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14070125
CITY OF CUPERTINO BUILDING PERMIT BUILDING ADDRESS: 7537 DUMAS DR CONTRACTOR:QUALITY FIRST HOME PERMIT NO: 14070125 IMPROVEMENTS OWNER'S NAME: JEANNETTE JACKMAN 6545 SUNRISE BLVD STE 202 DATE ISSUED:07/29/2014 OWNER'S PHONE: 4082521384 CITRUS HEIGHTS,CA 95610 PHONE NO:(916)788-2921 ❑ LICENSED CONTRACTOR'S DECLARATION JOB DESCRIPTION:RESIDENTIAL E] COMMERCIAL E] INSTALL 12 PV PANELS,ROOF TOP,FLUSH MOUNTED License ClassCIU n° C`!b Lic.# a,7.5.77A (2.85KW)� ContractorQdal"+yFF.y5a" 9,�Ire Date 7119/ 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 performance of the work for which this permit is issued. Sq.Ft Floor Area: Valuation:$26821 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 APN Number:35924048.00 Occupancy Type: permit is issued. APPLICANT CERTIFICATION I certify that I have read this application and state that the above information is PERMIT EXPIRES IF WORK IS NOT STARTED correct. I agree to comply with all city and county ordinances and state laws relating WITHIN 180 DAYS OF PERMIT ISSUANCE OR to building construction,and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes. (We)agree to save 180 D LLED INSPECTION. indemnify and keep harmless the City of Cupertino against liabilities,judgments, costs,and expenses which may accrue against said City in consequence of the 2 granting of this permit. Additionally,the applicant understands and will comp y I Da e. with all non-point source�regulations per the Cupertino Municipal Code,Section 9.18. - '�� RE-ROOFS: Signature Date 7�?h( � / All roofs shall be inspected prior to any rooting material being installed. If a roof is installed without first obtaining an inspection,I agree to remove all new materials for inspection. ❑ OWNER-BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law for one of Signature of Applicant: Date: the following two reasons: ALL ROOF COVERINGS TO BE CLASS"A"OR BETTER 1,as owner of the property,or my employees with wages as their sole compensation, will do the work,and the structure is not intended or offered for sale(Sec.7044, Business&Professions Code) I,as owner of the property,am exclusively contracting with licensed contractors to HAZARDOUS MATERIALS DISCLOSURE construct the project(Sec.7044,Business&Professions Code). I have read the hazardous materials requirements under Chapter 6.95 of the California Health&Safety Code,Sections 25505,25533,and 25534. 1 will hereby affirm under penalty of perjury one of the following three maintain compliance with the Cupertino Municipal Code,Chapter 9.I2 and the declarations: Health&Safety Code,Section 25532(a)should I store or handle hazardous I have and will maintain a Certificate of Consent to self-insure for Worker's material. Additionally,should I use equipment or devices which emit hazardous Compensation,as provided for by Section 3700 of the Labor Code,for the air contaminants as defined by the Bay Area Air Quality Management District I performance of the work for which this permit is issued. will maintain compliance with the Cupertino Municipal Code,Chapter 9.12 and I have and will maintain Worker's Compensation Insurance,as provided for by the Health&Safety Code,Sections 25534. Section 3700 of the Labor Code,for the performance of the work for which this Owner or authorized agent: � Date: permit is issued. I certify that in the performance of the work for which this permit is issued,I shall not employ any person in any manner so as to become subject to the Worker's Compensation laws of California, If,after making this certificate of exemption,I CONSTRUCTION LENDING AGENCY become subject to the Worker's Compensation provisions of the Labor Code,I must I hereby affirm that there is a construction lending agency for the performance of forthwith comply with such provisions or this permit shall be deemed revoked. work's for which this permit is issued(Sec.3097,Civ C.) Lender's Name APPLICANT CERTIFICATION Lender's Address I certify that I have read this application and state that the above information is correct. I agree to comply with all city and county ordinances and state laws relating to building construction,and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes.(We)agree to save 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 t understand my plans shall be used as public records. granting of this permit.Additionally,the applicant understands and will comply with all non-point source regulations per the Cupertino Municipal Code,Section Licensed Professional 9.18. Signature Date ALTERNATIVE ENERGY PERMIT APPLICATION COMMUNITY DEVELOPMENT DEPARTMENT• BUILDING DIVISION 10300 TORRE AVENUE•CUPERTINO, CA 95014-3255 AE CUPERTtNQ (408)777-3228• FAX(408)777-3333• buildingCZDcupertino.org PROJECT ADDRESS 7 5 3 7I r,y� APN# C� 4 _ Z _ a ty OWNER NAME V PHONE !E-MAIL lS n��'�Z S "C'V- Ko�,,2 - / 3�� STREET ADDRESS CITY,STATE,ZIP FAX 7537 c�•�e. �4ve, Cuprrkno G 4Sa/ `7 CONTACT NAME PHONE E-MAIL Va Lvca5 9r6-7B6-2 )-1 11e,,e-. STREET ADDRESS CITY,STATE, ZIP FAX PAS5 ,1 61V ° 6,4✓'(j y5i)o ❑ OwNER ❑ OwNER-BUILDER ❑ OWNER AGENT XCONTRACTOR ❑CONTRACTOR AGENT ❑ ARCHTrECT ❑ ENGINEER 1❑ DEVELOPER ❑ TENANT CONTRACTOR NA G�Grr y �W res W� LICENSE NUMBER 75'77 r� LICENSE TYPE BUS.LIC / �yam( &0)C7 51, L'6 `/1.2 X 16 COMPANY NAME E-MAIL FAX STREET ADDRESS CITY,STATE,ZIP PHONE rv5`15 50 rid blVC� c°+off h GA a5G66 Q 9 ?8 - 29 1 ARCHITECT/ENGINEER NAME LICENSE NUMBER {j•�C 7 s� BUS.LIC Z bS y�I�Z 16 COMPANY NAMEE-MAIL (j 6 J! { FAX J �v��, STREET ADDRESS CITY,STATE,ZIP PHONE ys 5(- b�✓� C -F,,/5 he, h }5 G g56/c 416 -,V%-,912 I USE OF �J SFD or Duplex ❑ Multi-Family PROJECT IN WILDLAND PROJECT IN STRUCTURE: ❑ Commercial URBAN INTERFACE AREA ❑ Yes ❑ No FLOOD ZONE ❑ Yes ❑ NO SOLAR PANELS ❑ ELECTRIC VEHICLE CHARGING STATION ❑ SOLAR WATER HEATING ❑ OTHER: FOR SOLAR PANELS: NUMBER OF PANELS/UNITS:1 KILOWATTS(COMMERCIAL ONLY): TOTAL VALUATIO / m / DESCRIPTION OF WORK (o U Id e tIq 4 )a j2a nets = gk V5 F c,n RECEIV By my signature below,I certify to each of the fo ing: I am the property owner or au prized agent to act on the property s behalf I have read this application and the information I have is corre I have read the De o ork and verify it is accurate. I agree to comply with all applicable local ordinances and state laws relating to b g cons n. I au e rep- sentariv of Cupertino t er the above-idenntifie property for inspection purposes. Signature of Applicant/Agent: Date: 71-7-1 ��L� SUPPLEMENTAL INFORMATION REQUIRED OFFICE USE ONLY - WOVER-THE-COUNTER EXPRESS U, v W . .,.