Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
15120003-D
Owner Name '2_0 Address Lt Pw'p- I Is your real property a registered historical site? ❑ Yes Civil Code Sections 1101.1 through 1101.8 do not apply. Skip the rest of the form and sign bottom of fonn. No Go to Question 2. COMMUNITY DEVELOPMENT DEPARTMENT- BUILDING DIVISION 10300 TORRE AVENUE - CUPERTINO, CA 95014-3255 (40q) 777-3228.- FAX (408) 777-3333 - building(a)cupertino.om 2. Does your real property have a licensed plumber certifying that, due to the age or configuration of the property or its plumbing, installation of water -conserving plumbing fixtures is not technically feasible? n Yes Civil Code Sections 1101.1 through 1101.8 do not apply. 0 The licensed plumber's certification has been provided to the Building Division. Skip the rest of the form and sign bottom of form. IQ No Go to Question 3. 3. Is water service permanently disconnected for your building? 11 Yes Civil Code Sections 110 1. 1 through 1101.8 do not apply. Skip the rest of the form and sign bottom of form. W No Go to Question 4. 4. Is your real property built and available for use or occupancy on or before January 1, 1994? El No My real property is built and available for use or occupancy After January 1, 1994. Civil Code Sections 1101.1 through 1101.8 do not apply. Skip the rest of the form and sign bottom of form, - Jq Yes My real property is built and available for use or occupancy on or before January 1, 1994. Civil Code Sections 1101.1 through 1101.8 apply. Check one of the three following statements and sign bottom of form.. 5. Please check ONE of the following: 19 My property is a single family residential real property. See Civil Code Section 1101.4. On and after January 1, 2014, building alterations or improvements shall require all non -compliant plumbing fixtures to be replaced with water -conserving plumbing fixtures throughout the building. On or before January 1, 2017, all non- compliant plumbing fixtures shall be replaced with water -conserving plumbing fixtures (regardless of whether property undergoes alterations or improvements). Cl My property is a multifamily residential real property. See Civil Code Section 1101.5. On and after January 1, 2014, specified building alterations or improvements shall require non- compliant plumbing fixtures to be replaced with water -conserving plumbing fixtures. On or before January 1, 2019, all non -compliant plumbing fixtures shall be replaced with water - conserving plumbing fixtures throughout the building (regardless of whether property undergoes alterations or improvements). 0 My property is a commercial real property. See Civil Code Section 1101.5. On and after January 1, 2014, specified building alterations or improvements shall require non- compliant plumbing fixtures to be replaced with water -conserving plumbing fixtures. On or before January 1, 2019, all non -compliant plumbing fixtures shall be replaced with water- conserving plumbing fixtures throughout the building (regardless of whether property undergoes alterations or improvements), 1, as the owner or owner's agent of this property, certify under penalty of perjury that non -compliant plumbing fixtures will be replaced prior to date specified above with water -conserving plumbing fixtures in accordance with Civil Code Sections 1101.1 through 1101.8, the current California Plumbing Code and California Green Building Standards Code, and manufacturer's installation requirements, and that the water -conserving plumbing fixtures comply with the requirements as indicated in the table on the following Dage. - I Owner or Owner Agent's Signature: Date Upon completing and signing this Certificate, please return it to the Building Division in order to final your ! building permit. SB407 2015.doc revised 08126115 FILE ke—Mit No. IS 12- 0 0 03 -ide: Z PERMIT CANNOT BE FINALED AND COMPLETED UNTIL TMS CERTIFICATE HAS BE EN A r r TO 111E, BUILDING DIVISION OUR This affidavit is a self -certification for the installation of all required Smoke and Carbon Monoxide Alarms for compliance with 2013 CRC Section R314, 2013 CBC Sections 420.6 and 907.2.11.2 where no interior access for inspections are required. Existing single-family and multi -family dwellings shall be provided with Smoke Alarms and Carbon Monoxide alarms. When the valuation of additions, alterations, or repairs to existing dwelling units exceeds $1000.00, CRC Section R314 and CBC Sections 907.2.11.5 and 420.6 require that Smoke Alarms and/or Carbon Monoxide Alarms be installed in the following locations: AREA --- SMOKE AE ARM O C'ALARM Outside of each separate sleeping area in the immediate vicinity bedroom(s) X On every level of a dwelling unit incljj �in basements X X Within each sleeping room I Carbon Monoxide alarms are not required in dwellings which do not contain fuel -burning appliances and that do not have an attached garage. Carbon monoxide alarms combined with smoke alarms shall comply with CBC Section 420.6 and shall be approved by the Office of the State Fire Marshal. Power Supply: In dwelling units with no commercial power supply, alarm(s) may be solely battery operated. In existing dwelling units, alarms are permitted to be solely battery operated where repairs or alterations do not result in the removal of wall and ceiling finishes or there is no access by means of attic, basement or crawl space. Refer to CRC Section R314 and CBC Sections 907.2.11.4 and 420.6.2. An electrical permit is required for alarms which must be connected to the building wiring. As owner of the above -referenced property, I hereby certify that the alarm(s) referenced above has/have been i Building installed in accordance with the manufacturer's instructions and in, compliance with the California B ild , g and Califonda Residential Codes. The alarms have been tested and are operational, as of the date signed below. I have read andpgrea ter corn ply with - the bqrms and conditions of this statement M 1- Ware ....... ...... D --- - ---- _- � �*11*111). J., .... I.. I .. ........ C6 Wtme--. "lire . .....................I........-. ...... L ... .... Dab, ........... Smoke and COform. d6c revised 03118114, Kull! UN11,4111"20 A DDRESS: 19811 PRICE AVE DATE: 12/01/2015 REVIEWED BY: MELISSA APN: 39 00 5 17 6 0 174#1112= *PERMIT TYPE: Building Permit 11401 wd V PRIMARY SFD or Duplex USE: >ENTAMATION )TRMIT TYPE. SOLAR-RES; USH k — INSTALL 15 ROOF TOf� FL MOUNTED PV MODULES (4.9KW) NOTE: This estimate does not include fees due to other Departments (i.e. Planning, Public Works, Fire, Sanitary Sewer District, School Dktr;pf oh- ) Thova fopc i7ra h"vad n" tho nrolimi"ary hifi)rmatinji availah1p and arp nn1v an ovfimate. Cm -dart thtq neat for addn'l into - FEE ITEMS (Fee Rewolution 11-053 Eff 711113) FEE QT MISC ITEMS Plan Check Fee: $0.00 = # $236,001 Alternative Energy System JPHOTOV� s Photovoltaic System j Suppl. PC Fee: (2) Reg. 0 OTFO. 0 ] hrs $0.00 PME Plan Check: $0.00 1 Permit Fee: $0.00 Suppl. Insp. Fee-(F) Reg, 0 OTFo 51 hrs MOO PME Unit Fee: $0.00 PME Permit Fee: $0.00 F 0 (F) Work Without Permit? 