Loading...
14030116CITY OF CUPERTINO BUILDING PERMIT BUILDING ADDRESS: 21044 LAURETTA DR CONTRACTOR: VIVINT SOLAR PERMIT NO: 14030116 DEVELOPER LLC OWNER'S NAME: YEN-KUANG CHEN 1939 HARTOG DR DATE ISSUED: 03/19/2014 OW R'S PHONE: 4082561618 SAN JOSE, CA 95131 PHONE NO: (855) 877-2974 LICENSED CONTRACTOR'S DECLARATION JOB DESCRIPTION: RESIDENTIAL ❑ COMMERCIAL -7 f Z % 7 License Class Cho Lie. # q I INSTALL 22 ROOF TOP FLUSH MOUNTED PV PANELS (4.5KW) Contractor v, �) Jy lar Dene 1 J91051atIe 'j V P I hereby affirm that I am licensed under the provisions of Chapter 9 (commencing with Section 7000) of Division 3 of the Business & Professions Code and that my license is in full force and effect. I hereby affirm under penalty of perjury one of the following two declarations: I have and will maintain a certificate of consent to self -insure for Worker's Compensation, as provided for by Section 3700 of the Labor Code, for the Sq. Ft Floor Area: Valuation: $22000 of the work for which this permit is issued. Jperformance I have and will maintain Worker's Compensation Insurance, as provided for by Section 3700 of the Labor Code, for the performance of the work for which this permit is issued. APN Number: 32654032.00 Occupancy Type: APPLICANT CERTIFICATION I certify that I have read this application and state that the above information is PERMIT EXPIRES IF WORK IS NOT STARTED correct. I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives of this city to enter WITHIN 180 DA RMIT ISSUANCE OR upon the above mentioned property for inspection purposes. (We) agree to save 180 DAY D INSPEC ION. indemnify and keep harmless the City of Cupertino against liabilities, judgments, costs, and expenses which may accrue against said City in consequence of the / granting of this permit. Additionally, the applicant understands and will compl Date: with all non-pointsourc egulation r the Cupertino Municipal Code, Section 9.18. RE -ROOFS: Signature Date All roofs shall be inspected prior to any roofing material being installed. If a roof is installed without first obtaining an inspection, I agree to remove all new materials for inspection. ❑ OWNE -BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law for one of Signature of Applicant: Date: the following two reasons: I, as owner of the property, or my employees with wages as their sole compensation, ALL ROOF COVERINGS TO BE CLASS "A" OR BETTER will do the work, and the structure is not intended or offered for sale (Sec.7044, Business & Professions Code) I, as owner of the property, am exclusively contracting with licensed contractors to HAZARDOUS MATERIALS DISCLOSURE construct the project (Sec.7044, Business & Professions Code). I have read the hazardous materials requirements under Chapter 6.95 of the California Health & Safety Code, Sections 25505, 25533, and 25534. I will I hereby affirm under penalty of perjury one of the following three maintain compliance with the Cupertino Municipal Code, Chapter 9.12 and the declarations: Health & Safety Code, Section 25532(a) should I store or handle hazardous I have and will maintain a Certificate of Consent to self -insure for Worker's material. Additionally, should I use equipment or devices which emit hazardous Compensation, as provided for by Section 3700 of the Labor Code, for the air contaminants as defined by the Bay Area Air Quality Management District I performance of the work for which this permit is issued. will maintain compliance with theertino Municipal Code, Chapter 9.12 and I have and will maintain Worker's Compensation Insurance, as provided for by s 5 the Health & Safety Code, Sectio 5 25 , and 25534. Section 3700 of the Labor Code, for the performance of the work for which this Owner or authorized i permit is issued. agent: Date: I certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as to become subject to the Worker's Compensation laws of California. If, after making this certificate of exemption, I CONSTRUCTION LENDING AGENCY become subject to the Worker's Compensation provisions of the Labor Code, I must I hereby affirm that there is a construction lending agency for the performance of forthwith comply with such provisions or this permit shall be deemed revoked. work's for which this permit is issued (Sec. 3097, Civ C.) Lender's Name Lender's Address APPLICANT CERTIFICATION I certify that I have read this application and state that the above information is correct. I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes. (We) agree to save indemnify and keep harmless the City of Cupertino against liabilities, judgments, ARCHITECT'S DECLARATION costs, and expenses