• � STAxD1',RD U ❑ LARGE a ❑:'MAJOR', , PVApp_2011.doe revised 03116111 CITY OF CUPERTINO FEE ESTIMATOR- BUILDING DIVISION ADDRESS: 7537 DUMAS DR DATE: 07/29/2014 REVIEWED BY: MELISSA APN: 359 24 048 BP#: "VALUATION: 1$26,821 'PERMIT TYPE: Building Permit PLAN CHECK TYPE: Alteration / Repair PRIMARY PENTAMATION USE: SFD or Duplex PERMIT TYPE: SOLAR-RES WORK INSTALL 12 PV PANELS ROOF TOP FLUSH MOUNTED 2.85k SCOPE NOTE: This estimate does not include fees due to other Departments(i.e.Planning,Public Works, Fire,Sanitary Sewer District,School District,etc.). Thesefees are based on the preliminary information available and are only an estimate. Contact the Detor addn'l in o. FEE ITEMS j,,e Kesolti�tion 11-053 L71`131 FEE QTY/FEE MISC ITEMS Plan Check Fee: $0.00 = # Alternative Energy System Suppl. PC Fee: E) Reg. © OT 0.0 hrs $0.00 $236.00 IPHOTOVRES Photovoltaic System PME Plan Check: $0.00 Permit Fee: $0.00 Suppl. Insp. Fee:(2) Reg. 0 OT Q Q hrs $0.00 PME Unit Fee: $0.00 PME Permit Fee: $0.00 Work Without Permit? 0 Yes (j) No $0.00 Advanced Planning Fee: $0.00 Select a Non-Residential Building or Structure i Strom Motion Fee: IBSEISMICR $3.49 Select an Administrative Item Bldg Stds Commission Fee: IBCBSC $2.001 1 SUBTOTALS: $5.49 $236.00 TOTAL FEE: 1 $241.49 Revised: 07/10/2014 WATER-CONSERVING PLUMBING FIXTURES OWNER CERTIFICATE OF COMPLIANCE COMMUNITY DEVELOPMENT DEPARTMENT•BUILDING DIVISION CUPERTINO 10300 TORRE AVENUE •CUPERTINO, CA 95014-3255 (40 8)777-3228•FAX(408)777-3333•buildingCcDcupertino.org Owner Name 'eCt h 11 ���� >CL�i nia,r` Permit No. l qo—70 1 24�— Address 7 53 ? 0 k PEI21iIT CtT BE FINLED CtMFLETF CTI�TTIII III OERTIFICATE s . a - Please refer to the attached California Civil Code Sections 110 1.1—1101.8 which are part of this Certification form. 1. Is your real property a registered historical site? ❑ Yes Civil Code Sections 1101.1 through 1101.8 do not apply. Sign below and skip the rest of the form. Owner' Signature: Date: !O,�q�•I'� No Go to Question 2. 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? ❑ Yes Civil Code Sections 1101.1 through 1101.8 do not apply. ❑ The licensed plumber's certification has been provided to the Building Division. Sign below and skip the rest of the form. Owner' Signature: Date: ❑ No Go to Question 3. 3. Is water service permanently disconnected for your building? ❑ Yes Civil Code Sections 1101.1 through 1101.8 do not apply. Sign below and skip the rest of the form. Owner' Signature: Date: 1�'No Go to Question 4. M FILE 4. Is your real property built and available for use or occupancy on or before January 1, 1994? ❑ No My real property is built and available for use or occupancy after January 1, 1994. Civil Code Sections 110 1.1 through 1101.8 do not apply. Sign below and skip the rest of the form. Owner' Signature: Date: Yes My real property is built and available for use or occupancy on or before January 1, 1994. Civil Code Sections 110 1.1 through 1101.8 apply. Refer to the attached. 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). ❑ 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). ❑ 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. SB4072014.doc revised 03/18/14 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). I/We,the owner(s)of this property,certify under penalty of perjury that non-compliant plumbing fixtures have been replaced with water-conserving plumbing fixtures in accordance with Civil Code Sections 110 1.1 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 fhxgres comply with the P=irements as indicated in the table below. Owner's(or Owner Agent's)Signature' Date: to -1,4 Upon completing and signing this+ rtificate,please return it to the Building Division in order to final your permit. Non-Compliant Water-Conserving Plumbing Fixture PlumbingFixture (Fixture Complying with Current Code Applicable to New Construction) Maximum Water Usage/Flow Rate Fixture Type 2013 CPC Ch. 4 2013 CPC Ch.4 2013 CPC Ch. 4 Water Usage 2013 CALGreen Div.4.3 2013 CALGreen Div. 4.3 2013 CALGreen Div. 5.3 /Flow Rate Single-Family Multi-Family Commercial Residential Residential Water Closets Exceed 1.6 Single flush toilets: 1.28 gallons/flush (Toilets) Gallons/flush Dual flush toilets: 1.28 gallons/flush effective flush volume(the composite, average flush volume of two reduced flushes and one full flush Urinals Exceed 1.0 Gallons/flush 0.5 gallons/flush Showerheads Exceed 2.5 2.0 gallons per minute @ 80 psi. Also certified to the performance criteria of gallons per minute U.S. EPA WaterSense Specification for Showerheads (A hand-held shower is considered a showerhead.) For multiple showerheads serving one shower,the combined flow rate of all showerheads and/or other shower outlets controlled by a single valve shall not exceed 2.0 gallons per minute @ 80 psi, or the shower shall be designed to allow only one shower outlet to be in operation at a time. Faucets— Exceed 2.2 gallons Maximum 1.5 gallons per Within units: 0.5 gallons per minute @ 60 Lavatory per minute minute @ 60 psi; minimum Maximum 1.5 gallons psi Faucets 0.8 gallons per minute @ per minute @ 60 psi; 20 psi minimum 0.8 gallons per minute @ 20 psi In common and public use areas: 0.5 gallons per minute @ 60 psi 1.8 gallons per minute 60 psi Faucets— Exceed 2.2 gallons 1.8 gallons per minute @ 1.8 gallons per minute 1.8 gallons per minute @ 60 Kitchen per minute 60 psi @ 60 psi psi Faucets May temporarily increase May temporarily up to 2.2 gallons per increase up to 2.2 minute @ 60 psi, and must gallons per minute @ default to maximum 60 psi, and must 1.8 gallons per minute @ default to maximum 60 psi 1.8 gallons per minute Where faucets meeting @ 60 psi the above are unavailable, Where faucets meeting aerators or other means the above are may be used to achieve unavailable, aerators or reduction. other means may be used to achieve reduction. 1. If the existing plumbing fixture water usage/flow rate is equal to or lower than the figure shown,it is not required to be upgraded. SB407 2014.doc revised 03118/14 SMOKE / CARBON MONOXIDE ALARMS OWNER CERTIFICATE OF COMPLIANCE COMMUNITY DEVELOPMENT DEPARTMENT-BUILDING DIVISION CUPERTINO 10300TORRE AVENUE- CUPERIINO,CA 95014-3255 (408)777-3223-FAX(408)777-3333-Luilding0qui?Qrtin4.4rQ Permit No. 'LtG-7v 7-7 Address #of Alarms Smoke: K Carbon Monoxide: 'L PERMIT CANNOT BE FINALED AND CONIPLETED11LINTIL THIS CERTIFICAATE HA"REFIT AND RF11JRNED TIQ THE KULDING DIVISION .- PURPOSE 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. GENERAL INFORMATION 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 ALARM CO ALARM Outside of each separate sleeping area in the immediate vicinity of the X X bedroom(s) On every level of a dwelling unit including basements X X Within each sleeping room X Carbon Monoxide alarms are not required in dwellings which do not contain fuel- rning anDliances and that do not have an attached garage. Carbon monoxide alarms combined with smokems Ir y E 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 bsolely 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 installed in accordance with the manufacturer's instructions and in compliance with the California Building and California Residential Codes. The alarms have been tested and are operational, as of the date signed below. &&�,� have read and agree to comply with the terms and conditions of this statement caner(or Owner Ag nt )Name: Si na ..................................Date: :7 . /Gilintractor Name: Signature...................................................................Lic.