0 Yes No $0.00 Advanced Planning Fee: $0.00 Select a Non -Residential Building or Structure E) 0 Strong Motion Fee: IBSEISA11CR $2.60 Select an Administrative Item Bldg Stds Commission Fee: IBCBSC $1 .00 z SUBTOTALS: $3.601 $236.00 T.OTALYE] ).60 Revised: 10/0112015 ALTERNATIVE ENERGY PERMIT APPLICATION COMMUNITY DEVELOPMENT DEPARTMENT - BUILDING DIVISION 10300 TORRE AVENUE - CUPERTINO, CA 95014-3255 A (408) 777-3228 - FAX (408) 777-3333 - bufldinaacupe[�� 2- 06-0 -3 PROJECT ADDRESS APN 9 J OWNER NAME 'HtuL'Lz- a� E-MAIL STREET ADDRESS P FAX C Lo-je CONTACT NAME r k PHONE tAIL STREET ADDRESS CITY, STATE, ZIP FAX ❑ OWNER IJ OMNTR-BUILDER 11 OIWN-,-R AGENT El COMMACTOP 13 CONMUCTOR AGENT 0 ARCU—,.CT 0 ENGD,,EER El DzvELOPEp. El TENANT CONFrRACTORNAME 1:�msp_ NUM'BERj- (A C0t-AD LICENSE TYPF BUS. LIC 4 COMPANY NAME FAX STRUT ADDRESS SOS (P CITY, STATE, ZIP PHONE '�; ) k ARCMTECTENGNIEFR NAME LICENSE NUMBER BUS. LIC 9 COMPANY NAME E-MAIL FAX STREET ADDRESS CITY, STATE, ZIP PHONE USE or 0 SFD or Duplex 71 Multi -Family PROJECT IN WILDLANTD PROJECT IN STRUCTURE: 0 Commercial URBAN INTERFACE AREA ED Yes (D No FLOOD ZONE 0 Yes 0 NO SOLAR PANELS 0 ELECTRIC ❑ SOLAR WATER HEATING ❑ OTHER: OR SOLAR FORSOL4RPAXELS. NUMBEROEPAYEELSA.;NITS: F rESCPJPT10NOF KILO1;IATTS(COh4N4EPCI.ALOINIL'V): IL Vq VV_j TOTAL VALUATION: 7ZI OUO CP JPTI, WORK D FS SP =k(A By my signature below, I certify to tkach o the fo loe =ins:m the property owner or authorized agent to act on the property s� behalf. I have read this application and the information ar i t. I have read the Description of Work and verify it is accurate. I agree to comply with all applicable local ordinances and state la) 'Jating.�to wild on. I authorize representatives of Cupertino to enter the aboye4dent fled grope ty for inspection purposes, VL Signature of Applicant/Agent: Date: SUP LE rNFOR14ATION REQUIRED 0 i-g %RML 1-01 PY,4pp.2011.doc revised 03116111 I CITY OF CUPERTINO BUILDING PERMIT I BUILDING ADDRESS: 19811 PRICE AVE 1 CONTRACTOR: THE SOLAR COMPANY, PERMIT NO: 15120003 1 INC I I OWNER'S NAME: ADAM JOEL F AND SHARON M TRUSTEE 120861 WILBEAM AVE STE I I DATE ISSUED. 12/01/2015 1 OWNER'S PHONE: 4084720451 1 CASTRO VALLEY, CA 94546 1 PHONE NO: (510) 214-9005 1 )4 LICENSED CONTRACTOR'S DECLARATION License Class Lic. # Contractor Sd00-r _C.CL_ Date }1 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 1?erformance of the work for which this permit is issued. P6ave 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. 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, judgment. costs, and expenses ich in accrue against said City in consequence of the granting of this pert itio ally, t e applicant understands and will comply with all non-poil, t '0 gulat n er the Cupertino Municipal Code, Sectiotiz.-_ 9,18. Signature Date 171 OWNER -BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law for one of the following two reasons: 1, as owner of the property, or my employees with wages as their sole compensation, will do the work, and the structure is not intended or offered for sale (Sec.7044, Business & Professions Code) 1, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec.7044, Business & Professions Code). I hereby affirm under penalty of perjury one of the following three declarations: 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 peribrinance of the work for which this permit is issued. 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. I certify that in the performance of the work for which this permit is issued, I shall not employ any person in any manner so as to become subject to the Worker's Compensation laws of California. If, after making this certificate of exemption, I become subject to the Worker's Compensation provisions of the Labor Code, I must forthwith comply with such provisions or this permit shall be deemed revoked. APPLICANT CERTIFICATION I certify that I have read this application and state that the above information is correct. I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes. (We) agree to save indemnify and keep harmless the City of Cupertino against liabilities, judgments, costs, and expenses which may accrue against said City in consequence of the granting of this permit, Additionally, the applicant understands and will comply with all non -point source regulations per the Cupertino Municipal Code, Section 9.18, JOB DESCRIPTION: RESIDENTIAL n COMMERCIALE] INSTALL 15 ROOF TOP, FLUSH MOUNTED PV MODULES (4.9KW) Sq. Ft Floor Area: I Valuation; $20000 APN Number: 36905017,00 1 Occupancy Type: 1111ANW11614 - RE -ROOFS: All roofs shall be inspected prior to any roofing material being installed. If a roof is installed without first obtaining an inspection., I agree to remove all new materials for inspection. Signature of Applicant: Date: ALL ROOF COVERINGS TO BE CLASS "A" OR BETTER HAZARDOUS MATERIALS DISCLOSURE I have read the hazardous materials requirements under Chapter 6.95 of the California Health & Safety Code, Sections 25505,25533, and 25534. 1 will maintain compliance with the Cupertino Municipal Code, Chapter 9.12 and the Health & Safety Code, Section 25 *2(aould I store or handle hazardous a material. Additionally, should I u in ent or 'devices which emit hazardous air contaminants as defined by t c A uality Management District I fa will maintain compliance -witA-1: c tip Municipal Code, Chapter 9.12 and '�5 3 the Health & Safety Code, Set mis 255 3, and 25534. Owner or authorized agent: CONSTRUCTION LENDING AGENCY Date: I hereby affirm that there is a construction lending agency for the performance of work's for which this permit is issued (Sec. 3097, Civ C.) Lender's Name Lender's Address ARCHITECT'S DECLARATION I understand my plans shall be used as public records, Licensed Professional Signature , Date-- 1 ovoltal*c Solar Electric System fo ri%opy r0f., J ADAM RESIDENCE 1to 19811 PRICE AVE CUPERTINO, CA 95014 Project Address: 19811 PRICE AVE CUPERTINO, CA 95014 APN#: 369-05-017 Bldg. Owner: Joel Adam (408) 472-0451 joel—adam@yahoo.com Contractor: 1ATE PLANNING M, CUPERTINO The Solar Company, Inc. CSL* 596651, B, C46 Mark Danenhower, President 1550 Carbondale Rd., Ione, CA 95640 Mailing Address: 20861 WilSeam Avenue Ste. 1 Castro Valley, CA 94546-5832 Fax: (877) 527-7339 Direct: (510) 214-9005 Workers Comp. n M���Z MOVINSM Carrier: California Ins. Co. Policy: #46-001546-02-01, Exp. 06/01/16 ARTMIENT FINO '73%Tbo T<,op Project Desc: Install a new 4.9kW PG&E Grid Tied ful to, n Solar Electric System, Roof Mount to C," "'-' V J ra ,,, E S I HE PV MODULE TYP # OF PV MODULE PV ARRAY ARE INVERTER(S TYPE OF MOUN LOCATTO] 4905(PUC) SunPower SPR-E20-327 15 271 Square Feet SolarEdge SE600OA-US Roof Mount See Spec. Of the V" !a 2�- 1 MON'," WARNING! ELECTRIC SHOCK HAZARD nPO NOT TOUCH TERMINALS! U*4*114Nt