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HomeMy WebLinkAbout2110 W 7th St - Plan DQD 507 Rev. 2016-02-18 Page 1 Certificate of Compliance Certificate: 70131735 Master Contract: 266909 (266909) Project: 70185553 Date Issued: 2018-10-08 Issued to: Unirac 1411 Broadway NE Albuquerque, New Mexico 87102 USA Attention: Klaus Nicolaedis The products listed below are eligible to bear the CSA Mark shown with adjacent indicators 'C' and 'US' for Canada and US or with adjacent indicator 'US' for US only or without either indicator for Canada only. Issued by:Michael Hoffnagle Michael Hoffnagle PRODUCTS CLASS - C531302 - POWER SUPPLIES- PHOTOVOLTAICS--PV Racking CLASS - C531382 - POWER SUPPLIES- PHOTOVOLTAICS-PV Racking and clamping systems-Certified to US Standards Models: SM SOLARMOUNT Flush-to-Roof is an extruded aluminum rail PV racking system that is installed parallel to the roof in landscape or portrait orientations. ULA Unirac Large Array is a ground mount system using the SolarMount (SM) platform for the bonding and grounding of PV modules. SOLARMOUNT The system listed is designed to provide bonding/grounding, and mechanical stability for photovoltaic modules. The system is secured to the roof with the L-Foot components through the roofing material to building structure. Modules are secured to the racking system with stainless steel or aluminum mid clamps and Aluminum end clamps. The modules are bonded to the racking system with the stainless steel bonding mid clamps with piercing points. The system is grounded with 10 AWG copper wire to bonding/grounding lugs. Fire ratings of Class A with Type 1, 2, 3, or 10 for steep slope. Tested at 5” interstitial gap which allows installation at any stand-off height. Certificate: 70131735 Project: 70185553 Master Contract: 266909 Date Issued: 2018-10-08 DQD 507 Rev. 2016-02-18 Page 2 The grounding of the system is intended to comply with the latest edition of the National Electrical Code, to include NEC 250 & 690. Local codes compliance is required, in addition to national codes. All grounding/bonding connections are to be torqued in accordance with the Installation Manual and the settings used during the certification testing for the current edition of the project report. The system may employ optimizers/micro-inverters and used for grounding when installed per installation instructions. Mechanical ratings: Downward Design Load (lb/ft²)113.4 Upward Design Load (lb/ft²)50.4 Down-Slope Load (lb/ft²)14.7 Conditions of acceptability: Installation is subject to acceptance of the local inspection authorities having jurisdiction. The certification of these products relates only to the methods of installation, bonding, and grounding as outlined in the Installation Manual for each product. Unirac Large Array ULA is a ground mount system using the SolarMount (SM) platform for the bonding and grounding of PV modules. ULA aluminum components merge with SM rails and installer-supplied steel pipe. The SM rail system is secured to the horizontal Pipe using the Rail Bracket components. The Rear and Front cap secures the horizontal Pipe to the vertical Pipe. The Front cap is also used to secure the Cross brace. A Slider is attached to the vertical Pipe to secure the Cross brace. The SM rails, caps, slider, rail brackets, and cross braces materials are 6105-T5 aluminum extrusion. Fasteners materials are 304 stainless steel. Horizontal and vertical pipe materials meet the minimum requirements of ASTM A53 for galvanized steel