Loading...
HomeMy WebLinkAbout521 W Memory Ln - PlanE1 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 ABBREVIATIONS AMPERE ALTERNATING CURRENT AUTHORITY HAVING JURISDICTION BUILDING CONCRETE COMBINER BOX CALIFORNIA ELECTRICAL CODE COPPER DISTRIBUTION PANEL DIRECT CURRENT EQUIPMENT GROUNDING CONDUCTOR (EXISTING) FIELD VERIFIED GALVANIZED GROUNDING ELECTRODE CONDUCTOR GROUND HOT DIPPED GALVANIZED CURRENT CURRENT AT MAX POWER INVERTER SHORT CIRCUIT CURRENT KILOVOLT AMPERE KILOWATT LOAD BEARING WALL MINIMUM MAIN CIRCUIT BREAKER MAIN SERVICE PANEL (NEW) NEMA 3R, RAINTIGHT OUTSIDE RATED NATIONAL ELECTRICAL CODE NOT TO SCALE ON CENTER OVERCURRENT PROTECTION DEVICE POLES -BREAKER POLES- PROPERTY LINES PHOTOVOLTAIC POLYVINYL CHLORIDE ROOF RAFTER SOLID BARE COPPER SOLAR PLANE SUBPANEL SCHEDULE STAINLESS STEEL PRACTICAL TESTING CONDITIONS SOLAR WATER HEATER TYPICAL UNLESS NOTED OTHERWISE VOLT VOLTAGE AT MAX POWER VOLTAGE AT OPEN CIRCUIT WATT A AC AHJ BLDG CONC CB CEC CU DP DC EGC (E) FV GALV GEC GND HDG I Imp INVT Isc kVA kW LBW MIN. MCB MSP (N) N3R NEC NTS OC OCPD P PL PV PVC RR SBC SP SPL SCH SS PTC SWH TYP UNO V Vmp Voc W SHEET INDEX E1 - COVER SHEET APPLICABLE CODES AND STANDARDS VICINITY MAP N ·2022 CBC ·2022 CRC ·2022 CEC ·2022 CMC ·2022 CPC ·2022 CFC ·2022 CEBC · 2022 BUILDING ENERGY EFFICIENCY STANDARDS ·AUTHORITY HAVING JURISDICTION ·CURRENT LOCAL FIRE CODE 1. EXISTING PLUMBING VENTS, SKYLIGHTS, EXHAUST OUTLETS, VENTILATIONS INTAKE AIR OPENINGS SHALL NOT BE COVERED BY THE SOLAR PHOTOVOLTAIC SYSTEM. 2. EQUIPMENT. INVERTERS, MOTOR GENERATORS, PHOTOVOLTAIC MODULES, PHOTOVOLTAIC PANELS, AC PHOTOVOLTAIC MODULES, SOURCE-CIRCUIT COMBINERS, AND CHARGE CONTROLLERS INTENDED FOR USE IN PHOTOVOLTAIC POWER SYSTEMS SHALL BE IDENTIFIED AND LISTED FOR THE APPLICATION. [CEC 690.4(B)] 3. ALL OUTDOOR EQUIPMENT SHALL BE NEMA 3R RATED, INCLUDING ALL ROOF MOUNTED TRANSITION BOXES AND NON ROOF SWITCHES. ROOF SWITCHES TO BE NEMA 4 RATED. 4. ALL EQUIPMENT SHALL BE PROPERLY GROUNDED AND BONDED IN ACCORDANCE WITH CEC ARTICLE 250. 5. PROTECTION DEVICES FOR PV SOURCE CIRCUITS AND PV OUTPUT CIRCUITS ALSO CONNECTED TO SOURCES HAVING SIGNIFICANTLY HIGHER CURRENT AVAILABILITY (E.G., PARALLEL STRINGS OF MODULES, UTILITY POWER), SHALL BE PROTECTED AT THE SOURCE FROM OVERCURRENT. [CEC 690.9(A)] 6. PV SYSTEM CIRCUITS INSTALLED ON OR IN BUILDINGS SHALL INCLUDE A RAPID SHUTDOWN FUNCTION THAT CONTROLS SPECIFIC CONDUCTORS. [CEC 690.12] 7. THE UTILITY INTERACTIVE INVERTERS SHALL AUTOMATICALLY DE-ENERGIZE ITS OUTPUT TO THE CONNECTED ELECTRICAL PRODUCTION AND DISTRIBUTION NETWORK UPON LOSS OF VOLTAGE IN THE SYSTEM AND SHALL REMAIN IN THAT STATE UNTIL THE ELECTRICAL PRODUCTION AND DISTRIBUTION NETWORK VOLTAGE HAS BEEN RESTORED. [CEC 705.40] 8. ALL CONDUCTOR EXPOSED TO WEATHER SHALL BE LISTED AND IDENTIFIED FOR USE IN DIRECT SUNLIGHT. [CEC 310.10(D)(1)] 9. THE MODULE CONDUCTORS MUST BE TYPE USE-2 OR LISTED FOR PHOTOVOLTAIC (PV) WIRE. [CEC 690.31(C)] 10. ALL CONDUCTORS SHALL BE MARKED ON EACH END FOR UNIQUE IDENTIFICATION. 11. AN INSULATED GROUNDED CONDUCTOR OF 6 AWG OR SMALLER SHALL BE IDENTIFIED AS A CONTINUOUS WHITE FINISH. [CEC 200.6] 12. THE OUTPUT OF AN INTERCONNECTED ELECTRICAL POWER SOURCE SHALL BE PERMITTED TO BE CONNECTED TO THE LOAD SIDE. INTERCONNECTING PROVISIONS FOR OTHER POWER SOURCES SHALL COMPLY WITH 705.12(B)(1) THROUGH 705.12(B)(3) 13. EACH SOURCE INTERCONNECTION OF ONE OR MORE POWER SOURCES INSTALLED IN ONE SYSTEM SHALL BE MADE AT A DEDICATED CIRCUIT BREAKER OR FUSIBLE DISCONNECTING MEANS. [CEC 705.12(A)] 14. THE SUM OF THE AMPERE RATING OF THE OVERCURRENT DEVICES IN CIRCUITS SUPPLYING POWER TO THE BUSBAR OR CONDUCTOR SHALL NOT EXCEED 120% OF THE RATING OF BUSBAR OR CONDUCTOR. [CEC 705.12(B)(3)(2)] 15. A CONNECTION AT EITHER END, BUT NOT BOTH ENDS, OF A CENTER-FED PANEL BOARD IN DWELLINGS SHALL BE PERMITTED WHERE THE SUM OF 125 PERCENT OF THE POWER SOURCE(S) OUTPUT CIRCUIT CURRENT AND THE RATING OF THE OVERCURRENT DEVICE PROTECTING THE BUSBAR DOES NOT EXCEED 120 PERCENT OF THE CURRENT RATING OF THE BUSBAR. [CEC 705.12(B)(3)(4)] 16. EQUIPMENT CONTAINING OVERCURRENT DEVICES IN CIRCUITS SUPPLYING POWER TO A BUS BAR OR CONDUCTOR SHALL BE MARKED TO INDICATE THE PRESENCE OF ALL SOURCES. [CEC 705.12(C)] 17. CIRCUIT BREAKER, IF BACKFED, SHALL BE SUITABLE FOR SUCH OPERATION. [CEC 705.12(D)] 18. TO MINIMIZE OVERHEATING OF THE BUSBAR IN PANELBOARD, THE PANELBOARD MAIN CIRCUIT BREAKER AND THE PV POWER SOURCE CIRCUIT BREAKER SHALL BE PHYSICALLY LOCATED AT THE OPPOSITE END OF THE BUSBAR. 19. ALL THE CEC REQUIRED WARNING SIGNS, MARKINGS, AND LABELS SHALL BE POSTED ON EQUIPMENT AND DISCONNECTS PRIOR TO ANY INSPECTIONS TO BE PERFORMED BY THE BUILDING DEPARTMENT INSPECTOR. 20. WHERE PV SYSTEM DC CIRCUIT'S RUN INSIDE A BUILDING, THEY SHALL BE CONTAINED IN METAL RACEWAYS TYPE MC METAL CLAD CABLE OR METAL ENCLOSURES FROM POINT OF PENETRATION OF THE SURFACE OF THE BUILDING TO THE FIRST READILY ACCESSIBLE DISCONNECTING MEANS. [CEC 690.31(D)] 21. FLEXIBLE, FINE-STRANDED CABLES SHALL BE TERMINATED ONLY WITH TERMINALS, LUGS, DEVICES OR CONNECTOR THAT ARE IS IN ACCORDANCE WITH CEC 110.14. 22. CONNECTORS SHALL BE OF LATCHING OR LOCKING TYPE. CONNECTORS THAT ARE READILY ACCESSIBLE AND OPERATING AT OVER 30V DC OR 15V AC SHALL REQUIRE TOOL TO OPEN AND MARKED "DO NOT DISCONNECT UNDER LOAD" OR "NOT FOR CURRENT INTERRUPTING". [CEC 690.33(C) & (D)] 23. EQUIPMENT GROUNDING CONDUCTOR FOR PV MODULES SMALLER THAN 6AWG SHALL BE PROTECTED FROM PHYSICAL DAMAGE BY A RACEWAY OR CABLE ARMOR. [CEC 250.120(C)] 24. EQUIPMENT GROUNDING CONDUCTOR FOR PV SYSTEM CIRCUITS SHALL BE SIZED IN ACCORDANCE WITH 250.122. [CEC 690.45] 25. GROUNDING ELECTRODE CONDUCTOR(S) SHALL BE INSTALLED IN ONE CONTINUOUS LENGTH WITHOUT A SPLICE OR JOINT. IF NECESSARY, SPLICES OR CONNECTIONS SHALL BE MADE AS PERMITTED. [CEC 250.64(C)] 26. ALL SMOKE ALARMS, CARBON MONOXIDE ALARMS AND AUDIBLE NOTIFICATION DEVICES SHALL BE LISTED AND LABELED IN ACCORDANCE WITH UL 217 AND UL 2034. THEY WILL BE INSTALLED IN ACCORDANCE WITH NFPA 72 AND NFPA 720. [CRC 2019 R314 & R315] 27. SMOKE ALARMS AND CARBON MONOXIDE ALARMS WILL BE RETROFITTED INTO THE EXISTING DWELLING. THESE SMOKE ALARMS ARE REQUIRED TO BE IN ALL BEDROOMS, OUTSIDE EACH BEDROOM, AND AT LEAST ONE ON EACH FLOOR OF THE HOUSE. CARBON MONOXIDE ALARMS ARE REQUIRED TO BE RETROFITTED OUTSIDE EACH BEDROOM AND AT LEAST ONE ON EACH FLOOR OF THE HOUSE. THESE ALARMS MAY BE SOLELY BATTERY OPERATED IF THE PHOTOVOLTAIC PROJECT DOES NOT INVOLVE THE REMOVAL OF INTERIOR WALL AND CEILING FINISHES INSIDE THE HOME, OTHERWISE, THE ALARMS MUST BE HARD WIRED AND INTERCONNECTED. GENERAL NOTES *ALL WORK TO COMPLY WITH ABOVE CODES * OCCUPANCY TYPE: R-3 * CONSTRUCTION TYPE: TYPE V-B * UNSPRINKLERED DWELLING INFO E2 - SITE PLAN E7 - SINGLE LINE DIAGRAM E9's - SIGNAGE E5 - ROOF PLAN E6 - ATTACHMENT DETAIL E8.1 - BATTERY INSTALL DIAGRAM E7.1 - ELECTRICAL CALCULATION E8 - ELECTRICAL NOTES SCOPE OF WORK: E3 - RROPERTY PLAN (N) ESS DISCONNECT SWITCH (N) LOAD CENTER(S) - - 37 - - - - ENPHASE IQ8M-72-2-US - SILFAB SIL400 HC+ - 200A TESLA BACKUP GATEWAY 2 - TESLA POWERWALL2 37 2 1 (N) INVERTER(S) (N) SOLAR MODULE(S) (N) ESS MID (N) ESS BATTERY 1 IMO 1 200A The scope of the plans is for the installation of the solar photovoltaic system only and the approval is subject to compliance with all applicable city and state codes and regulations regarding construction. The approval of the plans does not constitute any certification of the accuracy, completeness, or building permit status of the existing buildings and structures as shown. Bldg# 101115547 Elec# 20180070 Approved by MSmith 06/30/23 521 W Memory Ln - 2018007007/03/23 STRUCTURAL CALCULATIONS FOR MICHAEL & MAUREEN BUCKMASTER 521 WEST MEMORY LN SANTA ANA CA 92706 ENGINEER: BWU Consultants, Inc 1168 San Gabriel Blvd #N Rosemead, CA 91770 521 W Memory Ln - 2018007007/03/23 DESIGN DATA 1. CODE: 2022 CALIFORNIA BUILDING CODE ASCE 7-16 2. MATERIAL STRENGTH CONCRETE: Fc’ = 2,500 PSI @ 28 DAYS CONCRETE REBAR: ASTM A615 GRADE 40 Fy = 40,000 PSI STEEL: (AISC 360) 13 EDITION STRUCTURAL SHAPES: ASTM A36 Fy = 36 KSI TUBING: STM A500 GRADE B Fy = 46 KSI PIPE: ASTM A53 TYPE E GRADE B Fy = 35 KSI WOOD: DOUGLAS FIR-LARCH ( 19% MAX. M.C. ) JOIST & RAFTER #2 GRADE Fb = 875 PSI Fv = 95 PSI E = 1.6 x 1,000,000 BEAM & HEADER (4X) #1 GRADE Fb = 1,000 PSI Fv = 95 PSI E = 1.7 x 1,000,000 (6X) #1 GRADE Fb = 1,000 PSI Fv = 85 PSI E = 1.7 x 1,000,000 POST (4X) #1 GRADE Fb = 1,000 PSI Fv = 95 PSI E = 1.6 x 1,000,000 (6X) #1 GRADE Fb = 1,000 PSI Fv = 85 PSI E = 1.7 x 1,000,000 STUD #2 GRADE Fb = 675 PSI Fv = 95 PSI E = 1.4 x 1,000,000 SELECT STRUCTURAL (6x, LARGE) Fb = 1,450PSI Fv = 95 PSI E = 1.9 x 1,000,000 MASONRY: CONCRETE BLOCK ASTM C90 Fm = 1500 PSI NO INSPECTION REQUIRED 3. SOIL REPORT: f’s= 1,500 PSF/ OR SEE SOILS REPORT 4. LATERAL ANALYSIS: A. SEISMIC LOAD W CV S SEE ATTACHED. B. WIND LOAD (SIMPLIFIED PROCEDURE) (130 mph) EXP “C” ULTIMATE 521 W Memory Ln - 2018007007/03/23 521 W Memory Ln - 2018007007/03/23 BWU Consultants, Inc. 1168 N. San Gabriel Blvd., #N Rosemead, CA. 91770 Tel: (626) 288-0708 Email: twengrs1168@gmail.com Date: D.L.SIZE: SHINGLE ROOF'G 4 psf 18.0 SQ.FT. 1/2" PLYWD SHT'G 1.5 2x6 @ 24 O.C.1.1 RAFTER MISC 0.4 WEIGHT: D.L. = WT = 2.9#/SQ.FT. L.L. = (USE 3.0 #/SQ.FT.) T.L. = L:7'-0" MAX SPAN W:60.0 plf M:367.5 pf Sreq: 2.7 in³ R:210 lb Areq: 2.65 in² 2x6 RAFTER CAN CARRY SOLAR PANELS GRAVITY PER 2022 CALIFORNIA EXISTING BLDG CODE. PART 10. SECTION 502.4 & 503.3 37 x 3 x 18 =1998 lb 76020 lb 1998 / 76020 =2.6% (ROOF DL 7 + CL'G DL 5 + PART'N 16/2) x 3801 = (7+3+20) x 24/12 = (2022 CALIFORNIA BUILDING CODE) ASCE 7-16 EXIST'G ROOF LOAD'G (AS BUILT) SOLAR PANEL 30.0 psf 20.0 psf 7.0 psf 521 W Memory Ln - 2018007007/03/23 WIND LOAD (RISK CATEGORY III,IV) 130 MPH, EXP ”C” CHAP 26.10.2 - WIND LOAD COMPONENTS & CLADDING (C&C) qz= .00256 Kz K zt Kd V2 I (26-10-1) Ht. z at the centroid of area Af = 10 ft Exp = Exposure coefficient Kz = 0.85 c (TABLE 26.8-1) Topography factor Kzt = 1.00 (FIGURE 26.8-1) Directionality factor Kd = 0.85 Wind Speed V = 130 mph Importance factor Iw = 1.00 qz = 0.00256 x 0.85 x 1.0 x 0.85 x (130)2 = 31.26 psf Gust Effect factor G = 0.85 Force coeff Cf = 1.31 Design wind pressure, F/Af = 31.26 x 0.85 x 1.31 = 34.81 psf ASCE 7-16 521 W Memory Ln - 2018007007/03/23 BWU Consultants, Inc. 1168 N. San Gabriel Blvd., #N Rosemead, CA. 91770 Tel: (626) 288-0708 Email: twengrs1168@gmail.com Date: UPLIFT / WITHDRAWAL FORCE FOR SOLAR PANEL STANDOFF / FAST JACK Vup= 34.81 lb/sq.ft SEISMIC PER 2022 CALIFORNIA EXISTING BLDG CODE. PART 10. SECTION 502.5 & 503.4 1998 lb / 76020 lb = 2.6% < 10.0% OK Vall = 274 x 2.5 = 685 lb > 222.9 lb OK 37 37 x 34.81 x 18 = 23183.46 lb 104 222.9 lb/lag screw NO. SOLAR PANELS UPLIFT FORCE SUPPORTS OF TILE HOOK/STANDOFF UNIT FORCE PER (5/16"ø) LAG SCREW O.K. USE 5/16"ø X 3 1/2" LONG STAINLESS STEEL LAG SCREW WITH MIN. 2 1/2" EMBED TO EXIST'G ROOF MEMBER. CAN RESIST WIND UPLIFT FORCE. LATERAL (2022 CALIFORNIA BUILDING CODE) WIND EXP "C", WIND SPEED: 130 mph (ASCE 7-16) 521 W Memory Ln - 2018007007/03/23 521 W Memory Ln - 2018007007/03/23 To: All Concerned (Semper Solaris and City Building Department) From: Michael D Buckmaster 521 W Memory Ln Santa Ana, Ca. 92706 8 MAY 2023 This letter is to certify that I have contracted with and authorize (grant permission) to Semper Solaris to install a solar system to include solar panels and power wall to our home at 521 W Memory Ln., Santa Ana, Ca. 92706 Michael D Buckmaster 521 W Memory Ln - 2018007007/03/23 Rev: 7/15/2021 RESIDENTIAL PHOTOVOLTAIC CHECKLIST SOL-01 CBC 2019 Solar Photovoltaic (PV) Checklist for Detached SINGLE FAMILY RESIDENCES Only Instructions: The licensed contractor of record shall complete all sections, answer the ten questions and sign the certification section below. A copy of this form shall be attached to each of TWO sets of plans, of minimum 11” x 17” size. If answering NO to any of the questions, plan check shall be required. Project Address: Contractor Company Name: Contractor License Number: YES NO Are the following applicable to the proposed project? 1. Will the PV system layout provide the required three-foot wide clear access pathways per Section 605.11 of the California Fire Code, and is this shown on the roof plan? 2. Will the PV system be installed on a roof having only one roofing layer with no overlays? 3. Will the PV array be flush mounted to the existing roof so that the plane of the modules (panels) are parallel to the plane of the roof? 4. Will the PV system weigh maximum 4 pounds per square feet or less? 5. Will the PV system be installed where the modules do not overhang any roof edges (such as eaves, gabled ends, ridges and hips)? 6. Will the PV system be installed with a space of 2” minimum to 10” maximum between the underside of modules and the surface of the roof? 7. Will the PV system be installed without using any ballast system or counter-weight system? 8. Will the anchors be installed with a maximum horizontal anchor spacing of 6 feet and is this maximum horizontal spacing shown on the plans? 9. Will the minimum 5/16” lag screws be installed with a minimum of 2 -1/2 inch embedment into roof rafters (with pre-drilled holes) and is this minimum embedment shown on the plans? 10. Are ALL the structural pages of the plans stamped and signed by a California licensed professional engineer? (including project specific site plan, PV layout, anchorage spacing, anchorage details and manufacturer’s PV support information.) I certify under penalty of perjury under the laws of the State of California that the above is true: Print Name: Signature: Phone Number: Date: Email Address: Planning & Building Agency Building Safety Division 20 Civic Center Plaza P.O. Box 1988 (M-19) Santa Ana, CA 92702 (714) 647-5800 www.santa-ana.org Vyankatesh Barde 521 W Memory Ln - 2018007007/03/23 SIL-400 HC+ S ILFABS OLAR.COM * Chubb provides error and omission insurance to Silfab Solar Inc. RELI ABLE ENERGY. DI RECT FROM TH E S OURC E. Designed to outperform. Dependable, durable, high-performance solar panels engineered for North American homeowners. SILFAB SOLAR INC. 800 Cornwall Ave Bellingham WA 98225 USA T +1 360.569.4733 info@silfabsolar.com S ILFABS OLAR.COM 1770 Port Drive Burlington WA 98233 USA T +1 360.569.4733 240 Courtneypark Drive East Mississauga ON L5T 2Y3 Canada T +1 905.255.2501 F +1 905.696.0267 Silfab - SIL-400-HC+-20230224 No reproduction of any kind is allowed without permission. Data and information is subject to modifications without notice. © Silfab Solar Inc., 2022. Silfab Solar® is a registered trademark of Silfab Solar Inc. ELECTRICAL SPECIFICATIONS 400 Test Conditions STC NOCT Module Power (Pmax)Wp 400 298 Maximum power voltage (Vpmax)V 36.05 33.50 Maximum power current (Ipmax)A 11.10 8.90 Open circuit voltage (Voc)V 43.02 40.35 Short circuit current (Isc)A 11.58 9.34 Module efficiency %20.2%18.8% Maximum system voltage (VDC)V 1000 Series fuse rating A 20 Power Tolerance Wp 0 to +10 Measurement conditions: STC 1000 W/m2 • AM 1.5 • Temperature 25 °C • NOCT 800 W/m2 • AM 1.5 • Measurement uncertainty ≤ 3% Sun simulator calibration reference modules from Fraunhofer Institute. Electrical characteristics may vary by ±5% and power by 0 to +10W. TEMPERATURE RATINGS Temperature Coefficient Isc +0.064 %/°C Temperature Coefficient Voc -0.28 %/°C Temperature Coefficient Pmax -0.36 %/°C NOCT (± 2°C)45 °C Operating temperature -40/+85 °C WARRANTIES Module product workmanship warranty 25 years** Linear power performance guarantee 30 years ≥ 97.1% end 1st yr ≥ 91.6% end 12th yr ≥ 85.1% end 25th yr ≥ 82.6% end 30th yr SHIPPING SPECS Modules Per Pallet:26 or 26 (California) Pallets Per Truck 32 or 30 (California) Modules Per Truck 832 or 780 (California) CERTIFICATIONS Product UL 61215-1:2017 Ed.1, UL 61215-2:2017 Ed.1, UL 61730-1:2017 Ed.1, UL 61730- 2:2017 Ed.1, CSA C22.2#61730-1:2019 Ed.2, CSA C22.2#61730-2:2019 Ed.2, IEC 61215-1:2016 Ed.1, IEC 61215-2:2016 Ed.1, IEC 61730-1:2016 Ed.2, IEC 61730-2:2016 Ed.2, IEC 61701:2020 (Salt Mist Corrosion), IEC 62716:2013 (Ammonia Corrosion), UL Fire Rating: Type 2, CEC Listed. Factory ISO9001:2015 MECHANICAL PROPERTIES / COMPONENTS METRIC IMPERIAL Module weight 21.3kg ±0.2kg 47lbs ±0.4lbs Dimensions (H x L x D)1914 mm x 1036 mm x 35 mm 75.3 in x 40.8 in x 1.37 in Maximum surface load (wind/snow)*5400 Pa rear load / 5400 Pa front load 112.8 lb/ſt2 rear load / 112.8 lb/ſt2 front load Hail impact resistance ø 25 mm at 83 km/h ø 1 in at 51.6 mph Cells 132 Half cells - Si mono PERC 9 busbar - 83 x 166 mm 132 Half cells- Si mono PERC 9 busbar - 3.26 x 6.53 in Glass 3.2 mm high transmittance, tempered, DSM antireflective coating 0.126 in high transmittance, tempered, DSM antireflective coating Cables and connectors (refer to installation manual)1350 mm, ø 5.7 mm, MC4 from Staubli 53 in, ø 0.22 in (12AWG), MC4 from Staubli Backsheet High durability, superior hydrolysis and UV resistance, multi-layer dielectric film, fluorine-free PV backsheet Frame Anodized Aluminum (Black) Bypass diodes 3 diodes-30SQ045T (45V max DC blocking voltage, 30A max forward rectified current) Junction Box UL 3730 Certified, IEC 62790 Certified, IP68 rated * Warning. Read the Safety and Installation Manual for mounting specifications and before handling, installing and operating modules. ** 12 year extendable to 25 years subject to registration and conditions outlined under “Warranty” at silfabsolar.com. PAN files generated from 3rd party performance data are available for download at: silfabsolar.com/downloads. Si d e Bac k V i e w Pr o f i l e 75.3" [1914mm] 1. 4 " [ 3 5 m m ] 1.4" [35mm] 1. 4 " [ 3 5 m m ] 0.06" [1.5mm] 0.5" [12mm] 0. 3 " [ 7 m m ] 0. 6 " [ 1 5 m m ] 40 . 8 " [ 1 0 3 6 m m ] 12.1" [307mm]51.2 [1300mm] 12.1" [307mm] Ø0 . 1 7 " [ Ø 4 . 2 m m ] ( x 2 ) Gr o u n d i n g H o l e Mounting Hole (x4) Drainage Hole (x8) 39 . 2 " [ 9 9 6 m m ] 2.4" [60mm] 8" [200mm] 53.15" [1350mm] Cable Length 521 W Memory Ln - 2018007007/03/23 521 W Memory Ln - 2018007007/03/23 01231456178918 2388  !" #$ %& '# #( #!) ! *+# ) , -./ 0 11 23) 2 4!015) ) 3!1(  %& 6327! + 869 03!$31)# $ ! +03!! 03! :5"2 ! !3 # $!*1 !013$5+ #!) $+ #21! $ %& 20+3!; + +$ #!) $3+#* !$#11#3!$ 7( "+3;)!* # 03!