1--` -1 0.82 0.87 0.71 0.82 0.87 105-113 46-5U' 0.58 0.75 0.82 0.58 0.75 0.82 114-122 0.41 0.67 0.76 0.41 0.67 0.76 123-131 0.58 0.71 - 0.58 0.71 132-140 '64-70,-., - 0.33 0.58 - 0.33 0.58 141-158 71-80,-') --. J7 - 0.41 __. 0.41 159-176 See 24CP4(D). C 0 L66 a O G� �\ 7 C) 70 14£x% � 2010 California Electrical Code M C). LCN CN �1 II II 0 co 7i �y N 01 MO j C'4 p\ N M N f Lu h IR M O O1 � 00 m M M O0 X II X '- X X t II U 2 kr) IC h N 01 N O V1 M N N M y N N .r N II II II II II II II � o• E a� 0 m o � s � c cn m E •U O O m y C 0 n N C O E m >; x U t `- p N C 0 o p� + O 0E E m 3 m r o E y o a� v m v a `m a� o c Q c v m a> cn 75 0Q � .0 x 0 - x C X 'a a � N O 0 EN O E o 0 x o m m cl a 4 a r E m 0 16 N M N M N o 0 0 c 0 'n in E m o o m X ,-� N �• pti � � N v N � � O II II II II II II II II II II 4? � C J: CO m O t6 N m O m 7 N a E rn CO V N N Q 0 U) Q G y U j, f6 T �_ V (D N C Q J m !] m O O C N p O O m m S 0 (C6 O J D O O O_ U) E U) a_ O m m 7 m O C O m m m m Q7 E 0 0 0 0 0 J 0 0 0 Z0 0 C A Iis O N co d d g� 3 A'� zF gg AM� y F us Franius10 Nus PV Inverter The first complete solution. Reliable. Pl oven. Smart. ��.. 5 " a An outstanding ad&ition to the family The next r -n ro e' generation' Fr" s.IG Plus inverter buLlds on a j :.• inrith - " f g� 3 A'� zF gg AM� y F us Franius10 Nus PV Inverter The first complete solution. Reliable. Pl oven. Smart. ��.. An outstanding ad&ition to the family The next r -n e' generation' Fr" s.IG Plus inverter buLlds on a j :.• inrith - " f successful rribdel mulUple:enhancements, m 9 including maximum power harvest, a''built-in six, �o " ��y� y "z circuit strip j,con]biner, integrated, lockable DC i a Disconnect, significantly improved efficiency; and unbeatable reliability. New, larger power stages expand tharo en Fronlus IG family from 2 to s # 12 kW in a sinc4ll�e inverter. - .Y f Tl r r r� r Q � : Recommended PV -Power (kWp) MPPT-voltage range DC startup voltage Max. input voltage (at 1000 W/mz ` 14 'F (-10'G) in open circuit operation) * Nominal input current Max. usable input current Admissible conductor size (DC) Number of DC input terminals - 6.0-1u.. 7.5,1 10.0-1'uNi< 11:4-1. uxi. 1.10.0-3 Dale.., _11 4 3 uax 7 12.0-3.:wvezri 2.50-3.45 3.20-4.40 4.25-5.751 5.10-6.90 6.35-8.60 8.50-11.50 9.70-13.10;8.50-11.50 9.70-13.1010.20-13.80 230 ... 500 V 245 V 600 V 8.3 A 10.5 A 13.8 A 16.5 A 20.7 A 14.0 A 17.8 A 23.4 A 28.1 A 35.1 A No. 14 - 6 AWG 6 27.6 A 31.4 A 27.6 A 31.4 A 33.1 A 46.7 A 53.3 A 46.7 A 53.3 A 56.1 A "Max. current per DC input terminal 20 A; Bus bar available for higher input currents �UTPlJT.',�AT_Ac F►nrii,6 lGPlusV '`3�0=1,uNe # :p3 8{i k�ai r 5r0 1urii "6.0-1 vx 7:5 1 vx 100 1.uri 11."4=1'`vw '',. 10.0 11 l.gf g13fo.i�, 12:0-3vnezn Nominal output power (P A�_,,,) 3000 W 3800 W 5000 W ' 6000 W 7500 W 9995 W 11400 W 9995 W 11400 W 12000 W Max. continuous output power 31 lbs. (14 kg) 57 lbs. (26 kg) 84 lbs. (38 k5) Wiring compartment weight 24 lbs. (11 kg) 24 lbs. (11 kg) 26 lbs. (12 kg) Admissible ambient operating temperature -13 °F ... +131 'F (-25 °C ... +55 °C) 'Compliance I -.yy. �, i�fi3 j 1M A ,., n � m"a."�if3� t � SS. I d�Ul(iE5 .. _`• Flogius 1G Plus V 3:0`1 uxi 3 8 l�uxs 5 O,r,1-dxi Bi0=1 uxf' �, 7.6 1 ux�1D.0 1 uxi'' 11.4-1 ux� 10A 3 w� 4M4`3,D 1t ; ,12 0 3 wye577 Ground fault protection Internal GFDI (Ground Fault Detector/Interrupter); in accordance with UL 1741-2010 and NEC Art. 690 104 °F (40 °C) 208 V 1240 V 1277 V 3000 W 3800 W 5000 W i 6000 W 7500 W 9995 W 11400 W j 9995 W 11400 W 12000 W Nominal AC output voltage 208 V/ 240 V / 277 V 208 V 1240 V 277 V 'Operating AC voltage range 208 V 183 - 229 V (-12 / +10 %) (default) 240 V 211 - 264 V (-12 / +10 %) 277 V 244 - 305 V (-12 / +10 °lo) Max. continuous 208 V 14.4 A 18.3 A 24.0 A 28.8 A 36.1 A 48.1 A 54.8 A 27.7 A' 31.6 A' n.a. output current 240 V 12.5 A 15.8 A 20.8 A 25.0 A 31.3 A 41.6 A 47.5 A 24.0 A` 27.4 A' n.a. 277 V 10.8 A 13.7 A 18.1 A 21.7 A 27.1 A 36.1 A 41.2 A n.a n.a. 14.4 A' Number of phases 1 3 Admissible conductor size (AC) No. 14 - 4 AWG Max. continuous utility back feed current 0 A Nominal output frequency 60 Hz Operating frequency range 59.3 - 60.5 Hz Total harmonic distortion Power factor Max. efficiency <3% 1 (at nominal output power) 1 43 8 1 ume 'L. 5 0 1 uxr 6.0-1 uxi ( 7.5.