pipe in 2” and 3” diameter. The mechanical load ratings from the SM test data will be applied to the ULA model. Fire Testing is not applicable due to being a ground mount system. APPLICABLE REQUIREMENTS UL 2703-1st Edition - Mounting Systems, Mounting Devices, Clamping/Retention Devices, and Ground Lugs for Use with Flat-Plate Photovoltaic Modules and Panels. LTR AE-001-2012 - List of Technical Requirements for Photovoltaic Module and Panel racking Systems MARKINGS The manufacturer is required to apply the following markings:  Products shall be marked with the markings specified by the particular product standard.  Products certified for Canada shall have all Caution and Warning markings in both English and French. 2110 W 7th St - 2017778512/28/22 2110 W 7th St - 2017778512/28/22 CS3N-380|385|390|395|400MS 380 W ~ 400 W Canadian Solar (USA) Inc. is committed to providing high quality solar products, solar system solutions and services to customers around the world. Canadian Solar was recognized as the No. 1 module supplier for quality and performance/price ratio in the IHS Module Customer Insight Survey, and is a leading PV project developer and manufacturer of solar modules, with over 52 GW deployed around the world since 2001. MORE RELIABLE Comprehensive LID / LeTID mitigation technology, up to 50% lower degradation Module power up to 400 W Module efficiency up to 19.7%425 W Better shading tolerance Minimizes micro-crack impacts * For detailed information, please refer to the Installation Manual. MORE POWER Lower LCOE & BOS cost HiKu Mono PERC (All-Black) Heavy snow load up to 5400 Pa, enhanced wind load up to 2400 Pa* 3000 Oak Road, Suite 400, Walnut Creek, CA 94597, USA, www.csisolar.com/na, service.ca@csisolar.com 12 Years Years products you order or use. Please contact your local Canadian Solar sales representative in which the products will be used. PRODUCT CERTIFICATES* MANAGEMENT SYSTEM CERTIFICATES* *According to the applicable Canadian Solar Limited Warranty Statement. Enhanced Product Warranty on Materials and Workmanship* Linear Power Performance Warranty* 1 st year power degradation no more than 2% Subsequent annual power degradation no more than 0.55% Canadian Solar (USA) Inc. IEC 61215 / IEC 61730 / CE FSEC (US Florida) UL 61730 / IEC 61701 / IEC 62716 d P d W M i l May 2021 | All rights reserved | Module Product Datasheet v2.7_F30_J1_NACanadian Solar (USA) Inc. PARTNER SECTION ENGINEERING DRAWING (mm)CS3N-400MS / I-V CURVES products due to the on-going innovation and product enhancement. CSI Solar Co., Ltd. reserves the right to make necessary adjustment to the information described herein at any time without further notice. professional skills and please carefully read the safety and installation instructions before using our PV modules. MECHANICAL DATA Data Cell Type Mono-crystalline Cell Arrangement 132 [2 X (11 X 6) ] Dimensions Weight Front Cover 3.2 mm tempered glass Frame Anodized aluminium alloy Cable 4 mm2 (IEC), 12 AWG (UL) Cable Length (Including Connector) Connector T4 series or MC4 Per Pallet 30 pieces 720 pieces * For detailed information, please contact your local Canadian Solar sales and technical representatives. TEMPERATURE CHARACTERISTICS Data -0.35 % / °C -0.27 % / °C 0.05 % / °C Nominal Module Operating Temperature 42 ± 3°C V A 12 11 10 7 6 5 4 3 2 1 0 V A 1000 W/m2 2 600 W/m2 400 W/m2 200 W/m2 5°C 25°C 45°C 65°C 12 11 10 7 6 5 4 3 2 1 0 065 50 55 40 45 30 35 20 25 10 15 065 50 55 40 45 30 35 20 25 10 15 Rear View