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VICINITY MAP Riverside County: APN 624140016 APPLICABLE CODES: Z 1 �� °a - its to Pines r� CT I Aulomotive� Desert Electric Supply Cj m y eavm°,° California Residential Code 2019 ` o I de Mama Margarita A. Q s 8 California Electrical Code 2019 W =N The Lunch Spi a,, O N(2 Elite Boxing Academy sanewmn (� N National Electrical Code 2017 � T�Q� y�> 0 Q 2019 California Amendments 2'L(-'f < High tech Irrigation Janl Dr Casa Talavera Imports • L 00 U Gaylord Fine Art v Fo?�ry;tae (� J 0 - PALM DESERTo City of Palm Desert Municipal Code w�� n 5 S AUTOMOTIVE Kirg Rahn Clr Autorepairshop (6c 0 King Fisher Clr \ C / Kitchen Pros USAQ © QPrnnaSty SHEET INDEX 0Z:00 E� m More ar Merle or Merle or Congregation Beth Mart GENERAL of'oa O 4P42a Shalom-East Valley_. U Pallor Desert, Cir, Rancho Vista Apartments y V P C1 COVER SHEET Palm Desert,CA 92260 Cherisl A� Photogl r m l2FlleAvc ecFaAv. ealieAv6 leaaeA— OliveCre S1 SITE PLAN O'Sullivan Golf cars Hanson Painting o' S2 PLOT PLAN Silver Spur Pool Services u',g Q 0 Q c.ry Ave Residential Design By: ELECTRICAL T Jonathan Peleuare Gary Ave Gary Ave Gery Ave Q Gary Ave Vista Palm OQ ft The Golf®y © t �,�Yla E1 PROJECT SIGNAGE aNCleaning rs d Main,a°ar,ce Haws Car WashQ E2 I SINGLE LINE Senior Living Options Of The Desert9 4p STRUCTURAL Targe ® coachella valley water District/WRP#10 P1 PROFILE ELEVATIONS fagnesla Falls Or Ma9nesr=Peas or-- DATA SHEET MODULE Caumb;peg L Premier Resident P- vServlCea WIND CALCULATION � Santo11na0, G "'i� LOAD CALCULATION N 00 CONSTRUCTION HOURS: PROJECT CONTACTS: RACKING �_ Q LOAD CENTER C U CONTRACTOR: RENOVA O _ } OCTOBER 1 THRU APRIL 30 permits@renovaenergy.com SOLAR READY PANEL J ui w Monday - Friday 7:00 am - 5:30 pm w p LU Saturday 8:00 am - 5:00 pm Primary Contact: _ 5 w Sunday NOT ALLOWED Matthew De La Torre C) Q ao ei Government Code Secondary Contact: Z Q [)f LO n Holidays NOT ALLOWED Amy Dominguez J N 2 MAY 1 THRU SEPTEMBER 30 SCOPE OF WORK: a Monday - Friday 6:00 am - 7:00 pm Drawn ByWO Saturday 8:00 am - 5:00 pm Project consists of installing a solar photovoltaic (PV) system comprised of: PV JACK GE Sunday NOT ALLOWED modules, power inverter(s), conduits w/fittings and wires, roof stanchions, and a Date Drawn: Government Code rack mounting system to provide a renewable power source for the customer. 12/01/2022 Holidays NOT ALLOWED Revision No. 0 Sheet No. C1 COVER SHEET ALL CONSTRUCTION SHALL COMPLY WITH THE 2019 CALIFORNIA RESIDENTIAL CODE, SOLAR SYSTEM SIZE: 9.130 kW DC zn 2019 ELECTRICAL CODE BASED ON THE 2017 NATIONAL ELECTRICAL CODE. CEC AC SYSTEM SIZE: 8.333 kW AC Ol NOTES: ^`^ 0 o W Q� 0 (6 N u 1.THIS IS A 9.130 KW SOLAR ELECTRIC SYSTEM USING U °' a) (22)SUNPOWER SPR-M415-BLK-H-AC MODULES (415 WATT). 2 f5 U m C t U 2.THIS SYSTEM IS GRID-INTERTIED VIA AC MODULES PER NEC 690.6. j � m o u) - CIRCUIT#1 b o'�o 10 3.THIS SYSTEM HAS NO UPS, NO BATTERIES. C m w E— u - a 0 LO 4.THIS IS A ROOF MOUNTED SYSTEM,ADDING 2.84 LB/SQ FT. �CIRCUIT#2 a) � U ROOF IS ASPHALT SHINGLE AT 10° PITCH. > C - CIRCUIT#3 5.THE SYSTEMS SQUARE FOOTAGE IS 458 FT (13%OF TOTAL ROOF AREA). MODULES HAVE AN AZIMUTH OF 270' .fir. 6. MODULES ARE 0°TILT ABOVE ROOF SLOPE, NOT TO EXCEED 18"ABOVE m PROPERTY LINE ROOFSURFACE. � ---------------------------------- ------------------------------� SIDE YARD PV Installation 7. BUILDING IS A SINGLE STORY DWELLING. r1 I� Company J ;;u Renova Energy Corp. W I O California-2012 8. LAG SCREWS ARE 5/16"X 4"AT 72"O.C. MAX,WITH 2.5" INTO FRAMING. �^ VENT D,0 9. MODULES WILL BE SECURED TO ROOFTOP USING PEGASUS COMP MOUNT ` J < ATTACHMENTS WITH INVISIMOUNT SUPPORT RAILS. Irl„I >I North Board of 1 I 10.ATTACHMENTS WILL BE FLASHED. 11. DESIGNED FOR BASIC WIND SPEED OF 130 MPH (WIND EXPOSURE C) EXISTING METER#222012-592400 PER INVISIMOUNT CALCULATIONS, SEE SPECS. I UPGRADE EXISTING 125 AMP MAIN SERVICE PANEL 12.VISIBLE EXPOSED CONDUIT SHALL BE PAINTED TO MATCH. TO LEVITON 225 AMP SOLAR READY PANEL #LP320-SR 120/240 VOLT, 10, 3W 13. MODULE DIMENSIONS ARE 40.6"X 73.7" I I LOCATED ON EAST EXTERIOR WALL DRIVEWAY I 125 AMP AC LOAD CENTERI 14. SYSTEM INSTALLATION SHALL BE PER NEC 690 AND IS SUBJECT TO I EATON #BR816L125RP O FIELD INSPECTION BY THE CITY. i 120/240 VOLT I LO co ' � N LOCATED NEXT TO MAIN 15. PROPER CLEARANCES SHALL BE IN ACCORDANCE WITH CAL FIRE I pp d� GUIDELINES. i — —— I i ,I- AC SOLAR MODULES I 0 U O 2 I ) Ow 0� "J � W L--------------------------SIDE YARD ------------------------------- J J w 0 U) PROPERTY LINE Q > Q 0 CD Q (2 LO -j z J (n 't 0- 2 0- Drawn By: JACK GER O Date Drawn: 12/01/2022 NRevision No. 0 W E Sheet No. S S1 SITE PLAN SCALE: 1" = 20' AC LOAD CENTER MAIN PANEL zn WARNING THIS PANEL IS FED BY TWO SOURCES: SAFEGUARDS CM 1. SOLAR BREAKER SHALL BE LISTED FOR USE IN EXISTING MAIN PANEL. ALL WIRING BETWEEN AC MODULES SHALL BE co UTILITY AND SOLAR PHOTOVOLTAIC ; co ELECTRIC SHOCK HAZARD. DO NOT ACCEPTED BREAKER REPLACEMENTS ARE EATON, SQUARE-D & GE. PV-WIRE AND AC CABLE. a, Q o TOUCH TERMINALS. TERMINALS ON 2. ALL JUNCTION BOXES SHALL BE NEMA OUTDOOR/RAINTIGHT RATED. ALL CONDUIT SHALL BE 3/4" EMT OR LARGER. � o N , BOTH THE LINE AND LOAD SIDES MAY C) ,--'2 BE ENERGIZED IN THE OPEN POSITION. SOLAR BREAKER 3. WILEY CABLE CLIPS SHALL BE USED. ALL CONDUIT SHALL BE BONDED. aj 4. ALL EMT SHALL USE OUTDOOR RAINTIGHT COMPRESSION FITTINGS. � RAPID SHUTDOWN SWITCH ALL CONDUIT SHALL BE SUPPORTED BY RUBBERrU MAX AC OPERATING CURRENT: 35.2 A 5. ALL EQUIPMENT SHALL BE LABELED. w N FOR SOLAR PV SYSTEM V)o L OPERATING AC VOLTAGE: 240 Volts 6. ADD COMBINER/JUNCTION BOXES AS NEEDED. PYRAMID SUPPORTS. > o 2i o coo 7. AN INTERNAL BLOCKING DIODE IS PROVIDED IN EACH MODULE. STEEL CITY 6"X6"X4" (OR LARGER) OUTDOOR �� E" L Fu LOAD CENTER 8. MODULE GROUNDING SHALL BE MADE VIA RACKING CLAMPS. JUNCTION BOXES SHALL BE USED AS NEEDED. C a_ SOLAR BREAKER 9. ALL NEUTRAL TO GROUND CONNECTIONS SHALL OCCUR IN THE MAIN ALL CONDUIT SHALL HAVE PLASTIC STRAIN RELIEF a) 0 PHOTOVOLTAIC DISCONNECT PANEL. WARNING BREAKER LOCATED INSIDE 