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pmt18-05419
City of Menifee Permit No.: PMT18-05419 AV Ar 29714 HAUN RD. MENIFEE, CA 92586 Type: Residential Electrical MENIFEE MENIFEE Date Issued: 11/15/2018 PERMIT Site Address: 30577 ALSTON LN, MENIFEE, CA 92584 Parcel Number: 364-310-009 Construction Cost: $30,000.00 Existing Use: Proposed Use: Description of INSTALL ROOF MOUNTED SOLAR PV SYSTEM 25 MODULES,25 MICRO-INVERTERS, 9.OkW Work: Owner Contractor VICTOR & PARIA JAIME SUNPRO SOLAR INC 30577 ALSTON LN 34859 FREDRICK STREET STE 101 MENIFEE, CA 92584 WILDOMAR, CA 92595 Applicant Phone: 9516787733 BRENDAN SULLIVAN License Number: 830451 SUNPRO SOLAR INC 34859 FREDRICK STREET STE 101 WILDOMAR, CA 92595 Fee Description QQt Amount t$1 Solar, Residential or Small Commercial 1 252.00 Building Permit Issuance 1 27.00 Additional Plan Review Building 171 171.14 GREEN FEE 1 2.00 SMIP RESIDENTIAL 1 4.00 General Plan Maintenance Fee- Electrical 1 12.60 $468.74 The issuance of this permit shall not prevent the building official from thereafter requiring the correction of errors in the plans and specifications or from preventing builiding operations being carried on thereunder when in violation of the Building Code or of any other ordinance of City of Menifee.Except as otherwise stated,a permit for construction under which no work is commenced within six months after issuance,or where the work commenced is suspended or abandoned for six months,shall expire,and fees paid shall be forfeited. AA_Bldg_Permit_Template.rpt Page 1 of 1 CITY OF MENIFEE LICENSED DECLARATION property who builds or improves thereon,and who contracts for the projects I hereby affirm under penalty of perjury that I am under provisions of with a licensed contractor(s)pursuant to the Contractors State License Law). Chapter9(commencing with section 7000)of Division 3 of the Business and ❑I am exempt from licensure under the Contractor's State License Law for Professions Code and my license is in full force and effect. the following reason: License Class C,-to /L``(f� Li ense No. �q By my signature below I acknowledge that,except for my personal residence Expires 2 Z 1 ZD Signature in which I must have resided for at least one year prior to completion of improvements covered by this permit.I cannot legally sell a structure that I WORKER'S COMPENSATION DECLARATION have built as an owner-builder if it has not been constructed in its entirety by ❑I hereby affirm under penalty of perjury one of the following declarations:I licensed contractors.I understand that a copy of the applicable law,Section have and will maintain a certificate of consent of self-insure for worker's 7044 of the Business and Professions Code,is available upon request when compensation,issued by the Director of Industrial Relations as provided for this application is submitted or at the following website: by Section 3700 of the Labor Code,for the performance of work for which www.leginfo.ca.gov/calaw.htmi. this permit is issued. Policy# Date ❑I have and will maintain worker's compensation insurance,as required by PROPERTY OWNER OR AUTHORIZED AGENT section 3700 of the Labor Code,for the performance of the work for which ❑By my signature below I certify to each of the following:I am the property this permit is issued.My worker's compensation insurance carrier and policy owner or authorized to act on the property owner's behalf.I have read this number are: application and the information I have provided is correct.I agree to comply Al " V6N with all applicable city and county ordinances and state laws relating to Carrier (mil building construction.I authorize representatives of this city or county to Policy# C Expires enter the above identified property for inspection purposes. (This section need not to be completed is the permit is for one-hundred Date dollars($100)or less PROPERTY OWNER OR AUTHORIZED AGENT ❑I certify that in the performance of the work for which this permit is issued, I shall not employ any persons in any manner so as to become subject to the CITY BUSINESS LICENSE# worker's compensation laws of California,and agree that if I should become HAZARDOUS MATERIAL DECLARATION subject to the worker's compensation provisions of Section 3700 of the Labor Code,I shall hwith co ply with those provisions. Will the applicant or future building occupant handle hazardous material or a Applicant + Date I� I�L' mixture containing a hazardous material equal to or greater that the amounts specified on the Hazardous Materials Information Guide? WARNING:FAILURE TO SECURE WORKER'S COMPENSATION COVERAGE IS ❑Yes XNo UNLAWFUL,AND SHALL SUBJECT AN EMPLOYER TO CRIMINAL PENALTIES Will the intended use of the building by the applicant or future building AND CIVIL FINES UP TO ONE HUNDRED THOUSAND DOLLARS($100,000),IN occupant require a permit for the construction or modification from South ADDITION TO THE COST OF COMPENSATION,DAMAGES AS PROVIDED FOR Coast Air Quality Management District(SCAQMD)?See permitting checklist IN SECTION 3706 OF THE LABOR CODE,INTEREST,AND ATTORNEYS FEES for guidelines CONSTRUCTION LENDING AGENCY ❑Yes i!�Ao I hereby affirm that under the penalty of perjury there is a construction Will the proposed building or modified facility be within 1000 feet of the lending agency for the performance of the work which this permit is issued outer boundary of a school? (Section 3097 Civil Code) ❑Yes )�No OWNER BUILDER DECLARATIONS I have read the Hazardous Material Information Guide and the SCAQMD permitting checklist.I understand my requirements under the State of I hereby affirm under penalty of perjury that I am exempt from the California Health&Safety Code,Section 25505 and 25534 concerning Contractor's License Law for the reason(s)indicated below by the hazardous material re orting. checkmark(s)I have placed next to the applicable item(s)(Section 7031.5 oYes/�Ao Business and Professions Code).Any city or county that requires a permit to d1 Date I ' construct,alter,improve,demolish or repair any structure,prior to its PROPERTY OWNER OR AUTHORIZED AGENT issuance,also requires the applicant for the permit to file a signed statement that he or she is licensed pursuant to the provisions of the Contractor's State EPA RENOVATION,REPAIR AND PAINTING(RRP) License Law(Chapter 9(commencing with Section 7000)of Division 3 of the The EPA Renovation,Repair and Painting(RRP)Rule requires contractors Business and Professions Code)or that he or she is exempt from licensure receiving compensation for most work that disturbs paint in a pre-1978 and the basis for the alleged exemption.Any violation of Section 7031.5 by residence or childcare facility to be RRP-certified firms and comply with an Applicant for a permit subjects the applicant to a civil penalty of not more required practices.This includes rental property owners and property than($500). managers who do the paint-disturbing work themselves or through their ❑I,as owner of the property,or my employee with wages as their sole employees.For more information about EPA's Renovation Program visit: compensation,will do( )all of or( )portion of the work,and the structure is www.epa.gov/lead or contact the National Lead Information Center at not intended or offered for sale.