Mounting Hole 1 1 5 5 1 3 0 0 1000 6- 5 -XU[TJOTM .URK 3U[TZOTM .URK A A B B 1 4 Frame Cross Section A - A B - B 25 35 35 35 ELECTRICAL DATA | STC* CS3N 380MS 385MS 390MS 395MS 400MS 380 W 385 W 390 W 395 W 400 W Opt. Operating Voltage (Vmp) 36.4 V 36.6 V 36.8 V 37.0 V 37.2 V Opt. Operating Current (Imp) 10.44 A 10.52 A 10.60 A 10.68 A 10.76 A Open Circuit Voltage (Voc) 43.7 V 43.9 V 44.1 V 44.3 V 44.5 V Short Circuit Current (Isc) 11.26 A 11.32 A 11.38 A 11.44 A 11.50 A 19.2% 19.4% 19.7%18.7% 18.9% Operating Temperature 1000V (IEC/UL) Module Fire Performance TYPE 1 (UL 61730 1500V) or TYPE 2 (UL 61730 1000V) or CLASS C (IEC 61730) 20 A Class A Power Tolerance * Under Standard Test Conditions (STC) of irradiance of 1000 W/m2, spectrum AM 1.5 and cell temperature of 25°C. ELECTRICAL DATA | NMOT* CS3N 380MS 385MS 390MS 395MS 400MS 283 W 33.9 V 8.36 A 41.1 V 9.08 A 287 W 34.1 V 8.42 A 41.3 V 9.13 A 291 W 34.3 V 8.49 A 41.5 V 9.18 A 295 W 34.5 V 8.56 A 41.7 V 9.23 A 298 W 34.7 V 8.6 A 41.9 V 9.28 A Opt. Operating Voltage (Vmp) Opt. Operating Current (Imp) Open Circuit Voltage (Voc) Short Circuit Current (Isc) 2, spectrum AM 1.5, ambient temperature 20°C, wind speed 1 m/s. 2110 W 7th St - 2017778512/28/22 2110 W 7th St - 2017778512/28/22 PowerOptimizer ForNorthAmerica P320/P340/P370/P400/P401/P405/P485/P505 25 YEAR WARRANTY PVpoweroptimizationat the module-level Specifically designed to workwith SolarEdge inverters Up to 25%more energy Superior efficiency (99.5%) Mitigates all types of module mismatch losses, from manufacturing tolerance to partial shading Flexible system design for maximum space utilization Fast installation with a single bolt Next generation maintenance with module- level monitoring Meets NECrequirements for arc fault protection (AFCI) and Photovoltaic Rapid Shutdown System (PVRSS) Module-level voltage shutdown for installer and firefighter safety solaredge.com PO W E R O P T I M I Z E R PowerOptimizer ForNorthAmerica P320 / P340 / P370 / P400 / P401 / P405 / P485 / P505 Optimizer model (typical module compatibility) P320 (for 60-cell modules) P340 (for high- power 60-cell modules) P370 (for higher- power 60 and 72- cell modules) P400 (for 72 & 96-cell modules) P401 (for high power60 and 72 cell modules) P405 (for high- voltage modules) P485 (for high- voltage modules) P505 (for higher current modules) INPUT Rated Input DCPower(1)320 350 370 400 485 505 W Absolute MaximumInput Voltage (Voc at lowest temperature)48 60 80 60 125(2)83(2)Vdc MPPT Operating Range 8 - 48 8 -60 8 -80 8-60 12.5 -105 12.5 -83 Vdc Maximum Short Circuit Current (Isc)11 11.02 11 10.1 11.75 11 14 Adc Maximum DCInput Current 13.75 12.5 14.65 12.5 17.5 Adc MaximumEfficiency 99.5 % Weighted Efficiency 98.8 98.6 % Overvoltage Category II OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING SOLAREDGE INVERTER) Maximum Output Current 15 Adc MaximumOutput Voltage 60 85 Vdc OUTPUT DURING STANDBY (POWEROPTIMIZERDISCONNECTED FROM SOLAREDGE INVERTERORSOLAREDGE INVERTEROFF) Safety Output Voltage per Power Optimizer 1 ± 0.1 Vdc STANDARD COMPLIANCE EMC FCCPart15 Class B, IEC61000-6-2, IEC61000-6-3 Safety IEC62109-1 (class II safety), UL1741 Material UL94 V-0, UV Resistant RoHS Yes INSTALLATION SPECIFICATIONS Maximum Allowed System Voltage 1000 Vdc Compatible inverters All SolarEdge Single Phase and Three Phase inverters Dimensions (W x L x H)129 x 153 x 27.5 / 5.1 x 6 x 1.1 129 x 153 x 33.5 / 5.1 x 6 x 1.3 129 x 153 x 29.5 /5.1 x 6 x 1.16 129 x 159 x 49.5 / 5.1 x 6.3 x 1.9 