#......................................Date: ................... Smoke and CO form.doc revised 03118114 28.5 KW AC GRID-TIED PHOTOVOLTAIC SOLAR SYSTEM System e #of Solar Panels .2 #of Points of Connection iy4� "" — 3+) 1 1.EXISTING- 125A MAIN SERVICE PANEL UPGRADING EXISTING MAIN SERVICE PANEL e2 2.PVP POWERED 2000 INVERTER WITH Panel Weight Calculatiin TO 12SA ��� AC/DC DISCONNECT Solar Panel Weight(lbs) 44.1 lbs Mounting System Weight(lbs) 100.5 lbs Total Panel Weight+Mounting System Weight 630 1 _ _ ��9 I��C]YI NGFoint Load Calculation 2 U R 1 Point Load(Total Panel Weight/#of Points of Connection) 26.2 lbs coMMUNr Building Department D OPMENT DEPARTMENT "? BUILD NG DIV ON-CUPERTINO Distributed Load Calculation '��'" �;•i� Solar Panel Area(Length"xWidth")/144 18.1 Sq.Ft. PPI�n 1 'E� ��' Total Solar Panel Area(#Panels)x Solar Panel Area 216.7 Sq.Ft. This set of plans a Inter-Panel Spacing(Inches) 1 Inches lob Site Set l specificatio MUST be kept at the `FVIEWEC, r Clh GONE CdOMPLiANG&Spacing Area 1 c0 truction, it is Total Panel Area(Total Solar Panel Area+Total Spacing Area) 217.7 Sq.Ft. changes oral rations on samela r ul to Make any therefrom Reviewea 8) �� istrlbuted Load(Total Panel Wt/Total Panel Area) 2.89 Ibs./sf without approval from the /� � {�� ��v. The stamping of this plan and specification Official. be held to 12 MODULE SOLAR ARRAY Permit HALL NOT WITH MICRO-INVERTERS 6'MAX SPAN BETWEEN ROOF MOUNTS of an f th Law. I DAT I 1 I I 1 1 1 ROOF CHARACTERISTICS: ! ,/ 1. ENGINEERED ROOF TRUSSES-UPPER CHORD AT 24"O.C. PERMIT NO. % ! 2. ROOFING MATERIAL: METAL TILE Q -� Z I I 3. ROOFING TILT: 20 DEGREES I 1 1 I 1 1 1 I 1 I I 1 1 1 MOUNTING DETAILS: I I 1 I 1 1. PANELS MOUNTED ON ALUMINUM RACKING 2. PV ARRAY MOUNTS TO ROOF STRUCTURE WITH S/16"LAGS 3. MIN 2-1/2"EMBEDMENT INTO TRUSSES METAL ROOF I 1 I I 1 I 1 4. PV RACKING MOUNTS ARE ANCHORED AT 72"O.C. • PV MOUNT;ATTACHED WITH 2-S/16"X 2-1/2"LAGS ------+ ALUMINUM SOLAR RACKING ------ 2x4"ENGINEERED TRUSSES ON 24"CENTERS APPLICABLE CODES: 2013 CALIFORNIA BUILDING CODE 2013 CALIFORNIA ELECTRICAL CODE ## 2013 CALIFORNIA ENERGY CODE EXSITING PANELS --- -------> 2013 CALIFORNIA FIRE CODE ALL RELEVANT CITY OF CUERTINO AMMENDMENTS AND LOCAL ORDINANCES APPLY SYSTEM INFORMATION: SCOPE OF WORK: 28.5 KW AC SOLAR SYSTEM INSTALL A RESIDENTIAL ROOF-MOUNTED(FLUSH)PHOTOVOLTAIC SOLAR SYSTEM PLOT PLANS ,A 12 SW27S MONO SOLARWORLD MODULES ARRAY TO BE INSTALLED ON A METAL ROOF,3-6 INCHES FROM ROOF SURFACE. (;H$GKED BY / 12 M2S0-60-2LL-SZX ENPHASE MICRO-INVERTERS SYSTEM COMPONETS INCLUDE: / 0 30A/240V EATON(DG221URB)AC DISCONNECT 12 SW275 MONO SOLARWORLD MODULES z —14 12 M250 60-2LL-52X ENPHASEMlCRO-INVERTERS DATE 180 ARRAY TRUE AZIMUTH: / 20 ARRAY TILT ANGLE: PLANNING DEPT. / % �3FTSET BACK QUALITY FIRST HOME IMPROVEMENTS SITE PLAN 3FTSET BACK 6545 SUNRISE BLVD,CITRUS HEIGHTS,CA 95610 ROOF-MOUNTED PV SYSTEM DA'CE 916-788-2921 JOB NUMBER: SJSSOL-XXXX LICENSE# 875772 CUSTOMER: JACKMAN,JEANNE17E ADDRESS: 7537 DUMAS AVE DRAWN BY: MICHAEL VANTINE CITY: CUERTINO 95014 916-300-0073 _ PHONE: 408-252-1389 Mvantine@ouality firsthome.com SIZE FSCM NO DWG NO REV Vo CHECKED BY: � SCALE NTS DATE: 7/28/2014 ISHEET 1 OF 2 PV MODULE RATING 0 STC INVERTER RATING CIRCUIT CURRENT CALCULATIONS -BRANCH 1 SYSTEM VOLTAGE AND CURRENT INCLUDING CORRECTION FACTORS MODULE MANUFACTURER SOLARWORLD INVERTER MAN. ENPHASE MAX OUTPUT POWER = 2000 W OPERATING VOLTAGE = 240 V MODULE MODEL# SW275 MONO INVERTER MODEL# M250-60-2LL-S2X BRANCH OPERATING CURRENT = 8 A MAX OPERATING VOLTAGE = 264 V MAX POWER-POINT CURRENT(Imp) = 8.94 A MAX DC INPUT VOLTAGE = 48 V BRANCH OVERCURRENT PROTECTION = 10.00 A OPERATING CURRENT = 20.0 A MAX POWER-POINT VOLTAGE(Vmp) = 31 V MAX AC OUTPUT POWER = 250 W NOMINAL OPERATING VOLTAGE = 211-264 V MAX OPERATING CURRENT = 25.00 A OPEN-CIRCUIT VOLTAGE(Voc) = 39.4 V OPERATING DC VOLTAGE = 16-48 V CIRCUIT OCPD = 20 A SHORT-CIRCUIT CURRENT(1st) = 9.58 A NOMINAL AC VOLTAGE = 211-264 A CIRCUIT CURRENT CALCULATIONS -BRANCH 2 MAX POWER(Pmax) = 275 W NOMINAL OUTPUT CURR = 1 A EXISTING MAX SYSTEM VOLTAGE = 600 VDC CEC WEIGHTED EFICENCY = 96.5% MAX OUTPUT POWER = 3000 W Voc TEMPERATURE COEFF. _ -0.30%C IMAX OCPD 9 kTING = 20 A BRANCH OPERATING CURRENT = 12 A UTILITY PTC WATTAGE RATING = 242.7 W1 BRANCH OVERCURRENT PROTECTION = 15.00 A AC DISCONNECT RATING SER ICE NOMINAL OPERATING VOLTAGE = 211-264 V DISCONNECT AMP RATING = 30 A CIRCUIT OCPD = 20 A DISCONNECT VOLT RATING = 240 V TOTAL BRANCH CIRCUITS: 2 M MICRO-INVERTER BRANCH CIRCUIT#1 (UTILITY INTERACTIVE) J-BOX MAIN OCPD 8 INVERTERS IN BRANCH CIRCUIT � CIRCUIT 1 OCPD � AC BRANCH CIRCUIT#2 CIRCUIT 2 OCPD i DC 12 INVERTERS IN BRANCH CIRCUIT i G CUPERTINO ------------------------------------- ---------- ---------------------------------------------- --------------------------- ----------------------- MBuilding DeAartment AI VICE-pA EL SOURCE CIRCUIT CONDUCTOR CIRCUIT CONDUCTOR I .iUL 2 9 2014 CONDUIT SIZE&TYPE: 3/4"EMT CONDUIT NUMBER OF CONDUCTORS: ROOFTOP JUNCTION BOX CONDUCTOR SIZE: #10 AWG MIN. GROUNDING 2 BLACK 2 RED NEMA 3R MIN.REQUIRED WITH WATERPROOF CONDUCTOR TYPE: THWN-2 ORRHW-2 ELECTRODE REVIEWED r:OR :UDE COMPLIANCE 2 WHITE 2 GREEN SPLICES OR OTHER APPROVED TERMINATION NUMBER OF CONDUCTORS: CONDUCTOR .r' CONDUCTOR SIZE: #12 AWG MIN METHOD. (NEC 110.14,300.6,314) 1 BLACK,1 WHITE,1 RED,1 GREEN (#8 MIN) Reviewed y 77 CONDUCTOR TYPE: PV WIRE OR USE-2 GROUNDING ELECTRODE SIZE: #6 AWG INSTALLED PER ART.250.64 NOTES: DC GROUNDING SERVICE PANEL RATING 1. INSTALLER TO BE PREPARED TO PROVIDE PHYSICAL PROOF THAT PANELS INSTALLED ELECTRODE CONDUCTOR IN FIELD MATCH THOSE SPECIFIED ON PLANS SIZE#8 AWG MIN BUS AMP RATING = 125 A 2. AC&DC SIDE GROUNDING ELECTRODE CONDUCTOR TO BE BONDED PER ART 690.47,AND SERVICE VOLTAGE = 240 V MADE IN ACCORDANCE WITH ART.250.64. MAIN OCPD RATING = 200 A 3. BONDING JUMPERS REQUIRED TO MAINTAIN CONTINUITY BETWEEN SOURCE OF OUTPUT BUS BAR RATING 200 A MAIN SERVICE OCPD 200 A > BRANCH CIRCUIT 1 OCPD = 20 A CIRCUIT GROUNDING CONDUCTOR WHILE PV EQUIPMENT IS REMOVED PER ART.690.49. 20%BACKFEED ALLOWED 40 A SOLAR BREAKER 40 A BRANCH CIRCUIT 2 OCPD = 20 A 4. PROVIDE SYSTEM LABELS AND WARNING FOR DC DISCONNECT,AC DISCONNECT AND 120%of BUS BAR RATING 240 A This is<= 120% 240 A NOTES: INVERTER.LABELS TO BE AFFIXED PRIOR TO FINAL INSPECTION. 