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BSOL2014-0015
78-495 CALLE TAMPICO LA QUINTA, CALIFORNIA 92253 Application Number: BSOL2014-0015 Property Address: 79950 TANGELO APN: 776230021 Application Description: 12.4kW PV SYSTEM - (38) Property Zoning: _ I have and will maintain a certificate of consent to self -insure for workers Application Valuation: $36,000.00 jT D Q"VOICE (760) 777-:'125 FAX (760) 777-:011 COMMUNITY DEVELOPMENT DEPARTMENT INSPECTIONS (760) 777-153 BUILDING PERMIT Date: 10/6/2014 P Owner: PATINO, DAVID A i 79950 TANGELO 327W PANELS/(2) INV/(1) 125A SUB LA QUINTA, CA 92253 Applicant: D " I 11 J' Contractor: REVCO SOLAR ENGINEERING INC j O 6 2014 u REVCO SOLAR ENGINEERING INC 0 OUTSIDE CITY LIMITS 0 OUTSIDE CITY LIMITS LA QUINTA, CA 92253Cm QUI pEPApSMENT LA QUINTA, CA 92253 OF IA Ofc`1ECOPMENT COMMURm (949)367-0740 ( Llc. No.: :LIC -0104962 --------------------------------=------------- LICENSED CONTRACTOR'S DECLARATION ---------------------------------------------- WORKER'S COMPENSATION DECLARATION I hereby affirm under penalty of perjury that I am licensed under provisions of Chapter 9 1 hereby affirm under penalty of perjury one of the following declarations: (commencing with Section 7000) of Division 3 of the Business and Professions Code, and _ I have and will maintain a certificate of consent to self -insure for workers my License is in full force and effect. I compensation, as provided for by Section 3700 of the Labor Code, for the performance of License Class: _ License No.::LIC -010496 the work for which this permit is issued. � _ I have and will maintain workers' compensation insurance, as required bo Date Contractor, Section 3700 of the Labor Code, for the performance of the work for which this peronit is issued.. My workers' compensation insurance carrier and policy number are: OWN - ILDER DECLARATION Carrier: _ Policy Number: I hereby affirm under penalty of perjury that I am exempt from the Contractor's State _ I certify that in the performance of the work for which this permit is issued, I License Law for the following reason (Sec. 7031.5, Business andProfessionsCode: Any shall not employ any person in any manner so as to beco subject to the w city or county that requires a permit to construct, alter, improve, demolish, or repair any compensation laws of California, and agree that, if I s Id becomes ct tithe structure, prior to its issuance, also requires the applicant for the permit to file a signed workers' compensation provisions of Section 37 the Labor I sh forthwith statement that he or she is licensed pursuant to the provisions of the Contractor's State License Law (Chapter 9 (commencing with Section 7000) of Division 3 of the Business comply with those provisio . / and Professions Code) or that he or she is exempt therefrom and the basis for the alleged DaA/ Appli exemption. Any violation of Section 7031.5 by any applicant for a permit subjects the applicant to a civil penalty of not more than five hundred dollars ($500).: WARNING: FAILURE TO SECURE WORKERS' COMPENSATION COVERAGE IS UNLAWFJL, . (_) I, as owner of the property, or my employees with wages as their sole AND SHALL SUBJECT AN EMPLOYER TO CRIMINAL PENALTIES AND CIVIL FINES UP TO ONE compensation, will do the work,.and the structure is not intended or offered for sale. HUNDRED THOUSAND DOLLARS ($100,000). IN ADDITION TO THE COST OF (Sec. 7044, Business and Professions Code: The Contractors' State License Law does not COMPENSATION, DAMAGES AS PROVIDED FOR IN SECTION 3706 OF THE LABOR CO)E, apply to an owner of property who builds or improves thereon, and who does the work INTEREST, AND ATTORNEY'S FEES. himself or herself through his or her own employees, provided tlhat the improvements are not intended or offered for sale. If, however, the building or, improvement is sold APPLICANT ACKNOWLEDGEMENT within one year of completion, the owner -builder will have the burden of proving that he IMPORTANT: Application is hereby made to the Building Official for a permit subject to or she did not build or improve for the purpose of sa'e.). I the conditions and restrictions set forth on this application. �) 1, as owner of the property, am exclusively contracting with licensed contractors to 1. Each person upon whose behalf this application is made, each person at whose construct the project. (Sec. 7044, Business and Professions Code: The Contractors' State request and for whose benefit work is performed under or pursuant to any permit issued License Law does not apply to an owner of property who builds or improves thereon, and as a result of this application , the owner, and the applicant, each agrees to, and shall i who contracts for the projects with a contractor(s) licensed pursuant to the Contractors' defend, indemnify and hold harmless the City of La Quinta, its officers, agents, and State License Law.). i employees for any act or omission related to the work being performed under or (_) I am exempt under Sec. B.&P.C. for this reason following issuance of this permit. 2. Any permit issued as a result of this application becomes null and void if work is not commenced within 180 days from date of issuance of such permit, or cessation of work Date: Owner: for 180 days will subject permit to cancellation. CONSTRUCTION LENDING AGENCY ' I hereby affirm under penalty of perjury that there is a -construction lending agency for the performance of the work for which this permit is issued (Sect 3097, Civ. C.). Lender's Name: I Lender's Address: I t I certify that I have read this application and state that the above informs n is correct. I agree to comply with all city and county ordinances and state law ng t n construction, and hereby authorize representatives of this ci er n the.ab e - mentioned prop rty fo ins ction purposes. Da Signature (Applicant or A t- i y x=FINANCIAL INFORMATION a -, DESCRIPTION=. a `.•, { ,} r � ACCOUNT 4 QTY.? t AMOUNT,',—, -..PAID ' PAID D_aTE' a A ... a r_ i __ .. BSAS SB1473 FEE ,101-0000-20306 .0 $2.00 $0.00 PAIDBY "y; t' ;' µ` '� METHOD `.CH# CLTDE3Y`? = RECEIPTECK _ .: ,� ,# r M s Total Paid forBUILDING STANDARDS ADMINISTRATION BSA $2.00 $0.00 DESCRIPTION ;„ ACCOUNT_ `,: QTY'' ,,' AMOUNT -PAID _, PAID DATE PV SYSTEM - ARRAY, FIRST 20 101-0000-42403 0 $24.17 $0.00 'PAID BY F METHOD---- .' .RECEIPT # C CHECK # _' ti yyCLTD 3Y: .%`-—ACCOUNT` Q AMOUNDESCRPTION T `PAID PAID DOTE PV SYSTEM - ARRAY, FIRST 20 PC 101-0000-42600 0. $24.17 $0.00 sit' " r m{ PAID BY p� .."' �' y } METHOD " 'F , ' '_,IRECEIPT # t . CHECK # �,. x CLTD 3Y � _ ..�' DESCRIPTION ACCOUNT {AMOUNT' PAID rPAI D D4TE'QTY t r PV SYSTEM - MISC EQUIPMENT ' 101-0000-42403 0 $24.17 $0.00 ':PAID BY r - -METHOD i, _' RECEIPT # ",` CHECK # k CLTD W` DESCRIPTIONS{.°, ;*:. tACCOUNT QTY' 'AMOUNT ^=PAID ;:: PAID DATE fi7N s. r PV SYSTEM - MISC EQUIPMENT PC 101-0000-42600 0- $24.17 $0.00 r ` PAIDBY ',AMETHOD: ra RECEIPT# CHECK# CLTD 3Y' Ya Total Paid for ELECTRICAL: $96.68 $0.00 t T'7 k •.' DESCRIPTION�t t. 3 , ACCOUNT• . QTY z "AMOUNT -EPAID 4 + PAID,DATE PERMIT ISSUANCE 101-0000-42404 0 $91.85 $0.00 a• �� ` 'PAID BY , , :.3 ,METHOD RECEIPT # . CHECK # ' "-CLTD 3Y.i Total Paid for PERMIT ISSUANCE: $91.85 $0.00 f6TALS: $190.53 y sin.# City ofla Quinta Building 8r Safety Division P.O. Box 1504,78-495 Calle Tampico ia.Quinta, CA 92253 - (760) 777-7012 -� Building Permit Application and Tracking Sheet Permit# ___ -. "1, 'et.?et • 001+ Pmject;Add6799.50 Tangelo Owner's Name:. DaVl a ono A. P.Number ` " Address: 79950 Tangelo Legal Description: Contractor: Revco Solar Engineering City, ST, Zip: LaQuinta, CA 92253 t1/ elephone: ' Addre2631 Cabot R , to Project Description: City, ST, Zip: Laguna Hills, CA 92653 PV solar system per plan Telephone:760-625-3479 "f: ' State Lic. # 387219 City Lia#; Arch., Eng., Designer Address: City, ST, Zip:. Telephone: Construction Type:. Occupancy: Project type (circle one): New Add'n Alter Repair Demo Sq. Ft_:#Stories #Units: State Lic. #: Name of Contact Person: Joe Deisenroth Telephone # of Contact Person: 760-62573479 Estimated Value of Project: APPLICANT: DO NOT WRITE BELOW THIS UNE # Sobmittal Req'd Reed TRACMG PERMITFEES- Play Sets Plan Check submitted Item Amount Structural Cales. Reviewed, ready for corrections Plan Check Deposit. . Truss Cales. Called Contact Person Plan Check Balance Tide 24 Calce, Plans picked up Construction Flood plain plan Plans resubmitted.. Mechanical Grading plan V Review, ready for correction Electrical Subeontaetor List Called Contact Person Plumbing Grant Deed lie Plans picked up S.M.I. H.O.A. Approval Plans resubmitted Grading W HOUSE:- ''' Review; ready for correcdonsrmue - Developer Impact Fee Planning Approval Called Contact Person A.i.P.P. Pub. Wks. Appr Date of permit issue School Fees Total Permit Fees Description: 12.4kW PV SYSTEM - (38) 327W PANELS/(2) INV/(1) 125A SUB. Type: SOLAR - Subtype: Status: APPROVED Applied: 9/17/2014 AOR Approved: 10/6/2014 AOR Parcel No: 776230021 Site Address: 79950 TANGELO LA QUINTA,CA 92253 Subdivision: TR 24890-3 Block: Lot: 21 Issued: Lot Scl Ft: 0 Building Sq Ft: 0 Zoning: Finaled: Valuation: $36,000.00 Occupancy Type: Construction Type: Expired: ' No. Buildings: 0 No. Stories: 0 No. Unites: 0 .; _ .. w. City oflaQuints .: , . PER BSO NUMBER- a � 0f4'0015 , � L2 Description: 12.4kW PV SYSTEM - (38) 327W PANELS/(2) INV/(1) 125A SUB. Type: SOLAR - Subtype: Status: APPROVED Applied: 9/17/2014 AOR Approved: 10/6/2014 AOR Parcel No: 776230021 Site Address: 79950 TANGELO LA QUINTA,CA 92253 Subdivision: TR 24890-3 Block: Lot: 21 Issued: Lot Scl Ft: 0 Building Sq Ft: 0 Zoning: Finaled: Valuation: $36,000.00 Occupancy Type: Construction Type: Expired: ' No. Buildings: 0 No. Stories: 0 No. Unites: 0 Details: 12.4kW SOLAR ARRAY - (38) 327W SUBPOWER PANELS W/ (2) FRONIUS IG PLUS ADVANCED 6.1-1UNl-AFCI INVERTERS AND (1) 125A SUBPANEL [684SF] 2013 CALIFORNIA ELECTRICAL CODE. Printed: Monday, October 0.6, 2014 12:22:50 PM / 1 of 3 �� CV�TFMC ADDITIONAL CHRONOLOGY CHRONOLOGY TYPE STAFF NAME ACTION DATE COMPLETION DATE NOTES, EMAILED APPLICANT JOE DEISENROTH 1ST REVIEW E-MAIL AJ ORTEGA 10/1/2014 10/1/2014 COMMENTS. . E-MAIL AJ ORTEGA. 