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—LOCATION MAP j : N. PAYNE RESIDENCE �. y 1 NET METERED 15.660 kW PV .'BSE �� , • � -� ' - _ � ' - ., •'. , , .;.. ,. • � - SE -COUNTY p 2'2017. DEVELOPkENt SERVICES ?,OF ESS PERMIT v W. Zi 279' COUNTY nY DEVELC L RE�oMPO sER,;,�.IC_E_S_ No. C58724 I CODEFOR Exp.3-31-19 LIANCE DATE /1 `req clv\ TF OF C P, 13Y September 22, 2017 El www. Loyd W Martin com Solar Structures Engineering A #2017-3649 Structural Only j 770' DATE: 9/21/2017 APPLICABLE CODES NOTES: THIS SOLAR PHOTOVOLTAIC SYSTEM SHALL BE INSTALLED IN ACCORDANCE WITH THE REQUIREMENTS SPECIFIED IN THE 2016 CBC, 2016 CRC, 2016 CFC, 2016 CALIFORNIA GREEN BUILDING STANDARDS CODES, AND ARTICLE 690 OF THE 2016 CEC, AND ALL ADDITIONAL APPLICABLE BUILDING CODES. (REFER TO PAGE 6) SYSTEM SPECIFICATIONS: '254 LOST HORIZON DR. TABLE OF CONTENTS DRAWN BY: OROVILLE, CA LENT E MODULE:, CANADIAN SOLAR CS6K , -270P (58 . MODULES) A CIPHONE # P.2 SITE PLAN P-1 COVER SHEET 'JBH STRING —INVERTER :-ENPHASE IQ 6+ AZIMUTH(S).: .180* 530-589-1962 P.3 MODULE LAYOUT REV. TILT(S):. '19 JURISDICTION: BUSBAR RATING: 200A 3760 MORROW LANE SUITE D PA MOUNTING DETAILS I . BUTTE COUNTY MAIN BREAKER: 150A (DE -RATED) CHICO, CA 95928, P.5 ELETRICAL SCHEMATIC ATTACHMENT TYPE: IRONRIDGE GROUND_ MOUNT 1(855)360 -JOIN UTILITY: P.6 ELETRICAL NOTES LIC #: 1021484 PG&E P-7 STICKER / PLACECARD9 . PROPERTY LINE s DRIVEWAY :. E (E) SHOP (E)GARAGE- E)GARAGE`R100' O R1 00' (E) CUSTOMER RESIDENCE U I I (E) WELL z I I 0 ` �oQROFESS- W. I 2 r,, No. C58724\ \/ I 95' • ,PERMIT # BUTTE COUNTY DEVELOPMENT SERVICES REVIEWED FOR * Exp. 3-31-19 * / CODE COMPLIANCE sT c i v l� \P 9rF I . , ,� . , ,� , , ,� _ /D l0 'l BY_ -- OF C AL\F� DATE September 22, 2017 (E) SEPTIC SYSTEM www. Loyd W Martin .com Solar Structures Engineering -- --- — ------ ------------.--_ #2017-3649 Structural Only 25' (E) UTILITY (E) SHED METER/PANELBOARD & INTERCONNECTION N (N) PV MODULE ARRAY. (N) COMBINER BOX (N) UNDERGROUND ' REFER TO PAGE 3 FOR . (N) PV AC DISCONNECT_ CONDUIT 1 SITE PLAN PV2 SCALE 1 : 35 RACKING & STRINGING \f 200 FT INFORMATION. 254 LOST HORIZON DR. TABLE OF CONTENTS y y # OF MODULES: OROVILLE, CA P.1 COVER SHEET y y y y y y 58 (15.660 kW) . AZIMUTH(S) : a CLIENT PHONE # P.2 SITE PLAN P.3 MODULE LAYOUT NOTABLE LANDSCAPE $Q° MODULE TYPE: 530-589-1962 PA MOUNTING DETAILS �,, TILT(S): 3760 MORROW .ANE SUITE D JURISDICTION: CANADIAN SOLAR CHICO, CA 95928 BUTTE COUNTY P.5 ELETRICAL SCHEMATIC 1 9 CS6K-270P 1(855)360-J UTILITY: P.6 ELETRICAL NOTES P.7 STICKER / PLACECARDS 10' BRUSH CLEARANCE LIC #: 1021484 PG&E ARRAY LAYOUT TYP P=3 q?,0F ESS/p PERMI I IF BUTTE COUNTY DEVELOPMENT SERVICES www. Loyd W Martin .COM REVIEWED FOR Solar Structures Engineering CODE COMPLIANCE _- No. C58724#2017-3649 Structural Only 7k Exp. 3-31-19 * - +DATE_BY— `P� CIV1\� �Q 9rFOFCa,0F DRILLED FOUNDATION MODULE CLAMP PV MODULE (5) CIRCUITS OF (12, 12, 12,-11, 11) PIER (TYP) September 22, 2017 1 MODULE PLAN PV3 SCALE 1 : 10 K - VERIFY ALL OBSTRUCTIONS IN THE FIELD 254 LOST HORIZON DR. TABLE OF CONTENTS - VERIFY ALL DIMENSIONS IN THE FIELD. - OROVILLE, CA P.1 COVER SHEET - WHERE INDICATED ON PLAN MIN. DIMENSIONS ARE REQUIRED PER THE • CLIENT PHONE # P.2 SITE PLAN 'SOLAR PV INSTALLATION GUIDELINE" 530-589-19624 P.3 MODULE LAYOUT - PROVIDE RAIL SPLICES AS REQUIRED BY 3760 MORROW LANE SUITED JURISDICTION: P.4 MOUNTING DETAILS MANUFACTURE'S GUIDELINES - PV MODULE CANNOT BE INSTALLED OVER, CHICO, CA 95928 BUTTE COUNTY P.5 ELETRICAL SCHEMATIC OR BLOCK ATTIC VENTS, PLUMING VENTS, 1(855)360 -JOIN UTILITY: P.6 ELETRICAL NOTES FURNACE OR WATER HEATER VENTS ETC. LIC # : 1021484 PG&E P.7 STICKER / PLACECARDS CANTILEVER. NOT A 5 -UP -PV SYSTEM PLAN DETAIL Scale: 1/2"=1'-0" CANTILEVER, NOT 3" CROSS PIPE 1 3" PIER PIPE 1 MAX 2'-6" MAX. EXPOSED 9' -I ABOVE GRADE B 5 -UP - PV SYSTEM SIDE SECTION _ Scale: 3/4"=1'-0" 1. SCHEDULE 40 PIPE OR ALLIED MECHANICAL TUBING (SGA WALL THICKNESS) 254 LOST HORIZON DR. TABLE OF CONTENTS OROVILLE, CA P.1 COVER SHEET )Du CLIENT PHONE # P.2 SITE PLAN 530-589-1962 P.3 MODULE LAYOUT 3760 MORROW LANE SUITE D JURISDICTION: PA MOUNTING DETAILS CHICO, CA 95928 BUTTE COUNTY P.5 ELETRICAL SCHEMATIC 1(855)360 -JOIN UTILITY.: P.6 ELETRICAL NOTES LIC #: 1021484 PG&E P.71 STICKER / PLACECARDS 1P )NNECTOR , C PIPE FITTINGS DETAIL 3"=1'-0" /-PV MODULE, BY OTHERS `XR1000 RAIL / IRONRIDGE 3' RAIL CONNECTOR 3" PIPE 1 IRONRIDGE 3" TOP CAP ✓ MODULE, YOTHERS R1000 RAIL ' RAIL GE RAIL DNNECTOR Q z LONRIDGE O 'TOP CAP 'PIPE 1 D PIPE FITTINGS DETAIL 3"=1'-0" IRONRIDGE MID CLAMP 0 PV MODULE FRAME PERMIT #IRONRIDGE DEVELOPMENT SERVICES RAIL BUTTE COUNTY - - REVIEWED FOR CODE COMPLIANCE a m m BY DATE— F DETAIL MID CLAMP FRONT 6"=1' 0" = i LL a a v 0 SUPPORT PER PLANS IRONRIDGE END CLAMP W a o x m �' 3 //_�:NATURAL PV MODULE FRAME a p � m W � 0 0 0 ll GRADE IRONRIDGE RAIL 3 m w' DETAIL END CLAMP FRONT PV MODULE FRAME 16" DIAMETER X 4.33 FT. DEEP — — CONCRETE PIER; F'C = 2500 PSI 1 OR BETTER 4° IRONRIDGE MID CLAMP — — @ www. Loyd W Martin .com — — WRAP (2) LAYERS OF 14 -GAUGE Solar Structures Engineering —_ — GALVANIZED STEEL WELDED #2017-3649 Structural. Only WIRE DETAIL MID CLAMP PLAN ' �M 16" .. E IRONRIDGE RAIL PV MODULE FRAME IRONRIDGE END CLAMP n �oQRF��64 DETAIL, END. CLAMP PLAN PV ARRAY FOUNDATION PIER DETAIL SECTION VIEW No. C56724 Exp. 3-31-19 cPI, CIV 1� �P 9lF OF C AL�F��� September 22, 2017 MANUFACTURERL APPROVED CANADIAN SOLAR MODEL CS6K-270M ELECTRICAL SPECIFICATIONS TABLE OF CONTENTS RATED POWER OUTPUT @ STC 270 OPEN CIRCUIT VOLTAGE (Voc) 38.2V MAX POWER VOLTAGE (Vmp) • 31.3V SHORT CIRCUIT CURRENT (Isc) 9.31A MAX POWER CURRENT (Imp) 8.80A Voc CORRECTION FACTOR (%/deg C) -0.31 % Vmp/Pmp CORRECTION FACTOR -0.41% NUFACTURER DEL RATED AC VOLTAGE CEC EFFICIENCY MAX POWER OUTPUT @ STC MAX INPUT VOLTAGE MAX INPUT CURRENT MPPT VOLTAGE RANGE MAX OUTPUT CURRENT I I UNDERGROUND 2" PV AC TO UTILITY GRID lJ CONDUIT 120/240V (3) #4 CU THWN-2 SINGLE PHASET MAIN RESIDENCE (1) #8 CU GROUND NOT CENTER FED PANEL 90°C WET & DRY MAIN ELECTRICAL PANEL BI-DIRECTIONAL (E) 200 AMP 120/240 UTILITY METER (N) 70A 2 -POLE BREAKER SHALL BE INSTALLED OPPOSITE MAIN BREAKER L�7 MOUNTS AND EQUIPMENT ENCLOSURES GROUNDED TO MAIN PANEL GROUND COMPONENT CONNECTIONS WILL BE MADE WITH: (UNLESS OTHERWISE SPECIFIED) . EXTERIOR 4" EMT AC CONDUIT OR INTERIOR ROMEX 10-3 (3) #6 CU THWN-2 (1) #8 CU GROUND 90°C WET & DRY (Y I O O EATON 100A AC DISCONNECT ENPHASE 106+. 