i=E XXX VOLTS D.C-. OLTAGE XXX VOLTS D. C- �T CURRENT XX AMPS THE SOLAR COMPANY (877) 607-6527 JCODE NAME: CODE TYPE: 11 California Fire Code 2013 Edition California Building Code 2013 Edition California Mechanical Code 2013 Edition California Plumbing Code 2013 Edition California Electric Code 12013 Edition California Residential Code 12013 Edition Smoke Detectors and Carbon Monoxide Alarms shall be installed in accordance, with CRC R314 and CRC R315 � Along with any other applicable, 11"N and state laws and regulations N 4Y r"O Sheet List Tabl e Sheet Number Sheet Title 1 ADAM Title Page Index Warning Labels 2 ADAM PLOT PLAN 3 ADAM SINGLE LINE DRAWING NOT 4 Spec Sheet UniRac SM Rails lon 5 Spec Sheet UniRac SM Rails L-Foot Spec Sheet module SPR-E20-327 Spec Sheet Module Grounding Spec Sheet Solar Edge P300 - P405 Power Optimizer 9 Spec Sheet Solar Edge Power Optimizer Grounding 10 Spec Sheet Inverter Solar Edge SE3000 - SE1140OA-US il Spec Sheet Eaton AC Disconnect 12 Labels Spec Sheet IE The Solar Company, Inc. 20861 Wilbeam Ave. #1 Castro Valley CA, 94546 CSL# 596651 Office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com General Notes /Date: November25, 2015 21 Scale: Drawn By: Andre Laines Office (209) 676-3497 Fax (510) 888-9299 TSCdesign@TheSolarCo.com Title: I ADA14 Title Page Index Warning Labels Sheet: /Date: November25, 2015 21 Scale: Drawn By: Andre Laines Office (209) 676-3497 Fax (510) 888-9299 TSCdesign@TheSolarCo.com Title: I ADA14 Title Page Index Warning Labels Sheet: Solar Pv --\\ v Composition Array Roofing Rafter & Sheathing 3" 411 5/16" X 3-1/2" SS Lag Bolt (Typ) (Roof Sealant in pre -drilled hole) L-Foot Mount System and Flashing L-FOOT MOUNTING SYSTEM DETAIL NO SCALE (N) J-BOX (IF NEEDED) (MOUNTED UNDER MODULE)Rrj (N) SolarEdge SE600OA-US INVERTER (N) 15 SunPower SPR-E20-327 Modules 11 attached to 2 Solar Mount Rails attached A-7 to L-Feet @ 61 O.C. attached to (E) Rafters 2' O.C. w/ 5/16" x 3-1/2" SS Lag bolt @ 6' O.C. as per manufacturers recommendations. -see Spec & SLD LIM% LIM VDIM IN MON (N) EMT CONDUIT FOR AC WIRE (ROUTED UNDER EAVE) L 1 93. 05 1 Jv. Co 1E The Solar Company, Inc. 20861 Wilbeam Ave. #1 Castro Valley CA, 94546 CSL# 596651 Office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com General Notes eo' z CD CD Ln Cl) U 0�1 :2.1 C) LO (D 00 a) a) �D Q0 Na. RevisionlIssue Date Date : �2520i5 Scale: ill = 141 Drawn By: Andre Laines Office (209) 676-3497 Fax (510) 888-9299 TSCdesign@TheSolarCo.com Title: 2 ADA14 PLOT PLAN Sheet: 2 I a we_�' ■ I Inverters ganged together. 2. No utility required AC Disconnect as per PG&E code. 3. All Work to meet NEC 2011 or 2013 CEC. 4. All values subject to be rounded to next easily available trade size. S. The lowest recorded temperature is -12'C. 6. Data provided by www.solarabcs.org. 7. Integrated DC Disconnect on SolarEdge, SMA & SunPower inverters, therefore it is impossible to have Line and Load hot if disconnect is open. 8. Disconnect is wired so that utility feeds the protected side of the disconnect. 9. All exposed conductors are 010 AWG PV-Wire unless otherwise noted. 10.Grounded conductors to be white or gray ll.All wire specified as 11THHN" by The Solar Company is rated: THHN, THWN-2, MTW & AWN. 12.All- Conduit to be labeled- "WARNING-. PHOTOVOLTAIC Poi ER SOURCE". 13.Module Mounts and Equipment Enclosures Grounded to Main Panelboard Ground or Ground Rod. 14.All SunPower (SPRm & SPRp), SMA (SB & TriPower) & SolarEdge Inverters have Arc -Fault Protection per NEC 690.11. System composed of 1 string of 15 SunPower SPR-E20-327 Modules connected to 1 SolarEdge SE600OA-US inverter. 15 Modules & 1 Inverters total. Array Ratings: DC Values: OPERATING CURRENT 13 AMPS OPERATING VOLTAGE 350 VOLTS D.C. MAX SYSTEM VOLTAGE 500 VOLTS D.C. SHORT CIRCUIT CURRENT 15 AMPS AC Values: OPERATING CURRENT 25 AMPS OPERATING VOLTAGE 240 VOLTS MAX SYSTEM VOLTAGE 264 VOLTS SHORT CIRCUIT CURRENT 32 AMPS (N) 15 SolarEdge P400 POWER OPTIMIZERS [1 PER MODULE (MOUNTED UNDER MODULE)] (N) 60A AC Fusible Disconnect w/ 40A Fuses - Eaton DG222NRB w/ label: "Pliotovoltaic AC Disconnect" ,(E) 100�AMai�nPan�elbord �a (Connected using a UL Listed Supply Side Tap) WHO = Total DC WATTS / Operating Voltage = Inverter Operating Voltage = Inverter Maximum Voltage = 15 AMPS per String X # of strings Inverter OPERATING CURRENT x # of Inverters Inverter OPERATING VOLTAGE Inverter MAXIMUM SYSTEM VOLTAGE Inverter MAXIMUM TOTAL POWER RATING / MOM. AC VOLTAGE X 1.25 (N) 2x #10 PV-Wire Conductors (N) #10 AWG Solid Bare (N) J-Box (If Needed) w/ label "War.-iinq 'Hicah DC' Voltage" (N) 4" EMT or 42" FMC (if run inside building) w/ #10 AWG THHN/THWN-2 or #10 AWG PV-Wire conductors and #10 AWG ground (N) SolarEdge SE6000A-US Inverter wl Integrated DC Disconnect (N) Ground System (to meet 690.47) (N) 31' EMT w/ #8 AWG THHN/THWN-2 conductors & #8 AWG ground, 4 or (N) #8-3 Romex if AC wiring is run inside building The Solar Company, Inc. 20861 Wilbeam Ave. #1 Castro Valley CA, 94546 CSL# 596651 Office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com OF General Notes N 3� M _y - C D Ln 0) U F-4 0 0� CD 04 f--iZ I Ln OD 1a4 0) o., Revision/Issue , Date Date: November 25, 2015 Scale: _N/A Drawn By: Andre Laines Office (209) 676-3497 Fax (510 ) 888-9299 TSCde8iqn@TheSolarCo,com Title* 3 ADAM SINGLE LINE DRAWING Sheet 3 (E) UFER Ground System _J FUNIRAC Unirac Code -Compliant Installation Manual SolarMount a ASCE 7-05 AND ASCE 7-10 Step 2: Determine the Distributed Load on the rail, Step 3: Determine Rail SpanIL-Foot Spacing - (P If) Using the distributed load, w, from Part 11, Step 2, look up the Determine the Distributed Load, w (ptf), by multiplying the allowable spans, L, for each Unirac rail type, SOLARMOUNT module length, B (ft), by the Total Design Load, P (psf) and (SM) and SOLARMOUNT Heavy Duty (HD) in table 14, dividing by two. Use the maximum absolute value of the three downforce cases and the Uplift Case. We assume each module The L-Foot SOLARMOUNT Series Rail Span Table uses a single is supported by two rails. L-foot connection to the roof, wall or stand-off. Please refer to w = PB12 the Part III for more installation information. w = Distributed Load (pounds per linear foot, lif) B = Module Length Perpendicular to Rails (it) P = Total Design Pressure (pounds per square foat, psf) Table 14. L-Foot SOLARMOUNT Series Rail Span SM - SOLARMOUNT No - SOLARMOUNT Heavy Duty Span DWbwred toutLo-nds1f.., 20 25 30 40 so 60 80 too 120 140 160 180 200 220 240 260 2 SM sm SM sm SM SM SM SM SM sm sm sm sm SM sm sm 2.5 sm sm sm sm SM sm sm sm sm sloi SM sm sm 'HD 3 sm sm sm sm sm ism sm sm sm sm sm HD _ I HD', HD ',,HP, Is SM sm sm sm sm SM sm SM sm SM '146 '__'� 'Ho 4 sm SM sm sm sm sm sm sm sm HD HD,_�HD 4S sm sm sm sm sm sm sm 'M ' to HD HD5 sm SM sm sm sm sm sm sm D"_' 5.5 sm sm sm sm sm sm SM HD H6 rHD 6 SM sm sm sm sm SM sm HD Cs sm sm sm SM SM sm sm 'HD- HD 7 SM SM sm SM SM SM HD` HD 7.5 sm sm sm sm sm