(Section 7044,Business and Professions 1-800-424-LEAD(5323). Code;The Contractor's State License Law does not apply to an owner of a ❑An EPA Lead-Safe Certified Renovator will be responsible for this project property who,through employees'or personal effort,builds or improves the property provided that the improvements are not intended or offered for Certified Firm Name: sale.If,however,the building or improvement is sold within one year of Firm Certification No.: completion,the Owner-Builder will have the burden of proving that it was not built or improved for the purpose of sale. ❑No EPA Lead-Safe Certified Firm is required for this project because: 111,as owner of the property am exclusively contracting with licensed contractors to construct the project(Section 7044,Business and Professions Code:The Contractor's State License Law does not apply to an owner of a If your project does not comply with EPA RRP rule please fill out the RRP Acknowledgement. BUILDING & SAFETY PERMIT/PLAN CHECK APPLICATION MENIFEE DATE: 11 13 I is PERMIT/PLAN CHECK NUMBER GRADING/ PLANNING CASE NUMBER/OTHER RELATED CASES TYPE: a COMMERCIAL RESIDENTIAL O MULTI-FAMILY O MOBILE HOME O POOL/SPA O SIGN SUBTYPE: (j)ADDITION O ALTERATION O DEMOLITION O ELECTRICAL O MECHANICAL O NEW OPLUMBING ORE-ROOF NUMBER OF SQUARES DESCRIPTION OF WORK �Y— > , }' S as AiC McJuk' �cr , E Jar. OCCUPANCY GROUP CONSTRUCTION TYPE I/[ SPRINKLERS O YES (QUO PROJECT ADDRESS 05�7 S 'hn ZIP S ASSESSOR'S PARCEL NUMBER JI(J�� �� LOT TRACT ��'� OWNER NAME iC �j Pa P 1,6( c4 j /vie ADDRESS `'(" PHONE l/ S �' a IlX + / EMAIL 1 C�, ,a 1 /IAC' 6? 6i(5 L O APPLICANT NAME dd rr ADDRESS `'t r2C�tC �lG� �k , SUi /0 WtiIL A;" osi PHONE Cf�� �3��y� (� EMAIL >. f IAA, l cunt CONTRACTOR'S NAME 6 V41% /J S 6 I A OWNER BUILDER? OYES 0 BUSINESS NAME >1 C) Iqr LL '// /1 ADDRESS ,� l L IC S(J/0� DUI ✓; �C1O/'t a PHONES' ���'� y�� EMAIL k1l / w. �U fU - Sorl4',lUM CONTRACTOR'S STATE LIC NUMBER Y36/y.S / LICENSE CLASSIFICATION VALUATION$ 30 G Vo SQ FT �_3 L SQ FT APPLICANT'S SIGNATURE DATE //z/� l CITY STAFF USE ONLY DEPARTMENT DISTRIBUTION ACCEPTED BY: CITY OF MENIF,EE�W6UMBER BUILDING PLANNING ENGINEERING FIRE �� INVOICE TOTAL GREEN s SMIP OWNER BUILDER VERIFIED 0 YES % NO DRIVERS LICENSE# NOTARIZED LETTER C. YES NO City of Menifee Building &Safety Department 129714 Haun Rd., Menifee, CA 92586 (951)672-6777 G%Tv o� www.cityofinenifee.us MENIFEE: 11/12/2018 u.. your ptons L" ENGINEERING SOLUTIONS FOR ALL YOUR SOLAR NEEDS O Structural Calculations for SOLAR POWER SYSTEM CONNECTION CHECK AT: 30577 Alston Menifee,CA 92584 Job: Jaime,Victor&Paria City of�,-ic;tifee Prepared For: Building rept. Sunpro Solar NOV .j 1; 2018 34859 Fredrick St.Ste. 101 Wildomar,CA 92595 (951)678-7733 CITY OF M BUILDING AND SAFETY DEPARTMENT Design Criteria PLAN APPROVAL 1- Code: CALIFORNIA BLDG CODE 2016/A CE 7-10 2-Wind: 110 MPH,Exposure:C REVIEWED BY 3 -Wood Species:DF-L No. 2(SG= 0.5) y NOV 1 4 2p1g DATE Notice:Use restrictions of these calculations. Approval of these plans shall not be construed to be a Pe►mit fa,or an The attached Calculations are valid only when bearing original sig atuAPAR9360f,any violation of any provisions Of the federal,State or City Contractor/Client to verify existing dimensions/conditions prior to on oWflWs and ordinances. This set of approved plans must be kept on t &solar racking is installed per manufacturer span requirements. 1 site until completion. The use of these calculations is solely intended for the above men QROFESS/pN G TR(�D�c�� O N0.C70711 m d EXP.06/30/2019 M V 1\. lF F CA\-\F� 1-844-PV ELITE I info@yoursolarplans.com 3000 E.Birch Street Suite 2011 Brea CA 92821 WIND LOADING ANALYSIS - Roof Components and Cladding i;; t.vc3a; t:i LDii;9;a. is Attjr ...,,jii: vYitii s.9: i ^v:s Ui' oispt; Cat?© � <= Usini „tical Proce(4, 0.6) Job Name: IJaime, Victor& Paria I Subject: Job Number: Originator: I I Checker: Input Data: Wind Speed, V= 110 mph (Wind Map, Figure 26.5-1A-C) 3ldg. Classification = II (Table 1-1 Occupancy Category) xposure Category = C (Sect. 26.7) B Ridge Height, hr= 24.50 ft. (hr>= he) Eave Height, he= 17.00 ft. (he <= hr) Building Width = 40.00 ft. (Normal to Building Ridge) Building Length = 40.00 ft. (Parallel to Building Ridge) L Roof Type= Gable (Gable or Monoslope) Topo. Factor, Kzt= 1.00 (Sect. 26.8 &Figure 26.8-1) Plan Direct. Factor, Kd = 0.85 (Table 26.6) Enclosed? (Y/N) Y (Sect. 28.6-1 & Figure 26.11-1) Hurricane Region? N Component Name= Fastener (Purlin, Joist, Decking, or Fastener) hr h Effective Area, Ae= 439 ft.^2 (Area Tributary to C&C) he Overhangs? (Y/N) N (if used, overhangs on all sides) L Resulting Parameters and Coefficients: Elevation RoofAngle, 0 =1 20.56 Ideg. Mean Roof Ht., h =1 25.00 ft. (h = (hr+he)/2, for roof angle >10 deg.) Roof External Pressure Coefficients, GCp: 3Cp Zone 1-3 Pos. = 0.30 (Fig. 30.4-2A, 30.4-213, and 30.4-2C) GCp Zone 1 Neg. = -0.80 (Fig. 30.4-2A, 30.4-26, and 30.4-2C) GCp Zone 2 Neg. = -1.20 (Fig. 30.4-2A, 30.4-26, and 30.4-2C) GCp Zone 3 Neg. = -2.00 (Fig. 30.4-2A, 30.4-26, and 30.4-2C) Positive & Negative Internal Pressure Coefficients, GCpi (Figure 26.11-1): +GCpi Coef, =1 0.18 (positive internal pressure) -GCpi Coef. = 0.18 (negative internal pressure) If z <= 15 then: Kz= 2.01*(15/zg)^(2/a) , If z > 15 then: Kz =2.01*(z/zg)^(2/(X) (Table 30.3-1) a=f 9.50 (Table 26.9-1) zg = 900 (Table 26.9-1) Kh = 0.95 (Kh = Kz evaluated at z= h) Velocity Pressure: qz= 0.00256*Kz*Kzt*Kd*VA 2 (Sect. 30.3.2, Eq. 30.3-1) qh = 24.89 psf qh = 0.00256*Kh*Kzt*Kd*VA 2 (qz evaluated at z= h) Design Net External Wind Pressures (Sect. 30.4 & 30.6): For h <= 60 ft.: p = qh*((GCp) - (+/-GCpi)) (psf) For h > 60 ft.-. p = q*(GCp) -qi*(+/-GCpi) (psf) where: q = qh for roof qi = qh for roof(conservatively assumed per Sect. 30.6) Wind Load Tabulation for Roof Components& Cladding Component z Kh qh p= Net Desi n Pressures sf) ft. sf one 1,2,3 + Zone 1 - Zone 2 - Zone 3 -) Fastener 0 0.95 24.89 11.95 -24.39 -34.35 -54.26 15.00 0.95 24.89 11.95 -24.39 -34.35 -54.26 20.00 0.95 24.89 11.95 -24.39 -34.35 -54.26 For z = hr: 24.50 0.95 24.89 11.95 -24.39 -34.35 -54.26 For z = he: 17.00 0.95 24.89 11.95 -24.39 -34.35 -54.26 For z = h: 25.00 0.95 24.89 11.95 -24.39 -34.35 -54.26 Notes: 1. (+) and (-) signs signify wind pressures acting toward & away from respective surfaces. 2. Width of Zone 2 (edge), 'a' = 4.00 ft. 3. Width of Zone 3 (corner), 'a' = 4.00 ft. 4. For monoslope roofs with 0 <= 3 degrees, use Fig. 30.4-2A for'GCp' values with 'qh'. 5. For buildings with h > 60' and 0 > 10 degrees, use Fig. 30.6-1 for'GCpi' values with 'qh'. 6. For all buildings with overhangs, use Fig. 30.4-213 for'GCp' values per Sect. 30.10. 7. If a parapet>= 3' in height is provided around perimeter of roof with 0 <= 10 degrees, Zone 3 shall be treated as Zone 2. 8. Per Code Section 30.2.2, the minimum wind load for C&C shall not be less than 16 psf. 9. Reference: a. ASCE 7-10, "Minimum Design Loads for Buildings and Other Structures". b. "Guide to the Use of the Wind Load Provisions of ASCE 7-10" by: Kishor C. Mehta and James M. Delahay (2004). (og => slooa ado!souow pue o06 =>sJooa a!geE)aol) ':109 < 4 41!M s u!p!!n8.io;sauoZ loon Ndld J008 f t i_. i I 1 1 I 1 I 1 I I.. 1-+ I i � 1 I Vt (og =>s}ooN ado!souoyy pue 09V => s}ooN a!qe!D col) '4 09 => 4 43!M s u!p!!n8 iol sauoZ loot{ 'Bap 5ti=> A> 'Bap LZ 'Bap LZ => A > '6ap L -Bap L => A f- i . (` i 1 1 I i "JO: I_i tiCi t l (D { 1 I I I I i I I i I I I I t L...... ........ - ;f i 'E' fir �'�[ 'f. 'A - t t.�t t - r 7 1 o B.D.� ..0 . y B uippelo pus sJusuo woc) loon Gravity Load Data Panel Data Panel: SPR-X22-360-D-AC Number of Modules: 25 Weight of PV Module 45.50 Ibs PV Module Dimensions L= 61.30 in W= 41.20 in Roof Data Roof Material: Tile Roof Dead Load QC)= 17 psf PV System Dead Load Qpv= 3 psf Framing Spacing sroor= 24 in Linear Dead Load WD=(QD+Qpv)*s,00f= 40 plf Lag Screw Check Lumber: DF-L No. 2 Uplift Demand Design Wind Pressure p= -34.3 psf(Zone 2) Trib. Depth for Each Rail dpv=L/2= 2.55 ft Trib. Depth for Each Rail bpv=W/2= 1.72 ft Screw Anchor Spacing spv= 6.00 ft(max.) Uplift Force on Each Screw, Portrait UL_(p+Qpv)*dpv*spv= -480 Ibs(Upwards) Uplift Force on Each Screw,Landscape UW=(p+Qpv)*bpv*spv= -323 Ibs(Upwards) Design Uplift Force P„piih=0.6*[Max(U L, Uw)]_ -288 Ibs(Upwards) Uplift Capacity NDS 2015 Adjustment Factors CD= 1.6 CM= 1 Ci= 1 SG= 0.50 C" C,, C9, Cd;, C,,,are not appicable Speicfic Gravity of Lumber SG= 0.50 NDS Supplement Table 4a Diameter of Lag Screw D= sm in Withdraw Design/in 1800*SG"`*D"'= 266 Ibs/in NDS 2015 12.1-1 Depth of Embeddment Ip= 2.50 in Total Nominal Withdrawal Value W=W*I p= 665 Ibs Withdrawal Design Vaule W =W*CD*CM*Ct= 1064 Ibs NDS 2015 Table 11.3.1 Demand-Capacity Ratio Pupiift/W'= 0.27 < 1 [OKAY] Beam/Top Chord Check Lumber:DF-L No.2 Moment Demand Span ] 1 1 2 1 3 Orientation j I (ft) pj(Ibs) Lenght(ft) :1 7 1 7 1 7 1 1 3.7 -480 Portrait 2 7.4 -480 3 8.8 -480 Linear Dead Load wd= 40 plf Portrait 4 12.5 -480 Wind Load, Portrait UL= -480 Ibs 5 13.9 -480 Wind Load, Landscape U Portrait p w= -323 Ibs 1 6 1 17.6 -480 #of Attachment per Rafter NA= 6 M(x)=Rf(x—Lj)—Pj(x—lj)—wdx2 2 600 400 fl 200 c 0 a� E -200 0.0 5. 10.0 15. 20.0 25.0 -400 -600 Length x(ft) M„Moment Dead 264 lb-ft Dead+Wind 509 lb-ft Dead+Snow 264 lb-ft Moment Capacity Framing Member Size 2x4 Lumber Grade : DF-L No. 2 CM= 1 Ct= 1 C 1.15 CF= 1.5 fb= 900 psi Cf and C;are not applicable Breadth b= 1.50 in Depth d= 3.50 in Section Modulus Sx =bd216= 3.06 in Bending Stress Capacity Fb= CM*Ct*Cr*CF*fb= 1553 psi Table 4.3.1 NDS 2015 Co Fe=Co*F Me*Sx ASD Load Design Bending DCR Dead 0.9 1397 psi 1033 psi D 1033 psi 0.74 OKAY Dead +Wind 1.6 2484 psi 1993 psi .6W+.6D 1196 psi 0.48 OKAY Dead+Snow 1.15 1785 psi 1033 psi D+S 1033 psi 0.58 OKAY Deflection Limit E= 1600 ksi 1 = 5.36 in Transient Deflection 0.114 in Transient Deflection Allowed 739 > 180 [OKAY] Total Deflection 0.196 in Total Deflection Allowed 429 > 120 [OKAY] SEISMIC WEIGHT COMPARISON 1 ANALYSIS-(PER CBC 2016 Part 10 Chapter 4 Section 402 PV System Weight Module Model SPR-X22-360-D-AC Panel Weight Wpanel= 45.5 Ibs Number of Panels NPv 25 Total PV System Weight WPv_ Wpanel* NPv= 1137.5 Ibs Existing Roof Weight Roof Weight Qo= 17.0 psf Building Length Lbuild = 40 ft Building Width Wbuild = 40 ft Roof Area Abuild= 1600 ft' Building Perimeter Pbuild= 160 ft Wall Height ht= 8 ft Wall weight Q,,all= 15 psf Interior wall weight Qint= 10 psf Roof Load Wtloor=Abuild *Qo= 27200 Ibs Wall Load Nwall= ht/2 * Q,Naii* Pbuild +Abuild *Qint/2 = 17600 Ibs Total Story Weight Wbuild = Wnoor+ Wwall= 44800 Ibs Percentage Weight Increa WPV I Wbulld= 2.54% < 10% OKAY 4d t I;(r i s Ste. (: K l,'zd r v_eay' tit ._.�..,..vr:.a=,a', r,_Y.^,r-__u I ..;;.. IEEE Inon fmausd�iSw.... Design-Driven Advantages (d e I st I , I min. #1 module aestnetics and effcier F '( X SRD Profile — (defaults I cgs) U Role ' min./norl/rna>.. Unmatched module reliability' I SERIES Frequency(Hzj _ — _ _— 59.5/60.0'6U5 5a.5/6C.0;60.5 Power Factor 0,99/1 X):'00 - 0.85lead./IAu;n.BS lag. • No electrolytic capacitors ----- ---- -- -- f-- Reactwe Power t169 var 25-year Combired Power an,,*Product Warranty voltage @240V 211.212 It,/2tAV --_- --- -—_----- ---- California Ru'e 21 Phase 1 mmpParlt @208V 183/20S. .2v>.? Max.Current @240 V ---- 13?P-----__ @240 V Maximize Value for Roof DCIAC CEC Co,,c sec,Efficiency @2V 9i @208 V _ _ 95. Size system for roof,not string inverter Max Units Per 2G A hunch Circuit C6240 V 12(single(rha_ Opti @20a v ..------ 10(two{:wHe),. _.----- • mize performance o each modu a 'ower 320 W, No active phase bA,rrng for 3phase installations Expand Deployment Options ------ — Compler,cools and partla'shad: 5PR-X223fi0-D-AC 25-yea,limited power warranty N'a^ant crs Small systems Optimize System and Installation Efficiency hlominalPower'(Pnrrc'i _ 360N' ---- __2S.YFer,,n;tr-dprodunwa,ra;,c, System cxpa-friability Fower Tolerance --_ _.5/-0°6 Ilst ,lc 11-1741 SA — - - SunPowerAC t4rodules rl'tI ff itl ,:,1,A SunPower Av.Panel Efficiency 22.29E SRDs HE 1SA7-200d IF-F 1547a.2014,CA '. Simplify Speed Installation 'efn.Coef.(Poeef) -0.29%1'C R,fe?I Phase 1 P '7 P mi[roinve ter,provide a rPvo;ui unary comi;inatiorl of high efficiency, •Three bypass diodes P,kap,d 5trutdcwn Equipment Factory-ir[egrated microinverte' Shade Tolerance •Integrated modf.l i level maximum Ivwver point -E•auion ern Groundin high reliabir[y:and module lave'DC-to-AC power rorr,eraon.Designed g • Robust.douo,e-locking AC conneCt.o's -- —_— _____-_lack'Ig Ut.5703.'JL 9703 Conw.-c r.,sod cables Design flexibility offsite and ons to speaficaliy for use with SUnPowe' f',siMount'°and the SunPower I (inac h eak disconnect on) UI',''::AC Module(Typr-2 Ire rating) No DC string sizing process Monitoring,Sy,.lem,SunPowef AC'>lu-Jules enable rac, instaliatior., operalin rer,:.. -40°F to+185`G(-40'C to+8;Q C,l ftr:r ons Enat . nstallalion in accordai—with: - • Fewer im;rallalon steps than cornhe[ingt T:.rf 1220 F(5W C. NE(_t'f0.fx bes[-in-da system aes[hr t r and n[Uitive visibn Max.ax.Ambient ity n[o system Wind 62 psf.3000 Pa,30S kg/m fz Lack Systems Max.Load NE.r,qU.<2 Rapid Shutdown(inside and _Snow 1_5 f i�rf Ra.611 k m 1 t Intuitive co.ntl ifssionin performance,Al this comes ai[h r•1e Iles[Combined rower and Produ;r -- '-�- —� o3,ire the array) g Impact Resistan�.e __1 Inch f2 i mr,i c a_�_Inter ha I at 5?n __Ms) .NEC f110.1 S AC Connedo s ocfG33(A)-(E)l11 Warranty r the industry. FCC and l'E.903 Class 8 Component of Complete System P P n When 'd N th InvisiMourt r rig(Jl.2703): � a Solar Cells 96 Ma,ocrysu: r-t�axeon C e 1 I _ - aunt for use with SunPower Irvjstem(P 1p Hgh Iransms,on lem eed la, w to ,n Irfe,a Led grounding anc;b..rrcl rig and the SunPower Monitoring System tPVsSx) Grid Support Utility-interactive Smart Inverter k P r g pp y I=root Glass Cas:AO erased i _ reflecl,vecoaorg Superior system reliability and aesthetics Environmental Rai,L Outdoor rated Pi Tc�_ Pot trial r 1.1rer1 degradaror. 5unP0wer's,new Type D AC rnod.11e i•;UL tested a ,cslrtried[d IJL frame Class t blackanoct zed(highest Mb'P ra'in�t 1741 SA and o�avicles advancer)s."lart inverter fuf;ctr.rn Our Type D Weight, 45.5 it's(20.6'�p;! r keromrnendeo tta. 1 3 in(33 mr t AC rnodulec,l•e fully comphart nth the California' 11e-)I Phase I Module Spann ♦� requiremei and the Rule 21 x to profile is easily set during 'r.