240V 97.0% 290W 62V 15A 211 V - 264V 1.17A (N) 45A & 15A — 2 -POLE BREAKER SHALL BE INSTALLED OPPOSITE M. EATON 100A AC DISCONNECT EXTERIOR 1 4" EMT AC CONDUIT (3) #4 CU THWN-2 (1) #8 CU GROUND 90°C WET & DRY SYSTEM OVERVIEW . - # OF MODULES IN SERIES (CIRCUIT SIZE) 12, 12, 12, 11, 11 # OF MODULES IN PARALLEL (# CIRCUITS) 5 NUMBER OF MODULES PER INVERTER 1 ARRAY RATED DC POWER OUTPUT @ STC 15.660kW SERVICES �yI�TCE COiJNT`/ DEVELOPMENT REVIEWED FOR GORE COMPLIANCE BY #6 CU AWG BARE WIRE-(TYP) • BOUNDING MODULES & RAILS OR WEEBS BONDING & GROUNDING WASHERS J- BOX UNDER ARRAY SEALED TIGHT NON-FUSED -NEMA TYPE3 MIN. ENVOY S XAM1-120M A (N) 8/16 SUB -PANEL COMBINER BOX II EXTERIOR 2" EMT AC CONDUIT (3) #6 CU THWN-2 (1) #8 CU GROUND 90°C WET & DRY J -BOX ':1 No. C58724 Exp. 3-31L1? I ��9TF OF'C September 22, 2017 www. Loyd W Martin .com Solar Structures Engineering #2017-3649 Structural Only TERMINATOR CAP ON LAST CABLE CONNECTOR OF AC TRUNK CABLE (TYP) 12 PANELS- BRANCH CIRCUIT 91-3 MICR '-ERTER 41 MICRPWVERTERQ MICRO -INVERTER TVP. MICRO -INVERTER TVP. �MICRplWERTER N1 MICRPIWERTER tl2�#1 MICRPIWERTER tl2R 11 PANELS- BRANCH CIRCUIT #4-5 MICRO -INVERTER TRUNK CABLE, 1 PHASE 90°c, 600V, WET/DRY, WITH MICRO -INVERTER PRE-INSTALLED CONNECTORS OPEN AIR CONDUCTORS, NOT IN A CONDUIT BLACK -L1 RED-L2,WITH-NEUTRAL GREEN -GROUND UL1741, UL 746 C,F1, IEC 60529 IP67 (TYP) EXTERIOR 2" EMT AC CONDUIT (3) #10 CU THWN-2 (1) #8 CU GROUND 90°C WET & DRY BUSBAR RATING: 200A MAIN BREAKER: 150A (DE -RATED) # OF MODULES: 58 SYSTEM SIZE (kW): 15.660 � 3760 MORROW LANE SUITE D CHICO, CA 95928 1(855)360 -JOIN LIC #: 1021484 254 LOST HORIZON DR. OROVILLE, CA CLIENT PHONE # JURISDICTION: BUTTE COUNTY UTILITY: PG&E TABLE OF CONTENTS P.1 COVER SHEET P.2 SITE PLAN530-589-1962 P.3 MODULE LAYOUT PA MOUNTING DETAILS P.5 ELETRICAL SCHEMATIC P.6 ELETRICAL NOTES P.7 STICKER/ PLACECARDS - EACH MODULE TO BE GROUNDED USING THE SUPPLIED CONNECTION POINT PER MANUFACTURE'S REQUIREMENTS. ALL SOLAR MODULES EQUIPMENT, AND THE METALLIC COMPONENTS ARE TO BE BONDED. IF THE EXISTING GROUNDING ELECTRODE SYSTEM CAN NOT BE VERIFIED OR IS ONLY METALLIC WATER PIPING, IT IS THE CONTRACTOR'S RESPONSIBILITY TO INSTALL A SUPPLEMENTAL GROUNDING ELECTRODE. - ALL PLAGUES AND SINGAGE REQUIRED BY THE LATESTEDITION OF NATIONAL ELECTRICAL CODE. REFER TO SHEET 7 (STICKERS AND PLACECARDS). LABEL SHALL BE METALLIC OR PLASTIC, ENGRAVED OR MACHINED PRINTED IN A CONTRASTING COLOR TO THE PLAQUE. PLAQUE SHALL BE UV RESISTANT IF EXPOSED TO SUNLIGHT. - DC CONDUCTORS SHALL BE RUN IN EMT AND/OR NIC (METAL CALD CABLE) AND SHALL BE LABELED, "CAUTION DC CIRCUIT" OR EQUIV. EVERY 5 FT. . • . - EXPOSED NON-CURRENT CARRYING METAL PARTS OF ELECTRICAL EQUIPMENT SHALL BE GROUNDED IN ACCORDANCE WITH 250.134 OR 250.136 (A) - CONFIRM LINE SIDE VOLTAGE AT ELECTRICAL UTILITY SERVICE PRIOR TO CONNECTING INVERTER. VERIFY SERVICE VOLTAGE IS WITHIN INVERTER VOLTAGE OPERATIONAL RANGE. - OUTDOOR EQUIPMENT SHALL BE NEMA -3R RATED OR BETTER - ELECTRICAL CONTRACTOR TO PROVIDE CONDUIT EXPANSION JOINTS AND ANCHOR CONDUIT RUNS AS REQUIRED PER NEC. - ALL WIRING MUST BE PROPERLY SUPPOTED BY DEVICES OR MECHANICAL MEANS DESIGNED AND LISTED FOR SUCH USE, AND FOR ROOF -MOUNTED SYSTEMS, WIRING MUST BE PERMANENTLY AND COMPLETELY HELD OFF OF THE ROOF SURFACE. NEC 110.2 - 110.4 / 300.4 - ALL PV METERS TO BE WITHIN 5 FT OF ANOTHER. - PV METERS TO BE INSTALLED CORRECTLY, SUPPLIED FROM THE TOP JAWS. - ALL ROOF PENETRATIONS MUST BE FLASHED. SIMPLY CAULKING DOES NOT SUFFICE. - THIS SOLAR PHOTOVOLTAIC SYSTEM SHALL BE INSTALLED IN ACCORDANCE WITH THE REQUIREMENTS SPECIFIED IN ARTICLE 690 OF THE 2016 CEC AND ALL APPLICABLE BUILDING CODES. - ACCESS TO THE -ELECTRICAL WIRE SHALL BE RESTRICTED TO QUALIFIED PERSONAL ONLY AS REQUIRED BY ARTICLE 690 OF THE 2016 CEC. - - THE PHOTOVOLTAIC ARRAY(S) SHALL BE PROVIDED WITH DC GROUND -FAULT PROTECTION. (CEC 690.5) -ALL. CONDUCTORS SHALL BE TYPE 90 DEGREE CRATED. (CEC 690.318) - ALL EXPOSED PHOTOVOLTAIC SYSTEM CONDUCTORS SHALL BE TYPE USE -2 OR PV WIRE. (CEC 690.31 B) - ALL CONDUCTORS SHALL BE TYPE 90 DEGREE C RATED (CEC 690.318) -THE INSTALLATION OF EQUIPMENT AND ALL ASSOCIATED WIRING k AND INTERCONNECTIONS SHALL BE PERFORMED ONLY BY QUALIFIED PERSONS (CEC 690.4) PERMIT # BUTTE COUNTY DEVELOPMENT -------SERVICES REVIEWED FOR CODE COMPLIANCE DATE QROF ESS/p\ No. C58724 Exp. 3-31-19 plVJ�_ �pF C ALF' September 22. 2017 www. Loyd W Martin .com Solar Structures Engineering #2017-3649 Structural Only 3760 MORROW LANE SUITE D CHICO, CA 95928 1(855)360 -JOIN LIC #: 1021484 254 LOST HORIZON DR. OROVILLE, CA CLIENT PHONE # 530-589-1962 JURISDICTION: BUTTE COUNTY UTILITY: PG&E TABLE OF CONTENTS P.1 COVER SHEET P.2 SITE PLAN P.3 MODULE LAYOUT PA MOUNTING DETAILS P.5 ELETRICAL SCHEMATIC -P.61 ELETRICAL NOTES I P.71 STICKER / PLACECARDS 411 WARNING: ELECTRIC SHOCK . . •WARNING - - ! •P l- ELECTRIC SHOCK HAZARE� PHOTOVOLTAIC DO NOT TOUCH TERMINALS IF GROUNDED FAULT IS INDicA, TED POWER SOURCE TERMINALS ON BOTH THE LINE AND LOAD 2'1 NORMALLY GROUNDED CONDUCTORS SIDE MY BE ENERGIZED IN THE � OPEN MAY BE UNGROUNDEDr PLACED EVERY 10' ON CONDUIT POSITION PLACED ON OR ADJACENT TO THE_ PLACED ON THE INVERTER, OR PLACED q DISCONNECTING MEANS- r NEAR THE GROUND -FAULT INDICATOR WARNINGAI ` , 4 _ • , AT A VISIBLE LOCATION INVERTER OUTPUT CONNECTION1" 411 .. D• NOT RELOCATEOVER R- 4• RAP �• ` SWITCH • PLACED NEXT TO THE SOLAR BREAKER - - 1 `r - SOLARPVSYSTEM DISCONNECT PLACED ON OR ADJACENT TO THE ` DISCONNECTING MEANS LOCATED ON THE DC DISCONNECTMAIN PHOTOVOLTAIC i PORTION OF'THE INVERTER 3;25" , . DISCONNECT • • • VOLTAIC oQ�oFESS /O,yq r t LOCATED ON THE AC DISCONNECT. r . RATEDDC SYSTEMS SPECIFICATIONS RATED MPP CURRENT 16.80000 ADC MPP • VOLTAGE i NoMAX . C58724 LTAGE VDC • - 211 * Exp. 3-31-19 AC SYSTEM SPECIFICATIONS Clv.\\. 'SYSTFM 5 355 , .� 'r . y ` . J • Yt lj COMBINEDOPERATING - t rr . BUTTE COUNTY DEVELOPMENT SERVICES - RATED • • September 22, 2017 "REVIEW ED FOR _ - _r CODE -COMPLIANCE - LOCATED ON MAIN SERVICE'PANEL` ' - •' -' A •+ `www. LoydW Martin :com.'. _ •- ° f �`•`' i'. . .' ' '� • . �` _ Solar Structures Engineering SATE _ �� `�� BY • M _ #2017-3649 Structural Only, 4 �. NOTE: STICKERS ARE WHITE LETTERS ON'RED BACKGROUND r '''' • ~ 254 LOST HORIZON DR. TABLE OF CONTENTS • `� , - . OROVILLE, CA P. •� • •. � _. .. , , f ry.