129 x 162 x 59 /5.1 x 6.4 x 2.3 mm / in Weight (including cables)630 /1.4 750 /1.7 655 /1.5 845 /1.9 1064 /2.3 gr /lb Input Connector MC4(3)Single or dual MC4(3)(4)MC4(3) Input Wire Length 0.16 / 0.52 0.16 or 0.9 /0.52 or 2.95(5)0.16 / 0.52 m / ft Output Wire Type /Connector Double Insulated / MC4 Output Wire Length 0.9 /2.95 1.2 /3.9 m / ft Operating Temperature Range(6)-40 to +85 / -40 to +185 Ü&/Ü) Protection Rating IP68 /7\SH 3 Relative Humidity 0- 100 %  Rated power of the module at STCwill not exceed the optimizer “Rated Input DC Power”. Modules with up to +5% power tolerance are allowed  NEC 2017 requires max input voltage be not more than 80V  For other connector types please contact SolarEdge  For dual version for parallel connection of two modules use P485-4NMDMRM. In the case of an odd number of PV modules in one string, installing one P485 dual version power optimizer connected to  one PV module. When connecting a single module seal the unused input connectors with the supplied pair of seals  Longer inputs wire length are available for use. For 0.9minput wire length order P401-xxxLxxx  For ambient temperature above +85°C/ +185°F power de-rating is applied. Refer to Power Optimizers Temperature De-Rating Technical Note for more details PVSystem DesignUsing a SolarEdge Inverter(7)(8) Single Phase HD-Wave Single phase Three Phase for 208Vgrid Three Phase for 277/480Vgrid Minimum String Length (Power Optimizers) P320, P340, P370, P400, P401 8 10 18 P405, P485, P505 6 8 14 Maximum String Length (Power Optimizers)25 25 50(9) Maximum Power per String 5700 (6000 with SE7600-US - SE11400- US) 5250 6000(10)12750(11) W Parallel Strings of 'L੔HUHQW Lengths or Orientations Yes    )RU GHWDLOHG VWULQJ VL]LQJ LQIRUPDWLRQ UHIHU WR KWWSZZZVRODUHGJHFRPVLWHVGHIDXOWILOHVVWULQJBVL]LQJBQDSGI    ,W LV QRW DOORZHG WR PL[ 333 ZLWK 33333 LQ RQH VWULQJ    $ VWULQJ ZLWK PRUH WKDQ  RSWLPL]HUV GRHV QRW PHHW 1(& UDSLG VKXWGRZQ UHTXLUHPHQWV VDIHW\ YROWDJH ZLOO EH DERYH WKH 9 UHTXLUHPHQW   )RU 9 JULG LW LV DOORZHG WR LQVWDOO XS WR : SHU VWULQJ ZKHQ WKH PD[LPXP SRZHU GL੔HUHQFH EHWZHHQ HDFK VWULQJ LV :   )RU 9 JULG LW LV DOORZHG WR LQVWDOO XS WR : SHU VWULQJ ZKHQ WKH PD[LPXP SRZHU GL੔HUHQFH EHWZHHQ HDFK VWULQJ LV : © SolarEdge Technologies Ltd. All rights reserved. SOLAREDGE, the SolarEdge logo, OPTIMIZED BY SOLAREDGE are trademarks or registered trademarks of SolarEdge Technologies, Inc. All other trademarks mentioned herein are trademarks of their respective owners. Date:/2021 DS-000044-1.-NA. Subject to change without notice. 40 2110 W 7th St - 2017778512/28/22 Rapid Shutdown Kit Installation - MAN-01-00186-1.6 1 Rapid Shutdown Kit - Installation and Configuration (Single Phase Inverters) This document describes how to install the rapid shutdown kit in the SolarEdge Safety Switch, and how to enable the rapid shutdown feature in the inverter in order to provide the functionality described in the Rapid Shutdown clause of NEC2014 690.12 (1) through (4). Kit Contents  Rapid shutdown cables Micro-SD card and SD card adapter with firmware files (Note: DO NOT THROW AWAY THE CARD AND THE ADAPTER; keep them for installation of other rapid shutdown kits) Cable Installation Perform this procedure before connecting the strings to the Safety Switch [Chapter 4: Connecting the AC and the Strings to the Safety Switch in the SolarEdge Installation Guide]. 