�estpfwe 1)1)oe ur c.fc R Nfce'.r v r i.mIa t PVfA d D b 1,1 FA RerV L•I 0p C5Ii leb)01:f: �IMtM. cornmissim In th our PVSSr-rim,ittorin'hardware 'tSh-rrtm—A—.",- w dC a t '.5 nPo �MruluF.UrerMa rn c . - 6''''' )� ,„Pawm whoa FaRC r bJ0135eetwvnsw,powertnnnac¢for ACta95 ,1 M07 SntOfS,) JI1 erfaat SCeKgs.CA Pulr+i tlefw r5ettieps profile SCt damn ' -' S n�.Sec h rviwlb G dr b 4 0'r f mat On r O ,t MaatCStfrA I'IW WIrtR. 6a MI '�,15 nNRr1,,Lb a.wl va••fartl.�UM•i ____ f�..!��I _ L x ..UC(S tf and m taEc At x mrane S f.Ah CO3•a n<I wen n M mpaulC sunpower.com fua ennaw arean'r..rnepcw .r, smma oe,,:npng�w.� f-..,a.e nzae:M salary aM e,S!a'anon ncru ns fo•ee;u.;. rbLLiwhAawoor Ttp3 n,npawe!mYar:•.f0-morC r0lernnre mrprm,rten I onmwn rAHsis tie irl.fnrlM tlmaznK.:ww«.sunlr.:n<•rnNexaslree:s Duc:rn�rv' 19%FevB AM US CERTIFICATE OF COMPLIANCE CERTIFICATE OF COMPLIANCE Certificate Number 20171003-E478330 Certificate Number 20171003-E478330 Report Reference E478330-20170615 Report Reference E478330-20170615 Issue Date 2017-OCTOBER-03 Issue Date 2017-OCTOBER-03 Issued to: SUNPOWER CORP This is to certify that representative samples of the product as specified on this certificate were tested 77 RIO ROBLES according to the current UL requirements. SAN JOSE CA 95134-1859 Grid Support Utility Interactive AC Module with Rapid Shutdown Functionality AC modules,Models: This is to certify that AC MODULES SPR-X22-370-D-AC,SPR-X22-360-D-AC,SPR-X21-335-BLK-D-AC,SPR-X20-327-BLK-D-AC,SPR- representative samples of Refer to Addendum Page for ModelsfProduct X21-345-D-AC.SPR-X21-335-D-AC,SPR-X20-327-D-AC,SPR-E20-327-1)-AC,SPR-El3320-D-AC, SPR-E18-300-0-AC,SPR-E19-315-D-AC,SPR-E20-335-D-AC,SPR-X19-315-D AC,SPR-X18-315- BLK-D-AC.SPR-X20.335-D-AC,SPR420-335-BLK-D-AC,SPR-X21-350-D-AC,SPR-X21-350-BLK-D- Have been investigated by UL in accordance with the AC,SPR-E21-335-D-AC,SPR-E1&305-C-AC Standard(s)indicated on this Certificate. Standard(s)for Safety: UL 1741,Inverters,Converters,Controllers and Interconnection System Equipment for Use With Distributed Energy Resources; IEEE 1547,Interconnecting Distributed Resources with Electric Power Systems Additional Information: See the UL Online Certifications Directory at www.ul.com/database for additional information Only those products bearing the UL Certification Mark should be considered as being covered by UL's Certification and Follow-Up Service. Look for the UL Certification Mark on the product re rY,w�Mt OYsab W,Ihllwl.rn eal/I,.Ibn noFe �■ re rrnr.R.O,.ariN»nests cws.mn Meye. O u�ue L u�u.e ,MY�bsw lec.i+„Mer Y„ahYr ulbM1 wrvlu.wr,wY.Gs aYrd YL IICIW>rry MwYN k,nx,WIIL Irr Yrn00�.pr. MW�y� A��i.wnYlnWl+,nb. �s�Yd YL LIC IUL1a�V rtlwb.0 b.w..e111L.fa0a�..4 N... awr.r r.r ut c..mw aw.k.tia..w.r app�p ( Pepe t of 2 Pepe 2 of 2 S N P W E R® Technical Notification S U M P W E RO Technical Notification Title : Rapid Shutdown Compliance for SunPower Equinox""Type C AC Modules, The UL Listing for rapid shutdown applies to SunPower microinverters with the model M1-C-320-US208/240-XX T17002 (where XX=00 or higher).This microinverter is factory integrated into the Listed AC modules shown above.A close read of the Certificate of Compliance shows that the controlled conductors evaluated for rapid shutdown are the L1 Date : February 7,2017 and L2 AC output conductors and that actuation is provided by opening an AC disconnect or circuit breaker in the Author Nathan Schweller,Certification Engineer circuit.This is consistent with the above modules being Listed as AC modules. In jurisdictions where rapid shutdown is required,use SunPower AC modules and provide the relevant Listing Application : SunPower UL Listed Type C AC Modules information to your AHJ.The AC module is Listed for rapid shutdown,and actuation is achieved by opening an AC disconnect or circuit breaker.Turning the AC disconnect or breaker off will deenergize circuits both within the array as well as conductors leaving the array.Ensure that the breaker or AC disconnect is labeled in accordance with Overview 690.56(CXl xa). The Usting requirement addressed in this technical notification applies only to the 2017 National Electrical Code (NEC),which contains the following new language in 690.12: Please find on the next two pages the full microinverter Certificate of Compliance from UL: (D)Equipment Equipmen[that performs the rapid shutdown functions,other than initiation devices such as listed disconnect switches,circuit breakers,or control switches,shall be listed for providing rapid shutdown protection. Controlled conductors for the purpose of rapid shutdown in the NEC apply to both DC and AC conductors outside the array boundary.The direct current(DC)component of an AC module is considered internal wiring per NEC 690.6(A),and the output of an AC module is considered an inverter output current per NEC 690.6(B).This means that the rapid shutdown function of the AC module shuts down the array as well as the conductors leaving the array. As of November 12,2016,all SunPower Type C AC modules have been UL certified for rapid shutdown,as required under NEC 690.12(D). This UL certification applies specifically to the following UL 1741 compliant SunPower AC modules,any of which can be part of a SunPower Equinox-system: • SPR-E19-320-C-AC i • SPR-E20-327-C-AC • SPR-X20-327-C-AC • SPR-X20-327-BLK-C-AC • SPR-X21-335-BLK-C-AC • SPRA21-345-C-AC • SPR-X21-335-C-AC • SPR-X22-360-C-AC 9)nPi+wr Corporatbn propneary lnlwmatlon This dawTenr sekcvonkallycOn:npe:.the TIthe:Rapd 3fut:cr CempRanw for S,Pann Equlnoa-TypeCK 4naawer Coryoralbn proc rartaryhVwmadon.ThlsdwumP;t l•.eknronkaly[ontn,letl.the Title:Rapid 5hl.done ConVKame for RmPw Equimaa-Type CK IatW rMSItM Yao0sbk In inedowmeRmanaBement syste*.Nl prirwM caplesxe nG Modules.Tl)0. lases [[ temlonhaalYbkh:hedtnimen marM6emen:^rsaem.All pnMed cop'Ks a-es Modules.Tl]O7] <onm>AedaM maybe wtdate0ranless marked rAtha'ed MCwdroped Ctlirr Aarrp Date:031=01 nmrcMdand maybe ouWared urless mooed vANa nAInF•CusooRed Copt sta,p. Date:0]N]I:Ot? PW1ofa FGm:001-5149)Rw1 Psge 2ofa Revl S N P W E R® Technical Notification S U N P W E RO Technical Notification CERTIFICATE OF COMPLIANCE CERTIFICATE OF COMPLIANCE Certificate Number 20161112-E479127 Certificate Number 20161112-E479127 Report Reference E479127-20150916 Report Reference E479127-20150916 Issue Date 2016-NOVEMBER-12 Issue Date 2016-NOVEMBER-12 issued to: SUNPOWER CORP This is to tens!,that representaboe samples of the product as specified on this certd,cate:••ere tested according to the curtent UL requirements - 77 RIO ROBLES SAN JOSE CA 95134-1859 Permanently-Connected.Utility Interact ve Spirt Phase Micro-Inverter,Model MI-C-320-US208240-XX Where-XX-is one of the alla:red options In the nomenclature section bete r:inverter is intended for DC This Is to certify that COMPONENT-STATIC INVERTERS AND CONVERTERS input from a single photovoltaic module representative samples of FOR USE IN INDEPENDENT POWER SYSTEMS: The inverter is prodded•with transformer isolation bet:+een Input and output. COMPONENT-PHOTOVOLTAIC RAPID SHUTDOWN SYSTEM EQUIPMENT The inverter is also evaluated on PV Rapid S conductors. m equpment:ovi Lid 1 and Line 2 AC output conductors a+aluated as the controlled conductors.Actuation a provided by opening the AC See Addendum Page conductors by a breaker or other disconnect device Have been investigated by UL in