�,� :,• :. -COVER SHEET CLIENT PHONE # P.2 SITE PLAN `STICKERS AND PLACECARDS t'� T 530-589-1962....P.3 MODULE LAYOUT - JURISDICTION: 3760 MORROW LANE SUI i - P.4 MOUNTING DETAILS 'CHICO, CA 95928 `' BUTTE COUNTY P.5 ELETRICAL SCHEMATIC ' .1(855)360 -JOIN. UTILITY:P.6 ELETRICAL NOTES STICKER / PLACECARDS LIC #: 1021484 PG&E P.7 m Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Structural Calculations for a Ground Mounted Solar Electric System for: Payne Residence 254 Lost Horizon Dr., Oroville, CA 95966 Applicable Codes: BUTTE COUNTY QROF ESS/p\ o. c� No. C58724 SEP 2 2 2011 * 3-31-19 VEVELOPMENT �Ep. q p I V 1 SERVICES PF pF C 2016 California Building Code, 2016 California Electric Code, 2016 California Mechanical Code, American Society of Civil Engineers Standard ASCE 7-10 Minimum Design Loads for Buildings and Other Structures, Local Municipal Code, and all other codes which are adopted by reference or enacted by law. Assumed Design Parameters: Soil is Sand, Silty Sand, Clayey Sand, Silty Gravel or Clayey Gravel. ( SW, SP, SM, SC, GM or GC ) or better. Presumptive Load -Bearing Values per Table 18.02 of 2016 CBC Contractor, Building Official or Project Engineer shall verify on-site soil parameters. Wind Design Speed is 110 mph Exposure C Tilt Angle 19 degrees +/- PERMIT # lam` Z 2 - BUTTE COUNTY DEVELOPMENT SERVICES REVIEWED FOR Flat to Slightly Sloping Terrain CODE COMPLIANCE DATE/122 7/ �/� BY Sht # 1 of 10 2017- 3649 Join Solar Payne Residence Date: September 22, 2017 Loyd W. Martin Professional Engineer,, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com . www. Loyd W Martin.00m SolarStructures Engineering ' #2017-3649 Structural Only DRILLED FOUNDATION' MODULE CLAMP PV MODULE PIER (TYP) Solar PV Array Layout Plan View I / QRoF ES S/ pN W. 6 2 LY No. C58724 m Exp 3-31-19 * EQ \C/ v J\. \P r F F OF C A0H 2'-6" MAX. EXPOSED I , 9'-0" ABOVE GRADE NOTE: There shall be no splice on the rails. Rails must be continuous on its entire length. 2017- 3649 Join Solar Payne Residence VARIES (5) CIRCUITS OF (12, 12, 12, 11, 11) 7 e3"CRO7PIPE 7'-11" 3" PIER PIPE 1 MAX DIAGONAL BRACING, AS NEEDED ENGINEERED FOUNDATION Solar. PV Arrav Section View Sht # 2 of 10 Date: September 22, 2017 Loyd W. Martin. Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Loads and Load Combinations for Ground Mount System Critical Load Combinations per Section 2.4.1 Basic Combinations ASCE 7-10: Load Case 5: D + (0.6W or 0.7E) (Wind Governs) Note: • 3 D = Dead Load = 3 psf max W = Wind Load = See Analysis for Exposure C 110 MPH S = Snow Load = 0 psf �oQROF ESS/pNgl W. No. C58724 2017- 3649 Join Solar Payne Residence * Exp. 3-31-19 CMV 9rF OF Sht # 3 of 10 Date: September 22, 2017 _ -Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Determine Wind Load per Section 6.5.13.2 ASCE 7-05:- eROFESS \N 1AU4 /pN9� F = qh G CTAS oNo. C58724� * Exp. 3-31-19 Where : sT civic •P 9TF OF C Al\F F design force qh = velocity pressure evaluated at mean roof height h as determined in accordance with Section 29.3.2 G = gust effect factor from Section 26.9 , Cf = net pressure coefficient determined from Figs. 29.4-1 AS = gross area of solar array , therefore determine qZ per Section 29.3.2 qZ = 0.00256 KZ KZT Kd V2 psf z = h 5 ft. Exposure C • Wind 110 mph KZ = 0.85 Velocity Pressure Exposure Coefficient ASCE 7-10 Section 29.3.1 and per Table 29.3-1 KZT = 1.0 Topographic Factor ASCE 7-10 Section 26.8.2 Kd. = 0.85 Wind directionality factor as defined by ASCE 7-10 Section 26.6 and per Table 26.6-1 V 110 mph Basic Wind Speed per Section 26.5 and Fig. 26.5-l'.' Sht#4 of 10 2017- 3649 Join Solar Payne Residence Date: September 22, 20117_ Loyd W. Martin Professional, Engineer, Inc.. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com therefore determine qZ per Section 29.3.2: �oQROFESS/O,ygl . w. qZ = 0.00256 KZ KZT Kd V2 psf ° No. C58724 qZ = 0.00256 x 0.85 x 1.0 x 0.85 x (110)1 * Exp. 3-31-19 T civi\ 9TF OF CA qZ = 22.4 psf G = 0.85 Gust Effect Factor ASCE 7-10 Section 26.9 CN = 1.3 +/- Entire Roof Area (conservative over entire roof area) net force coefficient per Fig. 29.4-1 therefore determine F per Section 29.4-1 ASCE 7-10 F = gh G CfAs F = 22.4 psf x 0.85 x 1.3 x As p = +/- 24.8 psf x As Note: Load Combinations for Allowable Stress Design per Section 24.1: 0.6 x F = 0.6 x (+/- 24.8 psf) x As 0.6 x F = (+/- 14.9 psf ) x As Sht # 5 of 10 2017- 3649 Join Solar Payne Residence Date: September 22, 2017 Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Loading Diagram for Solar PV Array D=3psf �oQROFESS /py�l W. Ad J No. C58724 Exp. 3-31 19 W 14.9 psf ��9TFFIC AL E���\P t 0 CV R1y RIX I 3'- 4" Equivalent Component Force Diagram Analyze 19° Condition: 0 N R1 RIX _I I T-41' 201.7- 3649 Join Solar Payne Residence R2 I R2X 3'- 4" R2y I R2X I I 9'- 0" 3'- 4" Sht # 6 of 10 Date: September 22, 2017 Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.corh www.loydwmartin.com Determine Applied Equivalent Loads for 19° Condition: F y / Tributary Area = 3 psf + 14.9 psf x cos 19 = 17.09 psf Tributary Area = 16.5 ft x 15 ft x 1/2 . = 123.75 sq ft F y = 17.09 psf x 123.75 sq. ft. = 2,115 lbs F x / Tributary Area = 14.9 psf x sin 19 Tributary Area = 16.5 ft x 15 ft x 1/2 F x = 4.85 psf x 123.75 sq. ft. Force Analysis in Member Elements 0 ih 5 2,1115 # 600 # 6 4.85 psf 123.75 sq ft = 600 lbs �OQROF ESS/pNgl W. Ak G LU cU No. C58724 * Exp. 3-31-19 s� CIV0- Z 9TF OF C AQOF ' p p R1y I R1x1 R2y I R2x I I I 31- 4" 9.-011 3'- 4" Sht # 7 of 10 2017- 3649 Join Solar Payne Residence Date: September 22, 2017 Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Force Analysis in Member Elements Continued Max Downward Vertical Load to Footing. = 2,115 lbs Max Uplift Vertical Load to.Footing 1,743 lbs Lateral Load to Footing = 600 lbs OFESS W. a! No. C58724 Exp. 3-31-19 Allowable Loads for 16" Diameter x 52" Deep Pier s�qT c/viv F OF C AOS Uplift Capacity Weight of Foundation = Area x Depth x 150 pcf = 3.14 x (0.67 ft)^2 x 4.33 ft. x 150 pcf = 903 lbs Soil Friction = Surface Area x Cohesion 2016 CBC Table 1806.2 3.14 x 1.33 ft. x 4.33 ft. x 130 psf 2,353 lbs > 637 lbs (CBC Sec. 1806.3.2) Array Dead Load = (3 psf x 123.75 sq ft) = 371 lbs Uplift Capacity = 903 lbs + 637 lbs + 371 lbs = 1,911 lbs > 1,743 lbs OK Use (N) 16" Diameter x 52" Deep Pier as per plans at Supports of Array Sht # 8 of 10 2017-3649 Join Solar Payne Residence- Date: September 22, 2017 Loyd'W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 Email: loydwmartin@gmail.com www.loydwmartin.com Compression Capacity Compression Capacity = Area x Bearing Pressure = 3.14 x (0.67 ft)^2 x 1500 psf �oOkOF ESS/pN9l Compression Capacity = 2,084 lbs = 2,115 lbs OK 9! No. C58724 Check Soil Pressures of Pole Footing Support * Exp. 3-31-19 IPJ CIVI\ 9TF OF CAL\FOS Check Soil Pressures per 2016 CBC Sec. 1807.3.2.1 Eq'n 18-1 d=0.5A( 1 +(1 +(4.36 h/A))"'') A=2.34P/S1 b S1=217psf x1.33x2=665 psf h = 5.5' b = diameter of footing = 1.33 ft. A = 2.34 x 600 lbs / (576 x 1.33) = 1.83 dReq'd=0.5x1.83(1+(1+(4.36x5.5'/.1.83))05) =4.36 ft. < 5ft. Use (N) 16" Diameter x 52" Deep Pier as per plans at Supports of Array Note to Building Official: Based upon a review of the proposed plans I am confident that the proposed ground mounted solar PV array is capable of supporting.. all code required loads with the above mentioned footing. If you have any questions or additional concerns feel free to contact me at . loydwmartin@gmail.com, skype id loydwmaritn, or tel: 1-310=464-1804. Thanks. End of Calculations Sht # 9 of 10 2017- 3649 Join Solar Payne Residence Date: September 22, 2017 Loyd W. Martin Professional Engineer, Inc. 2510 W. 237th St. #206 Torrance, CA 90505 Tel: 1.310.464.1804 E-mail: loydwmartin@gmail.com www.loydwmartin.com SUPPORT PER PLANS NATURAL GRADE rA 16" DIAMETER X 4.33 FT. DEEP CONCRETE PIER; F'C = 2500 PSI OR BETTER WRAP (2) LAYERS OF 14- GAUGE w GALVANIZED STEEL WELDED M WIRE D1 I PV ARRAY FOUNDATION PIER DETAIL SECTION VIEW DRAWN BY: LWM DATE: 9-22-17 JOB: 2017-3649 Join Solar . 