which may accrue against said City in consequence of the I understand my plans shall be used as public records. granting of this permit. Additionally, the applicant understands and will comply with all non -point source regulations per the Cupertino Municipal Code, Section Licensed Professional 9.18. Signature Date CITY OF CUPERTINO VMS FEE ESTIMATOR — BUILDING DIVISION v ADDRESS: 21044 LAURETTA DR DATE: 03/19/2014 REVIEWED BY: MELISSA RMN APN: 326 54 032 BP#: 7 6 *VALUATION: 1$22,000 *PERMIT TYPE: Building Permit PLAN CHECK TYPE: Alteration / Repair PRIMARY SFD or Duplex USE: 0.0 PENTAMATION SOLAR -RE PERMIT TYPE: WORK INSTALL 22 ROOF TOP FLUSH MOUNTED PV PANELS 4.5kW SCOPE NOTE: This estimate does not include fees due to other Departments (i.e. Planning, Public Works, Fire, Sanitary Sewer District, School District. etc.). These fees are based on the nreliminary information available and are only an estimate. Contact the Dent for addn'l info. FEE ITEMS (Fee Resolution 11-053 Eft. 711113) Mecc/d. M'ar! C&"( Aul,. ED -L- In.i/). V11"C" 0111 ccv Pllurnh 1`f'IS'pL1_L___ IIllifllb he- "'Pd'&'L', Of/ie?E a<i Inv'Lj SiC£:. Im") F"'v' NOTE: This estimate does not include fees due to other Departments (i.e. Planning, Public Works, Fire, Sanitary Sewer District, School District. etc.). These fees are based on the nreliminary information available and are only an estimate. Contact the Dent for addn'l info. FEE ITEMS (Fee Resolution 11-053 Eft. 711113) FEE QTY/FEE MISC ITEMS Plan Check Fee: $0.00 # $229.00 Alternative Energy System IPxoTovREs Photovoltaic System Suppl. PC Fee: Reg. ©OT 0.0 hrs $0.00 PME Plan Check: $0.00 Permit Fee: $0.00 Suppl. Insp. Fee: Reg. C) OT 0.0 hrs $0.00 PME Unit Fee: $0.00 PME Permit Fee: $0.00 F7 ... 0 Work Without Permit? 0 Yes Q No $0.00 Advanced Planning Fee: $0.00 Select a Non -Residential Building or Structure E) Tl­alxel Oot mri cyltation Fe('S Strong Motion Fee: IBSEISMICR $2.20 Select an Administrative Item Bldg Stds Commission Fee: IBCBSC $1.00 SUBTOTALS: $3.20 $229.00 TOTAL FEE: $232.20 Revised: 01/15/2014 c0 r CUPERTINO ALTERNATIVE ENERGY PERMIT APPLICATION COMMUNITY DEVELOPMENT DEPARTMENT • BUILDING DIVISION ll� 10300 TORRE AVENUE • CUPERTINO, CA 95014-3255 �AV (408) 777-3228 •FAX (408) 777-3333 • buildinp(c)cupertino.orq PROJECT ADDRESS L a u r" Dr APN 9 32(o — 5 4- 032 OWNER NAME ` ,� r0 n PHONE �On _^ _ �� I p E-MAIL STREET ADDRESS ^ I r,/ ( LQq (fir L �/`� 'J b 5 .rTE,Z� � 5DI FAX UPHONEih' , 1 CONTACT NAME Q N � �q tub_ 5�0 -0132 E-MAIL q►1 OSC'Solctr tnv�► Su a1- . STREET ADDRESS `� TY, ❑ OWNER ❑ OWNER -BUILDER ❑ OWNER AGENT ❑ CONTRACTOR 2-50� RACTOR AGENT ❑ ARCHITECT ❑ ENGINEER ❑ DEVELOPER ❑ TENANT CONT ACTOR jME;IViqt%or LICENSE NUMBER h LICENSE TYPE C 4bBUS. LIC nY ; 9-�,� SIM OMPANYNAME ,V) ^r' or /E hn�,.` �,! �n E-MAILs^�. ^�(J Vi V1gsOr l� FAX STREET ADDRESS jq hr hr 11��( I✓ CI Y, T ZP S 3 PHONE ARCHITECT/ENGINEER NAME LICENSE NUMBER BUS. LIC 9 COMPANY NAME E-MAIL FAX STREET ADDRESS CITY, STATE, ZIP PHONE USE OF ❑ SFD or Duplex ❑ Multi -Family STRUCTURE. ❑ Commercial PROJECT IN WILDLAND URBAN INTERFACE AREA ❑ Yes ❑ NO PROJECT IN FLOOD ZONE ❑ Yes ❑ NO ❑ SOLAR PANELS ❑ ELECTRIC VEHICLE CHARGING STATION ❑ SOLAR WATER HEATING ❑ OTHER: b FOR SOLAR PANE! S. NUMBER OF PANELS/UNITS: # KILOWATTS: 1�J TOTAL VALUATION. , /vC)o DESCRIPTION OF WORK fk,s� D BYC By my signature below, I certify to each of the folio ng: application and the information I have provided i n-ect. ordinances and state laws relating to building c structio Signature of Applicant/Agent: I am the pro y owner or author' agent to act on the prop owmer's beI I have rea ]have re t e D cription of Work and verify it is accurate. I agree to c ply with all a e local . I auth .z r r tatives of Cupertino to enter the above -identified pr Inspection purposes. Date:3119114 SUPPM TAL IN ORMATI SQUIRED OFFICE USE ONLY ❑ OVER-THE-COUNTER Y ❑ EXPRESS U U ❑ STANDARD ❑ LARGE il'. MAJOR'. PV,App_2012.doc revised 06'20/12 3W Patricia Garcia From: Frances Lin [franceslin16@yahoo.com] Sent: Wednesday, May 06, 2015 4:33 PM To: Patricia Garcia Subject: building permit #14030116 Hi Patricia, ti k 0- / just called. We didn't go with this vendor to install our solar panel. So please recycle the plan. / /�j't/ Thanks, Yen-Kuang Chen (� 21044 Lauretta Dr.NA., Cupertino, CA 95014 Vivint Solar - PV Solar Rooftop System Permit Submittal Project Name: YEN-KUANG CHEN Project Address: 21044 Lauretta Dr, Cupertino CA A. System Description: The array consists of a 4.5 kW DC roof -mounted Photovoltaic power system operating in parallel with the utility grid. There are (18) 250 - watt modules and (18) 215 -watt micro -inverters, mounted on the back of each PV module. The array includes (2) PV circuit(s). The array is mounted to the roof using the engineered racking solution from Zep Solar. B. Site Design Temperature: (From San lose Int'I AP weather station) Average low temperature: -3.6 °C (25.52 °F) Average high temperature: 40.9 °C (105.62 °F) C. Minimum Design Loads: Ground Snow Load: 0 psf (ASCE 7-10(7.2)) Design Wind Speed: 100 mph (ASCE 7-10(26.5.1)) 2. Structural Review of PVArray ourlti 1 Systems A. System Description: 1. Roof type: Comp. Shingle 2. Method and type of weatherproofing roof penetrations: Flashing B. Mounting System Information: 1. Mounting system is an engineered product designed to mount PV modules 2. For manufactured mounting systems, following information applies: a. Mounting System Manufacturer: Zep Solar b. Product Name: c. Total Weight of PV Modules and mounting hardware: d. Total number of attachment points: e. Weight per attachment point: f. Maximum spacing between attachment points: g. Total surface area of PV array: h. Array pounds per square foot: i. Distributed weight of PV array on roof sections: -Roof section 1: (14) modules, (27) attachments -Roof section 2: (4) modules, (9) attachments ZS Comp 757.9 lbs 36 21.05 lbs/square foot * See attached Zep engineering talcs 315.51 square feet 2.4 lbs/square foot 21.83 pounds per square foot 18.71 pounds per square foot CUPERTINO 80dinq Department ttF VIEu'JrpC7Ft -)E COMPLIANCEVIVIrst. e, , ilev ewed Bi. `WMA xa3juaxq duuu (S I) sxalxaAui/sainpow 8 - Z 1mJP Ad xa4uauq dwu (S I) sxalxaAut/sainpow bj- 11maxTa Ad Z slmauTa Ad 3o xaqumN uo p in6►luoj uaajsAS x33ju3xq lmauja dare OZ - 2uRux QdDO •xuyAZ sxalxanuT-oxaTaT LI - 1m3xia Ad xad s;run •xuyV s1joA OtZ - a2uljoA FUTuzoN sduTu 6.0 - luazxna 1ndlno juuruuoN s11uAL S iZ - xmwd 1ndlno •xuyq (u! :)a) eject yndul •Z sduuu S•01 - luaxxna lndut •xuW sduuu SI - ivaxxna;mazta lxogs DQ •xuN AStb/AZZ - 3WUjjoA 1uu1s •xuW/•urR A9£ - AZZ - 32UIIOA Su13jauxl xamod �juad s1joA St, - 35uljoA DQ lndui •xuyj s11um 09Z - (7� xanmod 1ndu. papuQ=oaag (ui Da) elea Indul •T saa S .TQUQAuj sxalxanut 8I ZZS-TjZ-09-SjzW asuTjdug (P07Sll TtIZT 7n) aa;aanul .8 sduuu £9 g - luaxxna 1maxTa lxogs alux - asj sduuu I I g - xamod Lunw uuu 1u luaxxna paluu - dmj s1joA 8•L£ - anuljoA lmana-uado paluu - :)OA s1joA Z•0£ - xamod uunuuTxuuT 1u 3$VI10A palux - du -TA s11um OSZ - DIS 1u xamod umunxuuu juunuou - xuwd saa S ajnpoW sajnporu 81 q6Z-dOSZ-U Bsaug #uTA Ail) (Pa1517 £OZT 7n) alnp°W 'b' 'SIUMUOMLIOD Ee3143813 "£ D. Electrical Calculations 1. PV Circuit current PV circuit nominal current 9 amps Continuous current adjustment factor. 125% 2013 CEC Article 705.60(B)) PV circuit continuous current rating 11.25 amps 2. Overcurrent protection device rating PV circuit continuous current rating 11.25 amps Next standard size fuse/breaker to protect conductors 15 amp breaker 3. Conductor conditions of use adjustment (conductor ampacity derate) a. Temperature adder Average high temperature 40.9 °C (105.62 °F) Conduit is installed 1" above the roof surface Add 22 °C to ambient Adjusted maximum ambient temperature 62.9 °C (145.22°F) b. PV Circuit current adjustment for new ambient temperature Derate factor for 62.9 °C (145.22°F) 58% Adjusted PV circuit continuous current 19.3 amps c. PV Circuit current adjustment for conduit fill Number of current -carrying conductors 6 conductors Conduit fill derate factor 80% Final Adjusted PV circuit continuous current 24.2 amps Total derated ampacity for PV circuit 24.2 amps Conductors (tag2 on 1 -line) must be rated for a minimum of 24.2 amps THWN-2 (90 °C) #14AWG conductor is rated for 25 amps (Use #14AWG or larger) 4. Voltage drop (keep below 3% total) 2 arts: 1. Voltage drop across longest PV circuit micro -inverters (from modules to j -box) 2. Voltage drop across AC conductors (from j -box to point of interconnection) 1. N irco-inverter voltage drop: Use 15 amp AC rated fuse or breaker 2013 CEC Table 310.15(B)(2)(a) 2013 CEC Table 310.16 (bottom of table) The largest number of micro -inverters in a row in the entire array is 8 inCircuit 2. According to manufacturer's specifications this equals a voltage drop of 0.31 %. 