accordance wth the Standard(s)indicated on this Certificate. standards)for safety: See Addendum Page Additional information: See ttte UL Online Certifications Daectcry at .v.vv.ul.com%database for additional information Onty those products bearing the UL certification Mark should be considered as being co+ersd by UCS Certification and Folio Up Service. The UL Recognized Component Mort,generally consists of the manufacturers Identification and catalog number,model number or other produn designation as specified under-NIs4 mg'for the particular Recognition as published in the appropriate UL Directory.As a suppiementary means of identifying product that have been produced under UL's Component Recognition Program.UL's Recognized Component Mark: Al may be used in contunChan Jth the required Recognized Nlarits.The Recognized Component Marks reqire ud.:hen specified I the UL Directory preceding the recognitions or under Markings'for he individual recognitions UL 1741 Invariant,Conveners.Controllers and Interconnection System Equipment.for use:•:bh Recognized components are incomplete in certain construct—al features or restricted in performance Distributed Enargy Resources capabilities And"intended for use as components of complete equipment submitted for investigation rather than for direct separate installation n the field The final acceptance of the component is dependent upon:is UL 1741 CRD for Photovoitaic Rapid Shutdo:.n Equipment installation and use in complete equipment submitted to U'-LLC CSA 22.2 No,107.1.1.General Use Po::or Supplies Look for the UL Certification Mark on the product. �_ .e,>., tit u� -.....................«.....�.... U� � .r:.'•:�"'.,....., ur,w,..�.-„.............w r...-....,.-... �� i..�,. tit 2 -_:n12 $UNP7NER"and Ne SUNPO'/rER:6[arc[rademarb or rcgsirced trademkda M SUnpONer Eorpora[bn. D 20175unp—Corpomk,.At dgies reserved.5p incPtI a lnckded In this docum—.-sublet[to change 11.hn i Scnaarer Corpara[Im pro::etary l�farinstlon.Thssdaumc-�t eelecemkYyconmied The TUe:Rapid SYuilvarn Ctmpliance for SunCcwer EtWnot"Ty"CK ANorrer foryora[lan qo:•etary'IMarma[ion.This dauniettheknlonically com•�il.•d,rtM Tide Rapid Si-,f in Canpkance for Swpoi,er Elwnoa-Type CK bran revlslonhaWiNble in iredon Tmem management-stern.All primed raPks am net Mpdules.Tl70M, W[es[;evhlmhaall. ei'tedw-u —management:system,All printed copies err lnt NotlWes•T12a72 [ontrrled and myM w[dsrtdunless marked vdNartd ink•Cmbdkd Capy'sump. Date:D2/a)/2at7 n:resed and maybe andned unless marked wlUarM ink Yontrdletl Copysomp. one:02/a)/Iat7 p4e3of4 famr.7p1.51 a99 Revl pageaofa Fnm.e01-514991kev1 CERTIFICATE OF COMPLIANCE CERTIFICATE OF COMPLIANCE Certificate Number 20150223-E466981 Certificate Number 20150223-E466981 Report Reference E466981-20140903 Report Reference E466981-20140903 Issue Date 2015-FEBRUARY-23 Issue Date 2015-FEBRUARY-23 Issued to: SUNPOW ER CORP This is to certify that representative samples of the product as specified on this certificate were tested 77 RIO ROBLES according to the current UL requirements. SAN JOSE CA 95134-1859 Additional Information: InvisiMount achieved a system fire dassificabon'A'for a steep-sloped roof when tested in This is to certify that MOUNTING SYSTEMS,MOUNTING DEVICES,CLAMPING combination with Sunpower Corp:Models SPA-XYY-###,where YY represents numbers 18,19,20 representative samples of DEVICES AND GROUND LUGS FOR USE WITH or 21,and###represents any number from 365 to 310 and 274 to 233;SPR-EYY-###,where YY PHOTOVOLTAIC MODULES AND PANELS represents numbers 18,19,20 or 21,and###represents any number from 345 to 265 and 250 to 225. All models identified must have the Gen 5 frame and have a Type 2 module characterization. USL-InvisiMount Mounting and Bonding Systems for use with The system fire test method was in accordance to Standard for Safety for Flat-Plate Photovoltaic Photovoltaic Modules,consisting of the following components: L- Modules and Panels, UL 1703,3rd Edition,dated May 20,2014. Foot,Rail,Rail Splice,Mid Clamp,Ground Lug Assembly. These system components have also been evaluated for a Class A System Fire Classification for a steep-sloped roof with Type 2 modules. (See addendum page for additional information.) Have been investigated by UL in accordance with the Standard(s)indicated on this Certificate. Standard(s)for Safety: UL Subject 2703,The Outline of Investigation for Mounting Systems,Mounting Devices,Clamping/Retention Devices,and Ground Lugs for use with Flat-Plate Photovoltaic Modules and Panels Additional Information: See the UL Online Certifications Directory at www.ul.com/database for additional information Only those products bearing the UL Listing Mark should be considered as being covered by UL's Listing and Fallow-Up Service. The UL Listing Mark generally includes the following elements:the symbol UL in a circle:®with the word"LISTED';a control number(may be alphanumeric)assigned by UL;and the product category name(product identifier)as indicated in the appropriate UL Directory. Look for they UL Listing Mark on the product. p n 1MW RC�xI.pMx•/1bA MwIt�OMctix i,xr�x U� iMNwnRCmf.Ormv,brTMMke OMIMMonhgrnn O W LLC VLLLC `tlINw�WonM lmwnxixlxoltF�11L 14A xnta�nra,IW an YI,nJ IM1 ILCIW x/r)s11wbN Y:Mnxan 111 WrP�VWx aorW��'ipxl UL Mnn� a OI�Xa YL LLCIW x�rIMpbConx.af k.Iw P�IYnl Vsx •be+LL C,alenr YnW IYpxMtlM Yam' Page m or 2 Page 2 of 2 u -• ' 1A ' r - At 7 � v I' .t. Improve Support, SunPower Monitoring Solution, SunPower Monitoring Website PVS5x SunPower AC Modules Reduce Maintenance Costs Plug and Play Installation An intuitive mo•li;oring website enables you to: phis complop.,^.;unon for resider Gal monitoring includes the • See a visual rnap of homeowmr vies SunPower'r:Supervisor 5X(P\155x)which improves the installation - Multiple communication r•. Supports SunPower 96-cell process,over,I smem reliability,and customer expe•ierce. -- _- ------ options include Ethernet, AC modules,DC string Remotely manage hundreds of site,; .. _._... PLC,Wi-Fi,and cellular '! inverters,and hybrid(DC • Receive eleu:ve system reports Compact fro':print for improv=d aesthetics - and AC)systems Locate system issues and remotely diagnose Robust c'eud connectivity and comprehensive local corinectmity Flexible-,o-riguration of devio_s&ring installation N • Diagnose Issues online '-- • Drill down rnr the status of inomdual devices Consumption monitoring -- - Revenue-;trade production moNtormi; "` " ' '•fp�r �i'_:: Web-based,o•nmis5ionmgapp Remote diagncsucs Of PVS5x and inverters __ .. Crn�Fali6!e$tin^- A dines ... - --. • �em,e7- 30°CIoIUYC;22°�10 14(1°_ .' ....r .. •- :u'rM).n• e11AC VrxlulrS tFS; t' 1 Durable NEM1M 3R enciosu e r=,ucu mmntenonce coats (numt>Fr wppwte It-er-�S4q - ----- _ y to laxlmwnl `3 ab r r io�ning _- � __ punrber.wpprxl dlrr'VSSxI _cnrc(t(;i SJA(10AA33('�1 `fit+ :. 1 .m^' 'Jt"'W ^'IT71R4S3NF>LCr Ig h sT .I1 PI' b£gep....�. �• nlernM Aucv y < t Is+ pistil ry.tf A Ar�t P�., er tx s\vnrr, RS 05 C firl rY el AC mud les {L t�It,idR �'>e 8 - _ _ _. -- Orwrhi H f e+emrgrarkFvaLnitxl riie(eiklg(A\S '+4egn writ.Vwnv,g I 2C Ox.0:;)itld nw rhanrieh d rw nleteru,g Robust Cloud Connectivity Add Value for Homeowners ❑ia wA4&.d-AN l.tt Multiple option,to maintain optimal I, -,�( -:,it t ---- — — — WiththeSurlPowerMonitoringSyster. - - --- ---COM2CLiVlty: . „,C ( wry I r •^lug AV uar da.dc mur aiian le>_c dw r er h-,wing homeowners-ar: -- ------_. ....