-1 uxi I 10.0-1'uxr 11:4=1 uw , 10.0 3 Da<. 11 4 3 312 0 3 rvre 96.2% CEC efficiency 208 V 240 V 277 V 95.0% 95.5 % 96.0% 95.0 % 95.5% 96.0% 95.5 % 95.5% 96.0% 95.5 % 96.00A 96.0% 95.0 % 95.5% 96.0% 95.0% 95.5 % 96.0% 9 5. 0 % 95.0 % " 95.5 % 96.0 % " 96.0% n.a 95.0% n.a. 96.0% n.a. n.a. 96.0% Consumption in standby (night) < 1.5 W Consumption during operation 8W 14 W 20 W Cooling Controlled forced ventilation, variable speed fan Enclosure type NEMA 3R Unit dimensions (W x H x D) 17.1 x 26.5 x 9.9 in. 17.1 x 38.1 x 9.9 in. 17.1 x 49.7 x 9.9 in. Power stack weight 31 lbs. (14 kg) 57 lbs. (26 kg) 84 lbs. (38 k5) Wiring compartment weight 24 lbs. (11 kg) 24 lbs. (11 kg) 26 lbs. (12 kg) Admissible ambient operating temperature -13 °F ... +131 'F (-25 °C ... +55 °C) 'Compliance UL 1741-2010, IEEE 1547-2003, IEEE 1547.1, ANSI/IEEE C62.41, FCC Part 15 A& B, NEC Article 690, C22. 2 No. 107.1-01 (Sept. 2001). California Solar Initiative - Program Handbook - Appendix C: Inverter Integral 5 % Meter Performance Specification -.yy. �, i�fi3 j 1M A ,., n � m"a."�if3� t � SS. I d�Ul(iE5 .. _`• Flogius 1G Plus V 3:0`1 uxi 3 8 l�uxs 5 O,r,1-dxi Bi0=1 uxf' �, 7.6 1 ux�1D.0 1 uxi'' 11.4-1 ux� 10A 3 w� 4M4`3,D 1t ; ,12 0 3 wye577 Ground fault protection Internal GFDI (Ground Fault Detector/Interrupter); in accordance with UL 1741-2010 and NEC Art. 690 r" -A I][ 0- @) o, PHOTOVOLTAIC MODULES 60 BLACK SE i. SES PHOTOVOLTAIC MODULES PEAK POWER: 245-255 Wp FEATURES INCLUDE: 0 60 MOTECH multicrystalline solar cells connected in series o Positive power tolerance of 0--3% improves system performance o Industry-leading module efficiency o Dual certified to UL and International IEC standards o Designed for 600V or 1000V systems o Tested up to 5400Pa for maximum load resistance o Progressive Power Warranty guarantees 80.7% of rated power at 25 years o Manufactured globally with world-class quality standards QUALITY, RELIABILITY, AND KWH YIELD MOTECH modules are powered by industry acknowledged high performance, reliable MOTECH silicon cells. 20 years of experience in solar module engineering and design, along with rigorous durability and performance tests, ensure reliable lifetime performance and maximum kWh yield. 25 -YEAR PROGRESSIVE WARRANTY* 25ryear rogrg'ssive,,ypower warranty I 0 10 year ty,on'm warranaterials and workmanship 1i rjP c 100 -•aoEn.y Cy90%li�J�n a 3 so%- Years C v� 10 =• � 21 ` ,A M{Q Standard tl�ered.warranty C ID py 4 c CD ❑ MOTECH customer benefits Please refer Io our wetislie at vr+iw-molechsok—om for certification and warranty drnlails E CERTIFICATIONS & STANDARDS* 25 'SEU us lu Intent ek Application Class A UL1703 Safety Cfass It IEC61215 IEC61730-1,2 ` ! PHOTOVOLTAIC MODULES PHYSICAL CHARACTERISTICS PHYSICAL DESIGN PROPERTIES 942mm 37.1 in 1650mm 65.0in 860mm i 1 000M 33.9in 39.4in 304mm Mounting holes 12.Oin 1360mm 53.5in } 992mm I� 39.1in Mounting holes 9mm x 14mm 0.35in x 0.55in Ground holes 5mm 0.19 in Drainage holes Frame Height Max Tested Load* SOmm 1.97in2mm SOmm/1.97in l 113 / -50 psf LLJ .O8in I (standard) i +5400 / -2.4D0 Pa __--I 35mm 1.38in Refer to module installation instructions for maximum loading configurations. Weight 43.9 Ib [19.9 kg] Glass 3.2mm low iron, extra clear, tempered PV glass Hailstone Impact Resistance 1 " C 50 