10/6/2014 10/6/2014 EMAILED JOE DEISENROTH PLAN IS APPROVED AND PERMIT IS READY TO ISSUE WITH CONTRACTOR UPDATE. PLAN CHECK SUBMITTAL AJ ORTEGA 9/17/2014 9/17/2014 CONDITIONS CONTACTS NAMETYPE.—r .: - NAME ADDRESS1 CITY STATE ZIP PHONE FAX EMAIL ' APPLICANT REVCO SOLAR ENGINEERING INC 0 OUTSIDE CITY LIMITS LA QUINTA CA 92253 CONTRACTOR REVCO SOLAR ENGINEERING INC 0 OUTSIDE CITY LIMITS LA QUINTA CA 92253 OWNER PATINO, DAVID A 79950 TANGELO LA QUINTA CA 92253 Printed: Monday, October 0.6, 2014 12:22:50 PM / 1 of 3 �� CV�TFMC 1glo MIT CLTD DESCRIPTION ACCOUNT QTY AMOUNT PAID PAID DATE RECEIPT # CHECK # METHOD PAID BY BY BSAS SB1473 FEE 101-0000-20306 0 $2.00 $0.00 Total Paid forBUILDING STANDARDS ADMINISTRATION $2.00 $0.00 BSA: PV SYSTEM - ARRAY, 101-0000-42403 0 $24.17 $0.00 FIRST 20 PV SYSTEM - ARRAY, 101-0000-42600 0 $24.17 $0.00 FIRST 20 PC PV SYSTEM -MISC 101-0000-42403 0 $24.17 $0.00 EQUIPMENT PV SYSTEM - MISC 101-0000-42600 0 $24.17 $0.00 EQUIPMENT PC Total Paid for ELECTRICAL: $96.68 $0.00 PERMIT ISSUANCE 101-0000-42404_ 0 $91.85 $0.00 Total Paid for PERMIT ISSUANCE: $91.85 $0.00 TOTALS:•i 00 _ _ PARENT PROJECTS Printed: Monday, October 06, 2014 12:22:50 PM 2 of 3- CRmff FMS • a e �";.X�s�}�y'�'k�V'►��.;�-,.. h"`eF 1"' ��.i`."i+'`E: s'V.Z....r:a�`Arin�iMti���.r,_�i�C.?�'�5��G���+Nvs=t .._sees 2',,� �- /I:/�,'1�+.�'L,'f`� n .�!S,j...s' X:_:>�q .ej$,r.��s'i�.,,' wc•SF• _ �'.X•a`'.�� � < •� ,n w M J}: '��.{ � `zt%i MY � O O Y ¢'"�` ® o 00 \-�"�' \r+r . , r J +SP r is}fin ,K :�1jc����-'�R't.MW?•'�il.,i �-,v. �i.i��. *L.�' � ,+��a,'4 q�}. _ '"�.. .,.u' _ r. "�"' - _ •( �,w�+ "' . '� 4 ++ ..•r -� - F' » '� sl -104. "_'4ir.... �`. [ - <a'ib'.r:'. — . r!' —+sem.35. _ 1,110 , - -...�. -. � ..__,.-_.,,•,,, :- "Attachment Type .�-i-_ _ —'ate-...—� CREATED - _- +. —. .�,_ ` - OWNER -° �-• j'-tr' DESCRIPTION *PATHNAME.` - r lSUBDIR"' "`ETRAKIT ENABLED SOLAR iST REVIEW BSOL2014-0015 - 1st DOC 10/1/2014 AJ ORTEGA 0 - COMMENTS Review Comments.pdf - I BSOL2014-0015 - 1st SOLAR 1ST REVIEW DOC 10/1/2014 AJ ORTEGA Review Redlined 0 - REDLINES Plan.pdf 7 Printed: Monday, October 06, 2014 12:22:50 PM 3 of 3 C IIITIM.l Residential Standard Calculation, arzmllow ' Version 2014 STEP 1 Article 220A2 & 220.52 Belmont Energy . sq. it !" 3400 General Lighting toad 10,200 VA 27441 Monforte 2 ,; " Small Appliance 3,000 VA Mission Viejo, Ca. 92892 1 Laundry circuit 1,500 VA 949-793-5544 Gen.Lgt, Sm App.& Laun. Load t4,700 VA i0f=149:25ACS953U4 3,000 VA (d3 100%= 3,000 VA 11,700 VA. @ 36% = 4,095 VAVA @ 25% = VA'STEP 2. Article 220.50 & 220.51 0 General Lighting Dem nd Load95 V AIC Condenser & Fixed Electric Space Heating QTY 5 ton 'r 7,130 VA • AHU 1 :GAS 1 V. ,1,200 VA 1 V Heating Load 2,400, VA s ton - 7,130 VA AHU 2, GAS 1 1,200 VA 1 • CU Load 16,660 VA A/C e3 VA AHU 3: Select - VA Qty ,. A/C+z4 J VA AHU 4 ;Select VA Qty Greater of Heat @ 100% vsJVC a 1000k 16,660 VA A/C os .- VA AHU 5 Select. • VA Qty. ` STEP 3 Article 220.53 Appliance Demand Load • 10,254.VA GAS Water Heater VA : 1,400 VA 1 Refrigerator 1,400 VA Dryer Demand Load VA 800 VA 1 Freezer 800 VA Dishwasher 1,200 VA Range Demand Load. yq 1,121• VA : 1 Disposal 1,127 VA ' s4ovA : �• 1 Range Hood 540 VA Service Demand 34,008 VA 1Aoo VA 1' Microwave 1,400 VA ❑ 1,440 vA vw' Central Vac VA Demand Load ❑@ 240V,1ph 142 A 288 VA -: 1 Mini Refrig 288 VA l E3 400 VA ;� Compactor VA- y Neutral Demand 52A 1312.000 VA 7v• Tankless heater VA 1.500 VA 'V Wine Cooler VA Min.Servlce Req. 160 A select "r►. Jacuzzi Tub VA ❑ select Sprinkler VA ❑ select :r►: Well Pump VA •elect Fountain Pump VA . select Elevator VA Pool Equip. Panel 5,188 VA 100% Demand ❑ Other load VA No Demand ❑ Other load VA No Demand Total Appliance Load 11,943 VA 4 or more demand @75% plus 100% demand loads • • 10,284 VA STEP 4 Article 220.54 Electrlc'Clothes Dryers STEP 5 Article 220.66 ' Electric Ranges Col C demand 0 or. Number of appliances Cooktop Col B demand ' Chec c Sox for Gas ltange Cooktop Col B demand Patino, David - 79950 Tangelo, La Quirda, CA 92253 Oven(s) Col 8 demand 4 ! Oven(s) Col 8 demand Number of appliances 0'Dern. Fedor 0% Cooktop & Oven Demand Load W , Pool Panel Feeder Calculation Continuous Motors Non -continuous Spa heater 11 kVA Pool heater 3.5 ton Pool heater 5 ton Pool Light 300 . Blower • select w. cher load other toad EEI ❑ Mln.1 r Pool Feeder (See Note) 4,888 ..:... 0 •, •„ " 0 .. • .. 0 ❑ 240,- 013240v 0 ❑ 24ov # 10 AWG A B N 2444 2444 0 0 0 0 0 0 0 0 0 0 300 9 300 0 0 0 6 0 0 0 0 0 23 Al20 AlTA Minimum Panel Rating 30A Phase Amperes 'I Neuf load � 5 r .Continuous Non -continuous Motors Motors 3 hp - - ❑ 240v select V ❑ 240v select .:' ❑ 24ov select V' ❑ 240v select "+' ❑ 240v select .'V. ❑ 240v select I - ❑ 240v select : V. ❑ 240v select V ❑ 240v select 4; .❑ 240v - 0.0 7 Motor Neutral Load Max.Unbalanced Neutral Load a 20% EFFICIENCY' RELIABLE AND ROBUST DESIGN+ *r SunPovver E20' anels are the highest w •'•}' efficiency' panels on the market today, ,SOLAR'T providing more power in the same SunpowerT"' E20 Solar Panelsjprovide,todoy's highest efficiency and - ` •,� .-r 3 ` amount of space ; .. .. ,• P,series t: canve'rsion efficiencies of up to 20.1%.,The E20's provides panel MAXIMUM SYSTEM OUTPUT. , r � ;flow voltage temperature coefficient, anti -reflective glass and exceptional Comprehensive inverter compatibility ensures that customers can pair the highest- t ` efficiency ponels'with the highest -efficiency' ' inverters, maximizing system output 4 REDUCED INSTALLATION COST - More power fewer ,y . per ponel'means panels w per install. This saves both time and money, RELIABLE AND ROBUST DESIGN+ *r SunPower's unique MaxeonT^ cell THEWWORLD S'STANDARD FrOR - "technologyand advanced module�;�' ,SOLAR'T ' design ensure industry-leading reliability SunpowerT"' E20 Solar Panelsjprovide,todoy's highest efficiency and - ` •,� .-r 3 ` , , ;.'performance flowered by SunPo\,ver MixeonT -e�l.technolog"the E20 ,• P,series t: canve'rsion efficiencies of up to 20.1%.,The E20's provides panel , r � ;flow voltage temperature coefficient, anti -reflective glass and exceptional t • �- low light performonceattributes4provide outstanding energy delivery per . peakkepower watt.' r . `SUNPOWER"S, HIGH EFFICIENCY ADVANTAGE 15% i: ` t' r YYYYYY� Yo_ �!� 10% YY YYYYYY - 5% FILM CQ�1VE�1TI AL E Av E�� MAXEONTM CELL, ,THIV ., �� ' r r - t SERIES SERIES. SERIES a y TECHNOLOGY.�j sunpowercorp.com, Pcttented oll-backcontoct solar cell, • ' providing the'industry's highest.` � + k : , efficiency and reliability ' ; . C UL US r MODEL: SPR-327NE-WHT-D ELECTRICAL DATA Measured at Standard Test Conditions (STCI- iaadiance of I000W/m', AM 1.5, and call temperature 25' C Peak Power (+5/-3%) Pmox 327 W Cell Efficiency r1 22.5 Panel Efficiency 1`1 20.1 Rated Voltage Vmpp 54.7 V Rated Current - Impp 5.98 A Open Circuit Voltage Voc 64.9 V Short Circuit Current Isc 6.46 A Maximum System Voltage UL 600 V Temperature Coefficients Power (P) - 0.38%/K { Voltage (Voc)-176.6mV/K r Current (Isc) 3.5mA/K NOCT 45' C +/- 2' C� Series Fuse Rating i i `— 20 A Grounding Positive grounding not required MECHANICAL DATA Solar Cells 96 SunPower Maxeon'^' cells 1 Front Glass High -transmission tempered glass with anti -reflective (AR) coating Junction Box IP -65 rated with 3 bypass diodes Dimensions: 32 x 155 x 128 mm Output Cables 1000 mm cables / Multi -Contact (MC4) connectors Frame Anodized aluminum alloy type 6063 (black) Weight 41.0 lbs (18.6 kg) t MM (A) - MOUNTING HOLES (IN) 12X 06.6 [.261 (B) - GRDOUONDI NG71 HOLES 9,5 I TESTED OPERATING CONDITIONS Temperature - 40' F to +185' F (- 40' C to + 85' C) Max load 113 psf 550 kg/m2 (5400 Pa), front (e.g. snow) 1 W/specified mounting configurations t + 50 psf 245 kg/m2 (2400 Pa) front and back (e.g. wind) ^— --f Impact Resistance Hail: (25 mm) at 51 mph (23 m/s) WARRANTIES AND CERTIFICATIONS Warranties 25 -year limited power warranty 10 -year limited product warranty Certifications Tested to UL 1703. Class C Fire Rating DIMENSIONS 2X 11.0[.431 — 1r D[1181 _ _ t ---2x571;22.701 �I 180(7,071 - -- —� 322(12.6911— I 4X230.8(9.091 —� —r I 1 I BRIH2 ENDSJI '_JO I! - I' 2[47, --j� --. 1535(60.451 O e �S 1 I Please read safety and installation instructions before using this product, visit sunpowercorp.com for more details. 