- —-- --- - - See what Hardwired ElI-rnet Gld.-Raring -Ar3R u, _-- 802,11 their solar systemprorl_c� eac day,morin or year ). ....3M1r�t✓ txPr,.-.-�r7 Power Line.f_emrnunication(Pl.-) ct4hi'l_ lC uu - Optimize their solar investment and save on Wi-PI Zg1:e .a I r 1 t _�cele�rudmgt P -lan'Mrnvrlwwk-4 m02911 4FF*"r Rr:rtilrrwrr nu>icx ryU ;.,Mnln energy expense s. !:I'�.',. _- - K"In 'r tr53..1.". ill exan.,l,•.✓:I.I.uk—ih•f See their crier Y•use and estimat-J bill savings �anrx.wet»te .,,err,nn,lrx rn,nrw""e< __ ----- -- ------- Jem x y z can- ara -�ornK salart Clra n:-1 Expx;rer I ra RAar • See their so!ar ystem's performance using the yotx!e Drtvkes �%h:xrc•,I�au'.and And'-J" oma,on%g 6odays---- --- SunPower mcm.toring website or Tr-hilp app -lwneo vrttUr API .Createar. urt Incaim Ilpgrnrl:�: NnumaC:rr,-eucgradm Iwti�rr,.wr rnm. 'into rnUhede�.tte,J:.•:nkvtl llk?Sun?n+rer l' .—_— --..___ ------- in L:uPP y � m✓yrpleApp 5 n ":;r C•nogle play"core.Y ....r am,.• in umg - xr ':,.rl.rnd txassxnrd. - / � Warr,my IC yfa ---I'Va only '613161 _ - Supports Multiple Inverter Types — -- — Sipports S.InPaner 96-cell AC-n rl1..l systems DC st I t, wt. -I.. and hybrid tK and AC)systems r�wrtrlaAt�r�r• -4 FCE c®• USM FCC ID:YAW 513402 ITE:E477122 Part# Box Quantitv Screw Size 1® 17585 10 Hooks Not Included (0co 17586 1 Hook Not Included17587 10 Hooks&20 Screws 5i 16"x 3"17588 1 Hook&2 Screws 5�16'x 3" M 17589 10 Hooks&20 Screws 914 x 3" X1� 17618 1 Hook&2 Screws 914 x 3" Type 304 Stainless Steel =C) A L L TILE ROOF HOOKS For Side Mount Rails \fin .r hi INSTALLATION INSTRUCTIONS RECOMMENDED MATERIALS �:. •Rafterlocater •Chalk or crayon nr •Sealant " fi •Grinder(tiles may hove to be notched before placing back on roof) IL er INSTALLATION INSTRUCTIONS `" 1.Remove the tiles from the area in which you will be installing. 2.Locate and mark the rafters. Rwt 3.Place the Hook and predrill two holes with the 3/16'Drill Bit. -- ------ - --._ 4.Remove the Hook,clear the debris,and fill the predrilled(roles with Letter Description SizelLen th 2 sealant. A Mounting Screw Slots 9mm x 18rrun 5.Place and mount the Hook using the Solar Screws. B Rail Slot Size 10mm x 46mm C Length of Roof Hook 179 50mm ADJUSTABLE HOOKS ID Bottom End to Top End 165.30mm-173.50mm •Adjust the Hook as need be either before or offer mounting the Hook. E Thickness 6mm Use our a14 or 5116' .r Is •The ideal location For the Hook on Curved Tiles is over the valley of Solar Mounting Screws A 3. ► � the file to minimize drainage. 54mm CD v CD CD 1' IF USING ALUMINUM FLASHING CD CD CD CD CD 6.Make a cut in the paper to fit the Aluminum Flashing. 122mm 30mm 25 50mm 7.Apply sealant to the underside of the Aluminum Flashing. D =Bmm 8.Slide the Flashing undeneath the paper or nail down edges. B 9.Cover the edges of the Aluminum Flashing with Sealant. 68mm .� nify�Lr.r Rail Slot Accepts PLACE THE REMOVED TILES BACK ON TO THE ROOF 5116•or 3t8'Botts m 95° m . 0 8.7Mmm � I121mm 38.50mm1 95 8.70mm 016120mm 5 = •'+ A 140mm E 5830 Las Positas Road,Livermore,California 94651 13948 Airway Drive,Rock Hill,South Carolina 29732 INSTALLATION VIDEOS,SPEC SHEETS,8.TEST RESULTS AVAILABLE ON Phone:(844}671-6045 (Fax:(800)-689-7975 j www.solarroofnook.com W W/W.S O L A R R O O F H O O K.C O M solarroofhook.com is a division of Quickscrews International Corp. Join Rails Depending on the roof slope and other factors,you may instead decide to Join rails on the ground before transporting them to the rooftop.The rails and the splices have pre-drilled holes for the splice screws. �`GP Important!The rail splice is an integral part of the � # ground path.There must be no interference :• between the splice screws and the L-feet. Therefore,ensure that the splice screws will not interfere with your eventual attachment of the rail to the L-feet 1. Fit a splice halfway into a rail end,align the In vi s i M o u n tT M Residential splice holes with the rail holes,secure the components so that they will not move,and Fig.1 then drive a splice screw through the aligned _ hole pair that's nearest the end of the roil("1;'Fig. Mounting System 1),stopping 113 turn after the screw face has Only 1/3 turn more contacted the rail face(rig.2).(Doing so will provide approximately 40 in-lbs[4.5 N-m]of after screw face torque.)Drive another screw through the other contacts rail face hole pair in the same manner("2,"Fig.1),and INSTALLATION GUIDE then use a torque wrench to verify and(if I necessary)apply final torque. If a screw becomes dull and prevents smooth, consistent penetration of the splice,use a new screw in the original hole.If a screw breaks,drill a new 5 mm hole in the rail and splice no nearer Fig'2 than 1/2"(1.3 cm)from the original hole,and drive a new screw through the rail and into the splice—do not reuse the original hole. These instructions describe attaching the rails parallel to the peak")and installing the modules on the rails in 2. Fit the second rail all the way onto the splice portrait position(the most common oonfiguration�The rail length is optimized for 72-and 96cell SunPower protruding from the first rail,and align the modules:one rail accommodates 3 modules in portrait position or 2 modules in landscape position.SunPower respective holes. provides neither guidance nor recommendation for the method you choose to attach the L-feet to the roof. Note.The rail holes and splice holes must be Your array should be fully designed and all required permitting obtained before you begin.Access the Dealer Portal aligned;the rail ends are not required to be in and refer to the SunPower InvisiMountr"bill of materials(BOM)generator tool to obtain the correct span between contact with each other. attachments.B is acceptable to attach either to the rafters or to the roof deck. Note.The maxi mum distance between roof attachments(L-feet)is 72"(188 cm} Sunvo— Proprietary I Sun Polder Proprietary 2 3. With both rails still secured,through the two 6. L-feet must be positioned such that the L-foot- holes in the second rail,drive two of the screws r to-rail bolt is a minimum of 2"(5 cm)from the Top view in in the same manner and sequence:the screw Top p channel end of a rail(Fig.6);and a minimum of 2"(5 cm) nearest the rail end goes in first,such that there from any rail joint(Fig.7). ------ are four screws per splice—two through each ARM M---___— rail end(Fig.1,second rail not shown). Install Flashings, Roof Min. 2" Attachments,and Rails • - �5 cm) 1. Define the installation zone on the rooftop and mark it for penetrations as necessary. 2. Referring both to the flashing flf appropriate for the Fig.3 Fig.6 roof type)and to the attachment manufacturer's documentation., Side view a. Install all of the flashings. Min• 2" b. Install all of the roof attachments. • (5 cm) c. Attach an L-foot to each of the roof ___Rail 1 __Rail 2 attachments according to the method _ described by the attachment L-fn o t manufacturer's documentation.Leave the Bolts attaching hardware finger-tight for the Min• 2"_ moment. {5 cm 3. Position the rails an the roof,adjacent to the L- Fig.4 feet and such that the side channel of each rail is facing the roof peak(Fig.3 and Fig.5). 