1. For each inverter,supply breakers shall comply with 120%BUSBAR exception in 690.64(B)(2)(a) EQUIPMENT CODE APPROPRIATE SIGNAGE OR REQUIRED LABELING Main Service 690.64(B)-(4) Iff-3111mimmeltel aveleggla, • INVERTER 690.5-(C) WARNING QUALITY FIRST HOME IMPROVEMENTS SITE PLAN SHOCKELECTRIC 6545 SUNRISE BLVD,CITRUS HEIGHTS,CA 95610 ROOF-MOUNTED PV SYSTEM D• NOT TOUCH TERMINALS. TFRMINALS ON 916-788-2921 JOB NUMBER: SJSSOL-XXXX BOTH THE LINE • D LOAD SIDES MAY BE ENERGIZED LICENSE# 875772 CUSTOMER: JACKMAN,JEANNETTE IN THE OPEN POSiTION ADDRESS: 7537 DUMAS AVE DRAWN BY: MICHAEL VANTINE CITY: CUERTINO 95014 AC DISCONNECT 690.54. PHOTOVOLTAIC SYSTEM AC DISCONNECT 916-300-0073 _ PHONE: 408-252-1389 RATED A/C OUTPUT CURRENT • AMPS Mvantine@gualitvfirsthome.com SIZE FSCM NO DWG NO REV NOMINAL • CHECKED BY: SCALE NTS DATE: 7/28/2014 SHEET 1 OF 2 CONDUIT,RACEWAYS • SOLAR CIRCUIT s S11 l W""PlusSW275mon D ��,�.tu r.eon 7UVPowercontrolled. 6 rOa�•n° lowest measuring tolerance in industry A. 900001" Every component is tested to meet ✓ 3 times IEC requirements i 1 Designed to withstand heavy accumulations of snow and ice J Sunmodule Plus: Positive performance tolerance 1 75-year linear performance warranty and 10-year product warranty ► Glass with anti-reflective coating i ✓ World-class quality Fully-automated production lines and seamless monitoring of the process and material ensure the quality that the company sets as its benchmark for its sites worldwide. V—)"~~�'•w` SolarWorld Plus-Sorting 10�= ��Plus Sorting guarantees highest system efficiency.SolarWorld onlydelivers modules that c u have greater than or equal to the nameplate rated power. UL 1703 25 years linear performance guarantee and extension of product warranty to 10 years n SolarWorld guarantees a maximum performance degression of 0.7%p.a.in the course of C 25years,a significant added value compared tothe two-phase warranties common inthe industry.In addition,SolarWorld is offering a product warranty,which has been extended to 10 years' 'in accordance with Iheappl¢able SolarWarld umiled Warrantyat puichasc www sola+world co"/warranty UUpERTIN0 SOLARWORLD M 1�,.�-��: • '� Building Department solarvrorld.com iWe turn sunlight into power. JUL 2 9 20% REviEV�EG %OFA GODS COMPLIANCE t�evlewecl BY- Jar �,� ` Sunmodule;/p/usSW 275 mono PERFORMANCE UNDER STANDARD TEST CONDITIONS(STC)` PERFORMANCE AT 800 W/ma,NOCT,AM 1.5 Maximumpawer P,ti-!_~ -275 Wp Moxlmum power - - -- -- p --- - - - 2050 Wp Open cirratlt voltage V. 39 a V Open rimrit voltage V� 361v Maximum power paint voMogey 310 y Maximum power point voltage V 284 V Short circuit current 1 9 5E A Short circuit current I 775 A Maximum power POW current I 9.94 A Maximum powtrpoint current I 7 22 A 'SIC 1D00 W/nit,25Y,AM 15 �r Mmor teducton rn effKancy under parwl load(ondrtlohs at 25'C at 200 W/.,,W% 1)MEA ssmngtolennce(P.)traceabit to7UVthembnd.+h 2%tIUVForxrComrolied) 0/2%)(Yfthe STC efficencyIWOW/m')isach,wd THERMAL CHARACTERISTICS MATERIALSS _ __ ___,_,_• _— Cellspermodule --- -- NOCT -'---. ^_.--•—•---- ..-'�46'C•0.30 X/'C [elltypr 60 TCIu 0.04%/'C Monogr stallrne TC Cell dimr6 mians 614 in k .14 in(156 mm x 156 mn> TC p -0.45%/'f front Tempered glass(EN 12150) 40'CtogS'C Ttome anodized aluminum Optrotin temperature Weight 461 lbs(27 2 kg) SYSTEM INTEGRATION PARAMETERS �'" Maximwn system roMage SC/i goo W/m00 va Max.system voltage USA NECNFC 1000 V Mmdmurnlevenecurrent 16 A 7 60o w/m, Number of bypou diodes 3 € UI Design toads' TWO rail system 113 Psf downward *d AOD W/m* 64 psi upward Vk Ut Design toads' That rallsystem 170 psf downward 200w/rte 64 Psf upward W/ IEC Deign toodr' Two rall"em n3 Pse downward 700 SO Psf upward •Pkase refer to the Sunrnodule installation nisi ruct.ons for the details assoc ared wnh V. Iheseload Cases Moeute ve%ase M ADDITIONAL DATA ,L6x4 3744(951) Powersorting' ------- -.-._- OWp/+SWp - !-Box IP65 Moduitleads Pv Wire Pet UL4703 with H4 connectors 1133(298) Module efficiency 7640% Fhr►sting AIL 7") Class C Wan Low Iron to rtlPered with ARC 41 30 DOW 06053), Verson VERSION 2-5 FRAME 25 fro me Compatible with both-Top-Down• 65 94(1675) bottom and'Bottom'mounting methods holes Img ID 4rrounding Locations. 4 corners of the frame 4 locations along the length of the module In the extendedf)aneet 134 34 }-3-x 4 i 410`007)' 1`a'= �I Independently created PAN files now available. � Ask your account manager for more information 122131) 394111001)- .-__- -._ .�- -- ----- All units provwed are imperial SI unds pronded,n parentheses $onmlwld At,reserves the right to man speafit at,on changes without notice SW01-6005U501.2D14 •; CUPERTINO Enphase Microinverters Building Departmenit JUL 2 9 2014 Enphase" M250 REVIEWEDFOR CODE COMPLIANCE Revievrt;C7 i3y. =.7 - 3i The Enphase' M250 Microinverter delivers increased energy harvest and reduces design and installation complexity with its all-AC approach.With the M250, the DC circuit is isolated and insulated from ground, so no Ground Electrode Conductor(GEC) is required for the microinverter.This further simplifies installation, enhances safety, and saves on labor and materials costs. The Enphase M250 integrates seamlessly with the Engage`Cable,the Envoy Communications Gateway", and Enlighten", Enphase's monitoring and analysis software. PRODUCTIVE SIMPLE RELIABLE Optimized for higher-power No GEC needed for microinverter 4th-generation product modules No DC design or string calculation More than 1 million hours of testing Maximizes energy production required and 3 million units shipped Minimizes impact of shading, Easy installation with Engage Industry-leading warranty, up to 25 dust,and debris Cable years [ej enphase,- E N E R G Y C us Enphasel,M250 Microinverter//DATA INPUT DATA(DC) M250-60-2LL-S22/S23/S24 Recommended input power(STC) 210-300 W Maximum input DC voltage 48V Peak power tracking voltage 27 V-39 V Operating range 16 V-48 V Min/Max start voltage 22 V/48 V Max DC short circuit current 15 A Max input current 9.8 A OUTPUT DATA(AC) 0208 VAC 0240 VAC Peak output power 250 W 260 W Rated(continuous)output power 240 W 240 W Nominal output current 1.15 A(A rms at nominal duration) 1.0 A(A rms at nominal duration) Nominal voltage/range 208 V/183-229 V 240 V/211-264 V Nominal frequency/range 60.0/5/-61 Hz 60,0/57-61 Hz Extended frequency range' 57-62.5 Hz 57-62.5 Hz Power factor >0.95 >0,95 Maximum units per 20 A branch circuit 24(three phase) 16(single phase) Maximum output fault current 850!mA-rms,for,6 cycles 850 mA rms for 6 cycles EFFICIENCY CEC weighted efficiency,240 VAC 96.596 CEC weighted efficiency,208 VAC 96.0% Peak inverter efficiency 95.5% Static MPPT efficiency(weighted,reference EN50530) 99.4% Night time power consumption 65 mW:max MECHANICAL DATA Ambient temperature range -40°C to+65°C Operating temperature range(intemal) -40°C to+85°C Dimensions(WxHxD) 171 mm x 173 mm x 30 mm(without mounting bracket) Weight 2.0 kg Cooling Natural convection-No fans Enclosure environmental rating Outdoor-NEMA 6 FEATURES Compatibility Compatible with 60-cell PV modules. Communication Power line Integrated ground The DC circuit meets the requirements for ungrounded PV arrays in NEC 690.35.Equipment ground is provided in the Engage Cable.No additional GEC or ground is required. Monitoring Free lifetime monitoring via Enlighten software Compliance UL1741/IEEE1547,FCC Part 15 Class B,CAN/CSA-C22.2 No.0-M91, 0.4-04,and 107.1-01 Frequency ranges can be