$$ !< "+ -+ ) $3153! =3+ + $) !#1 #""10#3!$> % 3== +$ 5" 3 =35+ ?-"31 !"5 0+05$ #!) #3! @A $ + $ 75$7#+ #$$ 271(>  2388 01231456 1789 18 01231456 1789 18 BCDEFGHIDJCHFDGKCLMDNIOPGQFDCRRFHSITQUDVSQSMDWXYZ[\W]^_` a## b  cdefg hJGHM iDDjIkELlFQDjmDnGMFoGpDRCHDkCJJLISkGMSCIDGIlDkCIMHCE iDDjIkELlFQDNIOPGQFDqCKSEFDrCIIFkMDkFEELEGHDJClFJD srNttquvNqwqx wyzwh{wy|}UDSIkELlFlDCIEpDoSMPDjmD rCJKSIFHD~r iDDjIkELlFQDQCEGHDQPSFElDMCDJGMkPDNIOPGQFDjmDGMMFHpD €‚ƒ„ƒ…†‚‡€ˆ‰‡‰Š†ƒ‡„€ƒ iDD‹EFŒSKEFDIFMoCHSITDQLOOCHMQDŽSw‹SUDD NMPFHIFMUDCHDkFEELEGH iDDuOMSCIGEDrDHFkFOMGkEFDGVGSEGKEFDRCHD{trDKHSl TF iDD{HCVSl FQDOHClLkMSCIDJFMFHSITDGIlDkCIQLJOMSCID JCISMCHSIT hSJOEF iDrFIMFHFlDJCLIMSITDKHGkFMQDQLOOCHMDQSITEFDD QMLlDJCLIMSIT iDhLOOCHMQDKCMMCJUDKGkDGIlDQSlFDkCIlLSMDFIMHp iDODMCDRCLHD‘wOCEFDKHGIkPDkSHkLSMQDRCHD‘~yD’rDD OELT wSIDKHFGFHQDsICMDSIkELlFl } iD“yDMCMGED{’DCHDQMCHGTFDKHGIkPDkSHkLSMQ ”FESGKEF •‡–—˜€™š‡›œžŸ†˜ƒ… ‰‡›¡¢£‡ƒ¤¥‡¦œ‡ˆ†š§‚—˜ iD‹SVFwpFGHDESJSMFlDoGHHGIMp iDBoCDpFGHQDEGKCHDHFSJKLHQFJFIMDOHCTHGJDkCVFHGTFD SIkELlFlDRCHDKCMPDMPFDjmDrCJKSIFHDh¨©Q iDtDESQMFl 01231456178918 BCDEFGHIDJCHFDGKCLMDNIOPGQFDCRRFHSITQUDVSQSMDWXYZ[\W]^_` ª ?«?/ !" #$ ! +*(> ¬11 +* $ + $ +; )> !" #$ <  !" #$ 13*3< %& 6327! + 8­86< #!) 3 + !#2 $ #+ +#) 2#+®$ 3= !" #$ ! +*( < %!0> a## $57¯ 0 3 0 #!* > /«-?/-?«?/ °±²³´µ¶·°¸³¹ jmDrCJKSIFHD~DDsºwjmwqx w‘~yw~}jmDrCJKSIFHD~DoSMPDNIOPGQFDjmDnGMFoGpDOHSIMFlDkSHkLSMDKCGHlDRCHDSIMFTHGMFlDHFVFILFDTHGlFD{’DOHClLkMSCIDJFMFHSITDs»hjD rx ‘¼‘yD½¾wDy¼|¿}DGIlDkCIQLJOMSCIDJCISMCHSITDs½¾wD‘¼|¿}¼DjIkELlFQDGDQSEVFHDQCEGHDQPSFElDMCDJGMkPDMPFDjmDGMMFHpDQpQMFJDGIlD ÀÁ‡Â¤‚ƒÃ‡Ä§ˆƒ˜§šš˜‡Å‡€ˆ‰‡ƒ§‡‰Š†ƒ‡„€ƒÆ jmDrCJKSIFHD~rDsºwjm wqx w‘~yw~r}jmDrCJKSIFHD~rDoSMPDNIOPGQFDjmDnGMFoGpDOHSIMFlDkSHkLSMDKCGHlDRCHDSIMFTHGMFlDHFVFILFDTHGlFD{’DOHClLkMSCIDJFMFHSITD s»hjDrx‘¼‘yD½¾wDy¼|¿}DGIlDkCIQLJOMSCIDJCISMCHSITDs½¾wD‘¼|¿}¼DjIkELlFQDNIOPGQFDqCKSEFDrCIIFkMDkFEELEGHDJClFJD srNttquvNqwqx wyzwh{wy|}UDGDOELTwGIlwOEGpDSIlLQMHSGEwTHGlFDkFEEDJClFJDRCHDQpQMFJQDLODMCDzyDJSkHCSIVFHMFHQ¼D sVGSEGKEFDSIDMPFDhUDrGIGlGUDqFŒSkCUD{LFHMCD”SkCUDGIlDMPFDhD’SHTSIDjQEGIlQUDoPFHFDMPFHFDSQDGlFÇLGMFDkFEELEGHDQFHVSkFDSID ƒ„‡…ˆ‚ƒ€šš€ƒ…§ˆ‡€˜€ÆÈ‡Àˆ†š—‰‚‡€‡‚…šÉ˜‡‚§š€˜‡‚„…š‰‡ƒ§‡Ã€ƒ†„‡ƒ„‡ÀÁ‡Ê€ƒƒ˜¤‡€ˆ‰‡ÀÁ‡Â¤‚ƒÃ‡Ä§ˆƒ˜§šš˜‡‡€ˆ‰‡ƒ§‡‰Š†ƒ‡„€ƒÆ ËÌÌ ³ÍÍ ±¹Î ³ÍµË ¶²µ¹³Ï ´ËÌ ³°³¶ÐµÏ˹ÐÍ sICMDSIkELlFlUDCHlFHDQFOGHGMFEp} NIQFJKEFDrCJJLISkGMSCIQD¨SMDD ruqqhwrNttquvNqwqx wyzD rNttquvNqwqx wyzwh{wy|D rNttquvNqwqx wyzwBwy|D wDjIkELlFQDruqqhw¨jBwyx DGIlDrNttquvNqwqx wyzwh{wy|DoSMPD|wpFGHDhOHSIMDlGMGDOEGIDRCHD DDDNIQFJKEFDQSMFQ wD~nDKGQFlDtBNwqx DkFEELEGHDJClFJDoSMPD|wpFGHDhOHSIMDlGMGDOEGI wD~nDKGQFlDtBNwqx DkFEELEGHDJClFJDoSMPD|wpFGHDBÑBDlGMGDOEGI rSHkLSMDHFGFHQ DD”¨wx yw‘w‘~y’ DD”¨wx |w‘w‘~y’ DD”¨w‘yw‘{w‘~y’ DD”¨wx |w‘{w‘~y’w DD”¨w‘yw‘{w‘~y’w —¥¥§˜ƒ‚‡¡€ƒ§ˆ‡ÊœÅÒ ÓԇʜÅÒ ÕԇʜÅÅÓԇʜŦÓԇʜÅÖÓԇʜÅÕÓԇ€ˆ‰‡ÊœÅ×Ӈ†…˜†—…ƒ‡™˜€Ø˜‚Æ DDrSHkLSMDKHFGFHUD‘DOCEFUDxyUDNGMCID”‘x yD DDrSHkLSMDKHFGFHUD‘DOCEFUDx|UDNGMCID”‘x | DDrSHkLSMDKHFGFHUD‘DOCEFUD‘yUDNGMCID”‘‘yD DDrSHkLSMDKHFGFHUD‘DOCEFUDx|UDNGMCID”‘x |DoSMPDPCElDlCoIDSMDQLOOCHM DDrSHkLSMDKHFGFHUD‘DOCEFUD‘yUDNGMCID”‘‘yDoSMPDPCElDlCoIDSMDQLOOCHM N{trwyx {CoFHDESIFDkGHHSFHDskCJJLISkGMSCIDKHSl TFDOGSH}UDÇLGIMSMpDwDCIFDOGSH ºwhut”hÙjNtvwNh ”FOEGkFJFIMDQCEGHDQPSFElDRCHDjmDrCJKSIFHD~¾~r Ú£ŸÛžÜÝ ŸÒ Åӟ¦kkFQQCHpDHFkFOMGkEFDRCHD{CoFHDtSIFDrGHHSFHDSIDjmDrCJKSIFHD~¾~rDsHFÇLSHFlDRCHDN{trwyx } Ú£Ÿ¡›ÞŸÛÄÊ£Ÿ¦”FOEGkFJFIMDjmDnGMFoGpDOHSIMFlDkSHkLSMDKCGHlDs{r}DRCHDrCJKSIFHD~¾~r ºwjmw»wÙvwx ‘|ÙCElDlCoIDSMDRCHDNGMCIDkSHkLSMDKHFGFHDoSMPDQkHFoQ¼ ³´³Ì йΠÌË´µÍ Ï³Ì Î ßÎ Ì ËÐÎ ±¶Í ”GMSIT rCIMSILCLQDlLMp hpQMFJDVCEMGTF x‘y¾‘~yD’rUDzyDÙà NGMCID”DQFHSFQDKLQKGHDHGMSIT x‘|D qGŒ¼DkCIMSILCLQDkLHHFIMDHGMSIT z|D qGŒ¼DkCIMSILCLQDkLHHFIMDHGMSITDsSIOLMDRHCJD{’¾QMCHGTF}z~D qGŒ¼DRLQF¾kSHkLSMDHGMSITDsCLMOLM}áyD HGIkPDkSHkLSMQDsQCEGHDGIl¾CHDQMCHGTF}ODMCDRCLHD‘wOCEFDNGMCID”DQFHSFQDvSQMHSKLMFlDnFIFHGMSCIDsvn}DKHFGFHQDCIEpDsICMDSIkELlFl } qGŒ¼DMCMGEDKHGIkPDkSHkLSMDKHFGFHDHGMSITDsSIOLM}“yDCRDlSQMHSKLMFlDTFIFHGMSCID¾Dá|DoSMPDjmDnGMFoGpDKHFGFHDSIkELlFl {HClLkMSCIDJFMFHSITDrB ‘yyDDQCESlDkCHFDOHFwSIQMGEEFlDGIlDoSHFlDMCDjmDnGMFoGp rCIQLJOMSCIDJCISMCHSITDrBDsrBw‘yywh{tjB}DOGSHDCRD‘yyDDQOESMDkCHFDkLHHFIMDMHGIQRCHJFHQD °³Ì â ˶ΠÌË ´µ²ËÐË vSJFIQSCIQDsŽŒÙŒv}¦ãÆÕ‡ä‡ÖåÆÕ‡ä‡Ò ×Ææ‡†Ã‡çÒ ÖÆãÕè‡ä‡Ò åÆÕè‡ä‡×Æ×¦èÈÆ‡é…ꄃ‡…‚‡ÅÒ ÆÓ×ë‡çÕ¦ÆÕ‡†Ãȇ셃„‡Ã§—ˆƒ…ˆê‡™˜€†Øƒ‚Æ ŽFSTPM ãÆÕ‡Øê‡çÒ ×ÆÕ‡š™‚È JKSFIMDMFJOFHGMLHFDHGIT F w~yíDrDMCD½~zíDrDsw~yíDMCDxx|íD‹} rCCESIT »GMLHGEDkCIVFkMSCIUDOELQDPFGMDQPSFEl NIkECQLHFDFIVSHCIJFIMGEDHGMSIT ‰§§˜Ô‡›œžŸ†˜ƒ… ‰Ô‡›¡¢£‡ƒ¤¥‡¦œÔ‡¥§š¤†€˜™§ˆ€ƒ‡†§ˆ‚ƒ˜—†ƒ…§ˆ ŽSHFDQSàFQ iDD‘yDDMCD|yDDKHFGFHDSIOLMQïDx~DMCD~DŽnDkCOOFHDkCIlLkMCHQ iDDzyDDKHFGFHDKHGIkPDSIOLMïD~DMCDx¾yDŽnDkCOOFHDkCIlLkMCHQ iDDqGSIDELTDkCJKSIFlDCLMOLMïDxyDMCD‘¾yDŽnDkCOOFHDkCIlLkMCHQ iDD»FLMHGEDGIlDTHCLIlïDx~DMCDx¾yDkCOOFHDkCIlLkMCHQ EoGpQDRCEECoDECkGEDkClFDHFÇLSHFJFIMQDRCHDkCIlLkMCHDQSàSIT¼ EMSMLlF BCD‘yyyDJFMFHQDszU|zyDRFFM} Î ¶Ð³¹¶³ÐµÌ ±¶¶³Ì Ð Î ±¶µ±ÏÐ Î ±¶Í jIMFTHGMFlDŽSw‹S “y‘¼xx K¾T¾I rFEELEGH rNttquvNqwqx wyzwh{wy|UDrNttquvNqwqx wyzwBwy|Ds~nDKGQFlDtBNwqx DkFEELEGHDJClFJ}¼DD»CMFDMPGMDGIDNIOPGQFD qCKSEFDrCIIFkMDkFEELEGHDJClFJDSQDHFÇLSHFlDRCHDGEEDNIQFJKEFDSIQMGEEGMSCIQ¼ NMPFHIFM …§ˆ€šÔ‡æÓÅÆ¦Ô‡Ä€ƒÕ¡‡ç§˜‡Ä€ƒ‡×ȇܝۇ¡ƒ„˜ˆƒ‡†€™š‡‡çˆ§ƒ‡…ˆ†š—‰‰È Ì ±°Ï ´Î Ë ¶Ì ³ rCJOESGIkFUDjmDrCJKSIFH ܞ‡Ò ãÖÒ Ô‡Ä£›ðÄ£‡ÄÅůқ§Æ‡Ò ÓãÆÒ ԇ‡Öã‡ÄñœÔ‡Û€˜ƒ‡ÒÕԇ̀‚‚‡ÊԇÀġ‡ÓÓ¦ {HClLkMSCIDJFMFHSITïD»hjDrx ‘¼‘yDGkkLHGkpDkEGQQDy¼|Ds{’DOHCl LkMSCI} rCIQLJOMSCIDJFMFHSITïDGkkLHGkpDkEGQQD‘¼| rCJOESGIkFUDjmDnGMFoGp tDzyzyx wx ¾r»rhD‘‘¼‘D»C¼Dzx yx y wx D 2388 521 W Memory Ln - 2018007007/03/23 521 W Memory Ln - 2018007007/03/23 521 W Memory Ln - 2018007007/03/23 521 W Memory Ln - 2018007007/03/23 01234567891 1   !"#$ %&'&()*+&&##&,!  (%&  '-&.,,. "/0&.-'+ &- ",$ % +&&#1.213 (%'#&'!!$.%",1& %4 & ,$+(.%&4%(+.2"1/ 5.& . %&!.13 ( ,1.%%.& %& %#-,+" ( %'/0&3"& %#.,1.&( '%.- 3 ,2&$( %'%'#(% &#%( #& %&4%+ %' 6789:;<=6<>?@ABCD<:9EC@F9<=G9<H989I=;<6J<:9C@EHC9K<AC9E8<L679:M NOPQRPSTUOVWNOUXQXUYXRTW Z[\]^_`abc\de^fgha_i j klmknlVo pccqrsh\tuvc WwxyzVN{|}~ €gq\p€c‚chƒu „lV…† t^`a_\hc€bu j nV‡{ ˆ‰aŠ_c\hc€bu j ‹ŒV‡{ ca_\^Žc€\fa\ƒ^h`gh‚^‚‰V‡V‘’{|“”~V|•–V–y}’{|“”~— ca_\^Žc€\vca˜\d™š›‰\^œrb€gqŠaƒ˜‚vi žV‡V‘’{|“”~V|•–V–y}’{|“”~— Zvva€ch`\^Žc€\fa\ƒ^h`gh‚^‚‰ ŒŸV‡oV‘’{|“”~V|•–V–y}’{|“”~— Zvva€ch`\^Žc€\vca˜\d™š›‰\^œrb€gqŠaƒ˜‚vi žŒkV‡oV‘’{|“”~V|•–V–y}’{|“”~—  agf‚f\¡‚vv_u\pa‚_`\[‚€€ch`j lV‡  agf‚f\‚`v‚`\pa‚_`\[‚€€ch`‹kV ¢c€ƒ‚€€ch`\€^`cƒ`g^h\£c¢gƒc ‹lV sfŠa_ahƒc\¤^€\¡v_g`r¥a‰c\¦^aq‰j ll§ ^Žc€\paƒ`^€\‚`v‚`\ahbc ¨m©VjŒlV|–ª«}z|¬x~ ^Žc€\paƒ`^€\ahbc\d¤‚__r€a`cq\v^Žc€i ¨m©VlŒŸ sh`c€ha_\­a``c€u\£[\]^_`abc lVo ^‚hq\t€gv\®ƒgchƒu™¯°l§ a€€ah`u j lV±~|“} OToXPRTSOTYVWNOUXQXUYXRTW vc€a`ghb\tcfvc€a`‚€c ©kl²UVz³Vl²UV‘©n²QVz³Vjkk²Q— cƒ^ffchqcq\tcfvc€a`‚€c l²UVz³V‹l²UV‘‹k²QVz³VŸ„²Q— vc€a`ghb\´‚fgqg`u\d´i µwVz³Vjll§¶V’³•–~•}y•” ¡`^€abc\[^hqg`g^h‰©kl²UVz³V‹l²UV‘©n²QVz³VŸ„²Q— µwVz³V°§VP…¶V•³•·’³•–~•}y•” Wz|z~V³¸VO•~“”±V‘W³O—¹Vk§Vy•yzy|x  agf‚f\_c¢a`g^h ‹lllVºV‘°Ÿn‹V¸z—V h¢g€^hfch`X•–³³“V|•–V³«z–³³“V“|z~– hƒ_^‰‚€c\tuvc TOSV‹P shb€c‰‰\a`ghb XN„žV‘»|zz~“±V¼VN³½~“VOx~’z“³•y’}—V XN„V‘y“y•”VU³ºw|“zº~•z— c`\¦^ƒa`g^h\a`ghb ¾~} e^g‰c\¦c¢c_\¿\™f ÀÁVnlV–»V|zV‹l²UV‘Ÿ„²Q— SOU…TXUVWNOUXQXUYXRTW £gfch‰g^h‰™jjlVººVÂVžVººVÂVjnžVººVV ‘nŒ‹Vy•VÂVk°Œ„Vy•VÂVŒžVy•— cgb¥`™jjnV‡”V‘kjŒ‹Vx¬}—  ^‚h`ghb\^v`g^h‰Qx³³“V³“V½|xxVº³«•z VjÁÃyº~•}y³•}V|•–V½~y”{zV–yÄ~“V}xy”{zx±Vy¸Vº|•«¸|’z«“~–V¬~¸³“~VS|“’{Vklj °ŒVVVV V jÁo|x«~}Vw“³Åy–~–V¸³“Vk²UV‘žž²Q—¶V‹Œ‹V‡V’{|“”~m–y}’{|“”~Vw³½~“Œ kÁX•V»|’‡«wVº³–~¶V”“y–V’{|“”~Vw³½~“Vy}Vxyºyz~–Vz³V‹Œ‹V‡Œ ‹ÁUVz³V¬|zz~“±Vz³VU ¶V|zV¬~”y••y•”V³¸Vxy¸~Œ URSNXTUOVXTQRPSYXRT [c€`gƃa`g^h‰µVj„nk¶VµVjžnj¶VµVj°ž‹¶VV µV°nl¶VXOOOVjnž ¶VµTV‹ŸŒ‹ €gq\[^hhcƒ`g^h ³“x–½y–~VU³ºw|zy¬yxyz± fg‰‰g^h‰QUUVN|“zVjVUx|}}V» ¶VXUOWVll‹ h¢g€^hfch`a_P³…WVÃy“~’zyÅ~Vkljjm„mOµ ¡cg‰fgƒUj„¶VXOOOV„°‹·kllV‘{y”{— ž‹VººV ‘k°Œ„Vy•— j nžVººV ‘ŒžVy•— jjlVººV ‘nŒ‹Vy•— U³•z|’zVY~}x|V¸³“V|––yzy³•|xVy•¸³“º|zy³•Œ 01234567891 1 Y¾NXUVW¾WYOSV¾RµYW ÏÐÑÒÓÐÔÕÖרÙÕÚÐÛÜÝÏ ÞÖ×ÔÙÕÖרÙÕÚÐÛÜÝÏ ßàáâãäàâåæ çèéãäàâåæ çêæàë ìêíåãæêàîï çêæàëãáâðåëñåë òñáæáñóãíåñåë ôëáîõö÷øùúûüöýþ ö0 12 þ3 ö44 5à67èäãæêàîï 89  TV·V»UµNV·Vklj°·l„·jj  !"#$%&' ()*(+ ,-),).(() /0(10( 2.0 34.4. 50)6*1 2.0(- 78&%9&:: ;<=>?@AB 521 W Memory Ln - 2018007007/03/23 01234567891 1   !"" ##$ %&& &%' ()*+,(-./+,..,+012-3,4 53453 325+31+,134*+,-+.,-.*6+3-51+371568-2+3,+.73289 ()+3,+.-+331+3+)4 ,127+51.. 2134+4 -32,+012 134-5.--,3-11+3+8+,9 )3:12 1)5131,18,,7)38 13-..2)-,013,39 )3)+1+3.13,3.3.8+,21- 13-..2 7)3.-+*31+3-.+2 3,9 ()+5531-21,.1)/+,..7..+134+ +5+31+,3,4-3253483,4 ,-,0-*,+535+81. 2011))(-.9 ;<=>?@<A;<(!"B/;C>D>C!(>@<B EFGHIJKLMNFOEFGHIPGF QRSC+TRSCUQVSD+W SDX EFGHIJKLMYPOJZJI[M\Y]^+W RR_7+323-134 `HaJOPOMbFcHIJdK eRRR5UfgVe*X KcJGdKOFKI >32++,32+2++,,2 KhbdiPGFMN[EF <;A!e? /;?D@?A!<C;B/;C>D>C!(>@<B jkMldbIHLFM\mdOJKHb]W RnVR= oFFZpqKMN[EF B.1/)- rGJZMoGFsPFKh[tRuv kPGGFKIMHIJKL RR! `HaJOPOMqKEPIMwxdGIMkJGhPJIMkPGGFKI W R!W cFGhPGGFKIMGdIFhIJdKMyFcJhF W RR6RR!zB,01;3,3?2 W cFGcdbIHLFMkHIFLdG[C4+,>= jkM`FIFG ?03,U{nQR9_X GJOHG[MkdKKFhIJcJI[;),37 16D1 wFhdKZHG[MkdKKFhIJcJI[C...,Ue7"(;nVX |iFGMqKIFG}HhF (-.! EFGHIJKLM`dZFi B+,*+,-+.,-.*6+3-51+37 1568-2+3,+.7328 ~HhPEMNGHKiJIJdK !+5121-+33*+,-5.-- 8 `dZPbHGJI[B+,-+W R!C6+.2 /+,..- EIJdKHbMqKIFGKHbMHKFb€dHGZ RR!t6-nW 1,1;+3 ?C1,1,,- HGGHKI[W R,- C@A/">!<C;><D@?A!(>@< kFGIJ}JhHIJdKi ^"t7^"gtf!7^"fW t7^"W VW /CB CB!9R9W f7CB!9RT OJiiJdKi DCC/,W T7>C;BRRe <!RR6RT6e W )3,+28C.