7. Attach the rail to the L-feet by fitting the rail Fig.7 Important!To ensure precise alignment with the bolts through the slots on the L-feet and then array's footprint(perimeter,),cut rails only after PeQk finger-tightening an M10 nut on each of the you have adjusted them to an even height and f bolts. fully secured them to the L-feet. �VVF , • 4. For each rail,determine the number of L-feet to / Position each bolt t the which it will attach,and then slide that number v midpoint of the verr at slot of bolts into the rail's side channel(bolt heads fit / O its L-foot(Fig. rtThis will provide into channel;Fig.4). the greatest vertical adjustment L-foot flexibility. 5. Position the rail—with its side channel facing flexibility. toward the peak—adjacent to and"below" (relative to the peak)the L-feet for the given row (Fig.5)• Fig.5 Note.L-feet must only"face"the peak(Fig.5). Fig.8 SunPo—Proprietary SunPoaer Proprietary 3 4 S. To ensure that the installed modules will appear i nstalll Modules as an even plane,SunPower recommends that i ILevel rails Is before Side view you use a string line and level(or other method) I j trportant!ff an L-foot in its final instilled position (Figto . 9)re that the top surface of the rails is even installing modules extends abo►ethe top surface of the rail,you must g ensure that the L-foot dos riot contact anypart of 9. After you are satisfied that the rails are level, M _ the module or module fiame(Fig.1% tighten each L-foot nut to 375 t 20 in-lbs(42 t 2 N-m). NNrnfngr Do not step on,stand on,or walk on the j modules or the module frames,and do not place Rail Note.The L-feet should still be only loosely anything whatsoever on them—even for a moment attached to the roofattochments. � — — 1. Slide an end damp over the same end of each of 1 G.Tighten all of the L-foot-to-roof-attachment the row's two rails,such that the clamp opens II hardware according to the attachment away from the roof peak(Fig.2%Position the Fg.19 manufacturer's instructions. ��� damp near the end of the rail. Note.End damps are rat part of the system Peak ground path. Fig.9 2. Position the first:module atop the rails. I� Always have two workers transportand position each 91 module. • J"portaWlf you are installing modules in • landscape position,ensure that you review the module positioning table at the beginning of this section. II Fig.20 3. Move the first module into position near the end of the rails,and then reach under the module"... and slide the end damps toward the rail ends, ensuring that each damp fits over the module frame edge as far as it will go(Fig.21} r. Note.clearance between the roof surface and the modules is a function of the roof attachment method chosen., II Fig.21 Sun power Proprietary SunPower Proprietary 5 6 4. Keeping the two end clamps in full engagement 9. Tighten each of the two mid clamps to 85 15 in- with the module frame,adjust the module so ► Ibs(9.6 N-m).(You tighten the mid clamps per that the module edge is aligned with but covers module as you tuild the rows.) ,K up the ends of the rails(Fig.22;the rails are hidden just beneath the module edge). Important)Each mid damp's four teeth must solidly engage the module frames-to ensure 5. Tighten each of_he two end clamps to 85 t 5 in- continuity of the module-rail ground path(Fig. Ibs(9.6 N-m). 25). Rai I ends I O.Adding a pair of mid clamps per module,repeat hidden Steps 6-9 until you have installed all except for the last module in the row. Note.Pay close attention to the module-to- module alignment as you add modules. ti 11.Position the[as-:module in the row at what will Fi 22 be its final installed location. g• 12.At the point where the outer(perimeter)edge Fig.25 of the module contacts the rails,mark each of y� the rails,and then remove the module. Note.Alternatively,you can measure the distance(or use a jig you may have fabricated) 6. Fit a mid clamp down into the top channel of instead of placing and removing the actual last each of the rows rails,rotate it 9C°(Fig.23),and module. slide it toward the first module.Leave the two 13.At the marks you made,cut each of the rails. mid clamps loose for now. 14.Reposition the last module and then repeat Note.Strategically position the mid clamps Steps 3-5 to secure it with end clamps. along the rails according to your chosen build 1 E.Fit an end cap into each end of each rail, strategy. Fig.23 tapping it in fully with a rubber mallet(Fig.26). j 'µ...r'f;f J 7. Position the second module next to the first module. Fig.26 oa t� S. For each of the two mid clamps:fit one side(two • teeth)of each clamp over the respective adjacent frame edge of each of the two modules (the first and second modules)(Fig.24;second module not shown). Fig.24 SunPower Proprietary Sun Power Proprieary 7 8 Grounding Overview If you are installing SunPower AC Modules on the SunPower InvisiMount'"'mounting system(or any mounting system that is Listed to UL 2703 for bonding—not just for fire classification),no additional Warning.!Ensure that you fully understand the grounding aspects in this section before proceeding. grounding wire is required: This section is intended to provide a well-rounded understanding of all aspects of grounding for SunPower . The SunPower AC Module is one of the components that bonds all of the metallic noncurrent carrying 96-Cell AC Modules when they are installed with the SunPower 1 InvisiMount-Residential Mounting System; components in the system,and is Listed to UL 1741. it contains excerpts from the SunPower 96-Cell AC Module Design and Installation Guide(#515791; unreleased);and the SunPower AC Module Safety and Installation Instructions(#51744);as well as • As part of UL 2703,only AC equipment grounding requirements apply—not DC system grounding references to the applicable NEC Articles and UL Standards. requirements nor DC equipment grounding requirements. The InvisiMount system is Listed to UL 2703 for integrated grounding;SunPower AC Modules are a bonding • The equipment grounding conductor(EGC)that's built into the module's AC cable system is sized component and are Listed to UL 1741.If you are installing SunPower AC Modules on the InvisiMount appropriately and meets all of the AC equipment grounding requirements for the system. system,no additional grounding hardware,lugs,or copper wire are required on the roof. • The AC dedicated branch circuit wiring from the readily accessible disconnect to the array must include an equipment grounding conductor(EGC)in the same raceway or cable as the AC circuit conductors.This EGC must be connected to the green conductor of the transition cable,which is part of the AC module cable system. • If a module is removed from a circuit,you must install a temporary EGC to bridge the gap by inserting an Trans cableAC extension cable or other means,in order to maintain effective ground continuity to subsequent modules. box douse groundBecause the modules are connected in a"daisy chain"fashion,disconnecting one module from the circuit ArrayJC,__,'Tra- using the AC cable removes voltage and ground from the other downstream modules in the circuit. ----- Extreme care should be taken to ensure that no other energized sources are adjacent to these ungrounded modules,otherwise auxiliary grounding methods must be applied. • Because the DC power is internal to the module,a grounding electrode conductor(GEC)for the module or array is not required.The existing AC GEC at the utility service serves as the NEC-required GEC for the structure. 