2. AC conductor voltage drop: = I x R x D (= 240 x 100 to convert to percent) _ (Nominal current of largest circuit) x (Resistance of #14AWG copper) x (Total wire run) Total system voltage drop: 2013 CEC Table 310.15(B)(2)(a) 2013 CEC Table 310.16 t. 0.31% V 3o T abed Jin LT:TZ tT-EO-tTOZ I TS6009E I woa,aelosdaz-r mAA •:)ul '.ieloS daZ Z-STZW - Abaau3 aseydu3 :so!uoaIaala lanai-alnpow adAL '}unoW dwOD :adf,,L ju@wgDejjv al6u!4S uo!T!sodwoD :ads l food dwoD SZ :adAL waTsAs bu!TunoW .aeloS daZ :aaanlae}nueW waTsf\S 6u!lunoW sa4eis pa4!un :/GlunoD e!uaoj!leD 'ou!:padnD :d!Z 'alegS 'AID :#Od/al!nS as ella.ine-1 ttOTZ :ssaaPPV 4aaa4S suoiqelnDIe:) 6uuaaui6u3 005,E :(M>I) az!S Aeaay VT :salnpoW Ad 40 Alpueno g6Z-dOSZI.I :lapoW alnpow Ad aeloS !lbuiA :aaanlae;nueW alnpow spe4aa uaa4SAS :auoyd :i!eua3 :@WeN uoljeWJOIuI JDeluOD IDafOad TS6009E Design Variables Engineering Calculations Description (Symbol) Value Unit Module Orientation Landscape Module Weight 45.2 lbs Average Roof Height (h) 20.0 ft Least Horizontal Dimension (Ihd) 24.0 ft Edge and Corner Dimension "a" 3.0 ft Roof Slope (6) 16.0 deg Rafter/Truss spacing 24.0 in Rafter/Truss dimension Min. nominal framing member depth of 4" Basic Wind Speed (V) 110 mph Exposure Category B Ground Snow Load (P9) 0 psf Risk Category II Topographic Factor (Kzt) 1.0 Thermal Factor for Snow Load (Q 1.2 Exposure Factor for Snow Load (Ce) 0.9 Effective Wind Area 10 ft2 Zep Solar, Inc. www.zepsolar.com 13600951 12014-03-14 21:17 UTC page 2 of 4 b �o E abed Jin LT:TZ 171-EO-VTOZ I TS6009E I wOD-aelosdaz-AAmAn 'Duff 'jejoS daZ jsd T'ZT T'ZT T'ZT (""ed) peol u6!sa(] a4nlosgy wnua!xew jsd E'6Z- E:'6T- S'OT- (dnM*9'0+(]*9'0) Peo-1 u6!sa(] Ij!ldn jsd S'Z S'Z S'Z (S+(]) E uolgeu!gwOD peol jsd T'ZT T'ZT T'ZT (uAOPM*9'0+(]) Z uolgeu!gwOD peon jsd L'6 L'6 L'6 (S*SL'O+("°PM*9'0)*SL'0+(]) T uo!leu!gwOD pe01 jsd 0'0 0'0 0'0 (S) peol mous jsd 9'Z 9'Z 9'Z (a) peol pea(] 4!un aauJOD a6P3 aoua4ul (logwAS) uo!ld!ansa(] t,'Z uo!TDaS OT -L 3DSb'40 aanp@Do.id uo!lelnDleD 6u!sf1 suoi4euigwoD peon asd jsd 0'9T 0'9T O'9T (uA'OPM) aoao}unnop aanssaad PulM u6!sa(] jsd E'TS- L't E- 6'61- (d"M) :U!Idn aanssaad pu!M u6!sa(] 4sd 0'T 0'T 0'T (y) Aao6ageD a.ansodx3 pue ly6!aH ao} aoIoe3 4uaw4snfpy jsd S'ZT S'ZT S'ZT (umoP OElaud) aoaoJunnop aanssaad PulM u6!sa(] IaN jsd E'TS- EVE- 6'6T- (d" °£'aid) :4!ldn aanssaad PulM u6!sa(] IaN i!un aauaoD a6p3 aouaIul (logwAS) uo!ld!aDsa(] LZ aa4d2gD OT -L 3DS`d �o a.inpaooad pa!l!ldua!s 6ulsn suolleInDleD aanssaad pulAA jsd 0'0 0'0 0'0 peol MOUS Joo'l 0'1 0'T 0'T (5D) aope3 adolS 4sd 0'0 0'0 0'0 Vd) peoq mous food }elj q!un aauaoD a6p3 aoualul (logwAS) uo!ld!aosa(] L aajdeU OT -L 3DSV 40 aanp@Doad uo!gelnDl2D bu!sn suoljelmleD peol Mous suoigelnDIe:) 5ulJ00ulbu3 daZ Spacing Calculations Engineering Calculations Description (Symbol) Interior Edge Corner Unit Max allowable spacing between attachments 72.0 72.0 72.0 in User selected spacing between attachments given a rafter/truss spacing of 24.0 in 72.0 72.0 72.0 in Max cantilever from attachments to perimeter of PV array 24.0 24.0 24.0 in Distributed and Point Load Calculations In conformance with Solar ABC's Expedited Permit Process for PV System (EPP) Description (Symbol) Value Unit Weight of Modules 632.8 lbs Weight of Mounting System 57.94 lbs Total System Weight 690.74 lbs Total Array Area 246.18 ftz Distributed Weight 2.81 psf Total Number of Attachments 27 Weight per Attachment Point 25.58 psf Zep Solar, Inc. www.zepsolar.com 13600951 12014-03-14 21:17 UTC Page 4 of 4 t �o T abed Jin 8T TZ bT-EO-bTOZ I IS6009E I-oDaelosdaz• AAA •:)ul 'aejos daZ Z-SlZlnl - Abaau3 aseydu3 :so!uoa4oala lanai-alnpoW D adAL '4unoW dwOD :adAi 4uawL4Dej4V al6u!yS uopsodwoD :ads q j00%d dwOD SZ :adAL wa4sAS 6upunoW aeloS daZ :aa.in4oe;nueW w@4sAS bu!4unoW sawis pa4!un :/GlunoD eluaoj!IeD 'ou!jadnD :dIZ 'a4elS 'A4!D #Od/al!nS as e4}ainel ttOIZ :ssa.ippd laaa4S suoi4einDle:) buiaaaulbu3 000'I :(MSI) az!S /(eaad V :salnpoW Ad }o A4pueno q6Z-dOSZI,k :lapoW alnpoW Ad .aeloS !16u!k :aaan4oe}nueW alnpoW SIIe4aQ WaISAS :auoyd :l!eua3 :@WeN uol4euaaojul pe4uOD 4DafOJd I56009E Design Variables Engineering Calculations Description (Symbol) Value Unit Module Orientation Landscape Module Weight 45.2 lbs Average Roof Height (h) 20.0 ft Least Horizontal Dimension (Ihd) 24.0 ft Edge and Corner Dimension "a" 3.0 ft Roof Slope (6) 16.0 deg RafterlTruss spacing 24.0 in Rafter/Truss dimension Min. nominal framing member depth of 4" Basic Wind Speed (V) 110 mph Exposure Category B Ground Snow Load (P9) 0 psf Risk Category II Topographic Factor (Kzt) 1.0 Thermal Factor for Snow Load (Ct) 1.2 Exposure Factor for Snow Load (Ce) 0.9 Effective Wind Area 10 ft2 Zep Solar, Inc. www.zepsolar.com 1360095112014-03-14 21:18 UTC Page 2 of 4 ti P E abed Jln 81:TZ TIT -EO -t TOZ I TS6009E I-OD-Jelosdaz-mmAA •Duff 'aelo5 daZ 4sd T'ZT T'ZT T'ZT (Seed) peoq u6lsa(] @Inlosgy wnualxeVI jsd E'6Z- E'6T- S'OT- (d'M*9'0+(]*9'0) Peoq u6lsaa Tllldn jsd S'Z S, Z: S'Z (S+(]) E uol4eulgwoD peoq jsd T'ZT T'ZT T'ZT (umoPM*9'0+(]) Z uol4eulgwoD peoq jsd L'6 L'6 L'6 (S*SL'0+(u"OPM*9'0)*SL'O+(]) T uolleulgwOD peoq jsd 0'0 0'0 0'0 (S) peoq nnouS jsd 9'Z 97 9'Z (a) peoq pea(] wn aauaoD a6p3 jolialul (logwAs) uolldla:)sa(] t,•Z uolTDaS OT -L 3DSV;0 aanpaooad uopelmleD 6ulsn suol4euigwoD peoq (]SV 4sd 0'9T 0'91 0'9T (11 --PM) aDao4umop aanssaad pu!