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Home My WebLink About12340 Lower Azusa Rd - 2023 - ROOF MOUNTED SOLAR SYSTEM 48 MODULESTOTAL SYSTEM SIZE 19.200 kWstc DC 17.899 kWptc DC 17.470 kW CEC DC 15.200 kVA-AC max GENERAL NOTES 1.CONTRACTOR SHALL ASSUME FULL RESPONSIBILITY AND LIABILITY FOR COMPLIANCE WITH REGULATIONS PER FEDERAL OSHA, AZ/ OSHA AND LOCAL REGULATIONS PERTAINING TO WORK PRACTICES, PROTECTION OF WORKERS AND VISITORS TO THE SITE. 2.CONTRACTOR SHALL VERIFY ALL EXISTING CONDITIONS AND DIMENSIONS AT SITE PRIOR TO COMMENCING WORK. 3.WORK REQUIRED UNDER THIS CONTRACT INCLUDES ALL LABOR AND MATERIALS, EQUIPMENT ETC. NECESSARY AND REASONABLY INCIDENTAL TO COMPLETE THE PROJECT. ALL MATERIALS SHALL BE IN NEW AND UNUSED CONDITION AND OF HIGH QUALITY IN EVERY RESPECT. 4.MANUFACTURER'S MATERIAL, EQUIPMENT, ETC. SHALL BE INSTALLED PER MANUFACTURER'S RECOMMENDATIONS AND INSTRUCTIONS. 5.THE CONTRACTOR SHALL BECOME FAMILIAR WITH ALL UTILITY AS-BUILT PLANS AND THE LOCATIONS OF ALL EXISTING UTILITIES AND STRUCTURES. THE CONTRACTOR SHALL BE RESPONSIBLE FOR ANY DAMAGE TO EXISTING UTILITIES, STRUCTURES, PAVEMENT OR IMPROVEMENTS. 6.ALL WORK SHALL BE INSTALLED IN CONFORMANCE WITH ALL APPLICABLE LOCAL CODES AND ORDINANCES BY EXPERIENCED WORKERS AND A LICENSED CONTRACTOR WHO SHALL OBTAIN ALL NECESSARY PERMITS AND PAY ALL REQUIRED FEES. 7.GOOD HOUSEKEEPING IS EXPECTED. TRASH SHALL BE REMOVED AS FREQUENTLY AS NEEDED TO ENSURE A TIDY AND SAFE WORK ENVIRONMENT. 8.ALL WORK SHALL BE INSTALLED IN CONFORMANCE WITH CONSTRUCTION SPECIFICATIONS. 9.ALL PV SYSTEM COMPONENTS SHALL BE LISTED BY A RECOGNIZED TESTING AGENCY. 10.PV MODULES AND ASSOCIATED EQUIPMENT AND WIRING MATERIALS SHALL BE PROTECTED FROM ANY PHYSICAL DAMAGE DURING CONSTRUCTION. APPROVALS - FOR OFFICIAL USE ONLY W S N E VICINITY MAP SCOPE OF WORK PROVIDE AND INSTALL A UTILITY INTERACTIVE ROOF MOUNTED PHOTOVOLTAIC SYSTEM CONSISTING OF THE LISTED EQUIPMENT: BUILDING INFO CONSTRUCTION TYPE:V NUMBER OF STORIES:1 EXISTING OCCUPANCY TYPE:S BUILDING SPRINKLERS:YES ENGINEERING STAMP ENGINEERING STAMP DESIGNER (ELECTRICAL) STEVEN RODRIGUES 1ST LIGHT ENERGY 1869 MOFFAT BLVD MANTECA CA 95336 OFFICE: 209.824.5500 EMAIL: COMMPERMIT@1STLE.COM ENGINEER (ELECTRICAL) 1ST LIGHT ENERGY 1869 MOFFAT BLVD MANTECA CA 95336 BALJIT CHOPRA, P.E. LICENSE NO. E17431 209.824.5544 PUBLIC STORAGE #27802 INTERACTIVE SOLAR PHOTOVOLTAIC SYSTEM 12340 LOWER AZUSA RD ARCADIA, CA, 91006 PROJECT LOCATION: 34.090002 N, 117.997565 W AZIMUTH: 120°, TILT: 3°AUTHORITY HAVING JURISDICTION (AHJ) CITY OF ARCADIA, CA BUILDING DEPARTMENT #### XXXXXXX RD CCCCCC, SS ZZZZZZ PHONE ###.###.#### UTILITY (ELECTRICAL) ACCOUNT MANAGER SOUTHERN CALIFORNIA EDISON PROJECT TEAM 1ST LIGHT ENERGY CONTRACTOR'S STATE LIC. NO. 921371 CLASSIFICATION: B, C-10, C-46 WORKER'S COMPENSATION: NATIONAL UNION FIRE INSURANCE COMPANY POLICY NUMBER: 022298272 EXPIRATION DATE: 06/01/2023 SUBMITTALS INDEX: -SEE ATTACHED SUPPLEMENTAL BOOK PROJECT COORDINATOR PALVI GILL 1ST LIGHT ENERGY 1869 MOFFAT BLVD MANTECA CA 95336 OFFICE 209.824.5500 EMAIL: COMMPERMIT@1STLE.COM JOB SITE DESIGN PARAMETERS RISK CATEGORY: II BASIC WIND SPEED: SPECIAL REGION MPH (3-SEC GUST PER ASCE 7-16) WIND EXPOSURE CATEGORY: C GROUND SNOW LOAD: 0 PSF TEMP. LOCATION: FULLERTON MUNICIPAL MAX. TEMP. (°C): 34 MIN. TEMP. (°C): 2 ENGINEER (STRUCTURAL) ENGINEERING INC. 303 N. GLENOAKS BLVD. SUITE 200 BURBANK, CA 91502 OFFICE: 747.333.5991 APPLICABLE CODES ALL WORK SHALL CONFORM TO ALL PERTINENT CODES AND REGULATIONS; 2022 CALIFORNIA BUILDING CODE 2022 CALIFORNIA MECHANICAL CODE 2022 CALIFORNIA ELECTRICAL CODE 2022 CALIFORNIA EXISTING BUILDINGS CODE 2022 CALIFORNIA FIRE CODE 2022 CALIFORNIA ENERGY CODE 2022 CALIFORNIA GREEN BUILDING STANDARDS CODE ITEM QTY MODEL PV MODULES 48 Vsun VSUN400-108BMH RAPID SHUTDOWN 24 APSMART RSD-D-15 INVERTERS 2 GOODWE 7.6kW INVERTER GW7600A-MS 240VAC, 1φ PANELBOARD 'PV-1'1 SQUARE D (OR EQUIVALENT) CUSTOMER METER 'M-1'1 MODEM METER VISION LTE CAT M1 AC DISCONNECT 'AC-1'1 SQUARE D (OR EQUIVALENT) BACKFED PV BREAKER 1 SQUARE D (OR EQUIVALENT) 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . G1.0 TI T L E S H E E T Sheet List Table Sheet Number Sheet Title G1.0 TITLE SHEET G1.1 ELECTRICAL SPECIFICATIONS, ABBREVIATIONS & SYMBOLS C1.0 SITE PLAN E1.0 PV SYSTEM SINGLE LINE & GROUNDING DIAGRAM E2.0 ELECTRICAL LABELS E2.1 MAP PLACARDS E3.0 CONDUIT ROUTING & STRING WIRING PLAN E4.0 EQUIPMENT DETAILS & EQUIPMENT ELEVATIONS S1.0 ROOF ZONES AND SETBACKS S1.1 MODULE MOUNTING & STRUCTURAL PLAN S1.2 ATTACHMENT DETAILS Date Certified and Exp. Date : 3/31/2024 Signed:03/13/2023 Professional Certification. I hereby certify that these documents were prepared or approved by me, and that I am a duly licensed professional engineer under the laws of the State of California. License No. ____________, Expiration Date: _______________88083 03/31/2024 G SYMBOLS AUTO TRIPPING CONTACTOR SWITCH (NORMALLY CLOSED) BOLT SWITCH CHASSIS GROUND CIRCUIT BREAKER COMBINER CONDUIT TURNED DOWN CONDUIT TURNED UP CONTACTOR CURRENT TRANSFORMER (CT) DC-AC INVERTER DETAIL EARTH GROUND (E) ELECTRICAL PANEL OR CABINET ENLARGED DETAIL FUSE FUSE PULL FUSED SWITCH GENERATOR GROUND WIRING KILOWATT HOUR/ DEMAND METER (FURNISHED BY UTILITY) LUG (N) CONDUIT RUN, EXPOSED ON ROOF OR WALL (N) CONDUIT RUN, UNDERGROUND (N) ELECTRICAL PANEL OR CABINET PHOTOVOLTAIC MODULE PHOTOVOLTAIC ARRAY SECTION SKYLIGHT T-HANDLE SWITCH (NORMALLY CLOSED) TRANSFORMER (HI-LEG DELTA) TRANSFORMER (DELTA/ WYE) TRANSFORMER (ISOLATED) TRANSFORMER (SPLIT PHASE) WEATHER STATION KEY NOTE EQUIPMENT TAG ELECTRICAL SPECIFICATIONS 1.GENERAL 1.1.THE MATERIAL REQUIRED FOR THE WORK SHALL BE CONTRACTOR FURNISHED AND CONTRACTOR INSTALLED, UNLESS SPECIFICALLY NOTED OTHERWISE. CONTRACTOR SHALL ASSUME NOTES LISTING MATERIAL AND/ OR EQUIPMENT BEGIN WITH THE WORDS "PROVIDE AND INSTALL" U.O.N. 1.2.CONTRACTOR SHALL VERIFY EXISTING CONDITIONS BEFORE SUBMITTING BID AND SHALL BECOME THOROUGHLY FAMILIAR WITH ACTUAL EXISTING CONDITIONS AT THE BUILDING AND JOBSITE. BY THE ACT OF SUBMITTING A BID PROPOSAL FOR THE WORK, THE CONTRACTOR SHALL BE DEEMED TO HAVE MADE SUCH STUDY AND EXAMINATION AND TO ACCEPT ALL CONDITIONS PRESENT AT THE SITE. NO REQUEST FOR ADDITIONAL PAYMENT WILL BE CONSIDERED AS VALID, DUE TO FAILURE TO ALLOW FOR CONDITIONS WHICH MAY EXIST. 1.3.COORDINATE ALL WORK WITH OTHER TRADES. OBTAIN ALL DRAWINGS THAT WILL REQUIRE COORDINATION AND PROVIDE ALL ELECTRICAL CONNECTIONS REQUIRED WHETHER SHOWN ON ELECTRICAL DRAWINGS OR NOT. 1.4.ELECTRICAL EQUIPMENT LOCATIONS INDICATED ARE SHOWN DIAGRAMMATICALLY. EXACT LOCATION SHALL BE VERIFIED AND ADJUSTED TO ACCOUNT FOR FIELD CONDITIONS. 1.5.UNINTERRUPTED EXISTING ELECTRICAL POWER SHALL BE MAINTAINED TO OTHER TRADES FOR TEMPORARY POWER TO AREAS OF THE SITE DURING CONSTRUCTION. PROVIDE ANY TEMPORARY SERVICES AS MAY BE REQUIRED. IDENTIFY AT BID TIME. 1.6.INSTALLATION SHALL BE IN ACCORDANCE WITH ALL APPLICABLE NATIONAL, STATE AND LOCAL CODE. 1.7.INSTALLATION SHALL BE IN ACCORDANCE WITH THE NATIONAL FIRE PROTECTION ASSOCIATION FIRE CODES (NFPA). 1.8.INSTALLATION OF THE SOLAR PHOTOVOLTAIC SYSTEM WILL BE IN ACCORDANCE WITH ALL APPLICABLE NATIONAL, STATE AND LOCAL CODE. 2.CABLES AND CONDUCTORS 2.1.WIRE IN CONDUIT SHALL BE 90°C, 600 VOLT RATED, COPPER THWN-2, #12 AWG MINIMUM, OR AS NOTED. 2.2.EXPOSED WIRE FOR DC SYSTEMS SHALL BE 90°C, MIN. 1000 VOLT RATED, COPPER, PV WIRE, #12 AWG MINIMUM. 2.3.CABLES AND CONDUCTORS SHALL BE INSTALLED IN ACCORDANCE WITH NEC 300.4 AND 400.10. 2.4.PRESSURE LUGS, TERMINALS, CONNECTIONS, SPLICES AND OTHER WIRE TERMINATION DEVICES AND ACCESSORIES SHALL BE RATED 90°C AND FOR THE ENVIRONMENT WHERE INSTALLED. 2.5.WIRE IN CONDUIT RUN UNDERGROUND SHALL BE CONSIDERED TO BE IN A "WET ENVIRONMENT." 2.6.ALL WIRE SHALL BE MARKED OR STAMPED WITH MANUFACTURER'S NAME AND LOCATION. 3.RACEWAYS AND BOXES 3.1.CONDUIT CONCEALED IN WALLS OR ABOVE CEILINGS SHALL BE ELECTRIC METALLIC TUBING (EMT), ANSI STANDARD C80.3 AND UNDERWRITERS LABORATORIES STANDARD UL 797. 3.2.CONDUIT CONCEALED INSIDE THE BUILDING SHALL BE ELECTRIC METALLIC TUBING (EMT), ANSI STANDARD C80.3 AND UNDERWRITERS LABORATORIES STANDARD UL 797. 3.3.EXTERIOR CONDUIT EXPOSED SHALL BE ELECTRIC METALLIC TUBING (EMT), ANSI STANDARD C80.3 AND UNDERWRITERS LABORATORIES STANDARD UL 797. 3.4.EXTERIOR EXPOSED FLEXIBLE CONDUIT SHALL BE LIQUID-TIGHT FLEXIBLE METAL CONDUIT, CONSTRUCTED OF SINGLE STRIP, FLEXIBLE, CONTINUOUS, INTERLOCKED, AND DOUBLE-WRAPPED STEEL; GALVANIZED INSIDE AND OUTSIDE; COATED WITH LIQUID-TIGHT JACKET OF FLEXIBLE POLYVINYL CHLORIDE (PVC). IT SHALL CONFORM TO UL 360. 3.5.INTERIOR CONCEALED FLEXIBLE METAL CONDUIT AND OR INTERIOR EXPOSED FLEXIBLE CONDUIT SHALL CONFORM TO UL 1. 3.6.FLEXIBLE CONDUIT SHALL BE USED FOR CONNECTION TO ALL EQUIPMENT WITH THE POTENTIAL FOR VIBRATION. CONNECTIONS SHALL NOT BE MORE THAN 6' LONG. 3.7.FITTINGS SHALL BE COMPRESSION TYPE, DIE CAST. 3.8.CONDUIT SHALL BE CONCEALED IN WALLS OR ABOVE CEILING WHERE POSSIBLE. 3.9.CONDUIT MOUNTED ON CEILING SHALL BE EXPOSED AND RUNS SHALL BE NEATLY MOUNTED PARALLEL TO BUILDING'S EXTERIOR WALLS. 3.10.BOXES IN INTERIOR LOCATIONS SHALL BE NEMA 1, OF THE TYPE, SHAPE, SIZE AND DEPTH TO SUIT EACH RESPECTIVE LOCATION. 3.11.DAMP, WET, EXTERIOR BOXES SHALL BE NEMA 3R OR BETTER, RAIN-TIGHT, DUST-TIGHT, WATER-TIGHT, WITH THREADED HUBS AND GASKETED COVERS. ALL ELECTRICAL RACEWAYS, COMPONENTS AND FITTINGS INSTALLED IN SUCH LOCATIONS SHALL COMPLY WITH WET LOCATION REQUIREMENTS. COVERS SHALL BE OF THE SAME RATING AS THE BOX AND SHALL BE FULLY GASKETED. 4.EXISTING EQUIPMENT AND CONDITIONS 4.1.DISCONNECT AND REMOVE ABANDONED/ NOT IN USE EQUIPMENT. 4.2.EXISTING EQUIPMENT AND ASSOCIATED APPURTENANCES SHALL BE PROTECTED IN PLACE UNLESS OTHERWISE NOTED ON THE PLANS. 4.3.PATCH AND REPAIR ALL OPENINGS LEFT BY DEMOLITION AND INSTALLATION TO MATCH EXISTING SURFACE FINISH. 5.GROUNDING 5.1.NON-CURRENT CARRYING METAL PARTS OF THE SYSTEM SHALL BE PROPERLY GROUNDED TO COMPLY WITH NEC REQUIREMENTS. 5.2.PROVIDE A GREEN COATED GROUND CONDUCTOR IN ALL CONDUITS WITH POWER CONDUCTORS. 5.3.PROVIDE A CONTINUOUS GROUND VIA A WEEB CONNECTING EACH PHOTOVOLTAIC MODULE TO THE ALUMINUM MOUNTING STRUCTURE. DISCONNECTION OF A PHOTOVOLTAIC MODULE SHALL NOT INTERRUPT THE SYSTEM GROUND. 5.4.GROUNDING CONNECTORS SHALL BE RATED FOR THE MATERIAL BEING GROUNDED. 5.5.ALL METALLIC RACEWAYS AND EQUIPMENT SHALL BE BONDED AND ELECTRICALLY CONTINUOUS PER NEC 250.90 AND 250.96. 5.6.GROUND BUSHINGS SHALL BE PROVIDED AROUND PRE-PUNCHED CONCENTRIC KNOCKOUTS ON THE DC SIDE OF THE SYSTEM PER NEC 250.97. 5.7.THE GROUNDING ELECTRODE SHALL BE PROTECTED FROM PHYSICAL DAMAGE BETWEEN THE GROUNDING ELECTRODE AND THE PANEL (OR INVERTER) IF SMALLER THAN #6 COPPER WIRE PER NEC 250.64 B. 5.8.ALL GROUNDING ELECTRODE CONDUCTORS SHALL BE CONTINUOUS, EXCEPT FOR SPLICES OR JOINTS AT BUSBARS WITHIN LISTED EQUIPMENT PER NEC 250.64 C. 6.MONITORING 6.1.WIRE SHALL BE RS-485, NOT LONGER THAN 2000'. 6.2.RS-485 CONDUCTOR SHALL BE #18 AWG STRANDED OR BETTER, 2 TWISTED-PAIRS. 6.3.RS-485 SHIELD SHALL BE FOIL WRAPPED 100% COVERAGE AND/OR TINNED COPPER BRAID 90% COVERAGE. 7.BASIC MATERIALS AND METHODS 7.1.EQUIPMENT SHALL BE LISTED, LABELED OR CERTIFIED FOR ITS USE BY A NATIONALLY RECOGNIZED TESTING LABORATORY (NRTL), AS RECOGNIZED BY THE U.S. DEPARTMENT OF LABOR, OCCUPATIONAL SAFETY AND HEALTH ADMINISTRATION. 7.2.BUSSING FOR PANEL BOARDS AND SWITCHBOARDS SHALL BE COPPER. 7.3.PANEL BOARDS SHALL HAVE HINGED DOORS, BOTH INTERIOR AND EXTERIOR. UNDERWRITERS LABORATORIES STANDARD UL 797. COMPONENTS AND FITTINGS INSTALLED IN SUCH LOCATIONS SHALL COMPLY WITH WET LOCATION REQUIREMENTS. COVERS SHALL BE OF THE SAME RATING AS THE BOX AND SHALL BE FULLY GASKETED. COVERS SHALL BE OF THE SCREW ON TYPE. 7.4.PHOTOVOLTAIC SOURCE CIRCUITS AND PHOTOVOLTAIC OUTPUT CIRCUITS SHALL NOT BE CONTAINED IN THE SAME RACEWAY, CABLE TRAY, CABLE, OUTLET BOX, JUNCTION BOX, OR SIMILAR FITTING AS FEEDERS OR BRANCH CIRCUITS OF OTHER SYSTEMS, UNLESS THE CONDUCTORS OF THE DIFFERENT SYSTEMS ARE SEPARATED BY A PARTITION OR ARE CONNECTED TOGETHER. CEC 690.4(B). 7.5.DC CONDUCTORS ROUTED INSIDE BUILDING SHALL BE CONTAINED IN ELECTRIC METALLIC CONDUIT. 7.6.ALL EXTERIOR EQUIPMENT SHALL BE RATED NEMA 3R OR HIGHER. 8.IDENTIFICATION AND LABELING 8.1.PLACARDS AS MAY BE REQUIRED SHALL BE METAL OR PLASTIC, WITH ENGRAVED OR MACHINE PRINTED LETTERS, OR ELECTRO-PHOTO PLATING, IN A "RED" BACKGROUND (WARNING) OR "BLACK" BACKGROUND (INFORMATION) WITH "WHITE" LETTERING, A MINIMUM OF 1/8" LETTER HEIGHT, AND ALL CAPITAL LETTERS. 8.2.PLACARDS SHALL BE ATTACHED TO THE SERVICE EQUIPMENT WITH POP-RIVETS, SCREWS, OR APPROVED ADHESIVE. 8.3.MATERIAL USED FOR MARKINGS SHALL BE WEATHER RESISTANT (I.E. ENGRAVED PLASTIC). UL 969 SHALL BE USED AS A STANDARD FOR WEATHER RATING. 8.4.MARKINGS SHALL BE PLACED EVERY 5' ON CENTER ON ALL INTERIOR AND EXTERIOR DC CONDUITS, RACEWAYS, ENCLOSURES, AND CABLE ASSEMBLIES AT TURNS, ABOVE/BELOW PENETRATIONS, ALL DC COMBINERS, AND JUNCTION BOXES. MARKINGS SHALL READ: "CAUTION: SOLAR CIRCUIT - DC VOLTAGE." 3PH 277/ 480Y VOLT GROUNDING ELECTRODE CONDUCTOR (GEC) 3PH 120/ 208Y VOLT & 1PH 120/ 240 VOLT STANDARD COLOR PHASING FOR CONDUCTORS OF DIFFERENT AC & DC DC NEGATIVE GROUNDED INVERTERS DC UNGROUNDED INVERTERS UNGROUNDED CONDUCTOR(S)(+) FROM MODULE RED WIRE OR BLACK WIRE (+) BLACK WIRE (-) RED OR BLACK WIRE GROUNDED CONDUCTOR (-) FROM MODULE WHITE WIRE OR GRAY OR BLACK WIRE W/ WHITE MARKING GROUNDING CONDUCTOR (EGC)GREEN OR BARE GREEN OR BARE NOTES: 1.ON 240V DELTA SUPPLY, PHASE B IS TYPICAL "STINGER LEG" (1PH 208V TO GROUND), USE ORANGE WIRE OR MARK BLACK WIRE W/ ORANGE. 2.CONDUCTORS LARGER THAN #6 AWG MAY HAVE SOLID COLOR PHASED INSULATION OR BE BLACK W/ THE CORRECT COLOR PHASE TAPE MARKINGS. 3.CONDUCTORS LARGER THAN #6 AWG USING BLACK INSULATION SHALL BE MARKED AT ENDS AND ALL PULL ENCLOSURES WITH A MINIMUM OF 4" AND MAXIMUM OF 6" PHASE TAPE MARKING. 