02011 SunPower Corporation. SUNPOWER, the SunPower Logo, and THE WORLD'S STANDARD FOR SOLAR, and MAXEON are trademarks or registered trademarks s u n p owe rco r p . c o m of SunPower Corporation in the US and other countries as well. All Rights Reserved. Specifications included in this dotasheet are subject to change without notice. Document 900165484 Rev'8 / LTR EN CS 11316 IN CURVE 7 )06 4 n 0 6 1000 W/ta 5 _ Q `c 4 300 ,Y 'm - ` 3 ` kJ 00 4 n 2 1 1 200 W/m� 0 0 10 20 30 40 50 60 70 Voltage (V) Current/voltage characteristics with dependence on irradiance and module temperature. TESTED OPERATING CONDITIONS Temperature - 40' F to +185' F (- 40' C to + 85' C) Max load 113 psf 550 kg/m2 (5400 Pa), front (e.g. snow) 1 W/specified mounting configurations t + 50 psf 245 kg/m2 (2400 Pa) front and back (e.g. wind) ^— --f Impact Resistance Hail: (25 mm) at 51 mph (23 m/s) WARRANTIES AND CERTIFICATIONS Warranties 25 -year limited power warranty 10 -year limited product warranty Certifications Tested to UL 1703. Class C Fire Rating DIMENSIONS 2X 11.0[.431 — 1r D[1181 _ _ t ---2x571;22.701 �I 180(7,071 - -- —� 322(12.6911— I 4X230.8(9.091 —� —r I 1 I BRIH2 ENDSJI '_JO I! - I' 2[47, --j� --. 1535(60.451 O e �S 1 I Please read safety and installation instructions before using this product, visit sunpowercorp.com for more details. 02011 SunPower Corporation. SUNPOWER, the SunPower Logo, and THE WORLD'S STANDARD FOR SOLAR, and MAXEON are trademarks or registered trademarks s u n p owe rco r p . c o m of SunPower Corporation in the US and other countries as well. All Rights Reserved. Specifications included in this dotasheet are subject to change without notice. Document 900165484 Rev'8 / LTR EN CS 11316 / Pelfcl Ih'rldin� ; �ohr Luer_'% ,' f't•rfr['I (auu-in` SHIFTING THE LIMITS FRDNIUS IG PLUS ADVANCED WITH INTEGRATED AFCI to him; Inl. I'.g1:4 n Irl�rrll. I I.... •ice-• _ _ .� J ':�I•'I�' �•' I .. i III �•II i � �� I I• J t he I imikis R, Phr,, Advane.e°r.i was the firsl um1picte iriverlcr lineup (d NIL(- 201 1 coulpli,iml, AI-Cl prutected, inverters in the United States and continues to he the leader in elualily inverter lechnology. Power classt•s ranging Irons 3 to 1) kW in Will sing(, and true 3 phase application; with iim—ratcd Froniu IA IX111, Fedhnology and wide voltage windows arc the perfect snatch for you system design. TECHNICAL DATA: FRONIUS IG PLUS ::•cmn:::rm,11::I !';'Pr;;y.r:•+, ir'vi'n;� 4-5ri 3,45 7-1.11 },40 44-T. y;r:, S;Iu n'hi 6,S'r wrm Il.na mv) vl_50 11.50 1711 17.II1 1.711 T:i_iP ll],M LISni' :.Ix •1• r' an:t •;:nrn-ru t'1 t1 A [?8 A .iW A. J.3 [ h X. 3 � ��il ' P, 'i;l a'I J 5;1 •i is � h ty .. .. - I �_^i;•;ults.ln lli.tiinllnpnl l,;, vrlt,ln ';;nw:n.itnl i'nwt AeknI-Almle [auSelltrlur SDv IAQ h::;:, tltEal mill v a urui y I.II !Inn r.rrn� Ili .;rrt;i::n .unlo w '1.811L)w 1AIG W ,::rPil w - '7, hr. 'N `I Il,-?-i:!717 Zi78f�d0f'�77 ?tlaflaA 2UM40pni ION240 . ZD t77 W5 NsI 14 +A'ltlU fill i I r. �;4 v I i3:i I ',t V IJ / r10 '1W 'a 1 _s4lrr, { Ili 817, 2U.. fA HsuA 9:.:iA 41.7 A .{+ 11 M5 A Xbl A' sip TECHNICAL DATA, FRONiUS IG PLUS ADVANCED 117; i 5 th 0 9.11 95 05 0 Ti 95 M V -) 5 5 'X, 95 5 ly. )(I Y11 6 0 'X, 96 9 6 Ij 60 Y. Perfect Welding / Solar Energy / Perfect Charging WE HAVE THREE DIVISIONS AND ONE PASSION' SHIFTING THE LIMITS OF SS121LITY. / Whether welding technology, photovoltaics or battery charging technology — our goal is clearly defined: to be the innovation leader. With around 3,000 employees worldwide, we shift the limits of what's possible oui mole than 850 active patents me testimony to this, While others progress step by step, we innovate in leaps and bounds. JILISt as we've always done_ The responsible use of otir resources forms the basis of out corporate policy. HII Owl fillorillmioll alloill III f .... till" I, ioducl, alit mr gloha I sales 1);ii nicis anel repwsc-tita I kv, ;m I it, linuul al I www.froniusxolll Fronius USA LLC 6797 Fronius Drive Portage, IN 46368 USA pv-support-usa@fronius.corn www.froniiis-tisa.com `� '� r _ t Safety and Installation Instructions (United States and Canada) 1.0 Introduction This manual provides safety and installation instructions for UL - listed SunPower photovoltaic (PV) modules (including the new SunPower EIX series and NE modules) carrying the UL logo on the product label (Figure 1). C @us Fi ure 1 Important-! Please read this instruction manual in its entirety before installing, wiring or using this product in any way. Failure to comply with these instructions will invalidate the SunPower Limited Warranty for PV Modules. 1.1 Disclaimer of Liability The installation techniques, handling and use of this product are beyond company control. Therefore, SunPower does not assume responsibility for loss, damage or expense resulting from improper installation, handling or use. 1.2 Underwriters Laboratories (UL) Listing Information This product meets or exceeds the requirements set forth by UL1703 and ULC/ORD-C1703-01 for PV Modules. These Standards cover flat -plate PV modules and panels intended for installation on buildings or those intended to be freestanding. To satisfy the listing for this product the modules must be mounted with a rack or standoff structure. The UL listing does not include integration into a building surface because additional requirements may apply. This product is not intended for use where artificially concentrated sunlight is applied to the module. 1.3 Limited Warranty Module limited warranties are described in full in the SunPower warranty certificates obtainable at www.sunpowercorp.com. In summary, the Limited Warranties do not apply to any of the following; PV modules which in SunPower's absolute judgment have been subjected to: misuse, abuse, neglect or accident; alteration, improper installation, application or removal. Including, but not limited to installation, application or removal by any party other than a SunPower authorized dealer; non -observance of SunPower's installation, users and/or maintenance instructions; repair or modifications by someone other than an approved service technician of SunPower; power failure surges, lightning, flood, fire, accidental breakage or other events outside SunPower's control. 2.0 Safety Precautions Before installing this device, read all safety instructions in this document. Danger! Module interconnection cables pass direct current (DC) and are sources of voltage when the module is under load and when it is exposed to light. Direct current can arc across gaps and may cause injury or death if improper connection or disconnection is made, or if contact is made with module leads that are frayed or torn. Do not connect or disconnect modules when current from the modules or an external source is present. Cover all modules in the PV array with an opaque cloth or material before making or breaking electrical connections. If local codes require, insure that PV connectors have a locking feature in order to defend against untrained personnel disconnecting the 3.1 Fire Rating modules once they have been installed. The module is Class C fire rated. All installations must be performed in compliance with the National Electrical Code (NEC) and any applicable local codes. Warch 2013 SunPower Corporation. All rights reserved. Specifications included in this manual are subject to change without notice. SUNPOWER CORPOF ATION Safety and Installation Instructions - Document 00 1- 14158 Rev N • There are no user serviceable parts within the module. Do not attempt to repair any part of the module. • Installation should be performed only by authorized personnel. • Remove all metallic jewelry prior to installing this product to reduce the chance of accidental exposure to live circuits. • Use insulated tools to reduce your risk of electric shock. • Do not stand on, drop, scratch, or allow objects to fall on modules. • If the front glass is broken, or the back sheet is tom, contact with any module surface or module frame can cause electric shock. • Broken j -boxes and/or broken connectors are electrical hazards as well as laceration hazards. The dealer or installers should remove the module from the array and contact the supplier for disposal instructions. • Do not install or handle the modules when they are wet or during periods of high wind. • Contact your module supplier if maintenance is necessary. • Suggested cable minimum bend -radius. We advise a conservative bend of equal to or greater than a 40mm (1.5") radius or 80mm (3") diameter for the smallest module cable bend -radius. • Save these instructions! 3.0 Electrical Characteristics The module electrical ratings are within 10% of UL's measured values under Standard Test Conditions (STC) of 1 kW/m2 irradiance with Air Mass of 1.5 solar -spectral -irradiance -distribution and a cell temperature of 25° C. The electrical characteristics of SunPower modules are listed in Figure 2 of the appendix. If an installation involves a SunPower module which does not appear on this list please consult the product label on the back of the module or visit www.Sunpowercorl).com for the product datasheet. Bypass diodes for each module are rated and factory installed in the modules. The component diodes are not considered user replaceable in the field once installed. The diode configuration for 96 cell modules is 2 diodes for 2 strings of 24 cells in series, plus one diode for a single string of 48 cells in series. For 128 cell modules, the configuration is 2 diodes installed for 2 strings of 32 cell in series, plus one diode for a single string of 64 cells in series. The diodes are one of the following ratings; 1. Schottky type, 15A, 45 PIV (Peak Inverse Voltage) for 96 cell modules. 2. Schottky type, 20A, 45 PIV (Peak Inverse Voltage) for 128 cell modules. 