/N ublsa(] jsd £'TS- L*tE- 6'6T- (d"M) :qlldn a.inssaad pu!/N u6lsa(] Isd 0'T O'T 0'T (Y) Aao6aleD a.insodx3 pue 44blaH JO; JOJDed Tuawlsnfpy jsd S'ZT S'ZT S'ZT (umop OEaaud) aaao;uMop aanssaad pulM u6lsa(] 4aN jsd E'TS- LTE- 6'6T- (dn oE'aud) :4ildn a.inssaad pulM u6lsa(] IaN iluf1 aauaoD abp3 aolaa4ul (logwAS) uolldlJDSD(] LZ aaldegD OT -L 3DSV Jo a.inpa:)oad pal4llduals 6ulsN suopelnDleD aanssaad puiM jsd 0'0 0'0 0'0 peoq MOUS Joo'd 0'T 0'T 0'T (SD) JOJDed adolS Isd 0'0 0'0 0'0 Cd) peoq mouS flood }eld iluN aauaoD a6p3 a01-1a1ul (logwAS) uol4dlaDsa(] L aaTdegD OT -L 9DSV;o aanp@Doad uopelnDleD 6ulsn suoigelnDleD peol nnouS suoi4einDleD buiaaaulbu3 � l daZ Zep Spacing Calculations Engineering Calculations Description (Symbol) Interior Edge Corner Unit Max allowable spacing between attachments 72.0 72.0 72.0 in User selected spacing between attachments given a rafter/truss spacing of 24.0 in 72.0 72.0 72.0 in Max cantilever from attachments to perimeter of PV array 24.0 24.0 24.0 in Distributed and Point Load Calculations In conformance with Solar ABC's Expedited Permit Process for PV System (EPP) Description (Symbol) Value Unit Weight of Modules 180.8 lbs Weight of Mounting System 19.31 lbs Total System Weight 200.11 lbs Total Array Area 70.34 ft2 Distributed Weight 2.84 psf Total Number of Attachments 9 Weight per Attachment Point 22.23 psf Zep Solar, Inc. www.zepsolar.com 13600951 1 2014-03-14 21:18 UTC page 4 of 4 �y :�'� r�lh '!l' 7epSolal ro Catasheet:.Zap System= Zep Systema JITI from Zep Sotar offers the fastest and Least ex- pensive way to mount PV arrays for (tush mount instattations. With a series of drop-in and quarter -turn connections, Zep System II instaLLs up to 5 -times faster than conventional mounting systems. The structural connections of Zep System II are auto grounding, eliminating the need for separate grounding hardware. And with its hyper -bonded grounding matrix, Zep System II offers the safest, most reliable way to ground PV arrays. Key System Features Dramatically reduces installation time Elliminates mounting rails and clip hardware ELlminates separate grounding hardware Ultra -reliable hyper -bonded grounding matrix Rapid, top-accessibie precision array leveling Ultra-lcw parts -cunt Enhanced aesthetics Zep Compatible" Zep System II mounting hardware is designed for use with Zep Compatible PV modules. For a current list of Zep Compatible PV modules, please visit: www.zepsoLar.com/moduLes.htmL Ordering information 8"Part Number TdNo Description TUB/ testedlEC 61215�e�;� P ;,' !.Cad condlltions, , . � @ ILB•C Interlock Clear ZS-ILB-B Interlock, Black L � LSkritaO�e-Jqr. ^lgn wind apphcafions ZS -ILC -C Hybrid Interlock, Clear r f GZS ILC -B ir;t6tboi ET, UI-1711P'LiANCE Hybrid Interlock Black j��_S�ted tie ZS-LFB-C Leveling Foot, Clear ground bond meads—.i�,,�; �+ ZS-LFB-B Leveling Foot, Black Ground Zep ETL tested to UL467 as ZS-trB Zep Toot grounding and banding device ZS+TA Zep flat Toot ZS -GAB Universal Box Bracket Ultra-low resistance ground -band connection -10x better than UL minimum criteria _.NT'R-e�irJ �F US 'STk� ZS -CMA -C Comp Mount, Clear ZS -CMA -0 Comp Mount, Black ZS -WGA Zep Wire Clip,Type A ZS-GZA Ground Zep ZS -ASA Array Skirt, XXXXmm, Clear ZS -ASA Array SkirtXXXXmm Black ZS -GAA Groove Adapter Kit. Type A w,vw.Z:apSoiarcom Page 1 n¢2 Z iG Z abed 51woc-jejoE;da7'MMM ,sjoo� alllJol ! uaa-Isfic daZ aasi saiooue�/s�aod�e� lejaWi uaeas buipuels le+aW lepiozadeal le -4@W palebnaaoo al6uius uon sodwoo suope3ilddV hueW .sol ajgezanS suogon.gsu,nI jenuej,4.uogejieasuIaasinwsainpow Ze ,Gana jad daZ punoag aup anoGE) daZ o, sagoe4v 0 daZ punoig Wd OR 110Z'i aunp:alepdn Isr, 6u!puad slualed i lu! 8 S'p ASZE D, tualed gr. au!.1elas tla7 p!p7 .: n;Gui:our II0i_@OIIDI:;fr-..Inam Ipn'S I tiaiolu. c_uui Sr� aal yum paDm4s imneluawnaor, Iam pu aqs lanpmr ydea jeI nmwlem lanpmd uaApm aqi a padIC7110" AluelJak alas s ie!oS dal sao!nla: u: smpwr sl! imir Ic jejaS Dal k: alum m ssaidn hue aleaj, jou sane Alamoop siy; Ness„: jenowa: YL250P-29b YL245P-29b YGE-Z 60 1' 1! YL240P,29b 'CELL SERIES YL235P-29b YL230P-29b and commercial applications where cost savings, i s� i aticln time, and aesthetics matter most, Choice INSTALLERS 0 Lower balance -of -system costs with Zep Compatible'" frame. � Reduce on -roof labor costs by more than 25%. Ir Leverage the built-in grounding system — if it's mounted, it's grounded. 