4.CONDUCTORS #6 AWG AND SMALLER SHALL USE THE CORRECT COLOR PHASE SOLID INSULATION. GREEN OR BARE GREEN OR BARE GROUNDING CONDUCTOR (EGC)GREEN OR BARE GREEN OR BARE GROUNDED CONDUCTOR GRAY OR WHITE GRAY OR WHITE PHASE C YELLOW BLUE PHASE B/ LINE 2 ORANGE RED PHASE A/ LINE 1 BROWN BLACK AC CONDUCTORS 12 A ABBREVIATIONS A AMPERE AC ALTERNATING CURRENT AF AMP FRAME, AMP FUSED AFF ABOVE FINISH FLOOR AIC AMPS INTERRUPTING CURRENT AMB AMBIENT ANSI AMERICAN NATIONAL STANDARDS INSTITUTE APPROX APPROXIMATE AT AMP TRIP ATS AUTO TRANSFER SWITCH AVG AVERAGE AWG AMERICAN WIRE GAUGE BLDG BUILDING BOS BALANCE OF SYSTEM C CONDUIT CAL CALIFORNIA CAT CATALOG CATV CATEGORY V ETHERNET CABLE CB CIRCUIT BREAKER CEC CALIFORNIA ELECTRICAL CODE CIR,CKT CIRCUIT CLR CLEARS CMB COMBINER BOX COMM COMMUNICATION CONST CONSTRUCTION CONT CONTINUOUS, CONTINUED CTRL CONTROL CU COPPER DC DIRECT CURRENT DEG DEGREE DISC DISCONNECT DIST DISTANCE EA EACH EGC EQUIPMENT GROUNDING CONDUCTOR ELEC ELECTRICAL ELEV ELEVATION EMB EMBEDMENT EMT ELECTRIC METALLIC TUBING ENC ENCLOSURE EQ EQUAL, EQUIPMENT EST ESTIMATED EQUIP EQUIPMENT EXP EXPANSION FA FIRE ALARM FLA FULL LOAD AMPS FT FOOT G, GND GROUND GAL GALVANIZED GEC GROUNDING ELECTRODE CONDUCTOR GEN GENERATOR GFCI GROUND FAULT CURRENT INTERRUPTER GFI GROUND FAULT INTERRUPTER HP HORSE POWER HZ HERTZ I CURRENT IMP CURRENT MAX POWER INV INVERTER ISC CURRENT SHORT CIRCUIT J-BOX JUNCTION BOX KA THOUSAND AMPS KAIC THOUSAND AMPS INTERRUPT CURRENT KCMIL THOUSAND CIRCULAR MILS KV THOUSAND VOLTS KV BIL BASIC IMPULSE LEVEL (KV) KVA THOUSAND VOLT-AMPS KW KILOWATTS LAN LOCAL AREA NETWORK LB(S)POUND(S) LCL LONG TIME CONTINUOUS LOAD LEN LENGTH M METER MAN MANUAL MAX MAXIMUM MB MAIN BREAKER MCA MINIMUM CURRENT AMPS MECH MECHANICAL MIN MINIMUM MISC MISCELLANEOUS MLO MAIN LUG ONLY MM METER MAIN MOCP MAXIMUM OVER-CURRENT PROTECTION MTG MOUNTING MSWB MAIN SWITCH BOARD NEC NATIONAL ELECTRICAL CODE N, NEU NEUTRAL NFPA NATIONAL FIRE PROTECTION ASSOCIATION NGOM NET GENERATION OUTPUT METER NIC NOT IN CONTRACT NO.NUMBER NOM NOMINAL NRTL NATIONALLY RECOGNIZED TESTING LABORATORY NTS NOT TO SCALE O.C.ON CENTER OCPD OVER-CURRENT PROTECTIVE DEVICES P PLUG, POLE, PUMP AS APPROPRIATE PB PULL BOX PBC PIGGY BACK CARD PCC POINT OF COMMON COUPLING PG&E PACIFIC GAS & ELECTRIC PH, Ø PHASE PNL PANEL POC POINT OF CONNECTION PPE PERSONAL PROTECTIVE EQUIPMENT PP&L PACIFIC POWER & LINES PV PHOTOVOLTAIC PVC POLYVINYL CHLORIDE REF REFERENCE RGM REVENUE GRADE METER RGS RIGID STEEL CONDUIT RM ROOM RSD RAPID SHUTDOWN DEVICE SCE SOUTHERN CALIFORNIA EDISON SDG&E SAN DIEGO GAS & ELECTRIC S/N SOLID NEUTRAL SN SERIAL NUMBER SQ SQUARE SS SAFETY SWITCH STD STANDARD STRUCT STRUCTURAL SWBD SWITCHBOARD SWGR SWITCHGEAR T, TEMP TEMPERATURE TID TURLOCK IRRIGATION DISTRICT TYP TYPICAL U.O.N.UNLESS OTHERWISE NOTED UGPS UNDERGROUND PULL SECTION UL UNDERWRITER'S LABORATORY V VOLTS VA VOLT-AMPS VAC VOLTS ALTERNATING CURRENT VDC VOLTS DIRECT CURRENT W WATTS WP WEATHERPROOF XFMR TRANSFORMER Y WYE &AND °C DEGREE CELSIUS °F DEGREE FAHRENHEIT =EQUAL (E)EXISTING 'FEET "INCHES -MINUS (N)NEW # or (#)NUMBER OF ITEMS %PERCENT +PLUS (+/-)PLUS OR MINUS ⅊PROPERTY LINE DC CONDUCTORS M 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . G1.1 EL E C T R I C A L S P E C I F I C A T I O N S , AB B R E V I A T I O N S & S Y M B O L S W S N E250' 25' INVERTER PANELBOARD INVERTER UTILITYMETER MAINSWITCHBOA R D CUST.METER'M-1' DISCONNE C T'AC-1' 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . SCALE:D1 OVERALL SITE PLAN C1.0 SEE SHEET E3.0 FOR CONDUIT ROUTING & STRINGING PLAN SEE SHEET S1.0 FOR ROOF ZONES AND SETBACKS SEE SHEET S1.1 FOR STRUCTURAL PLAN SEE SHEET S1.2 FOR BALLAST LAYOUT MOUNTED ON ROOF (N)19.20KW-DC PV ARRAY -48 MODULES, 400W EACH -AZIMUTH: 120° -TILT: 3° -MOUNTED ON CHIKO 7 RAIL -ORIENTATION: PORTRAIT MOUNTED ALONG WALL AT GROUND LEVEL -(1)(N)100A AC DISCONNECT 'AC-1' -(1)(N)CUSTOMER METER 'M-1' -(E)SCE METER 003716 -(E)MAIN SWITCHBOARD 1:600 SI T E P L A N MOUNTED ON ROOF -(1)(N)100A AC PANELBOARD 'PV-1' -(1)(N)7.6KVA INVERTER -(1)(N)7.6KVA INVERTER BUILDING NOT I N S C O P E BUILDING NOT IN SCOPE BUILDING NOT IN SCOPE OFFICE LOW E R A Z U S A R O A D LOW E R A Z U S A R O A D BUILDING NOT IN SCOPE BUILDING NOT IN SCOPE MIN 79A 240VAC 1φ 3W 100A 240VAC 1φ 3W AC DISCONNECT 'AC-1' F 13 12E ROOFTOP PV ARRAY(S) 1 2 6345 7 8 9 GENERAL NOTES 1.REFERENCE ELECTRICAL CALCULATIONS AND DATASHEETS IN SUBMITTAL BOOK. 2.REFERENCE SHEET E2.1 FOR ELECTRICAL PLACARDS. 3.ALL EQUIPMENT IS NEW WORK EXCEPT WHERE NOTED (E). 4.FIELD TO VERIFY ALL EQUIPMENT TERMINATIONS ARE RATED 75°C OR HIGHER. KEY NOTES 1.MINIMUM 4" DISTANCE BETWEEN CONDUIT AND ROOF SURFACE SEE DETAIL E4.0-B5 2.REFERENCE DETAIL E1.0-D1 TABLE FOR ALL ARRAY CONFIGURATION INFORMATION. 3.REFERENCE DETAIL E4.0-B1,B2 FOR PV MODULE TO RAPID SHUTDOWN DEVICE (RSD) WIRING. 4.#12 AWG PV WIRE SHALL HAVE NO MORE THAN 6 WIRES BUNDLED IN FREE-AIR UNDER THE ARRAY. #10 AWG PV WIRE SHALL HAVE NO MORE THAN 6 WIRES BUNDLED IN FREE-AIR UNDER THE ARRAY. #8 AWG PV WIRE SHALL HAVE NO MORE THAN 4 WIRES BUNDLED IN FREE-AIR UNDER THE ARRAY. 5.EACH ARRAY SHALL HAVE ADDITIONAL AUXILIARY ARRAY GROUNDING CONDUCTOR PER 690.47(D) AND SHALL BE PROVIDED AND BE SIZED PER 250.52 AND 250.54. OPTION TO RUN IN CONDUIT AS SHOWN OR IN SEPARATE 1/2" CONDUIT. SEE DETAIL E4.0-C3 FOR GROUND ROD DETAIL. 6.SEE PAGE G1.1-D4 FOR CONDUCTOR COLOR SPECIFICATIONS. 7.ALL RACEWAYS INCLUDE A WIRE TYPE EQUIPMENT GROUNDING CONDUCTOR THAT SERVES AS BOTH GEC AND EGC PER 250.121 EXCEPTION. 8.ALL METALLIC RACEWAYS CONTAINING A GEC SHALL BE BONDED AT BOTH ENDS. EVERY GEC SHALL BE IRREVERSIBLY SPLICED AT EACH JOINT PER 250.64(C)(1). SEE DETAIL E4.0-A2. 9.PROVIDE AND INSTALL A CONTINUOUS CONDUCTOR FROM THE RSD STRINGS TO EACH ASSIGNED COMBINER/INVERTER. SPLICES SHALL NOT BE ALLOWED, NO EXCEPTION. 10.DC SYSTEM IS UNGROUNDED TYPE. 11.PV-1 LOAD CENTER CONFORMS TO 705.12(B)(2)(3)(C) THE SUM OF ALL BREAKERS<= AMPACITY OF BUS BAR. 12.AC DISCONNECT SHALL BE VISIBLE, LOCKABLE, AND ACCESSIBLE. NOTE: IT SHALL BE A KNIFE BLADE TYPE DISCONNECT. 13.INVERTER(S) PROVIDE NEC 690.12 COMPLIANT RAPID SHUTDOWN AT RSD OUTPUT CIRCUIT (#3). RAPID SHUTDOWN OF THE ENTIRE PV GENERATION SYSTEM CAN BE PERFORMED AT DISCONNECT 'AC-1'. ALL DC CONDUCTORS ARE 'CONTROLLED' PER NEC 690.12(2) AND CAN BE OF ANY LENGTH. 14.PV INTERCONNECTION MADE PER 705.12(B) '120% RULE'. 15.SEE TABLE E1.0-C3 FOR PV INTERCONNECTION DETAILS. AUX GROUNDING ELECTRODE SEE E4.0-C3 ()4 ()7 ()8 A B N GND A B 2 +- 2 STRINGS OF 12 MODS. -400W EACH RSD 1211 RSD 21 GND()3()2 ()3()3 ()1 +- D 11 M.L.O. A B N GND 40A 40A B N M A GND ALONG EXTERIOR WALL @GROUND LEVEL ()4A B 2 +- 2 STRINGS OF 12 MODS. -400W EACH RSD 1211 RSD 21 GND()3()2 ()3()3 ()1 +- MIN 79A 240VAC 1φ 3W 200A 240VAC 1φ 3W CUSTOMER METER 'M-1' MIN 79A 240VAC 1φ 3W 100A 240VAC 1φ 3W PANELBOARD 'PV-1'C 10 A B N + - GND OUTPUT (@125%) 39.6A 7.6kVA 240VAC 1φ 3W INVERTER 1 C 10 A B N + - GND OUTPUT (@125%) 39.6A 7.6kVA 240VAC 1φ 3W INVERTER 2 G 80A B A N (E) LOADS 14 15 M (E) GRID G AUX GROUNDING ELECTRODE (E) GROUND 400A (E)MSWB 400A 120/240VAC 1φ 3W (E)SCE METER 003716 ()5 ()5 ()6 ()6()6 INV STRING ID STRING KWstc RSD # MODS # 1 1.1.1 4.800 6 12 1.2.1 4.800 6 12 2 2.1.1 4.800 6 12 2.2.1 4.800 6 12 TOTAL 19.200 24 48 TOTAL SYSTEM SIZE 19.200 kWstc DC 17.899 kWptc DC 17.470 kW CEC DC 15.200 kVA-AC max ID ITEM QTY MODEL SPECIFICATIONS A PV MODULES 48 Vsun VSUN400-108BMH 400WSTC, 372.8WPTC, BIFACIAL, 1723×1133×30MM, 1500V MAX SYSTEM VDC, MONOCRYSTALLINE B RAPID SHUTDOWN 24 APSMART RSD-D-15 25A, 120V, 1500V-DC SYSTEM, 250MM CABLE, MC4 C INVERTERS 2 GOODWE 7.6kW INVERTER GW7600A-MS 240VAC, 1φ 7.6KVA, 240VAC, 1φ, 3W, CEC EFF 97.6%, W/ INTEGRATED DC DISCONNECT BUILT-IN CERTIFIED SUNSPEC TRANSMITTER D PANELBOARD 'PV-1'1 SQUARE D (OR EQUIVALENT) 100A, 480VAC, 3φ, 4W, NEMA 3R MAIN BREAKER: NONE 02 SLOTS, BREAKERS: 40A/40A E CUSTOMER METER 'M-1'1 MODEM METER VISION LTE CAT M1 200A, 120-480V, 1φ, NEMA 3R, 2S SOCKET, 4G CELL MODEM F AC DISCONNECT 'AC-1'1 SQUARE D (OR EQUIVALENT)100A, 240VAC, 3-POLE, NON-FUSED, HD, NEUTRAL, NEMA3R G BACKFED PV BREAKER 1 SQUARE D (OR EQUIVALENT)80A, 208VAC, 3-POLE CIRCUIT DESCRIPTION SPECIFICATION (1)MODULE TO MODULE Free-Air w/ (2) 12 AWG CU PVWire, (1) 6 AWG CU THWN2 GEC (2)INTER ARRAY JUMPER (IF NEEDED)(1) 1" EMT w/ (2) 10 AWG CU PVWire, (1) 6 AWG CU THWN2 GEC (3)STRING(S) TO ARRAY EDGE Free-Air w/ (2) 10 AWG CU PVWire, (1) 6 AWG CU Bare GEC (4)ARRAY EDGE TO INVERTER (1) 1" EMT w/ (4) 10 AWG CU PVWire, (1) 6 AWG CU THWN2 GEC (5)INVERTER TO PANELBOARD PV-1 (1) 1" EMT w/ (3) 8 AWG CU THWN2, (1) 6 AWG CU THWN2 GEC (6)PANELBOARD PV-1 TO MSWB (1) 1½" EMT w/ (3) 3 AWG CU THWN2, (1) 6 AWG CU THWN2 GEC (7)AUXILIARY ARRAY GROUND Free-Air w/ (1) 6 AWG CU Bare GEC (8)AUXILIARY ARRAY GROUND (1) ½" EMT w/ (1) 6 AWG CU THWN2 GEC NOTE: (#) INDICATES THE NUMBER OF CONDUITS OR CONDUCTORS IN EACH CIRCUIT PV INTERCONNECTION METHOD MAIN OCPD RATING 400.0 AMPS EXISTING MAIN BUSBAR RATING 400.0 AMPS SUM OF EXISTING BRANCH OCPD RATINGS 800.0 AMPS 120% MAXIMUM BUSBAR AMPACITY ALLOWED PER NEC 705.12(B)(2)(3)(b)480.0 AMPS 125% OF PV OUTPUT CIRCUIT CURRENT 79.2 AMPS MAXIMUM CURRENT ON MAIN BUSBAR = (125% PV OUTPUT CURRENT + MAIN OCPD RATING)479.2 AMPS MAXIMUM CURRENT ON MAIN BUSBAR IS ≤ 480 AMPS AND IS ACCEPTABLE. PV OCPD MUST BE INSTALLED AT OPPOSITE END OF BUSBAR FROM MAIN OCPD 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . E1.0SCALE:D1 ARRAY SCHEDULE NTS SCALE:C1 EQUIPMENT SCHEDULE NTS SCALE:D3 CIRCUIT SCHEDULE NTSSCALE:D2 SYSTEM SIZE NTS PV S Y S T E M S I N G L E L I N E & GR O U N D I N G D I A G R A M SCALE:C3 PV INTERCONNECTION METHOD NTS 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . E2.0 EL E C T R I C A L L A B E L S GENERAL NOTES 1.ALL LABELS ARE PRESENTED ACTUAL SIZE. SCALE:D3 INVERTER LABELS 1" = 1" SCALE:B4 PGEN. METER LABELS 1" = 1" SCALE:A4 CONDUIT LABELS 1" = 1" SCALE:B5 J-BOX AND PULL BOX LABELS 1" = 1" SCALE:D2 AC DISCONNECT LABELS 1" = 1" 'INV-2' 'INV-1''AC-1'MSWB REFLECTIVE STICKER TO BE INSTALLED ON PV CONDUITS EVERY 5'-0" 690.31 (G)(3)&(4). 63.3 240 63.3 240 N.A. 42.7 A 474 V 474 V 42.7 A N.A. SCALE:D4 PV SUBPANEL LABELS 1" = 1" 690.31 (G) (3) SCALE:D1 MAIN SERVICE PANEL LABELS 1" = 1" W S N E INVER T E R PANE L B O A R D INVER T E R UTILIT Y METER MAIN SWITCH B O A R D CUST. METE R'M-1' DISCON N E C T 'AC-1' INVER T E R PANE L B O A R D INVER T E R UTILIT Y METER MAIN SWITCH B O A R D CUST. METE R'M-1' DISCON N E C T 'AC-1' W S N E 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . GENERAL NOTES ALL PLACARDS ARE PRESENTED ACTUAL SIZE.E2.1 SCALE:B1 MAIN SWBD 1" = 1"SCALE:B2 AC-1 DIR. PLACARD 1" = 1" INSTALL #1001908 YOU ARE HERE PV ARRAY(S) ELECTRICAL TIE-INPV EQUIPMENT AC DISCONNECT POWER TO THIS BUILDING IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS AS SHOWN. CAUTION 1st LIGHT ENERGY, INC. FOR SERVICE CALL 209-824-5500 MA P P L A C A R D S INSTALL #1001908 YOU ARE HERE PV ARRAY(S) ELECTRICAL TIE-INPV EQUIPMENT AC DISCONNECT POWER TO THIS BUILDING IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS AS SHOWN. CAUTION 1st LIGHT ENERGY, INC. FOR SERVICE CALL 209-824-5500 100' 25'W S N E CIRCUIT DESCRIPTION CONDUIT MAX DIST. (FT.) BETWEEN FIXED BOXES MAX LEN. (FT.) RUN WITH 4" EXP. FITTING (1)MODULE TO MODULE Free-Air (2)INTER ARRAY JUMPER (IF NEEDED)(1) 1" EMT 26'413' (3)STRING(S) TO ARRAY EDGE Free-Air (4)ARRAY EDGE TO INVERTER (1) 1" EMT 26'413' (5)INVERTER TO PANELBOARD PV-1 (1) 1" EMT 36'581' (6)PANELBOARD PV-1 TO MSWB (1) 1½" EMT (7)AUXILIARY ARRAY GROUND Free-Air (8)AUXILIARY ARRAY GROUND (1) ½" EMT 21'339' INV STRING ID STRING KWstc RSD # MODS # 1 1.1.1 4.800 6 12 1.2.1 4.800 6 12 2 2.1.1 4.800 6 12 2.2.1 4.800 6 12 TOTAL 19.200 24 48 INVE R T E R PAN E L B O A R D INVE R T E R UTIL I T Y MET E R MAIN SWIT C H B O A R D CUS T . METE R 'M-1 ' DISCO N N E C T 'AC- 1 ' UT I L I T Y ME T E R MA I N SW I T C H B O A R D CU S T . ME T E R 'M - 1 ' DIS C O N N E C T 'A C - 1 ' 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . SCALE:D2 CONDUIT SCHEDULE N.T.S. SCALE:C1 CONDUIT ROUTING & STRING WIRING PLAN E3.0 SEE DETAIL E3.0-D4 SCALE:D1 ARRAY SCHEDULE N.T.S.SCALE:D4 CONDUIT ROUTING 1 : 75 1:150 CO N D U I T R O U T I N G & S T R I N G WI R I N G P L A N 1.1.1 1.2.1 2.1.1 2.2.1 6 6 -(E)MAIN SWITCHBOARD -(E)SCE METER 003716 -(1)(N)CUSTOMER METER 'M-1' -(1)(N)100A AC DISCONNECT 'AC-1' MOUNTED ON ROOF (N)19.20KW-DC PV ARRAY -48 MODULES, 400W EACH -AZIMUTH: 120° -TILT: 3° -MOUNTED ON CHIKO 7 RAIL -ORIENTATION: PORTRAIT MOUNTED ALONG WALL AT GROUND LEVEL -(1)(N)100A AC DISCONNECT 'AC-1' -(1)(N)CUSTOMER METER 'M-1' -(E)SCE METER 003716 -(E)MAIN SWITCHBOARD MOUNTED ON ROOF -(1)(N)100A AC PANELBOARD 'PV-1' -(1)(N)7.6KVA INVERTER -(1)(N)7.6KVA INVERTER SCALE:A1 PARALLEL CONDUIT GROUNDING DETAIL N.T.S. IRREVERSIBLE SPLICE (TYP) EMT SHALL BE BONDED (TYP) FERROUS BOX SHALL BE BONDED (TYP) EMT CONDUIT (TYP) ELETRICAL BOX (TYP)ELETRICAL BOX (TYP) GEC'S SHALL EACH BE SIZED PER SLD (TYP) +- TO (+) CONNECTION ADJACENT RSD (TYP) TO (-) CONNECTION ADJACENT RSD (TYP) #12 PV WIRE (TYP) MODULE J-BOX PV MODULE SCALE:B1 PV MODULE TO RSD WIRING N.T.S.SCALE:B2 PV MODULE TO RSD WIRING N.T.S. PV MODULE J-BOX +- MODULE J-BOX + APsmart RSD_D_15 - -+ + - #12 PV WIRE (TYP) #12 PV WIRE (TYP) #12 PV WIRE (TYP) + APsmartRSD_D_15 - -+ + - PV MODULE SCALE:C1 TYPICAL CABINET GROUNDING DETAIL N.T.S. GND A B N GROUND CONDUCTOR GROUND CONDUCTOR CABINET BOND GROUND BUS OR LUG IRREVERSIBLE SPLICE LOAD CENTER GND TO PCC GND DC DISCO INVERTER GND TO PV ARRAY DC DISCO INVERTER -INVERTERS CAN BE REMOVED AND SERVICED WITHOUT REMOVAL OF DC DISCO -ALL CONDUCTORS SHALL BE SIZED PER SLD SCALE:A2 INVERTER AC/DC GROUNDING DETAIL N.T.S. EMT CONDUIT (TYP) GEC (TYP) IRREVERSIBLE SPLICE (TYP) BONDING JUMPER (AS REQUIRED) ALL RACEWAYS BONDED BOTH ENDS WITH GEC GROUND ROD (AS REQUIRED) IRREVERSIBLE SPLICE (TYP) TO PV ARRAY SCALE:D2 RAIL GROUNDING & BONDING N.T.S. SUBPANEL 73" X 32" X 11.75" UNISTRUT OR SIMILAR SLOTTED C-CHANNEL RC ROOF ATTACHMENT SUBPANEL -NEMA 4X BRACE WITH L-BRACKETS SCALE:D5 PV SUBPANEL (VERTICAL MOUNT) N.T.S. SCALE:C5 INVERTER RACK N.T.S. INVERTER RACK -BUILT USING UNISTRUT, CUSTOM SIZED ON SITE DURING INSTALLATION STANDING SEAM CLAMP ROOF ATTACHMENT INVERTER -ATTACHED ACCORDING TO SPECIFIC INVERTER REQUIREMENTS MINIMUM CLEARANCES 1.TO ALLOW PROPER HEAT DISSIPATION, MAINTAIN THE FOLLOWING MINIMUM CLEARANCE AREAS BETWEEN THE INVERTER AND OTHER OBJECTS: - 20" TO TOP OF INVERTER - 12" TO FRONT OF INVERTER - 8" TO RIGHT AND LEFT OF INVERTER 2.FOR INDOOR INSTALLATIONS TO ALLOW PROPER HEAT DISSIPATION, MAINTAIN THE FOLLOWING MINIMUM CLEARANCE AREAS BETWEEN THE INVERTER AND OTHER INVERTERS: - 20" TO THE TOP OF INVERTER - 12" TO FRONT OF INVERTER - 8" TO THE RIGHT AND LEFT OF INVERTER 3.FOR OUTDOOR INSTALLATIONS MAINTAIN THE CLEARANCES SPECIFIED IN ITEM 1 ABOVE BETWEEN INVERTERS. GOODWE INVERTER (TYP) SCALE:D1 INVERTER CLEARANCES N.T.S. HEYCO - TITE SOLAR MASTHEAD (MALE CONNECTOR TO LIQUID TIGHT CORDGRIPS)X'-X" (DISTANCE) EMT CONDUIT (TYP) X" EMT OR RIGID COUPLING (FEMALE TO FEMALE CONNECTOR) X" EMT COMPRESSION CONNECTOR (COMPRESSION FITTING TO MALE CONNECTOR) X" EMT COMPRESSION CONNECTOR (MALE CONNECTOR TO COMPRESSION FITTING) CABINET (EXTERIOR) RUBBER BUSHING SEAL PV WIRE (TYP) FROM PV SUB-ARRAY STRINGS (TYP) TO DEVICE INPUTS PV WIRE (TYP) PULL-BOX (INTERIOR) GROUNDING BUSHING GROUNDING WIRE SCALE:B3 WATERTIGHT WIRE ENTRY TO BOXES AND CABINETS N.T.S. FROM PV MODULE STRINGS (TYP) SCALE:A4 PV STRINGS TO J-BOX N.T.S. HEYCO - TITE SOLAR MASTHEAD (MALE CONNECTOR TO LIQUID TIGHT CORDGRIPS) PV WIRE (TYP) RUBBER BUSHING SEAL J-BOX (INTERIOR) J-BOX SIDE OR BOTTOM ENTRY ONLY (EXTERIOR) GROUNDING WIRE GROUNDING BUSHING #302U, UNIVERSALGROUND ROD CLAMP (OR EQ) USE 3/4" X 10'-0" COPPER CLAD STEEL ROD BURIED MIN. 8'-0" IN SOIL GROUNDING CONDUCTOR SCALE:C3 GROUND ROD N.T.S. INTEGRATED GALVANIZED LIPPED STEEL MOUNTING CHANNEL CONDUITS (FOR QUANTITY & SIZES REFER TO SHEET E1.0 DETAIL C3 INTEGRATED GALVANIZED LIPPED STEEL MOUNTING CHANNEL CONDUIT CLAMP (SIZE AS REQUIRED) UV-INHIBITED POLYCARBONATE OR HIGH-DENSITY POLYPROPYLENE PLASTIC BLOCK (LENGTH AS REQUIRED) LOCKING SQUARE WASHER & LOCKOUT 3/8Ф GALVANIZED THREAD BOLT (TYP) BOTTOM OF CONDUIT MIN.HEIGHT 4", MAX HEIGHT 11.5". NEC TABLE 310.15(B)(3)(C) SCALE:C4 ROOFTOP CONDUIT SUPPORT N.T.S. TO PV SYSTEM SCALE:A3 ELEC. SERVICE GROUNDING DETAIL N.T.S. BONDING JUMPER CONCRETE-ENCASED ELECTRODE BONDING JUMPER GROUNDING ELECTRODE CONDUCTOR MAIN BONDING JUMPER GROUNDING BUSHING (TYP) CONDUCTORS SHALL BE SIZED PER SLD (TYP) SERVICE EQUIPMENT EMT CONDUIT (TYP) UTILITY SERVICE ENTRANCE CONDUCTORS BONDING JUMPER (TYP) GROUND CLAMP (TYP) METAL BLDG FRAME (TYP) GROUND ROD UNDERGROUND METAL WATER PIPEGROUND RING IRREVERSIBLE SPLICE (TYP) GROUND CLAMP (TYP) CONDUIT CONDUIT CLAMP UNISTRUT OR SIMILAR C-CHANNEL MEMBER SCALE:C2 CONDUIT WALL SUPPORT N.T.S. 