10. EMT SHALL BE 3/4" MINIMUM. CONNECTORS TO PROTECT WIRES. INVERTER OUTPUT CONNECTION DO 11. JUNCTION BOX/ COMBINER BOX ENTRY SHALL USE COMPRESSION NOT RELOCATE THIS OVER CURRENT MAIN BREAKER FITTINGS. DEVICE. THE MAIN BREAKER HAS BEEN MAIN PANEL DOWN-SIZED TO 200 AMPS MARKING PV Installation PHOTOVOLTAIC SYSTEM EQUIPPED NO UP-SIZING IS PERMITTED Company 1. THE MATERIAL USED FOR MARKING SHALL BE REFLECTIVE, WEATHER RESISTANT AND SUITABLE FOR THE Renova Energy Corp. WITH RAPID SHUTDOWN ENVIRONMENT. MARKING AS REQUIRED IN SECTIONS R 331.2.2 THROUGH R331.2.4 SHALL HAVE LETTERS California-2012 TURN RAPID SHUTDOWN CAPITALIZED WITH A MINIMUM HEIGHT OF 3/8"WHITE ON RED BACKGROUND. (CRC R331.2.1) TCH TO THE "OFFI POSITION TO 2. THE MARKING CONTENT SHALL CONTAIN THE WORDS "WARNING; PHOTOVOLTAIC POWER SOURCE" (CRC R331.2.2) SHUT DOWN PV SYSTEM North American Board of AND REDUCE ^T� SHOCK HAZARD NOTES —I IN THE ARRAY LAI 1. WIRE AND SIZES ARE AS INDICATED OR LARGER. 2. ALL EQUIPMENT IS BONDED BY MECHANICAL MEANS OR BY A GROUNDING CONDUCTOR. 3. THE GROUNDING ELECTRODE CONDUCTOR SHALL BE#8 AWG COPPER GROUND WIRE MAIN PANEL: MECHANICALLY ATTACHED AND BONDED TO THE EXISTING GROUNDING ELECTRODE SYSTEM. WARNING ® 4. CHANGES TO DESIGN NEED PRIOR ENGINEER APPROVAL. THIS FACILITY IS EQUIPPED WITH A PHOTOVOLTAIC PANEL: LOAD CENTER PANEL VOLTAGE: 240/120 V 10,3W CIRCUIT CODE: N: NON-CONTINUOUS GENERATOR LOCATED ON THE ROOF AS SHOWN. LOCATION: NEXT TO MAIN BUS: 125A L: LONG-CONTINUOUS O THE SYSTEM MAY BE DISCONNECTED FROM THE MOUNTING: SURFACE R: DEMANDABLE RECEPTACLES LID N FACILITY PER THE AC DISCONNECT AS SHOWN. 00 N N � 00 VA LOAD LOAD o TYPE C.B. BUS C.B. TYPE o LOAD VA LOAD t Q A B DESCRIPTION N R L TR P A B P TR L R N 0U DESCRIPTION B A U C) 1536 CIRCUIT 1 L 20 20 2 x L O U W N 1536 CIRCUIT 1 L - - - x L . .J cIf W 1536 CIRCUIT 2 L 20 20 2 x L = L U C) � W E 1536 CIRCUIT 2 L - - - x L Q > Q Lu S 1152 CIRCUIT 3 L 20 20 2 x L Q < CD 2i 1152 CIRCUIT 3 L - - - x L z JWt d 0 a` Drawn By: MAIN PANEL 4224 4224 PHASE TOTAL JACK GER OO (YOU ARE HERE) RAPID SHUTDOWN PHASE TOTALS A+B CONNECTED VA (CODE L): 8448 Date Drawn: (CB INSIDE MAIN) CONNECTED VA (CODE R): 12/01/2022 CONNECTED VA (CODE N): TOTAL CONNECTED KVA: 8.45 Revision No. TOTAL PANEL AMPS: 35.2 0 Sheet No. E1 NOTE: RED BACKGROUND WITH WHITE LETTERING 3/8" LETTER HEIGHT PROJECT PROJECT SIGNAGE NOTES & PANEL SCHEDULE SIGNAGE SOLAR SYSTEM SIZE: 9.130 kW DC UPGRADE EXISTING 125 AMP MAIN SERVICE ZT11 CEC AC SYSTEM SIZE: 8.333 kW AC PANEL TO 225 AMP SOLAR READY PANEL LEVITON #LP320-SR co co 240/120 VOLT, 2-POLE LOCATED ON EAST EXTERIOR WALL 2-�N SERVICE EQUIPMENT IS BOTTOM FED TO UTILITY � ° Lo(10 o *� 0'co c M M TER#222012-592400 ° '- � ° N tS7 J 125 AMP AC LOAD CENTER > � o L SOLAR ARRAY EATON #BR816L125RP UPGRADE EXISTING 100A o (22) SUNPOWER 415 WATT 240V, 2P MA N BREAKER TO 200A 0 °� E PHOTOVOLTAIC MODULES LOCATED NEXT TO MAIN C #SPR-M415-BLK-H-AC 0 (2 CIRCUITS OF 8 MODULES & 1 2 50 AMP SOLAR 1 CIRCUIT OF 6 MODULES) 20A BREAKER SOLAR BREAKER SUITABLE BREAKER 1 OF 3 /� FOR DISCONNECTING MEANS PER NEC 690.13 BREAKER 2 OF 3 � N BAR G BAR 20A N BAR BREAKER 3 OF 3 �\ PV Installation Company G BAR Renova Energy Corp. California—2012 3 15A #4 THWN-2 GEC EXISTING North American Board of GROUNDING ^� -I 0 ELECTRODE CONDUIT SCHEDULE PVS6 (MONITOR) LOCATION CONDUCTORS CONDUIT INTERNET, 240V (a:) (6)#10 THWN-2, (1)#10 EGC 3/4" EMT LOCATED NEXT TO LOAD CENTER O2 (3)#6 THWN-2, (1)#10 EGC 3/4" EMT "FOR UTILITY PURPOSES ONLY:(22)ENPHASE IQ7HS-66-ACM-US(IQ7HS-66-ACM-US)240V[S11] INVERTERS 3 (3)#12 THWN-2, (1)#12 EGC 3/4" EMT EGC=EQUIPMENT GROUNDING CONDUCTOR,GEC=GROUNDING ELECTRODE CONDUCTOR O #6 COPPER SOLID GROUND TO BE USED ON ROOFTOP WHEN NOT PROTECTED BY CONDUIT L0 Cfl ALL BREAKERS SHALL BE 2 POLE UNLESS OTHERWISE NOTED pp N ALL INNER-CIRCUIT WIRING SHALL BE#10 THWN-2 WIRE OR GREATER. N C14 SINGLE LINE DIAGRAM 00 � � Q AC CIRCUITS U 0 = >- �_: AC MODULES TO 125A AC LOAD CENTER 125A AC LOAD CENTER TO MAIN PANEL U) U Lu j2� 2 CIRCUITS X 8 MODULES & 1 CIRCUIT X 6 MODULES — 22 MODULES MAX OUTPUT = 22 MODS X 1.60 AMP X 1.25 [PER NEC 215.2 (A)1] =44.0 AMPS (50 AMP SOLAR BREAKER) J L>u 0 U) MAX VOLTAGE AC 240 VOLT AC CONDUIT SHALL BE MOUNTED ON EXTERIOR WALL. _ > =) LLI 1.60 AMPS EACH CIRCUIT X MAX 10 MODULES X 1.25[PER NEC 690.81 — 20.0 AMPS (20 AMP CB) ENGINEERED FOR 90°C TEMP. RATING OF CONDUCTOR &42°C AMBIENT TEMP. PER SOLARABCS.ORG 0 2 CD 0 AC CONDUIT SHALL BE MOUNTED A MINIMUM OF 1" ABOVE ROOFTOP SURFACE. #6 WIRE = 75 AMPS X .82[PER NEC TABLE 310.15(B)(16) & PER NEC TABLE 690.31(A)] = 61.5 AMP >_ 50 AMP ✓ Q 0 LO _j ENGINEERED FOR 90°C TEMP. RATING OF CONDUCTOR &42°C AMBIENT TEMP. PER SOLARABCS.ORG (3)#6 THWN-2 AWG WIRE, (1)#10 THWN-2 GROUND Z? Q N Q #10 WIRE = 40 AMPS X .82[PER NEC TABLE 310.15(B)(16) & PER NEC TABLE 690.31(A)] = 32.8 AMPS 3/4" EMT @ 40% FILL PER NEC TABLE C.1 = (4)#6 THWN-2 WIRES ✓ z J ° 2 32.8 AMPS X .80[CONDUIT FILL PER NEC TABLE 310.15(B)(3)(a)] = 26.24 AMPS >_ 20 AMPS ✓ a` 3 CIRCUITS = (6)#10 THWN-2 AWG WIRE, (1)#10 THWN-2 GROUND MAIN PANEL BACKFEED CALCULATION Drawn By: 3/4" EMT @ 40% FILL PER NEC TABLE C.1 = (10)#10 THWN-2 WIRES ✓ UPGRADE EXISTING 125 AMP MAIN SERVICE PANEL TO 225 AMP JACK GE MO UPGRADE EXISTING 100 AMP MAIN BREAKER TO 200 AMP 120% OF 225 AMP BUS: ALLOWABLE BACKFED AMPS [PER NEC 705.12(B)(2)] = 270 AMPS Date Drawn: 270 AMP - 200 AMP MAIN BREAKER = 70 TOTAL AMP ALLOWABLE 12/01/2022 MAX OUTPUT = 44.0 AMPS <_ 70 AMPS ✓ Revision No. 0 Sheet No. E2 SINGLE LINE CALCULATIONS TOP VIEW ELEVATION A—A' z' co v� _o 8 O N Ot co aN.