extended beyond nominal if required by the utility To learn more about Enphase Microinverter technology, visit enphase.com enphas E N E R G Y Y 0 2013 Enphase Energy Ar rghis reserves AI tradenWkS or brands in Uus docuMW are regLsterea by rhev reswirve awner QuickMount PV rM SPECXFICATION SHEET QuickMount PV 7" is an all-in-one waterproof flashing and mount to anchor photovoltaic racking systems to a new or existing roof. It is made in the USA of aluminum and Includes stainless steel hardware. It works with all standard racks, Installs seamlessly and is a better low-profile mount. (2) Flat Washer(6) 1"x 5/16" Hex Nuts 5/16" Rubber Gasket 60 Durometer EPDM Sealing Washer(A) 3/4"x 5/16" Hanger Bolt 5/16"x 6" 1-1/2"Machine, 1-1/2"Spacer, 3"Lag Mount& Flashing Aluminum Mount 2-1/4"1 x 1-1/4"w x 1-1/4"h Flashing .05"thick. For standard composition roofs: flashing is 12"x 12", mount is attached 3"off center. For high definition cut composition, or shake roofs: f . :, flashing is 18"x 18", mount is attached 3"off center. For flat applied roofing during ne o installation of roof: flashing Is E Budding epartrnenF 18"x 18", mount is attached in the center. 2 9 2014 Lag pull-out(withdrawal) capacities (lbs) in typical lumber: ' EVIEV°dEtD f^•'QR CODE COMPLIANCE Lag screw specifications Specific 5/16'shaft* 5/16"shaft* gravity 3"thread depth per 1"thread depth Douglas Fr, Larch 50 798 266 Douglas Fir,South .46 705 235 Engelmann Spruce,Lodgepole Pine (MSR 1650 IF&higher) .46 705 235 Hem,Fir .43 636 212 Hem, Fir.(North) .46 705 235 Southern Pine .55 921 307 Spruce,Pine,Fir .42 615 205 Spruce,Pine,Fir (E of 2 million psi and higher grades of MSR and MEL) .50 798 266 Sources:Uniform Buliding rode;American Wood Council Notes:1)Thread must be embedded In a rafter or other structural roof member. 2)Puil-out values incorporate a 1.6 safety factor recommended by the American wood council. 3)see UBC for required edge distances. 'Use net washers with lag stews. 12-20WSPECS" 108 Crest Avenue— Alamo, CA 94507-2646 Toll Free: (800) 998-6059 Phone: (925) 935-7811 Fax: (925) 935-7677 Email: info oulckrackov.com www.quickrackpv.com INSTALLATION INSTRUCTIONS QuickMount P-V' (800) 998-6059 TOOLS NEEDED Measuring tape, roofer's flat bar, chalk line, stud 5. SLIDE finder, caulking gun with QUICKMOUNT roofing sealant, drill withINTO PLACE 1/4" long bit, drill with 1/2" k Lift comp file and dee socketslide QuickMount p , Into place. 1. LOCATE RAFTER Using horizontal and vertical chalk lines to align hole for placement of each QuickMount _' - 6. SET HANGER BOLT, smaller WASHER (A) 2. DRILL PILOT HOLE _ & NUT Using drill with 1/4" m_—NUT Using drill with deep long bit, drill pilot hole (B) WASHER socket, set with washer through roof and rafter, BLACK GASKET (A) and then nut, taking care to drill —NUT tighten into place. square to the roof. ,(A) WASHER HANGER BOLT--- 7. ADD RUBBER QUICKMOUNT GASKET Push black gasket into FLASHING •- ���y' lace flush with to AND BLOCK— p p of r QuickMount block. 3. LIFT TILE Lift composition roof the with roofers flat bar, 8. SET RACK INTO just above placement of PLACE larger QuickMount. WASHER (B) &NUT `' 4. SEAL HOLE Using • Using drill with 1/2" deep caulking gun with roofing „ socket, set up rack with sealant, squeeze a dab of washer(B) and then nut, tighten into place. roofing sealant Into hole. PATENT PENDING STRU(TURAL ENGINEERS January 13,2014 � a a� SHro '414E ,C UniRac y a FA i U m 1411 Broadway Boulevard NE A Albuquerque,New Mexico 87102-1545 * P..638n TEL: (505)242-6411 FAX: (505)242-6412 OF CPL Attn.: Engineering Department, Re: Engineering Certification for UniRac's SolarMount Code-Compliant Installation Manual 227.3 PZSE, Inc.-Structural Engineers has reviewed UniRac's"SolarMount Code-Compliant Installation Manual 227.3"published January 2014 and specifically"Part I.Procedure to Determine the Design Wind Load", and "Part II: Procedure to Select Rail Span and Rail Type". The procedures are used to determine the calculation of the design wind force, load combinations, applied loading and rail selection.All information,data and analysis contained within the Installation Manual are based on,and comply with the following: 1. Minimum Design Loads for Buildings and other Structures,ASCE/SEI 7-05 and ASCE/SEI 7-10 2. 2012 International Building Code,by International Code Council, Inc. 3. 2013 California Building Code,by California Building Standards Commission 4. 2010 Aluminum Design Manual,by The Aluminum Association This letter certifies that the structural calculations contained within UniRac's"SolarMount Code-Compliant Installation Manual 227.3 are in compliance with the above Codes. If you have any questions on the above, do not hesitate to call. Sincerely, Paul Zacher, SE-President 8137 Sunsel Avenue,Suile 120 * Foir Ooks,CA 95628 * 916.961.3960 * 916.961.39651 4 www.P l COH CUNI RAC Unirac Code-Compliant Installation Manual SolarMount Part III. Installing SolarMount The Unirac Code-Compliant Installation Instructions support applications for building permits for photovoltaic arrays using Unirac PV module mounting systems. This manual,SolarMount Planning and Assembly,governs installations using the SolarMount and SolarMount HD (Heavy Duty) systems. [3.1.] SolarMount rail components O r, 4' 9 'O Fiaure4,SolnrMountttandnrdrett eontponerttt. O Rail —Supports PV modules. Use two per row of lock washer for attaching L-foot. Flashings:Use one per modules. Aluminum extrusion,anodized. standoff. Unirac offers appropriate flashings for both standoff types. ® Rail splice—Joins and aligns rail sections into single Note:There is also a flange type standoff that does not length of rail. It can form either a rigid or thermal require an L-foot. expansion joint,8 inches long,predrilled. Aluminum O Aluminum two-piece standoff(optional)(4"and 77 — extrusion,anodized. Use one perL-foot. 'two-piece:Aluminum extrusion. Includes 3/8"x 3/4"serrated flange bolt with EPDM © self-drilling screw—(No.10 x YO) —Use 4 per rigid washer for attaching L-foot,and two 5/16"lag bolts. splice or 2 per expansion joint. Galvanized steel. © Lag screw for L-foot(5/160)—Attaches atandofFto rafter. O L-foot—Use to secure rails either through roofing material to building structure or standoffs. Refer to Top Mounting Clamps loading tables for spacing.Note:Please contact Unirac for use and specification of double L-foot Top Mounting Grounding Clips and Lugs © L-foot bolt(3/8" x'/.') —Use one per L-foot to secure rail to L-foot. Stainless steel. Installer supplied materialist OFlange nut(3/8")—Use one per L-foor to secure rail to Lag screw for L-foot—Attaches L-foot or standoff to L-foot. Stainless steel. rafter.Determine the length and diameter based on pull- out values. If lag screw head is exposed to elements,use stainless steel. Under flashings,zinc plated hardware is Q plattop standoff(optional)(3/8") —Use standoffs to adequate. increase the height of the array above the surface of the roof or to allow for the use of flashings. Use one per Waterproof roofing sealant—Use a sealant appropriate L-foot. One piece:Service Condition 4(very severe) zinc-plated-welded steel. includes 3/8"x 3/4"bolt with to Your roofing material.Consult with the company currer►tlyproviding warranty of roofing. I- 14 SolarMount Unirac Code-Compliant Installation Manual pP U N I RAC [3.2.1 Installing SolarMount with top mounting clamps This section covers SolarMount rack assembly where the installer has elected to use top mounting clamps to secure modules to the rails. it details the procedure for flush mounting Solarldount systems to a pitched roof, _ tri.