3. Schottky type,20A, 100 PIV (Peak Inverse Voltage) for 96 and 128 cell modules. A photovoltaic module may produce more current and/or voltage than reported at STC. Sunny, cool weather and reflection from snow or water can increase current and power output. Therefore, the values of Is, marked on the module should be multiplied by a factor of 1.25 when determining component ampacity ratings to comply with NEC, Article 690.8(A). An additional 1.25 multiplier may be required by the NEC for sizing fuses and conductors as described in NEC Section 690-8(B). The series fuse must have an interrupting rating that is equal to or greater than the maximum fault current the fuse is required to interrupt, including contributions from all connected sources or energy. The maximum module string open circuit voltage (Von) shall be calculated as the sum of the rated open -circuit voltage of the series -connected photovoltaic modules corrected for the lowest expected ambient temperature (NEC 2008, Article 690.7). One source for statistically valid, lowest -expected, ambient temperature design data for various locations is the Extreme Annual Mean Minimum Design Dry Bulb Temperature found in the ASHRAE Handbook — Fundamentals. These temperature data can be used to calculate maximum voltage using the manufacturer's temperature coefficients relative to the rating temperature of 25°C (NEC 2011, Article note to 690.7). SunPower recommends the use of open -circuit voltage temperature coefficients listed in Figure 2 of the appendix, when determining Maximum System Voltage. For modules rated higher than 600V DC System Voltage, refer to NEC Article 100, Part II for appropriate series fuse ratings. Z13,UNPOW ER' 4.0 Electrical Connections Modules may be connected in series and/or parallel to achieve the desired electrical output as long as certain conditions are met. Please use only the same type of modules in a combined source circuit. SunPower modules ship with locking connectors or safety clip, which once connected requires the use of a tool to disconnect module -to -module connections. This defends against untrained personnel disconnecting the modules when under load (which may cause injury or death as stated in Section 2.0) and complies with the NEC 2008 code for safety with PV connectors. 4.1 Equipment Grounding To reduce the possibility of electrical shock, ground the frame of the module or array before wiring the circuit using a grounding method that meets NEC requirements for grounding solar electrical systems. In order to install in accordance with the UL listing of this product, SunPower modules shall be grounded using grounding hardware that has been certified to meet requirements for grounding systems in UL467, UL1703, or UL1741 on anodized aluminum frames. SunPower recommends using 1 of the following five methods of grounding the module frame. In addition, avoid corrosion due to the use of dissimilar metals (we suggest stainless steel between copper and aluminum). 1) Attach a ground conductor to a grounding lay -in lug mounted at one of the four designated 0.17" grounding holes on the module frame. Alternatively, any unused mounting hole can be used to mount the lug. Use a grounding lug such as llsco GBL-4DBT, Bumdy CL50-DB- T or Tyco Solklip 1954381-2, and stainless steel hardware (bolt, washers, and nut). A star washer should be used between the grounding lug and the module frame in order to break through the anortizing and establish electrical contact with the aluminum. The assembly must end with a nut and be torqued between 20 inch -pound to 25 inch -pound for a #10-32 bolt. A lock washer or other locking mechanism is needed to maintain tension between the bolt and the assembly. The copper conductor must be attached to the ground lug using the stainless steel set screw provided by the manufacturer. Please refer to NEC Article 690 on grounding PV arrays for specific requirements. 2) SunPower systems may also be grounded through the use of SunPower supplied "IFF clips" which are UL Listed (1703 and 1741). A minimum torque of 10 in -lbs is required for grounding, however higher torque values will be required to ensure structural integrity. General torque values are 35 to 45 in -lbs for a 1/4-20 or M6 bolt, but may be higher in specific applications. When using these clips, the array frame (racking) must be grounded in accordance with NEC Article 250. To ensure system safety and structural integrity, strict adherence to application-specific SunPower documentation is required. 3) The SunPower PV Grounding Clip may also be used only it! applications where the modules are attached to a SunPower torque tube, #111380. This device consists of Rail Clip #1505-994, Retainer Bar #1504-979, Carriage Bolt (2) #1506-224, Nut (2) #1503-098, Lock Washer (2) #1503-099. Hardware must be torque to 120 in -lbs. The PV Grounding Clip has been evaluated for bonding to the Torque Tube for use with an over -current protective device rated 20 Amps maximum and a circuit capacity of 600 V, 5000 Amps. *Note: Methods 4-5 were evaluated to UL 1703 by ETL. As such, the use of these devices is not considered part of the UL Listing of these modules. 4) Sunpower modules may also be grounded through the use of an ETL Listed PV Attach Grounding washer #1508-666, which may be used only in applications where the modules are attached to a Sunpower Saddle #1508-738 or #1508-741 using a 1/4 inch rivet. SUNPOWER CORPORATION Safety and Installation Instructions - Document 001-14158 Rev N must be grounded in accordance with NEC Article 250. To ensure system safety and structural integrity, strict adherence to application- specific SunPower documentation is required. 4.2 System Grounding Review the following tables for the proper grounding techniques to use for the installation of your SunPower PV system. Module Name rounding key Flew SPR E & X series and HE modules are compatible Legacy SPR module with Transformer -less (TL) systems must be installed inverters, when used as an with positive ground (see ungrounded PV source. They have no system instruction below) grounding restrictions SPR-EYY-ZZZ SPR-EYY-ZZZ-BLK SPR-ZZZE-WHT-D SPR-EYY-ZZZ-COM SPR-ZZZ-WHT-D SPR-ZZZNE-WHT-D SPR-XYY-ZZZ SPR-XYY-ZZZ-BLK SPR-ZZZE-BLK-D SPR-XYY-ZZZ-COM SPR-ZZZ-BLK-D SPR-ZZZNE-BLK-D • Standard modules grounding reference Important! For optimal performance, SunPower PV modules must only be used in configurations as described above. Failure to comply with this requirement will reduce the performance of the system and invalidate SunPower's Limited Power Warranty for PV Modules. For more information on grounding the system correctly, visit our website at www.sunpowercorp.com/Inverters or contact SunPower technical support at 1 -877 -SUN -0123. 4.3 Series Connection The modules may be wired in series to produce the desired voltage output. Do not exceed the maximum system voltage shown in Figure 2. 4.4 Parallel Connection The modules may be combined in parallel to produce the desired current output. Each series string or module may be required to be fused prior to combining with other strings. Figure 2 describes the maximum fuse size allowed (number of modules which can be connected in parallel and protected by one fuse). Please refer to the NEC Article 690 for additional fusing requirements. 5.0 Module Mounting The SunPower Limited Warranty for PV Modules is contingent upon modules being mounted in accordance with the requirements described in this section. 5) If the Unirac Solarmount system is used for mounting the modules, grounding is achieved using either the Wiley Electronics WEEB UMC 5.1 Site Considerations or UGC -1 grounding clips in combination with UniRac's Mid or End SunPower modules should be mounted in locations that meet the following clamps and 1/4-20 bolt and flanged nut, torqued to 120 in -lbs. If the requirements: Solarmount-I system is used grounding is achieved with the UniRac UGC -2 grounding clips in combination with UniRac's Mid or End clamps and Sliders with a 1/4-20 bolt and flanged nut torqued to 120 in -lbs. When using methods 2, 3, 4 or 5 the array frame (racking) Warch 2013 SunPower corporation. All rights reserved. Specifications included in this manual are subject to change without notice. Operating Temperature: All SunPower modules must be mounted in environments that ensure SunPower modules will operate within the following maximum and minimum operating temperatures: Maximum Operating Temperature +85 ' Celsius, +185' Fahrenheit Minimum Operating Temperature '-40' Celsius, -40' Fahrenheit Care should be taken to provide adequate ventilation behind the modules, especially in hot environments. Design Strength: SunPower modules are designed to meet a maximum positive (or upward, e.g. wind) and negative (or downward, e.g. static load) design pressure of 2400 Pa (Pascals; 245 kg/M2) when mounted in all of the mounting configurations specified in Section 5.2. Design strength of 2400 Pa corresponds approximately to a wind speed of 130 km/h (approximately t800Pa, per IEC reference) with a safety factor of 3 for gusty winds. NOTE: any racking application must have a separate rating per the racking or mounting system utilized by the module/array installer. This mounting system must meet or exceed the certification levels of the installation jurisdiction. SunPower modules are also designed to meet a maximum negative (or downward, e.g. snow load) of 5400 Pa (Pascals; 550 kg /M2) only when mounted in adherence to Section 5.2 below. 