�ch 4t aj / TNQV ch c d O N I? U '`u O'O N Lf� J i 0 p N o >O CO O co C O W U L PV Installation *MODULES NOT TO EXCEED 18"ABOVE ROOF SURFACE Company SCALE: Renova Energy Corp. A „_ , 2 California—2012 A' 1 4 ELEVATION B—B' North American Board of RiAM^r�D - USE (1) 5/16" x 4" SS LAG SCREWS AT 6' O.C. WITH 2.5" O EMBEDMENT INTO WOOD RAFTERS. LID N - RAFTERS ARE 2"x6" AT 2' O.C. � N - DO NOT INSTALL STANDOFFS OVER WOOD CRICKETS tt - STANDOFFS ATTACHED TO MAIN ROOF FRAMING. U HORIZONTAL DISTANCE BETWEEN ATTACHMENTS O = NOT TO EXCEED 6 FEET ON CENTER U j C) W j2� "J � W VERTICAL DISTANCE BETWEEN ATTACHMENTS *MODULES NOT TO EXCEED 18" ABOVE ROOF SURFACE SCALE: J W C) U) NOT TO EXCEED 4 FEET ON CENTER 1 V=4' 3 3: Q WW ATTACHMENT DETAIL Q < LQ CD z _j ccn � 0- N 2 O a` Drawn By: JACK GE O Date Drawn: 12/01/2022 RAFTER 1 Revision No. N 1 - 0 W E Sheet No. P1 *MODULES NOT TO EXCEED 18"ABOVE ROOF SURFACE S *MODULES NOT TO EXCEED 18" ABOVE ROOF SURFACE PROFILE 1"=12' SCALE N/A : 1 SCALE: 4 ELEVATIONS co CIJW C N C �C:� - _ W{�j`: e • �.,0_C COO J .-•.• - '\V LLJ�Oa O W` / of t U COO Ev(L LO CD ! o ° rr.- LO 00 CV °\ �f N O� o ° ' 00 U) CUw O� t Y � = w � � E Q Q0� L rZU) QN Q #p Drawn By: _ JACK GER O IF t. Date Drawn: 12/01/2022 Revision No. �. Sheet No. S2 ; ,, PLOT PLAN M SUNPOWER° 425-410 W Residential Black AC Module SunPower' Maxeon'Technology Built specifically for use with the SunPower Equinox°system,the only fully integrated solution designed, engineered, and warranted by one company. T Highest Power Density Available y The patented, solid-copper foundation Maxeon Gen 6 cell is over 5% larger than prior generations, delivering the highest-efficiency all-black AC solar module available.' Part of the SunPower Equinox Solar System E E % •Seamless aesthetics m Ln ,67D larger • Compatible with mySunPower monitoring �i, Highest Lifetime Energy and Savings L f Designed to deliver 60% more energy over 25 ears in g gY Y real-world conditions like partial shade and high temperatures.Z say - - - - - - - - - - - - - - - - - - - - - - - 140% - - - - - - - - - - Facto ry-integrated v 130% 120% up to Microinverter -O °' 110% 60% • Highest-power integrated 100% More v 90% Lifetime AC module in solar w 80/0 Energy 70% Conventional • Engineered and calibrated N 60% by SunPower for SunPower 05 10 1s 20 25 Years of Operation AC modules Best Reliability, Best Warranty •;. With more than 42.6 million and 15 GW of modules deployed 77 around the world, SunPower technology is proven to last. That's why we stand behind our module and microinverter with the industry's best 25-year Combined Power and Product Warranty, including the highest Power Warranty in solar. M425-BLK I M415-BLK M410-BLK SunPower Residential Black AC Module AC Electrical Data Inverter Model:Type H(Enphase IQ7HS) @240 VAC @208 VAC Max.Continuous Output Power(VA) 384 369 Nom.(L-L)Voltage/Range'(V) 240/211-264 208/183-229 Max.Continuous Output Current(A) 1.60 1.77 Max.Units per 20 A(L-L)Branch Circuit° 10 9 CEC Weighted Efficiency 97.0% 96.5% Nom.Frequency 60 Hz 60 Hz Extended Frequency Range 47-68 Hz 47-68 Hz AC Short Circuit Fault Current Over 3 Cycles 4.82 A 4.82 A Overvoltage Class AC Port III III AC Port Backfeed Current 18 mA 18 mA Power Factor Setting 1.0 1.0 Power Factor(adjustable) 0.85(inductive)/0.85(capacitive) 0.85(inductive)/0.85(capacitive) DC Power Data Warranties,Certifications,and Compliance SPR-M425-BLK-H-AC SPR-M415-BLK-H-AC SPR-M410-BLK-H-AC Warranties 25-year limited power warranty Nom.Power6(Pnom)W 425 415 410 25-year limited product warranty Power Tolerance +5/-0% +5/-0% +5/-0% UL 1741 /IEEE-1547 UL 1741 AC Module Module Efficiency 22.0% 21.5% 21.2% UL 61730(Type 2 fire rated) Temp.Coef.(Power) -0.29%/°C -0.29%/°C -0.29%/°C UL 62109-1 /IEC 62109-2 FCC Part 15 Class B Shade Tolerance Integrated module-level max.power point tracking ICES-0003 Class B CAN/CSA-C22.2 NO.107.1-01 CA Rule 21 (UL 1741 SA)5 Tested Operating Conditions Certifications (includes VoltNar and Reactive Power Priority) Operating Temp. -40°F to+185°F(-40°C to+85°C) and UL Listed PV Rapid Shutdown Equipment' Compliance Enables installation in accordance with: Max.Ambient Temp. 122°F(50°C) NEC 690.6(AC module) Max.Test Load' Wind:125 psf,6000 Pa,611 kg/m2 back NEC 690.12 Rapid Shutdown(inside and outside the Snow:187 psf,9000 Pa,917 kg/m2 front array) Wind:75 psf,3600 Pa,367 kg/m2 back NEC 690.15 AC Connectors,690.33(A)-(E)(1) Max.Design Load Snow:125 psf,5400 Pa,550 kg/m2 front When used with AC module Q Cables and accessories Impact Resistance 1 inch(25 mm)diameter hail at 52 mph(23 m/s) (UL 6703 and UL 2238)7 •Rated for load break disconnect Mechanical Data PID Test 1000 V:IEC 62804 Solar Cells 66 Maxeon Gen 6 Front Glass High-transmission tempered glass with anti reflective coating Packaging Configuration Environmental Rating Outdoor rated Modules per pallet 25 Frame Class 1 black anodized(highest AAMA rating) Packaging box dimensions 75.4 x 42.2 x 48.0 in.(1915 x 1072 x 1220 mm) Weight 48 Ibs(21.8 kg) Pallet gross weight 1300 lb(590 kg) Recommended Max. 13 in Pallets per container 32 Module Spacing . .(33 mm) Net weight per container 18,880 kg 73.7 in 1 Based on datasheet review of websites of top 20 manufacturers per IHS,as of July 2021. I [1872 mm] FRAME PROFILE 2 Maxeon 435 W,22.5%efficient,compared to a Conventional Panel on same-sized arrays(300 W,19%efficient, ] approx.1.6 m2),7.9%more energy per watt(based on PVSyst pan files for avg.US climate),0.5%/yr slower E degradation rate Qordan,et.al."Robust PV Degradation Methodology and Application"PVSC 2018). Grounding Holes E 3 Based on search of datasheet values from websites of top 10 manufacturers per IHS,as ofJune 2021. 4 Limits may vary.Refer to local requirements to define the number of microinverters per branch in your area. C E �- 5 Factory set to IEEE 1547a-2014 default settings.CA Rule 21 default settings profile set during commissioning. o E 6 Standard Test Conditions(1000 W/mz irradiance,AM 1.5,25°C).All DC voltage is fully contained within the module. o 7 UL Listed as PVRSE and conforms with NEC 2014 and NEC 2017 690.12;and C22.1-2015 Rule 64-218 Rapid (A)Long Side:1.3 in(32 mm) Shutdown of PV Systems,for AC and DC conductors;when installed according to manufacturer's instructions. Short Side:0.9 in(24 mm) 8 Please read the safety and installation instructions for more information regarding load ratings and mounting configurations. See www.sunpower.com/companyfor more reference information. Please read the safety and installation instructions for details. For more details,see extended datasheet:www.sunpower.com/solar-resources. Specifications included in this datasheet are subject to change without notice. oo IIcaio wwo �riNv ©2022 SunPower Corporation.All rights reserved.SUNPOWER,the SUNPOWER logo and EQUINOX are E "°s"�°°"" 544400 RevA registered trademarks of SunPower Corporation in the U.S.MAXEON is a registered trademark of Maxeon Solar pU1A1EN1 Technologies,Ltd.For more information visit www.maxeon.com/legal. LISTED FA78= Modal.Fire Performance:Type 2 .January 2022 1-800-SUNPOWER I sunpower.com QROFESS/p�, E JON�S�F .y m N0. 