rnph [25 rnm ® 80 kph] Junction Box Yukita YJB-16, IP65 rated UL 6WV/IEC I OOOV Certified Output Cables 4.0rnm1 Universal PV Wire, 1 000m [39.4in,l Connectors i MC4 Compatible IV CURVE 9 _ Mow. 25'c -_ 8 7 e00w, 25'C - 600W. 25'C a 2 Z 4 - 400W,"2SC'-"" - U 2 --200wr257c 0 0 5 10 15 20 25 30 35 4 Voltage (V) ELECTRICAL PERFORMANCE IM60B3-245-Y10B50 IM60B3-250-Y10B50 IM60B3-255-Y10B50 Test Conditions' Max. Power Voltage . { Vmpp(V) STC 30.65 NOCT 2.7.77 STC 30.93 NOCT 28.08 STC i 30.78 NOCT 27.94 Max. Power Current Impp(A) j 7.99 6.43 8.08 6.49 8.2.9 6.65 Open Circuit Voltage Voc(V) 37.53 34.45 37 68 34.59 37.54 34.57 -Short Circuit Current Isc(A) 8.55 6.94 8.63 7.00 8.85 7.18 ELECTRICAL PERFORMANCE PARAMETERS Isc Temperature Coefficient, of ('/o/°C) +0.07 ±C.02 _... .---....- i Max. Series Fuse 15A Voc Temperature Coefficient Q (%/°C) -0.34f&01 Max. System Voltage (UL &IEC) 600V, 1000V Prnax Temperature Coefficient Y(/eY�C) -0.46 tO.02 Normal Operating Cell Temp. (NOCT) 46°C t 2°C Efficiency Reduction at 20OW/m2, 25°C' + <5% Limiting Reverse Current (Ir) 9.OA IV parameters are rated at 5tandard Test Conditions (Irradiance of 1000 W/m2, AM 1. 5, cell temperature 2.5°C). All measurernents are guaranteed et the laminate leads. NOCT is measured at 300 W/m2, 20°C ambient, and 1 m/s windspeed. Specifications are subject to change without notice. FIRICK7!��JIiI L Solar Mounting Made Simple® Roof Mounting System Standard Rail (XRS) 2013 Edition v1.3 CD r �..._ co T1 Q lJ QJ ,T `C i C M. �.. C cn ZU A compiete MAual ez for the(° s a lation of IronRidge's Standard Rail system. n ZASk IRON RIDGE Installation Manual �' Table of Contents Solar Mounting Made Simple' This Installation Manual was created to help with the assembly of the IronRidge Standard Rail Mounting System. Standard Rail 1 Introduction Installer Responsibility Customer Support 2 Module Clamp Table Tools Required For Assembly Torque Values For Dry Bolts 3 Grounding Setup Component List 4 Assembly: Step 1 Assembly: Step 2 5 Assembly: Step 2 6 Assembly: Step 3 7 Assembly: Step 3 8 Warranty Information I support@ I ironridge com 1 (800) 227-9523 TOC 2013 v1.3 ZA% 1RNRIGE Solar Mounting Made Simple* Installation Manual Standard Rail Introduction p The IronRidge Standard Rail System is a flexible and straightforward roof mounting solution for a wide variety of solar photovoltaic (PV) needs. Due to its modular design, it can easily handle a wide variety of panel sizes and quantities. V Installer Responsibility The installer is solely responsible for: I. Complying with all applicable local or national building codes, including any that may supersede this manual; ii. Ensuring that IronRidge and other products are appropriate for the particular installation and the installation environment; iii. Ensuring that all structural support members, Including the roof, its rafters, and connections, can support the array under all code level loading conditions; iv. Using only IronRidge parts and installer -supplied parts as specified by IronRidge. Substitution parts may void the warranty; v. Ensuring that anchoring devices including lag screws have adequate pullout strength and shear capacities as installed; vi. Maintaining the waterproof integrity of the structural support or roof, including selection of appropriate flashing; vii, Ensuring safe installation of all electrical aspects of the PV array; viii. Ensuring that PV module is UL or CE listed and verification of PV Module's capacity to support the loads associated with the given array; and ix. Ensuring correct and appropriate design parameters are used in determining the design loading used for the specific installation. Parameters, such as snow loading, wind speed, exposure and topographic factor should be confirmed with the local