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . E4.0 EQ U I P M E N T D E T A I L S & EQ U I P M E N T E L E V A T I O N S 100' 25'W S N E INV E R T E R PANE L B O A R D INV E R T E R 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . NOTE: ALL PV ARRAYS ARE INSTALLED WITHIN ZONE 1 (INTERIOR) LEAST HORIZONTAL DIMENSION * 0.1 (69 * 0.1) = 6.9' S1.0 4' PERIMETER FIRE SETBACK 6'-9" WIND ZONE BOUNDARY WIND ZONE 1 RO O F Z O N E S A N D S E T B A C K S SCALE:D1 ROOF ZONES AND SETBACKS 1:150 43'-10" 263'-10" 34 ' - 4 " 28 ' - 5 " 6' - 9 " 69 ' - 7 " 37'-7"182'-5" MOUNTED ON ROOF (N)19.20KW-DC PV ARRAY -48 MODULES, 400W EACH -AZIMUTH: 120° -TILT: 3° -MOUNTED ON CHIKO 7 RAIL -ORIENTATION: PORTRAIT MOUNTED ON ROOF -(1)(N)100A AC PANELBOARD 'PV-1' -(1)(N)7.6KVA INVERTER -(1)(N)7.6KVA INVERTER Date Certified and Exp. Date : 3/31/2024 Signed:03/13/2023 Professional Certification. I hereby certify that these documents were prepared or approved by me, and that I am a duly licensed professional engineer under the laws of the State of California. License No. ____________, Expiration Date: _______________88083 03/31/2024 G Prior to the commencement of work, the contractor shall verify the existing roof and framing conditions. Notify New@engineerinc.io of any Discrepancies prior to starting construction. Prior to the commencement of work, the contractor shall inspect framing for any damage such as water damage, cracked framing, etc. and These Plans are stamped for structural code compliance of the roof framing supporting the proposed PV installation reference only. These plans are not stamped for water leakage. PV modules, racking, and attachment components must follow manufacturer guidelines and requirements. Attachments to be installed in a staggered orientation to properly distribute loads. BUILDING A TOTAL SYSTEM WEIGHT (LBS.)2507.00 NUMBER OF ATTACHMENTS 76 WEIGHT PER ATTACHMENT (LBS.)32.99 ARRAY AREA (SQ. FT.)1028.00 ARRAY LOAD (PSF)2.44 ROOF AREA (SQ. FT.)12221.00 ARRAY ROOF COVERAGE (%)8.41 DISTRIBUTED LOAD (PSF)0.21 100' 25'W S N E INV E R T E R PANE L B O A R D INV E R T E R 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 1 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . SCALE:A5 RACKING WEIGHTS N.T.S. ROOF BLOCK AND L-FOOT S1.1 WOOD PURLIN -SPACING: 5' -DEPTH: 6" -WIDTH: 2-1/4" WOOD BEAM -SPACING: 15' -DEPTH: 6" -WIDTH: 2-1/2" 4' MAX SPACING (TYP.)CHIKO 7 RAIL 1'-6" MAX CANTILEVER (TYP.) STANDING SEAM ROOFING -PITCH: 3° MO D U L E M O U N T I N G & ST R U C T U R A L P L A N SCALE:D1 MODULE MOUNTING & STRUCTURAL PLAN 1:150 MOUNTED ON ROOF (N)19.20KW-DC PV ARRAY -48 MODULES, 400W EACH -AZIMUTH: 120° -TILT: 3° -MOUNTED ON CHIKO 7 RAIL -ORIENTATION: PORTRAIT MOUNTED ON ROOF -(1)(N)100A AC PANELBOARD 'PV-1' -(1)(N)7.6KVA INVERTER -(1)(N)7.6KVA INVERTER Date Certified and Exp. Date : 3/31/2024 Signed:03/13/2023 Professional Certification. I hereby certify that these documents were prepared or approved by me, and that I am a duly licensed professional engineer under the laws of the State of California. License No. ____________, Expiration Date: _______________88083 03/31/2024 G 1.9689 1.772015,20 1.0313 2.2052 2.8588 SCALE:C1 RAIL MOUNT DETAIL N.T.S. CHIKO 7 RAIL FIRE RATING: THE CHIKO 7 RAIL SYSTEM HAS UNDERGONE FIRE PERFORMANCE TESTING IN ACCORDANCE WITH UL 2703, FIRE PERFORMANCE. A SYSTEM CLASS A FIRE RATING IS ACHIEVED WHEN USING CHIKO 7 RAIL UNDER THE FOLLOWING CONDITIONS: ·ROOF SLOPE OF 2/12" RISE PER LINEAR FOOT OR GREATER ·USED IN COMBINATION WITH A UL 1703 LISTED MODULE WITH A FIRE PERFORMANCE RATING OF TYPE 1, TYPE 2, OR TYPE 3. CONSULT THE MODULE MANUFACTURER FOR SPECIFIC FIRE PERFORMANCE RATING INFORMATION. ·CHIKO 7 RAIL SYSTEM MAY BE MOUNTED USING ANY STAND-OFF HEIGHT TO MAINTAIN THE CLASS A FIRE RATING. ALWAYS CONSULT THE MODULE MANUFACTURER‘S INSTALLATION INSTRUCTIONS TO ENSURE YOUR INSTALLATION IS IN COMPLIANCE WITH THEIR UL 1703 LISTING. ·THE RESULTS OF THE RACKING SYSTEM DO NOT IMPROVE A ROOF COVERING CLASS RATING. ALL DOCUMENTATION CAN BE FOUND ON UL‘S ONLINE DATABASE AS WELL AS CHIKO USA WEBSITE. 6 5 / 8 " MAX. 4'-0" SPACING SPACING BASED ON SIZE OF MODULE CHIKO 7 RAIL CHIKO L-FOOT M10 T-BOLT M10 FLANGE NUT MID CLAMP PV MODULE PV MODULEPV MODULE PV MODULE L-FOOT CHIKO 7 RAIL PV MODULE PV MODULEPV MODULE PV MODULE CHIKO CLAMP 376 (E)PURLIN CHIKO CLAMP 376 1869 MOFFAT BOULEVARD, MANTECA CA 95336 P: 209.824.5500; F: 209.824.5575 WWW.1STLIGHTENERGY.COM 1 A B C D 2 3 4 5 PU B L I S H E D : 20 2 3 - M a r - 1 3 1 : 0 2 P M 1 2 3 4 5 1s t L i g h t E n e r g y AS SHOWN SHEET: SCALE: SIZE: DESIGNED BY: DATE: CHECKED BY: PROJECT #: RE V # DA T E : SH E E T T I T L E : PR O J E C T N A M E : DE S C R I P T I O N RE V I S I O N S DE S I G N E R PU B L I C S T O R A G E # 2 7 8 0 2 12 3 4 0 L O W E R A Z U S A R D AR C A D I A , C A , 9 1 0 0 6 AP N 85 4 5 - 0 2 4 - 0 0 3 1001908 S.R. F.L. 02/09/2023 D 1 IN I T I A L P L A N S E T 02 / 0 9 / 2 0 2 3 S. R . S1.2 AT T A C H M E N T D E T A I L S Date Certified and Exp. Date : 3/31/2024 Signed:03/13/2023 Professional Certification. I hereby certify that these documents were prepared or approved by me, and that I am a duly licensed professional engineer under the laws of the State of California. License No. ____________, Expiration Date: _______________88083 03/31/2024 G Plan Submittals Public Storage #27802 PV Generation System 12340 Lower Azusa Rd, Arcadia, CA 91006 APN: 8545-024-003 19.200 kW DC Page Description 3 Insurance Certificates 5 Structural Calculations 49 Electrical Calculations 67 Component Data Sheets PROVIDED BY: 1st Light Energy 1 This page intentionally left blank. 2 ANY PROPRIETOR/PARTNER/EXECUTIVEOFFICER/MEMBER EXCLUDED? INSR ADDL SUBRLTRINSD WVD PRODUCER CONTACTNAME: FAXPHONE(A/C, No):(A/C, No, Ext): E-MAILADDRESS: INSURER A : INSURED INSURER B : INSURER C : INSURER D : INSURER E : INSURER F : POLICY NUMBER POLICY EFF POLICY EXPTYPE OF INSURANCE LIMITS(MM/DD/YYYY) (MM/DD/YYYY) AUTOMOBILE LIABILITY UMBRELLA LIAB EXCESS LIAB WORKERS COMPENSATION AND EMPLOYERS' LIABILITY DESCRIPTION OF OPERATIONS / LOCATIONS / VEHICLES (ACORD 101, Additional Remarks Schedule, may be attached if more space is required) AUTHORIZED REPRESENTATIVE EACH OCCURRENCE $DAMAGE TO RENTEDCLAIMS-MADE OCCUR $PREMISES (Ea occurrence) MED EXP (Any one person) $ PERSONAL & ADV INJURY $ GEN'L AGGREGATE LIMIT APPLIES PER:GENERAL AGGREGATE $ PRO-POLICY LOC PRODUCTS - COMP/OP AGGJECT OTHER:$COMBINED SINGLE LIMIT $(Ea accident) ANY AUTO BODILY INJURY (Per person) $OWNED SCHEDULED BODILY INJURY (Per accident) $AUTOS ONLY AUTOS HIRED NON-OWNED PROPERTY DAMAGE $AUTOS ONLY AUTOS ONLY (Per accident) $ OCCUR EACH OCCURRENCE CLAIMS-MADE AGGREGATE $ DED RETENTION $ PER OTH-STATUTE ER E.L. EACH ACCIDENT E.L. DISEASE - EA EMPLOYEE $If yes, describe under E.L. DISEASE - POLICY LIMITDESCRIPTION OF OPERATIONS below INSURER(S) AFFORDING COVERAGE NAIC # COMMERCIAL GENERAL LIABILITY Y / N N / A (Mandatory in NH) SHOULD ANY OF THE ABOVE DESCRIBED POLICIES BE CANCELLED BEFORE THE EXPIRATION DATE THEREOF, NOTICE WILL BE DELIVERED IN ACCORDANCE WITH THE POLICY PROVISIONS. THIS IS TO CERTIFY THAT THE POLICIES OF INSURANCE LISTED BELOW HAVE BEEN ISSUED TO THE INSURED NAMED ABOVE FOR THE POLICY PERIODINDICATED. NOTWITHSTANDING ANY REQUIREMENT, TERM OR CONDITION OF ANY CONTRACT OR OTHER DOCUMENT WITH RESPECT TO WHICH THISCERTIFICATE MAY BE ISSUED OR MAY PERTAIN, THE INSURANCE AFFORDED BY THE POLICIES DESCRIBED HEREIN IS SUBJECT TO ALL THE TERMS,EXCLUSIONS AND CONDITIONS OF SUCH POLICIES. LIMITS SHOWN MAY HAVE BEEN REDUCED BY PAID CLAIMS. THIS CERTIFICATE IS ISSUED AS A MATTER OF INFORMATION ONLY AND CONFERS NO RIGHTS UPON THE CERTIFICATE HOLDER. THIS CERTIFICATE DOES NOT AFFIRMATIVELY OR NEGATIVELY AMEND, EXTEND OR ALTER THE COVERAGE AFFORDED BY THE POLICIES BELOW. THIS CERTIFICATE OF INSURANCE DOES NOT CONSTITUTE A CONTRACT BETWEEN THE ISSUING INSURER(S), AUTHORIZED REPRESENTATIVE OR PRODUCER, AND THE CERTIFICATE HOLDER. IMPORTANT: If the certificate holder is an ADDITIONAL INSURED, the policy(ies) must have ADDITIONAL INSURED provisions or be endorsed. If SUBROGATION IS WAIVED, subject to the terms and conditions of the policy, certain policies may require an endorsement. A statement on this certificate does not confer rights to the certificate holder in lieu of such endorsement(s). COVERAGES CERTIFICATE NUMBER:REVISION NUMBER: CERTIFICATE HOLDER CANCELLATION © 1988-2015 ACORD CORPORATION. All rights reserved.ACORD 25 (2016/03) CERTIFICATE OF LIABILITY INSURANCE DATE (MM/DD/YYYY) $ $ $ $ $ The ACORD name and logo are registered marks of ACORD 6/1/2022 (209) 576-2808 (209) 530-3888 24856 1st Light Energy, Inc. 1869 Moffat Blvd. Manteca, CA 95336 19445 20478 23809 A 1,000,000 FEI-ECC-25639-03 12/1/2021 12/1/2022 1,000,000 5,000 1,000,000 2,000,000 2,000,000 FIRE DAMAGE LIM 300,000 2,000,000B CA 2960143 6/1/2022 6/1/2023 Comp Ded. $250 Coll Ded. $500 3,000,000A FEI-EXS-25640-03 12/1/2021 12/1/2022 3,000,000 C 022298272 6/1/2022 6/1/2023 2,000,000 Y 2,000,000 2,000,000 D Workers Compensation 022298271 6/1/2022 E.L. Each Accident 2,000,000 Evidence of Insurance. EVIDENCE OF INSURANCE 1STLIGH-01 CVIEIRA Micheletti Alternative Insurance Solutions 300 Banner Ct. Suite 1 Modesto, CA 95356 Cristina Vieira, CISR Elite, AFIS cristina@michelettiins.com Admiral Insurance Company National Union Fire Insurance Company National Fire Insurance Company of Hartford Granite State Insurance Company X 6/1/2023 X X XX X X X X X X X 3 This page intentionally left blank. 4 Date:03/13/2023 Project Name:Public Storage #27802 Project Address:12340 Lower Azusa Rd,Arcadia, CA, 91006 Contractor:1st Light Energy Contractor Address:1869 Moffat Boulevard, Manteca CA 95336 Attn : To Whom it May Concern if you have any questions or concerns please contact us, Engineerinc.io 303 N Glenoaks Blvd Suite 200 Burbank,CA 91502 (747) 333 - 5991 new@engineerinc.io I certify that the capacity of the structural framing that directly supports the additional gravity loading due to the solar panel supports and modules had been reviewed and determined to meet or exceed the requirements in accordance with the Design Criteria Design Criteria 1.Applicable Codes: 2022 California Building Code 2. Ground Snow Load: 0 psf 3. PV Dead Load: 3 psf 4. Wind Speed: 110 mph 5. Risk Category: II 6. Exposure Category :C Date Certified and Exp. Date : 3/31/2024 Signed:03/13/2023 5 Public Storage #27802 12340 Lower Azusa Rd,Arcadia, CA, 91006 NDS 2018, AISC 360-16, ACI 318-14 TMS 402-16(former ACI 530) STRUCTURAL CALCULATIONS PER ASCE 7-16,2022 CBC 6 Project ID: Sheet: Date: CONTENTS 1 DESIGN DATA…......................................................................................2 2 STRUCTURAL LAYOUTS….................................................................3 3 DESIGN CALCULATIONS….................................................................4 3.1. WIND CALCULATIONS.........................................................................4 3.2 WOOD PURLIN DESIGN…..................................................................5 3.3 WOOD BEAM DESIGN…..................................................................6 3.4 PV UPLIFT CALCULATIONS…..................................................................7 Address:12340 Lower Azusa Rd,Arcadia, CA, 91006 1 Project Name:Public Storage #27802 1001908 Structural Calculation Report 3/14/2023 Page 1 Engineerinc.io, 303 N Glenoaks Blvd Suite 200 Burbank, CA 91502 (747) 333-4991 new@engineerinc.io 7 Project ID: Sheet: Date: 1. DESIGN DATA Design Criteria Live Load (psf)=20 Basic Wind Speed (mph)=110 Exposure Cat =C Ground Snow (psf)=0 PV Panel Weight (MIN – 3 PSF)=3 Roof Loading Load(psf) Roof Dead Load =10 Total Dead Load =13 Live Load (ASCE 07-16)=20 Figure 1.1: Site Location Project Name:Public Storage #27802 1001908 Address:12340 Lower Azusa Rd,Arcadia, CA, 91006 2 Structural Calculation Report 3/14/2023 This report represents the structural assessment of the exiting building with the proposed new loading arrangement by installing PV panels on roof. These calculations are prepared with the collected /provided data by the client. All the existing conditions and dimensions should be