--‚*--71--18.*+,-13 1,1-8.+*2.10,1343+5+,)3!-55,1.5,-9 ()-+5,1-ƒ2+,+01213,3+33101*+, z...,-)+.23+8-2-),15,5+2+*+331019C..., +33101-8„+3+,+,+,-,01+0,432-143.-,34)9 A;Cu!<>C!"B/;C>D>C!(>@<B yJOFKiJdKi ttR55ƒVWW 55ƒW Vf55 Ut13ƒW t13ƒt13X FJLxI R9V4UVT.8X `dPKIJKLMdEIJdKi ..5+37B516*.-)5+3 521 W Memory Ln - 2018007007/03/23 521 W Memory Ln - 2018007007/03/23 17 Switching Configurations Type 2-pole 2-pole 4 parallel poles 4-pole 2-pole 4 poles in series Input on top Output bottom 2-pole 4 poles in series Input and Output bottom 2-pole 4 poles in series Input and Output on top SI16 2 2H 4 4S 4T 4B SI25 2 2H 4 4S 4T 4B SI32 2 2H 4 4S 4T 4B SI40 2 2H 4 4S 4T 4B SI55 2 2H 4 4S 4T 4B Contacts Wiring Diagram Switching example 2 4 1 3 + - 2 4 1 3 6 8 5 7 + - 2 4 1 3 6 8 5 7 + -- + 2 4 1 3 6 8 5 7 + - 2 4 1 3 6 8 5 7 + - 2 4 1 3 6 8 5 7 + - Type 6-pole 2-pole 6 parallel poles 8-pole 2-pole 8 parallel poles SI16 6 3H 8 4H SI25 6 3H 8 4H SI32 6 3H 8 4H SI40 ---- SI55 ---- Contacts Wiring Diagram Switching example 2 4 1 3 6 8 5 7 2 4 1 3 2 4 1 3 6 8 5 7 2 4 1 3 2 1 4 3 6 5 8 7 4 3 6 5 8 7 2 1 2 1 4 3 6 5 8 7 4 3 6 5 8 7 2 1 + - + - + - + - + + + + - - - - + - Insulated Jumper for series and parallel switching of contacts Type Jumper Pack Weight SI16, SI25, SI32 SIV-B1 100 6.6g/pc. SI40, SI55 SIV-B2 100 9.64g/pc. Specifications are subject to change without notice 26 Specifications are subject to change without notice Rotary Actuator Switch - Lockable Off in Plastic Enclosure Rotary Actuator Switch Lockable Off - Safe-Lock Self-Extinguishing Plastic Enclosure M25 Cable Gland Entry Option NEMA Type 3R IP66 „ „ „ „ „ „ DC21A IEC60947-3 UL Ratings UL508i Poles in series No. of Strings Weight Kg/pcs. Part Number Contact Configuration 600V 800V 1000V 1500V 350V 500V 600V 1000V 16A 16A 9A 3A 16A 16A 16A - 2 1 0.43 SI16 PEL64R 2 25A 20A 11A 4A 20A 20A 20A - 2 1 0.43 SI25 PEL64R 2 32A 23A 13A 5A 25A 25A 25A - 2 1 0.43 SI32 PEL64R 2 40A 30A 20A 6A 40A 40A 40A 16A 2 1 1.59 SI40 PEL64R 2 55A 45A 36A* 8A 55A 55A 55A 20A 2 1 1.59 SI55 PEL64R 2 29A 16A 9A 3A 29A 29A 21A - 2 1 0.49 SI16 PEL64R 2H 45A 20A 11A 4A 45A 38A 23A - 2 1 0.49 SI25 PEL64R 2H 50A 23A 13A 5A 58A 40A 25A - 2 1 0.49 SI32 PEL64R 2H 64A 30A 20A 6A 72A 53A 42A 22A 2 1 1.74 SI40 PEL64R 2H 80A 45A 25A 8A 85A 66A 55A 25A 2 1 1.74 SI55 PEL64R 2H 16A 16A 9A 3A 16A 16A 16A - 2 2 0.46 SI16 PEL64R 4 25A 20A 11A 4A 20A 20A 20A - 2 2 0.46 SI25 PEL64R 4 32A 23A 13A 5A 25A 25A 25A - 2 2 0.46 SI32 PEL64R 4 40A 30A 20A 6A 40A 40A 40A 16A 2 2 1.67 SI40 PEL64R 4 55A 45A 36A* 8A 55A 55A 55A 20A 2 2 1.67 SI55 PEL64R 4 16A 16A 16A 16A 16A 16A 16A - 4 1 0.47 SI16 PEL64R 4S 25A 25A 25A 20A 25A 25A 25A - 4 1 0.47 SI25 PEL64R 4S 32A 32A 32A 23A 32A 32A 32A - 4 1 0.47 SI32 PEL64R 4S 40A 40A 40A 30A 40A 40A 40A 40A 4 1 1.70 SI40 PEL64R 4S 55A 55A 55A 40A 55A 55A 55A 55A 4 1 1.70 SI55 PEL64R 4S 16A 16A 9A 3A 16A 16A 16A - 2 3 1.53 SI16 PEL64R 6 25A 20A 11A 4A 20A 20A 20A - 2 3 1.53 SI25 PEL64R 6 32A 23A 13A 5A 25A 25A 25A - 2 3 1.53 SI32 PEL64R 6 16A 16A 9A 3A 16A 16A 16A - 2 4 1.58 SI16 PEL64R 8 25A 20A 11A 4A 20A 20A 20A - 2 4 1.58 SI25 PEL64R 8 32A 23A 13A 5A 25A 25A 25A - 2 4 1.58 SI32 PEL64R 8 29A 29A 29A 16A 29A 29A 29A - 4 1 1.63 SI16 PEL64R 4H 45A 45A 45A* 20A 45A 45A 45A - 4 1 1.63 SI25 PEL64R 4H 58A 58A* 58A* 23A 58A 58A 50A - 4 1 1.63 SI32 PEL64R 4H 2 4 1 3 2 4 1 3 6 8 5 7 2 4 1 3 6 8 5 7 2 4 1 3 6 8 5 7 2 1 4 3 6 5 8 7 4 3 6 5 8 7 2 1 2 1 4 3 6 5 8 7 4 3 6 5 8 7 2 1 2 4 1 3 6 8 5 7 2 4 1 3 4T / 4B configuration also available. For ratings refer to 4S configuration. (See page 17) * DC21B 521 W Memory Ln - 2018007007/03/23 27 Specifications are subject to change without notice Technical Data Data according to IEC 60947-3, VDE 0660, GB14048.3 1) Suitable at overvoltage category I to III, pollution degree 3 (standard-industry): Uimp = 8kV. 2) Suitable at overvoltage category I to III, pollution degree 2 (min.IP55): Uimp = 8kV. Main Contacts Type SI16 SI25 SI32 SI40 SI55 Rated thermal current Ithe A 16 25 32 40 55 Rated insulation voltage Ui 1)V 1000 1000 1000 1500 1500 Rated insulation voltage Ui 2)V 1500 1500 1500 -- Distance of contacts (per pole)mm 8 8 8 Rated operational current Ie 300V A 16 23 27 40 55 1 pole 400V A 12 14 16 30 40 DC21A & DC21B 1 500V A 9 11 13 19 25 600V A 6 8 10 15 20 700V A 4.5 6 7.5 10 15 L/R = 1ms 800V A 3 4 5 8 10 900V A 2.5 3 4 6 8 DC21B 1000V A 1.5 2 2.5 4 6 2 poles in series 500V A 16 25 32 40 55 2 600V A 16 25 32 40 55 700V A 16 23 27 35 55 800V A 16 20 23 30 45 850V A --25 -- 900V A 13 16 20 25 35 1000V A 9 11 13 20 36 1200V A 6 8 10 10 15 1500V A 3 4 5 6 8 2 poles in series 500V A 29 45 58 72 85 + 2 poles parallel 600V A 29 45 50 64 80 2H 700V A 16 23 27 35 55 800V A 16 20 23 30 45 900V A 13 16 20 25 35 1000V A 9 11 13 20 25 1200V A 6 8 10 10 15 1500V A 3 4 5 6 8 3 poles in series 500V A 29 45 58 -- + 2 poles parallel 600V A 29 45 50 -- 3H 700V A 29 38 45 -- 800V A 29 38 45 -- 900V A 29 38 45 -- 1000V A 29 38 45 -- 1200V A 12 14 16 -- 1500V A 9 11 13 -- 4 poles in series 500V A 16 25 32 40 55 4S 600V A 16 25 32 40 55 700V A 16 25 32 40 55 800V A 16 25 32 40 55 900V A 16 25 32 40 55 1000V A 16 25 32 40 55 1200V A 16 25 32 40 55 1500V A 16 20 23 30 40 4 poles in series 500V A 29 45 58 -- + 2 poles parallel 600V A 29 45 58 -- 4H 700V A 29 45 58 -- 800V A 29 45 58 -- 900V A 29 45 58 -- 1000V A 29 45 58 -- 1200V A 29 45 50 -- 1500V A 16 20 23 -- Rated operational current Ie AC21B 2, 4 Ue max. 440V A 16 25 32 40 55 2H Ue max. 440V A 29 45 58 72 85 1 2 1 2 3 4 1 2 3 4 1 2 3 4 5 6 7 8 1 1 2 3 4 5 6 28 Specifications are subject to change without notice Technical Data continued Data according to IEC 60947-3, VDE 0660, GB14048.3 Main Contacts Type SI16 SI25 SI32 SI40 SI55 Rated operational current Ie 500V A 1 1.25 1.5 x 2.5 DC22B 1 pole 600V A 0.5 0.75 1 x 2 1 800V A 0.3 0.4 0.5 x 1.5 L/R = 2.5ms 1000V A 0.15 0.2 0.25 x 1 1200V A ---x x 1500V A ---x x 2 poles in series 500V A 7 8 9 x x 2 600V A 5.5 6 6.5 x x 800V A 2 2.5 3 x x 1000V A 1 1.5 2 x x 1200V A ---x x 1500V A ---x x 4 poles in series 500V A 16 25 32 x x 4S 600V A 16 25 27.5 x x 800V A 11.5 12 12.5 x x 1000V A 8 9 10 x x 1200V A ---x x 1500V A ---x x Rated conditional short-circuit current kAeff 5 5 5 10 10 Max. fuse size gL (gG) A 40 63 80 125 160 Mechanical Life x103 10 10 10 10 10 Rated short-time withstand current (1s) Icw 2, 4, 6, 8 2H, 3H, 4H A A 800 1300 900 1500 1000 1700 A2, A4: 1200 A2+2: 2000 A2, A4: 1400 A2+2:2400 Short circuit making capacity Icw 2, 4, 6, 8 2H, 3H, 4H A A 800 1300 900 1500 1000 1700 A2, A4: 1200 A2+2: 2000 A2, A4: 1400 A2+2:2400 Maximum cable cross sections (including jumper LSV-B1) solid or stranded mm2 4 - 16 4 - 16 4 - 16 2.5 - 25 2.5 - 25 flexible mm2 4 - 10 4 - 10 4 - 10 4 - 16 4 - 16 flexible (+ multicore cable end)mm2 4 - 10 4 - 10 4 - 10 2.5 - 16 2.5 - 16 Size of terminal screw M4 Pz2 M4 Pz2 M4 Pz2 M5 Pz2 M5 Pz2 Tightening torque Nm 1.2 - 1.8 1.2 - 1.8 1.2 - 1.8 2.5 - 2.8 2.5 - 2.8 2 cables per clamp without jumper LSV-B1 / LSV-B2 solid or stranded mm2 16+(1.5-2.5)/10+(1.5-6)/6+(1.5-10)/4+(1.5-10) 16+(1.5-2.5)/10+(1.5-10)/ 6+(1.5-10)/4+(1.5-10) flexible mm2 16+(1.5-2.5)/10+(1.5-4)/6+(1.5-6) 16+(1.5-6)/10+(1.5-10)/ 6+(1.5-16)/4+(1.5-16)& flexible + multicore cable end stranded AWG 8+(16-12)/10+(16-10)/12+(16-8)/14+(16-8) 3+(18-10)/4+(18-10)/ 6+(18-8)/8+(18-8) solid AWG 10+(16-12)/12+(16-10)/14+(16-10) 10+(16-10)/12+(16-10)/ 14+(16-10)/12+(16-10)/14+(16-10) Maximum ambient temperature Operation All types except PEL64R °C -40 to +65 PEL64R type °C -40 to +45 Storage °C -50 to +70 Power loss per switch at Ie max. DC21B 2 W 0.8 2 3 4 6 4 W 1.6 4 6 8 12 6 W 2.4 6 9 12 18 8 W 3.2 8 12 16 24 2H W 0.4 1 1.5 2 3 3H W 0.6 1.5 2.25 3 4.5 4H W 0.8 2 3 4 6 1 2 1 2 3 4 1 x - In Test 521 W Memory Ln - 2018007007/03/23 MAIN SERVICE PANEL,240V GROUNDING ELECTRODE & AUXILIARY GROUNDING ELECTRODE AS NEEDED PER CEC 690.47 (6 FEET APART) L LL L GN D N A CENTER FED ME T E R # (E)200A/2P (N)200A/2P 22 2 0 1 3 - 1 6 4 3 0 0 (E)200 + - CTRL THWN-2 3-#10 1-#10 GRND 3/4" EMT CONDUIT 4-#14 LOW VOLTAGE COMMUNICATION WIRES TO BE RUN FROM THE BATTERY TO MID (N) TESLA POWERWALL 2 TESLA P/N 1092170-XX-Y (240V) (SI1) + GATEWAY 1118431-XX-X (CRD-PCS) 5KW, 13.5KWH NEMA 3R, 5.8KVA "SYSTEM CAN OPERATE IN ISLAND MODE" GNDN SLC INPUT CTRL CT MONITOR TESLA (N)TESLA POWERWALL ESS DISCONNECT SWITCH (N)200A TESLA BACKUP GATEWAY 2 TESLA P/N 1118431-XX-X (CRD-PCS NON-EXPORT) (N)30A/2P THE ESS CIRCUIT BREAKER SHALL BE SECURED IN PLACE BY AN ADDITIONAL FASTENER PER SECTION 408.36(D). THE BREAKER AND FASTENER SHALL BE MADE BY THE SAME MANUFACTURER Producer's storage device(s) will not cause the Host Load exceed its normal peak demand. Normal peak demand is defined as the highest amount of power required from the Distribution System by Producer's complete facilities without the influence or use of energy storage devices. GN D N (N) 200A SELECTED LOAD CENTER AFCI PROTECTION WILL BE PROVIDED FOR 15A AND 20A BREAKERS THAT ARE RELOCATED MORE THAN 6' FROM THE ORIGINAL BREAKER SOURCE (N)200A/2P THWN-2 3-#3/0 1-#4 GRND 2" EMT CONDUIT + - CTRL THWN-2 3-#10 1-#10 GRND 3/4" EMT CONDUIT 4-#14 LOW VOLTAGE