1660C'0C", M SINGLE-FAMILY DWELLING-LOAD CALCULATION * EXP. 6/30/24 NEC 2017 Edition: Following Example Annex D2(b) RECTO, Customer Name: Lisa Dahl;42550 Audrey Circle, Palm Desert, CA 92260 FOF CA��F� 1. OTHER LOADS: a. General lighting&receptacle loads; 1,682 sq.ft.x 3 VA= 5,046 VA b. Small appliance loads; 1,500 VA x 3 circuits= 4,500 VA c. Laundry= 1,500 VA d. Special loads: Dishwasher = 0 VA Disposal = 0 VA Refrigerator = 0 VA Water heater( if Gas=0) = 0 VA Oven-220.55 = 0 VA Cook Top = 0 VA 60A subpanel = 11,520 VA EV carcharger-future = 9,600 VA Pool = 5,120 VA Garage/outside plugs = 3,840 VA Clothes Dryer = 0 VA Microwave = 0 VA (Subtotal) 41,126 VA First 10,000VA x 100%= 10,000 VA Remaining 31,126 VA x 40% 12,450 VA (Total#1= Net Load) 22,450 VA 2. HEATING OR A/C LOAD: Heating units(3 or less)= VA x 65% 0 VA Heating units(4 or more)= VA x 40% VA Wall AC unit= 1,176 VA x 100% 1,176 VA A/C unit#10312= 6,361 VA x 100% 6,361 VA (Total#2= Net Load) 7,537 VA Net Load (Total#1+Total#2 =Subtotal Net Load) 29,987 VA VA SERVICE: I = V SERVICE: I= 29,987 VA = 124.9 A 240 V Service amperes required 124.9 A Service amperes provided 150 A 11/22/2022 RJ SUNP , WER InvisiMount Span Tables Engineering Summary Letter Volume: 2 ASCE 7 Version: 7-16 Module Type: E/X Series (96-cell) Roof Attachment: Pegasus Tile Roof- Generation 1 The following tables list the allowable spacing of attachment points for the SunPower InvisiMount mounting system. The following building codes and standards were used in the calculations: California Building Code (CBC 2019) • California Residential Code (CRC 2019) • Minimum Design Loads for Buildings and Other Structures (ASCE 7-16) List of Volumes: 1 E/X Series Module+ Pegasus Composite Shingle Attachment 2 E/X Series Module+ Pegasus Gent Tile Attachment 3 E/X Series Module+ Pegasus Gent Tile Attachment 4 A Series Module+ Pegasus Composite Shingle Attachment 5 A Series Module+ Pegasus Gent Tile Attachment A Series Module+ Pegasus Gent Tile Attachment Loads on the system were calculated in accordance with ASCE 7-16, using the following parameters: • Risk Category II • System weight(including PV modules and rails) = 2.50 psf • Module orientations: Portrait& Landscape • No live load acts on top of the PV modules • Wind speed & exposure as indicated in the tables • Roof height and slope as indicated in the tables • Gable and Hip roofs only with modules not in the overhang sections of the roof • For wind load, topographic factor Kzt= 1.0, and directionality factor Kd =0.85 per ASCE 7-16 Table 26.6-1 • Wind load coefficients per either wind tunnel testing or ASCE 7-16 Chapter 30 (see notes below tables) • Ground snow load as indicated in the tables For snow loads,thermal factor Ct= 1.2 ("unheated and open air structures"), per ASCE 7-16 Table 7.3-2 For snow loads, exposure factor Ce =0.9 ("fully exposed"), per ASCE 7-16 Table 7.3-1 For snow loads, slope factor Cs is determined per ASCE 7-16 Figure 7-2 assuming the array is an "unobstructed slippery surface" where snow is free to slide off the array • Seismic short-term spectral acceleration (Ss) = 3.73g, maximum, and seismic site class = D, per ASCE 7-16 Section 11.4.2 • Seismic component importance factor Ip= 1.0 per ASCE 7-16 Section 13.1.3; seismic component response factor Rp = 1.5, and component amplification factor ap= 1.0, per ASCE 7-16 Table 13.5-1 and 13.6-1; seismic loads are calculated per ASCE 7-16 Chapters 11 and 13 • Load combinations per CBC Section 1605.2 Document#524734 Rev D,Vol. 2 1 SunPower Proprietary S U N PC WE Re The maximum allowable spans shown in the tables are based on the calculated loads and the capacity of the rail and the attachment, determined by analysis and testing in accordance with CBC 2019 and referenced standards. • Bending strength of aluminum rails is calculated according to the Aluminum Design Manual 2015 Section B.3.2.1 (LRFD) • The strength of the roof attachment hardware is based on product information from the attachment manufacturer • The strength of the lag screw in withdrawal and shear is calculated according to the National Design Specification (NDS)for Wood Construction, 2018 The maximum allowable attachment spacing is calculated by checking the demand/capacity ratios for bending in the rail and tension, compression and shear on attachments for all required load combinations. The reported maximum allowable spacing is the greatest spacing, rounded down to the nearest rafter spacing increment, for which the demand/capacity ratios are less than or equal to 1.0. • These tables do not consider the strength of the supporting roof structure. In areas of low snow load, the weight of the array is often considered to offset the design live load of the roof, since personnel and equipment cannot be placed on top of the array. It is recommended to stagger attachment points, as shown in Figure 1, to evenly distribute loads to the rafters. RAFTER,TYP, MODULE,TYP. RAIL,TYP. ATTACHMENT,TYP. ii i i i I i i i i I CANTILEVER OF RAIL AND ATTACHMENT SPACING MODULE BEYOND LAST (CENTER-TO-CENTER) ATTACHMENT Figure 1 • These tables assume that each module is installed centered over a pair of rails, as shown in Figure 2(a). In cases where one rail is closer to the midpoint of the module, as shown in Figure 2(b), adjustments to the spacing may be required. MODULE,TYP. RAIL,TYP. T EQUAE X= TC EQUAL I uU � ihi Figure 2 