building official or a licensed professional engineer. Customer Support IronRidge makes every effort to ensure your mounting kit is easy to install. If you need assistance at any point in your installation or have suggestions on how we can improve your experience, call customer support at 1-800-227-9523 or email us at service@ironridge. com support@ ironridge.com (800) 227-9523 Page 1 2013 03 ZIAO&IRONRIDGE Installation Manual Standard Rail Solar Mounting Made Simple' Module Clamp Table Module Thickness Component Clamp Info, #12 Self-drilling/tapping screws Part Numers 1/4 cap -end screws and bolts 9/16" Mm Inches Clamp Type Bolt Height End Clamp Mid Clamp (hex) Mid Clamp (tbolt) 31.0-32.5 1.22-1.28 1 2.00" 29-7000-125 29-7000-105 29-70TB-105 33.3 - 34.8 1.31-1.37 A 2.00" 29-7000-134 29-7000-105 29-70TB-105 34.8-36.8 1.37 - 1.45 B 2.00" 29-7000-224 29-7000-105 29-70TB-105 39.0-41.0 1.53 - 1.61 C 2.25" 29-7000-1.57 29-7000-101 29-70TB-101 41.1-42.7 1.62-1.68 J 2.25" 29-7000-165 29-7000-101 29-70TB-101 42.7-44.2 1.68-1.74 E 2.25" 29-7000-171 29-7000-101 29-70TB-101 45.0-47.0 1.77-1.85 F 2.50" 29-7000-214 29-7000-108 29-70TB-108 46,7,-48.3 1.84-1.90 K 2.50" 29-7000-187 29-7000-106 29-70TB-108 49.0-51.1 1.93-2.01 G 2.50" 29-7000-204 29-7000-108 29-70TB-108 57.4 - 58.9 2.26-2.32 H 2.75" 29-7000-230 29-7000-104 29-70TB-104 Tools Required For Assembly Wrenches are required to assemble the IronRidge Standard Rail System. An open-end wrench, box -end wrench, or socket drive with sockets will suffice. The sockets will need to support the following size hex heads: Hex Head Size Component 5/16" #12 Self-drilling/tapping screws 7/16" 1/4 cap -end screws and bolts 9/16" 3/8 cap -end screws and bolts Torque Values For Dry Bolts Use the following torque values in this assembly. Bolt Size Required Torque Value 1/4-20 120 in -lbs. (65 in -lbs. on End Clamps) 3/8=16 236 in -lbs. r support@ I ironridge com 1 (800) 227-9523 Page 2 ) 2011303 DDDRRONROSE Solar Mounting Made Simple' Installation Manual Standard Rail Grounding Setup All electrical installation and procedures should be conducted by skilled, licensed and bonded electricians. All work must comply with all national, state and local installation procedures, product and safety standards. These standards include but are not limited to applicable National Electrical Code (NEC®), National Electrical Installation Standards (NETS'"), UL Standards, and OSHA Regulations, Note: Forinstollations that utilize WEEBs, WEEB Lugs and WEER Bonding Jumpers, pleaserefer to Wiley/Burndyinstallation manual for "lronRidge Light and Standard Series Rail" for proper installation procedures. Component List The IronRidge Standard Rail System contains the following parts: L -Foot Internal Splice Attaches to the roof and Is the anchor point for the rest of the�Ties the extrusion rails panel assembly. together, extending their .,.--' length. Standard Rail End Clamp Attaches to the foot Clamps the outside ends of the via foot clamp and PV modules to the rails. provides support for the PV modules. Mid Clamp Clamps the insides edges of the PV modules to the rails. End Cap Caps off the end of the rail and prevents the collection of debri inside rail. support@ ironridge com (800) 227-9523 Page 3 2013 v1.3 AM,. IRON RIDGE Solar Mounting Made Simple' Assembly Step 1. Mounting"the feet and the first piece of rail. A. Mount all of the feet to the roof in the desired locations. Note: Determine the maximum distance between feet according to engineering specifications. B. On the first piece of rail, slide 3/8-16" bolts into the side facing t -slot on the rail. Space the bolts out to match the foot spacing. C. On this same piece of rail, slide 1/4-20" bolts into the top facing t -slot on the rail. Space the bolts out to match the