COMMUNICATION WIRES TO BE RUN FROM THE BATTERY TO MID (N) TESLA POWERWALL 2 TESLA P/N 1092170-XX-Y (240V) (SI1) + GATEWAY 1118431-XX-X (CRD-PCS) 5KW, 13.5KWH NEMA 3R, 5.8KVA THE ESS CIRCUIT BREAKER SHALL BE SECURED IN PLACE BY AN ADDITIONAL FASTENER PER SECTION 408.36(D). THE BREAKER AND FASTENER SHALL BE MADE BY THE SAME MANUFACTURER (N)30A/2P (N)80A/2P (N) 100A VISIBLY OPEN, LOCKABLE, AC DISCONNECT 240V NEMA-3R G EACH WITH AN ENPHASE IQ8M-72-2-US MICROINVERTER, 240V AC (N) J-BOX G 1 BRANCH OF MODULES8 SOURCE CIRCUIT #1 Isc = 10.8A EACH WITH AN ENPHASE IQ8M-72-2-US MICROINVERTER, 240V AC (N) J-BOX G 1 BRANCH OF MODULES9 SOURCE CIRCUIT #2 Isc = 12.15A ENPHASE Q CABLE 2-#12 1-#6 GRND OPEN AIR THWN-2 2-#10 1-#8 GRND 3/4" EMT CONDUIT Enphase IQ Gateway REVENUE-GRADE PRODUCTION METERING FACTORY INSTALLED enphase ENERGY (N) 125A ENPHASE IQ COMBINER 4/4C NEMA-3R X-IQ-AM-1-240-4/4C [CRD-PCS NEM), 240V (N) 15A/2P (N) 20A/2P (N) 20A/2P (N) 20A/2P (N) 20A/2P EACH WITH AN ENPHASE IQ8M-72-2-US MICROINVERTER, 240V AC (N) J-BOX G 1 BRANCH OF MODULES10 SOURCE CIRCUIT #2 Isc = 13.5A EACH WITH AN ENPHASE IQ8M-72-2-US MICROINVERTER, 240V AC (N) J-BOX G 1 BRANCH OF MODULES10 SOURCE CIRCUIT #2 Isc = 13.5A THWN-2 3-#4 1-#8 GRND 1" EMT CONDUIT THWN-2 3-#3/0 1-#4 GRND 2" EMT CONDUIT E7 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 THIS INSTALLATION WILL PROVIDE WHOLE HOME BACKUP. 2 BATTERIES STACKED KIT WILL BE USED 521 W Memory Ln - 2018007007/03/23 E7.1 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 2% Avg. 1" MIN ASHRAE AMBIENT TEMPERATURE SPECS ° C ° C High Temp EXTREMEDISTANCE ABOVE ROOF NO TEMP ADDER PER 310.15(B)(2) 31 -4 INTERCONNECTION METHOD PER 705.12(B)(3)(3): THE SUM OF THE AMPERE RATINGS OF ALL OVERCURRENT DEVICES ON PANELBOARDS, BOTH LOAD AND SUPPLY DEVICES, EXCLUDING THE RATING OF THE OVERCURRENT DEVICE PROTECTING THE BUSBAR, SHALL NOT EXCEED THE AMPACITY OF THE BUSBAR. THE RATING OF THE OVERCURRENT DEVICE PROTECTING THE BUSBAR SHALL NOT EXCEED THE RATING OF THE BUSBAR. WARNING: THIS EQUIPMENT FED BY MULTIPLE SOURCES. TOTAL RATING OF ALL OVERCURRENT DEVICES, EXCLUDING MAIN SUPPLY OVERCURRENT DEVICE, SHALL NOT EXCEED AMPACITY OF BUSBAR. 200A BRANCH BREAKER =200A TOTAL AMPS 200A = 200A MAIN BREAKER 200A = 200A BUS RATING FOR MSP :- UTILITY COMPANY: MSP VOLTAGE: MSP GROUND:SERV. TYPE: SERVICE INFO PGE 120/240 OVERHEAD (E) UFER 521 W Memory Ln - 2018007007/03/23 ELECTRICAL NOTES: 1) ALL MODULES WILL BE GROUNDED IN ACCORDANCE WITH CODE AND THE MANUFACTURER’S INSTALLATION INSTRUCTIONS. 2) ALL PV EQUIPMENT SHALL BE LISTED BY A RECOGNIZED TESTED LAB. 3) NOTIFY SERVING UTILITY BEFORE ACTIVATION OF PV SYSTEM. 4) WHEN A BACKFED BREAKER IS THE METHOD OF UTILITY INTERCONNECTION, BREAKER SHALL NOT READ LINE AND LOAD. 5) WHEN A BACKFED BREAKER IS THE METHOD OF UTILITY INTERCONNECTION, THE BREAKER SHALL BE INSTALLED AT THE OPPOSITE END OF THE BUS BAR OF THE MAIN BREAKER. 6) WORKING SPACE FOR EQUIPMENT OPERATING AT 1000 VOLTS, NOMINAL, OR LESS TO GROUND AND LIKELY TO REQUIRE EXAMINATION, ADJUSTMENT, SERVICING, OR MAINTENANCE WHILE ENERGIZED SHALL COMPLY WITH [CEC 110.26(A)] 7) ALL EXTERIOR CONDUITS, FITTINGS AND BOXES SHALL BE RAIN-TIGHT AND APPROVED FOR USE IN WET LOCATIONS PER [CEC 314.15]. 8) ALL METALLIC RACEWAYS AND EQUIPMENT SHALL BE BONDED AND ELECTRICALLY CONTINUOUS. 9) PV EQUIPMENT, SYSTEMS AND ALL ASSOCIATED WIRING AND INTERCONNECTIONS SHALL ONLY BE INSTALLED BY QUALIFIED PERSONS. [CEC 690.4 (C)]. 10) THE PHOTOVOLTAIC SYSTEM CONDUCTORS SHALL BE IDENTIFIED AND GROUPED. THE MEANS OF IDENTIFICATION SHALL BE PERMITTED BY SEPARATED COLOR CODING, MARKING TAPE, TAGGING OR OTHER APPROVED MEANS. [CEC 690.31(B)(1)] 11) ADEQUATE SPACING MUST BE MAINTAINED BETWEEN ANY PLUMBING SEWER VENTS EXTENDING THROUGH THE ROOF AND THE UNDERSIDE OF THE PHOTOVOLTAIC PANELS (6" MINIMUM RECOMMENDED). E8 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 LOAD CALCULATIONS FOR CIRCUIT RELOCATION 521 W Memory Ln - 2018007007/03/23 BATTERY INSTALL DIAGRAM E8.1 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 521 W Memory Ln - 2018007007/03/23 MARKING IS REQUIRED ON ALL INTERIOR AND EXTERIOR DC PV CONDUIT, RACEWAYS, ENCLOSURES, CABLE ASSEMBLIES, AND JUNCTION BOXES TO ALERT THE FIRE SERVICE TO AVOID CUTTING THEM. MARKING SHALL BE PLACED EVERY 10 FEET, AT TURNS AND ABOVE AND/OR BELOW PENETRATIONS, AND AT ALL PV COMBINER AND JUNCTION BOXES. [CEC 690.31(D)(2)] REFLECTIVE WEATHER RESISTANT MATERIAL SUITABLE FOR THE ENVIRONMENT (DURABLE ADHESIVE MATERIALS MUST MEET THIS REQUIREMENT) MARKING CONTENT AND FORMAT PER [ CEC 110.21(B)] WITH REFERENCE TO ANSI Z535.4-2011 -BACKGROUND PER ANSI Z535.4-2011 -LETTERING PER ANSI Z535.4-2011 -MINIMUM 3/8” LETTER HEIGHT -ALL CAPITAL LETTERS -ARIAL OR SIMILAR FONT, NON BOLD MARKING PV CIRCUIT E9 SHEET NUMBER: SE M P E R S O L A R I S 18 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 14 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 1 13 144 8 3 2 13 12 11 9 5 PV COMBINER (IF USED) FOR ILLUSTRATION ONLY (NOT ACTUAL MSP) MAIN SERVICE PANEL AC DISCONNECT (IF USED) PV METER (IF USED) LABEL LEGEND 9 1 1 2 3 4 4 5 8 9 13 13 14 5 3 5 15 15 CEC 690.56(C) CEC 705.12(C) & CEC 690.59 CEC 690.13(B) CEC 690.13(B) CEC 690.54 CEC 705.12(B)(3)(2) CEC 110.27(C)CEC 706.15(C)(4) CEC 690.13(B) CEC 705.12(B)(3)(3) CEC 705.12(D) CEC 690.56(C)(2) 521 W Memory Ln - 2018007007/03/23 LA ESS ESSMSP TBG2 SLCEDS ACD LA ACC CAUTION POWER TO THIS SERVICE IS ALSO SUPPLIED FROM THE FOLLOWING SOURCES WITH DISCONNECTS LOCATED AS SHOWN: PLACARD RIVETED TO THE MAIN SERVICE PANEL E9.1 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N ER G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 NOMINAL OPERATING AC VOLTAGE: BBBBBBBB NOMINAL OPERATING AC FREQUENCY:BBBBBBBB MAXIMUM AC POWER: BBBBBBBB MAXIMUM AC CURRENT: BBBBBBBB MAX OVERCURRENT DEVICE RATING FOR AC MODULE PROTECTION: BBBBBBBB 240V 60.0Hz 12025W 49.95A 70A SOLAR LOAD CENTER NO ADDITIONAL LOADS ALLOWED PHOTOVOLTAIC AC DISCONNECT RATED AC OUTPUT CURRENT: BBBBB A NOMINAL OPERATING AC VOLTAGE: BBBBB V 62.43 240 N (YOU ARE HERE) SERVICE POINT & UTILITY METERING & BATTERY DISCONNECT ESS FIRST RESPONDER DISCONNECT SWITCH STORAGE BATTERY DISCONNECT PV DISCONNECTWARNING: THIS EQUIPMENT FED BY MULTIPLE SOURCES. TOTAL RATING OF ALL OVERCURRENT DEVICES EXCLUDING MAIN SUPPLY OVERCURRENT DEVICE SHALL NOT EXCEED AMPACITY OF BUSBAR. PHOTOVOLTAIC POWER SOURCE OPERATING AC VOLTAGE: BBBBB V MAXIMUM OPERATING AC OUTPUT CURRENT: BBBBBB AMPS LABEL FOR MAIN SERVICE PANEL COVER 240 122.43 SOLAR ARRAY THIS IS THE COMBINE AMPERAGE OF NEW SOLAR & NEW ESS BATTERY ESS BATTERY SELECTED LOAD CENTER 521 W Memory Ln - 2018007007/03/23 ADDITIONAL BATTERY PLACARDS E9.2 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 WARNING INVERTER OUTPUT CONNNECTION DO NOT RELOCATE THIS OVERCURRENT DEVICE WARNING THIS EQUIPMENT FED BY MULTIPLE SOURCES. TOTAL RATING OF ALL OVERCURRENT DEVICES EXCLUDING MAIN SUPPLY OVERCURRENT DEVICE, SHALL NOT EXCEED AMPACITY OF BUSBAR WARNING ELECTRIC SHOCK HAZARD IF A GROUND FAULT IS INDICATED, NORMALLY GROUNDED CONDUCTORS MAY BE UNGROUNDED AND ENERGIZED CAUTION TRI POWER SOURCE SECOND SOURCE IS AC BATTERY THIRD SOURCE IS PHOTOVOLTAIC SYSTEM INFORMATIONAL NOTE: ANSI Z535.4 PROVIDES GUIDELINES FOR THE DESIGN OF SAFETY SIGNS AND LABELS FOR APPLICATION TO PRODUCTS. A PHENOLIC PLAQUE WITH CONTRASTING COLORS BETWEEN THE TEXT AND BACKGROUND WOULD MEET THE INTENT OF THE CODE FOR PERMANENCY. NO TYPE SIZE IS SPECIFIED, BUT 20A POINT (3/8") SHOULD BE CONSIDERED THE MINIMUM. LABEL LOCATIONS: -MAIN PANEL -SUB PANELS LABEL LOCATIONS: -BATTERY SUBPANEL -SUB PANELS LABEL LOCATIONS: -BATTERIES -INVERTER LABEL LOCATIONS: -SERVICE DISCONNECT -SUB PANELS SOLAR BATTERY 1 OF 2 COMBINER BATTERY SUB PANEL (IF USED) 16 5 BATTERY UNIT BATTERY EDSBATTERY MID 5 5 16 17 17 18 18 ENERGY STORAGE SYSTEM DISCONNECT NORMAL ESS VOLTAGE: MAX SYSTEM SHORT CIRCUIT: ASSOCIATED ESS CLEARING TIME: DATE CALCULATION PERFORMED: 120/240 V 32A 67 MS FOR ESS DISCONNECT SWITCH/ESS MID 02-06-2023 2 OF 2 521 W Memory Ln - 2018007007/03/23 LA ES S ES S MS P TB G 2 SLC ED S ACD LA ACC E S S PAT H 18" FIRE SETBACK18" ACC E S S PAT H 18" ACC E S S P A T H 18" ACC E S S PAT H 18" ACCE S S PAT H 18" ACCE S S PAT H 18" ACCESS PAT H 18" ACCESS PA T H 18" FI R E S E T B A CK 18 " FI R E S E T B A C K 18 " ACC EXISTING DRIVEWAY E2 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 SCALE: SITE PLAN N 3/32" = 1'-0" THIS INSTALLATION WILL PROVIDE WHOLE HOME BACKUP. 