Document#524734 Rev D,Vol. 2 2 SunPower Proprietary SUMP WER ' ' Roof Roof: 1 Zone 1 Zone 2 Zone 3 Designed attachment spacing 72 in 72 in 24 in Maximum Allowable Cantilever 24 in 17 in 10.0 in Worst Case Uplift 723 plf 1431 plf 2227 plf Worst Case Downward 45 plf 45 plf 45 plf User input Roof 1 Group ID 1 Ground Snow Load pg 0.0 psf Basic Wind Speed V 130.0 mph Wind Exposure Category C Topographic Factor Kt 1.0 Seismic Parameter SS 3.0 g Mean Roof Height h 15 ft Roof Slope 18 degrees Rafter Spacing 24 in Building Least Horizontal Dimension width bldg30 ft Panel Model 96 cell Panel Orientation Portrait Rail Direction Parallel to ridge Attachment Type Quick Hook Kit, 6" base, curved and flat tile, (QuickMount, QMHSS) Page 2 of 6 Roof 1 Group ID 1 Panel Orientation: Portrait Rail Direction: Parallel to ridge Load Calculation Parameters Rail tributary width 2.6 ft Flat roof snow load pf 0.00 psf Wind velocity pressure qh 29 psf Service Loads Dead Load pd 2.81 psf Sloped Roof Snow Load ps 0.00 psf Wind Load Upward Zone 1 pw_zone1 -25.98 psf Wind Load Upward Zone 2 pw_zone2 -49.07 psf Wind Load Upward Zone 3 px_zone3 -75.04 psf Wind Load Downward pw_down 14 psf Seismic Load Fp 4.5 Seismic Load Fp_upper_limit 1.7 Seismic Load Fp_lower_limit 9.0 Seismic Load Fp_eqn 4.5 Load Combinations 1.4D Combo 1 9.6 plf 1.2D+1.6S+0.5W Combo 2 27 plf 1.2D+0.5S+1.OW Combo 3 45 plf 0.9D+1.OW Combo 4(Zone 1) -60.23 plf 0.9D+1.OW Combo 5(Zone 2) -119.22 plf 0.9D+1.OW Combo 6(Zone 3) -185.59 plf 1.2D+1.OE+0.2S Combo 11 7.4 plf 1.4D Combo 7 3.1 plf 1.2D+1.6S Combo 8 2.7 plf 1.2D+0.5S Combo 9 2.7 plf 0.9D Combo 10 2.0 plf 1.2D+1.OE+0.2S Combo 12 14 plf Worst Case Uplift Zone 1 WCzone1 60 plf Worst Case Uplift Zone 2 WCzone2 119 plf Worst Case Uplift Zone 3 WCzone3 186 plf Worst Case Downward WCdown 45 plf Worst Case Seismic Demand WCeq 7.4 plf Worst Case Shear for Uplift Cases WCshear_up 2.0 plf Worst Case Shear for Downward Cases WCshear_down 3.1 plf Worst Case Shear for Seismic Cases WCshear_eq 14 plf Roof Wind Zone Dimensions Width of edge and corner zones a 3.0 ft Maximum Allowable Spacing of Maximum allowable attachment spacing, Lallowed_zone1 72 in Maximum allowable attachment spacing, Lallowed_zone2 72 in Maximum allowable attachment spacing, Lallowed_zone3 30 in Maximum allowable cantilever,zone 1 Cantileverzone1 24 in Maximum allowable cantilever,zone 2 Cantileverzone2 17 in Maximum allowable cantilever,zone 3 Cantileverzone3 10 in Rail Bending Rail Bending Up Strength Mn_rail_up 548 lb-ft Rail Bending Down Strength Mn—rail—down 580 lb-ft L-Foot L-Foot Tension Strength Tn_L-Foot 510.0 lb L-Foot Compression Strength Cn_L-Foot 999.0 lb L-Foot Shear Strength Vn_L-Foot 195.0 lb Tile Hook Tile Hook Tension Strength Tn_hook 530 lb Tile Hook Compression Strength Cn_hook 450 lb Tile Hook Shear Strength for Compression Vn_hook_down 247 lb Tile Hook Shear Strength for Tension Zone 1 Vn_hook_z1 237 lb Tile Hook Shear Strength for Tension Zone 2 Vn_hook_z2 145 lb Tile Hook Shear Strength for Tension Zone 3 Vn_hook_z3 43 lb Tile Hook Shear Strength for EQ Case Vn_hook_eq 316 lb Page 3 of 6 User input Roof 1 Group ID 2 Ground Snow Load pg 0.0 psf Basic Wind Speed V 130.0 mph Wind Exposure Category C Topographic Factor Kt 1.0 Seismic Parameter SS 3.0 g Mean Roof Height h 15 ft Roof Slope 18 degrees Rafter Spacing 24 in Building Least Horizontal Dimension width bldg30 ft Panel Model 96 cell Panel Orientation Portrait Rail Direction Parallel to ridge Attachment Type Quick Hook Kit, 6" base, curved and flat tile, (QuickMount, QMHSS) Page 4 of 6 Roof 1 Group ID 2 Panel Orientation: Portrait Rail Direction: Parallel to ridge Load Calculation Parameters Rail tributary width 2.6 ft Flat roof snow load pf 0.00 psf Wind velocity pressure qh 29 psf Service Loads Dead Load pd 2.81 psf Sloped Roof Snow Load ps 0.00 psf Wind Load Upward Zone 1 pw_zone1 -25.98 psf Wind Load Upward Zone 2 pw_zone2 -49.07 psf Wind Load Upward Zone 3 px_zone3 -75.04 psf Wind Load Downward pw_down 14 psf Seismic Load Fp 4.5 Seismic Load Fp_upper_limit 1.7 Seismic Load Fp_lower_limit 9.0 Seismic Load Fp_eqn 4.5 Load Combinations 1.4D Combo 1 9.6 plf 1.2D+1.6S+0.5W Combo 2 27 plf 1.2D+0.5S+1.OW Combo 3 45 plf 0.9D+1.OW Combo 4(Zone 1) -60.23 plf 0.9D+1.OW Combo 5(Zone 2) -119.22 plf 0.9D+1.OW Combo 6(Zone 3) -185.59 plf 1.2D+1.OE+0.2S Combo 11 7.4 plf 1.4D Combo 7 3.1 plf 1.2D+1.6S Combo 8 2.7 plf 1.2D+0.5S Combo 9 2.7 plf 0.9D Combo 10 2.0 plf 1.2D+1.OE+0.2S Combo 12 14 plf Worst Case Uplift Zone 1 WCzone1 60 plf Worst Case Uplift Zone 2 WCzone2 119 plf Worst Case Uplift Zone 3 WCzone3 186 plf Worst Case Downward WCdown 45 plf Worst Case Seismic Demand WCeq 7.4 plf Worst Case Shear for Uplift Cases WCshear_up 2.0 plf Worst Case Shear for Downward Cases WCshear_down 3.1 plf Worst Case Shear for Seismic Cases WCshear_eq 14 plf Roof Wind Zone Dimensions Width of edge and corner zones a 3.0 ft Maximum Allowable Spacing of Maximum allowable attachment spacing, Lallowed_zone1 72 in Maximum allowable attachment spacing, Lallowed_zone2 72 in Maximum allowable attachment spacing, Lallowed_zone3 30 in Maximum allowable cantilever,zone 1 Cantileverzone1 24 in Maximum allowable cantilever,zone 2 Cantileverzone2 17 in Maximum allowable cantilever,zone 3 Cantileverzone3 10 in Rail Bending Rail Bending Up Strength Mn_rail_up 548 lb-ft Rail Bending Down Strength Mn—rail—down 580 lb-ft L-Foot L-Foot Tension Strength Tn_L-Foot 510.0 lb L-Foot Compression Strength Cn_L-Foot 999.0 lb L-Foot Shear Strength Vn_L-Foot 195.0 lb Tile Hook Tile Hook Tension Strength Tn_hook 530 lb Tile Hook Compression Strength Cn_hook 450 lb Tile Hook Shear Strength for Compression Vn_hook_down 247 lb Tile Hook Shear Strength for Tension Zone 1 Vn_hook_z1 237 lb Tile Hook Shear Strength for Tension Zone 2 Vn_hook_z2 145 lb Tile Hook Shear Strength for Tension Zone 3 Vn_hook_z3 43 lb Tile Hook Shear Strength for EQ Case Vn_hook_eq 316 lb Page 5 of 6 Simple and Fast Installation Integrated module-to-rail grounding Pre-assembled mid and end clamps Levitating