1 Turn the inverter ON/OFF switch to OFF. If installing the kit in an inverter that is already operating, wait until the LCD indicates that the DC voltage is safe (<50V), or wait five minutes before continuing to the next step. 2 Turn the Safety Switch and the AC switch on the main circuit board to OFF. WARNING! If you cannot see the inverter panel, or if a malfunction is indicated on the LCD panel, wait five minutes for the input capacitors of the inverter to discharge. 3 Loosen the four Allen screws on the front cover of the Safety Switch, and open the cover. 4 Carefully disconnect the two DC cables from the left side of the switch and from the DC connection spring clamp terminals, as illustrated below1. Use a standard straight-bladed screwdriver to disconnect the cables from the terminals. Figure 1: Inside the AC/DC Safety Switch 1 The internal components may vary depending on the Safety Switch model; the figures in this documents show the AC/DC Safety Switch for single phase 7.6-11.4 kW inverters. DC connection terminals Disconnect here Disconnect here Switch terminal block Rapid Shutdown Kit - Installation and Configuration (Single Phase Inverters) Rapid Shutdown Kit Installation - MAN-01-00186-1.6 2 5 The rapid shutdown cables have a resistor connected to one end (on the red cable). Connect these ends to the switch, making sure that the red and black cables are reversed relative to the cables connected at the top of the switch (going into the DC side conduit between the inverter and the Safety Switch), as detailed below. Apply a torque of 2 N*m (18 lb*in):  If the cables at the top are red and black from left to right, connect as shown below. Figure 2: Rapid shutdown cable connected – option 1  If the cables at the top are black and red from left to right, connect as shown below. Figure 3: Rapid shutdown cable connected – option 2 6 Use a standard straight-bladed screwdriver to connect the other end of the rapid shutdown cables to the DC connection spring-clamp terminals: Connect the black cable from the switch to the DC- terminal block, and connect the red cable from the switch to the DC+ terminal block. 7 Check that the cables are located and connected in the correct positions to ensure the rapid shutdown functionality. 8 Close the cover: Attach the switch cover and secure it by tightening the four screws with a torque of 0.9 ft.*lb / 1.2 N*m. Red (+) Black (-) Black (-) DC+ DC- Red (+) with rapid shutdown resistor Black (-) Red (+) Black (-)Red (+) with rapid shutdown resistor DC+ DC- 2110 W 7th St - 2017778512/28/22 Step 1: Mounting and Grounding the Power Optimizers For each of the power optimizers1:  1. Determine the power optimizer mounting location and use the power optimizer mounting brackets to attach the power optimizer to the support structure (See Figure 5). It is recommended to mount the poweroptimizer in a location protected from direct sunlight. For frame-mounted power optimizers follow the instructions supplied with the optimizers, or refer to https://www.solaredge.com/sites/default/files/installing_frame_mounted_power_ optimizers.pdf.  2. If required, mark the mounting hole locations and drill the hole. CAUTION! Do not drill through the power optimizer or through the mounting holes. The drilling vibrations can damage the power optimizer and will void the warranty. ATTENTION! Ne pas percer à travers la optimiseur de puissance ou ses trous de fixation. Les vibrations qui en résulteraient peuvent endommager la optimiseur de puissance.  3. Attach each power optimizer to the rack using M6 (1/4'') stainless steel bolts, nuts and washers or other appropriate mounting hardware.  