5400 Pa design strength has been verified by SunPower and TUV. 1) 72 cell modules with dimensions of (1559mm x 798mm) meet 5400 Pa in the following mounting configurations described in Section 5.2 below a. Frame Holes b. Pressure Clamps or Clips c. End Mount 2) 96 cell modules with dimensions of (1559mm x 1046mm) meet 5400 Pa in the following mounting configurations described in Section 5.2 below a. Frame Holes b. Pressure Clamps or Clips 3) 128 cell modules with dimensions of (2067mm x 1046mm) meet 5400 Pa in the following mounting configurations described in Section 5.2 below Frame Holes Pressure Clamps or Clips When mounting modules in snow prone or high wind environments, special care should be taken to mount the modules in a manner that provides sufficient design strength while meeting local code requirements (mounting system must meet or exceed the certification levels of the installation jurisdiction). Excluded Operating Environments & Reconfigurations Certain operating environments are not recommended for SunPower modules, and are excluded from the SunPower Limited Warranty of these modules. Request the regional dealer to contact SunPower if there are any unanswered questions concerning the operating environment. When the PV modules are not generating power they must remain in the system grounding mode with which they were installed, or in a floating mode. When the modules are not generating power, the process of disconnecting the installation from its commissioned ground or float then connecting an outside voltage source to the modules, will void the module product warranty. 5.2 Mounting Configurations For a non -integral module, the assembly is to be mounted over a fire resistant roof -covering rated for the application. Modules may be mounted at any angle, from horizontal to vertical. Class C fire rating is maintained at all installation slopes. Select the appropriate orientation to maximize sunlight exposure. Specific information on module dimensions and the location of mounting and grounding holes is shown in (Figures 3, 4, and 5). In order to prevent water from entering the junction box, which could present a safety hazard, modules should be oriented with the junction box in the uppermost position and not be mounted such that the front/top glass SUNPOWER CORPORATION , Safety and Installation Instructions - Document 00 1- 14158 Rev N faces downward (e.g., on a tracking structure that positions the modules with the junction box facing skyward during sleep mode). Clearance between the module frames and structure or ground is required to prevent wiring damage and allows air to circulate behind the module. For 128 cell modules a minimum of 4 inches of clearance is required, for all other modules a minimum of 1.5 inches is required between the module frame and structure or ground. The module is only UL Listed for use when its factory frame is fully intact. Do not remove or alter the module frame. Creating additional mounting holes may damage the module and reduce the strength of the frame. Modules may be mounted using the following methods only: 1) Frame Holes: Secure the module to the structure using the factory mounting hole pairs. Four 1/4" stainless steel bolts, with nuts, washers, and lock washers are recommended per module tightened to a min. torque of 10 in -lbs. Refer to Figures 3, 4 and 5 for the module dimensions and hole locations. This method has been certified by a third -party organization according to UL 1703. 2) Pressure Clamps or Clips: Mount the module with the IFF clips on the side frame of the module. The side frames are attached to the longer sides of the module. The centerline of the clips should be between 6"to15"from the end of each of the side frames. Installers should ensure the clamps are of sufficient strength to allow for the maximum design pressure of the module. The IFF clip hardware should be tightened to a min. of 10 in -lbs. 3) End Mount: End mounting is the capture mounting of the module's end frame to a supporting rail (The end frames are on the shorter dimensions of the module), using IFF clips tightened to a min. torque of 10 in -lbs. The end -mounting rail and clips or clamps must be of sufficient strength to allow for the maximum design pressure of the module. Verify this capacity with the mounting system vendor before installation. 4) Center Mount PV Grounding clip: A PV Grounding Clip (as Described above in Section 4.1, item 3) may be used to clamp the bottom flange of the frame at the center of the long sides. Minimum clamping length shall be 6" on top of flange and 4" on bottom. The clamps must be of sufficient strength to allow for the maximum design pressure of the module. Verify this capacity with the mounting system vendor before installation. 5) SunPower specified or SunPower supplied mounting systems: Modules mounted with strict adherence to SunPower documentation, using hardware systems supplied by or specified by SunPower. Mounting hardware should not secure the module by applying direct pressure to the front glass, including frame locations where glass is exposed in "drainage notch" openings. 5.3 Handling of Modules during Installation Do not place modules face -forward in direct contact with abrasive surfaces like roofs, driveways, wooden pallets, railings, stucco walls, etc.... The module front surface glass is sensitive to oils and abrasive surfaces, which may lead to scratches and irregular soiling. Modules that feature antireflective coated glass are prone to visible finger print marks if touched on the front glass surface. SunPower recommends handling modules with anti -reflective glass with gloves or limiting touching of the front surface. Any finger print marks resulting from installation will naturally disappear over time or can be reduced by following the washing guidelines in Section 6.0 below. Product datasheets specify the glass type used by a particular module. 6.0 Maintenance Visually inspect all modules annually for safe electrical connections, sound mechanical connection, and freedom from corrosion. This visual inspection should be performed from ground level, unless performed by trained SunPower dealers or trained SunPower support personnel. Periodic cleaning of modules is recommended, but is not required. Periodic cleaning has resulted in improved performance levels, especially in regions with low levels of annual precipitation (less the 18.25 inches ®March 2013 SunPower Corporation. All rights reserved. Specifications included in this manual are subject to change without notice. 'See Product Ratinq Label for Maximum System Voltage. F ©March 2013 SunPower Corporation. All rights reserved. Specifications included in this manual are subject to change without notice. - .• r, 4 SUN POWER SUNPOWER CORPORATION Safety and Installation Instructions -Document 001-14158 Rev N i (46.3cm)). Consult your dealer or supplier about recommended cleaning _ panels with cleaning solution, allow soaking and follow with high pressure schedules for your area. rinse or soft squeegee (sponge or soft rubber). Fingerprints typically can ' be removed with a soft cloth or sponge and water after wetting. Do not use To clean a module, wash with potable, non -heated, water. Normal water' "• harsh industrial strength cleaning materials such as scouring powder, steel pressure is more than adequate, but pressurized water up to 1500psi may _,wool, scrapers, blades, or other sharp instruments to clean the glass be used. Fingerprints, stains, or accumulations of dirt on the front surface surface of the module. Use of such materials or cleaning without may be removed with standard over-the-counter glass cleaners (e.g. consultation will invalidatethe product warranty. Windex) containing ammonia and or vinegar or with a 3%soap and water .1 _ . solution. If only a few panels: first rinse off area and let soak for a short . , Figures 3, 4, and 5 are on the next page. period of time (5 -minutes). Re -wet and use a soft sponge or seamless cloth to wipe glass surface in a circular motion. If a large system; wet Figure 2: Electrical Characteristics* • . c ,"' . - = At Standard Test Conditions STC - g} :'c s' y - a •~. ` `Power' _->-• . , �.. _ ,. ' Power 'Rated Voltage Cunen)at Open' Shorti Maprtum MapmanMebman at Rated Circuit Circuit System System 4 �,. MOd019' ^ Tolerance� • Module Tolerance Power .Rated. i Series Voltage UL voltage EC Power, ':Power. .Voltage 'CuneN,'. �',1,. �. ,. M•. ,�.` i�' ,..(%)-. - , (W) Fuse (A) NnvPJ hPP ) Na ' ` -'� (A) ("24 (v_4 'See Product Ratinq Label for Maximum System Voltage. F ©March 2013 SunPower Corporation. All rights reserved. Specifications included in this manual are subject to change without notice. - .• r, SPR -X21 -345 -COM +5 1-3 1000 345 57.3 6.02 68.20 6.39 20 1000 SPR -X21-345 +51-0 600 SPR -X21-335 +5/-0 335 57.3 5.85 67.88 6.23 20 600 1000 SPR-X21-335-BLK a SPR -X20 -327 -COM +5/-3 1000 327 57.3 5.71 67.60 6.07 20 1000 SPR-X20-327-BLK +5/-0 600 SPR -X21-255' +5/-0 255 42.8 5.95 51.00 6.30 20 600 1000 SPR-X20-250-BLK +5/-0 250 42.8 5.84 50.93 6.20 20 600 1000 SPR -X21-245 +5/-0 245 42.8 5.72 50.78 6.08 20 600 1000 SPR-X19-240-BLK +5/-0 . 240 42.8 5.61 •50.58 5.98 20 600 1000 SPR-435NE-WHT +/-5 SPR -E20435 -COM +/_5 435 72.9 5.97 85.6 6.43 20 1000 1000 SPR425E-WHT +/-5 425 72.9 5.83 85.6 6.18 20 600 1000 SPR415E-WHT +/-5 `- 415 72.9' 5.69 85.3 6.09 20 600 1000 SPR-41ONE-WHT +/-5 SPR -E19410 -COM +/-5 410 72.9 5.62 85.3 6.01 20 -1000 1 1000 SPR-400E-WHT +/_ 5' 400 72.9 5.49 85.3 5.87 20 , 600 1000 SPR-390E-WHT +/-5 390 72.9 5.35 85.3 5.72 20 600 1000 SPR-343(J/X)-BLK +5/-3 343 57.3 5.99 68.1 6.37 20 600 1000 SPR-327NE-WHT SPR -E20-327 +5/0 600 +5/-3 327 54.7 5.98 64.8 6.46 20 1000 SPR -E20 -327 -COM +5 / 3 1000 SPR-325NE-WHT +5/-3 325 54.7. 