0 Lower your parts count — eliminate rails, screws, mounting clips, and grounding hardware. P, Design and permit projects easily with access to layout calculator and stamped drawings. 1► Lower installation costs with savings across equipment and labor. Minimize roof penetrations while maintaining the system's structural integrity. IF Invest in an attractive solar array that includes a black frame, low mounting profile, and aesthetic array skirt. # Increase energy output with flexible module layouts (portrait or landscape). t Trust in the reliability and theft -resistance of the Zep Compatible- system. AC SOL j71ON OPTION The YGE-Z Series is now available as an Enphase Energized" AC Solution. This solution delivers optimum performance and integrated intelligence. The Enphase M215 -Z Zep Compatible Microinverter is designed to connect directly into the Z Series module groove, eliminating the need for tools or fasteners — all with one easy step. Intelligent real-time monitoring at the system and module level with Enlighten. U.S. Soccer Powered by Yingii Solar Leading limited power warranty* ensures 91.2% of rated power for 10 years, and 80.7% of rated power for 25 years. 10 -year limited product warranty. * In compliance with our warranty terms and conditions. UL 1703 and ULC 1703, CEC, FSEC, ISO 9001:2008, ISO 14001:2004, BS OHSAS 18001:2007, SA8000 us C Rl� C5pEL zt�'�p �� ' ' 'ERTIN© IP iO'COOULF) 44110, 06g6a616W Department �a .� �,J yP.a� �{ ] vf+� ))222 ny> Y�1 �L ()1_ �� �.OMPLIANC� aeloS !16u!A Aq paaamod as»oS "s -n Siauyed J •salnpow g6u!A 6w;euado pue'6ugle;su! '6uppue4 auopq Iw A;au!;ue s;t w lenuelN uasn pue uogelle;sul a4; peab :6u!weM 1.81 (000 46'£ (6)I 884) sql 9LOl / Mw 05L 0 u! S4 / (wru OOLO u! L9 9£ ZZ (ww) Lpul •:svun u(6!am xo8 (I•I/lA•) suo!suewlp xoq 6ul6euped ueu!eluco,ES ued saelled }o uegwnN. jelled ued selnpow }o uegwnN SNOIIV:)1d1:)3dS !DNI!DV :)Vd (BI S'OZ) sql Z'S4 j46iaM (ww W) u! Le, L /P-066) u! 868£ / (ww 0590 u! 96'49 (H/M/l) suo!suaw!Q S:)USIb3I:)'VIIVH:) IVS3N3D t-Y3l�tt,I6. ,tq Paaa�od LOA 90Z L0Z N3 Z L0ZS9uaSllaZ)09Z3Dk 'p;l •00 6u!p10H 46uau3 uaaucJ !16u!,k OZ89-989 (888) L+ :19L L.(.1o0•se0uawel IBUTA00pi oui 'seri laLu�y �C6Jou3 uaa�E) !16ui,+, -s;uawannbai £OOZ:08£OS N3 4j1m sa!ldwoD;aagse;ep s!qi 'ao!;ou uoud;noy:p.m a6uego o;pafgns aie pue paa;uejen64ou aje;aagse;ep s!y; u! suo!;e:)ygads aq j (aeu6ep uo!pe4oud/edA4/ueun4oe}nuew) 89d1 / 4H / lousgd-V uopauuw 6nld (ww Z'9) u! 44Z'0 /'9MV Z L / (wui 00 L 0 u! L£'£4 / w!M Ad (us;awe!p ep!s;no/a6ne6/q46uel/edA4) elge0 S9dl z (ew6ep uopoe;ad) xoq uol;aunl• 5pelq / Aolle wnu!wnle paz!pouV (uoloo/leua;ew) eweud (VA3) aMaoe IAu!A aualf� - (leue;ew) :juelnsdeou3 _ . £ uo z / zwo £'£bZ / ww 95L x ww 951 (suegsn9 }o #/eaue / awpeusAmpjnw / uw!l!sAlod / 09 /suo!suewlp/edA;/le!ua;ew/A;!;uenb) !lad 6nI;e00 aA!Pal}a,-Rue —4 Aew sselr, e6eMoA grou!o-ued0 ---- --.. ww Z'£ / pauadwa; / wel6 uou!-Mol (vwu)p!q;/edA;/leue;ew) uenw yuwd (s/w £Z) 4dw LS 3e (ww SZ) u! L led 004Z) !sd 05 -- -- --- ------- _.--_---.....---..._..------------- (ed 00bZ) fsd OS (0.06 of O4-) 3.46L °; 01- V VSL MA009 Sl`d1031`(/W Noa:)n81SN0, pedw! suo;el!eH --- (pulm'•6•a) )peq 'peol o!vgs •xey� (puun pue—us '•6•e);uo-q'pool 313.e4s -"W a6ueu aun;!euedwe; Bu!;euad0 :luau= esueneu 6u!:Pw!l 6ugeu asn} sopes •xeW 06e;10A W845AS •xeL�! SNOUIGN03 DN11VIdR I0 S*•p �� n�—A}o;uepllp—aun;ausdwey 90.0 -- -oj% • Ml;o;uelal lem an;euedwel s4•o- Z -/+9Y -A 4o ;ue!o jp- eAwAedwel >.M A ""'d}o;ue!o!jyeoaaun;eaedweL 3. LOON surgeuadwe; pao 6u!p2 1 edo leu!wON S:)I1S12131:)K2 VHS IvwH3H1 paads pu!m s/w L 'arawadwel;ua!gwe O.OZ'aoue!peu! w/MOOR 3e wrweduraa uogwedo appow zpw!ausdo A00N L8.9 Z6'9 L07L 66-9 6L L V "9 8•££ 8'E£ ZVE S'4E 4•SE A A e6eMoA grou!o-ued0 ---- --.. 6Z'9 .�'----- Z4'9----- 959 ._ 459 ..------------ 959 tl ddwl '""'d P 3uam^7 ---9-9Z --. 919Z _-_— 9.9Z -. ZYZ 9•LZ A dd A ------- —d 3e 86e310A VOL LOLL E'4LL 6•LLL L18L M —d =^d4^oJsmcd • L-40609 N3 0; 6u!pu—e �w/MOOZ w 9h0'S p uo!pnpw Ibuantya aARelw aSweAvf £-40609 N3 of 6u!puo»e wn=ads 6S' LWV lar4wedwa3 Ilw O.SZ "aoue!peu! ,w/MOOO L :01s (We I'Ve S9's E9.8 ----------------_.-_-------- 6C8 tl -_--. -___ "I ... ----- --.._._ ..------.. -wauuro noun-;uo45 0•L£ OLE S'LE 8'L£ VIE A "A e6e4loA 4i.noip-usd0 OWL L6•L 41..8 L L's 4Z•8 V ad 1 —d ;e jueuuno 56Z S'6Z SW Z•0£ 4.OE A d A --d u= 06e410A L'4L 4'41. L'4L 0'SL E'SL % wV _ - - Aouep!l}a elnpoW ---- __ 5+ /O- _............. ._ - _. _.... _._ _ __ M ._. 1°°'dV _... ... _..... - .....