Apply torque of 9.5 N*m / 7 lb*ft. For 3NA  series power optimizes, SolarEdge recommends mounting the power optimizer on a rail with the smooth side facing out, so that the power optimizer body will prevent its rotation.  4. Use the following methods2 to ground the power optimizer: WARNING! The metallic enclosure of the power optimizer must be grounded in accordance with the requirements of the local and national codes. AVERTISSEMENT! L'enceinte métallique de l’optimiseur de puissance doit être mise à la terre en accord avec les régulations locales et nationales.  l For mounting on a grounded metal rail: Use the provided 5/16'' stainless steel grounding star washer between the railing and the flat side of the mounting bracket.  The grounding washer should break through the anodize coating of the railing to ensure low resistive connection. Apply torque of 9.5 N*m / 7 lb*ft. See Figure 5. 1Not applicable to smart modules. 2These methods have been evaluated by a nationally recognized testing laboratory as part of the optimizer evaluation. The SolarEdge-supplied grounding lug kit has been evaluated only for use with SolarEdge power optimizers. It is not intended or listed to be used as a general purpose grounding lug with other electrical equipment. Chapter 2:InstallingthePower Optimizers SinglePhaseInverter with HD-WaveTechnologyInstallation MAN-01-00306-1.1 19 Figure 5: Power optimizer installation and grounding using a star washer  l For mounting on rails with sliding nut fasteners: If the star washer cannot be used, use the SolarEdge grounding plate (purchased separately) between the railing and the flat side of the mounting bracket. Use mounting specific hardware as needed. Apply torque of 9.5 N*m / 7 lb*ft. See Figure 6 Figure 6: Power optimizer installation and grounding using a grounding plate  l For mounting on un-grounded structures (such as a wooden structure): If the star washer or the plate cannot be used, use the SolarEdge grounding lug (purchased separately) with an equipment-grounding conductor  according to the supplied instructions. The grounding terminal accepts a wire size of 6-14 AWG, and must be sized for equipment grounding per NEC 250.122 requirements. Tighten the screws connecting the power optimizer to the frame and the grounding terminal screw. Apply torque of 9.5 N*m / 7 lb*ft. See Figure 7 Figure 7: Power optimizer grounding terminal  5. Verify that each power optimizer is securely attached to the module support structure. SinglePhaseInverter with HD-WaveTechnologyInstallation MAN-01-00306-1.120 Step1:MountingandGroundingthePower Optimizers 2110 W 7th St - 2017778512/28/22 PENGUIN HOME SOLUTIONS f October 24 th ,2022. To the City of Santa Ana: I Esteban Ramirez hereby authorize Penguin Home Solutions to apply fo r any and all permits necessary, and allow them to Install Solar Panels on my property l ocated at 2110 W 7th Street. Thank you, 2110 W 7th St - 2017778512/28/22 Digitally sealed by RJM on Date: Job #: Jurupa Valley, CA 92509 Email: SE@mcpe.group 11/30/22 11/30/22 22-16325 Mobile: (909) 566-0066 Structural Analysis Report For Photovoltaic System Addition to Existing Structure At The Ramirez Residence 2110 W 7th Street Santa Ana, CA 92703 Designed in Accordance with CBC 2019, ASCE 7-16 E.O.R.: Ryan McPherson, P.E. 9240 Limonite Ave 11/30/2022 3:36 PM 1 of 7 ©McPherson Engineering 2110 W 7th St - 2017778512/28/22 McPherson Engineering By: T.C. Date: 11/30/22 Project Info 3 Gravity Loads 4 Lateral Loads 5 Wind Uplift