•�=� I "q Md Clamp End Clarrtp SolarMount Rot A'Aotiitt Rag Figure S.Exploded view of a f[ushmount installation mounted with L-feet Table 13.Clamp kit part quantities End Mid Y,"module %-x Ys" A"(bnje A All top down clamps must be installed with anti- Modules damps damps damp bops safety bolts nuts / \ seize to prevent galling andprovide unifirmily in clamp load UniRac Inc recommends Silver 2 4 2 6 2 8 Grade Loc7Yte Anti-Seize Itern numbers:88181, 3 4 4 8 2 10 80209,76782,767S9,76764,80206,and 76775,or 4 4 6 10 2 12 equivalent 1140-20 hardware used in conjunction 5 4 8 12 2 14 with top down clamps must be installed to loft-lbs 6 4 10 14 2 16 4f torque. When-Lsg UGC-1,UGC-2,WEBB 9.5 and 7 4 12 16 2 18 WEEB 6.7,114"-20 hardware must be installed to 8 4 14 113 2 20 -10ft-lbs of torque. Additianally,when usedwith a tap down clamp,the modulo frame cross section must be boned shaped as opposed to a single,i shaped member.Please refer to installation supplement 910: Table 14.Wrenches and torque GaUbWand Its Pmventionformore Wormation on galling and anti-seize and installation manual Wrench Recommended 225: Ttop Mounting Unirac Grounding Clips size torque(ftdbs) =d WEEBLugs for more information on Grounding Y4"hardware 'A,- I D® Ys- hardware %i 30 rxques are not dognmd for ase wM wood mractm N. 15 U N 1 RAC unirac Code-Compliant Installation Manual SolarMount [3.2.1] Planning your SolarMount installations The installation can be laid out with tells parallel to the rafters The width of the installation area equals the length of one or perpendicular to the rafters.Nobe that solarNiount rails module. make excellent straight edges for doing layouts. The length of the Installation area is equal to: Center the installation area over the structural members as much as possible. the total width of the modules, lxave enough room to safely move around the array during • plus 1 inch for each space between modules(for mid- installation.Some buildingcodes require minimum clearances clamp), around such installations,and the user should be directed to plus 3 inches(lrh inches for each pair of end damps). also check`rhe Code'. Peak Low-profile '~ W High-profile mode dig triode' Gutter Figure 6.Bails maybe placed parallel orperpendlcular to rgftm. 16 SolarMount Unirac Code-Compliant InstallationManual do-UN RAC [3.2.2] Laying out L-feet Weet(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 Weet 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. Figure 7 Adjust as needed,following the guidelines in Figure 9 as closely as possible. Overhang 259.L mox 25%of module Fool spacing/---.i width I 50%of module -� /," _J width(TYP) W&W Modules n=t be Lowerrooled Rollers etnteredsymmerricaUyondic 9e (Building Structure) rafts(+/-2).if tlhis is not the MSS mII Uninu for asswunee. Figure 8.Lgyout with rafts perpendicular to rafters. Installing L-feet 26%of module width 50%of module width Drill pilot holes through the roof into the I 1'h-1'b" +- center of the rafter at each Wbot lag screw r hole location. Squirt sealant into the hole,and on the shahs of the lag screws. Seal the underside of the L- / l feet with a suitable sealant.Consult with the l eompanyproviding the roofing warranty. I ff Fdo1 spoci ' / 1 / Securely fasten the Weet to the roof with l - =__ r I B Spon,L�, 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 1 single-slotted square side of the L-foot against the roof with the double-slotted side perpen lowerrooi edge i Overhang 25%L max dicular to the roof. If the installer chooses to mount the Woot with the long leg against the i roof,the bolt slot closest to the bend must be Rafters(Building Structure)2_111 Note:Modules must he used, centered symnretricattyon the rail,(+/-2").if thin is not W cart,call Un—for assistant Figure 9.Layout with rails parallel to rafters. w,. 17 .F U N I RA( Unirac Code-Compliant Installation Manual SolarMottnt [3.2.3] Laying out standoffs Standoffs(Figure 10)are used to increase the height of the array above tate surface of the roof. Pair each standoff with a flashing to seal the lag bolt penetrations to the roof. Use Figure 11 or 12 to locate and mark the location of the standoff lag screw holes within the installation area. Remove the rile or shake underneath each standoff location, exposing the roofing tmded"ent- Ensure that the standoff base lies Oat on the underlayment,but remove no more trate- a,grle t t tp�hedorange d t nconj(lam ria I than required for the flashings to be installed properly. with an Lt-foot. i"conjunction The standoffs must be ftrtnly attached to the building atrueture. If multiple high-profile rows are to be Overhang 25%L max 259+module width r'Fool spacing/,� each end installed adjacent to each other,it may not Tom, tL RaH S L be possible for each row to be centered above �^ the rafters. Adjust as needed,following the 1'/:, - " guidelines of Fig,12 as closely as possible. f J' 50%module •� ' ____��._ ..�,_.��width(iYP) Installing standoffs: Lower roof edge t. Drill 9/16 inch pilot holes through the Ratters underlayment into the center of the rafters at (Budding Structure) each standoff'location. Securely fasten each standoff to the rafters with the two 5/16"lag Note:Modules mwt be centered"met Hcaltr an die raltr screws, (+/-1).If this U not the tate,rnfl thdraefor stutters. Ensure that the standoffs face as shown in Figure u. Layout with rails perpendicular to rajtm.perpendicular to rafters. Figure 11 or 12. Unirac steel and aluminum two-piece standoffs(1-5/8"O.D.)are designed for collared flashings available from Unirac. Overhang 25%of !!!�� 50%B typical Install and seal flashings and standoffs modulev�dlh[TYPJ I 11 i usingstandard building practices oras the I II t company providing roofing warranty directs. I Span"L r ' I I 1 Overhang 25%L,max Lower root edge � _,. - -����t Rafters(Buliding Sln►clurel Note.-Modules must be centered r mmetrieallyon the rail (4/.2-).If this it not the can,COR Un[racfor t.-stlrtenee. Figure 22.Layout with ratMparallel to rafters. V . 18 SolarMount Unirac Code-Compliant Installation Manual CP U N I RAC [3.2.4] Installing SolarMount rails 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 legs. Although structural,the joint is not as strong as the rail itself.A rail should always be supponed by more than one footing on both sides of the splice.