verified at site prior to commencing the work. Code: 2022 California Building Code Page 2 Engineerinc.io, 303 N Glenoaks Blvd Suite 200 Burbank, CA 91502 (747) 333-4991 new@engineerinc.io 8 Project ID: Sheet: Date: 2. STRUCTURAL LAYOUTS Project Name:Public Storage #27802 1001908 Address:12340 Lower Azusa Rd,Arcadia, CA, 91006 3 Structural Calculation Report 3/14/2023 Page 3 Figure 2.1: Structural Arrangement and Mounting Plan Figure 2.2: Images of the Structure Engineerinc.io, 303 N Glenoaks Blvd Suite 200 Burbank, CA 91502 (747) 333-4991 new@engineerinc.io 9 Project ID: Sheet: Date: 3. DESIGN CALCULATIONS 3.1. WIND CALCULATIONS V : Basic Wind Speed per Sect 26.5-1 or 2 110 mph Roof Slope Angle 3 degrees Occupancy per Table 1.5-1 II Exposure Category per 26.Exposure C ,Enclosed Buildings MRH : Mean Roof Height 15 ft Length of Building 263.83 ft Width of Building 69.58 ft User specified minimum design pressure 16 psf Velocity pressure exponent coef(Table 26.6-1) Kd 0.85 Topographic Factor Kzt per 26.8 ( not Significant) 1 Guest Effect Factor Gr 0.85 Velocity pressure equation; q= 0.00256 x Kzx Kzt x Kd x V2 Z Kt (Table 26.10-1)qz (psf) 15 0.57 15.0 20 0.62 16.3 25 0.66 17.4 30 0.7 18.4 40 0.76 20.0 50 0.81 21.3 Ext Pressure Coefficient Cpe (max + ve)0.8 Ext Pressure Coefficient Cpe (min -ve)-0.9 Net Pressure P ( uplift)-13.5 psf Net Pressure P (Downward)12.0 psf Design Pressure on Roof 16.0 psf Project Name:Public Storage #27802 1001908 3/14/2023 All Buildings and other structures except those listed as Category I, III, and IV Address:12340 Lower Azusa Rd,Arcadia, CA, 91006 4 Structural Calculation Report Page 4 Engineerinc.io, 303 N Glenoaks Blvd Suite 200 Burbank, CA 91502 (747) 333-4991 new@engineerinc.io ASCE 7-16 Wind Forces Chpt 28,Pt2 & Chot 30, Pt2 Analytical Values Design Velocity Pressure 10 Project ID: Sheet: Date: 3. DESIGN CALCULATIONS 3.2. WOOD PURLIN DESIGN ASCE 7-16, ASD Douglas Fir-Larch, Grade: #2 Fb+=900 psi Fb-=900 psi Fc-Prll =1350 psi Fc-Perp =625 psi Fv =180 psi Ft =575 psi E: Modulus of Elasticity Ebend-xx =1600 ksi Eminbend-xx =575 ksi Density =31.2 ksi 2x6 @ 5ft .O.C Span 6 ft Beam self Weight calculated and added to loads Uniform Load: D=0.013, Lr=0.02 W=0.016 ksf, Tributary Width=5 ft Beam Size 2x6 Design OK Maximum Bending Stress Ratio:0.84 OK Section Used for this Span fb: Actual =1428.10 psi FB:Allowable =1698.75 psi Maximum Shear Stress Ratio:0.32 OK Section Used for this Span fv: Actual =72.7 psi Fv:Allowable =225 psi Maximum Span of the roof rafter was taken as 6 ft for the existing loading condition. Loadings acting on the roof rafter were mentioned in design loadings in this report Page 5 Project Name:Public Storage #27802 1001908 Address:12340 Lower Azusa Rd,Arcadia, CA, 91006 5 Structural Calculation Report 3/14/2023 Engineerinc.io, 303 N Glenoaks Blvd Suite 200 Burbank, CA 91502 (747) 333-4991 new@engineerinc.io Wood Beam Applied Loads Design Summary 11 Project ID: Sheet: Date: 3. DESIGN CALCULATIONS 3.3. WOOD BEAM DESIGN ASCE 7-16, ASD Douglas Fir-Larch, Grade: #2 Fb+=900 psi Fb-=900 psi Fc-Prll =1350 psi Fc-Perp =625 psi Fv =180 psi Ft =575 psi E: Modulus of Elasticity Ebend-xx =1600 ksi Eminbend-xx =575 ksi Density =31.2 ksi 2x6 @ 15ft .O.C Span 3.5 ft Beam self Weight calculated and added to loads Uniform Load: D=0.013, Lr=0.02 W=0.016 ksf, Tributary Width=15 ft Beam Size 2x6 Design OK Maximum Bending Stress Ratio:0.86 OK Section Used for this Span fb: Actual =1457.85 psi FB:Allowable =1698.75 psi Maximum Shear Stress Ratio:0.57 OK Section Used for this Span fv: Actual =127.3 psi Fv:Allowable =225 psi Maximum Span of the roof rafter was taken as 3.5 ft for the existing loading condition. Loadings acting on the roof rafter were mentioned in design loadings in this report Project Name:Public Storage #27802 1001908 Address:12340 Lower Azusa Rd,Arcadia, CA, 91006 Structural Calculation Report 3/14/2023 Engineerinc.io, 303 N Glenoaks Blvd Suite 200 Burbank, CA 91502 (747) 333-4991 new@engineerinc.io Wood Beam Applied Loads Design Summary 6 Page 6 12 Project ID: Sheet: Date: 3. DESIGN CALCULATIONS 3.4. PV UPLIFT CALCULATIONS R324.4.1.2 Wind Loading Rooftop-mounted PV panels and their supports shall be designed and installed to resist the component and cladding loads specified in Table R301.2.1(1) Height and Exposure Adjustment =1.21 As per Table R301.2.1(1) Component and Cladding Loads (ASD) (psf) Zone Positive Negative Positive Negative 1 5.3 -20.8 6.413 -25.168 2 5.3 -27.4 6.413 -33.154 3 5.3 -37.4 6.413 -45.254 Maximum Uplift Force =45.254 psf Maximum Downward Force =6.413 psf PV Panel Width =5.7 ft Attachment Spacing =4 ft Wind Uplift Pressure =45.25 psf Loading Combination =0.6D+0.6W Wind Uplift Force =309.54 lbs Hence, Uplift Capacity of CK -FTS -376 attachment is sufficient for the PV Panels Before Adj After Adj Project Name:Public Storage #27802 1001908 Address:12340 Lower Azusa Rd,Arcadia, CA, 91006 Structural Calculation Report 3/14/2023 Engineerinc.io, 303 N Glenoaks Blvd Suite 200 Burbank, CA 91502 (747) 333-4991 new@engineerinc.io Applied Loads Capacity Assessment 7 Page 7 13 CHIKO USA LLC TEST REPORT SCOPE OF WORK REPORT OF VARIOUS SOLAR MOUNTING CLAMPS TESTED IN ACCORDANCE WITH THE CLIENT’S TEST SPECIFICATIONS REPORT NUMBER 105096926COQ-001 TEST DATE(S) 07/27/22 – 08/10/22 ISSUE DATE 08/16/22 PAGES 35 DOCUMENT CONTROL NUMBER GFT-OP-10c (09/29/20) © 2020 INTERTEK 14 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to permit copying or distribution of this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample(s) tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification program. Version: 29 September 2020 Page 2 of 35 GFT-OP-10c REPORT ISSUED TO CHIKO USA LLC 13835 N Tatum Blvd, Suite 9 Phoenix, AZ, 85032 USA SECTION 1 SCOPE Intertek Building & Construction (B&C) was contracted by Chiko USA LLC, 13835 N Tatum Blvd, Suite 9, Phoenix, AZ, 85032, USA, to perform tensile uplift and lateral shear testing in accordance with the client’s test specifications on various Solar Mounting Clamp products. Results obtained are tested values and were secured by using the client’s test method. Testing was conducted at the Intertek test facility in Coquitlam, BC, Canada. This report does not constitute certification of this product nor an opinion or endorsement by this laboratory. For INTERTEK B&C: COMPLETED BY: Chris Chang REVIEWED BY: Baldeep Sandhu TITLE: Sr. Tech. – Building & Construction TITLE: Manager – Building & Construction SIGNATURE: SIGNATURE: DATE: 08/16/22 DATE: 08/16/22 15 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to permit copying or distribution of this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample(s) tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification program. Version: 29 September 2020 Page 3 of 35 GFT-OP-10c SECTION 2 SUMMARY OF TEST RESULTS TABLE 1. TEST RESULTS PRODUCT METAL ROOFING THICKNESS (GA) AVERAGE ULTIMATE LOAD TENSILE UPLIFT (LBS) LATERAL SHEAR – PARALLEL TO SEAM (LBS) LATERAL SHEAR – NORMAL TO SEAM (LBS) CK-FTS-374 24 1326 429 152 CK-FTS-375 24 444 123 116 CK-FTS-376 24 421 152 77 CK-FTS-384 26 711 1131 271 Mode of failure can be found in Appendix A. 16 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 4 of 35 GFT-OP-10c SECTION 3 TEST METHOD The specimens were evaluated in accordance with the client’s test specifications. SECTION 4 MATERIAL SOURCE/INSTALLATION The client submitted the solar clamp products to the Evaluation Center on July 11, 2022 (Coquitlam ID# VAN2208120911-001). The samples were received in good condition and were suitable for testing unless noted otherwise. The samples were not independently selected for testing. SECTION 5 EQUIPMENT Calibration of test equipment was performed by Intertek B&C in accordance with ISO 17025 requirements. ASSET # DESCRIPTION MODEL CAL DUE DATE P60554 T&D Temperature and Humidity Logger TR-72Ui 09/26/22 P60553 Instron Universal Testing Machine with 100 kN Load Cell 3382 08/23 P60896 ED&D Digital Force Gauge PFI-500N 11/18/22 P60494 Stanley Tape Measure FatMax 09/30/22 SECTION 6 LIST OF OFFICIAL OBSERVERS NAME COMPANY Chris Chang Intertek B&C Frank Gadea-Lopez Intertek B&C Note: The above observer(s) witnessed part of the test program. 17 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 5 of 35 GFT-OP-10c SECTION 7 TESTING PROCEDURE CONDITIONING Unless stated otherwise, the test specimen materials were held in standard laboratory conditions for at least 24 hours at a temperature of 23 ± 2°C (73.4 ± 4°F) and relative humidity of 50 ± 5 %. TENSILE UPLIFT TESTING Tensile uplift testing was conducted on the various roofing clamps in accordance with the client’s test specifications. For each type of clamp, three (3) samples were prepared for testing. Metal roof samples with a seam were submitted by the client for testing with the standing seam clamps; sheets of corrugated metal roofing were also submitted for testing with the adjustable roof clamps. Mock-up samples were prepared by fastening the metal roofing panels through ½ in. plywood into nominal 2x10 SPF lumber using 2 in. long wood screws with 1 in. metal caps. Each clamp was fixed to the designated roofing material per the client’s installation instructions. The assembled test specimens were then secured through the #13 Hook into a universal Instron testing apparatus and loaded in tension at a rate of 0.1 in./min until failure. The maximum load and the mode of failure were recorded. Refer to Appendix B for photos of testing. LATERAL SHEAR TESTING (NORMAL AND PARALLEL TO SEAM) Lateral shear testing was conducted on the various roofing clamps in accordance with the client’s test specifications. Testing was conducted in two (2) orientations – normal to the roof seam and parallel to the roof seam. For each type of clamp, three (3) samples were prepared for testing. Metal roof samples with a seam were submitted by the client for testing with the standing seam clamps; sheets of corrugated metal roofing were also submitted for testing with the adjustable roof clamps. Mock-up samples were prepared by fastening the metal roofing panels through ½ in. plywood into nominal 2x10 SPF lumber using 2 in. long wood screws with 1 in. metal caps. Each clamp was fixed to the designated roofing material per the client’s installation instructions. The assembled test specimens were secured through the #13 Hook into a universal Instron testing apparatus and loaded in shear at a rate of 0.1 in./min until failure. The maximum load and the mode of failure were recorded. Refer to Appendix B for photos of testing. 18 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 6 of 35 GFT-OP-10c SECTION 8 TEST SPECIMEN DESCRIPTION The products were identified as Solar Mounting Clamps per the following: • Standing Seam Clamp (CK-FTS-374), designed for double-folded vertical standing seam roof profiles. The clamp installs using single SUS304 M8 x 35 mm bolt on top and is manufactured from 6005-T5 aluminum. Clamp was tested where two metal roof panels are attached; CMG Coated Metals Group 24ga Ultra-Span roofing panels were supplied for testing with the CK-FTS-374 clamp. The clamp was supplied with #13 Hook. • Standing Seam Clamp (CK-FTS-375), designed for most standing seam roof profiles. The clamp installs using single SUS304 M8 x 35 mm bolt on top and is manufactured from 6005-T5 aluminum. Clamp was tested where two metal roof panels are attached; Western States Metal Roofing 24ga Western Lock Standing Seam roofing panels were supplied for testing with the CK-FTS-375 clamp. The clamp was supplied with #13 Hook. 19 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 7 of 35 GFT-OP-10c • Standing Seam Clamp (CK-FTS-376), designed for round, square, and other standing seam roof profiles. The clamp installs using single SUS304 M8 x 40 mm bolt on top and is manufactured from 6005-T5 aluminum. Clamp was tested where two metal roof panels are attached; McElroy Metal, Inc. 24ga Mirage II roofing panels were supplied for testing with the CK-FTS-376 clamp. The clamp was supplied with #13 Hook. • Adjustable Clamp (CK-FTS-384), designed for trapezoidal metal roof profiles. The clamp installs using four (4) SUS304 6.3 x 25 mm self tapping bolts. The clamp is manufactured from 6005-T5 aluminum and is sealed with EPDM on both sides. Western States Metal Roofing 26ga Western Rib (7.2 Panel) roofing panels were supplied for testing with the CK-FTS-384 clamp. The clamp was supplied with #13 Hook. Bolt connecting #13 Hook to CK-FTS-384 clamp was not supplied by the client; Intertek was directed to use material on hand. For testing purposes, a 5/16 x 1 in. long hex nut and bolt with washer/lock washer was used. For detailed drawings of the test samples and components, refer to Appendix C. 20 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 8 of 35 GFT-OP-10c SECTION 9 TEST RESULTS See Appendix A for a full set of test data. SECTION 10 CONCLUSION The Chiko USA LLC Solar Mounting Clamp products identified and evaluated in this report were tested for tensile uplift and lateral shear per the client’s test specifications. Test results are as reported per Section 2 of this report. 21 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 9 of 35 GFT-OP-10c SECTION 11 APPENDIX A – TEST DATA (13 PAGES) 22 Test Data Package Page 1 of 13 Company Technician(s) Project No.Reviewer Models Start/End Date Product Name Sample ID Standard Page 1 2 3 4 5 6 7 8 9 10 11 12 13 Lateral Shear (Normal to Seam) - CK-FTS-376 Lateral Shear (Normal to Seam) - CK-FTS-384 Lateral Shear (Parallel to Seam) - CK-FTS-374 Lateral Shear (Parallel to Seam) - CK-FTS-375 Lateral Shear (Parallel to Seam) - CK-FTS-376 Lateral Shear (Parallel to Seam) - CK-FTS-384 Lateral Shear (Normal to Seam) - CK-FTS-374 Lateral Shear (Normal to Seam) - CK-FTS-375 Tensile Uplift - CK-FTS-384 CK-FTS-374/375/376/384 VAN2208120911-001 As per client's test specifications Test Data Package Table of Contents Sheet Table of Contents (This Sheet) Tensile Uplift - CK-FTS-374 Tensile Uplift - CK-FTS-375 Tensile Uplift - CK-FTS-376 Chiko USA LLC Chris Chang / Frank Gadea-Lopez G105096926 Baldeep Sandhu Solar Roofing Clamps July 27 - August 10, 2022 2022-07-27 Chiko G105096926 Test Data - TOC Page 1 of 13 23 Test:Tensile Uplift Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-374 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH:2:45PM / 23.3°C / 55.0% Specimen Max Load (lbs) 1 1332.8 2 1352.4 3 1293.4 Mean:1326.2 StdDev: 30.1 COV:2.3% 27-Jul-22 Chiko USA LLC Mode of Failure For all tests, the clamp slipped until reaching the lip of the standing seam; load increased until standing seam gave away and the clamp disconnected. 