sm "HP 8 sm sm sm sm sm SM HD --HD-5 8.5 sm sm sm sm SM HD 9 sm sm ��-':' sm H6HE) H 9.5 sm sm sm SM 10 SM sm SM HD;`HD go 10.5 sm sm SM HD I I sm Sm its sm 12 sm !1"'D D 0 P. :1111UNIRAC Chirac Code -Compliant Installation Manual SolarMount Step 6: Determine the Uplift Point Load, R (Ibs), at each connection based on rail span You must also consider the Uplift Point Load, R (lbs), to determine the required lag bolt attachment to the roof (building) structure. Table 16. Uplift Point Load Calculation Total Design Load (uplift): P psf Step I Module length perpendicular to rails: B x ft Rail Span: L X it Step 4 /2 Uplift Point Load: R lbs Specific gravity Lag screw specifications 5/v shaft* per inch thread depth Douglas Fir, Larch 0.50 266 Douglas Fir, South 0.46 235 Engelmann Spruce, Lodgepole Pine (MSR 1650 f & higher) 0.46 235 Hem, Fir, Redwood (close grain) 0.43 212 Hem, Fir (North) M46 23S Southern Pine 0.5s 307 Thread depth Spruce, Pine, Fir 0.42 205 Spruce, Pine, Fir (E of 2 million psi and higher grades of MSR and MEL) OZO 266 SourcesAmerican Wood Council, NDS 2005,Toble I 1.2A, I 1.3.2A. Notes: (1) Thread must be embedded in the side grain of a rafter or other structural member integral with the building structure. (2) Log bolts must be located in the middle third of the structural member. (3) These values are not valid for wet service, (4) This table does not include shear capacities. Ifnecessory contact a local engineer to specify lag bok size with regard to shear forces. (S) Install lag bolts with head and washer flush to surface (no gap). Do not over -torque. (6) Withdrawal design values for lag screw connections shall be multiplied by applicable adjustment factors if necessary. See Table 103.1 in the American Wood Council NDS for Woad Construction, *Use flat washers with lag screws. N Use Table 12 to select a lag bolt size and embedment depth to satisfy your Uplift Point Load Force, R (lbs), requirements. Divide the uplift pointload (from Table 11) by the withdrawal capacity in the 2nd column of Table 12. This results in inches of 5/16 lagbolt embedded thread depth needed to counteract the uplift force. If other than lag bolt is used (as with a concrete or steel), consult fastener mfr documentation. It is the installer's responsibility to verify that the substructure and attachment method is strong enough to support the maximum point loads calculated according to Step 5 and Step 6. 1i Wiz The Solar Company, Inc. 20861 Wilbearn Ave. #1 Castro Valley CA, 94546 CSI4 596651 Office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com General Notes e xv rW L0 > U 0 la4 H El In 00 CL4 0-) M n k10 U o. Revision/Issue Date 16.tel.: November 25, 2015 Scale: Drawn By: Andre Laines Office (209) 676-3497 Fax (510) 888-9299 TSCdesign@TheSolarCo.com Title: 4 Spec Sheet UniRac SM Rails Sheet: 4 L-feet (Fig. 7) can be used for attachment through existing roofing material, such as asphalt shingles, sheathing or sheet metal to the building structure. Use Figure 8 or 9 below to locate and mark the position of the L-feet lag screw holes within the installation area. If multiple rows are to be installed adjacent to one another, it is not likely that each row will be centered above the rafters. Adjust as needed, following the guidelines in Figure 9 as closely as possible. Overhang 25% L max 25% of module Foot spacing/ width Rail Span "L" F 7 507 of module L J width (TYP) Note., modules must be Lower roof edge Rafters (Building Structure) centered symnictricallyon the rails (+/- 2"). Ifthis is not the case, call Uniraefor assistance. Figure S. Layout with rails perpendicular to rafters. Installing L-feet Drill pilot holes through the roof into the center of the rafter at each L-foot lag screw hole location. Squirt sealant into the hole, and on the shafts of the lag screws. Seal the underside of the L- feet with a suitable sealant. Consult with the company providing the roofing warranty. Securely fasten the L-feet to the roof with the lag screws. Ensure that the L-feet face as shown in Figure 8 and 9. For greater ventila- tion, the preferred method is to place the single -slotted square side of the L-foot against the roof with the double -slotted side perpen- dicularto the roof. If the installer chooses to mount the L-foot with the long leg against the roof, the bolt slot closest to the bend must be used. 25% of module width 50% of module width T F- Fgot spacing/ ails an, L Lower roof edge Overhang 257. L max L _.L Rafters (Building Structure) Note: Modules most be centered symmetrically on the rails (+/- 2 1). If this is not the case, call Unirac for assistance. Figure 9. Layout with rails parallel to rafters. 6UUNIRACUnira, Code -Compliant Installation Manual 'a SolarMount Keep rail slots free of roofing grit or other debris. Foreign matter will cause bolts to bind as they slide in the slots, Installing Splices: If your installation uses SOLARMOUNT splice bars, attach the rails together (Fig. 13) before mounting the rails to the footings. Use splice bars only with flush installations or those that use low -profile tilt logs. Although structural, the joint is not as strong as the rail itself. A rail should always be supported by more than one footing on both sides of the splice. (Reference installation manual 908, Splices/Expansion.Joints.) Mounting Rails on Footings: Rails may be attached to either of two mounting holes in the L-feet (Fig, 14). Mount in the lower hole for a low profile, more aesthetically pleasing installation. Mount in the upper hole for a higher profile, which will maximize airflow under the modules. This will cool them more and may enhance performance in hotter climates. Slide the %-inch mounting bolts into the footing bolt slots. Loosely attach the rails to the footings with the flange nuts. Aligning the Rail End: Align one pair of rail ends to the edge of the installation area (Fig. 15 or Fig. 16). The opposite pair of rail ends will overhang the side of the installation area. Do not trim them off until the installation is complete. If the rails are perpendicular to the rafters (Fig. 15), either end of the rails can be aligned, but the first module must be installed at the aligned end. If the rails are parallel to the rafters (Fig. 16), the aligned end of the rails must face the lower edge of the roof. Securely tighten all hardware after alignment is complete (20 ft lbs) . Mount modules to the rails as soon as possible. Large temperature changes may bow the rails within afew hours if module placement is delayed. Edge of installation area Figure 15, Rails perpendicular to the rafters. 34 Figure 13. Splice bars slide into thefooting bolt slots ofSOLARMOUNT rail sections. Top cla p m bolt slot Mounting slots Footing bolt slot Figure 14. Foot -to -rail attachment it Edge of installation area Figure 16. Rails parallel to the rafters. 