(Reference installation manual 908,Splices/Expansion Joints.) Frrw+e 13.Splice bars slide ipso the footing bolt If using more than one splice per rail,contact Unirac concerning slots of SotarMount rail sections. thermal expansion Issues. Mounting Rails on Footings:Rails may be anached 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 Clumping for a higher profile,which will maximize airflow under the modules. This bolt slot will cool them more and may enhance performance in honer climates. Slide the%-inch mounting bolts into the footing bolt slots. Loosely attach the rails to the footings with the flange nuts. Mounting Ensure that the rails are oriented to the footings as shown in Figure 8,9, Footing slols 11,or 12,whichever is appropriate. boll slot 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 Figure 19.Foot-to-rail splice attachment 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 It lbs). Mount modulus to the rails as soon as possibk. Large temperature changes may bow the rails within a few hours if module placement is delayed. Edge of inslolloilon area • 1 I _ 1 _ ^� Edge of installation area FYgure]S Rails perpendicular to the rafters. Figure 16,!tails parallel to the rafters. ,W 19 C"U NI RAC Unirac Code-Compliant 7nsUdlation Manual SolarMount [3.2.5] Installing the modules Pre-wiring Modules:If modules are the Plug and Play type, no pre-wiring is required,and you can proceed directly to "Installing the First Module"below. If modules have standard 3-boxes,each module should be �• f pre-wired with one end of the intermodale cable for ease of �4 installation. For safety reasons,module pre-wiring should not be performed on the roof. Leave covers off J-boxes.They will be installed when the modules are installed on the rails. boozes Installing the First Module:In high-profile installations,the safety bolt and flange nut must be fastened to the modWe bolt Figure 17 slot at the aligned(lower)end of each rail. It will prevent the lower end clamps and damping bolts from sliding out of the rail slot during installation. 1/2"minimum if there Is a return cable to the inverter,connect it to the first module. Close the J-box cover. Secure the first module with T-bobs and end clamps at the aligned end of each rail. Allow c half an inch between the rail ends and the end clamps(Fig.18). Finger tighten flange nuts,center and align the module as needed,and securely tighten the flange nuts(10 ft lbs). End dump Installing the Other Modules:lay the second module face Figure is down(glass to glass)on the first module- Connect intermodule cable to the second module and dose the Xbox cover. Tam the second module face up(Fig.17). With T-bolts,mid-clamps and 1 Flange nuts,secure the adjacent sides of the first and second modules. Align the second module and securely tighten the flange nuts(Fig.19). "(o1 For a neat installation,fasten wire management devices to rails ` with self-drilling screws. Repeat the procedure until all modules are installed. Attach the ' iRa11F outside edge of the last module to the rang with end damps. Trim off any excess rail,being careful not to cut into the roof. -) Allow half an inch between the end clamp and the end of the rail (Fig.I8). Figure 19 High-lipped module Spacer low4pped module (cross sectiion) (cross section) Sblvloun Tor: nodi Frere 20.Mid damps and end clamps forlipped frame modules are identical. A spacerfor the end clamps is necessary only if the Lips are located high on the module frame. 20 SolarMount Unirac Code-Comptiantlnstallation Manual ir-UN I M[ [3.3] Installing SolarMount with bottom mounting clips This section covers SolarMount rack assembly where the installer has elected to use bottom mounting clamps to secure modules to the rails. It details the procedure forflush mounting SolarMount systems to a pitched roof. PV modules(face down) O q ! �J Solafmounl rod �• 4 f fooling boll stol 6ollom mounting cop Figure 21.SMR and C8 components Table 15.Wrenches and torque wrench Recommended Stainless steel hardware can seize up,a process size toque((tdbs) ! called galling. To signOcantly reduce its Y..' hardware V16- 10 ltMihood,(I)apply lubricant to boft3,preferably 'h"hardware %." 30 an anti-seize lubricant,available at auto parts stores,(2)shade hardware prior to installation, Noft,%Mue Wec*060nr do not appy m ley boh and(9)avoid spinning on nuts at high spud cerwecrlom. See Installation Supplament 920,Gating and its Prevention,atwww.unirac.com, 21 .0'UN I RAC Unirac Code-Complian[InstaRation Manual 5olarMount [3.3.11 Planning the installation area Distance between lag boll centers Decide on an arrangement for clips,rails,and L-feet(Fig.22). Ilse Arrangement A if the fullwidthof the rails contacts the Distance between module mounting holes module. otherwise use Arrangement B. Caution:Tfyou choose Arrangement B,either Pv module (1)use the upper mounfing holes of the Lfea or (2)be certain that the L-feet and clip positions don't conflict. Module boll CtiP If rails must be parallel to the rafters,it is unlikely that they Rall can be spaced to match rafters. In that case,add structural 1.4001 supports—either sleepers over the roof or mounting blocks Log boll beneath it. These additional members must meet code;if in doubt,consult a professional engineer. Distance belween lag bots centers Never secure the footings to the roof decking alone. Such an +/r�e� yam,/e.. arrangement will not meet code and leaves the installation Distance between--i and the roof itself vulnerable to severe damage from wind. module mounting holes Leave enough room to safely move around the array daring Installation. The width of a rail-module assembly equals the length of one module. Note that L-feet may extend beyond the width of the assembly by as much as 2 inches on each side. The length of the assembly equals the total width of the modules. Figure 22.Alp Arrangrmrnts A and B 22 SolarMount Unirac Code-Compliant Installation Manual sPUNIRAC [3.3.2] Laying out the installing L-feet L-feet are used for installation through existing low profile roofing material,such as asphalt shingles or sheet metal. They _J t _ _^ t L L are also used for most ground mount + ++ n installations. To ensure that the L-feet willi Instal 11Fecond be easily accessible during flush Installation: • Use the PV module mounting holes nearest the ends of the modules. t i SolarMoullt Rails • Situate the rails so that footing bolt slots face outward. ++ ++ The single slotted square side of the L-foot must always lie against the roof with the InstaB First double-slotted side perpendicular to the _rilt7—__I� __ i L roof. Foot spacing(along the same rag)and rail Lower ,� i overhang depend on design wind loads. 