Design 6 Summary 7 Table Of Contents 11/30/2022 3:36 PM 2 of 7 ©McPherson Engineering 2110 W 7th St - 2017778512/28/22 McPherson Engineering By: T.C. Date: 11/30/22 Location: 2110 W 7th Street Santa Ana, CA 92703 Existing Structure Info: Number of Stories = 1 Aroof = 2056 sq. ft. Roof Square Footage A3rd_flr = 0 sq. ft. Third Floor Square Footage (if applicable) A2nd_flr = 0 sq. ft.Second Floor Square Footage (if applicable) Site Properties: Lattitude = Longitude = Ss = 1.305 S1 = 0.465 Exposure Category = C Ult. Wind Speed = 130 m.p.h. P.V. Array Info: Model = CS3N-395 Height of Panel = 76.40 in. Width of Panel = 41.30 in. Area of Panel = 21.9 ft.2 Number of New Panels = 10 Number of Exis. Panels = 14 Total Area of Array = 525.9 ft.2 Spacing of Anchors = 6.0 ft. max. on center rows of racks per panel = 2 Panel Tilt = 7-27 deg Project Info 33.750253 -117.899566 11/30/2022 3:36 PM 3 of 7 ©McPherson Engineering 2110 W 7th St - 2017778512/28/22 McPherson Engineering By: T.C. Date: 11/30/22 Existing Loads: Roof Design Loads: Roofing = 4.0 p.s.f.Composition roofing Sheathing = 1.5 p.s.f.1/2" Plywood Framing = 1.5 p.s.f.2x Rafter/Truss Framing Misc = 1.0 p.s.f. DLr1 = 8.0 p.s.f.Roofing Dead Load (applied to top of rafters/trusses only) Ceiling = 2.0 p.s.f. Drywall and 2x framing DLr2 = 10.0 p.s.f. Total Existing Roof Dead Load LLr = 20.0 p.s.f. Roof Live Load (Per C.B.C, Table 1607.1) SL = 0.0 p.s.f.Snow Load Floor Design Loads: (if applicable) Flooring = 10.0 p.s.f.Weight of floor finish Sheathing = 2.2 p.s.f.3/4" plywood Framing = 2.0 p.s.f.2x framing or manufactured floor truss Interior Partitions = 15.0 p.s.f.2x framed walls with drywall finish each side Ceiling = 5.0 p.s.f.Drywall ceiling finish below Misc. = 0.8 p.s.f. DLf = 35.0 p.s.f.Total Existing Floor Dead Load Proposed Loads: Panels = 2.8 p.s.f. weight of panels including rack system DLr1_proposed = 10.8 p.s.f. Proposed Roof Dead Load (applied to top only) DLr2_proposed = 12.8 p.s.f.Total Proposed Roof Dead Load LLr_proposed = 0.0 p.s.f. Check Proposed Gravity Loads: Total Existing Roof Load Wex = (DLr1 + LLr) (Aroof) = 57.6 kips Total Proposed Roof Load Wprop = (DLr1 + LLr) (Aroof - Aarray) + (DLr1_proposed + LLr_proposed) (Aarray) = 48.5 kips Proposed Load Demand Wprop - Wex = -15.75% Wex TOTAL DECREASE IN GRAVITY LOADS, PANELS OK! Roof Live Loads need not be applied to the area covered with by PV panel where the clear space between the panels and the roof sureface is 24in or less, 1607.13.5.1 item 1 Exception Gravity Loads 11/30/2022 3:36 PM 4 of 7 ©McPherson Engineering 2110 W 7th St - 2017778512/28/22 McPherson Engineering By: T.C. Date: 11/30/22 Seismic Design Parameters Risk Category = 2 Per Table 1-5-1 R = 6.5 Response Modification Factor (Table 12-2.1) Site Class = D Per 11.4.2 Ie = 1 Seismic Importance Factor (Table 1.5-2) Ss = 1.31 Short Period P.G.A. S1 = 0.47 1-Sec Period P.G.A. S.D.C. = D Seismic Design Category Per 11.6 Fa = 1.20 Site Coefficient per Table 11.4-1 ASCE 7-16 Supplement #1 Tables used for Fa and Fv Fv = 1.70 Site Coefficient per Table 11.4-2 (note: section 11.4.8 Exception #2 calc used) SMS = SDS Fa = 1.57 Short Period M.C.E. Per Eq. 11.4-1 SM1 = SD1 Fv = 0.79 1-Sec Period M.C.E. Per Eq. 11.4-2 SDS = 2/3 (SMS) = 1.04 Short Period Design Parameter Per Eq 11.4-3 SD1 = 2/3 (SM1 ) = 0.53 1-Sec Period Design Parameter Per Eq 11.4-4 Approximate Fundamental Period (Per 12.8.2.1) per Eq. 12.8-7 hn = 15 ft Ct = 0.02 (per table 12.8-2) x = 0.75 (per table 12.8-2) T = 0.15 