__. __ _ .._._. seoueuelo;;nd;no uamod 0£Z SSZ 04Z StZ OSZ M "°"'d yrdyro uamod 96Z-doMA g6Z-dSEZIA g6Z•d04ZlA g6Z-dSVZlA g6Z-dDMA ed4 elnpon 3:)NVW210:2I3d lVD1211D313 0 9 Z - 3 ED, J L% The M215 -Z Microinverter attaches directly to F- Maximum energy production the frame of Zep Compatible solar modules for PROD U C T I V E - Resilient to dust, debris and shading seamless integration with the Zep System. Like - Performance monitoring per module all Enphase Microinverters, it improves energy C harvest, increases reliability, and dramatically ?; „ , L E � A S L E - System availability greater than 99.8% - No single point of system failure simplifies design and management of solar power systems. _ %� - Quick and simple design, installation om P! 1�,S NYr'x 9 The Enphase System includes the micro.inverxerq S N1 AR T and management the Envoy Communications Gateway, and - 24/7 monitoring and analysis Enlighten, Enphase's monitoring and analysis software. S A c -Low voltage DC - Reduced fire risk C US L LOZ "SZ jagolop woo•9segdu9-mmm//:d:4H woo•h6J9u99se4du9@o}ul ti8L0-£9L-L0L :xed £bL17-L6L-LL8 :9uOgd Z96176 VD 'ewnlelad laaJlSISL LOZ •:)ul 'A6j9u3 9seydu3 LO-L'LOL PUe 'ti0-b'O 'L6W-0'ON Z'ZZD-VSD/Nb': 8 ssel:) SL fed DD3 'LtiSL3331/LtiLLin aoueildwo: 9Jenn:40s u9lH611u3 elA 6ulJ011uoul 9W4a4li aaJd 6uuolluoW fauejjE?m pallwll JeaA-SZ /4ueaJeM 91111 J9MOd uolleolunwwoD ! (Aluo Iloo-09) salnpoW alg1ledwo:) d9Z H1lM s.ned fq!q!ledwo:) I la�oeJq 6ullunow lnogl!m,, 9 ` A3N - JoopinO 6ullel leluawuOJlnua ainsolou3 sue} ON - uolloanuoo leinleN 6u11OOD I (sql S'£) 6) 9' L lg6iaM x „Sti'9 x „8'9) wo S•Z x wo 17-9L x wo C -LL (axHxAA) suolsuaw14 s DoS9 + O} Doot- (ieua91ul) 96ueJ aanjeaadwa; 6ulle.iadO t I} DoS9 + Ol 3o017- a6ueJ aJnlejedwal lualgwd f E .� t;oltw P44 oz.] Mw9b uoildwnsuoo Jamod awls lg61N f %£'66 (0£S0SN3 9ou9J949J 's96uego uollelpeJJi lSe3) 10" 149 olweuACI %9'66 (0£SOSN3 a3u9Je4eJ 'p91H619nn) A:)ualol}}a iddW 04elS j°x£'96 �(oua!ol}}9 J91JGAUI jead %0'96 i Aoua!ol}}9 pa101am Z)3: uolleJnp swt Z- L '�eadd Z'SZ'S910AD £ JOAO 'swJV SO' L luaJJno 11ne4 lndlno wnwixeW (asegd 916uls) L L (asegd ealgl) SZ 1!no.uo HoueJq y0Z .lad shun wnwlxeW l S6'0< S6*0< .soloed JaMod zH 9'09-Z'6S/0'09 zH 9'09-Z'6S/0'09 96ueJ buanbaJ} p9pualx3 zH S'09 -£'6S/0'09 zH S'09-£'69/0-09 96ueJ/LouanbaJ4 leulwON A69Z-90Z/AO7VZ AZ£Z-6ZUA80Z 96ueJ/96ellOA papualx3 Ab9Z- L LZ/AObZ A6ZZ-£8 UA80Z a6uea/86e110A l eul wO N (uollejnp leulwou le style) V6'0 (uolleanp leulwou le swie) ,yp• L luaJJno lndlno leulwON MS LZ MS LZ Jamod lndlno wnwlxeW OVi f dS OL luaJJno lndul •xeW ( ( `dS L luaJJno llnoalo ),Jogs :)4 -xeW t ASWAll 96elIOA:eels •xeW/•ulw I A9£ - A9 L a6uea 6ulleJadO 1 1 A9£ - All 96e1 On 6ul oeJl JOMod ea I � � d 1 f ASV 96ellOA :)(I lndul wnwlxeW M09Z - 06 (:)1S) Jamod indul papuewwooad :)Z-t,zs/£ZS/ZZS-7Z-09-GIZW (Day e4ep Ifluul ♦ 7 ■ art V' ' MA r� Q 0 Department JMPLIANCLz 968-568 'dd :ueg3 ao)oa/ag 6i0 (d1SZ26S "a7) 0agwnu 6o)e)eo lax a) udl° xigns ppy -papd-0#1 pagddns aq ue0 sdel •gpq abed aas sralm joj /eunq 40anp Jo) panoidde 7n MOM li: 1. Z60 -W 'dd :601001 OSLV9 09LV9 OSLvg CSLVS .._ o51VS OSLtS AS OIE Z o9LVS oSLV9 9VLV9 9VLVS SVLVS 9VLVS SVLV9 AS 02 OSLVS 09LV9 9V1V9 OMS OVLV9 s Dtivc OVOG AS 0/t oSLVS StltS 9VLVS oVLVS S£LV9 S£LVS 9ELtS 9ELV5 AS W SVLVS 9VLVS oVLVS 9ELV9 0£LtS 0£1yS o£LtS : O£LVS AS Z# OVLVS oVLVS 9ELVS 0£LV9 SZLt9 oZLVS oZLV9 OZL179 'AS V# OVLVS 9£LV9 0£2t9 SZLVS OZLV9 OZIt� 9LLts cGLtq ASjoloS 9# OVLVS S£LV9 o£LtS oZLVS OZLVS 9LLVS SILLS 0IzvS 'ASJO'IOS S# OtLtS 9ELV9 OUK oZLVs 9ILVS S ILLS ' is VS SGJtr l AS )o �og.Ol# Ills 0/1 'HIS W 'HIS Z# HIS v# 11S HO 'His HO 'His HO 'HIS l0 NIVW ,los 9# lOS 8# 'los OW los ZW HONVHB (d1SZ26S "a7) 0agwnu 6o)e)eo lax a) udl° xigns ppy -papd-0#1 pagddns aq ue0 sdel •gpq abed aas sralm joj /eunq 40anp Jo) panoidde 7n MOM li: 1. Z ouvs N33 �.° : sg�l Z RLLgPSS pI% pal p/yp sun A3X 3 H l 'ON Qty °1e0 HOW °NI SNOISN3WI0 '9Id o E —514 H LLLI suoipuiq oo 3MQt* lemdAi z —m Iq M in1 11 1 to-, �m on D:D) apes ui de6 s;uasajdaj„3„ ! a�n6y H 3 -- T meld :ystwd aaddoo lg6noAM ApilonNOO-0IH :IeiJBIeW juiof possaidwoo ueglbuaals pue saip uoissaldwoo a}eool data sgia 6uioloJuiaa fneOH uiew snonui}uoo ua�olqun ue o} buidd-e} ao 6woilds Aum -Z 'builpelbid aol peapl sanlun +"U-Ilnd Ll6iu pug aoualsisai mol glim uolssaidwoo punoaa-Ilp `anilisod aoddoo joi siolmuuoo Em Tat is an Arc Fault? Types Of ,arc Faults An arc fault is a fault in the high voltage wiring of Series Occurs when a connection a PV system that can cause a high-energy discharge is pulled apart while the PV that can potentially trigger a fire in the presence is producing current. Any of combustible material. Arc faults pose fire and