5.95 64.8 6.46- 20 600 1000 SPR-320E-WHT +5/-3 SPR -E19-320 +5/-0 320 54.7 5.86 64.7 6.24 20 600 1000 SPR-318E-WHT +5/-3 318 54.7 5.82: 64.7 6.2 20 600 1000 SPR-315NE-WHT, SPR-315E-WHT, .+5/-3 SPR -E19-315 +5/-0 315 54.7 5.76 64.6 6.14. 20 600 1000 SPR-310NE-WHT,SPR-310E-WHT 600 +5/-3 +5/-3 310 54.7 5.67 64.4, 6.05 20 1000 SPR -E19 -310 -COM 1000 SPR-308E-WHT +5/-3 r 308 54.7 ' 5.64 ` 64.3 6.02 20 600 1000 SPR-305NE-WHT, SPR-305E-WHT +5/-3 ^ 305 54.7 , 5.58 • 64.2 5.96• 20 600 1000 SPR-300NE-BLK, SPR-300E-WHT SPR-300E-BLK +5/-3 300 54.7 5.49 64 5.87 20 600 1000 SPR-295E-WHT . 4 +5/73 ` +5/-3 - 295 54.2 5.45 63.3 5.83 20 600 - 1000 SPR -E18 -295 -COM 1000 SPR-290NE-BLK, SPR-290E-BLK +5/-3 290 53.3 , 5.45 62.1 5.83 20 600 1000 S PR -290 E-WHT _ SPR-245NE-WHT +5/-3 SPR -E20-245 +-5/-0 245 40.5 6.05 48.8 6.43 • • 20 .600 1000 SPR-240NE-WHT, SPR-240E-WHT +5/-3 - 240 ,40.5 5.93 48.6 6.3 20" 600 1000 SPR-238E-WHT +5/-3 238 40.5 5.88 48.5 '6.25 20 600 1000 SPR-235NE-WHT, SPR-235E-WHT +5/-3 SPR -E19435 +5/-0 235 40.5 5.80 48.4 6.175 20 600 1000 SPR-235E-BLK SPR-230NE-BLK, SPR-230E-BLK +5/-3 230 40.5 5.68 48.2 6.05 20 600 1000 SPR-230E-WHT SPR-225NE-WHT, SPR-225E-WHT + 5/-3 225 40.5 5.55 48 5.925 20 600 1000 SPR-225NE-BLK, SPR-225E-BLK SPR-217E-WHT +5/-3 217' 39.3. ` 5.51 47 5.9 15 600 1000 SPR-215E-WHT +5/-3 215 39.3 5.47 47- 5.86 15 600 1000 SPR-214E-BLK +5/-3 214 39.3 5.45 47 5.83 15 NA. 1000 SPR-21ON-WHT +5/-3 210 40 5.25 .47.7 5.75 15 NA 1000 SPR-20ON-WHT +5/-3 200: 40 ' 5.00 1 47.8 5.4 '15 NA 1000 'See Product Ratinq Label for Maximum System Voltage. F ©March 2013 SunPower Corporation. All rights reserved. Specifications included in this manual are subject to change without notice. - .• r, Figure 3: 72 -cell. Ivllvl (IN] A SUNPOWER CORPORATION Safety and Installation Instructions - Document 00 1- 14158 Rev N (e) �= ;il A. p BOTH +` - ENDS -1 (A) _ --G[47.24] -+jl (A) - MOUNTING HOLES (8) -GROUNDING HOLES 12X 06.6 [.26] 1 O 04.2 (.17] (C) - DRAIN HOLES 4X 04.8 (.191 Figure 4: 96 -cell (Note: Stacking pins are not included on all modules — check the datasheet for details). N]I'['s] ti9(7.C6] Y T I T I III t I Low 4 I r (A) - MOUNTING HOLES (B) - GROUNDING HOLES 12X 06.6 [.26] 1 OX 04.2 [.17] (C) - STACKING PINS (D) - DRAIN HOLES 4X 06.1 X 3.2 (0.24 X .131 4X 04.8 [.19] Figure 5: 128 -cell MM (IN) (A) - MOUNTING HOLES (B) - GROUNDING HOLES 16X 06.6 [.26] 6X 04.2 [.171 446 C - STACKING PINS (D) - DRAIN HOLES .1X3.2[0.24X.131 4X04.8[.191 BOTH - ENDS— ' 3 U � - 9 (A)— t 0[1,91]1+— 12[.45] � 1525[cC.45] 300[11.81] 764[30.07] 30.0[1.18] 883[34.78] 433[17.06] 322[12.67] 4`;230.4[9.07] B IH ENDS--, � 1 t v RI 1 . 1 3 W N 54[2.13] (A) � f 4:;52[^.C4] 539121 ^^_] )D) 47;3[ 131 1_CO[47.241 (C) ©March 2013 SunPower Corporation. All rights reserved. Specifications included in this manual are subject to change without notice. Fa tio c,k Patent #6,360,491 Flashable Roof Stanchion The patented design of the Fastlack® can be easily -expressed as the most innovative, efficient and cost-effective tool of it's kind! ` Between the precision CNC machined base and stanchion along with strict engineering and material standards, the Fastlacko has been laboratory tested to provide 2,359 pounds of strength using only a single lag bolt (included)! i Four Sizes Available! 3 High r.: Port# FJ -300-1'8 For low profile itistallations using Oatey® flashings (for composition shingle roof -tops) 4-1/2" High. Part# FJ -450-18. For installationsusing standard flashings (for composition &flat rooftops). `6" High Part#'FJ-60048 .,For standard flashings (for flat the rooftops) ' 7-.1/2"- High v Q Part# FJ -750-18' For standard flashings (sized for S-curve tileroofs'and/or4double flashed installations), \ :T Laboratory Tested --"'` 2,3591bs Vertu,! Pullout.! ,800 1bS' , 7�: Side'Axial Pullout!y FastJack® FJ -300-18 For Oatey® style flashings FastJack® FJ -450-18 For standard height flashings ` The Fast Jack© design is covered under Pat. #6,360,491 Using lea. 5/16" x 3.1/2" Lag Bolt# fr 'a Commercial' FastJack® alsoavailable (rated at_4250 lbs:) , -Benefits'of the, `FastJack® Easy installation , of, flashin318" x 314" Flat gs on k at s Removable post makes mstallattan on existing Washer SS Hex Bolt roofs/retrofit quicktndeasy(refertotheillustration existing roof -tops {` to the right) t� , '�_ ' See reverse for installation theory r f j` • ,� 6 Patented design locates the lag `bolt directly` / The post can be under the stanchion providing superior strength:,=, Standard & Oatey® Flashings 4 installed"through values , w slip over the base and under the the top of the costs delicate* 8 eery to install saves hme and laboi ' delicate' shingle` 4,� `� flashing • Precision machined from extruded AummUnt,r.w i there are no welds to corrode or break t i •• Significantly lighter than steel for installer convenience and reduced shipping costs. i - • ` 51162 x 3=112`^+ �+ •Integrated drill guide insures perfect pilot holes �.SS Lag Bolt �'�-^ . i' every time = minimizes .the possibility of splitting ` : —Threaded Fast roof rafters *. Jack Base , j' Base design allows virtually any roof flashing to, install flat on the roof deck r �i Email us for more information ,Prosolar@prosolar.com Y Bulkpackaging means easier stocking abilities, less packaging waste and quicker, more convenient stJackinstallation. Everything in the photo below is shipped in a recloseable box for storage of extra parts. Vd:�i �6,760,t91 I Mf The Fast Jack® is available in four convenient sizes. I HIM Iiiiijill All sizes are packaged in quantities of 18 per box: HIM a j f 18 1" Round Posts (3", 4-1/2", 6" or 7-1/2" tall) ' 18 Threaded bases M 18 3/8" x 3/4" SS Hex Bolts CD - CO - CD - OD . CO - CD -` — 11 18 3/8 SS Flat washers j I! CD CD ®-cls 1 ts 4�_a_�-`y �_.�u-i 18 5/16" x 3" SS lag bolts 18 5/16" SS Flat Washers Easy Installation: Step 1: Drill Pilot hole in Rafter using integrated dill guide 0 Professional Solar Products, Inc. March 2006. Step 5: Thread post through top or bottom of flashing into FaSU CK R base 3: Cut through shingles for ng (flashing template illus- 7below) Step 6: Usinga wrench, secure post into base � J Flashing Template Available for Oatey C (Pictured) and standard ' flashings. Makes cutting in a perfect flashing easy and a painless! Kit includes Fast Jack post threader O �,�� Q with knob professional SOLAR FastJack@ products j Installation Manual Date Modified: 09/10/2007 ' APPLICATION: The Fastlack attachment can be used on virtually any roof re ROO- fr`l° quiring a flashed installation. The FastJack is available in four sizes: tE , FJ 300 3 Comp roof w/Oatey® flashing 1 FJ -450-18 4-1/2" Comp roof w/standard flashing s FJ -600-18 6" Flat concrete the/built-up FJ -750-18 7-1/2 S-curve concrete the/built-up AAWARNING , All Professional Solar Products (ProSolar) are engi- neered and tested to withstand stated specifica- tions (as stated on published specification sheets) Explanation or Install Tip when installed properly. Failure to install properly may decrease the performance of installation. SAFETY Important Product All regional safety requirements should be followed when Performance Information installing Professional Solar Products. All tools and 'equip- ment located on the roof should be secured to avoid falling object hazards. All equipment/tools - should be properly maintained and inspected prior to use. Any exposed -studs y� Critical for Safety should be protectively capped to help avoid injury. This in- \f stallation manual is intended for use by professional in- stallers with a working knowledge of construction principles. • Chalk line • Cordless drill with 3/8 carbide masonry drill bit (for breaking through comp shingle surface only, not pilot hole) Cordless drill with long 3/16" drill bit (for pilot hole) • Cordless impact wrench with 1/2" socket • Lumber crayon • Precision stud sensor (recommended Zircons 1520) • Flashing Template (standard flashing template #TEMP -STD; Oateys flashing template #TEMP -OAT) • Adjustable pliers (1-1/2" minimum jaw capacity) • Utility knife with hook blade • Dead blow hammer (approx. 21 oz.) professional SOLAR productsy FastJack@ Installation Manual 1) System layout & chalk line marking 2) Locating roof rafters along chalk lines 3) Sealing/attaching FastJack® 4) Clean up/Quality Inspection Date Modified: 09/10/2007 Step 1: System layout & chalk line marking Chalk line — to reference su000rt rail olacement Prior to beginning attachment work, the system roof layout should be defined. A drawing or sketch is recommended prior to roof work. Upon finalizing layout, use chalk lines to mark support rail locations. The chalk lines will be used to align FastJack® attachment points. Note: When configuring ll - Note: All support rails should be placed 48" apart layout please account for a 0.6" gap along the module length. The rail distance from the between modules and 2" on each end of the module will vary based on module size. end of the module array for clamps. Chalk lines should be placed near the center line of the tile to ensure a proper cut for the roof flashing. The 48" grid design is based on.,12", 16" or 24" on center (o/c) rafter spacing. (12" x 4 = 48", 16" x 3 = 48", 24"r_x 2 = 48") Note: All product specifications are based on 48" paired support rail spacing. Proper module/rail orientation—single array sample Clamps must secure the module on the long end of the frame. The span of the two support rails should be 48". EXAMPLE: (Using a 62" long module) 3" 62" professional ' SOLAR products Fasthckb' Installation Manual Date Modified: 09/10/2007 `fig.:•,,.