2022-07-27 Chiko G105096926 Test Data - Tensile Uplift 374 Page 2 of 13 24 Test:Tensile Uplift Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-375 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH: Specimen Max Load (lbs) 1 423.8 2 476.0 3 433.2 Mean:444.3 StdDev: 27.8 COV:6.3% 27-Jul-22 Chiko USA LLC Mode of Failure For all tests, the clamp slipped over the seam and disconnected from the standing seam. 2022-07-27 Chiko G105096926 Test Data - Tensile Uplift 375 Page 3 of 13 25 Test:Tensile Uplift Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-376 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH: Specimen Max Load (lbs) 1 419.3 2 456.9 3 388.1 Mean:421.5 StdDev: 34.4 COV:8.2% 27-Jul-22 Chiko USA LLC Mode of Failure For all tests, the clamp slipped out of the seam track and disconnected. 2022-07-27 Chiko G105096926 Test Data - Tensile Uplift 376 Page 4 of 13 26 Test:Tensile Uplift Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-384 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH: Specimen Max Load (lbs) 1 726.6 2 697.6 3 709.4 Mean:711.2 StdDev: 14.6 COV:2.1% Note: Bolt connecting #13 Hook to 384 clamp was not supplied by the client; Intertek was directed to use material on hand. For testing purposes, a 5/16 x 1 in. long hex nut and bolt with washer/lock washer was used. 27-Jul-22 Chiko USA LLC Mode of Failure For all tests, connection from #13 Hook to 384 clamp failed; bolt head pulled out from 384 track. 2022-07-27 Chiko G105096926 Test Data - Tensile Uplift 384 Page 5 of 13 27 Test:Lateral Shear (Parallel to Seam)Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-374 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH:9:45AM / 22.3°C / 52.0% Specimen Max Load (lbs) 1 462.2 2 460.5 3 365.2 Mean:429.3 StdDev: 55.5 COV:12.9% 4-Aug-22 Chiko USA LLC Mode of Failure For all tests, significant amount of slippage occurred. 2022-07-27 Chiko G105096926 Test Data - Shear (Parallel to Seam) 374 Page 6 of 13 28 Test:Lateral Shear (Parallel to Seam)Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-375 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH:1:05PM / 22.8°C / 47.0% Specimen Max Load (lbs) 1 125.1 2 140.2 3 105.1 Mean:123.5 StdDev: 17.6 COV:14.3% 4-Aug-22 Chiko USA LLC Mode of Failure For all tests, significant amount of slippage occurred. 2022-07-27 Chiko G105096926 Test Data - Shear (Parallel to Seam) 375 Page 7 of 13 29 Test:Lateral Shear (Parallel to Seam)Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-376 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH:2:15PM / 22.7°C / 50.0% Specimen Max Load (lbs) 1 137.0 2 169.8 3 150.3 Mean:152.3 StdDev: 16.5 COV:10.8% 4-Aug-22 Chiko USA LLC Mode of Failure For all tests, significant amount of slippage occurred. 2022-07-27 Chiko G105096926 Test Data - Shear (Parallel to Seam) 376 Page 8 of 13 30 Test:Lateral Shear (Parallel to Seam)Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-384 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH:10:50AM / 22.5°C / 51.0% Specimen Max Load (lbs) 1 1148.8 2 979.9 3 1265.4 Mean:1131.4 StdDev: 143.6 COV:12.7% Note: Bolt connecting #13 Hook to 384 clamp was not supplied by the client; Intertek was directed to use material on hand. For testing purposes, a 5/16 x 1 in. long hex nut and bolt with washer/lock washer was used. 4-Aug-22 Chiko USA LLC Mode of Failure For all tests, significant amount of slippage occurred until #13 Hook disconnected from 384 clamp. 2022-07-27 Chiko G105096926 Test Data - Shear (Parallel to Seam) 384 Page 9 of 13 31 Test:Lateral Shear (Normal to Seam)Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-374 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH:10:00PM / 22.4°C / 55.0% Specimen Max Load (lbs)Seam Orientation 1 138.3 Seam lip facing downwards 2 170.7 Seam lip facing upwards 3 146.1 Seam lip facing downwards Mean:151.7 StdDev: 16.9 COV:11.2% Seam lip facing downwards:Seam lip facing upwards: Load Load 9-Aug-22 Chiko USA LLC Mode of Failure For all tests, clamp slipped and rotated downwards; standing seam also bent downwards. Bottom of clamp was lodged in between the roof deck and the seam, but clamp did not disconnect. 2022-07-27 Chiko G105096926 Test Data - Shear (Normal to Seam) 374 Page 10 of 13 32 Test:Lateral Shear (Normal to Seam)Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-375 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH:12:35PM / 23.0°C / 55.0% Specimen Max Load (lbs)Seam Orientation 1 132.6 Seam lip facing upwards 2 112.3 Seam lip facing downwards 3 103.3 Seam lip facing downwards Mean:116.1 StdDev: 15.0 COV:12.9% Seam lip facing downwards:Seam lip facing upwards: Load Load August 9. 2022 Chiko USA LLC Mode of Failure For all tests, clamp slipped and rotated downwards until clamp disconnected from seam; clamp also deformed. 2022-07-27 Chiko G105096926 Test Data - Shear (Normal to Seam) 375 Page 11 of 13 33 Test:Lateral Shear (Normal to Seam)Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-376 Location: Coquitlam, BC Test Methods:As per client's test specifications Conditioning:Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH:8:45PM / 23.0°C / 52.0% Specimen Max Load (lbs)Seam Orientation 1 93.8 Seam lip facing upwards 2 67.3 Seam lip facing downwards 3 70.2 Seam lip facing downwards Mean:77.1 StdDev: 14.5 COV:18.9% Seam lip facing downwards:Seam lip facing upwards: Load Load August 10. 2022 Chiko USA LLC Mode of Failure For all tests, clamp slipped and rotated downwards, but clamp did not disconnect. 2022-07-27 Chiko G105096926 Test Data - Shear (Normal to Seam) 376 Page 12 of 13 34 Test:Lateral Shear (Normal to Seam)Project No: G105096926 Date:Eng/Tech:Chris Chang / Frank Gadea-Lopez Client:Reviewer: Baldeep Sandhu Product:CK-FTS-384 Location: Coquitlam, BC Test Methods: As per client's test specifications Conditioning: Minimum 48 hours at a temperature of 23 ± 2°C and relative humidity of 50 ± 5% Speed of Test:0.1 in./min 2.54 mm/min Equipment: T&D TR-72Ui Temperature and Humidity Logger (Intertek ID# P60554, cal due September 26, 2022) Instron 3382 Universal Testing Apparatus with 100kN Load Cell (Intertek ID# P60553, cal due Aug 2023); Bluehill Version 3.76.4926 ED&D Digital Force Gauge (Intertek ID# P60896, cal due November 18, 2022) Stanley Tape Measure (Intertek ID# P60494, cal due Septmber 30, 2022) Time/Temp/RH: 12:45PM / 23.2°C / 55.0% Specimen Max Load (lbs)Seam Orientation 1 194.0 Orientation #1 2 392.6 Orientation #2 3 227.2 Orientation #1 Mean:271.3 StdDev: 106.4 COV:39.2% Note: Bolt connecting #13 Hook to 384 clamp was not supplied by the client; Intertek was directed to use material on hand. For testing purposes, a 5/16 x 1 in. long hex nut and bolt with washer/lock washer was used. Orientation #1:Orientation #2: Load Load August 10. 2022 Chiko USA LLC Mode of Failure For all tests, #13 Hook pulled out from clamp channel; clamp channel broke. 2022-07-27 Chiko G105096926 Test Data - Shear (Normal to Seam) 384 Page 13 of 13 35 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 23 of 35 GFT-OP-10c APPENDIX B – PHOTOS (6 PAGES) 36 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 24 of 35 GFT-OP-10c Figure 1. – CK-FTS-374 Tensile Uplift Testing Figure 2. – CK-FTS-375 Tensile Uplift Testing 37 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 25 of 35 GFT-OP-10c Figure 3. – CK-FTS-376 Tensile Uplift Testing Figure 4. – CK-FTS-384 Tensile Uplift Testing 38 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 26 of 35 GFT-OP-10c Figure 5. – CK-FTS-374 Shear Parallel to Seam Testing Figure 6. – CK-FTS-375 Shear Parallel to Seam Testing 39 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 27 of 35 GFT-OP-10c Figure 7. – CK-FTS-376 Shear Parallel to Seam Testing Figure 8. – CK-FTS-384 Shear Parallel to Seam Testing 40 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 28 of 35 GFT-OP-10c Figure 9. – CK-FTS-374 Shear Normal to Seam Testing Figure 10. – CK-FTS-375 Shear Normal to Seam Testing 41 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 29 of 35 GFT-OP-10c Figure 11. – CK-FTS-376 Shear Normal to Seam Testing Figure 12. – CK-FTS-384 Shear Normal to Seam Testing 42 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 30 of 35 GFT-OP-10c APPENDIX C – DRAWINGS (4 PAGES) 43 44 45 46 47 1500 Brigantine Drive Coquitlam, BC, V3K7C1 Telephone: 604-520-3321 Facsimile: 604-524-9186 www.intertek.com/building TEST REPORT FOR CHIKO USA LLC Report No.: 105096926COQ-001 Date: 08/16/22 Version: 29 September 2020 Page 35 of 35 GFT-OP-10c SECTION 12 REVISION LOG REVISION # DATE PAGES REVISION 0 08/16/22 N/A Original Report Issue 48 1st Light Energy 1869 Moffat Blvd. Manteca, CA 95336 866.837.6527 866.837.6527 PS 27802 ARCADIA, CA 91006 Electrical Calculations Solar PV Generation System and Interconnection Revision.000Project Number: Prepared for: 12340 LOWER AZUSA RD Thursday, February 16, 2023 Prepared with PV Circuit Designer © 2013 John McIntosh; All Rights Reserved References to NEC Articles are copyrighted by: National Electrical Code 2017 Edition, NFPA 70 National Fire Protection Association 49 Section Description Table of Contents 1 Table 1 Site Information Commercial 2 Table 2 Inverter DC Ampacity 3 Table 3 System Voltage Drop 4 Table 4 PanelBoards 5 Table 5 DC Operating Voltage 6 Table 6 Required Circuit Ampacity 7 Table 7 Selected Conductor Ampacity 8 Table 8 Grounding Conductor Sizes 9 Table 9 Circuit Voltage Drop/Rise 10 Table 10 Conductor Area: Typical 11 Table 12 Conduit Sizes & Expansion 12 Table 16 Circuits Summary Thursday, February 16, 2023 Prepared with PV Circuit Designer © 2013 John McIntosh; All Rights Reserved References to NEC Articles are copyrighted by: National Electrical Code 2017 Edition, NFPA 70 National Fire Protection Association 50 Glossary A AC Alternating Current AL Aluminum AWG American Wire Gauge C CC Current Carrying Conductor CT-AL-LD-CV Cable Tray, aluminum, ladder, installed with cover CT-AL-LD-NC Cable Tray, aluminum, ladder, installed without cover CT-AL-VT-CV Cable Tray, aluminum, ventilated trough, installed with cover CT-AL-VT-NC Cable Tray, aluminum, ventilated trough, installed without cover CT-FG-LD-CV Cable Tray, fiberglass, ladder, installed with cover CT-FG-LD-NC Cable Tray, fiberglass, ladder, installed without cover CT-FG-VT-CV Cable Tray, fiberglass, ventilated trough, installed with cover CT-FG-VT-NC Cable Tray, fiberglass, ventilated trough, installed without cover CT-SS-LD-CV Cable Tray, stainless steel, ladder, installed with cover CT-SS-LD-NC Cable Tray, stainless steel, ladder, installed without cover CT-SS-VT-CV Cable Tray, stainless steel, ventilated trough, installed with cover CT-SS-VT-NC Cable Tray, stainless steel, ventilated trough, installed without cover CT-SS-WM-NC Cable Tray, stainless steel, wire mesh, installed without cover CT-ST-LD-CV Cable Tray, steel, ladder, installed with cover CT-ST-LD-NC Cable Tray, steel, ladder, installed without cover CT-ST-VT-CV Cable Tray, steel, ventilated trough, installed with cover CT-ST-VT-NC Cable Tray, steel, ventilated trough, installed without cover CT-ST-WM-NC Cable Tray, steel, wire mesh, installed without cover CU Copper D DC Direct Current Direct Conductors are directly buried underground E EGC Equipment Grounding Conductor EMT Electrical metallic tubing F ft.Feet G GEC Grounding Electrode Conductor I Imp Current, Maximum Power Point Thursday, February 16, 2023 Page 1 of 2 51 in.Inches Isc Current, Short Circuit K KcMil Thousands of circular mil; 1 KcMil = 1 MCM kFT Thousand linear feet L LFMC Liquidtight flexible metal conduit M Max.Maximum Min.Minimum MPPT Maximum Power Point Tracking optimizes inverter/array output MPPT Block Block of Modules and Strings with identical voltage and current values. Inverters may have 1 or more MPPT string inputs. MV090S3578 Conductor, AL, 35kV, per Table 310.60(C)(78). MV105S1570 Conductor, AL, 15kV, per Table 310.60(C)(70) P PCC Point of Common Coupling PV Photovoltaic PVC-40 Rigid polyvinyl chloride conduit, Schedule 40 PVC-80 Rigid polyvinyl chloride conduit, Schedule 80 PVWire Conductor with PVWire rated insulation R RHW2 Conductor with RHW-2 rated insulation RMC Rigid metal conduit S SIS Conductor with SIS rated insulation sq. in.Square Inches T Temp.Temperature THWN2 Conductor with THWN-2 rated insulation U USE2 Conductor with USE-2 rated insulation V Vac (VAC)Volts, Alternating Current Vdc (VDC)Volts, Direct Current Vmp Voltage, Maximum Power Voc Voltage, Short Circuit X XHHW2 Conductor with XHHW-2 rated insulation Thursday, February 16, 2023 Page 2 of 2 52 Table 1 - Site InformationSection:1 kW STC 19.200 Project Name PS 27802 12340 LOWER AZUSA RD ARCADIA, CA 91006 Weather Station Fullerton Municipal Min. °F 35.6 Max °F 93.2 Min °C 2.0 Max °C 34.0 Interconnect BackFed PV Breaker GEC Sized to D-NEC Table 250.66 kW PTC 17.894 kW CEC-AC 17.465System Size PV ModuleInverter #Inv # Interconnection Voltage 240 # Phase Conductors 3 Transformer Type Eff % 100.00% Reference: http://www.solarabcs.org/about/publications/reports/expedited-permit/map/index.html This document examines the connection of a utility interactive PV Generation System to a nnnA nnnVac X phase Y wire Point of Common Coupling (PCC). It provides proper circuit conduit and conductor sizing as well as calculations for: DC voltage, voltage drop, thermal expansion and required device ampacities. ...Add additional information regarding the usage of special equipment or site considerations that impact the design and installation of the proposed system... USE <CTL><ENTER> to add new lines to this note Table 1 GOODWE 240V 1 phs. GW7600A-MS Vsun VSUN400-108BMH 241 GOODWE 240V 1 phs. GW7600A-MS Vsun VSUN400-108BMH 242 Thursday, February 16, 2023 Section 1, Page 1 of 1Revision.000 53 Table 2 - Inverter DC Ampacity Section:2 # of Source Circuits per device if [B] = "P" PV Source Circuit Current Maximum Power A Identifier = Device # : (Inverter.MPPT Block) or(Inverter.Recombiner.Combiner) C Imp K = [ G * 