1E The Solar Company, Inc. 20861 Wilbeam Ave. #1 Castro Valley CA, 94346 CSL# 596651 Office (209) 676-3497 (510) 888-9299 TheSolarCo.com OF General Notes ------- yV Ln 0 Z CD rL4 F-1 E, 00 a4 0-) M � t,0 4 U rn No. Revision/Issue Date D-11- November 25, 20152, Scale: Drawn By: Andre Laines Office (209) 676-3497 Fax (510) 888-9299 TSCdesign@The$olarCo.com Title: 5 Spec Sheet UniRac SM Rails L—Foot Sheet: - 20.4% efficiency Ideal for roofs where space is at a premium or where future expansion might be needed, - High performance Delivers excellent performance in real world conditions, such as high temperatures, clouds and low light-!' - Proven value Designed for residential rooftops, E-Series panels deliver the features, value and performance for any home. Maxeon" War CL41sz Fundamentally better. Engineered for performance, designed for durability. Engineered for peace of mind Designed to deliver consistent, trouble -free energy over a very long lifetime," Designed for durability The SunPower Maxeon Solar Cell is the only cell built on a solid copper foundation. Virtually impervious to the corrosion and cracking that degrade Conventional Panels." #I Ranked in fraunhofef durability test. 100% power maintained in Atlas 25+ comprehensive PVDI Durability test." HIGH PERFORMANCE & EXCELLENT DURABILITY MOSERiES E20 - 327 RANFI HIGH EFFICIENCY' Generate more energy per square foot E-Series residential ponels convert more sunlight to electricity producing 36% more power per panel,' and 60% more energy per square foot over 25 years,"' HIGH ENERGY PRODUCTION' Produce more energy per rated watt High year one performance delivers 7-9% more energy per rated wor,3 This advantage increases over time, producing 20% more energy over the first 25 years to meet your needs' 2 120% v— E`79' 710% I.r bld We" 90% 80% 70% 60% 0 5 10 15 20 Years M6 rcim High 5 Z., nt H;9k hn,nps 6% i No Light-ind—d 0e9,.drrr; High Average Waits, An -4 Ren., Lr,w.Iight and W1 N-R. IR1 R,,ryon X-rr-Rinor,e Glass yc., 25 www.sunpower.com SUNPOWER OFFERS THE BEST COMBINED POWER AND PRODUCT WARRANTY POWER WARRANTY PRODUCT WARRANTY 00 �`. 95 90 80 0 5 10 is 20 25 More guaranteed power: 95% for first 5 years, -0,4%/yr. to year 25.1 ELECTRICAL DATA E20-327 E 19-320 Nominal Power" (Pnom) 327 W 320 W Power Tolerance +51-0*1. +51-0% Avg. Panel Efficiency" 20.A% 19.8% Rated Voltage (Vmpp) 54.7 V 547 V Rated Current (Impp) 5.98 A 5 . 86A Open -Circuit Voltage (Voc) 64.9 V 64.8 V Short -Circuit Current (Isc) 6.46 A 6.24 A Max. System Voltage 600 V UL & 1000 V IEC Maximum Series Fuse 15 A Power Temp Coef. -0.38% / -C Voltage Temp Coef. -176.6 mV / 'C Current Temp Coef. 3.5 mA PC REFERENCES: I All comparisons are SPR-E20.327 vs. a representative conventional panel: 250W, approx. 1.6 m2, 15.3% efficiency. 2 PVEvolufion Labs "SunPower Shading Study,' Feb 2013. 3 Typically 7-93/o more energy per watt, BEW/DNV Engineering "SunPower Yield Report," Jan 2013. 4 SvnPower 0.25/./yr degradation vs. 1.0*/.`/Yr conv. panel. Campeau, Z. et al, 'SunPower Module Degradation Rate,' SunPower white paper, Feb 2013; Jordan, Dirk "SunPower Test Report," NREL, Oct 2012, 5 "SunPower Module 40-Year Useful Life" SunPower white paper, Feb 2013. Useful life is 99 out of 100 panels operating at more than 70% of rated power. 6 Second highest, after SunPower X-Series, of over 3,200 silicon Solar panels, Photon Module Survey, Feb 2014. 7 8% more energy than the average of the top 10 panel companies tested in 2012 (151 panels, 102 companies), Photon International, Feb 2013. 8 Compared with the top 15 manufacturers. SunPower Warranty Review, Feb 2013, 9 Some exclusions apply. See warranty for details. 10 5 of top 8 panel manufacturers from 2013 report were tested, 3 additional silicon solar panels for the 2014. Ferrara, C., et al. "Frounholer PV Durability Initiative for Solar Modules: Part 2", Photovoltaics International, 77-85. 2014. 11 Compared with the non -stress -tested control panel. Atlas 25+ Durability test report, Feb 2011from 2013 report were tested, 3 additional silicon solar panels for the 2014, Ferrara, C., et al. "Frounhofer PV Durability Initiative for Solar Modules: Part 2". Photovoltaics International, 77-85, 2014. 12 Standard Test Conditions (1000 W/M2 irrodionce, AM 1.5, 25° C). 13 Based on average of measured power values during production 0 5 10 15 20 25 yb.,s Combined Power and Product defect 25 year coverage that includes panel replacement costs. 9 OPERATING CONDITION AND MECHANICAL DATA Temperature 401 to +1 85'F (- -40'C to +85°C) V, Max load Wind: 50 psf, 2400 Par 245 kg/m2 front & back Snow: 112 p1s1f, 5400 Par 5150 kg/M2 front Impact resistance I inch (25mm) diameter hail at 52 mph (23 m/s). Appearance Class A Solar Cells 96 Monocrystalline Maxeon Gen 11 Tempered Glass High transmission tempered Anti -Reflective Junction Box IP-65 Rated Connectors MC4 Compatible Connectors Frame Class I black anodized (highest AAMA rating) Weight 41 lbs (I 8.6 k9) TESTS AND CERTIFICATIONS Standard tests ULl 703 (Type 2 Fire Rating), IEC 61215, JEC 61730 Quality tests ISO 9001:2008, ISO 14001:2004 EHS Compliance RoHS, OHSAS 18001:2007, lead free Ammonia test IEC 62716 Salt Spray test IEC 61701 (passed maximum severity) PID test Potential -induced Degradation free: I 000VIC Available listings UL, CEC, CSA, TUV, JET, KEMCCI, MCS, FSEC 1046 rnm (41.2 in) P 46 mm-ii,11 1559 mrn [1.8 in] [61.4inj See h"p://www.sunpcwer.ccm/focts for more reference information. For more details, see extended datosheet: www.sunpower.comr/datosheets. Read safety and installation Instructions before using this product. www.sunpower.com ©December 2014 SunPower Corporation. All rights reserved. SUNPOWER, the SUNPOWER logo, MAXEON, MORE ENERGY. FOR LIFE., and SIGNATURE are trademarks or registered trademarks of SunPower Corporation. Specifications included in this dotoshest are subi-t to change without notice. D-r-rt # 504860 Ir- D /LTR_US IIE The Solar Company, Inc. 20861 Wilbeam Ave, #1 Castro Valley CA, 94546 CSL# 596651 Office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com General Notes yW CD Ln > U 0 -1 Z CD r-L4 F-i I El to 4 CD 'i 00 a4 D to rf U (y) No. Revision/Issue , Datej /D71. November 25, 2015***) Scale: Drawn By: Andre Laines Office (209) 676-3497 Fax (510) 888-9299 TSCdesign@TheSolarCo.com Title: 6 Spec Sheet Module SPR-E20-327 Sheet* 6 4.0 Electrical Connections Modules may be connected in series and/or parallel to achieve the desired electrical output as long as certain conditions are met. Please use only the same type of modules in a combined source circuit. SunPower modules ship with locking connectors or safety clip, which once connected requires the use of a tool to disconnect module -to -module connections. This defends against untrained personnel disconnecting the modules when under load (which may cause injury or death as stated in Section 2.0) and complies with the NEC 2008 code for safety with PV connectors. 