2 BATTERIES STACKED KIT WILL BE USED LEGEND MSP 2(N) 200A TESLA BACKUP GATEWAY 2 ENERGY STORAGE SYSTEM, 240V NEMA-3R TBG ESS (N) 200A SALECTED LOAD CENTER. (MSP ALL EXISTING LOADS NEED TO BE RELOCATED TO NEW 200A SLC.) SLC (N) TESLA POWERWALL2 INTERNAL PANEL BOARD WILL BE POC FOR 2 (N) 30A BATTERY BREAKERS FEEDING 2 (N) BATTERIES AND TO BE POC FOR (N) 80A/2P PV BREAKER FEEDING (N) 100A AC DISCONNECT WILL BE POC FOR (N)125A ENPHASE IQ COMBINER PANEL 4/4C. LOAD SIDE LUGS FEEDING (N) 200A SLC. EDS (N) TESLA POWERWALL ESS FIRST RESPONDER DISCONNECT SWITCH (E) 200A BUS CF (E) 200A MAIN BREAKER HAVING (N) 200A/2P BRANCH BREAKER FEEDING (N) TESLA POWERWALL2 SERVICE POINT & UTILITY METERING ACC LA LADDER ASSESS 37 (N) SILFAB SIL400 HC+ SOLAR MODULES (FLUSH MOUNT) EACH WITH 7 (N) MCI. (N) 125A ENPHASE IQ COMBINER 4C WITH ENVOY IQ, CELL MODEM, & WIRELESS COMMUNICATIONS KIT (N) 100A SINGLE VISIBLY OPEN & LOCKABLE AC DISCONNECT 240V NEMA-3R POC FOR (N)125A ENPHASE IQ COMBINER PANEL 4/4C. ACD EXISTING PATIO 521 W Memory Ln - 2018007007/03/23 LA ES S ES S MS P TB G 2 SL C ED S ACD LA ACC E S S PA T H 18" FIRE SETBACK18" ACC E SS PAT H 18" ACC E S S PAT H 18" ACC E S S PAT H 18" ACC E S S PAT H 18" ACCES S PATH 18" ACC E S S PAT H 18" ACC E SS PAT H 18" ACCESS PATH 18" ACCESS PATH 18" FI R E S E T B A C K 18 " FI R E S E T B A C K 18 " ACC TILT AZIMUTH 180°18° TI L T AZ I M U T H 27 0 ° 18 ° RP1 RP 1 E5 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 SCALE: ROOF PLAN N 3/32" = 1'-0" NEW PV CONDUIT TO BE RUN THROUGH ATTIC WHENEVER POSSIBLE,EXTERIOR RUN CONDUIT IS NOT PERMITTED. ANY PROPOSED CONDUIT RUN SUBJECT TO CHANGE BY INSTALLER. 104 ATTACHMENTS INSTALLED @ 72" O.C. MAX. (TYP.) 2" x 6" RAFTER @ 24" O.C. TYP. COMPOSITION SHINGLE ROOFING FRONT OF RESIDENCE 521 W Memory Ln - 2018007007/03/23 (N) MODULE (E) COMPOSITION SHINGLE (E) ROOF DECKING (E) RAFTER, SEE E5 FOR DETAIL (N) PEGASUS MULTI CLAMP (N) PEGASUS RAIL (N) PEGASUS DOVETAIL T-BOLT (N) PEGASUS L-FOOT (N) 5/16" x 4.5" PEGASUS LAG BOLT MIN 2.5" EMBEDMENT (N) PEGASUS COMP MOUNT FLASHING E6 SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 ATTACHMENT DETAIL 521 W Memory Ln - 2018007007/03/23 LA ES S ES S MSP TB G 2 SLC ED S ACD LA ACC JHA SHEET NUMBER: SE M P E R S O L A R I S 1 8 0 5 J O H N T O W E R S A V E EL C A J O N , C A 9 2 0 2 0 C- 1 0 L I C # 9 7 8 1 5 2 Li c . H o l d e r D i g i t a l l y S t a m p e d PR O J E C T F O R : PR O P O S E D DRAWN BY: DATE: (DC) kW: PROJECT #: Jo h n A l m o n d FIN-S 02/06/2023 85487 14.800 MI C H A E L J B U C K M A S T E R SA N T A A N A C A 9 2 7 0 6 52 1 W E S T M E M O R Y L N (7 1 4 ) 6 6 7 - 6 1 6 1 AP N - 0 0 2 0 3 5 0 8 SO L A R P H O T O V O L T A I C & E N E R G Y S T O R A G E SY S T E M S I Z E : 1 4 . 8 0 0 k W D C P V 28 k W h E S S MA I N L I N E : 6 1 9 - 3 5 7 - 4 1 4 2 NEAREST URGENT CARE VICINITY MAP DISTANCE ADDRESS NAME CONDITIONS NCREW MEMBER CREW LEAD CREW MEMBER CREW MEMBER ROPE REACH LADDER ACCESS CONES EXCLUSION ZONE JHA LEGEND ANCHOR POINTS N THIS PAGE TO BE COMPLETED BY INSTALLATION CREW 521 W Memory Ln - 2018007007/03/23 SIL-400 HC+ S ILFABS OLAR.COM * Chubb provides error and omission insurance to Silfab Solar Inc. RELI ABLE ENERGY. DI RECT FROM TH E S OURC E. Designed to outperform. Dependable, durable, high-performance solar panels engineered for North American homeowners. SILFAB SOLAR INC. 800 Cornwall Ave Bellingham WA 98225 USA T +1 360.569.4733 info@silfabsolar.com S ILFABS OLAR.COM 1770 Port Drive Burlington WA 98233 USA T +1 360.569.4733 240 Courtneypark Drive East Mississauga ON L5T 2Y3 Canada T +1 905.255.2501 F +1 905.696.0267 Silfab - SIL-400-HC+-20230224 No reproduction of any kind is allowed without permission. Data and information is subject to modifications without notice. © Silfab Solar Inc., 2022. Silfab Solar® is a registered trademark of Silfab Solar Inc. ELECTRICAL SPECIFICATIONS 400 Test Conditions STC NOCT Module Power (Pmax)Wp 400 298 Maximum power voltage (Vpmax)V 36.05 33.50 Maximum power current (Ipmax)A 11.10 8.90 Open circuit voltage (Voc)V 43.02 40.35 Short circuit current (Isc)A 11.58 9.34 Module efficiency %20.2%18.8% Maximum system voltage (VDC)V 1000 Series fuse rating A 20 Power Tolerance Wp 0 to +10 Measurement conditions: STC 1000 W/m2 • AM 1.5 • Temperature 25 °C • NOCT 800 W/m2 • AM 1.5 • Measurement uncertainty ≤ 3% Sun simulator calibration reference modules from Fraunhofer Institute. Electrical characteristics may vary by ±5% and power by 0 to +10W. TEMPERATURE RATINGS Temperature Coefficient Isc +0.064 %/°C Temperature Coefficient Voc -0.28 %/°C Temperature Coefficient Pmax -0.36 %/°C NOCT (± 2°C)45 °C Operating temperature -40/+85 °C WARRANTIES Module product workmanship warranty 25 years** Linear power performance guarantee 30 years ≥ 97.1% end 1st yr ≥ 91.6% end 12th yr ≥ 85.1% end 25th yr ≥ 82.6% end 30th yr SHIPPING SPECS Modules Per Pallet:26 or 26 (California) Pallets Per Truck 32 or 30 (California) Modules Per Truck 832 or 780 (California) CERTIFICATIONS Product UL 61215-1:2017 Ed.1, UL 61215-2:2017 Ed.1, UL 61730-1:2017 Ed.1, UL 61730- 2:2017 Ed.1, CSA C22.2#61730-1:2019 Ed.2, CSA C22.2#61730-2:2019 Ed.2, IEC 61215-1:2016 Ed.1, IEC 61215-2:2016 Ed.1, IEC 61730-1:2016 Ed.2, IEC 61730-2:2016 Ed.2, IEC 61701:2020 (Salt Mist Corrosion), IEC 62716:2013 (Ammonia Corrosion), UL Fire Rating: Type 2, CEC Listed. Factory ISO9001:2015 MECHANICAL PROPERTIES / COMPONENTS METRIC IMPERIAL Module weight 21.3kg ±0.2kg 47lbs ±0.4lbs Dimensions (H x L x D)1914 mm x 1036 mm x 35 mm 75.3 in x 40.8 in x 1.37 in Maximum surface load (wind/snow)*5400 Pa rear load / 5400 Pa front load 112.8 lb/ſt2 rear load / 112.8 lb/ſt2 front load Hail impact resistance ø 25 mm at 83 km/h ø 1 in at 51.6 mph Cells 132 Half cells - Si mono PERC 9 busbar - 83 x 166 mm 132 Half cells- Si mono PERC 9 busbar - 3.26 x 6.53 in Glass 3.2 mm high transmittance, tempered, DSM antireflective coating 0.126 in high transmittance, tempered, DSM antireflective coating Cables and connectors (refer to installation manual)1350 mm, ø 5.7 mm, MC4 from Staubli 53 in, ø 0.22 in (12AWG), MC4 from Staubli Backsheet High durability, superior hydrolysis and UV resistance, multi-layer dielectric film, fluorine-free PV backsheet Frame Anodized Aluminum (Black) Bypass diodes 3 diodes-30SQ045T (45V max DC blocking voltage, 30A max forward rectified current) Junction Box UL 3730 Certified, IEC 62790 Certified, IP68 rated * Warning. Read the Safety and Installation Manual for mounting specifications and before handling, installing and operating modules. ** 12 year extendable to 25 years subject to registration and conditions outlined under “Warranty” at silfabsolar.com. PAN files generated from 3rd party performance data are available for download at: silfabsolar.com/downloads. Si d e Ba c k V i e w Pr o f i l e 75.3"[1914mm] 1. 4 " [ 3 5 m m ] 1.4" [35mm] 1. 4 " [ 3 5 m m ] 0.06" [1.5mm] 0.5" [12mm] 0. 3 " [ 7 m m ] 0. 6 " [ 1 5 m m ] 40 . 8 " [ 1 0 3 6 m m ] 12.1" [307mm]51.2 [1300mm] 12.1" [307mm] Ø0 . 1 7 " [ Ø 4 . 2 m m ] ( x 2 ) Gr o u n d i n g H o l e Mounting Hole (x4) Drainage Hole (x8) 39 . 2 " [ 9 9 6 m m ] 2.4" [60mm] 8" [200mm] 53.15" [1350mm] Cable Length REVISION TO Bldg# 101115547 Issued 06/30/23 Bldg# 101116810 Issued 09/25/23 Added spec sheets 521 W Memory Ln - 201800709/25/2023 521 W Memory Ln - 201800709/25/2023 01231456178918 2388  !" #$ %& '# #( #!) ! *+# ) , -./ 0 11 23) 2 4!015) ) 3!1(  %& 6327! + 869 03!$31)# $ ! +03!! 03! :5"2 ! !3 # $!*1 !013$5+ #!) $+ #21! $ %& 20+3!; + +$ #!) $3+#* !$#11#3!$ 7( "+3;)!* # 03!$$ !< "+ -+ ) $3153! =3+ + $) !#1 #""10#3!$> % 3== +$ 5" 3 =35+ ?-"31 !"5 0+05$ #!) #3! @A $ + $ 75$7#+ #$$ 271(>  2388 01231456 1789 18 01231456 1789 18 BCDEFGHIDJCHFDGKCLMDNIOPGQFDCRRFHSITQUDVSQSMDWXYZ[\W]^_` a## b  cdefg hJGHM iDDjIkELlFQDjmDnGMFoGpDRCHDkCJJLISkGMSCIDGIlDkCIMHCE iDDjIkELlFQDNIOPGQFDqCKSEFDrCIIFkMDkFEELEGHDJClFJD srNttquvNqwqx wyzwh{wy|}UDSIkELlFlDCIEpDoSMPDjmD rCJKSIFHD~r iDDjIkELlFQDQCEGHDQPSFElDMCDJGMkPDNIOPGQFDjmDGMMFHpD €‚ƒ„ƒ…†‚‡€ˆ‰‡‰Š†ƒ‡„€ƒ iDD‹EFŒSKEFDIFMoCHSITDQLOOCHMQDŽSw‹SUDD NMPFHIFMUDCHDkFEELEGH iDDuOMSCIGEDrDHFkFOMGkEFDGVGSEGKEFDRCHD{trDKHSl TF iDD{HCVSl FQDOHClLkMSCIDJFMFHSITDGIlDkCIQLJOMSCID JCISMCHSIT hSJOEF iDrFIMFHFlDJCLIMSITDKHGkFMQDQLOOCHMDQSITEFDD QMLlDJCLIMSIT iDhLOOCHMQDKCMMCJUDKGkDGIlDQSlFDkCIlLSMDFIMHp iDODMCDRCLHD‘wOCEFDKHGIkPDkSHkLSMQDRCHD‘~yD’rDD OELT wSIDKHFGFHQDsICMDSIkELlFl } iD“yDMCMGED{’DCHDQMCHGTFDKHGIkPDkSHkLSMQ ”FESGKEF •‡–—˜€™š‡›œžŸ†˜ƒ… ‰‡›¡¢£‡ƒ¤¥‡¦œ‡ˆ†š§‚—˜ iD‹SVFwpFGHDESJSMFlDoGHHGIMp iDBoCDpFGHQDEGKCHDHFSJKLHQFJFIMDOHCTHGJDkCVFHGTFD SIkELlFlDRCHDKCMPDMPFDjmDrCJKSIFHDh¨©Q iDtDESQMFl 01231456178918 BCDEFGHIDJCHFDGKCLMDNIOPGQFDCRRFHSITQUDVSQSMDWXYZ[\W]^_` ª ?«?/ !" #$ ! +*(> ¬11 +* $ + $ +; )> !" #$ <  !" #$ 13*3< %& 6327! + 8­86< #!) 3 + !#2 $ #+ +#) 2#+®$ 3= !" #$ ! +*(< %!0> a## $57¯ 0 3 0 #!* > /«-?/-?«?