311 QFtOF ESS/ON (�,Q 9� ^I p � No. C58724 co * Exp. 3-31-19 1 16" CIVI TF OFC AL�F��� D1 I PV ARRAY FOUNDATION PIER DETAIL SECTION VIEW DRAWN BY: LWM DATE: 9-22-17 JOB: 2017-3649 Join Solar CS6K-270 1 275 280M -SD Canadian Solar's SmartDC module features an innovative integration of Canadian Solar's module . technology and SolarEdge's power optimization for grid -tied PV applications. By replacing the traditional junction -box with a power optimizer, the SmartDC module optimizes power output at module -level. With this feature, the SmartDC module can eliminate module - level mismatch and decrease shading losses. Furthermore, the SmartDC module provides module -level monitoring that allows effective system management and minimizes operational costs. KEY FEATURES ' Harvests up to 25% more energy 25B�a from each module Maximizes power from each individual module against potential mismatch risk Decreases shading losses Easy installation, simple system design Integrated smart solution, no need to add other accessories Enhances the shading tolerance Reduces Bos Costs Up to 11.25 kW — 12.75 kW per string allows for more modules to be based on different inverters Free module -level monitoring system ? Full visibility of system performance with a free smartphone app torte Safety Automatic drop of DC current and voltage when inverter or grid power. is shut down « COUNTY 2SEP 2:2 2017, yearo linear power output warranty DEVELOPMENT - 07-do On product warranty on materials �•�' 7doand workmanship MANAGEMENT SYSTEM CERTIFICATES*. ISO 9001:2008 / Quality management system _ ISO/TS 16949:2009 /The automotive industry quality nanagement system ISO 14001:2004 / Standards for environmental management system OHSAS 18001:2007 / International standards for occupational health & safety PRODUCT CERTIFICATES* COUNTY IEC 61215 / IEC 61730: VDE/CE BUT TF i✓oUN UL 1703 / IEC 61215 performance: CEC listed (U56UILDING► DIVISION UL 1703: CSA. ROVED YE ®R-sc � �i. CERTt - A - *As there are different certification requirements In different markets, please contact your Canadian Solar sales representative for the specific certificates applicable to the products. CANADIAN SOLAR INC. is committed to providing high quality solar products, solar system solutions and services to customers around the world. As a leading manufacturer of solar modules and PV project developer with over 14 GW of premium quality modules deployed around the world since 2001, Canadian Solar Inc. (NASDAQ: CSIQ) is one of the most bankable solar companies worldwide. . ................... ..................................... ...................... :................................. :.................... ............... ........ ...... ....................... ...........:. . . CANADIAN SOLAR (USA) INC. ' 2420 Camino Ramon, 125 Suite San Ramon, CA, USA 94583-4385, www.canadiansolar.com, sales.us@canadiansolar.com.` ENGINEERING DRAWING (mm) Rear View Frame Cross Section A -A I�u.. 35 G—ndinq 1 .I Hole 1 11 -1= I j Mounting Hole } 7.. . !. 91 8-11x7 :mAlIA - Moun9 99 5°y ELECTRICAL DATA / STC Power Optimizer connected to a SolarEdge Inverter CS61K 270M -SD 275M -SD 28OM-SD Nom. Max. PWR (Pmax STC) 27OW 275W 28OW Nom. Max. PWR (Pmax NOCT) 195W 199W _ 202W Open Circuit Voltage (Voc STC) 382V 383V _ 38.5V Output Voltage Range (Vout) 5.60V 1 ph 19 19 18 5-60V— Max. Output Current (Imax) 15A _5{_0_V____ 15A 15A Max. Series Fuse Rating_ 20A 20A _ 20A Module_Efficiency Parallel Strings of Diff. Orientations Yes _ Max. System Voltage 1000 V (IEC) / 600 V (UL) Output During Standby Fire Rating Type 1 (UL1703) / Class C (IEC61730) Power Tolerance 10-+5W (power optimizer disconnected 1 V from inverter or inverter off) PV SYSTEM DESIGN Min. String Length EU & APAC 1 ph 8 3 ph 16 V 3 ph - MMV 18 US & Canada 1 ph 8 . 3 ph (208 V) 10 Max. String Length EU & APAC 1 ph 19 19 18 3 ph 41 40 40 3 ph - MV 47 46 45 US & Canada 1 ph 19 19 18 3 ph (208 V) 22 21 21 Max. Power per String (W) EU & APAC 1 ph 5250_ 3 ph 11250 3 ph - MV 12750 US & Canada 1 ph 5250 3 ph (208 V) 6000 Parallel Strings of Diff. Lengths Yes Parallel Strings of Diff. Orientations Yes Operating Temperature -40°C - +85°C Max. System Voltage 1000 V (IEC) / 600 V (UL) Application Classification Class A Fire Rating Type 1 (UL1703) / Class C (IEC61730) Power Tolerance 10-+5W CS6K-280M / I-V CURVES ■ 1000 W/m' s -C ■ ■ 800 W/W 25°C 0 C7 600 W/m1 45°C 13 400 W/W 65-C N MECHANICAL DATA OF PV MODULE Specification Data Cell Type Mono -crystalline, 6 inch Cell Arrangement Data Dimensions _6_0(6x10) 1650x992x4Omm(65.Ox39.1x1.57in) Weight 19.3 kg (42.5 lbs) Front Cover _ 3.2 mm tempered glass Frame Material Anodized aluminium alloy J -Box -_--- IP65 ---_ ---_ ------ Cable ! Connectors-----_v Standard Packaging PV1-F 1*6.0 mm2/952 mm �..�- MC4------- -_--- 26 pieces, 548 kg (1208 lbs) (quantity & weight per pallet) Module Pieces 728 pieces (40' HQ) per Container TEMPERATURE CHARACTERISTICS - Specification Data Temperature Coefficient (Pmax) -0.41 % /*C Temperature Coefficient (Voc) -0.31 % /°C ^ Temperature Coefficient (Isc) �- _ 0.053 % /°C Nominal Operating Cell Temperature _ 45±2°C STANDARD COMPLIANCE Specification Standard EMC FCC Part15 Class B, IEC61000-6-2, IEC61000-6-3 PV Module IEC61215, IEC61730, UL1703, GEC listing PV Optimizer J -Box EN50548, UL3730, IEC2109-1 (class II safety), UL1741 Fire Safety VDE-AR-E 2100-712:2013-05 PARTNER SECTION ............................................................................................ ................................................................................................................................................................................................. CANADIAN SOLAR (USA) INC. March. 2016. All rights reserved, PV Module Product Datasheet V5.4 -NA Certificate of Compliance Certificate: 2284121 Project: 70095478 Issued to: Canadian Solar Inc 545 Speedvale Ave West Guelph, Ontario N1K IE6 CANADA Attention: Wenda Zheng Master Contract: 249143 Date Issued: 2017-01-09 The products listed below are eligible to bear the CSA lark shown with adjacent indicators 'C' and 'IIS' for Canada and IIS (indicating that products have been manufactured to the requirements of both Canadian and US Standards) or with adjacent indicator 'US' for IIS only or without either indicator for Canada only. ® Issued by: Q'a' (Sea*0 ju� Qiang (Sean) Jiang C us PRODUCTS CLASS - C531110 - POWER SUPPLIES -Photovoltaic Modules and Panels CLASS - C531190 - POWER SUPPLIES -Photovoltaic Modules and Panels - Certified to US Standards . Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type 1 and Type 2 module fire performance, Model Series CS6X-XXXP, CS6X-XXXPX where 'XXX' is the power output from 250 W to 360 W with the following electrical ratings typical at 360 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 46.5 V Short Circuit Current (Isc): 9.92 A Operating Voltage (Vpmax): 38.3 V Current at Operating Voltage (Ipmax): 9.40 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type l and Type 2 module fire performance, Model Series CS6X-XXXM where =' is the power output from 260 W to 360 W with the following electrical ratings typical at 360 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 46.9 V CSA Group Certificate: 2284121 Project: 70095478 , Short Circuit Current (Ise): 9.78 A Operating Voltage (Vpmax): 38.7 V Current at Operating Voltage (Ipmax): 9.31 A Master Contract: 249143 Date Issued: 2017-01-09 Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type 1 and Type 2 module fire performance, Model Series CS6P-XXXP, CS6P-XXXP-S, CS6P-XXXPX where'XXX' is the power output from 200 W to 300 W with the following electrical ratings typical at 300 W for CS6P-XXXP/ CS6P-XXXP-S, , and CS6P-XXXPX series respectively @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 38.8 V Short Circuit Current (Ise): 9.92 A Operating Voltage (Vpmax): 320 V Current at Operating Voltage (Ipmax): 9.38 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type 1 and Type 2 module fire performance, Model Series CS6P-XXXM and CS6P-XXXMX where'XXX' is the power output from 200 W to 300 W with the following electrical ratings typical at 300 W for CS6P-XXXM and CS6P-XXXMX series respectively @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 39.1 V Short Circuit Current (Ise): 9.78 A Operating Voltage (Vpmax): 32.4 V Current at Operating Voltage (Ipmax): 9.25 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 and Type 2 module fire performance, Model Series CS6A-XXXP, where'XXX' is the power output from 160 W to 210 W with the following electrical ratings typical at 210 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 30.0 V Short Circuit Current (Ise): 9.19 A Operating Voltage (Vpmax): 24.4 V Current at Operating Voltage (Ipmax): 8.63 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model - Series CS6F-XXXM, where'XXX' is the power output from 30W to 40W with the following electrical ratings typical at 40W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.8 V Short Circuit Current (Ise): 2.28 A Operating Voltage (Vpmax): 18.6 V Current at Operating Voltage (Ipmax): 2.15 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6F-XXXP, where'XXX' is the power output from 30W to 40W with the following electrical ratings typical at 40W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.6 V CSA s r Group .. Certlfucate:- 2284121 Mister C®iatract: 249143, . Project: • 70095478 F_ Date Issued: 2017-01-0, Short Circuit Current (Isc): `2.32 Al } Operating Voltage (Vpmax): 18.4 V Current at Operating Voltage (Ipmaz): ,2.17 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6H-XXXM, where'XXX' is the power output from 20W to 26W with the following electrical ratings typical at 26W @ Standard Test Condition (STC): Open Circuit Voltage (Voc):' - 22.7 V. '_ 3 Short Circuit. Current (Ise): :1.5 A ; , Operating Voltage (Vpmax): - 18.4.V.. Current at Operating Voltage (Ipmax): 1.41 A Photovoltaic Module's with maximum system voltage of 600 V de and Type 1 module the performance; Model 'Series CS6H-XXXP, where'XXX' is the power output from 20 W to 26 W with the following electrical_ ratings, typical at 26 W @ Standard Test Condition (STC): - - Open Circuit Voltage (Voc): 22:5 V , Short Circuit Current (Ise): 1.52 A "�• , Operating Voltage (Vpmax): 18.2:V - y Current at Operating Voltage (Ipmax): 1.43 A Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6E-XXXM, where'XXX is the power output from 45 W to 60 W with the following electrical ratings ' typical at 60 W @•Standard Test Condition (STC): Open Circuit Voltage (Voc):. 22.8 V ' Short Circuit Current (Ise): 3.42 A t . Operating Voltage (Vpmax): 18.6V ' Current at Operating Voltage (Ipmax)' 3.23 A01 r _ Photovoltaic�Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model . Series CS6E-XXXP, where'XXX' is the power output from 45 W to 60,W with the following electrical -ratings' typical at 60 W @ Standard Test Condition (STC):' Open Circuit Voltage (Voc): 22.6V = Short Circuit Current (Ise): 3.47 A' Operating Voltage (Vpmax), s •18.4V Current at Operating Voltage (Ipmax): 3.26 A Photovoltaic Modules with maximum system voltage of 600 V do and +Type ,1 module fire performance, Model • '" Series CS6D-XXXM, where 'XXX is the power output from 60 W to 75 W with the following electrical ratings ' typical. at.75 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.5V - • n ' Short Circuit Current (Ise): ' ` 4.37 A r F CSA Gip Certificate: ' 2284121 �r ` l b ` y Master Contract: x249143. Project: 70095478 1 Date Issued: 2017-01-09 Operating Voltage (Vpmax): 18.3V' ( " Current at Operating Voltage (Ipmax): • All A. _.: Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 module fire performance, Model Series CS6D-XXXP, where'XXX' is the power output from 60 W to 75 W with the following electrical ratings. typical at 75 W @ Standard Test Condition (STC):. _ .',Open Circuit Voltage (Voc):. 22.3V Short Circuit Current (Isc): _ 4.43 A .' Operating Voltage (Vpmax): + ' 18:1 V °- Current at Operating Voltage (Ipmax):. 4.15 A ' Photovoltaic Modules with maximum system voltage of 600 V do and Type f and Type 2 module fire performance, Model Series CS6C-XXXM, CS6C-XXXMS, where 'XXX' is the power output from 120 W to 180 W with the following electrical ratings typical at 145 W@ Standard Test Condition (STC): Open Circuit Voltage (Voc): f 22AV �, j' •s Short Circuit Current (Isc): 8.52 A _ Operating Voltage (Vpmax): 18.1 V Current at Operating Voltage (lpmax): 8.0l'A. ~. Phot ovoltaic.Modules with maximum system voltage of 600 V do and Type 1 and Type 2 module fire ' performance, Model Series CS6C-XXXP, where'XXX' is the power output from 120 W -to 180 W. with the following electrical ratings typical at 150 W @ Standard Test Condition (STC): r Open Circuit Voltage (Voc): - 22.3V n. Short Circuit Current (Isc):. 8.87 A ' ' . ` Operating Voltage (Vpmax): 18.1V • ' , Current at Operating Voltage .