5 lice Mid End AC • The AC cable grounding path has been tested by a NRTL,and its electrical continuity from the AC cable L•toot Rail screw Splice clamp damp Module ground pin to the module frame has been certified. IL low i � • The AC module interconnecting cable system provides an internal EGC for grounding the AC modules-It c' �" is the installer's responsibility to ground any metallic mounting structure according to local code. Installers must ensure that whichever mounting system they choose is then grounded according to the instructions of that mounting system.Some mounting systems can be bonded to the AC modules with listed devices.Consult the module's included safety instructions for details. p Neither the AC modules nor the array require a GEC,and the neutral conductor within the AC module is S U N P Y/�/Y E It isolated from ground.The AC module must be connected to a dedicated AC branch circuit with the neutral conductor referenced at the building service entrance. • The AC interconnecting cable system attached to each module's microinverter is fully insulated and includes an internal EGC.The grounding pin is longer than the others in the plug. 4 S.P—Propmory 10 swpa propmary The ground path from the transition cable to the module frame is as follows: • The transition table's green conductor is connected to the EGC from the utility dedicated branch • 690.48 applies,but isn't relevant. circuit. . 690.49 does not apply. • All plugs have ground pins that are longer than the circuit pins.This extra length ensures that the . 690.50 applies,but isn't relevant. ground is the first to make contact when connecting modules and the last to break contact when disconnecting modules. Note as well that Section 4.1 of the SunPower AC Module Safety and Installation Instructions(#51744) • The AC ground wire inside the microinverter terminates on the microinverter chassis with a bolted explains: connection,and is environmentally sealed. As a Listed product,"SunPower AC modules shall be installed and used in accordance with any instructions • The microinverter chassis is bonded to the module frame with stainless steel hardware to provide included in the listing or labeling"(110.3(B)). In addition,SunPower AC Modules"shall be grounded using ground continuity to the module frame. the integrated equipment grounding conductor....no additional grounding conductor attachment to the SunPower's AC Module includes an factory-integrated microinverter(MI)that does not require a neutral wire AC module is required." to be connected to it for operation or for compliance with IEEE 1547.Power produced is conducted on the L1-L2 240 VAC or 208 VAC grid connection.Utility interactive functions in the MI circuitry have been evaluated to IEEE 1547,and use the ground wire instead of the neutral to determine grid values.This Prepare Modules and Transition Cable functionality is part of its UL Listing. This product must only be connected to a single-phase system(L-L)of a premises with the neutral(N) Performing efficient wire management steps before transporting modules to the roof can greatly simplify bonded to ground at the service entrance per code.The MI does not reference the N to ground internally, installation of the array. therefore this reference must be accomplished only at the service entrance.Ensure that the installation site Important!SunPower recommends that you use only cable clips,connector clips,and the proximity of the has a high-quality N-to-ground reference at the service.The MI determines L-N voltages based on rails to secure the cables—cable ties(also called"zip ties"or'tvire ties%are not recommended, measuring internally from L to the MI chassis,which is connected to the EGC. NEC Compliance and the Ground Path Important!Use caution when unpacking each module to ensure that the cable ends do not accidentally swing free and cause damage to the module backsheet. The following are the grounding-related NEC Articles and applicability for SunPower AC Modules on Before transporting modules to the roof: rooftops: • 690.41 does not apply to AC modules. • Leaving the metal cable clips securely attached to the module frame,carefully remove the cables from the clips. 690.42 does not apply to AC modules. . Leave the plastic connector clips secured to the module edge(each holding a plug or receptacle). 690.43 covers equipment grounding,which is the only required type of grounding for an AC module. Ater modules are in place in the array. • 690.45 specifies that EGCs should be sized based on 250.122. • Leaving each plug and receptacle attached to their connector clip,remove the two connector clips from • 690.46 modifies 690.45 when the EGC is not protected within a raceway. the frame by following the steps in Section 2.32. 690.47 does not apply to AC modules: • Connect the plug and the receptacle to their respective mates in the circuit,still leaving the connector • 690.47(A)does not apply when installing an AC system.The AC"system"was already existing on the clips attached. premises,and hence you are installing AC modules on the AC system. . Reattach the connector clips to the frame by following the steps in Section 2.32. • 690.47(8)applies to DC systems;it does not apply to AC modules.690.47(C)does not apply(see 690.47(B)). Fit the cables back into the cable clips on the module frame. • • 690.47(D)only provides guidance for a"dc grounding electrode conductor." I1 S.P—ftp—ry 12 Snpp propewy Product Data Sheet HOM612L100RB As standards.specifrations.and designs change from time to time,please ask for confirmation o(Ihe information given in This document. LOAD CENTER HOM MLO 240V 100A 1PH 6SP dv SchnrlArr:i.::-. List Price S129.00 USD Availability Stock Item:This item is non naay stocked in our distribution facility. roxyr Technical Characteristics Ampere Rating 100A Bus Material TM Poled Aluminurn Enclosure Type OutdoeriRainproof Box Number 2R Enclosure Raft NEMA 3R Main Type Fixed-Factory InslaBed main lugs Grounding Bar Order separately Maximum Single Pole Circuits 12 Application Design ed to meet residential,commercial and industrial requirements to protect electrical systems,equipment and people. Approvals UL Listed Sh on Circuit Conical Rating iOkA Cevm Type Combination Flush/Surface Marketing Trade Name Homaine Maximum Tandem Circuit Breakers 8 Phase 1-Phase Depth 4.27 Inches Spaces 8 Voltage Rating 12=40VAC W re Size 41111 to a1 AWG(AlfCu) Wring Confgura8an 3-yare Height 112.85 Inches W dth 8.88 inches Notes: 70A(max)branch mcull breaker and 100A(max)back fed main circuit breaker. Shipping and Ordering Category 00149-Load Canters,NEMAt d 3R,2.8 Circuits,Type HOM Discount Schedule OE3C GTIN 00785901081205 Package Quantity 1 Might 9.92 Sri. AtailabAGy Code Stock Item:This gem is normally stocked in our distribution facility. Retumati0dy Y Country of Origin MX C eon Sdnaider FJeMc.All ngats rssaved. Schneider „ c-,w 3 Schnalder Secaic.All rr Schneider Yt'vr.p-i ahta reeeneQ 'Electric VElectric