panel spacing. D. Attach this first piece of rail to the feet mounted on the roof. Mount the rail to each foot with a flange nut and hex bolt. Hand tighten the nuts and check the level of the rail. Tighten 3/8-16 hardware to 236 in -lbs. Step 2. Mounting :the next pieces of rail. A. On the next piece of rail, slide 3/8-16" bolts into the side facing t -slot on the rail. Space the bolts out to match the foc spacing. B. On this same piece of rail, slide 1/4-20" bolts into the top facing t -slot on the rail. Space the bolts out to match the panel spacing. Installation Manual Standard Rail L V 11 C support@ ironndge com 1 (800)227-9523 Page 4 j 2013 v1.3 a ZA6.° IRON RIDGE Solar Mounting Made Simple' C. Lay the rail on its side, with the slotted side down as shown. D. Slide the internal splice half way into the internal cavity in the rail. It should extend approximately six (6) inches into the cavity. E. Using one (1) self -drilling, self - tapping screw, one (1") inch from the edge of the rail, secure the internal splice into the rail as shown on the right. Note: For installations that utilize WEEB Bonding Jumpers, please refer to Wiley/Burndyinstallation manual for "IronRidge Light and Standard Series Rails" for proper installation procedures. F. Loosely mount this piece of rail onto its footings. G. By moving this second rail along its footings, the internal splice should slip into the cavity on the first rail, with the rails butting tightly and evenly together. H. Maintain rail alignment while following the next steps. I. You should mark off approximately six (6) inches from the end of the first rail (where the internal splice should end). Drive one (1) self - tapping screws through the second rail, one (1 ") inch from the edge utilizing the same horizontal location as the first rail. J. Repeat this procedure for the remaining rails. Installation Manual Standard Rail support@ ironridge;com (800) 227-9523 Page 5 2013 v1.3 AINAL IRON RI DGE Solar Mounting Made Simple' Step 3. Clamping the panels to the rails. A. Lay the first PV module in position on the rails. Note: For installations that utilize WEEBs, please refer to Wiley/Burndy installation manual for 9ronRidge Light and Standard Series Rails" for proper installation procedures. B. Then slip the end clamp over the bolt, making sure it is firmly hooked over the side of the module. C.. Complete the clamp assembly with a flange nut as shown. Tighten end clamp to 65 in -lbs. D. Repeat with the othei clamp. E. Working from the opposite side of the PV module. Assemble the mid clamps by putting a clamp on the bolt, followed by the flange nut. support@ ironrid'ge.com 1 (800) 227-9523 Installation Manual Standard Rail, Page �' 201303 F 0 ZzMk IRON RIDGE Solar Mounting Made Simple' F. Place the second PV Module into position on the rails, sliding it against the first so the mid clamps are in contact with the edges of both panels. Note: For installations that utilize WEEBs, please refer to Wiley/Burndy installation manual for "IronRidge Light and Standard Series Rails" for proper installation procedures. G. Tighten to 10 ft -lbs (120 in -lbs). H. Repeat the procedure using mid clamps to secure each successive module. I. Secure the last module at the end of the rails using the other set of end clamps. Tighten to 65 in -lbs. Installation Manual Standard Rai@ support@ ironridge.com (800) 227-9523 Page 7 2013 v1.3 IRONRI®GE Installation Manual ) Standard Rail Solar Mounting Made Simple' _ J Warranty Information Effective for IronRidge, Inc. ("IronRidge") mounting structure components ("Products") manufactured after April 1st, 2012, IronRidge provides the following warranties, for Products installed properly and used for the purpose for which the Products are designed: • finishes shall be