1.25 * 1.25 ] per NEC 690.8 (A)(1), (B)(1) or [ F * 1.25 ] per NEC 210.19 (B)(1) Device rated maximum DC ampacity or 1.25 * Device continous duty rated DC ampacity OK: if [ H <= J ] or Err: if [ H > J ] J H D E if [B] = "P", PV Source Circuit Current Short Circuit F Isc = [ C * D ] G = [ C * E ] Note: For example [ C * D ] refers to the current Table Columns C and D. [ 5:C ] refers Table 5 Column C Column Description L "OVR" indicates that inverter may clip input current B "C" = DC to DC Converter Output Circuit "P" = Photovoltaic Output Circuit if [B] = "C" The Lesser of ( String Total Module kW / V nom ) or ( Converter Maximum Output Current) if [B] = "C", Zero, There is no defined Short Circuit Current rating for DC to DC Converter Output Circuits A C KJHGFEDB 2 12.84 13.68 25.68 27.36 42.75 85.94 OK<=1 : (1.1)P <=<= OKMaximum Inverter Input: 60.8055.00 42.7527.3625.68Inverter Total: 2 OK L 2 12.84 13.68 25.68 27.36 42.75 85.94 OK<=2 : (2.1)P <=<= OKMaximum Inverter Input: 60.8055.00 42.7527.3625.68Inverter Total: 2 OK L Table 2 Revision.000 Section 2, Page 1 of 1Thursday, February 16, 2023 54 Table 3 - System Voltage Drop %Section:3 DescriptionColumn Note: See Design Calculation Section Table 9 for detailed voltage drop formulas AC: Calulated Maximum Voltage dropB F DC: Weighted Voltage Drop by # Strings per inverterE D C AC: Weighted Voltage drop by # Strings per inverter Identifier = Device # : (Inverter.MPPT Block) or (Inverter.Recombiner.Combiner)A DC: Calculated Maximum Voltage drop G Sum of weighted System Voltage Drops AC: G = [ Sum of C ]; DC: G = [ Sum of E ] DC: Calculated Maximum Voltage drop for PV Module to Optmizer Circuits (if present) A CB ED F 0.92%0.64%0.46%0.32%0.00%1 : (1.1) Maximum Vdrop for Inverter: 0.92%0.64%0.00% 0.92%0.64%0.46%0.32%0.00%2 : (2.1) Maximum Vdrop for Inverter: 0.92%0.64%0.00% Maximum Vdrop for System: 0.92% 0.64% Average Vdrop for System: 0.92% 0.64% 0.00% G Thursday, February 16, 2023 Section 3, Page 1 of 1Revision.000 Table 3 55 Table 4 - PanelboardsSection:4 Device PhaseB PhaseCPhaseA Panelboard: 1PV- Breaker 240 Vac kVA Inv 1 0.00 31.6731.67407.6 Inv 2 31.67 0.0031.67407.6 Total AC Amps per phase 31.67 31.6763.33 39.5879.17 39.5880 * 1.25 A: * 1.25 * 1.25 15.2 A Table 4 Minimum AC conductor ampacity requirement per 690.8(B)(1); Use largest value Thursday, February 16, 2023 Section 4, Page 1 of 1Revision.000 56 Table 5 - DC Operating VoltageSection:5 Modules per String 12 N/A Module Voc 37.2 5.5 Temperature Correction Factor at Minimum Operating Temperature: * * ( 25 - Max Vdc 474.1 Adjust Vdc %/°C -0.270% * Min. Temp °C 2.0 = Adjust Vdc %/°C -0.320% Max. Temp °C 56.2 Max. 600.0 OK 35.6 °F 2.0 °C 133.2 56.2 ( 1 - ( ) ) ) = 5.6 String Voltage at Minimum Module Operating Temperature: Correction Factor Correction Factor 1.06 1.06 Modules per String 12 Module Vmp 31.17 5.3 Temperature Correction Factor at Maximum Operating Temperature: * * ( 25 - Min Vdc 336.7 * = Min. 80.0 OK °F °C ( 1 - ( ) ) ) = 5.4 String Voltage at Maximum Module Operating Temperature: Correction Factor Correction Factor 0.90 0.90 per NEC 690.7(A) 5.2 Maximum Module Operating Temperature:Installation Location: Roof Temperature Correction: 40.0 °F 22.2 °C Highest Expected Ambient Temperature: °F °C 93.2 34.0 Maximum Module Operating Temperature: °F °C 133.2 56.2 5.1 Maximum Conduit Operating Temperature:Installation Distance from Roof Top (in.): 4 Temperature Correction: 30.0 °F 16.7 °C Highest Expected Ambient Temperature: °F °C 93.2 34.0 Maximum Conduit Operating Temperature: °F °C 123.2 50.7 per NEC 310.15(B)(3)(c) <= >= Inverter:GOODWE 240V 1 phs. GW7600A-MS Table 5 Typical of Device #s: 1-2 MPPT Block PV Module: Vsun VSUN400-108BMH Vdc Vdc Inverter Inverter DC Optimizer: See Table 3 for Device # cross reference Array Installed on : Roof 1 (1.1) Revision.000 Section 5, Page 1 of 1Thursday, February 16, 2023 57 Table 6 - Required Circuit AmpacitySection:6 DC: # of PV Source Circuit Strings DC: PV Source Circuit Current Maximum Power Imp A Circuit Label B Circuit Description C DC: PV Source Circuit or AC: Inverter Output Circuit D M DC: = [ E * J ] Selected Fuse or Breaker Size; Circuits without Over Current Protection = [ L ] L DC: = 0 or AC: = Size of Reverse Fed OCP device if present K E DC: = [ E * G ] or AC: Inverter Output Circuit rated continous output current per NEC 690.8 (A)(2) G DC: PV Source Circuit Current Short Circuit Isc H # of parallel circuits in common conduit or device J N Required Circuit Ampacity: DC: = [ L ] or AC: if [ N = 0 ] then = [ L ]; if [ N > 0 ] then = [ [ M + N ] / 1.2 ] per NEC 705.12(D)(2) P Column Description Column Description DC: = [ K * 1.25 * 1.25 ] per NEC 690.8 (A)(1), (B)(1) or DC Optimizer: = [ H * 1.25 ] per NEC 210.19 A(1)a and B(1) or AC: = [ H * 1.25 ] per NEC 690.8 (B)(1) DC Optimizer Operating Power Imp Nominal F Inverter:GOODWE 240V 1 phs. GW7600A-MS Typical of Device #s: 1-2 MPPT Block A B C E G H J K L M N PD PV Module: Vsun VSUN400-108BMH F 1 (1.1) MODULE TO MODULE DC 20.00.020.021.413.6812.841 12.84 13.6811 INTER ARRAY JUMPER (IF NEEDED)DC 20.00.020.021.413.6812.841 12.84 13.6812 MPPT 1.1 STRING(S) TO PULL-BOX 1 DC 20.00.020.021.413.6812.841 12.84 13.6813 PULL-BOX 1 TO INVERTER 1 DC 20.00.020.021.413.6812.841 12.84 13.6824 INVERTER 1 TO PANELBOARD PV-1 AC 39.60.040.039.6131.6715 PANELBOARD PV-1 TO AC DISCONNECT 1 AC 79.20.080.079.2163.3316 AC DISCONNECT 1 TO MSWB 1 AC 79.20.080.079.2163.3316 A B C E G H J K L M N PD Auxiliary Circuits F AUXILIARY ARRAY GROUND DC 15.00.015.015.0015115.00 017 AUXILIARY ARRAY GROUND DC 15.00.015.015.0015115.00 018 Revision.000 Section 6, Page 1 of 1Thursday, February 16, 2023 Table 6See Table 3 for Device # cross reference 58 Table 7 - Conductor AmpacitySection:7 A Circuit Label Column Description # of Current Carrying Conductors in circuit # of additional Current Carrying Conductors in conduit, raceway or bundle not associated with this circuit B Conduit Type or Free-Air or Direct Burial D Current Carrying Conductor size: AWG or kcMil. Conforms to NEC 240.4(D) using [ 6:P ] F G H Ampacity of a single Current Carrying Conductor at 30°C per NEC Tables 310.15(B)(16) in conduit or (17) in Free-Air K Maximum Operating Temperature of Conductor J # of conductors in parallel per NEC 310.10(H)(1) Column Description R Temperature rating of Termination device S P Adjustment Factor for more than 3 current carrying conductors per NEC 310.15 (B)(3)(a); if [ M ] = 'Y' then = 1 no derate is required Ambient Temperature Correction Factor per NEC 310.15 (B)(2)(b) = [ L * N * P ] Total Derated Conductor Ampacity N L = [ J * K ] Q T Ampacity of Termination per NEC 310.15(B)(16) = [ J * S ] Total Termination Ampacity U Required Circuit Conductor Ampacity from [ 6:P ] V OK if [ U <= Q ] and [ U <= T ] Insulation Type E C Maximum operating voltage DC = String Voltage at Minimum Operating Temp.; AC = Maximum AC voltage M Conduit or Raceway is <= 2' feet in length (Nipple) Inverter:GOODWE 240V 1 phs. GW7600A-MS Typical of Device #s: 1-2 MPPT Block A B E F G H J K L N P Q R S T VU PV Module: Vsun VSUN400-108BMH DC M 1 (1.1) Free-Air 0 40 1.00 0.71 28.4 252 OK40112132-140 75C 25 20.01 PVWire474.1 EMT 0 40 1.00 0.76 30.4 352 OK40110123-131 75C 35 20.02 PVWire474.1 Free-Air 0 55 1.00 0.71 39.1 352 OK55110132-140 75C 35 20.03 PVWire474.1 EMT 2 40 0.80 0.76 24.3 352 OK40110123-131 75C 35 20.04 PVWire474.1 EMT 0 55 1.00 0.76 41.8 502 OK5518123-131 75C 50 39.65 THWN2264.0 EMT 0 115 1.00 0.76 87.4 1002 OK11513123-131 75C 100 79.26 THWN2264.0 EMT 0 115 1.00 0.76 87.4 1002 OK11513123-131 75C 100 79.26 THWN2264.0 A B E F G H J K L N P Q R S T VU Auxiliary Circuits DC M Free-Air 0 55 1.00 1.00 55.0 350 OK55110150-158 75C 35 15.07 THWN224.0 Y EMT 0 40 1.00 1.00 40.0 350 OK40110150-158 75C 35 15.08 THWN224.0 Y Revision.000 Section 7, Page 1 of 1Thursday, February 16, 2023 Table 7See Table 3 for Device # cross reference 59 Table 8 - Grounding ConductorsSection:8 A Circuit Label Column Description Minimum Current Carrying Conductor kcMil size with specified derates = [ E / D ] Adjustment Factor for increase size over minimum conductor size per NEC 250.122(B) B Required Equipment Grounding Conductor Ampacity DC : = [ 6:D * 6:P ] AC: = [ 6:P ] C Selected Current Carrying Conductor kcMil size D Selected Equipment Grounding Conductor kcMil SizeJ H E Equipment Grounding Conductor Insulation Type F Minimum Equipment Grounding Conductor kcMil size per NEC Table 250.122 L = [ F * G ] Required Equipment Grounding Conductor kcMil Size per NEC 250.122(B) G Current Carrying Conductor material: CU or AL Column Description # of Equipment Grounding Conductors in parallel T N Selected Equipment Grounding Conductor size: AWG or kcMil Grounding Electrode Conductor material: CU or AL Equipment Grounding Conductor material: CU or ALM K U # of Grounding Electrode Conductors in parallel R Selected Grounding Electrode Conductor size: AWG or kcMil Minimum Grounding Electrode Conductor kcMil size per NEC Table 250.66 (A), (B), (C) or Table 250.66 P S Grounding Electrode Conductor Insulation Type Q Selected Grounding Electrode Conductor KCmIL size Inverter:GOODWE 240V 1 phs. GW7600A-MS Typical of Device #s: 1-2 MPPT Block A B C D E F MGHJ TRKN U PV Module: Vsun VSUN400-108BMH PL SQ 1 (1.1) 20 6.5 6.5 1.00 26.2 26.2 26.2 6 6CUCU CU0 11 26.24Bare THWN226.24 20 6.5 10.4 1.59 6.5 10.4 26.2 6 8CUCU CU0 12 16.51THWN2 THWN216.51 20 10.4 10.4 1.00 26.2 26.2 26.2 6 6CUCU CU0 13 26.24Bare Bare26.24 40 6.5 10.4 1.59 6.5 10.4 26.2 6 8CUCU CU0 14 16.51THWN2 THWN216.51 40 16.5 16.5 1.00 10.4 10.4 10.4 10 8CUCU CU0 15 16.51THWN2 THWN216.51 79 52.6 52.6 1.00 16.5 16.5 16.5 8 8CUCU CU0 16 16.51THWN2 THWN216.51 79 52.6 52.6 1.00 16.5 16.5 16.5 8 8CUCU CU0 16 16.51THWN2 THWN216.51 A B C D E F MGHJ TRKN U Auxiliary Circuits PL SQ 15 10.4 10.4 1.00 6.5 6.5 6.5 12 6CUCU CU0 17 26.24THWN2 Bare26.24 15 10.4 10.4 1.00 6.5 6.5 6.5 12 8CUCU CU0 18 16.51THWN2 THWN216.51 Revision.000 Section 8, Page 1 of 1Thursday, February 16, 2023 Table 8See Table 3 for Device # cross reference 60 Table 9 - Circuit Voltage Drop/RiseSection:9 A Circuit Label Column Description [ 1 - [ [1 - P ] * [ 1 - P ] * [ 1 - P ] . . . [ 1 - P ] ] ] L Maximum operating current from [ 6:F] or [ 6:G ] AC: = # of PhasesCurrent Carying Conductor material: CU or AL Operating temperature range °F B DC: PV Source Circuit or AC: Inverter Output Circuit C Conductor resistance ohm/kFT @ 75°C per NEC Tables 8, 9 D J if [ D = AL ] then [ E * [ 1 + [ 0.00330 * [ G - 75 ] ] ] 1 - way circuit distance in feet # of conductors in parallel E Maximum operating temperature °C Conductor Resistance ohm/kFT temp adjusted per NEC Table 8 Note 2 F G H K Current Carrying Conductor size: AWG or kcMil M N Operating voltage DC = String Voltage at Maximum Operating Temp.; AC = Minimum AC voltage if [ D = CU ] then [ E * [ 1 + [ 0.00323 * [ G - 75 ] ] ] DC and Single Phase AC Circuits = [ J / L * H * [ K * 2 / 1000 ] / M ] 1 Three (3) Phase AC Circuits = [ J / L * H * [ K * 2 / 1000 ] / M ] * 0.866 z32 Q Where P = Voltage Drop for each circuit segment in Table 9. Total DC Voltage Drop and AC Voltage Rise are calculated separately % Voltage Drop/Rise in Circuit segmentP z Column Description Total Voltage Drop/Rise = Inverter:GOODWE 240V 1 phs. GW7600A-MS Typical of Device #s: 1-2 MPPT Block A B C D E F G H J K PML QN PV Module: Vsun VSUN400-108BMH 1 (1.1) DC 12 CU 1.9800 132-140 60 1.8841 12.84 39 1 336.7 0.56%0.92%1 DC 10 CU 1.2400 123-131 55 1.1599 12.84 20 1 336.7 0.18%0.92%2 DC 10 CU 1.2400 132-140 60 1.1799 12.84 10 1 336.7 0.09%0.92%3 DC 10 CU 1.2400 123-131 55 1.1599 12.84 10 1 336.7 0.09%0.92%4 AC 8 CU 0.7800 123-131 55 0.7296 31.67 10 1 211.0 0.22%0.64%35 AC 3 CU 0.2500 123-131 55 0.2339 63.33 20 1 211.0 0.28%0.64%36 AC 3 CU 0.2500 123-131 55 0.2339 63.33 10 1 211.0 0.14%0.64%36 Revision.000 Section 9, Page 1 of 2Thursday, February 16, 2023 Table 9See Table 3 for Device # cross reference 61 A B C D E F G H J K PML QN Auxiliary Circuits DC 10 CU 1.2400 150-158 70 1.2200 15.00 1 1 24.0 0.15%0.00%7 DC 10 CU 1.2400 150-158 70 1.2200 15.00 1 1 24.0 0.15%0.00%8 Note: Auxilliary Circuits are not included in Table 3 System DC and AC voltage drop summary calculations. Revision.000 Section 9, Page 2 of 2Thursday, February 16, 2023 Table 9See Table 3 for Device # cross reference 62 Table 10 - TYPICAL Circuits Conductor AreaSection:10 A Circuit Label Column Description P Conductor with Insulation Outer Diameter (in.) B DC: PV Source Circuit or AC: Inverter Output Circuit C Insulation Type H D # of current carrying conductors in conduit, raceway or bundle Conductor Area (sq. in.) E F G Required Circuit Conductor Ampacity from [ 6:P ] Q R S M N Column Description Current carrying conductor size: AWG or kcMil. J L T NOTE: TYPICAL circuits may have 0 or more additional current carrying conductors that are always of identical physical characteristic including: insulation type, material (CU or AL), AWG, Voltage, Type (AC or DC) and Ampacity. TYPICAL circuits are often used to carry one or more PV Source Circuits or Inverter Output Circuits in the same conduit. K Equipment Grounding Conductor(EGC) size: AWG or kcMil EGC: Conductor with Insulation Outer Diameter (in.) EGC: Insulation Type EGC: # of conductors in conduit, raceway or bundle EGC: Conductor Area (sq. in.) U Grounding Electrode Conductor (GEC) size: AWG or kcMil GEC: Conductor with Insulation Outer Diameter (in.) GEC: Insulation Type GEC: # of conductors in conduit, raceway or bundle GEC: Conductor Area (sq. in.) Total Area (sq. in.) of all Conductors: ( [G * H ] + [ M * N ] + [ S * T ] C Maximum operating voltage DC = String Voltage at Minimum Operating Temp.; AC = Maximum AC voltage DBA F G H J K QP R SMNEL T UC DC1 20.0 12 PVWire 0.237 0.044 2 Bare 0.000 0.000 06 Bare 0.254 0.051 16 0.139 DC2 20.0 10 PVWire 0.261 0.054 2 THWN2 0.000 0.000 06 THWN2 0.216 0.037 18 0.144 DC3 20.0 10 PVWire 0.261 0.054 2 Bare 0.000 0.000 06 Bare 0.184 0.027 16 0.134 DC4 20.0 10 PVWire 0.261 0.054 4 THWN2 0.000 0.000 06 THWN2 0.216 0.037 18 0.251 AC5 39.6 8 THWN2 0.216 0.037 3 THWN2 0.000 0.000 010 THWN2 0.216 0.037 18 0.146 AC6 79.2 3 THWN2 0.352 0.097 3 THWN2 0.000 0.000 08 THWN2 0.216 0.037 18 0.329 DC7 15.0 10 THWN2 0.164 0.021 0 THWN2 0.000 0.000 012 THWN2 0.184 0.027 16 0.027 DC8 15.0 10 THWN2 0.164 0.021 