•': t; fy�� Rai•".•'r t 'Intersect (AttaShaient) . • For installations requiring more than one row, with no - Y = spacing betweenrows, the distance between adjacent .. 'rail pairs will measure approximately the length of the _ module less 48".' - V Snap chalk lines along J the location of where the r support rails -will be placed once spacing is " calculated and measured. n r The measurements and formulas listed r above are the recommended and engi 48„ +' neered values for the RoofTrac® mount ," ing system—non tilt up. Actual spacing will be deter- - - ' mined on pattern of the • roofing material to ensure a . - proper seal. Step 2: Locating roof rafters along chalk lines 1) Since rafters are normally located every 48" • + ' on center (o/c), finding one reference rafter' t, • _ should be sufficient for approximating the location of additional rafters by measuring 48" from;the center of the first. 2) If the roof eve (bottom edge of the roof) is ex- posed, reference the centers of the roof rafter and use a chalk line to mark the rafter location -up the roof. Mark the intersection of the chalk lines. This; will be your rafter centers., fie.• ;i/C" - .• - 1 .. Intersect.• (Attachment)' hd/k `fig.:•,,.•': t; fy�� Rai•".•'r t 'Intersect (AttaShaient) . professional SOLAR products, FastJack@ Installation Manual Date Modified: 09/10/2007 Step 3: Attaching/ Sealing Fast -Jack to Composition Shingle 4 STEP 1: Locate rafter center by using precision stud finder or other means. Using a 3/8" ma- sonry bit, break through the comp shingle over the rafter in the cen- ter of the shingle. Position Fast - Jack@ drill guide over the hole location and drill your pilot hole using a 3/16" drill bit. t;eco/2 ,, STEP 3: Using a FastJack@ flash- ing template (optional), and a util- ity knife with hook blade, cut com- position shingle. The template will cut the shingle to the size needed for a standard or 0atey8 flashing. (TEMP -STD illustrated) STEP 2: Insert the 5/16" stainless steel lag bolt and washer through the FastJack@ base. Install the lag bolt through the FastJack@ using a Y2" socket and electric impact wrench. r2UK1 H The 1/4" masonry bit is to be used to break through the rough com- position tile surface only to avoid premature pilot hole drill bit wear. Do not drill pilot hole with 1/4" masonry drill bit. ElUse the Flashing Template (OateyO flashing template #TEMP -OAT; standard flashing template #TEMP -STD) to cut in flash- ings on a composition rooftop to save labor and frustration. The template is an easy tool that enables the installer to quickly and cleanly cut in a flashing with no guessing or struggle. Oatey Flashing,template kit r� Post Is for illustrative purposesonly-nopincluded professi®nal FastJa&g,,,. SOLAR,_ elf i s products'- a-�` installation Mian A ,.., j Date Modified: 09/10/2007 It is,extrernely-important to properly install a ftashingio minimize the nsk'of roof leaks Illus ,;.,. z. '' trafedubelow are both;the correct placement andthe incorrect placement,of a`standard flash ting;on a composition shingle roof`:; 'V ° < z,• - `� Arrows ►llustrate the 1 typical�water floW on a.: v s p►tched roof Correct,.-.-� CORRECT r III ustratior Wshows proper installation of a'cut-in flashing The, y Jag bolt,is located inside'the cut-in areae of the shingle.-. , ; This ensures water will nof.flow under the flashing' where • the lag bolt isJocated. Provides top & side water protection 'helping to prevent roof-leakg and dry rot. �t`t,r .,�3 T $.� , f� ryy, x-tet ,.v4 n,, •.'°-� ti � Y '.� .1+ a�.:Z� ~~ r ° ". }»r •'. � r � IGN r t t l Y•.- 1 *'.:r ar d t. MfJ{ ,. •;j incorrect-,4INCORRECT.' dIlustratiowshows the incorrect installation. of a flashing. The flashingis not cut:into the`shngle'and he lag bolt is -located where watercan flow under the flashing. This type -', ,. -of installation. has a high potential to develop a roof leakror, } d ry rot. IN! PROPERLY FLASHED CONNECTIONS INSURE:: V V4• " Leak-free roof--less warranty servicing liability due to roof leaks° - Prevents roof:dry-rot—allows for proper water r• shed from the roof without trapping under the, flashing. r - f , professional SOLAR products Fastiack@ Installation Manual Date Modified: 09/10/2007 STEP 4: Slide flashing over the STEP 5: Using the post threader base and under the upper row of tool (included with the flashing STEP 6: Using the adjustable pipe pliers, composition shingle. template), thread the post through tighten post into base by turning clockwise. the flashing into the base. Note: If using Oatey® no caulk flashing sealant will not be necessary. STEP 7: Seal flashing per the flashing manufacturers' specifications. Step 4: Clean up/ Quality Inspection Clean Up: Upon completing the attachment installation, account for all tools and clean area as necessary. Quality Inspection: Contractors are recommended to perform a final at- tachment quality inspection prior to installing the RoofTrac® mounting system to ensure all attach- ments are properly sealed. It is also recommended to check all attachment spacing to verify all attachment points were positively connected. Make sure all installation crew members on the roof are mind- ful of installed roof attach- ments to prevent tripping. All installation crew members should utilize proper safety equipment when installing a solar system. (Harnesses, hard- hats, gloves, proper no -slip footwear, etc.) :�o�arvve_q • eTM �G - y'Load Tu d WrndLoad 3016 sq, ft ' • .'. - is , q . �'. Rev®luteonary %,ornmMUldl. IVloUM!"g System° SolarWedge® by Professional Solar Products, Inc, is an innovative low t profile commercial/residential PV mounting system. The system provides an easy to install and economical solution for 5, 10 or 15 degree , i structural attachment. SolarWedge® integrates with Professional Solar's� w.., patented "top-down" commercial RoofTrac® and FoamJack® stanchion ;a products. The system dramatically lowers installation and shipping costs , while optimizing installed wattage on the roof. Advantages of'thte•Sola d' g6l" �` '*{Ea's'y handling and:Installation: Each box supports up o 30' (front'' & rear) of RoofTrac°support rails ° a' * Integrated: Leveling System: Compensates up t' 1/2" of roof i variation using an Included 1%2' x%V. stainless steel stud Fully.Engineered. Load tested -to 30 lbs per sq it (appro)110 mph wind'foad) at up_to 6`centers t *Finished Aluminum Parts: Clear anode ed angled support brackets match support raiC FoamJack�? stanchion parts are: _c t f s machine'tumbled and cleaned`to provide excellent bonding of �w ,• s . -z, foam, flash'or.'4 _ SolarWedge® f fE i '• Precision extruded angles of anodized , aluminum compress the support rail at , . a fixed angle while dramatically , ' . increasing the strength✓ Leveling Feature'..- ' Stud rolls into the post up to 2-1/2" to eliminate the, need for cutting studs. - -on the job .. x Rait'Ins�ert - e FoamJack© _, Compression Nut }, ? Each kit includes the FoamJack® �. S y with a 3"aluminum seal plate. t 1/2" x 4" �` • : Size included depends.on,the angle purchased Leveling Stud , y �• �- ��.;, • � Rail Low z f r Support Roof Surface Modules are mounted in the illustrated direction to - , optimize performance in the �� Foamed bases . summermonths - 4 as illustrated Assembly of the SolarWedge 11 Attachment Parts List (Per Box) Not to scale Components of the SolarWedge© Shipped in a shoe box sized package, the SolarWedge XD attachment system easily integrate with the components offer easy handling and storage along with reduced shipping new XD support rail. costs. 12ea. 24 ea. Co10m, Aluminum 1/2" SS Flat Washers 1 Jam tout/ 6 ea. Compression 7,'2"Washer 1" Dia. Aluminum Nuts Rear Posts 12 ea. I Compression 12 ea, 3/8" SS Flat Washers INut ® 6 ea. Aluminum \3"XDRaiI Lower Rail l� 36 ea. 1" Dia. Aluminum Supports Front Posts 1/2" SS Jam Nuts IF Lo.var5upport 12 ea. Jam Nut/ SS ! a. 1, 2"Washer �- 152 tea.d. Leveling 8 12 eu Studs 3" x 3" Aluminum Aluminum Seal Plates / lam Nut / Bases Attachment Box Dimensions Specifications are Each box contains enough Fully Assembled subject to change attachments to F— 6 without notice. install up to 12" 3.3 kWDc Standard SolarWedge@ Technical InformationOLD Box s > Load Tested and engineered to 30 lbs. per ft2 (approx.110mph wind load 5" 3.3 kWo,, *using 210 WDc equivalent) L modules > Utilizes FoamJack® Laboratory tested to 2,870 lbs. vertical and 2,615 lbs. side lateral pull out using a 3/8" x 6" lag bolt (secured at approx. 6-1/2"). > Structurally attached to the roof - extremely important in areas with potential horizontal and vertical seismic movement such as California. > Available in 50, 1 Do or 15° angles. Optimized to help reduce typical _ - ' ' ' Rear Extension Height" peak summer demand charges. 15 Degree '—' — — 1 Front Extension Height" — — — — — — 19'+/. 