free of visible defects, peeling, or cracking, under normal atmospheric conditions, for a period of three (3) years from the earlier of (i) the date of complete installation of the Product or (ii) thirty days after the original purchaser's date of purchase of the Product ("Finish Warranty"); • components shall be free of structurally -related defects in materials for a period of ten (10) years from the earlier of (i) the date of complete installation of the Product or (ii) thirty days after the original purchaser's date of purchase of the Product; • components shall be free of functionally -related manufacturing defects for a period of twenty (20) years from date of manufacture. The Finish Warranty does not apply to: (a) surface oxidation of the galvanized steel components or any foreign residue deposited on Product finish; and (b) Products installed in corrosive atmospheric conditions, as defined solely by IronRidge; corrosive atmospheric conditions include, but are not limited to, conditions where Product is exposed to corrosive chemicals, fumes, cement dust, salt water marine environments or to continual spraying of either salt or fresh water.The Finish Warranty is VOID if (c) the practices specified by AAMA 609 & 610-02 —"Cleaning and Maintenance for Architecturally Finished Aluminum"(www.aamanet.org) are not followed by Purchaser for IronRidge's aluminum based components; and (d) if the practices specified by ASTM A780 / A780M - 09 "Standard Practice for Repair of Damaged and Uncoated Areas of HotDip Galvanized Coatings"are not followed by Purchaser for IronRidge's galvanized steel -based components. The warranties above do not cover any parts or materials not manufactured by IronRidge, and exclude nonfunctionally-related defects, as defined solely by IronRidge. The warranties do not cover any defect that has not been reported to IronRidge in writing within twenty (20) days after discovery of such defect. In the event of breach of or non-compliance with the warranties set forth above, IronRidge's sole obligation and liability, and the sole and exclusive remedy for such breach or non-compliance, shall be correction of defects by repair, replacement, or credit, at IronRidge's sole discretion. Such repair, replacement or credit shall completely satisfy and discharge all of IronRidge's liability with respect to these warranties. Refurbished Product may be used to repair or replace the defective components. Transportation, installation, labor, or any other costs associated with Product replacement are not covered by these warranties and are not reimbursable.These warranties additionally do not cover (a) normal wear, or damage resulting from misuse, overloading, abuse, improper installation (including failure to follow professional instruction and certification), negligence, or accident, or from force majeure acts including any natural disasters, war or criminal acts; and (b) Products that have been altered, modified or repaired without written authorization from IronRidge or its authorized representative; and (c) Products used in a manner or for a purpose other than that specified by IronRidge. A formal document proving the purchase and the purchase date of the Product is required with any warranty claim. Except as set forth above, IronRidge sells the Products on an "AS IS" basis, which may not be free of errors or defects, and ALL EXPRESS OR IMPLIED REPRESENTATIONS AND WARRANTIES, INCLUDING ANY WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUALITY, WORKMANLIKE EFFORT, CORRESPONDENCE TO DESCRIPTION, DESIGN, TITLE OR NON -INFRINGEMENT, OR ARISING FROM COURSE OF DEALING, COURSE OF PERFORMANCE OR TRADE PRACTICE, ARE HEREBY DISCLAIMED. support@ I ironridge com I (kQ 227 9523 _ Page 8 ? 20130.3 'AUK Of 'AUK go izf' 9!fj r i i