(Ipmax): 8.30 A Photovoltaic Modules with maximum system voltage of 600 V de or .1000 V do or 1500V do and Type.l and Type 2 module fire performance, Model Series CS6K-XXXP, where 'XXX' is the. power output from 220 W to 300 W with the following electrical ratings typical at 300 W for CS6K-XXXP series @ Standard Test Condition••# ' (STC): -, Open Circuit Voltage (Voc): * 38.8 V 'f _- Short Circuit. Current (Isc): 9.92•A = Operating Voltage'(Vpmax): 32:0 V " Current at Operating Voltage (lpmax): 9.38 A + Photovoltaic Modules with maximum system voltage of 600 V do and Type 1 and Type 2 module fire performance, Model Series CS6A-XXXM, CS6A-XXXMS, where'XXX' is the power output from 160 W to 245 , W with the following electrical ratings typical at 245 W @ Standard Test Condition (STC):' ' ' . Open Circuit Voltage (Voc): 32.1 V. Short Circuit Current (lsc): 9:84 A ' DOD -507 Rev. 2016-02-18 Pa e 4 ;, � .. 4 f :, ;'•, GSA � : , -` -• • ' Group ,'.. - , Certificate: 2284121 rc 1" 1Vl�stet Coui�a act:` -249143 Project: 70095478 Date lssuued : 2017-01-09, ` Operating Voltage (Vpmax): 26.2V '" f •' - Current at Operating Voltage (Ipmax): 9.36 A ' Photovoltaic Modules with maximum system voltage of 600 V, dc or 1000 V do and Type land Type 2 module. fire performance, Model Series CS6FA-XXXP, where'XXX is the power output from 40 W to 45 W with the following electrical ratings typical at 45 W for CS6FA-XXXP series @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.5V Short Circuit Current (Ise): 2.36 A `- Operating Voltage (Vpmax): ' 18.2V ` # I Y Current at Operating Voltage (Ipmax):: 2.47 A ; • h - - Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V- do and Type! l and Type 2 module fire performance, Model Series CS6DA-XXXP, where')=' is the power output from 60 W to 70 W with the :. following electrical ratings typical at 65 W for CS6DA-XXXP series @ Standard Test Condition (STC): [ Open Circuit'Voltage (Voc): 22.3V + • f Short Circuit Current (Ise): 3.85 A Operating Voltage (Vpmax): 18.0V Current at Operating Voltage (Ipmax): 3.60 A F .-Photovoltaic Modules with maximum system voltage jof 600 V do or 1000V do and-Type land Type f module fire performance, Model Series CS6DB-XXXP,,where'XXX' is the power output from 75 W to'90 W with the ` following electrical ratings typical at 85 W for CS6DB-XXXP series @ Standard Test Condition (S•) Q-` Open Circuit Voltage (Voc): 22.3V, - Short Circuit Current (Ise): 5.02A , Operating Voltage (Vpmax): - 18JVI Current at Operating Voltage (Ipmax): 4.70 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V de and Type 1 and Type 2 module -fire performance, Model Series CS6DC-XXXP, where'XXX' is the power output from 90 W to 100 W with the following electrical ratings typical at 100.W for CS6DC-XXXP series @ Standard Test Condition (STC).- Open STC):Open Circuit Voltage (Voc) 22.5V' Short Circuit Current (Ise): 5.85A _ Operating Voltage (Vpmax): 18.2V Current at Operating Voltage (Tpmax):' 5.49A".. r , Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type land Type 2 module fire performance, Model Series CS6N-XXXP, where 'XXX' is the power output from 90 W to. 115 W with the . following electrical ratings typical at 115 W for CS6N-XXXP series @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22AV ' Short Circuit Current (Ise): 6.76A Operating Voltage (Vpmax): _ _ 18.1 V ' DOD 507R.,.2016-02-19 Pa e 5 S� CSA Group Certifecate: 2284121 Project: 70095478 Current at Operating Voltage (Ipmax): 6.34 A Master Contract: 249143 Date Issued: 2017-01-09 Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do and Type land Type 2 module fire performance, Model Series CS6NA-XXXP, where'XXX' is the power output from 115 W to 130W with the following electrical ratings typical at 130 W for CS6NA-XXXP series @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 22.4V Short Circuit Current (Isc): 7.58A Operating Voltage (Vpmax): 18.4V Current at Operating Voltage (Ipmax): 7.07 A Photovoltaic Modules with maximum system voltage of 600 V do or 1000 V do or 1500V do (only for CS6K- XXXM series) and Type 1 and Type 2 module fire performance, Model Series CS6K-XXXM, CS6K-XXXMS, where'XXX' is the power output from 240 W to 305 W with the following electrical ratings typical at 305 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 39.9V Short Circuit Current (Isc): 9.75 A Operating Voltage (Vpmax): 32.9V Current at Operating Voltage (Ipmax): 9.27 A Photovoltaic Modules with maximum system voltage of 1000V do or 1500 V do and Type 1 module fire performance, Model Series CS6U-XXXM, where'XXX' is the power output from 260 W to 360 W with the following electrical ratings typical at 360 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 46.9 V Short Circuit Current (Isc): 9.78 A Operating Voltage (Vpmax): 38.7 V Current at Operating Voltage (Ipmax): 9.31 A Photovoltaic Modules with maximum system voltage of 1000V do or 1500 V do and Type 1 fire performance, Model Series CS6U-XXXP, where'XXX' is the power output from 250 W to 360 W with the following electrical ratings typical at 360 W @ Standard Test Condition (STC): Open Circuit Voltage (Voc): 46.5 V Short Circuit Current (Isc): 9.92 A Operating Voltage (Vpmax): 38.3 V Current at Operating Voltage (Ipmax): 9.40 A Photovoltaic Modules with maximum system voltage of 600V do or 1000 V do and Type land Type 2 module fire performance, Model Series CS6P-XXXP-SD, and CS6K-XXXP-SD where'XXX' is the power output from 240 W to 300 W with the following electrical ratings typical at 250 W @ Standard Test Condition (STC): Output Voltage Range (Vout): 5 — 60V Maximum Output Current (Imax): 15A s e CSA P Group Certificate: 2284121 Project: 70095478 Master Contract: 249143 Date Issued: 2017-01-09 Photovoltaic Modules with maximum system voltage of 600V do or 1000 V do and Type 1 and Type 2 module fire performance, Model Series CS6P-XXXM-SD, CS6K-XXXMS-SD, and CS6K-XXXM-SD where 'XXX' is the power output from 240 W to 305 W with the following electrical ratings typical at 250 W @ Standard Test Condition (STC): - Output Voltage Range (Vont): 5-60V Maximum Output Current (Imax): 15A Photovoltaic Modules with maximum system voltage of 600V or 1000 V do and Type 1 and Type 2 module fire performance, Model Series CS6P-XXXP-TD, where'XXX' is the power output from 240 W to 300 W with the following electrical ratings typical at 250 W @ Standard Test Condition (STC): Output Voltage Range (Vout): 16 — 32 V (Voc*) Maximum Output Current (Imax): 9.5 A *For modules with Smart Curve function the Voc is adjustable and is programmed only at the factory based on the PV module voltage. _ Notes: 1. Rated electrical characteristics are within +/-10% of measured values at Standard Test Conditions of 100 mW/cm2 irradiance, AM 1.5 spectrum, and cell temperature of 25°C. 2. A maximum series fuse rating of 20A is only for module Model Series CS6P-XXXP-SD, CS6K-XXXP-SD, CS6P-XXXM-SD, CS6K-XXXMS-SD and CS6K-XXXM-SD APPLICABLE REQUIREMENTS ULC/ORD-C]703-01 - Flat -Plate Photovoltaic Modules and Panels UL 1703-3' Edition - Flat -Plate