4.1 Equipment Grounding To reduce the possibility of electrical shock, ground the frame of the module or array before wiring the circuit using a grounding method that meets NEC requirements for grounding solar electrical systems. In order to install in accordance with the UL listing of this product, SunPower modules shall be grounded using grounding hardware that has been certified to meet requirements for grounding systems in UL467, UL1703, or UL1 741 on anodized aluminum frames. SunPower recommends using I of the following five methods of grounding the module frame. In addition, avoid corrosion due to the use of dissimilar metals (we suggest stainless steel between copper and aluminum). I Attach a ground conductor to a grounding lay -in lug mounted at one of the four designated 0. 17" grounding holes on the module frame. Alternatively, any unused mounting hole can be used to mount the lug. Use a grounding lug such as lisco GBL-4DBT, Bumcly CL50-DB- I or Tyco Solklip 1954381-2, and stainless steel hardware (bolt, washers, and nut). A star washer should be used between the grounding lug and the module frame in order to break through the anodizing and establish electrical contact with the aluminum. The assembly must end with a nut and be torqued between 20 inch -pound to 25 inch -pound for a #10-32 bolt. A lock washer or other locking mechanism is needed to maintain tension between the bolt and the assembly. The copper conductor must be attached to the ground lug using the stainless steel set screw provided by the manufacturer. Please refer to NEC Article 690 on grounding PV arrays for specific requirements. 2) SunPower systems may also be grounded through the use of SunPower supplied "IFF clips" which are UL Listed (1703 and 1741). A minimum torque of 10 in-lbs is required for grounding, however higher torque values will be required to ensure structural integrity. General torque values are 35 to 45 in-lbs for a 1/4-20 or M6 bolt, but may be higher in specific applications. When using these clips, the array frame (racking) must be grounded in accordance with NEC Article 250. To ensure system safety and structural integrity, strict adherence to application -specific SunPower documentation is required, 3) The SunPower PV Grounding Clip may also be used only in applications where the modules are attached to a SunPower torque tube, #111380. This device consists of Rail Clip #1505-994, Retainer Bar #1504-979, Carriage Bolt (2) #1506-224, Nut (2) #1503-098, Lock Washer (2) #1503-099. Hardware must be torque to 120 in-lbs. The PV Grounding Clip has been evaluated for bonding to the Torque Tube for use with an over -current protective device rated 20 Amps maximum and a circuit rapacity of 600 V, 5000 Amps. *Note: Methods 4-5 were evaluated to UL 1703 by ETL. As such, the use of these devices is not considered part of the UL Listing of these modules. 4) Sunpower modules may also be grounded through the use of an ETL Listed PV Attach Grounding washer #11 608-666, which may be used only in applications where the modules are attached to a Sunpower Saddle #1508-738 or #1508-741 using a 114 inch rivet. 5) If the Unirac Solarmount system is used for mounting the modules, grounding is achieved using either the Wiley Electronics WEEB UMC or UGC-1 grounding clips in combination with UniRac's Mid or End clamps and 114-20 bolt and flanged nut, torqued to 120 in-lbs. If the Solarmount-I system is used grounding is achieved with the UniRao UGC-2 grounding clips in combination with UniRac's Mid or End clamps and Sliders with a 1/4-20 bolt and flanged nut torqued to 120 in-lbs. When using methods 2, 3, 4 or 5 the array frame (racking) SUNPOWER CORPORATION Safety and Installation Instructions - Document MI-14158 Rev N must be grounded in accordance with NEC Article 250. To ensure system safety and structural integrity, strict adherence to application - specific SunPower documentation is required. 4.2 System Grounding Review the following tables for the proper grounding techniques to use for the installation of your SunPower PV system. Module 111ame/Grounifincit key lilamr SPR E & X series and flE modules are compatible Legacy SPR module v&hTr&ns3armer4c3s(TL) systems must be installed inverters, when used as an with positive ground (see ungrounded PV source. They have no system instruction below) grountfing restrictions SPR-EYY-ZZZ SPR-EYY-M-BLK SPR-ZZZE-WHT-D SPR-EYY-M-COM SPR-M-WHT-D SPR-ZZZNE-MT-D SPR-XYY-ZZZ SPR-XYY-ZZZ-BLK SPR-ZZZE-BLK-D SPR-XYY-ZZZ-COM SPR-M-BLK-D SPR-ZZ7_NE-SLK-D . Standard modules grounding reference Important! For optimal performance, SunPower PV modules must only be used in configurations as described above. Failure to comply with this requirement will reduce the performance of the system and invalidate SunPower's Limited Power Warranty for PV Modules. For more information on grounding the system correctly, visit our website at www.sunl)owercorD.com/inverters or contact SunPower technical support at 1-877-SUN-0123. 4.3 Series Connection The modules may be wired in series to produce the desired voltage output. Do not exceed the maximum system voltage shown in Figure 2. 4.4 Parallel Connection The modules may be combined in parallel to produce the desired current output. Each series string or module may be required to be fused prior to combining with other strings. Figure 2 describes the maximum fuse size allowed (number of modules which can be connected in parallel and protected by one fuse). Please refer to the NEC Article 690 for additional fusing requirements. 5.0 Module Mounting The SunPower Limited Warranty for PV Modules is contingent upon modules being mounted in accordance with the requirements described in this section. 5.1 Site Considerations SunPower modules should be mounted in locations that meet the following requirements: Watch 2013 SunPower Corporation. Ail rights reserved. specifications included in this manual are subject to change without notion. SUNPOWER CORPORATION DATE: February 9, 2011 Tech Note Title: T11004 Use of Weeb Lugs, UGCs and UMC on SunPower Panels and Rails DMS #: 001-67370 Rev. UGC — 2 Grounding Clip Grounding Method for Haticon Rails: WEEB UMC Grounding Clip Below is a chart on where the Weeb clips/Lugs are applicable: 4411, Z, UGC — 1 Grounding Clip Tv�,, pq I Rl`, R E V I EVA/ ILSCO Grounding Lug SPR-SM (SolarMount) SPIR-SM-1 (SolarMount-I} SPR-SF {SunFrame) Unirac UGC-1 N/A N/A Unirac UGC-2 N/A N/A Unirac WEEEB-UMC N/A N/A Unirac WEEB lug SunPovver Corporation Proprietary Information, Electronically Controlled. Latest Revision is in the Document Management System. A printed copy is uncontrolled and maybe outdated unless it bears a red ink "controlled copy" stamp. Form # 001-51499 Rev *C The Solar Company, Inc. 20861 Wilbearn Ave. #1 Castro Valley CA, 94546 CSL# 596651 Office (209) 676-3497 Fax (510) 888-9299 TheSclarCo.com 01 General Notes Sys kJ RuM,rig '1,',c,-,-1.a, le""j" > 4 lit 0 -1 fY � CD 04 H I E, 00 C14 cl) CSl � k_0 ri C) Cn Revision/Issue , Date /Date: November 2:5 201=5 Scale: Drawn By: Andre Laines office (209) 676-3497 Fax (510) 889-9299 TSCdosign@TheSolarCo.com Title: 7 Spec Sheet Module Grounding �Sheet: M"I LISA - GERMANY - ITALY - FRANCE JAPAN - CHINA - ISRAEL - AUSTRALIA www.solaredge,us Maximum Allowed System Voltage 1000 Dimensions (W x L x H) .......... 