mid clamp for easy placement Mid clamp width facilitates even module spacing Simple,pre-drilled rail splice UL 2703 Listed integrated grounding Flexible Design _ - Addresses nearly all sloped residential roofs Design in landscape and portrait Rails enable easy obstacle management Customer-Preferred Aesthetics #1 module and#1 mounting aesthetics Best-in-class system aesthetics Elegant Simplicity Premium,low-profile design Black anodized components SunPower° InvisiMountTM is a SunPower-designed Hidden mid clamps and end clamps rail-based mounting system. The InvisiMount system hardware,and capped,flush rails addresses residential sloped roofs and combines faster Part of Superior System installation time, design flexibility, and superior aesthetics. • Built for use with SunPower DC and AC modules The InvisiMount product was specifically envisioned and Best-in-class system reliability and aesthetics Combine with SunPower modules and engineered to pair with SunPower modules. The resulting monitoring app system-level approach will amplify the aesthetic and installation benefits for both homeowners and installers. ,q. `� llllllJ O Y sunpower.com a V� Y.:1 InvisiMount Component Module*/Mid Clamp and Rail Module*/End Clamp and Rail P_.'M�Ppw Mid Clamp End Clamp Rail&Rail Splice Ground Lug Assembly End Cap in ft InvisiMount ComponentDetails InvisiMountOperating Conditions Component Material Weight Temperature -40°C to 90°C(-40°F to 194°F) Max.Load 2400 Pa uplift Mid Clamp Black oxide stainless steel AISI 304 63 g(2.2 oz) 5400 Pa downforce End Clamp Black anodized aluminum alloy 6063-T6 110 g(3.88 oz) Rail Black anodized aluminum alloy 6005-T6 830 g/m(9 oz/ft) InvisiMount Warranties d Certifications Rail Splice Aluminum alloy 6005-T5 830 g/m(9 oz/ft) Warranties 25 year product warranty Ground Lug 304 stainless 5-year finish warranty Assembly (A2-70 bolt;tin-plated copper lug) 106.5 g/m(3.75 oz) End Cap Black acetal(POM)copolymer 10.4 g(0.37 oz) UL 2703 Listed Certifications Class Afire rating when distance between Roof Attachment Hardware ••• -• by roof surface and bottom of SunPower DesignInvisiMount System module frame is<-3.5" Composition Shingle Rafter Attachment Application Composition Shingle Roof Decking Attachment Roof Attachment Har• Curved and Flat Tile Roof Attachment Universal Interface for Other Roof Attachments Refer to roof attachment hardware manufacturer's documentation *Module frame that is compatible with the InvisiMount system required for hardware interoperability. ©2015 SunPower Corporation. All Rights Reserved. SUNPOWER,the SUNPOWER logo,and INVISIMOUNT are trademarks or registered trademarks of SunPower Corporation.All other trademarks are the property of their respective owners. sunpower.com Specifications included in this datasheet are subject to change without notice. Document#509506 Rev B • 1�z PEGASUS ♦ BETTER DAY ON • : SOLAR COMP MOUNT Simple designI Y= s for • • installation P t Encapsulating design raises the water seal 0.9" above deck WATERTIGHTOne-piece flashing with elevated cone— No press-fits or deck-level EPDM washers to fail FOR LIFE Pegasus Solar's Comp Mount is a cost effective, high-quality option for rail installations on composition shingle roofs. Designed to last decades, the one-piece flashing with elevated cone means there is simply nothing to fail. © 25-year Warranty Superior Waterproofing Manufactured with advanced materials and , Tested to AC286 without sealant coatings to outlast the roof itself 0.9"elevated water seal Code Compliant '' All-In-One Kit Packaging Fully IBC/CBC Code Compliant �/ Flashings, L-feet and 55 lags with bonded Exceeds ASCE 7-10 Standards EPDM washers are included in each 24-pack Pegasus Solar Inc 100 West Ohio Avenue, Richmond,CA 94804 T.510.730.1343 www.pegasussolar.com 0 Rol me 1.Drill pilot hole in 2.Optional:Apply a center of rafter. "U-shape" of sealant to underside of flashing and position �\ !; under 2nd shingle — course,cone over pilot hole. F 3. Place L-Foot over 4.Drive lag to required cone and install lag embedment.Attach with washer through rail per rail L-Foot. manufacturer's instructions. 9.0 T- 1.5' 1.9„ 3.5' 3.5, 0.9"ri;5�1 -L 11.6" 2.3" 2.3" 2.4" Specifications Comp Mount Install Kit SKU PSCR-CO PSCR-UO SPCR-CH L-foot Type Closed Slot Open Slot Closed Slot Kit Contents L-Foot,Flashing,5/16" L-Foot,Flashing,5/16" L-Foot,Flashing,5/16"SS Lag SS Lag w/EPDM washer SS Lag w/EPDM washer w/EPDM washer,M10 Hex Bolt Finish Black(L-foot and Flashing) Roof Type Composition Shingle Certifications IBC,ASCE/SEI 7-10,AC286 Install Application Railed Systems Compatible Rail All Flashing Material Painted Galvalume Plus L-Foot Material Aluminum Kit Quantity 24 Boxes Per Pallet 72 Patents Pending.All rights reserved.©2018 Pegasus Solar Inc. Pegasus Solar Inc - 100 West Ohio Avenue, Richmond,CA 94804 510.730.1343 LAm) i Le Li Advancing Renewable Technology ACCAcme Cable Clips ACME Cable Clips simplify wire management and create a cleaner aesthetic to solar PV arrays. The clips are made of corrosion resistant stainless steel and are designed to prevent damage to cable insu- lation. The easy to install and remove design only requires a flat head screwdriver and can be reused, unlike zip ties. The universal design fits most modules and can hold one or two wires. • Made with corrosion resistant 300 series stainless steel • Dual wire compartments • Special tab for easy installation and removal with flat-head screwdriver • Designed to prevent damage to cable insulation • Sized for USE-2 cable (5-5.4mm) or PV cable (6.8-7.2mm) ACC ACC- PV Holds: 1 to 2 USE-2 wires Holds: 1 to 2 PV wires or 1 PV wire DC Power Systems (800) 967-6917 wwwA power-systems.com Contact us at: 845.247.4708 www.we-lic.com WEEB® LUG WiLeLi The WEEB°Lug consists of a WEEB°washer, lay-in lug, and hardware. It is used with one solid or stranded copper wire (14AWG to 6AWG), or two copper wires (12AWG to 10AWG)to provide a continuous ground on roof or ground mounted solar systems. Unlike traditional lay-in lugs, the