/ °±²³´µ¶·°¸³¹ jmDrCJKSIFHD~DDsºwjmwqx w‘~yw~}jmDrCJKSIFHD~DoSMPDNIOPGQFDjmDnGMFoGpDOHSIMFlDkSHkLSMDKCGHlDRCHDSIMFTHGMFlDHFVFILFDTHGlFD{’DOHClLkMSCIDJFMFHSITDs»hjD rx ‘¼‘yD½¾wDy¼|¿}DGIlDkCIQLJOMSCIDJCISMCHSITDs½¾wD‘¼|¿}¼DjIkELlFQDGDQSEVFHDQCEGHDQPSFElDMCDJGMkPDMPFDjmDGMMFHpDQpQMFJDGIlD ÀÁ‡Â¤‚ƒÃ‡Ä§ˆƒ˜§šš˜‡Å‡€ˆ‰‡ƒ§‡‰Š†ƒ‡„€ƒÆ jmDrCJKSIFHD~rDsºwjm wqx w‘~yw~r}jmDrCJKSIFHD~rDoSMPDNIOPGQFDjmDnGMFoGpDOHSIMFlDkSHkLSMDKCGHlDRCHDSIMFTHGMFlDHFVFILFDTHGlFD{’DOHClLkMSCIDJFMFHSITD s»hjDrx‘¼‘yD½¾wDy¼|¿}DGIlDkCIQLJOMSCIDJCISMCHSITDs½¾wD‘¼|¿}¼DjIkELlFQDNIOPGQFDqCKSEFDrCIIFkMDkFEELEGHDJClFJD srNttquvNqwqx wyzwh{wy|}UDGDOELTwGIlwOEGpDSIlLQMHSGEwTHGlFDkFEEDJClFJDRCHDQpQMFJQDLODMCDzyDJSkHCSIVFHMFHQ¼D sVGSEGKEFDSIDMPFDhUDrGIGlGUDqFŒSkCUD{LFHMCD”SkCUDGIlDMPFDhD’SHTSIDjQEGIlQUDoPFHFDMPFHFDSQDGlFÇLGMFDkFEELEGHDQFHVSkFDSID ƒ„‡…ˆ‚ƒ€šš€ƒ…§ˆ‡€˜€ÆÈ‡Àˆ†š—‰‚‡€‡‚…šÉ˜‡‚§š€˜‡‚„…š‰‡ƒ§‡Ã€ƒ†„‡ƒ„‡ÀÁ‡Ê€ƒƒ˜¤‡€ˆ‰‡ÀÁ‡Â¤‚ƒÃ‡Ä§ˆƒ˜§šš˜‡‡€ˆ‰‡ƒ§‡‰Š†ƒ‡„€ƒÆ ËÌ Ì ³Í Í ±¹Î ³ÍµË ¶²µ¹³Ï ´ËÌ ³°³¶ÐµÏ˹ÐÍ sICMDSIkELlFlUDCHlFHDQFOGHGMFEp} NIQFJKEFDrCJJLISkGMSCIQD¨SMDD ruqqhwrNttquvNqwqx wyzD rNttquvNqwqx wyzwh{wy|D rNttquvNqwqx wyzwBwy|D wDjIkELlFQDruqqhw¨jBwyx DGIlDrNttquvNqwqx wyzwh{wy|DoSMPD|wpFGHDhOHSIMDlGMGDOEGIDRCHD DDDNIQFJKEFDQSMFQ wD~nDKGQFlDtBNwqx DkFEELEGHDJClFJDoSMPD|wpFGHDhOHSIMDlGMGDOEGI wD~nDKGQFlDtBNwqx DkFEELEGHDJClFJDoSMPD|wpFGHDBÑBDlGMGDOEGI rSHkLSMDHFGFHQ DD”¨wx yw‘w‘~y’ DD”¨wx |w‘w‘~y’ DD”¨w‘yw‘{w‘~y’ DD”¨wx |w‘{w‘~y’w DD”¨w‘yw‘{w‘~y’w —¥¥§˜ƒ‚‡¡€ƒ§ˆ‡ÊœÅÒ ÓԇʜÅÒ ÕԇʜÅÅÓԇʜŦÓԇʜÅÖÓԇʜÅÕÓԇ€ˆ‰‡ÊœÅ×Ӈ†…˜†—…ƒ‡™˜€Ø˜‚Æ DDrSHkLSMDKHFGFHUD‘DOCEFUDxyUDNGMCID”‘x yD DDrSHkLSMDKHFGFHUD‘DOCEFUDx|UDNGMCID”‘x | DDrSHkLSMDKHFGFHUD‘DOCEFUD‘yUDNGMCID”‘‘yD DDrSHkLSMDKHFGFHUD‘DOCEFUDx|UDNGMCID”‘x |DoSMPDPCElDlCoIDSMDQLOOCHM DDrSHkLSMDKHFGFHUD‘DOCEFUD‘yUDNGMCID”‘‘yDoSMPDPCElDlCoIDSMDQLOOCHM N{trwyx {CoFHDESIFDkGHHSFHDskCJJLISkGMSCIDKHSl TFDOGSH}UDÇLGIMSMpDwDCIFDOGSH ºwhut”hÙjNtvwNh ”FOEGkFJFIMDQCEGHDQPSFElDRCHDjmDrCJKSIFHD~¾~r Ú£ŸÛžÜÝ ŸÒ Åӟ¦kkFQQCHpDHFkFOMGkEFDRCHD{CoFHDtSIFDrGHHSFHDSIDjmDrCJKSIFHD~¾~rDsHFÇLSHFlDRCHDN{trwyx } Ú£Ÿ¡›ÞŸÛÄÊ£Ÿ¦”FOEGkFJFIMDjmDnGMFoGpDOHSIMFlDkSHkLSMDKCGHlDs{r}DRCHDrCJKSIFHD~¾~r ºwjmw»wÙvwx ‘|ÙCElDlCoIDSMDRCHDNGMCIDkSHkLSMDKHFGFHDoSMPDQkHFoQ¼ ³´³Ì Ð¹Î Ì Ë´µÍ Ï³Ì Î ßÎ Ì ËÐÎ ±¶Í ”GMSIT rCIMSILCLQDlLMp hpQMFJDVCEMGTF x‘y¾‘~yD’rUDzyDÙà NGMCID”DQFHSFQDKLQKGHDHGMSIT x‘|D qGŒ¼DkCIMSILCLQDkLHHFIMDHGMSIT z|D qGŒ¼DkCIMSILCLQDkLHHFIMDHGMSITDsSIOLMDRHCJD{’¾QMCHGTF}z~D qGŒ¼DRLQF¾kSHkLSMDHGMSITDsCLMOLM}áyD HGIkPDkSHkLSMQDsQCEGHDGIl¾CHDQMCHGTF}ODMCDRCLHD‘wOCEFDNGMCID”DQFHSFQDvSQMHSKLMFlDnFIFHGMSCIDsvn}DKHFGFHQDCIEpDsICMDSIkELlFl } qGŒ¼DMCMGEDKHGIkPDkSHkLSMDKHFGFHDHGMSITDsSIOLM}“yDCRDlSQMHSKLMFlDTFIFHGMSCID¾Dá|DoSMPDjmDnGMFoGpDKHFGFHDSIkELlFl {HClLkMSCIDJFMFHSITDrB ‘yyDDQCESlDkCHFDOHFwSIQMGEEFlDGIlDoSHFlDMCDjmDnGMFoGp rCIQLJOMSCIDJCISMCHSITDrBDsrBw‘yywh{tjB}DOGSHDCRD‘yyDDQOESMDkCHFDkLHHFIMDMHGIQRCHJFHQD °³Ì â ˶ΠÌË ´µ²ËÐË vSJFIQSCIQDsŽŒÙŒv}¦ãÆÕ‡ä‡ÖåÆÕ‡ä‡Ò ×Ææ‡†Ã‡çÒ ÖÆãÕè‡ä‡Ò åÆÕè‡ä‡×Æ×¦èÈÆ‡é…ꄃ‡…‚‡ÅÒ ÆÓ×ë‡çÕ¦ÆÕ‡†Ãȇ셃„‡Ã§—ˆƒ…ˆê‡™˜€†Øƒ‚Æ ŽFSTPM ãÆÕ‡Øê‡çÒ ×ÆÕ‡š™‚È JKSFIMDMFJOFHGMLHFDHGIT F w~yíDrDMCD½~zíDrDsw~yíDMCDxx|íD‹} rCCESIT »GMLHGEDkCIVFkMSCIUDOELQDPFGMDQPSFEl NIkECQLHFDFIVSHCIJFIMGEDHGMSIT ‰§§˜Ô‡›œžŸ†˜ƒ… ‰Ô‡›¡¢£‡ƒ¤¥‡¦œÔ‡¥§š¤†€˜™§ˆ€ƒ‡†§ˆ‚ƒ˜—†ƒ…§ˆ ŽSHFDQSàFQ iDD‘yDDMCD|yDDKHFGFHDSIOLMQïDx~DMCD~DŽnDkCOOFHDkCIlLkMCHQ iDDzyDDKHFGFHDKHGIkPDSIOLMïD~DMCDx¾yDŽnDkCOOFHDkCIlLkMCHQ iDDqGSIDELTDkCJKSIFlDCLMOLMïDxyDMCD‘¾yDŽnDkCOOFHDkCIlLkMCHQ iDD»FLMHGEDGIlDTHCLIlïDx~DMCDx¾yDkCOOFHDkCIlLkMCHQ EoGpQDRCEECoDECkGEDkClFDHFÇLSHFJFIMQDRCHDkCIlLkMCHDQSàSIT¼ EMSMLlF BCD‘yyyDJFMFHQDszU|zyDRFFM} Î ¶Ð³¹¶³ÐµÌ ±¶¶³Ì Ð Î ±¶µ±ÏÐ Î ±¶Í jIMFTHGMFlDŽSw‹S “y‘¼xx K¾T¾I rFEELEGH rNttquvNqwqx wyzwh{wy|UDrNttquvNqwqx wyzwBwy|Ds~nDKGQFlDtBNwqx DkFEELEGHDJClFJ}¼DD»CMFDMPGMDGIDNIOPGQFD qCKSEFDrCIIFkMDkFEELEGHDJClFJDSQDHFÇLSHFlDRCHDGEEDNIQFJKEFDSIQMGEEGMSCIQ¼ NMPFHIFM …§ˆ€šÔ‡æÓÅÆ¦Ô‡Ä€ƒÕ¡‡ç§˜‡Ä€ƒ‡×ȇܝۇ¡ƒ„˜ˆƒ‡†€™š‡‡çˆ§ƒ‡…ˆ†š—‰‰È Ì ±°Ï ´Î Ë ¶Ì ³ rCJOESGIkFUDjmDrCJKSIFH ܞ‡Ò ãÖÒ Ô‡Ä£›ðÄ£‡ÄÅůқ§Æ‡Ò ÓãÆÒ ԇ‡Öã‡ÄñœÔ‡Û€˜ƒ‡ÒÕԇ̀‚‚‡ÊԇÀġ‡ÓÓ¦ {HClLkMSCIDJFMFHSITïD»hjDrx ‘¼‘yDGkkLHGkpDkEGQQDy¼|Ds{’DOHCl LkMSCI} rCIQLJOMSCIDJFMFHSITïDGkkLHGkpDkEGQQD‘¼| rCJOESGIkFUDjmDnGMFoGp tDzyzyx wx ¾r»rhD‘‘¼‘D»C¼Dzx yx y wx D 2388 521 W Memory Ln - 201800709/25/2023 521 W Memory Ln - 201800709/25/2023 521 W Memory Ln - 201800709/25/2023 521 W Memory Ln - 201800709/25/2023 01234567891 1   !"#$ %&'&()*+&&##&,!  (%&  '-&.,,. "/0&.-'+ &- ",$ % +&&#1.213 (%'#&'!!$.%",1& %4 & ,$+(.%&4%(+.2"1/ 5.& . %&!.13 ( ,1.%%.& %& %#-,+" ( %'/0&3"& %#.,1.&( '%.- 3 ,2&$( %'%'#(% &#%( #& %&4%+ %' 6789:;<=6<>?@ABCD<:9EC@F9<=G9<H989I=;<6J<:9C@EHC9K<AC9E8<L679:M NOPQRPSTUOVWNOUXQXUYXRTW Z[\]^_`abc\de^fgha_i j klmknlVo pccqrsh\tuvc WwxyzVN{|}~ €gq\p€c‚chƒu „lV…† t^`a_\hc€bu j nV‡{ ˆ‰aŠ_c\hc€bu j ‹ŒV‡{ ca_\^Žc€\fa\ƒ^h`gh‚^‚‰V‡V‘’{|“”~V|•–V–y}’{|“”~— ca_\^Žc€\vca˜\d™š›‰\^œrb€gqŠaƒ˜‚vi žV‡V‘’{|“”~V|•–V–y}’{|“”~— Zvva€ch`\^Žc€\fa\ƒ^h`gh‚^‚‰ŒŸV‡oV‘’{|“”~V|•–V–y}’{|“”~— Zvva€ch`\^Žc€\vca˜\d™š›‰\^œrb€gqŠaƒ˜‚vi žŒkV‡oV‘’{|“”~V|•–V–y}’{|“”~—  agf‚f\¡‚vv_u\pa‚_`\[‚€€ch`j lV‡  agf‚f\‚`v‚`\pa‚_`\[‚€€ch`‹kV ¢c€ƒ‚€€ch`\€^`cƒ`g^h\£c¢gƒc ‹lV sfŠa_ahƒc\¤^€\¡v_g`r¥a‰c\¦^aq‰j ll§ ^Žc€\paƒ`^€\‚`v‚`\ahbc ¨m©VjŒlV|–ª«}z|¬x~ ^Žc€\paƒ`^€\ahbc\d¤‚__r€a`cq\v^Žc€i ¨m©VlŒŸ sh`c€ha_\­a``c€u\£[\]^_`abc lVo ^‚hq\t€gv\®ƒgchƒu™¯°l§ a€€ah`u j lV±~|“}OToXPRTSOTYVWNOUXQXUYXRTW vc€a`ghb\tcfvc€a`‚€c ©kl²UVz³Vl²UV‘©n²QVz³Vjkk²Q— cƒ^ffchqcq\tcfvc€a`‚€c l²UVz³V‹l²UV‘‹k²QVz³VŸ„²Q— vc€a`ghb\´‚fgqg`u\d´i µwVz³Vjll§¶V’³•–~•}y•” ¡`^€abc\[^hqg`g^h‰©kl²UVz³V‹l²UV‘©n²QVz³VŸ„²Q— µwVz³V°§VP…¶V•³•·’³•–~•}y•” Wz|z~V³¸VO•~“”±V‘W³O—¹Vk§Vy•yzy|x  agf‚f\_c¢a`g^h ‹lllVºV‘°Ÿn‹V¸z—V h¢g€^hfch`X•–³³“V|•–V³«z–³³“V“|z~– hƒ_^‰‚€c\tuvc TOSV‹P shb€c‰‰\a`ghb XN„žV‘»|zz~“±V¼VN³½~“VOx~’z“³•y’}—V XN„V‘y“y•”VU³ºw|“zº~•z— c`\¦^ƒa`g^h\a`ghb ¾~} e^g‰c\¦c¢c_\¿\™f ÀÁVnlV–»V|zV‹l²UV‘Ÿ„²Q— SOU…TXUVWNOUXQXUYXRTW £gfch‰g^h‰™jjlVººVÂVžVººVÂVjnžVººVV ‘nŒ‹Vy•VÂVk°Œ„Vy•VÂVŒžVy•— cgb¥`™jjnV‡”V‘kjŒ‹Vx¬}—  ^‚h`ghb\^v`g^h‰Qx³³“V³“V½|xxVº³«•z VjÁÃyº~•}y³•}V|•–V½~y”{zV–yÄ~“V}xy”{zx±Vy¸Vº|•«¸|’z«“~–V¬~¸³“~VS|“’{Vklj °ŒVVVV V jÁo|x«~}Vw“³Åy–~–V¸³“Vk²UV‘žž²Q—¶V‹Œ‹V‡V’{|“”~m–y}’{|“”~Vw³½~“Œ kÁX•V»|’‡«wVº³–~¶V”“y–V’{|“”~Vw³½~“Vy}Vxyºyz~–Vz³V‹Œ‹V‡Œ ‹ÁUVz³V¬|zz~“±Vz³VU¶V|zV¬~”y••y•”V³¸Vxy¸~Œ URSNXTUOVXTQRPSYXRT [c€`gƃa`g^h‰µVj„nk¶VµVjžnj¶VµVj°ž‹¶VV µV°nl¶VXOOOVjnž¶VµTV‹ŸŒ‹ €gq\[^hhcƒ`g^h ³“x–½y–~VU³ºw|zy¬yxyz± fg‰‰g^h‰QUUVN|“zVjVUx|}}V»¶VXUOWVll‹ h¢g€^hfch`a_P³…WVÃy“~’zyÅ~Vkljjm„mOµ ¡cg‰fgƒUj„¶VXOOOV„°‹·kllV‘{y”{— ž‹VººV ‘k°Œ„Vy•— j nžVººV ‘ŒžVy•— jjlVººV ‘nŒ‹Vy•— U³•z|’zVY~}x|V¸³“V|––yzy³•|xVy•¸³“º|zy³•Œ 01234567891 1 Y¾NXUVW¾WYOSV¾RµYW ÏÐÑÒÓÐÔÕÖרÙÕÚÐÛÜÝÏ ÞÖ×ÔÙÕÖרÙÕÚÐÛÜÝÏ ßàáâãäàâåæçèéãäàâåæ çêæàë ìêíåãæêàîï çêæàëãáâðåëñåë òñáæáñóãíåñåë ôëáîõö÷øùúûüöýþ ö0 12 þ3 ö44 5à67èäãæêàîï 89  TV·V»UµNV·Vklj°·l„·j j  !"#$%&' ()*(+ ,-),).(() /0(10( 2.0 34.4. 50)6*1 2.0(- 78&%9&:: ;<=>?@AB 521 W Memory Ln - 201800709/25/2023 01234567891 1   !"" ##$ %&&&%' ()*+,(-./+,..,+012-3,453453 325+31+,134*+,-+.,-.*6+3-51+371568-2+3,+.73289 ()+3,+.-+331+3+)4 ,127+51.. 2134+4 -32,+012 134-5.--,3-11+3+8+,9 )3:12 1)5131,18,,7)38 13-..2)-,013,39 )3)+1+3.13,3.3.8+,21- 13-..2 7)3.-+*31+3-.+2 3,9 ()+5531-21,.1)/+,..7..+134+ +5+31+,3,4-3253483,4 ,-,0-*,+535+81. 2011))(-.9 ;<=>?@<A;<(!"B/;C>D>C!(>@<B EFGHIJKLMNFOEFGHIPGF QRSC+TRSCUQVSD+W SDX EFGHIJKLMYPOJZJI[M\Y]^+W RR_7+323-134 `HaJOPOMbFcHIJdK eRRR5UfgVe*X KcJGdKOFKI >32++,32+2++,,2 KhbdiPGFMN[EF <;A!e? /;?D@?A!<C;B/;C>D>C!(>@<B jkMldbIHLFM\mdOJKHb]W RnVR= oFFZpqKMN[EF B.1/)- rGJZMoGFsPFKh[tRuv kPGGFKIMHIJKL RR! `HaJOPOMqKEPIMwxdGIMkJGhPJIMkPGGFKI W R!W cFGhPGGFKIMGdIFhIJdKMyFcJhF W RR6RR!zB,01;3,3?2 W cFGcdbIHLFMkHIFLdG[C4+,>= jkM`FIFG ?03,U{nQR9_X GJOHG[MkdKKFhIJcJI[;),37 16D1 wFhdKZHG[MkdKKFhIJcJI[C...,Ue7"(;nVX |iFGMqKIFG}HhF (-.! EFGHIJKLM`dZFi B+,*+,-+.,-.*6+3-51+37 1568-2+3,+.7328 ~HhPEMNGHKiJIJdK !+5121-+33*+,-5.-- 8 `dZPbHGJI[B+,-+W R!C6+.2 /+,..- EIJdKHbMqKIFGKHbMHKFb€dHGZ RR!t6-nW 1,1;+3 ?C1,1,,- HGGHKI[W R,- C@A/">!<C;><D@?A!(>@< kFGIJ}JhHIJdKi ^"t7^"gtf!7^"fW t7^"W VW /CB CB!9R9W f7CB!9RT OJiiJdKi DCC/,W T7>C;BRRe <!RR6RT6e W )3,+28C.--‚*--71--18.*+,-13 1,1-8.+*2.10,1343+5+,)3!-55,1.5,-9 ()-+5,1-ƒ2+,+01213,3+33101*+, z...,-)+.23+8-2-),15,5+2+*+331019C..., +33101-8„+3+,+,+,-,01+0,432-143.-,34)9 A;Cu!<>C!"B/;C>D>C!(>@<B yJOFKiJdKi ttR55ƒVW W 55ƒW Vf55 Ut13ƒW t13ƒt13X FJLxI R9V4UVT.8X `dPKIJKLMdEIJdKi ..5+37B516*.-)5+3 521 W Memory Ln - 201800709/25/2023 521 W Memory Ln - 201800709/25/2023 17 Switching Configurations Type 2-pole 2-pole 4 parallel poles 4-pole 2-pole 4 poles in series Input on top Output bottom 2-pole 4 poles in series Input and Output bottom 2-pole 4 poles in series Input and Output on top SI16 2 2H 4 4S 4T 4B SI25 2 2H 4 4S 4T 4B SI32 2 2H 4 4S 4T 4B SI40 2 2H 4 4S 4T 4B SI55 2 2H 4 4S 4T 4B Contacts Wiring Diagram Switching example 2 4 1 3 + - 2 4 1 3 6 8 5 7 + - 2 4 1 3 6 8 5 7 + - - + 2 4 1 3 6 8 5 7 + - 2 4 1 3 6 8 5 7 + - 2 4 1 3 6 8 5 7 + - Type 6-pole 2-pole 6 parallel poles 8-pole 2-pole 8 parallel poles SI16 6 3H 8 4H SI25 6 3H 8 4H SI32 6 3H 8 4H SI40 - - - - SI55 - - - - Contacts Wiring Diagram Switching example 2 4 1 3 6 8 5 7 2 4 1 3 2 4 1 3 6 8 5 7 2 4 1 3 2 1 4 3 6 5 8 7 4 3 6 5 8 7 2 1 2 1 4 3 6 5 8 7 4 3 6 5 8 7 2 1 + - + - + - + - + + + +- - - - + - Insulated Jumper for series and parallel switching of contacts Type Jumper Pack Weight SI16, SI25, SI32 SIV-B1 100 6.6g/pc. SI40, SI55 SIV-B2 100 9.64g/pc. Specifications are subject to change without notice 26 Specifications are subject to change without notice Rotary Actuator Switch - Lockable Off in Plastic Enclosure Rotary Actuator Switch Lockable Off - Safe-Lock Self-Extinguishing Plastic Enclosure M25 Cable Gland Entry Option NEMA Type 3R IP66 „ „ „ „ „ „ DC21A IEC60947-3 UL Ratings UL508i Poles in series No. of Strings Weight Kg/pcs. Part Number Contact Configuration 600V 800V 1000V 1500V 350V 500V 600V 1000V 16A 16A 9A 3A 16A 16A 16A - 2 1 0.43 SI16 PEL64R 2 25A 20A 11A 4A 20A 20A 20A - 2 1 0.43 SI25 PEL64R 2 32A 23A 13A 5A 25A 25A 25A - 2 1 0.43 SI32 PEL64R 2 40A 30A 20A 6A 40A 40A 40A 16A 2 1 1.59 SI40 PEL64R 2 55A 45A 36A* 8A 55A 55A 55A 20A 2 1 1.59 SI55 PEL64R 2 29A 16A 9A 3A 29A 29A 21A - 2 1 0.49 SI16 PEL64R 2H 45A 20A 11A 4A 45A 38A 23A - 2 1 0.49 SI25 PEL64R 2H 50A 23A 13A 5A 58A 40A 25A - 2 1 0.49 SI32 