10 1.t Install half the lrfeet: edge Rafters • If rails are petpendinilar to rafters (Fig.28),install the feet closest to Figure 23.Layout with railsperpendimUr to rafters. the lower edge of the roof. • If rails are parallel to rafters (Fig.24),install the feet for one of the rails,but not both. For the L-feet being installed now,drill pilot holes through the roofing into the center of afters the rafter at each lag screw hole location. Install L Feet Squirt sealant into the hole and onto the „r First shafts of the lag strews. Seal the underside of the Lrfeet with a sealant. Securely fasten the L-feet to the building structure with the lag screws. Ensure that the L-feet face as shown in Figure 29 or Figure 24. ....... Hold the rest of the L-feet and fasteners aside until the panels are ready for the installation. L' Blocks Install L-Feet Second Figure 2•t.Layout with raUs paratiet to rafters. 23 6-U NI RAC Unirac Code-CompliantlnstaHadon Manual SolarMount [3.3.3] Attaching modules to the rails Lay the modules for a given panel face down on a surface that will not damage the module glass. Align the edges of the modules and snug them together (Fig.21,page 22). Trim the rails to the total width of the modules to be mounted. Place a rail adjacent to the outer mounting holes. Orient the footing bolt slot outward. Place a clip slot adjacent to the mounting holes,following the arrangement you selected earlier. Assemble the clips,mounting bolts,and flange nuts. Torque the flange nuts to 10 foot-pounds. [3.3.4] Installing the module-rail assembly Bring the module-rail assembly to the installation site. Keep rail slots free of debris that might cause bolts to bind in the Clip ''' slots. slots Consider the weight of a fully assembled paneL Unirac recom- a¢. mends safe lines whenever one to a roof. Mounting �' lifting dols Align the panel with the previously installed L-feet. Slide 3/8 inch L-foot mounting bolts onto the rail and align them with Footing FFkmge the 1-feet mounting holes. Attach the panel to the 1-feet andboll slot nuf finger tighten the flange nuts. (� Rails may be attached to either of two mounting holes in the footings(Fig.25). • Mount in the lower hole for a low,more aethedcally F4wv 25.Unto-rail atraclunent pleasing installation. • Or mount in the upper hole to maximize a cooling airflow under the modules.This may enhance pmfor- mance in hotter climates. Adjust the position of the panel as needed to Ht the installa- tion area. Slide the remaining L-feet bolts onto the other rail, attach L-feet,and finger tighten with flange nuts. Align L-feet with mounting holes previously drilled into the roof. Install lag bolts into remaining L-feet as described in"laying out and installing L-feet`above. Torque all footing flange nuts to 30 foot-pounds. Verify that all lag bolts are securely fastened. 24 SolarMount Unirac Code-Complinntl=allation Manual dR U N RAC [3.4] installing SolarMount with grounding clips and lugs OPS era tits iit sold upuwly. UGC-1 T SP mamfing J damPS L� r' 1Modules 12 i-bO c,. F4-26,SU&L;GC-1 grotmd ng UGGI p l l� dip into top mounetrdgslot a/rnu OR. Torque mada a In&Ce on top of CLIP.Mbt WULPeactratetuff aaod- ui Indon and Create 4MA duvuth mil fleeft,9,irmpi e,". SolarMoUnOtoA(a+Y tics 'WEEBLug% Wif— Lulm�� Wwin'ad�bteo:lhta�uaWrthdtcs:se_ ' es WE bye, sted: �Y f alLmin`trntrniLplecc tu`gpoifon; �',:Tirm ; r WER � flat loektvardrrmtd we WEEBLug i _ llmpiMu-l�1�h andd7rrlsm r imjep �y il SfUiNMS SI!)_81 FIo1' Qa a�tlDflRt[dGd1 + WOShEf.(41fff8)• mdt'nutrttgoodtletb'tcal Wnnfed6n �L)it`""QliGain4tnral�endillt .. L!B tn►mi6h.me Lift rel jany type) Pigure 28.UGC-1 layout for even Figure 29.Single wire grounding and odd number 4f modules in raw. with spliced raf& -X"denotes places to install UGC-1. [[Y ►V MCOJ6 ds kVM n1KQWNhP.) � rod epic. X G' ,.Inc tq EYen Number ofModules in row — Copp.1 vM. ZTJI a I I 11�A- sm -- �= = odd Number of Modules in row Single grounding wire for entire Orley 25 &UNI RAC Unir ac Code-Compliant Installation Manual SolarMount 10 year limited Product Warranty, 5 year limited Finish Warranty Unirac,Inc-warrants to the original purchaser specified by HAMA 609 6 610-02-"Gleaning If within the specified Warranty periods the ("Purchaser')of product(s)that It manufactures and Maintenance for Architecturally Finished Product shall be reasonably proven to be ("Product')at the original Installation site that Aluminurr"(www,aamanetorg)are not followed defectlw-thenUnlrsc shall repair or replace the the Product shall be free from defdeccs in material by Purdwer.This Warranty does not cover defective Product,or any part thereof in Unirats and workmanship for a period often(10)years, damage to the Product that occurs during its sok cifscretion.5uch repair or replacement shall except for the anodized finish,which finish shEpment,storage,or installation. completely satisfy and discharge ap of Uniracs shall be free from visible peefmg,or craddng or -mss Warranty shall beVOID If installadon of the liability with respect to this limited WarrarcX chalking under normal atmospheric conditions Product is not performed in accordance with Under no circumstances shall Unirac be liable for a period offrre(5)years,from the earlier Uniracs written hurtallation Instructions,or ifthe for special,Indirect or comequenthl danagas of 1)the date the Imtallation of the Product is Product has been modified,repaired or reworked arising out of or related to use by Purchaser of completed,or 2)30 days a@er the purchase of In s manner not previously audhorcted by Unirac the Product' the Product by the original Purchaser("finish INWRITING,or ff the Product is Instilled in Manufacturers of related itenhs,such in PV Warranty") an errvironment for which it was not designed. modules and flashing:.may provide written The Finish Warranty does not apply to any foreign Unfrac shall not be fable for conseque ntlal, warranties of their own.Unbacs limited Warranty resldue deposited on the finish.All fntrallatioru cotn}ngent or Incidental damages arising out of covers only its Product,and not any related Items, in corrosive atmospheric conditions are excluded. the use or the Product by Purchaser under any The FinhhWarrartty isVO1D If the practices cirtumstancei. t9 .�. � � I �� 1411 Broadway Boulevard NE ... RE Albuquerque NM 87102-1545 USA 26 CUPERTINO a Building Department � k 2 9 2014 /�♦' �^ 'jt-" VUUC COMti`UPJ4(;. REQUIRED LABELS FOR SOLAR IT ELECTRIC (PV) SYSTEMS <IUKW (SEE DRAWING PV-1) LABELS SHALL BE MADE OF RED PLASTIC MATERIAL WITH ENGRAVED WHITE LETTERS • LETTERS SHALL BE A MINE4UM 318"IN SIZE • THE LABELS SHALL BE PERMANENTLY ATTACHED TO THE APPROPRIATE PANEL • AC&DC CONDUII, RACEWAY,ENCLOSURES,CABLE ASSEMBLIES AND JUNCIION BOXES SHALL BE OR RED BACKGROUND MATERIAL WITH WHIIE LETTERING MADE OF DURABLE ADHESIVE, REFLECIIVE WEAIHER RESISIANI MATERIAL SUITABLE FOR THE ENVIRONMENT: TO ALERT FIRE SERVICE Tb AVOID CUTTING THEM OFF WARNING! mkA � DUAL POWER SUPPLY 1 SOLAR ELECTRIC SYSTEM THIS TAG IS IO BE ATTACHED TO METERPANEL WARNING! DUAL POWER SUPPLY SOLAR ELECTRIC SYSTEM DISCONNECT THIS TAG II TO BE ATTACHED IO PV DISCONNECT DEVICE NSE kC DI CAUTION; SOLAR ELECTRIC CIRCUIT IHIS TAG IO BE AI IACHED IO AC AND DC CIRCUII EQUIPMENT