0 THWN2 0.000 0.000 012 THWN2 0.216 0.037 18 0.037 Revision.000 Section 10, Page 1 of 1Thursday, February 16, 2023 Table 10See Table 3 for Device # cross reference 63 A Circuit Label Column Description Selected Conduit Size OK; [ F > G ] P Available Conduit Area If [L] = 'Y' use NEC 2011 Table 4 60% Fill if [L] = 'N' use NEC 2011 Table 4 Over 2 Wires 40% B Free-Air, Conduit Type or Cable Tray Type C Selected Conduit Size Inches of conduit expansion [K] * 12 * [M] * [N] Circuit Length in feet H D % of Max Fill = [ G / F ] Conductor Area from [ 10:U ] E F G K # of conduits in parallel or Required # of string J-Boxes in parallel Conduit Expansion fitting may be required: Yes or NoQ Max length in feet between securely mounted items without expansion fitting per NEC 300.7(B); 352.44 R Inches of conductor expansion over specified operating temperature range per length in feet of [ K ] S Conduit expansion coeficient inches per inch of conduit per degree FM Conduit Installation location temperature range in degrees FN Column Description Minimum Conduit Size J Conduit is < 2' feet in lengthL Max length in feet between 4" expansion fittings T Table 12 - Conduit Size / ExpansionSection:11 MPPT Block Inverter:GOODWE 240V 1 phs. GW7600A-MS Typical of Device #s: 1-2 DC BA F G H J K QP R S PV Module: Vsun VSUN400-108BMH M NEL T 1 (1.1) Free-Air N/A1 0.000 0.139 OK 39 0.00 No 0.51 0.00E+00 104N/A N EMT ¾" EMT1 0.213 0.144 67.4%OK 20 0.15 34No 0.22 6.50E-06 95¾" EMT N 537.5 Free-Air N/A1 0.000 0.134 OK 10 0.00 No 0.13 0.00E+00 104N/A N EMT 1" EMT1 0.346 0.251 72.4%OK 10 0.07 34No 0.14 6.50E-06 951" EMT N 537.5 EMT ¾" EMT1 0.213 0.146 68.8%OK 10 0.07 34No 0.15 6.50E-06 95¾" EMT N 537.5 EMT 1¼" EMT1 0.598 0.329 54.9%OK 20 0.15 34No 0.26 6.50E-06 951" EMT N 537.5 EMT 1¼" EMT1 0.598 0.329 54.9%OK 10 0.07 34No 0.16 6.50E-06 951" EMT N 537.5 Auxiliary Circuits DC BA F G H J K QP R SMNEL T Free-Air N/A1 0.000 0.027 OK 1 0.00 No 0.07 0.00E+00 122N/A Y EMT ½" EMT1 0.182 0.037 20.1%OK 1 0.01 26No 0.08 6.50E-06 122½" EMT Y 419.0 Revision.000 Section 11, Page 1 of 1Thursday, February 16, 2023 Table 12See Table 3 for Device # cross reference 64 Table 16 - Circuit SummarySection:12 Conduit / Conductor SpecificationsCircuit 1 Free-Air w/ (2) 12 AWG CU PVWire, (1) 6 AWG CU THWN2 GEC 2 (1) ¾" EMT w/ (2) 10 AWG CU PVWire, (1) 8 AWG CU THWN2 GEC 3 Free-Air w/ (2) 10 AWG CU PVWire, (1) 6 AWG CU Bare GEC 4 (1) 1" EMT w/ (4) 10 AWG CU PVWire, (1) 8 AWG CU THWN2 GEC 5 (1) ¾" EMT w/ (3) 8 AWG CU THWN2, (1) 8 AWG CU THWN2 GEC 6 (1) 1¼" EMT w/ (3) 3 AWG CU THWN2, (1) 8 AWG CU THWN2 GEC 7 Free-Air w/ (1) 6 AWG CU Bare GEC; IN NIPPLE 8 (1) ½" EMT w/ (1) 8 AWG CU THWN2 GEC; IN NIPPLE Thursday, February 16, 2023 Revision.000 Table 16 Section 12, Page 1 of 1 65 This page intentionally left blank. 66 VSUN405-108BMH VSUN400-108BMH VSUN395-108BMH VSUN390-108BMH 12years Module efficiency Highest power output Material & Workmanship warranty 30years Linear power output warranty VSUN 98% www.vsun-solar.com Engineered in Japan VSUN, a BNEF Tier-1 PV module manufacturer invested by Fuji Solar, has been committed to providing greener, cleaner and more intelligent renewable energy solutions. VSUN is dedicated to bringing reliable, customized and high-efficient products into various markets and customers worldwide. VSUN320-60M 405W 20.74% VSUN405-108BMH Certified for salt/ammonia corrosion resistance Load certificates: wind to 2400Pa and snow to 5400Pa MBB technology with Circular Ribbon Higher output power Half-cell Technology Positive tolerance offer Micro Gap Up to 30% extra power generation yield from the back sidePERC Lower LCOE 67 Excellent performance under weak light condition. 0 10 20 30 400 65 130 195 260 325 390 455 0 10 20 30 0 2 4 6 8 12 0 65 130 195 260 325 390 450 00 AM1.5,1000W/M2 Voltage/V Voltage/V Voltage/V 25℃ 10℃, Pmpp=424W 25℃, Pmpp=405W 40℃, Pmpp=386W55℃, Pmpp=366W70℃, Pmpp=347W 1000W/M2 800W/M2 600W/M2 400W/M2 200W/M2 最も信頼出来る再エネパートナー 2 4 6 8 10 40 10 20 30 40 10 12 14 14 Electrical Characteristics at Standard Test Conditions(STC) Module Type Maximum Power - Pmax (W) Open Circuit Voltage - Voc (V) Short Circuit Current - Isc (A) Maximum Power Voltage - Vmpp (V) Maximum Power Current - Impp (A) Module Efficiency Pmax (W) 420 440 479 499 Temperature Characteristics Maximum Ratings NOCT Maximum System Voltage [V] Voltage Temperature Coefficient Series Fuse Rating [A] Current Temperature Coefficient Bifaciality Power Temperature Coefficient Material Characteristics Dimensions Weight Frame Front Glass Cell Encapsulation Back Sheet Cells Junction Box Cable&Connector 1722×1134×30mm (L×W×H 21.4kg Black anodized aluminum profile White toughened safety glass, 3.2 mm EVA (Ethylene-Vinyl-Acetate) or POE Transparent black-mesh backsheet 12×9 pieces monocrystalline solar cells series strings IP68, 3 diodes Potrait: 500 mm (cable length can be customized , 1×4 mm2, compatible with MC4 Packaging System Design Dimensions(L×W×H)1760×1125×1253mm Temperature Range Container 20'Withstanding Hail Container 40' Container 40'HC 216 468 828 Maximum Surface Load Application class 45°C(±2°C) 30.82 12.66 19.97% +0.048%/°C -0.32%/°C -40 °C to + 85 °C Maximum diameter of 25 mm with impact speed of 23 m/s 30 70%±10% -0.27%/°C VSUN390-108BMH 13.48 5%37.1 Standard Test Conditions (STC): irradiance 1,000 W/m²; AM 1,5; module temperature 25°C. Pmax Sorting : 0~5W. Measuring Tolerance: ±3%. Remark: Electrical data do not refer to a single module and they are not part of the offer. They only serve for comparison among different module types. VSUN405-108BMH VSUN400-108BMH Electrical Characteristics with different rear side power gain(reference to 400 front) Voc (V)Isc (A)Vmpp (V)Impp (A)Pmax gain 405 37.36 14.36 VSUN395-108BMH 13.78 31.36 12.92 20.74% 400 13.68 12.84 395 31.17 31 12.75 20.48%20.23% 37.2 37.2 14.12 10% 16.42 31.12 15.41 20% 37.1 15.05 31.17 17.10 31.12 16.05 25% 5,400 Pa class A 1500 390 37.2 37.03 36.84 13.59 13.5 31.17 B-Mounting Hole B A 109 ±13 BACK VIEW 8 place 9 30 11 A-A Frame 113 ±14 Note:mm FRONT VIEW Dimensions IV-Curves 68 Rev1.4 2021-11-11 RSD-D Meets NEC 2017 & 2020 (690.12) requirements Executes rapid shutdown of system when Transmitter-PLC signal is absent Meets SunSpec requirements Dual-input channel RSD-D meets SunSpec requirements, maintaining normal function by continually receiving a heartbeat signal from the APsmart Transmitter. The RSD-D executes rapid system shutdown when the Transmitter signal is absent. Users can manually execute rapid shutdown using Transmitter breaker switch. © All Rights Reserved MODEL RSD-D-15 RSD-D-20 INPUT DATA (DC) Input operating Voltage Range 8-60V Per Channel Maximum Cont. Input Current (Imax)15A Per Channel 20A Per Channel Maximum Short Circuit CurrentčIscĎ 25A OUTPUT DATA (DC) Output operating Voltage Range 16-120V Maximum Cont. Output Current 15A 20A Maximum System Voltage 1000V/1500V Maximum Series Fuse Rating 30A MECHANICAL DATA Operating Ambient Temperature Range -40 oFto+167oF(-40°Cto+75°C) Dimensions (without cable & connectors)5.5" x 2" x 0.8"(140 mm x 50.6 mm x 20 mm) Cable Length Input 500mm/Output 2200mm Cable Cross Section Size TUV:4mm²/UL:12AWG Connector Stäubli MC4 PV-KBT4&KST4 or Customize Enclosure Rating NEMA Type 6P/IP68 Over temperature protection Yes FEATURES & COMPLIANCE Communication Compliance PLC Safety Compliance NEC 2017 & 2020 (690.12); UL1741; CSA C22.2 No. 330-17; IEC/EN62109-1 EMC Compliance FCC Part15; ICES-003 Raising the bar in innovative DC MMLPE solar power systems >RSD-D TECHNICAL DATA 69 Rev1.4 2021-11-11 ORDERING INFORMATION 426101 1500VUL/1000VTUV,15A,2.2mcable,StäubliMC4PV-KBT4&KST4 446101 1500VUL/1000VTUV,20A,2.2mcable,StäubliMC4PV-KBT4&KST4 4261xx*15A, 2.2m cable, Customize connector 4461xx*20A, 2.2m cable, Customize connector *please see the RSD Series Ordering Information æ RSD-D ç Transmitter-PLC è Inverter* *Only (+) or (-) through core *If the inverter includes an integrated SunSpec-certified Rapid Shutdown Transmitter, remove the external transmitter-PLC in the wiring diagram. 600 Ericksen Ave NE, Suite 200 Seattle, WA 98110 | +1-737-218-8486 | +1-866-374-8538 | support@APsmartGlobal.com | APsmartGlobal.com >RSD-D WIRING DIAGRAM >WORKING SCHEMATIC DIAGRAM 70 A-MS Series (North America only) 5-9.6kW I Split-phase I Up to 4 MPPTs The A-MS is an inverter of the highest quality and we take great pride in it. This product was conceived to be a solid element of your residential array for the long term. Put your faith and confidence in its quality, its extended warranty of 10 years and GoodWe will be on your side for any issue along the way. Compatible with Bifacial Panels 95V Start-up Voltage Integrated AFCI & Rapid Shutdown 150% DC Input Oversizing 71 A-MS Series www.goodwe.com *1: Inverter will not work when PV input voltage ≥585V. Technical Data GW5000A-MS GW6000A-MS GW7000A-MS GW7600A-MS GW8600A-MS GW9600A-MS Input Max. Input Voltage (V)*1 600 600 600 600 600 600 MPPT Operating Voltage Range (V)80 ~ 550 80 ~ 550 80 ~ 550 80 ~ 550 80 ~ 550 80 ~ 550 Start-up Voltage (V)150 150 150 150 150 150 Nominal Input Voltage (V)380 380 380 380 380 380 Max. Input Current per MPPT (A)12.5 / 12.5 12.5 / 12.5 12.5 / 12.5 / 12.5 / 12.5 Max. Short Circuit Current per MPPT (A)15.2 / 15.2 15.2 / 15.2 15.2 / 15.2 / 15.2 / 15.2 Number of MPPTs 2 2 4 4 4 4 Number of Strings per MPPT 1 / 1 1 / 1 1 / 1 / 1 / 1 1 / 1 / 1 / 1 1 / 1 / 1 / 1 1 / 1 / 1 / 1 Output Nominal AC Grid Frequency (Hz)60 60 60 60 60 60 Nominal Output Apparent Power (VA)5000 / 5000 6000 / 6000 7000 / 7000 7600 / 7600 8600 / 8600 9600 / 9600 Power Factor ~1 (Adjustable from 0.8 leading to 0.8 lagging) Max. Total Harmonic Distortion <3%<3%<3%<3%<3%<3% Efficiency Max. Efficiency 97.6%97.6%97.6%97.6%97.6%97.6% Protection PV Insulation Resistance Detection Integrated Integrated Integrated Integrated Integrated Integrated Residual Current Monitoring Integrated Integrated Integrated Integrated Integrated Integrated DC Reverse Polarity Protection Integrated Integrated Integrated Integrated Integrated Integrated Anti-islanding Protection Integrated Integrated Integrated Integrated Integrated Integrated AC Overcurrent Protection Integrated Integrated Integrated Integrated Integrated Integrated AC Overvoltage Protection Integrated Integrated Integrated Integrated Integrated Integrated General Data Operating Temperature Range (°C)-35 ~ +60 Relative Humidity 0 ~ 95%0 ~ 95%0 ~ 95%0 ~ 95%0 ~ 95%0 ~ 95% Max. Operating Altitude (m)4000 Cooling Method Natural Convection Natural Convection Intelligent Fan Intelligent Fan Intelligent Fan Intelligent Fan Display LED, APP LED, APP LED, APP LED, APP LED, APP LED, APP Communication Wi-Fi or LAN (Optional) Communication Protocols SunSpec Compliant Weight (kg)28.5 28.5 32.0 32.0 32.0 32.0 Dimension W × H × D (mm)415 × 791 × 175 415 × 791 × 175 415 × 791 × 175 415 × 791 × 175 415 × 791 × 175 415 × 791 × 175 Noise Emission (dB)<30 <30 <45 <45 <45 <45 Self-consumption at Night <20 <20 <20 <20 <20 <20 Ingress Protection Rating NEMA Type 4X NEMA Type 4X NEMA Type 4X NEMA Type 4X NEMA Type 4X NEMA Type 4X Go o d W e - S i n g l e p a g e - 2 0 2 2 1 1 1 8 - E N - V 2 . 1 . I n f o r m a t i o n m a y b e s u b j e c t t o c h a n g e w i t h o u t n o t i c e d u r i n g p r o d u c t i m p r o v i n g . 72 Product data sheet Characteristics NF430L2C Panelboard interior, NF, main lugs, 250A, Cu bus, 30 pole spaces, 3 phase, 4 wire, 600Y/347 VAC max Product availability : Stock - Normally stocked in distribution facility Price* : 2,624.00 USD Main Panelboard Type Main lugs Branch Circuit Breaker Type EDB/EDG/EDJ Busbar Material Copper Complementary Number of spaces 30 Enclosure Nominal Height 38 in (965.20 mm)50 in (1270.00 mm) Enclosure Nominal Width 20 in (508.00 mm) Enclosure Nominal Width 5.75 in (146.05 mm) NEMA 16.5 in (165.10 mm) NEMA 3R/5/12 Line Rated Current 250 A [Iu] rated interrupted current 65 kA Wiring configuration 4-wire Number of Phases 3 phase Voltage Rating 600Y/347 V AC Connections - terminals Lug line AWG 6...350 kcmil aluminiumLug neutral AWG 6...350 kcmil aluminium Net Weight 31.00 lb(US) (14.06 kg) Tightening torque 40.01…50.01 lbf.in (4.52…5.65 N.m) 0.02…0.10 in² (13.30…67.43 mm²) AWG 6...AWG 2/0)100.01 lbf.in (11.3 N.m) 0.02…0.10 in² (13.30…67.43 mm²) AWG 6...AWG 2/0)274.99 lbf.in (31.07 N.m) 0.02…0.27 in² (13.30…177.3 mm²) AWG 6...350 kcmil)274.99 lbf.in (31.07 N.m) 0.02…0.20 in² (13.30…126.7 mm²) AWG 6...250 kcmil)274.99 lbf.in (31.07 N.m) 0.17…0.24 in² (107.2…152 mm²) AWG 4...300 kcmil) Width 10.44 in (265.18 mm) Height 33 in (838.20 mm) Di s c l a i m e r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s * Price is “List Price” and may be subject to a trade discount – check with your local distributor or retailer for actual price. Dec 30, 2020 1 73 Environment Standards CSA C22.2UL 67 Ordering and shipping details Category 08350 - NF MLO INTERIOR RTA Discount Schedule PE1A GTIN 00785901871484 Nbr. of units in pkg.1 Package weight(Lbs)20.6 lb(US) (9.34 kg) Returnability Yes Country of origin MX Packing Units Unit Type of Package 1 PCE Package 1 Height 6.30 in (16.002 cm) Package 1 width 14.00 in (35.56 cm) Package 1 Length 38.20 in (97.028 cm) Package 2 Weight 309.00 lb(US) (140.16 kg) Offer Sustainability Sustainable offer status Green Premium product California proposition 65 WARNING: This product can expose you to chemicals including: Nickel compounds, which isknown to the State of California to cause cancer, and Bisphenol A (BPA), which is known to theState of California to cause birth defects or other reproductive harm. For more information go towww.P65Warnings.ca.gov REACh Regulation REACh Declaration REACh free of SVHC Yes EU RoHS Directive CompliantEU RoHS Declaration Toxic heavy metal free Yes Mercury free Yes RoHS exemption information Yes China RoHS Regulation China RoHS declarationPro-active China RoHS declaration (out of China RoHS legal scope) Environmental Disclosure Product Environmental Profile Contractual warranty Warranty 18 months 2 74 Product data sheet Dimensions Drawings NF430L2C Approximate Dimensions 3 75 9/9/22, 1:12 PM Vision LTE Cat M1 Modem Meter - Vision Metering https://www.visionmetering.com/product-item/vision-evolution-lte/1/3 Vision LTE Cat M1 Modem Meter Featuring LTE Cat M1 Modem Vision Metering is proud to introduce a