Photovoltaic Modules and Panels Dat._ Shec Enphase Microinverters Enphase IQ 6 and IQ 6+ Microinverters U` To learn more about Eriphase offerings, visit enphase.com The high-powered smart grid -ready Enphase IQ 6 Micro'" and Enphase IQ 6+ Micro" dramatically simplify the installation process while achieving the highest efficiency for module -level power electronics. _ Part of the Enphase IQ System, the IQ 6 and IQ 6+ Micro integrate seamlessly with the Enphase IQ Envoy'", Enphase Q Aggregator'", Enphase.IQ Battery'", and the Enphase Enlighten'" monitoring and analysis software. The IQ 6 and IQ 6+ Micro extend the reliability standards set forth by previous generations and undergo over a million hours of power -on testing. Enabling Enphase to provide an industry-leading warranty of up to 25 years. Easy -to Install Lightweight and simple Faster installation with improved two -wire cabling Built-in rapid shutdown compliant (NEC 2014) Productive and Reliable Optimized for high powered 60 -cell and 72 cell* modules• More than a million hours of testing Class 11 double -insulated enclosure Smart Grid Ready Complies with fixed power factor, voltage and frequency ride_through requirements Remotely updates to respond to changing grid requirements. Configurable for varying grid profiles . The IQ 6+ Micro is required to support 72-celi modules ENPHASE Enphase IQ 6 and IQ 6+ Micr®inverters - 240 VA 290 VA INPUT. DATA (DC) . _ 230 VA 280 VA 1 Nominal vottage/range2 IQ6-60-2-US AND 906 -60 -5 -US I06PLUS-72-2-US AND RQ6PLUS-72-5-US Commonly used module pairings' 195W -330W+ 235W -400W+ Module compatibility 60 cell PV modules only A _ 60 -cell and 72 -cell PV modules T { Maximum_ input DC voltage - - . 48 V - Y - - 62 V' Peak power tracking voltage 27V -37V 27V -45V i Operatingrange ^^ " 16V-48V ~ 16V-_62V- Min/Max start voltage 22V/48V 22V/62V Ivtaz DC short &circuit current(module Isc) _ 15A r ' �15 A MECHANICAL DATA ti W Overvoltage class DC port II II ___0A .f'DC_po-rribackfeedund_'ersingtefault Tr~` OA_.��__. _ _ Weight 1.5 kg (3.3 lbs) PV array configuration' 1 x 1 ungrounded array; No additional DC side protection required, Approved for wet locations AC side protection requires max 20A per branch circuit OUTPUT DATA (AC) IQ6-60-2-US AND IQ6-60-5-US I06PLUS-72-2-US AND IQ6PLUS-72-5-US Peak output power_ 240 VA 290 VA - ^µ - Y Maximum continuous output power _ 230 VA 280 VA 1 Nominal vottage/range2 240 V % 211-264 V 208 V 6(b) / 183-229 V"2__40'V'_'-/_2__11'_2_6'4_V--_ 208 V (1 m) / 183-229 V 1 _. Nominal output current. 0.96 A 1.11 A 1.17 A 1.35 A Noi final frequency - 60 Hz ' . - 60 Hz' Extended frequency range 47 - 68 Hz f 47 - 68 Flz T^ Power`factor at rated power 1.o _ -' - 1.0 - M Maximum units per 20 A branch circuit 16 (240 VAC) R _ 13 (240 VAC) 14 (single-phase 208 VAC) - 11 (single-phase 208 VAC) Overvoltage class At port III AC port backfeed under single fault 0 A 0 A Power factor (adjustable) 0.7 leading... 0.7 lagging 0.7 leading'. 0.7 lagging W EFFICIENCY @240 V @208 V (10) @240 V @2.08 V (10) CEC weighted efficiency 97.0% 96.5 % 97.01/o 96.5% MECHANICAL DATA Ambient temperature range -40°C to +65°C Relative humidity range 4% to 100% (condensing) Connector type MC4 or Amphenol H4 UTX - Y Dimensions (WxHxD) 219 mm x 191 mm x 37.9 rnm (without bracket) Weight 1.5 kg (3.3 lbs) Cooling Natural convection- No fans Approved for wet locations Yes Pollution degree PD3 Environmental category / UV exposure rating Outdoor - NEMA 250, type 6 (IP67) FEATURES - Communication Power line Monitoring Enlighten Manager and MyEnlighten monitoring options Compatible with Enphase IQ Envoy Compliance UL 62109-1, UL1741AEEE1547, FCC Part 15 Class B, ICES -0003 Class 8; CAN/CSA-C22.2 NO. 107.1-01 f This product is UL Listed as PV Rapid Shut Down Equipment and conforms with NEC -2014 and NEC -2017 section 690.12 and 022.1-2015 Rule 64-218 Rapid Shutdown of PV Systems, for AC and DC conductors, when installed according manufacturer's instructions. 1. No enforced DC/AC ratio. See the compatibility calculator at enphase.corn/en-us/stifiport/module-compatibility, - 2. Nominal voltage range can be extended beyond nominal if required by the utility. To learn rnore about Enphase offerings, visit enphase-com rrj 2017 Enphase Energy. All rights reserved. All trademarks or brands used are the property of Enphase Energy, Inc. E N P H AS E. 2017-05-01 `/ California State Fire Marshal Information Bulletin 14-011 Issued: November 25, 2014 FIRE CLASSIFICATION FOR ROOF MOUNTED SOLAR PHOTOVOLTAIC SYSTEMS AND/OR PANEL MODULES — 2013 CALIFORNIA BUILDING STANDARDS CODE SUPPLEMENT EFFECTIVE JANUARY 1, 2015 The Office of the State Fire Marshal is issuing this Information Bulletin to address the use of photovoltaic solar systems and/or panel modules in areas outside the State. Responsibility Areas, (SRA) and Very High Fire Hazard Severity Zones. The adoption of UL 1703 with revisions through October 25, 2013.and the Emergency Rulemaking that delayed the effective date to January 1, 2015 of the adoption were intended to focus on the areas that require Class A. or Class B roofing (SRA and Very High Fire Hazard Severity Zones). Where Class A or Class B roofing is required, the photovoltaic solar system (photovoltaic panels with the rack support system) shall have a Class A or Class B rating, respectively. Areas in California that only require a minimum Class C roofing due to statutory provision contained in Health and Safety Code 13132.7 should not be impacted by the early adoption of UL 1703. Those buildings and structures requiring Class C roofing should be able to have installed one of the following and meet the intent of the 2013 California Building Standards Code: 1. Photovoltaic panels and modules having a Class C rating under the previous version of UL 1703 (2002 edition with revisions through April 2008), or 2. Photovoltaic panels and modules having a Class C rating complying with UL 790 (2004 edition with revisions through October 2008), or 3. Photovoltaic systems having a minimum Class C rating under the most recent version of UL 1703 (2002 edition with revisions through October 2013). Fire classification of photovoltaic solar systems and panels shall be marked with their fire classification rating, Class A, B, or C. Questions or comments regarding this Information. Bulletin should be .directed to Division Chief Kevin Reinertson, Code Development and Analysis at (916) 327-4998, or by electronic mail to kevin.reinertson@fire.ca..gov. For mo i In p'.case N,10 our «eb:;i:� http://osfm.fire.ca.gov Classic Composition Mount I AMSC T HIS' EDGE TOWARD 250 ROOF RIDGE i ii S i 12.00 t 1.50' o 3.00 6.00 12.00 1 FLASHING, 17 X I T X .050", 5052, MILL 1 it 2 QBLOCK, CLASSIC, A360.1 CAST AL. MILT T 3 HANGERBOLT, PLAIN CENTER, 5116'x 6', 18-8 SS 1 capacitiesLag pull-out (withdrawal) Lag Bolt Specifications Speafic Drwk WIT shaft per W thread depth i 5;16" shaft per 1` Thread depth Douglas Fir, Larch .50 266 Douglas Fir, South .46 705 235 �En�gelmannce, Lodgepole Pine (MSR 1650f & higher) .46 705 235 .43' 638 212 Hem. Fir (North .46 705 235 - Southern Pine — -- .55 921 3U7 'f Spruce. Pine. Fr .42 615 - 205 i Spruce, Pine, Fr (E of 2 million psi and higher grades of MSR and MEL) .50 796 266 Sources: American Wood Council, NDS 2005,Table 11.2 A. 11.3.2 A Notes 1) Thread must be embedded in a rafter or other structural roof member. 