WEEB°Lug does not require surface preparation on rail or module to install. The WEEB° Lug is installed using stainless steel mounting hardware. When the hardware is tightened the WEEWWashers' specialized teeth embed into anodized aluminum, galvanized steel, or any electrically conductive metal to establish a gas tight electrical connection. The tin-plated Lug assures minimum contact resistance and protection against corrosion. Copper wire is clamped by a 1/4-28 stainless steel screw, which is horizontal to the tang for easy access when mounted under a PV module. The low profile of the WEEB° Lug allows it to be installed in a variety of positions. Catalog Item# L x W x H Hole Hardware Torque WEEB-LUG-6.7 30020109 1.60"x 0.71"x 0.47" 1/4 inch hardware- included unassembled 0.266" WEEB-LUG-6.7AS 30020110 1.60"x 0.71"x 0.47" 1/4 inch hardware- included assembled 7 ft. lbs.for WEEB-LUG-8.0 30020111 1.60"x 0.87"x 0.47" M8 or 5/16 inch hardware- terminal screw not included 10 ft. lbs.for WEEB-LUG-8.OAS 50010335 1.60"x 0.87"x 0.47" 5/16 inch hardware- mounting included assembled hardware 0.323°WEEB-LUG-8.OUN 50023920 1.60"x 0.87"x 0.47" 5/16 inch hardware- w/Penetrox-A included unassembled on threads WEEB-LUG-15.8 30020112 1.60"x 0.71"x 0.47" M8 or 5/16 inch hardware- not included W Made of corrosion-resistant, tin-plate copper Design ensures for easy installation Available With WEEB°washer technology -Assembled and unassembled -With or without installation hardware • Low profile design s��� ' No surface preperation on rail or module required • Reliability throughout the lifetime of the PV system • Multiple equipment ground conductor allowance: One 14 AWG to 6 AWG or two 10 AWG, two 12 AWG Listed to ANSI/UL 467 by Intertek ETL _-=-` ` CSA Certified to C22.2 No. 41 Custom designs available upon request Customer Service Department as: 7 Aviation Park Drive t Londonderry NH 03053 c us 1-800-346-4175 �. -- CO US (International) - - Intertek www.burndy.com __ 4004188 WILEY GROUNDING LUG WILeLi The WILEY Grounding Lug consists of a lay-in lug and terminal screw. It is used with one solid or stranded copper wire (14AWG to 6AWG), or two copper wires (12AWG to 10AWG)to create an electrical connection between two pieces of non-anodized aluminum, galvanized steel, or any electrically conductive metal. The tin- plated WILEY Grounding Lug assures minimum contact resistance and protection against corrosion. Copper wire is clamped by a 1/4-28 stainless steel screw, which is horizontal to the tang for easy access when mounted under a PV module. The low profile of the WILEY Grounding Lug allows it to be installed in a variety of positions. Catalog Item # L x W x H Hole Hardware Torque WILEYLUG6.7 50028861 1.60"x 0.71"x 0.47" 0.266" Terminal screw included- 7 ft. lbs.for WEEBTm not included terminal screw WILEYLUG8.0 50028866 1.60"x 0.87"x 0.47" Terminal screw included- WEEBTm not included 10 ft. lbs.for WILEYLUG8.2 50028869 1.60"x 0.71"x 0.47" Terminal screw included- mounting 0.323" WEEBTm not included hardware WILEYLUG15.8 50028872 1.60"x 0.71"x 0.47" Terminal screw included- w/Penetrox-A WEEBTm not included on threads • Material: tin-plated copper • Outdoor rated • Low profile design • Multiple equipment ground conductor allowance: One 14 AWG to 6 AWG or two 10 AWG, two 12 AWG Listed to ANSI/UL 467 by Intertek ETL ,0/ -+i e* Customer Service Department "+. Y t.;•� - , 7 Aviation Park Drive Londonderry NH 03053 c us 1-800-346-4175 uano 1-603-647-5299 (International) Intertek www.burndy.com 4004188 Loadcenters and Circuit Breakers 1 .2 Type BR Loadcenters and Circuit Breakers Single-Phase—Main Lug Loadcenters Single-Phase Three-Wire-120/240 Vac—Insulated/Bondable Split Neutral Maximum Number Wire Size Range Main 1-Inch(25.4 mm) Enclosure Box Cu/AI 60°C or 75°C Loadcenter Ampere Rating Spaces Circuits Type Trim Type Size for Main Lugs Catalog Number Surface Outdoor 70 2 4 Indoor Surface(no door) 5 #8—#2 BR2470SP �z 2 4 Indoor Surface(no door) 5 BR24L70SGP s 2 4 Outdoor — 5R BR24L70RP�® 2 4 Indoor Flush(no door) 5 BR24L70FP 2 4 Indoor Flush(no door) 5 BR24L70FGP 4* 125 2 4 Indoor Surface(no door) 6 #14-1/0 BR24L125SP Flush Outdoor 2 4 Outdoor — 6R BR24L125RP O 2 4 Outdoor — 6R BR24L125RSEP(0© 2 4 Outdoor — 6R BR24L125RSE2P z)s W 2 4 Indoor Flush(no door) 6 BR24L125FP D z 4 8 Indoor Surface(no door) 7 #14-1/0 BR48L125SP 4 8 Indoor Surface(no door) 7 BR48L125SGP Surface(No Door) 4 8 Outdoor — 7R BR48L125RP 04 4 8 Indoor Flush(no door) 7 BR48L125FP D a 4 8 Indoor Flush(with door) 7 BR48L125FDP 4 8 Indoor Flush(no door) 7 BR48L725FGP 6 12 Indoor Surface(no door) 7 #1441 BR612L125SP O® 6 12 Indoor Surface(no door) 7 BR612L125SGP 00 Flush(No Door) 6 12 Indoor Surface(with door) 7 BR612L125SDP O® 6 12 Indoor Surface(with door) 7 BR612L125SDGP 0 6 12 Outdoor — 7R BR612L125RP 4 6 12 Indoor Flush(no door) 7 BR612L125FP O® 6 12 Indoor Flush(no door) 7 BR612L125FGP s 6 12 Indoor Flush(with door) 7 BR612L125FDP Outdoor 6 12 Indoor Flush(with door) 7 BR612L125FDGP s 8 16 Indoor Surface(no door) 7 #1441 BR816L125SP O® 8 16 Indoor Surface(no door) 7 BR816L125SGP @@ 8 16 Indoor Surface(with door) 7 BR816L125SOP(D@ 8 16 Indoor Surface(with door) 7 BR816L125SDGP @@ 8 16 Outdoor — 7R BR816L125RP 8 16 Indoor Flush(no door) 7 BR816L125FP O® 8 16 Indoor Flush(no door) 7 BR816L125FGP�© 8 16 Indoor Flush(with door) 7 BR816L125FDP TO 8 16 Indoor Flush(with door) 7 BR816L125FDGPO�W Notes (D Ground bar kits priced separately.See Page V1-T1-60. —For 2/4 circuit Loadcenters,use GBK5 or GBK520 ground bar. —For 4/8,6/12 and 8/16 circuit loadcenters,use GBK10 ground bar. —Ground bars mount to the left side wall of the enclosure for the 4/8,6/12 and 8/16 circuit loadcenters. O Suitable for use as service equipment when not more than two service disconnecting mains are provided or when not used as a lighting and appliance panelboard (see Article 408.34 of the NEC). (A) Ground bar GBK5 is installed. ® Rainproof panels are furnished with hub closure plates.For rainproof hubs,refer to Page V141-60. © CSA and UL approved. © Neutral/ground holes(6)#14-6 and(3)#14-2/0 AWG Cu/AI. For use as service entrance applications only. ® Neutral/ground holes(6)#14-6 and(3)#14-1/0 AWG Cu/AI. (A) Suitable for use as service equipment when not more than two service disconnecting mains are provided orwhen not more than six service disconnecting mains are provided and when not used as a lighting and appliance panelboard(see Article 408.34 of the NEC). ® Suitable for use as service equipment when a main breaker is used or when not more than six service disconnecting mains are provided and when not used as a lighting and appliance panelboard(see Article 408.34 of the NEC). 