low cost solution for using the public wireless systems to meter residential, commercial and industrial customers. The LTE Cat M1 modem is data only making it signi¦cantly less expensive than 4G LTE modems. It is the perfect choice for Machine to Machine (M2M) communications. Cat M1 modems cost about 50% less to produce versus the 4G LTE modem, thus reducing the cost of a typical meter equipped with a modem. Data rates are also decreasing and are less for Cat M1 versus 4G LTE since it does not stream video or audio. Cat M1 is currently available on both Verizon and AT&T nationwide. It was developed to achieve longer transmission distances and reduce the overall costs. Since it is strictly data, one antenna is used to transmit and receive. This makes the data rate slower than a typical 3G or 4G The Cat M1 Modem Meter uses the XT-UL meter platform with UL listings coming soon for 2S, 12S & 16S meters. This is the same meter platform currently being used on the 3G and 4G modem meters.. Á Contact us today for an online demo with our Vision LTE meter Contact Sales at (803) 628-0035 to Purchase Specs ANSI C12.18, C12.19, C12.20, & C37.90.1 Compliant Magnetically Shielded Current Transformers for Current Measurement (Optional) 120 - 480 VAC operation LCD Display is soldered to the board Demand, KW, KVAR & KVA Reactive Metering Specs Display Options Communications Privacy - Terms HOME PRODUCTS NEWS DIVISIONS CONTACT US MANUALS & DOWNLOADS 76 9/9/22, 1:12 PM Vision LTE Cat M1 Modem Meter - Vision Metering https://www.visionmetering.com/product-item/vision-evolution-lte/2/3 Four Quadrant Metering 4 0 0 E v e n t s i n t h e Event Log Delivered, Received and Net Metering Alternate Mode with programmable display values Accuracy Class +/- 0.2% Designed for 20 Year Life Battery options for Display, Ram, and Clock Continuous Instantaneous KW Uses Vision 20/20 Software for Programming (included with the purchase of meters at no charge) 50/60 Hz +/- 5% Utilizes Maxim Teridian Technology 200 Amp Disconnect Switch Option 30 Digit User De¦ned Security Key 5 to 95% Relative Humidity Functions with Itron’s MV90 System Code Numbers assignable to Display Values All plastic materials meet or exceeds UL Requirements Call (803) 628-0035 or Email Us to Order Links  Search Products  Electric Meter Services  Engineering & Standards  News  Contact Us  Manuals & Downloads  Transparency in Coverage (TiC) Link Our Products  VESTA Test Board System  New Vision Meters  Advanced Metering Infrastructure (AMI)  Refurbished Electric Meters  Sentry Products & Accessories  Search Products Factory & Main O¨ces 7 Ross Cannon Street, York, SC 29745 (803) 628-0035 info@visionmetering.com Join Our Email List First Name * Last Name Company * Email * By submitting this form, you are consenting to receive marketing emails from: Vision Metering, LLC, 7 Ross Cannon St., York, SC, 29745, http://www.visionmetering.com. You can Join List RRRRR ommmmm Ro mPrivacy - Terms 77 Product data sheet Characteristics EDB34090 Mini circuit breaker, E-Frame, 90A, 3 pole, 480Y/277 VAC, 25 kA max, bolt on Product availability : Stock - Normally stocked in distribution facility Price* : 911.00 USD Main Range of product 125 A Frame EDB-EGB-EJB Product or component type Miniature circuit-breaker Device short name EDB Module type E-Frame Trip unit rating 2300 A Complementary Line Rated Current 90 A Maximum operating voltage 480Y/277 V AC AWG gauge AWG 12...AWG 2/0 aluminiumAWG 14...AWG 2/0 copper Breaking capacity 18 kA 277 V AC25 kA 240 V AC18 kA 480Y/277 V AC25 kA 120 V AC25 kA 120/240 V AC Circuit breaker application HACR rated Electrical connection Lugs aluminium Holding current 1000 A Local signalling Trip indicator Mounting mode Bolt-on Number of poles 3 Number of spaces 3 Number of spaces required 3 Product destination NF panelboard Protection type Overload Di s c l a i m e r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s * Price is “List Price” and may be subject to a trade discount – check with your local distributor or retailer for actual price. Jun 30, 2021 1 78 Short-circuit Trip unit technology Thermal-magnetic Breaking capacity code D Tightening torque 34.52 lbf.in (3.9 N.m) 0.00…0.01 in² (2.5…6 mm²) (AWG 14...AWG 10)49.56 lbf.in (5.6 N.m) 0.02…0.11 in² (10…70 mm²) (AWG 8...AWG 2/0) Height 5.66 in (143.76 mm) Width 2.94 in (74.68 mm) Depth 4.05 in (102.87 mm) Net Weight 4 lb(US) (1.81 kg) Environment Product certifications CULus Ambient air temperature for operation 104 °F (40 °C) Ordering and shipping details Category 00931 - EDB CIRCUIT BREAKERS Discount Schedule DE2 GTIN 00785901875376 Nbr. of units in pkg.1 Package weight(Lbs)3.63 lb(US) (1.65 kg) Returnability Yes Country of origin MX Packing Units Package 1 Height 4.50 in (11.430 cm) Package 1 width 6.20 in (15.748 cm) Package 1 Length 9.90 in (25.146 cm) Offer Sustainability Sustainable offer status Green Premium product EU RoHS Directive CompliantEU RoHS Declaration Mercury free Yes RoHS exemption information Yes China RoHS Regulation China RoHS declarationProduct out of China RoHS scope. Substance declaration for your information. Environmental Disclosure Product Environmental Profile Contractual warranty Warranty 18 months 2 79 Product data sheet Technical Illustration EDB34090 Dimensions 3.32 84 .98 25 .94 24 0.58 15 2.51 64 5.66 144 1.96 50 0.49 12 3.09 78 3.98 101 1.24 31 2.94 75 3.53 90 1.47 37 4.39 111 3.09 78 3.19 81 3.43 87 4.05 103 0.98 25 5.80 147 in. mm All dimensions are approximate.Also see technical drawings and/or documentation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tandingSeamClamp376 The CK-FTS-376 clamp is designed especially for round, squareandotherstandingseamroofprofiles. It's extremely simple and fast to install the clamp by simply loose or tighten the single bolt on the top, only 50% or less timeneededcomparewithcurrentclamps. www.chikousa.com www.chikousa.com 101 East Baseline Road Buckeye, AZ 85326 Tel Email : : 1-800-948-5390 info@chikousa.com CK-FTS-376 CHIKOTinRoofClampNo.376 Item ProductName PRODUCTLINE #376ALClamps SUS304boltsM8*40 SUS304SpringwasherM8 SUS304FlatwasherM8 01 01 01 01 Material QTY COMPONENTLIST StandardPackaging Dimensions Weight 18PCS/BOX72PCS/CTN 50x20x38CM 18KGS : : : ORDERINGSPECIFICS MainMaterial Tightentorque Safetorque AL6005-T5 15N.m 18N.m : : : TECHNICALDATA Pre-assembled Easyinstallation Highlywaterproof Highclassanodized • • • • ADVANTAGES DURABI L I TY GUAR A N T EE WARRANTY INTERTEKLISTED 56 76 3024 83 TECHNICAL DATA Main Material Wind Velocity AL 6005-T5 Up to 200 MPH/89M/S Xi=31918.082 mm4 Yi=81501.592 mm4 WARRANTY QTY 01 COMPONENT LIST MATERIAL Aluminium Rail ORDERING SPECIFICS Standard Packaging Dimensions Weight 8 PCS/PKG 2100/2560/3200/3405/4200mm 15/18/22.8/24.5/30kg ADVANTAGES Low Cost Leader Easy Installation High Class Annodized Tilt-in Nut Universal Roof Mount System - - - - - www.chikousa.com Tel Email : : 1-800-948-5390 info@chikousa.com www.chikousa.com 101 East Baseline Road Buckeye, AZ 85326 UL LISTED DURABIL I T Y GUAR A N T EE PRODUCT LINE CK-7R-3200 CK-7R-3200B CK-7R-4200 CK-7R-4200B CHIKO 7 RAIL 3200MM CHIKO 7 RAIL 3200MM b CHIKO 7 RAIL 4200MM CHIKO 7 RAIL 4200MM b CK-FT-R7B2-2100 CK-FT-R7B2-3200 CK-FT-R7B2-4200 CHIKO Black 7 Rail 2100mm CHIKO Black 7 Rail 3200mm CHIKO Black 7 Rail 4200mm Item Product Name Silver/Clear Item Product Name Black/Annodized 7 RAIL Chiko’s 7R Aluminum Rail is designed for roof mounted solar arrays. The 7 Rail can be applied to all roof types in a variety of lengthsreducing product waste. The design and engineering of this product result in the solar markets most cost effective rail while providing superior span capability. 46.5 31.3 30.8 49.5 84 TECHNICALDATA MainMaterial AL6005-T5 MATERIAL EndClampA|B SUS304BoltM6 SUS304Nut SUS304SpringWasherM6 SUS304WasherM8 Rivet QTY 01 01 01 01 01 01 ORDERINGSPECIFICS StandardPackaging Dimensions Weight 80PCS/BOX320PCS/CTN 50x38x20CM 32KG ADVANTAGES -IntegratedGrounding -Easyinstallation -Highclassanodized -Tilt-innut - Adjustablerangeof30mm-42mmmoduleframesize ADVANTAGES UNIVERSALINTEGRATED GROUNDINGEND-CLAMP Chiko’s universal integrated grounding end clamps are designed to work with our 7R rail and secure modules at the beginning and end of a rail. They are designed to be placed on all outer perimeter edges of the array. Module framesizingcanhavearangeof30mmto42mm. www.chikousa.com PRODUCTLINE CK-750R7-30/420301-40 Item D=30-42 Tel Email : : 1-800-948-5390 info@chikousa.com www.chikousa.com 101 East Baseline Road Buckeye, AZ 85326 ProductName ChikoUniversalIntegrated GroundingEnd-Clamp30-42mm 85 TECHNICALDATA MainMaterial AL6005-T5 COMPONENTLIST ADVANTAGES -IntegratedGrounding -Easyinstallation -Highclassanodized -Tilt-innut - Adjustablerange30mmto50mm moduleframesizing MATERIAL MidClamp SUS304BoltM6 SUS304063Nut Rivet SUS304SpringWasherM6 SUS304WasherM8 Spring PlasticPlateGuide QTY 01 01 01 02 01 01 01 01 ORDERINGSPECIFICS StandardPackaging Dimensions Weight 80PCS/BOX.320PCS/CTN 50x38x20CM 24KG UNIVERSALINTEGRATED GROUNDINGMID-CLAMP Chiko’s universal integrated grounding mid clamps are designed to work with our 7R rail and clamp between modules in an array. Moduleframesizingthicknesscanhavearangeof30mmto50mm. www.chikousa.com Tel Email : : 1-800-948-5390 info@chikousa.com www.chikousa.com 101 East Baseline Road Buckeye, AZ 85326 PRODUCTLINE CK-777R7-30/45-03-40 Item ProductName ChikoUniversalIntegratedGrounding MidClamp30mm-50mm D=30-50 86 TECHNICALDATA MainMaterial Tightentorque Safetorque AL6005-T5 15N.m 20N.m Easyinstallation Highclassanodized Tilt-innut • • • ADVANTAGES ULLISTED WARRANTY DURABILI T Y GUAR A N TEE QTY 01 02 01 01 01 01 01 COMPONENTLIST MATERIAL GroundingLug SUS304InnerHexBoltsM8*20 SUS304050Nut SUS304StarWasher SUS304InnerHexBoltsM8*25 SUS304SpringWasher SUSSquareNutM8 ORDERINGSPECIFICS StandardPackaging Dimensions Weight 140PCS/BOX560PCS/CTN 50*38*20CM 29kg PRODUCTLINE CK-592R7-1-120 CHIKOGroundingLugFor#7Rail Item ProductName www.chikousa.com Tel Email : : 1-800-948-5390 info@chikousa.com 101 East Baseline Road Buckeye, AZ 85326 GroundingLug The Chiko Grounding Lug is designed to securely attach grounding wire between each rail. 87 Certification 25 Patents Chiko R&D team, of more than 10 peoples, 4 designers and 7 civil engineers leading by the doctor who registered as the 1st class structural engineer in China, is the members of various international organizations to set the standards for our products. Currently, Chiko products owns several certifications by the third parties like, UL, SGS,Gamcorp, Intertek, and SPAD etc.We Continuously accelerate the developing of new products and technolgies, from its strength in fixed solar mounting to solar tracking system and energy storages. 88 CERTIFICATE OF COMPLIANCE Certificate Number Report Reference Issue Date 201016-E E4-2010623 201-$35,O-16 Bruce Mahrenholz, Director North American Certification Program UL LLC Any information and documentation involving UL Mark services are provided on behalf of UL LLC (UL) or any authorized licenseeof UL. For questions, please contact a local UL Customer Service Representative at http://ul.com/aboutul/locations/ Page 1 of 1 Issued to:-,$1*68&+,.262/$5&2/7' 1RUWK7DLKDQJVKDQ5G 6X\X'LVWULFW 6XTLDQ-LDQJVX&+,1$ This is to certify that representative samples of Mounting Systems, Mounting Devices, Clamping Devices and Ground Lugs for Use with Photovoltaic Modules and Panels Solarack Mounting System –Mid Clamp, End Clamp, Splices as grounding method. Micro Bolt –SR-Micro; SolarEdge optimizers. Have been investigated by UL in accordance with the Standard(s) indicated on this Certificate. Standard(s) for Safety:UL 1703, “Flat-Plate Photovoltaic Modules and Panels” UL 2703, "Outline of Investigation for Mounting Systems, Mounting Devices, Clamping/Retention Devices, and Ground Lugs for Use with Flat-Plate Photovoltaic Modules and Panels." Additional Information:See the UL Online Certifications Directory at www.ul.com/database for additional information Only those products bearing the UL Certification Mark should be considered as being covered by UL's Certification and Follow-Up Service. Look for the UL Certification Mark on the product. 89 2017/8/10 QIMS.E483644 - Mounting Systems, Mounting Devices, Clamping Devices and Ground Lugs for Use with Photovoltaic Modules and Panels http://database.ul.com/cgi-bin/XYV/template/LISEXT/1FRAME/showpage.html?name=QIMS.E483644&ccnshorttitle=Mounting+Systems,+Mounting+Device…1/1 QIMS.E483644 Mounting Systems, Mounting Devices, Clamping Devices and Ground Lugs for Usewith Photovoltaic Modules and Panels Page Bottom Mounting Systems, Mounting Devices, Clamping Devices and Ground Lugs for Usewith Photovoltaic Modules and Panels See General Information for Mounting Systems, Mounting Devices, Clamping Devices and Ground Lugs for Use withPhotovoltaic Modules and Panels JIANGSU CHIKO SOLAR CO LTD E483644 North Taihangshan Rd. Suyu District Suqian, Jiangsu 223800 CHINA Cat. No.Investigated for Bonding Investigated for Mechanical Loading System Fire Classification (A, B or C) Tested in Combination With Photovoltaic mounting system CK-AR, CK-SO, CK-TR Y Y See below UL 1703 Listed TrinaPV Module Models: TSM-290PD14 , TSM-295PD14, TSM-300PD14 , TSM-305PD14, TSM-310PD14 , TSM-315PD14, TSM-320PD14 , TSM-325PD14, TSM-330PD14 CK-AR, CK-SO, CK-TR See above See above A Any UL 1703 Listed PV module with module fire performance: Type 1 Last Updated on 2017-04-11 Questions?Print this page Terms of Use Page Top ᪽ 2017 UL LLC The appearance of a company's name or product in this database does not in itself assure that products soidentified have been manufactured under UL's Follow-Up Service. Only those products bearing the UL Mark should be considered to be Certified and covered under UL's Follow-Up Service. Always look for the Mark on the product. UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide Information, Assemblies, Constructions, Designs, Systems, and/or Certifications (files) mustbe presented in their entirety and in a non-misleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with permission from UL" must appear adjacentto the extracted material. In addition, the reprinted material must include a copyright notice in the following format: "© 2017 UL LLC". 90 This page intentionally left blank. 91