PEL64R 2H 64A 30A 20A 6A 72A 53A 42A 22A 2 1 1.74 SI40 PEL64R 2H 80A 45A 25A 8A 85A 66A 55A 25A 2 1 1.74 SI55 PEL64R 2H 16A 16A 9A 3A 16A 16A 16A - 2 2 0.46 SI16 PEL64R 4 25A 20A 11A 4A 20A 20A 20A - 2 2 0.46 SI25 PEL64R 4 32A 23A 13A 5A 25A 25A 25A - 2 2 0.46 SI32 PEL64R 4 40A 30A 20A 6A 40A 40A 40A 16A 2 2 1.67 SI40 PEL64R 4 55A 45A 36A* 8A 55A 55A 55A 20A 2 2 1.67 SI55 PEL64R 4 16A 16A 16A 16A 16A 16A 16A - 4 1 0.47 SI16 PEL64R 4S 25A 25A 25A 20A 25A 25A 25A - 4 1 0.47 SI25 PEL64R 4S 32A 32A 32A 23A 32A 32A 32A - 4 1 0.47 SI32 PEL64R 4S 40A 40A 40A 30A 40A 40A 40A 40A 4 1 1.70 SI40 PEL64R 4S 55A 55A 55A 40A 55A 55A 55A 55A 4 1 1.70 SI55 PEL64R 4S 16A 16A 9A 3A 16A 16A 16A - 2 3 1.53 SI16 PEL64R 6 25A 20A 11A 4A 20A 20A 20A - 2 3 1.53 SI25 PEL64R 6 32A 23A 13A 5A 25A 25A 25A - 2 3 1.53 SI32 PEL64R 6 16A 16A 9A 3A 16A 16A 16A - 2 4 1.58 SI16 PEL64R 8 25A 20A 11A 4A 20A 20A 20A - 2 4 1.58 SI25 PEL64R 8 32A 23A 13A 5A 25A 25A 25A - 2 4 1.58 SI32 PEL64R 8 29A 29A 29A 16A 29A 29A 29A - 4 1 1.63 SI16 PEL64R 4H 45A 45A 45A* 20A 45A 45A 45A - 4 1 1.63 SI25 PEL64R 4H 58A 58A* 58A* 23A 58A 58A 50A - 4 1 1.63 SI32 PEL64R 4H 2 4 1 3 2 4 1 3 6 8 5 7 2 4 1 3 6 8 5 7 2 4 1 3 6 8 5 7 2 1 4 3 6 5 8 7 4 3 6 5 8 7 2 1 2 1 4 3 6 5 8 7 4 3 6 5 8 7 2 1 2 4 1 3 6 8 5 7 2 4 1 3 4T / 4B configuration also available. For ratings refer to 4S configuration. (See page 17) * DC21B 521 W Memory Ln - 201800709/25/2023 27 Specifications are subject to change without notice Technical Data Data according to IEC 60947-3, VDE 0660, GB14048.3 1) Suitable at overvoltage category I to III, pollution degree 3 (standard-industry): Uimp = 8kV. 2) Suitable at overvoltage category I to III, pollution degree 2 (min.IP55): Uimp = 8kV. Main Contacts Type SI16 SI25 SI32 SI40 SI55 Rated thermal current Ithe A 1 6 25 32 40 55 Rated insulation voltage Ui 1)V 1000 1000 1000 1500 1500 Rated insulation voltage Ui 2)V 1500 1500 1500 -- Distance of contacts (per pole)mm 8 8 8 Rated operational current Ie 300V A 16 23 27 40 55 1 pole 400V A 12 14 16 30 40 DC21A & DC21B 1 500V A 9 11 13 19 25 600V A 6 8 10 15 20 700V A 4.5 6 7.5 10 15 L/R = 1ms 800V A 3 4 5 8 10 900V A 2.5 3 4 6 8 DC21B 1000V A 1.5 2 2.5 4 6 2 poles in series 500V A 16 25 32 40 55 2 600V A 16 25 32 40 55 700V A 16 23 27 35 55 800V A 16 20 23 30 45 850V A --25 -- 900V A 13 16 20 25 35 1000V A 9 11 13 20 36 1200V A 6 8 10 10 15 1500V A 3 4 5 6 8 2 poles in series 500V A 29 45 58 72 85 + 2 poles parallel 600V A 29 45 50 64 80 2H 700V A 16 23 27 35 55 800V A 16 20 23 30 45 900V A 1 3 1 6 20 25 35 1000V A 9 11 13 20 25 1200V A 6 8 10 10 15 1500V A 3 4 5 6 8 3 poles in series 500V A 29 45 58 -- + 2 poles parallel 600V A 29 45 50 -- 3H 700V A 29 38 45 -- 800V A 29 38 45 -- 900V A 29 38 45 -- 1000V A 29 38 45 -- 1200V A 12 14 16 -- 1500V A 9 11 13 -- 4 poles in series 500V A 16 25 32 40 55 4S 600V A 1 6 25 32 40 55 700V A 16 25 32 40 55 800V A 16 25 32 40 55 900V A 16 25 32 40 55 1000V A 16 25 32 40 55 1200V A 16 25 32 40 55 1500V A 16 20 23 30 40 4 poles in series 500V A 29 45 58 -- + 2 poles parallel 600V A 29 45 58 -- 4H 700V A 29 45 58 -- 800V A 29 45 58 -- 900V A 29 45 58 -- 1000V A 29 45 58 -- 1200V A 29 45 50 -- 1500V A 16 20 23 -- Rated operational current Ie AC21B 2, 4 Ue max. 440V A 16 25 32 40 55 2H Ue max. 440V A 29 45 58 72 85 1 2 1 2 3 4 1 2 3 4 1 2 3 4 5 6 7 8 1 1 2 3 4 5 6 28 Specifications are subject to change without notice Technical Data continued Data according to IEC 60947-3, VDE 0660, GB14048.3 Main Contacts Type SI16 SI25 SI32 SI40 SI55 Rated operational current Ie 500V A 1 1.25 1.5 x 2.5 DC22B 1 pole 600V A 0.5 0.75 1 x 2 1 800V A 0.3 0.4 0.5 x 1.5 L/R = 2.5ms 1000V A 0.15 0.2 0.25 x 1 1200V A ---x x 1500V A ---x x 2 poles in series 500V A 7 8 9 x x 2 600V A 5.5 6 6.5 x x 800V A 2 2.5 3 x x 1000V A 1 1.5 2 x x 1200V A ---x x 1500V A ---x x 4 poles in series 500V A 16 25 32 x x 4S 600V A 16 25 27.5 x x 800V A 11.5 12 12.5 x x 1000V A 8 9 10 x x 1200V A ---x x 1500V A ---x x Rated conditional short-circuit current kAeff 5 5 5 1 0 1 0 Max. fuse size gL (gG) A 40 63 80 125 160 Mechanical Life x103 10 10 10 10 10 Rated short-time withstand current (1s) Icw 2, 4, 6, 8 2H, 3H, 4H A A 800 1300 900 1500 1000 1700 A2, A4: 1200 A2+2: 2000 A2, A4: 1400 A2+2:2400 Short circuit making capacity Icw 2, 4, 6, 8 2H, 3H, 4H A A 800 1300 900 1500 1000 1700 A2, A4: 1200 A2+2: 2000 A2, A4: 1400 A2+2:2400 Maximum cable cross sections (including jumper LSV-B1) solid or stranded mm2 4 - 16 4 - 16 4 - 16 2.5 - 25 2.5 - 25 flexible mm2 4 - 10 4 - 10 4 - 10 4 - 16 4 - 16 flexible (+ multicore cable end)mm2 4 - 10 4 - 10 4 - 10 2.5 - 16 2.5 - 16 Size of terminal screw M4 Pz2 M4 Pz2 M4 Pz2 M5 Pz2 M5 Pz2 Tightening torque Nm 1.2 - 1.8 1.2 - 1.8 1.2 - 1.8 2.5 - 2.8 2.5 - 2.8 2 cables per clamp without jumper LSV-B1 / LSV-B2 solid or stranded mm2 16+(1.5-2.5)/10+(1.5-6)/6+(1.5-10)/4+(1.5-10) 16+(1.5-2.5)/10+(1.5-10)/ 6+(1.5-10)/4+(1.5-10) flexible mm2 16+(1.5-2.5)/10+(1.5-4)/6+(1.5-6)16+(1.5-6)/10+(1.5-10)/ 6+(1.5-16)/4+(1.5-16)& flexible + multicore cable end stranded AWG 8+(16-12)/10+(16-10)/12+(16-8)/14+(16-8) 3+(18-10)/4+(18-10)/ 6+(18-8)/8+(18-8) solid AWG 10+(16-12)/12+(16-10)/14+(16-10) 10+(16-10)/12+(16-10)/ 14+(16-10)/12+(16-10)/14+(16-10) Maximum ambient temperature Operation All types except PEL64R °C -40 to +65 PEL64R type °C -40 to +45 Storage °C -50 to +70 Power loss per switch at Ie max. DC21B 2 W 0.8 2 3 4 6 4 W 1.6 4 6 8 12 6 W 2.4 6 9 12 18 8 W 3.2 8 12 16 24 2H W 0.4 1 1.5 2 3 3H W 0.6 1.5 2.25 3 4.5 4H W 0.8 2 3 4 6 1 2 1 2 3 4 1 x - In Test 521 W Memory Ln - 201800709/25/2023 Installation Instructions for BW, BWH, BWHH Loadcenter Main Circuit Breakers m Warning DO nOT aTTEMPT TO inSTaLL Or PErFOrM MainTEnanCE On EQUiPMEnT WHiLE iT iS EnErgiZED. SEVErE PErSOnaL inJUrY, DEaTH, Or SUBSTanTiaL PrOPErTY DaMagE MaY rESULT FrOM COnTaCT WiTH EnErgiZED EQUiPMEnT. aLWaYS VEriFY THaT THErE iS nO VOLTagE PrESEnT BEFOrE PrOCEEDing WiTH THE TaSK, anD aLWaYS FOLLOW gEnEraLLY aCCEPTED SaFETY PrOCEDUrES. 1.0 KIT CONTENTS: Quantity Description 1 Loadcenter Main Breaker 2 1/4 -20 Nuts 1 #8–32 self-Threading Screw 1 Instruction Leaflet 2.0 TOOLS REQUIRED • Medium blade screwdriver • 7/16 inch socket • Torque wrench 3.0 INSTALLATION A. Before mounting the circuit breaker in an electrical system, make sure there is no voltage present where work is to be performed. The voltage in energized equipment can cause injury or death. B. Make sure that the circuit breaker is suitable for the installation by comparing nameplate data with the system requirements. Inspect the circuit breaker for completeness, and check for damage before mounting. C. Remove outside and inside covers from loadcenter by removing securing screws. D. Position Main Breaker over (2) 1/4-20 studs of interior bus as shown in Figure 2. Secure with (2) 1/4-20 nuts provided. Torque nuts to 48 lb-in. E. Fasten #8-32 base mounting screw through slot between wire terminals into hole in backpan. F. When wiring circuit breaker, follow the breaker label for recommended wire sizes and torque values. m CaUTiOn DO nOT SCraTCH, niCK, Or OTHErWiSE DaMagE BUS BarS. Figure 1. BWH2200 Loadcenter Main Circuit Breaker Figure 2. Installation of Main Breaker Into Loadcenter. 8 Installation Leaflet 7803C25H03 Effective May 2014 521 W Memory Ln - 201800709/25/2023 This instruction leaflet is published solely for information purposes and should not be considered all-inclusive. If further information is required, you should consult an authorized Eaton sales representative. The sale of the product shown in this literature is subject to the terms and conditions outlined in appropriate Eaton selling policies or other contractual agreement between the parties. This literature is not intended to and does not enlarge or add to any such contract. The sole source governing the rights and remedies of any purchaser of this equipment is the contract between the purchaser and Eaton. NO WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE OR MERCHANTABILITY, OR WARRANTIES ARISING FROM COURSE OF DEALING OR USAGE OF TRADE, ARE MADE REGARDING THE INFORMATION, RECOMMENDATIONS, AND DESCRIPTIONS CONTAINED HEREIN. In no event will Eaton be responsible to the purchaser or user in contract, in tort (including negligence), strict liability or otherwise for any special, indirect, incidental or consequential damage or loss whatsoever, including but not limited to damage or loss of use of equipment, plant or power system, cost of capital, loss of power, additional expenses in the use of existing power facilities, or claims against the purchaser or user by its customers resulting from the use of the information, recommendations and description contained herein. Eaton Corporation Electrical Group 1000 Cherrington Parkway Moon Township, PA 15108 United States 877-ETN-CARE (877-386-2273 Eaton.com © 2014 Eaton All Rights Reserved Printed in USA Publication No. 7803C25H03 / 005 May 2014 Instruction Leaflet 7803C25H03 Effective May 2014 Installation Instructions for BW, BWH, BWHH Loadcenter Main Circuit Breakers eaton corporation www.eaton.com 521 W Memory Ln - 201800709/25/2023