141 x 212 x 40.5 / 5,55 x 8.34 x 1.59 . ..... — Weight (including cables) ..... ...... ....... ...... * ....... .... ...... 950/2.1 ...... ...... Input Connector MC4 / Amphencil / Tyco MC4 output Wire Type / Connector ........ .... .. ........ Double insulated; Amphenol . .... .. .. ..... .... . . — ... . ... ...... ... .. . Output Wire Length 0,95/3.0 ..... — .... — .... — ..... --- .... ...... * ......... — 1.2/3.9 ---- �� —L .... ........... .......... ...... ......... I— Operating Temperature Range -40 - +85 -40 - +185 Protection Rating I PISS J NEMA4 Relative Humidity 0-10 I,I Raled57C power of the module. Mpdn3e of up ca+54£ power tolerance allowed. PV SYSTEM DESIGN USING A SOLAREDGE INVERTER(21 SINGLE PHASE Minimum String Length (Power Optimizers) ........... Maximum String Length (Power Optimizers) Maximum Power per String Parallel Strings of Different Lengths or Orientations 11 il not elf.—d to mix PQ5 with P300/P350jP400jP600/P700 in Me String, THREE PHASE 208V THREE PHASE 480V VdC gr/Ib m /ft CVF 8 10 18 25 25 50 5250 6000 12750 W Yes The Solar Company, Inc. 20861 NTilbearrt Ave. #1 Castro Valley CA, 94546 CSL# 596651 office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com General Notes Q fpWy ild'ing, F-,- C) In 0-) cri U Z CD f24 F-i I E-4 In co 1:14 M M ::D No. Revision/Issue /171. November 25, 2015 Scale: Drawn By: Andre Laines Office (209) 676-3497 Fax (510) $$8-9299 TSCdesign@TheSolarCo.com Title: 8 Spec Sheet Solar Edge P300 - P405 Power Optimizer Sheet: 8 solarZe =o-- MM-01-00025-3.1 A'X For full installation and safety details, you must refer to the SolarEdge Installation Guide. Make sure you read, fully understand and follow the detailed instructions in the SolarEdge Installation Guide prior to each installation. Failure to do so could result in injury or loss of life and damage or destruction of the equipment. The images contained in this document are for illustrative purposes only and may vary depending an product models. Connecting Power Optimizers to Modules I Mount the power optimizers in a shaded location near the PV modules, on the structure or racking to which the module is attached, using the mounting holes. If possible, avoid mounting power optimizers in locations where they will be exposed to direct sunlight. Make sure that each power optimizer is positioned within reach of each moduleI s cables. To allow proper heat dissipation, maintain a 1" /2.5 cm, clearance distance between the power optimizer and other surfaces. 2 Attach each power optimizer to the rack using the 5/16" or 1/4" bolts, nuts and washers. 3 Use the following methods to ground the power optimizer: Star we 0 For mounting on a grounded metal rail: Use the provided 5/16" stainless steel grounding star washer between the railing and the flat side of the mounting bracket. The grounding washer should break through the anodize coating of the railing to ensure low resistive connection. Apply torque of 9.5 N*m / 7 lb*ft. 0 For mounting on rails with sliding nut fasteners, or an un-grounded structure Optional grounding terminal (such as a wooden structure): Connect an equipment -grounding conductor to the grounding terminal according to the instructions supplied with the grounding terminals (grounding terminal kits are available from SolarEdge). The grounding terminal accepts a wire size of 6-14 AWG, and must be sized for equipment grounding per NEC 250.122 requirements. Tighten the screws connecting the power optimizer to the frame and the grounding terminal screw. Apply torque of 95 N*m / 7 lb*ft. 4 To benefit from the physical mapping of the installation in the SolarEdge Monitoring Portal, record each power optimizer's serial number and location: Peel off its removable barcode sticker and stick it on the mapping template, or scan the barcode with the SolarEdge Whone Site Mapper app. Upload the map to the SolarEdge website, using the site registration form. 5 Connect the Plus (+) output connector of the module to the Plus (+) input connector of the power optimizer. 6 Connect the Minus (-) output connector of the module to the Minus input connector of the power optimizer. Connecting Power Optimizers in a String Bracket Input Connect to module Connect the power optimizer outputs in series: Connect the Minus (-) output connector of the string's first power optimizer to the Plus output connector of the string's second power optimizer. Connect the rest of the optimizers in the string in the same way. 0 The minimum and maximum string length should be according to the power optimizer datasheet. 0 Strings DO NOT have to be of equal length, 2 Verify proper connection of power optimizers: Before the inverter is turned ON, each power optimizer produces 1 li/safety-voltage. Use a voltmeter to verify it for each string using a voltmeter. The voltage on a string is the number of modules multiplied by 1V, with a deviation of 10mV per module. Make sure the modules are exposed to sunlight during this process. If • several strings are connected in parallel, verify voltage for each string separately The Solar Company, Inc, 20861 Wilbeam Ave. #1 Castro Valley CA, 94546 CSL# 596651 office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com General Notes IN cy L 1A By L0 M CIO i---1 0 -1 1:4 Z P Ln 00 124 M C) (n Vo., Revision/Issue I Date.J 007- November 25, 2015 -Scale: Drawn By: Andre Laines Office (209) 676-3497 Fax (510) 888-9299 TSCdeslgn@TheSolarCo.com Title: 9 Spec Sheet Solar Edge Power Optimizer Grounding Sh eet: 9 M-104 me Mel SolarEdge Single Phase Inverters For North Ameriu, USA - GERMANY - ITALY - FRANCE JAPAN - CHINA - ISRAEL - AUSTRALIA www.solaredge,us Single Phase Inverters for North America solar =@@ SE3000A-US 1 SE3800A-US/ SE500OA-US / SE600OA-US SE7600A- US/ SE10000A-US / SE1140DA- US -- — -------- ---------- SE300OA-US SE380OA-US SESOOOA-US SE600OA-US 1 SE760O-US E114 A -US SE10000 A i ,OUTPUT - Nominal AC Power Output 3300 9980 @ 208V 3840 5000 6000 7680 11520 VA Max.x. AC Power Output 3650 4150 5400 @ 209V 10800 @ 208V 6000 8350 12000 VA 5450 @240V 10950 @240V ACOutput Voltage Min .-Norri.-Max , 229 Vac "'At AC Output Voltage Min.-Nom.-Max.* 211 - 240 - 264 Vac ✓✓✓✓V AC 593 - 60 - 60 (with HI country setting 57 - 60 - %5) 24 @ 208V i 1 48 @ 208V Max. Continuous Output Current 14 1 16 25 32 48 yA i 42 (W 24UV Utility Monitoring, Islanding Protection, Country Configurable Yes RIEOEWEE, Thresholds INPUT Recommended Max. DC Power— i i i i i , 4100 4800 6250 7500 9600 i 12400 14400 V1 Ungrounded Yes 325 @_29gw� @ 249V Max. Input Current— ... ............... l/.350. ........ ...... 