3/4" _____ _-'" _-------- - _____-1 � - - - 10 Degree { All Angles ___— _— ——- —' _ _____________ 14-1R"+/-3/4" 61/2"+/-3/4" - - - _ - 5 Degree It_ 'Height from roof surface to bottom of support rail 4' O.C. Rear View 2.5" Support Rail 6' Span between attachments for commercial construction only 6' O.C. professional (805)486-4700 Three Sizes Availa' 9 -fax 6 1'g'e Kit' SOLAR 1551 . Rose l 551 S. Rose Ave. SW 10-6 t Degree products" ° Oxnard, CA 93033 www.prosolar.com SW15-6 (15 Degree Ki SW20080327 Patent 116,360,491 and D547262 Drill Guide (Sold Separately) The FoamJackO drill guide ensures that pilot holes are drilled 90 degrees to the rafter/beam optimizing the strength and appearance of the connection. V 0 N C a t& ASS0Ca-ATES w Structural Engineers Professional Solar Products, Inc. Test ®ate: June 16, 2011 1551 S. Rose Ave. Oxnard, CA 93033 Subject: Static load test results t ' 1 Mounting System Maximum Frame maximum Frame Width* LoadEquivalent Wind Speed ; Length* (in.) (in.) (lbs/ft2) (mph)** SolarWedge® 65 (77**) 40 55 135 (115**) TEST SETUP (as shown in attached drawingdetaio: Two modules, as specified above, were bolted to 136"x1.5"x2-1/2" Professional Solar Products (PSP) Rooffraca support rails using an assembly of 5/16" Stainless Steel (SS) bolts, SS lock washers and proprietary aluminum clamps and inserts. The RoofTrace support rails were attached to the PSP SolarWedge° structural attachments using a proprietary 15° angle bracket support and inner compression nut with a 1/2"x 4" SS all - thread, 1/2" SS jam nuts, and 1/2" SS washers (3/8"x 4" SS all-thread,3/8" SS jam nuts, and 3/8" SS washers acceptable). The attachment spans consisted of 48" front to rear with structural attachments spaced 48" on center. Maximum height of the rear attachment, hardware and support rail combination was 20". The entire set up was attached to 4"x8" beams using •3/8"x5" SS lag bolts. The test set up rested on a concrete floor. i TEST PROCEDURE (as shown in attached drawing detail): The test set up was top loaded to 55 Ib/ft2. The setup remained loaded for an approximate period of 30 minutes. The maximum deflection and any signs of permanent deformation were recorded. The test setup was then inverted and loaded to simulate the uplift condition. The test set up was re -loaded to 55 Ib/ft2. The setup remained loaded for an approximate, period of,30 minutes. The maximum deflection and any signs of permanent deformation were recorded. s TEST RESULTS: The maximum top load deflection was recorded at 0.344", with no permanent deformation. The maximum uplift deflection was recorded at 0.375", with'no permanent deformation. This document certifies the 5°,:10°, 15° SolarWedge° mounting system as specified above, withstands a 55 Ib/ft2 static pressure load, equivalent to a wind speed of approximately 135 mph**. The mounting unit performed as expected. Sincerely, James R. Vinci, S.E. This engineering report verifies that Vinci & Associates has provided independent observation for load testing as described in this report. The results of thi load test reflect actual deflection values and are generally accepted as the industry standard for testing module mounting systems. Vinci & Associates d not field check installations or verify that the mounting system is installed as described in this engineering report. Any rail splice used shall be manufactured by PSP; XD splice used for SolarWedge@ XD. Limit spliced rail. . run to approx. 45 ft. Structural attachment: Lag bolt attachment should be installed Using the proper pilot hole for optimum strength. A 3/8" lag bolt requires a 1/4" pilot hole. It is the responsibility of the installer to insure a proper attachment is made to the structural member of the roof. Failure to securely attach to the roof structure' " may result in damage to equipment, personal injury or property damage. P S✓ This office does not express an opinion as to the load bearing characteristics of the structure the mountings y �` system/modules are being installed on. G> C3 No. 1 m Check with local building department or AHJ for site specific requirements p� P. 1 / 1/15 [ATi *Modules measuring within stated Specifications and tested to UL1703, or equivalent, are included in this engineering. . **Using wind load exposure and gust factor coefficient "exposure C".(5/12 roof pitch or less) as defined in the 2012 (IBC) / 2013(CBC). For 77" x 40" module, equivalent wind speed derated to 115 mph. q pL�FO� *** Module tested: 64.6" x 39.1"'x 1.8" (shrp) ****Est. snow load rating of 25 Ib/ft2 based on 2.0 safety factor. (15 Ib/ft2 for 77" x 40" module) Report Update: 6/2013 1337 E. T-housand Oaks Blvd;..Ste 1,14 Thousand Oaks, CA 91362 Page .1 of 2 + S _OC y 7 T i TOP VIEW E 40" 1 Staggered splice 48„ approx.12" from 65" support k__ 48" -� Approx. 20' Max REAR VIEW Owha"0 48" Max Span SIDE VIEW DETAIL 2-1/2" RoofTrae Crrnnnrt Rail TEST SETUP—SIDE VIEW 2022 lbs (55 psf 15" TOP LOAD DEFLECTION 0.344" UP LIFT DEFLECTION: 0.375" 5/16" SS Bolt & Lock Washer RoofTrae Clamp \ �( RoofTrac° y u Channel Nut—�> 5tatic load test Illustration Page 2 of 2 SW_4_OC M T N C 0 & A S S® C I A 4 E S Structural Engineers":` Professional Solar Products, Inca Test Date: lune 16, 2011 1551 S. Rose Ave. r Oxnard, CA 93033 Subject: Static load test results r ' Mounting System Maximum Frame . Maximum * Frame Width •Load -Equivalent Wind Speed Length* (In.) (in) (Ibs/fts) (mph) SolarWedge© 65 (77**) -' 40 30 100(85**) TEST SETUP (as shown in attached drawing detain: Two modules; as specified above, were bolted to 136"x1:5"x2-1/2" . Professional Solar Products (PSP) RoofTrac© support rails using an assembly of 5/16" Stainless Steel (SS) bolts, SS lock washers and proprietary aluminum clamps and inserts. The RoofTrac(IP support rails were attached to the PSP SolarWedge° structural attachments using a proprietary 15° angle bracket support and inner compression nut with a 1/2"x 4" SS all - thread, 1/2" SS jam nuts, and 1/2" SS washers (3/8"x 4" SS all-thread,3/8" SS jam nuts, and 3/8" SS washers acceptable). The. attachment spans consisted of 48" front to rear with structural attachments spaced 72" on center. Maximum height of the rear attachment, hardware and support rail combination was 20": The entire set up was attached to 4"x8" beams using 3/8"x5" lag bolts. The test set up rested on a concrete floor. TEST PROCEDURE (as shown in attached drawingdetail): The test set up was top loaded to 30 Ib/ft2. The setup remained loaded for an approximate period of 30 minutes. The maximum deflection and any signs of permanent deformation were recorded. The test setup was then inverted and loaded to simulate the uplift condition. The test set up was re -loaded to 30, Ib/ft2. The setup remained loaded for an approximate period of 30 minutes. The maximum deflection and any signs of permanent deformation were recorded. TEST RESULTS: The maximum top load deflection was recorded at 0..219", with no permanent deformation. The maximum uplift deflection was recorded at 0.376", with no permanent deformation. This document certifies the 5", 10', 15° SolarWedge° mounting system as specified above, withstands a 30 Ib/ft2 static pressure load; equivalent to a wind speed of approximately 100 mph**. The mounting unit performed as expected. Sincerely, +. James R. Vinci, S.E. This engineering report verifies that Vinci & Associates has provided independent observation for load testing as described in this report. The resu s o t is load test reflect actual deflection values and are generally accepted as the industry standard for testing module mounting systems. Vinci & Ass ate nes not field check installations or verify that the mounting system is installed as described in this engineering report. Any rail splice used shall be manufactured by PSP, XD splice used for SolarWedge® XD. Limit spliced rail run to approx. 45 ft. F Structural attachment: Lag bolt attachment should be installed using the proper pilot hole for optimum ' strength. A 3/8" lag bolt requires a 1/4" pilot hole. It is the responsibility of the installer to insure a proper attachment is made to the structural member of the roof. Failure to securely attach to the roof structure may result in damage to equipment, personal injury or property damage. S This office does not express an opinion as to the load bearing characteristics of the structure the mounting y system/modules are being installed on. No. 4 1 Z Ld P. / 1/15 Check with with local building department or AHJ for site specific requirements. - *Modules measuring within stated specifications and tested to UL1703, or equivalent, are included in this engineering. **Using wind load exposure and gust factor coefficient "exposure C" (5/12 roof pitch or less) as defined in the 2012 (IBC) / 2013(CBC). For 77" x 40" module, equivalent wind speed derated to 85 mph. *** Module tested: 64.6" x 39.1" x 1.8" (shrp) ****Est. snow load rating of 15 Ib/ft2 based on.2.0 safety factor. (10 Ib/ft2 for 77" x 40 module) Report Update: 6/2013 1337 E. Thousand Oaks Blvd, Ste 114. Thousand Oaks, CA 1 Page .1 of 2 SW_6_0C TOP VIEW 14 40" --------- Staggered - REAR VIEW ^oor�.,a■ Over—hh ang H I Staggered splice approx. 12" from support 72" REAR VIEW ^oor�.,a■ Over—hh ang H I 72" Max Span SIDE VIEW DETAIL 2-1/2" RoofTrae Support Rail RoofTra& E� Channel nut Fixed angle rail support and insert 3/8" or 1/2" SS Jam Nuts 3/8" x 4" or 1/2" x 4" SS Leveling SolarWedge° Post Stud SolarWedge° Base Seal Plate SolarWedge® (not used Base whenflashing) /8" x 5" SS Lag bolt SolarWedge® 6' OC Professional Solar Products Patent# 6,360,491 Photovoltaic mounting system TEST SETUP—SIDE VIEW 1685 lbs' 1 (30 psi 15° TOP LOAD DEFLECTION 0.219" UPLIFT DEFLECTION: 0.376" 5/16" SS Bolt & Lock Washer \ RoofTrac® Clamp RoofTrac® Channel Nut` SolarWedge° Front Post 5": 5" _ 10°: 5" 15°: 5" Attachment Side View with Rail and Clamp Detail 0 SolarWedge® Rear 5°: 9" 10°: 13" 15°: 17.5" Q � 0. / lj SolarWedge W OC Solar modules Static load test illustration Page 2 of 2 SW-6—OC z 5