2) See NDS Table 11.5.1 C for required edge distances. B17.2.3-7 C4uick Mount PV, RESPECT. THE ROOF Apr -2014, Rev 6 Classic Composition. Mounting Instructions ` InstallationTiDols Required: tapemeasure, roofing bar, chalk fine, stud finderca-uWrtg gun,. sealant compatibPewith- roefinj materials, driil!l wl2h 7432:" Cong-style bit, drill ori:cmpactgun with 112" deep socket.. Locate, choose; and mark centers of rafters to be Carefully liftcomposition roof shingfewith roofing Insert flashing between 1st and 2nd course. Slide. mounted. Select the courses of shingles where bar, just above placement of mount. Remove nails up so top edge of flashing is at least V41" higher mountswill be placed. as required. See "Proper Flashing: Pfacement° on than the drip edge of the 3rd course and lower _ next page. flashing edge is above the drip edge of 1st course. Mark center for drilling. A4 'N - 11 ._,i ! .,r•,.r r;ts� Using drill with 7/32" bit, drill pilot hole into roof Clean off any sawdust, and fill hole with sealant Slide flashing into position. Prepare hanger bolt and. rafter, taking care to drill square to the roof. compatible with roofing materials. with hex nut and sealing washer. Insert into hole Do not use mount as a drill guide. Drill should be and drive hanger bolt until QBlock stops rotating 'long style bit' aka aircraft extension bit'to drill a easily. Do NOTover torque. 3" deep hole into rafter. Insert EPDM rubber washer over hanger bolt into Using the rack kit hardware, secure the racking block_ (L -foot) to the mount using torque specs from racking manufacturer. If racking manufacturerdoes 817.2-3-7 not specify torque setting, tighten to t3 fL-Ibs- You are now ready for the rack of your choice Follow all thedli cFc-6 ns of therara"ck manufacturer as well as the module m nufacturer. All roofing manufacturers written instructions must also be followed by anyone mod' in a roof system. Pleaseconsuhtheroofmanufact`urer's specs and instructions prior to touching the roof. Apr-2014, Rev 6 Reference and Tips Additional tips and information for installing mounts: ■ See Classic Composition Mount install and Quick lips videos on nail removal, bolt prep, and more at: www.quickmountpv.com/support/vide6s.html t ■ It is not necessary or advisable to use nails or.other fasteners to secure the perimeter of the flashing. ' ■ The Classic Composition Mount is made to work with standard and high-definition composition/ asphalt and wood shingle roofs with 5" to 5-5/8" courses. If the exposed surface of the course. exceeds this measurement you may need to use our Classic Shake Mount instead. ' s ■ Depending on the season and climate, size and location of seal tabs, and quality of the shingles; the seal tabs that adhere the shingle courses together may not effectively seal the shingles to the I flashings. If this is the case, simply add several quarter. -sized dabs of manufacturer accepted sealant or asphalt roofing cement, meeting ASTM D 4586 Type ll, between the flashing and the shingle above. ■ Mounts should not be installed in areas of the roof susceptible to ice damming. Water ponding under the shingles can reach the bolt penetration. ■ -Take care not to damage the roofing material while working on the roof. Removing stone granules l and deforming the shingles in any way can shorten the lifespan of the roofing.'The value of the solar j array is directly affected by the condition of the roof it is attached to. BG 7.2.3-F Apr -2014, Mere 6 Quick Mount PV" RESPECT THE ROOF 925-478-8269 • www_quickmountpvcom • info@quickmou'tpV.com 2700 Mitchell Dr., Bldg 2 • Walnut. Creek, CA 94598 0 2013 by Quick Mount PV All rights reserved. -`mac r ..S' y S __000 M..IC.RORAIL O© SUNFRAME MICRORAiLTM (SFM) is a hybrid racking INDUSTRY LEADING FEATURES system includinga structural front TrimrailTM for fastest STRUCTURAL FRONT TRIMRAIL array alignment and superior aesthetics. Minimize total FASTEST ARRAY ALIGNMENT & SUPERIOR AESTHETICS labor with pre= assembled parts, integrated bonding POST INSTALL HEIGHT ADJUSTMENT { hardware and one tool installation. Compact packaging ;LEVEL MODULES ANYTIME DURING INSTALLATION . , with few SKUs lowers logistics costs from the "SINGLE MODULE ACCESS warehouse to the roof. Patented mounting components REMOVE SINGLE PANELS FOR ARRAY MAINTENANCE 4' provide post -install height adjustment and allow.for removal of individual panels for maintenance. SINGLE TOOL INSTALLATION f, QUICK& EASY ARRAY ALIGNMENT• JRIMRAIL WITH SEAMLESS MODULE MOUNTING MIXED ARRAYS - PORTRAIT &LANDSCAPE ORIENTATION AVAILABLE MLPE MOUNT WITH CABLE MANAGEMENT CLOGISTICS OPTIMIZED - COMPACT PACKAGING FEW SKUS SIMPLIFIES INSTALLATION } ENHANCED U -BUILDER DESIGN / LAYOUTTOOL • ` ON-SITE PRODUCTTRAINING IA01, MOPfRF O,R A NE LESS, RAIL, MORE PERFORMANCE SOLAR -SHOULD BE SIMPLE ` No unique module type or frame required for installation Accommodates the most common frame heights: 32mm, 35mm, 40mm & 46mm � .. Design around the roof, not the racking Portrait, Landscape or Mixed module orientation Maximize pokr onthe goof, install upto 2576 more with modules in landscape orientation UL2T03 Listed. Accommodate the most stringent AHJ requirements , Stagger roof attachments &useattached splice for extra strength and flexibility Lose All the Copper and Lugs. Bonding and grounding thru Enphase M215 & M250 Microinverters ` f 7 Full wire management solution allows pre -management of wires before module installation ; y Engage Wire Management Clip, MLPE Mount & Heyco Dual PV wire trunk cable clips Small components, Compact packaging& Pre -assembled parts ' A third less volume than traditional racking. Fit several jobs -worth of racking on a single truck, r. a� • � { "' Rpt i ttr;fi�'t; . - . • � 1700 � r r -, •tom _ - +���,- y - COLLABORATION WITH INDUSTRY LEADING INSTALLERS - FIELD TESTED & VERIFIED WORLD CLASS U -BUILDER. FOR QUICK & EFFICIENT DESIGN / LAYOUT WITHIN MINUTES FAST AND EASY PERMIT. APPROVAL ; '• PRODUCTTRAINING WITH PROJECT MANAGEMENT SERVICES TO MINIMIZE INSTALLATION LEARNING CURVE. ttit ( if +1 d ! P Pa .(r{ �:� ►,� ,tf[ i a t, !` + ti r s� ed .� .�1 �'_ `+ ,r� :.t. �', ii. � �L r -:t s J10fic �tjr'p�s. t >i,� rv!' Qiif.?Inc ;�:,:°uss