33 @ 208V 11 3 18 23.5 35 Adc 30.5 @ 240V ........... Max, Input Short Circuit Current 30 45 Adc Reverse -Polarity Protection Yes GroundFault Isolation Detection 98.3 98 98 9 % CEC Weighted Efficiency 97.5 8 9 STS @ 208V 97.5 97�5 97 208V i" 9TS % Nighttime Power Consumption < 15 ADDITIONAL FEATURES Supported Communication Interfaces FS485, RS232, Ethernet, ZigBee (optional) STANDARD CO - -- -------- UL1741UL16998 UL1999CSA 22-2 FidC nnectonSafety Standards 4 ..1..........1 '___ IFEEl547 Emissions . FCC part 15 class B INSTALLATION SPECIFICATIONS AC output conduit size / AiiVG range ......... ' 3/4" minimum / 24-6 AWG 3/4" minimum 8-3 AWG ........ 66 o'f"s't'r i ng s input to ndu i*t' size H ..... .. ..... 3/4" minimum 12 strings 24-6 AWG 3/4minimum / 1-2 strings / 14- 6 AING A Dimensions with AC/DC Safety ...... 30.5 x 12.5 x 7 1 x91 1 30.5 x 12.5 x 10,5 / 775 x 315 x 260 mm Weight with AC/DC Safety Switch 512/2 .2547/24.7 88 4 j 4 0. 1 1 b I kg Coaling Natural Convection Fans (user r js!a��Caye) ..a Noise, d BA, Min. -Max. Operating Temperature 13 to +140 -2 5 to +60 (CAN version -40 to +60) F / -C flange ....... ... ........ ,Protection Rating NEMA 3R For other settings please contact sda'Edgsupport _udibedt.' for locations whore the ase6y a..ge high temperature is above "?F/25°C and to n5% fo, looatious wi, it is below 77tF/259C. For detailed iororrnatlrrn, referkih 'udirtkV, ol±,'�f inyg'tu' n—id self A higher current sou-, y be used; the j,,vorta, will ain't its input, current to the values stated. ' CAN PIN, are eligible, for the 0,1haiQ FIT te,d ,., F,FJT (,,jFlT exe SE11400A US CAN) ft The Solar Company, Inc. 20861 Wilbeam Ave. #1 Castro Valley CA, 94546 CSL4 596651 Office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com General Notes Mf U, tz iN N 2r" C yV 0 Z Z El Ln OD 04 0"1 0) ,D t.0 Na. Revision/Issue , Date "o I.D.te: November 25, 2015 Scale: Drawn By: Andre LaineS Office (209) 676-3497 Fax (510) 888-9299 TSCdesign@TheSolarCo.com Title: 10 Spec Sheet Inverter Solar Edge SE3000 SE11400A-US Sheet: 10 IF.,T*N fal"'a" 2M Pr.dw selao:fion 1201240 Vac Declare I -Duty, Fusible, Single Throw Specilications itr ■ SW Iblo Rn setri.a anu wh- cith-isia ootad • z .AP general -duty Fwimh.s i. . NVAAA 3R 6 listed File N.E5239,Moots UL 98 for.-Nosed -'kK- and NEMA Sid, KS 1, ■ 200 - 600 amp are switch. w-P.lat. K Sari- d.ig.. Tabl. 8-40, 120M0V.. Tfulaw Bd.- NEMAMEd. io flaiaploof 120 Volt 4!!=6V.11 ? is l-a4N.-MgTWi0 -tug Ir-2 "Ir- OP221 GO asr.3�_ a'WI 2-15 15-10 ET"' 3 G l - L o" als H 7 - 75 - ZO -1- M. - 30i ocna Go 1 N M 41, 1 1- 0 S' "MaNGC 0=i4iJGK 723 "4N- &NA[ 7I 7 ' oG.MCK .oNMIS Mnae @WARNING! Sllbh }snot Note Alklen"Ta"'itY safelytchas are InitNtd1aily pac`,2ged 22CD Fof o. iif-m, vim iNaaal -in CA*3111001E SwitchingE Safety $wit 120124D Vac General -Duty, Fusible, S ingi a Throw Tabli, 2-41.12U240 W.. Th- M-- I, ...... R,6-" N.. ' MCM. 3 Polo 3-WileMit. gladas,Tfirnhasa) -241, d DG32 F ,J l,a=qRK'-'0 4-W,.(Tb-84da,8hoa, F-SM-1=40rais T--j 1 0GUIN8 1 137 1 DG,122NR G. N RK NO ii DG 5NIN D.32MGK DGM5N RK 0GXIMA`K (i) M-'. hp,al"g, "I' ',,tv "".&.Y M- a. -.1 a, Us b- l,. G Svird nau fL OiQt 1-, T.41,, .1 ,, P,,a 115, 0 WARNING! S?",.h " -aPp-b,-m�'-ll'a- o 1201240 Vale General -Dairy, Non -Fusible, Single Throw Told. Systpn As!gI E.d- MEsoaaa.%�Sl;.kdo iTjIV V. 21. Vol 24OV.1t 2w!!� Catalog Number ----[ Ij -S Numb.t 11 as Noo-halitit. -2 P.1.2-0.(Na. lfiad.11- Mlfu Lj 11 1 D 7111 1.1,� L 1 a'. D14 DG2 UnaQ _L_j 3-P& 3•WnUN . glad.) -240 ru "U' np GB D G 5 U RK 1-11-4.,z�3isL �Min(0 o WARNING! Sae," is not vv-d 11, 1-1, nii-ca .1- a ... ti,,l kit i-SW Iod Q 0. -.1- -ho, booty. 0 0,19 to -Pt laid mslati,d eau 1W 1, Nat:: ':: PA&"Q,,d Not : A-11. are 1- tsd iii s.Plon genera A." -3-h. Sespso. &S I .... mabdky n -Miaii c!sas Ma sl-wa--labfa iis, sw+th,s Me Switching Devices Safety Switches Technical Data and Specifications Dimensions Tiviall, 8-26. General-Dwr Plug Fuss, 120, IZW240 Uti 1, Moto Solid Neutral, Sinsh, Throw A. Tabd.0-27.Gan ... W'69hl RaVng L -- DaPrt. Da- - _ - " W "'t] N'E MES fl� [%"a tni MtI L 638 6M 6 (UiZ 1) W1.5i 01481� (95.2) (2,724) 6.3$ 103 0621s (214,6) fise'i (IM 876 OU) F12-124) 421 9 003) MQAI M7.,�A (Ma) (40iSa 114.38 U- L220,7) 10663) 1. (137,51 1.21 (IC6.9) 9 j4C8o l8ul '38 " 234) 12 q. (187"� Il (4?7g) 07 (5.443) 9.13 110,25 03")T f4ffQ) 7,38 M7,51 4,n 00.`t 12 6,!0) �-L, j'a'I'41 " '* 14 48 15�io ALM; M00 125,50 ------ j10114I 1 .1 -"n Q...i T - 4- jlaaT -',. <00 ("'�O& M'nz' 0".7.7) ('L) -� -1-Z2F I &19 (22OLZO(IJMAJ -110-. - Miia - 1,27 (IM-7) 105 MM,') ��-ZG .. i��_ [flO."I Lnvz L�xszo; 027,3) NO (096)1fI=.ig TZI� i362.0) VW- 071.3) (61,29) Not. TabloS.20. Goloral"lity, Fuldblo.24011aft1P taSolid N-1,SingtoThrvat A, %50 N'M� ga'N;o'o� t a I '' 6W4-.aiWAa. 5-W - RlwR rwaaiWiathi -i6 �(113i �662) �(111911 �610111a,' - -I- �1(120734iQ 6 1) (30. (2,724IT(Z62 1) J01174JR (M.2) QIZ24) 0 8.G') 1.10 !36 414111111 17,20 _., 411 (IW9) 'a , 454 1 ,- 12203)0S1 'X L1175) lg46 10 !) , . (41,R)11R7"51 24.7611,26 (M 7)MMM A23 (10741 6.14 IMO) 14 05 %R 0 (217M, 9,131O257,X (231.9)1(4W0) 16�IV1.25 soo;A)"3) (187b) 12l,.M 4n (107.4) ,. 614 IlKia 14 (GT6 5 (24D7) 7.77 110 23M 4519 1 7.27 tM71 175 (52211 4WS.6) 032721 6201 &Z i2z7-* 145 (65.8IL - -10 2!400 -. '9 ),7133061 a-. LM9iji127 oD Not.: Da.."aj- at. fii-ati-W'o P.'P..' qy. CA09101001E F,a- Wailoal--t -m-lo Figure 84 NEMAI-33120(1-600Aloiarea G.'al-MAY Non -Fusible ..d fiaiblia Siriifl. Th- The Solar Company, Inc. 20861 Wilbeam Ave, #1 Castro Valley CA, 94346 CSL# 596651 Office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com General Notes f CD CD L0 0 HP4 :z CD 04 H ' El L0 --i W I 11 a4 (11 M � k'o 4 0 tin No. Revision/Issue jDate *07 /D.tl- November �2015 Scale: Drawn By: Andre lames Office (209) 676-3497 Fax (510 ) 888-9299 TSCdeolign M eSollsrCo.conai Title: 11 Spec Sheet Eaton AC Disconnect �Lheet: VINSIMMMMMIZ t � r WARNING! ELECTRIC .. HAZARD DO NOT TOUCH TERMINALS! t •' ! SIDES THE OPEN POSITION. PHOTOVOLTAIC D.C.D.C. DISCONNECT OPERATING CURRENT 13 AMPS OPERATING VOLTAGEi VOLTS VOLTAGEMAXIMUM SYSTEM 500 VOLTS ! SHORT THE SOLAR COMPANY (877) j E DUAL POWER SUPPLY PHOTOVOLTAIC DISCONNECT WARNING! R —0 "-- r ,� r o 1 WARNING ELECTRIC SHOCK HAZARD!: THE 5JC— CONDUCTORS OF PV SYSTEM ARE ♦ r ! AND MAY . ENERGIZED Notes. 1. Labels are reflective, weather resistant and suitable for the environment. They are all capital letters with g" white on red background. 2. Markings are placed every 101, within 1' of turns or bends & within 1' above and/or below penetrations of roof/ceiling assemblies, walls or barriers. g d� UE7j Y The Solar Company, Inc. 20861 Wilbeam Ave. #1 Castro Valley CA, 94546 CSL# 596651 Office (209) 676-3497 Fax (510) 888-9299 TheSolarCo.com General Notes ' R -FINO ✓e i✓e «t rW zV W O(D t.() U) U U U !"0 ! IY4 z (D Pa 6 E-H J) �0�® CO w U (y) No. Revision/Issue Date Date: November 25 2015 Scale: Drawn By: Andre Laines Office (209) 676-3497 Fax (510) 888-9299 TSCdesign@TheSolarCo.com Title: 12 Labels Spec Sheet Sheet:l2 � J