0 Ground bar GBK10 is installed. © Ground bar GBK14 is installed. Box sizes Pages V7-T7-61 through V141-64. Volume 1—Residential and Light Commercial CA081000O2E—January 2O13 www.eaton.com VI-T1-47 1 .2 Loadcenters and Circuit Breakers Type BR Loadcenters and Circuit Breakers Dimensions Approximate Dimensions in Inches (mm) Residential/Commercial/New York City Loadcenters,Unit Enclosures-Box Sizes Note:Box sizes do not include covers/fronts. Residential Loadcenters-NEMA Type 1 Indoor Commercial Loadcenters-NEMA Type 1 Indoor Box Size Height Width Depth Box Size Height Width Depth Al 15.00(381.0) 11.25(285.8) 3.75(95.3) 19 44.00(1117.6) 16.16(410.4) 6.25(158.8) 31 16.75(425.5) 14.31(363.5) 3.88(98.4) 20 44.00(1117.6) 16.16(410.4) 6.25(158.8) 32 18.75(476.3) 14.31(363.5) 3.88(98.4) 22 54.00(1371.6) 16.22(412.0) 6.31(160.3) C1 21.00(533.4) 14.31(363.5) 3.88(98.4) 24 66.50(1689.1) 16.22(412.0) 6.31(160.3) C2 23.00(584.2) 14.31(363.5) 3.88(98.4) C4 27.00(685.8) 14.31(363.5) 3.88(98.4) D1 29.13(739.8) 14.31(363.5) 3.88(98.4) Commercial Loadcenters-NEMA Type 3R Outdoor G1 34.13(866.8) 14.31(363.5) 3.88(98.4) Box Size Height Width Depth L1 39.00(990.6) 14.31(363.5) 3.88(98.4) 42 38.00(965.2) 16.31(414.3) 6.38(161.9) L2 45.00(1143.0) 14.31(363.5) 3.88(98.4) 43 44.00(1117.6) 16.31(414.3) 6.38(161.9) L3 48.38(1228.3) 14.31(363.5) 3.88(98.4) 46 54.00(1371.6) 16.31(414.3) 6.38(161.9) 2 8.63(219.1) 5.00(127.0) 3.50(88.9) 47 66.56(1690.7) 16.31(414.3) 6.38(161.9) 3 9.44(239.7) 4.50(114.3) 3.00(76.2) 4 13.00(330.2) 11.00(279.4) 3.56(90.5) New York City Loadcenters-NEMA Type 1 Indoor 5 9.44(239.7) 4.50(114.3) 3.00(76.2) Box Size Height Width Depth 6 12.00(304.8) 6.88(174.6) 4.50(114.3) A 38.00(965.2) 18.13(460.4) 5.00(127.0) 7 13.00(330.2) 11.00(279.4) 3.56(90.5) B 44.00(1117.6) 18.13(460.4) 5.00(127.0) 9 14.50(368.3) 6.50(165.1) 3.50(88.9) C 66.50(1689.1) 18.13(460.4) 6.25(158.8) Residential Loadcenters-NEMA Type 31113 Outdoor Types ECB and ECC Unit Enclosures-NEMA Type 1 Indoor Box Size Height Width Depth Height Width Depth 131 R 16.75(425.5) 14.31(363.5) 5.19(131.8) 23.25(590.6) 8.88(225.4) 4.50(114.3) 13219 18.75(476.3) 14.31(363.5) 5.19(131.8) C3R 25.00(635.0) 14.31(363.5) 5.19(131.8) D1R 29.13(739.8) 14.31(363.5) 5.19(131.8) Types ECB and ECC Unit Enclosures-NEMA Type 313 G1 R 34.13(866.8) 14.31(363.5) 5.19(131.8) Outdoor L1R 39.00(990.6) 14.31(363.5) 5.19(131.8) Height Width Depth L2R 45.00(1143.0) 14.31(363.5) 5.19(131.8) 23.68(601.7) 9.31(236.5) 5.44(138.1) 1_319 48.75(1238.2) 14.31(363.5) 5.19(131.8) 2R 8.63(219.1) 5.00(127.0) 3.50(88.9) 3R 9.44(239.7) 4.50(114.3) 3.00(76.2) 4R 13.00(330.2) 11.00(279.4) 3.56(90.5) 5R 9.44(239.7) 4.50(114.3) 3.00(76.2) 6R 11.75(298.5) 6.50(165.1) 4.50(114.3) 7R 13.00(330.2) 11.00(279.4) 3.56(90.5) 8R 27.00(685.8) 10.50(266.7) 4.75(120.7) 9R 14.25(362.0) 6.50(165.1) 4.00(101.6) MR 21.00(533.4) 14.31(363.5) 5.19(131.8) V1-T7-66 Volume 1-Residential and Light Commercial CA08100002E-December 2014 www.eaton.com LEVITON® LP320-SR 30 Space Outdoor All-In-One Meter Load Center Combo with 200A Main Circuit Breaker,Solar-Ready v Outdoor All-In-One Meter Load Center Combination with 200A Main Circuit Breaker Factory Installed,30 Spaces, NEMA 3R Rated. Solar-Ready,Over/Under Construction, Semi-Flush Mount. Includes Enclosure and Ring-Type Door OEASY—Leviton's revolutionary design allows the entire Load Center to be wired at rough-in without any circuit breakers present SUPERIOR CONDUCTIVITY—All Leviton Load Centers come standard equipped with tin plated copper bussing UPC Code:078477957608 SOLAR READY—California Title-24 Compliant Country Of Origin :China UTILITY REQUIREMENT—EUSERC Approved RoHS Compliant:Yes "Designed for Leviton Circuit Breakers Technical Information Electrical Specifications Ground Connection :-4 AWG-2/0 Amperage:200 A AWG Cu/AI Short.Circuit Current Rating:22KA Material :Galvanized Steel Spaces/Circuits:30 Spaces SuCpply Connections:3 AWG—300 Type:Outdoor Weight:75 lbs. Voltage: 120/240 VAC Environmental Specifications Mechanical Specifications NEMA Enclosure Type: NEMA 3R Busbar Material : Copper,Bright Tin- Operating Temperature:-40°C to 85°C Plated Busbar Rating :225A Standards&Certifications Color: Gray UL 50E:Yes Dimensions:7.3 L x 16.8 W x 44.2 H UL 67:Yes UL 869A:Yes Patents* US10658142 US10971319 US10819088 *This list is provided for patent marking purposes only. A good faith effort is made to maintain the accuracy and completeness of this list. No legal inference should be drawn from the omission of a patent from this list. SPECIFICATION SUBMITTAL JOB KA61E Z,1AL.1 h.:11.1b E k'; JOB NUMBER Leviton Manufacturing Co.,Inc. 201 North Service Road,Melville, NY 11747 Telephone:+1-800-323-8920-FAX:+1-800-832-9538-Tech Line(8:30AM-7:30PM E.S.T. Monday-Friday): +1-800-824-3005 Leviton Manufacturing of Canada,Ltd. ISO 165 Hymus Boulevard, Pointe Claire,Quebec H9R 1E9 -Telephone:+1-800-469-7890 FAX:+1-800-824-3005 -www.leviton.com/canada Leviton S.de R.L.de C.V. 90011 Lago Tana 43,Mexico DF, Mexico CP 11290 -Tel.: (+52)55-5082-1040 -FAX:(+52)5386- 1797 -www.leviton.com.mx Visit our Website at:www.leviton.com *Idly afthmo ©2021 Leviton Manufacturing Co., Inc.All Rights Reserved.Subject to change without notice. Leviton has a global presence. If you would like to know where your local Leviton office is located please go to: www.leviton.com/international/contacts/