intermittent connection in the electrocution risks during installation, operation DC circuit has the potential for and maintenance of PV systems. producing a DC arc fault. Risk Factors Parallel Occurs when the insulation The primary source of dangerous arc faults in a between two conductors of PV system is the presence of high-voltage DC. opposite polarity in the same DC circuit becomes ineffective. In a typical string inverter -based solar energy system, high-voltage DC is distributed and has Ground Requires the failure of one the potential to trigger a high intensity arc in the insulation system. While GFDI presence of a fault. In addition, these risks increase (Ground Fault Detector & with normal wear and tear of the system. Interrupter) provides some measure of protection against Improving safety in solar systems depends on this fault, there have been cases eliminating high-voltage DC, of faults to ground that failed to trip the GFDI protection yet created an arc. 2011 NEC: ARC FAULT PROTECTION! REQUIRED ,. 690.11 Arc -Fault Circuit Protection (Direct Current) Photovoltaic systems with do source circuits, do output circuits, or both, on or penetrating a building operating at a PV system maximum system voltage of 80 volts or greater, shall be protected by a listed (dc) arc -fault circuit interrupter, PV type, or other system components listed to provide equivalent protection. [e] £nphas ' E N E R G Y www. enphaseenergy.com 1 877/ 7974743 Cr/Zt? Z6Z LLS � LU 00 -46-laugeseqdue Mmm -Ja�euj Uiew a:{; f5UlAOWGJjcje�eajqaye 6u, nus AldLuisAq LualsAs Gqj SZI6JGLG-alQ U23 SJE)PdCdSGj ;SJ1} SU2GLJ W:)IHAI\ E)AI;32JS;Ui-ASIjqn GJ2 SJG�JaAUICJZ)'A @S2HdU--! A D � 3 NI aset4dua Lal -s�ino-lp H:)u2jq payDa�CJL4 UL P@112j.Sjl G)C- PLJ2 @62110A a;nq!,,-lsjp SjG3,jGAUIC-3'A 'GIDO-- I N I OZ @L41 01 ;LJelldLUOZ) AP28j12 alle pue .4 1 1 G62-4',10A-LA,6lU'JOS PaGU all G+2UIUJIIG SJG:J@AU'Cj3'A ucqnloS J-;JGAUIC':)!A GQ ."6 -,GL= —7-1 A rN r92./8 '&tYeu-L;Js2H PL;nWP�- I-N 'Aj)2j n 6 aJ s c 0 s n 0 vo-*, s 0 li fleas ;uc-;JOdLj! U2 Gie lS�lrjC-,' --) J,2 iN i2uloFlell i G L -l", -1 (D'i -aL.j o; jemcqjec� 'o s s w G� s + As AC2� curo'e SU J 210 S 2 U, C 0 G 2 S J :6UIA2S GJV GjdOGd 12HJV� N Enphase Mirovs pit Integrated Ground I Enphase's latest generation microinverters feature Integrated (DC isolated) Ground. Because the DC circuit is isolated and insulated from ground, these microinverters do not require a Grounding Electrode Conductor (GEC) connected between each microinverter. This means you don't need to attach a separate copper grounding conductor to each microinverter or worry about a continuous run to ground. The result is faster installation with lower materials costs and a safer system. Integrated Ground and Code Requirements Solar installers must comply with the National Electrical Code (NEC) when installing Enphase Microinverters. Enphase Microinverters with Integrated Ground meet the requirements specified for Ungrounded PV Power Systems in sections 690.35 and 690.41 of the 2008, 2011 and 2014 NEC. It also meets the Underwriters Laboratory (UL) Standard 1741 grounding requirements. For further information, refer to the whitepaper on Enphase Microinverters and Ungrounded PV Arrays and other materials at nnv�ay.engnase.ccm/Gaourding. Identifying N414croinverters Integrated Ground Installers and inspectors can easily identify Enphase Microinverters with Integrated Ground. Installing , icroinvr e with Integrated ro No grounding terminal Flatlid Product label on bottom edge Enphase Microinverters ship with DC and AC cables and connectors. The DC connectors attach to the PV module, while the AC connector attaches directly to the Engager" Cable. It's that simple: no additional cabling is needed. Electrical code requires two types of grounding conductors: the Grounding Electrode Conductor (GEC), which is used between the grounding electrode and the point where a normally current carrying conductor is intentionally bonded to ground and the Equipment Grounding Conductor (EGC), which grounds non- current carrying metal parts of the system, such as the racking and module frames. Because Enphase Microinverters with Integrated Ground have DC integrated ground, they do not require a GEC. However electrical code still requires that exposed metal in the array be grounded (NEC 690.43 and 250.136(A)). This requirement is met for the microinverter because the ground conductor internal to the Engage Cable acts as the EGC. It may be met for racking and modules with use of an EGC or WEEBs to provide bonding to this ground system. Oc 2014 Enphase Energy Inc. All rights reserved. January 2014