sec Approximate Fundamental Period TL = 8 sec Long-Period Transition Period per Figure 22-12 Seismic Response Coefficient (Per 12.8.1.1) CS = (SDS Ie)/R = 0.16 Seismic Response Coefficient Per Eq. 12.8-2 Cs1 = 1.5*(SD1 Ie)/R T = 0.80 Max. Seismic Response Coefficient Per Eq. 12.8-3 if T ≤ TL Cs2 = 0.01 Min. Seismic Response Coefficient Per Eq. 12.8-5 Cs2 = 0.044 SDS Ie = 0.05 Min. Seismic Response Coefficient Per Eq. 12.8-5 Cs3 = 0.5 S1 Ie/R = 0.04 Min. Seismic Response Coefficient Per Eq. 12.8-6 if S 1 ≥ 0.6g CS = 0.16 Design Seismic Coefficient Check Additional Base Shear Wexisting = 20.6 kips Weight of Existing Structure Wpanels = 1.5 kips Weight of Proposed Panels Vexisting = Cs Wexisting = 3.3 kips Roof Level Shear of Existing Structure Vpanels = Cs Wpanels = 0.2 kips Additional Roof Level Shear of Proposed Panels Vpanels Vexisting Lateral Loads T = Ct (hn) x = 7.07% < 10%PER C.E.B.C. 502.5 EXCEPTION, STRUCTURE DOES NOT REQUIRE SEISMIC RETROFIT, PANELS OK! 11/30/2022 3:36 PM 5 of 7 ©McPherson Engineering 2110 W 7th St - 2017778512/28/22 McPherson Engineering By: T.C. Date: 11/30/22 Rooftop Solar Panels Wind Pressures (Section 29.4, ASCE 7-16) Vult = 130 mph Kzt = 1.00 (sec 26.8.2) h = 15 ft Exposure Category = C Kz = 0.85 (sec 26.10.1) Roof Zone = 2 Kd = 0.85 (sec 26.6) Roof θ = 7-27 deg Ke = 1.00 (sec 26.9) qh = 0.00256 Kz Kzt Kd Ke V 2 qh = 31.26 (eq. 26.10-1) GPp = -2 uplift γE = 1.5 (sec 29.4.4) γa = 0.69 (fig 29.4-8) γE = 1.5 FIG 29.4-7)γc = 0.98 (fig 29.4-7) hpt = 0 γa = 0.69 (fig 29.4-8)γ p = 0.9 (fig 29.4-7)ω = 0.00 deg (panel tilt) GPp = -2 uplift GCrm = 1.4 uplift p = qh (GPp) γ E γa (eq 29.4-7) p = qh (GCrn) γ E γC γp (eq 29.4-6) p = -64.5 p.s.f.p = 58.0 p.s.f. Check Anchorage to Existing Structure 0.6DL - 0.6W controlling load combination (eq. 16-15 for ASD) DL = 2.8 p.s.f.dead load of panel (inlcuding rack system) W = 64.5 p.s.f.wind load normal to face of panel Arealag = 19.1 sq. ft.area tributary to each anchor SPanc = 6.0 ft.spacing of anchors Puplift = Arealag (0.6DL - 0.6W) = 707.2 lbs total uplift on anchor Material = DFL lumber anchor material Dialag = 5/16 in. diameter of screw Penlag = 2.5 in. min. penetration to existing framing Wlag = 266 lb/in. withdrawal load per in. of penetration per NDS Table 11.2A CD = 1.6 load duration factor for wind per NDS Table 2.3.2 Ct = 0.8 temperature factor per NDS Table 2.3.3 Noscrews = 2 number of screws in withdrawal Pallow = Penlag (Wlag CD Ct) * Noscrews = 1702.4 lbs total allowable withrawal on anchor Puplift Pallow Anchorage = USE (2) 5/16IN. DIA. LAG SCREW(S) AT 6FT. MAX. O.C. W/ 2.5IN. MIN. PENETRATION 0.42 < 1.00 Anchor is OK! Wind Uplift Anchorage = Flush Mounted Panels - ASCE Section 29.4.4 (where applicable) Flat Roof Panels - ASCE Section 29.4.3 (where applicable) 11/30/2022 3:36 PM 6 of 7 ©McPherson Engineering 2110 W 7th St - 2017778512/28/22 McPherson Engineering By: T.C. Date: 11/30/22 Gravity Loads: DEMAND DECREASED BY 15.75% = OK! Lateral Loads: DEMAND INCREASED BY 7.07% < 10% = OK! Anchorage: DEMAND OF 707.2LB. < CAPACITY OF 1702.4LB. = OK! USE (2) 5/16IN. DIA. LAG SCREW(S) AT 6FT. MAX. O.C. W/ 2.5IN. MIN. PENETRATION Summary: STRUCTURE IS ADEQUATE FOR THE PROPOSED PV ARRAY ANCHORS ON EAVES/OVERHANGS ARE OK! Summary 11/30/2022 3:36 PM 7 of 7 ©McPherson Engineering 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 ESTEVAN, RAMIREZ 2110 W 7TH STREET, SANTA ANA, CA 92703 (000) 000-0000 PV-1 COVER SHEET PROJECT NARRATIVE: SYSTEM DESCRIPTION: 1. 3.950 KW DC GRID-TIED SOLAR PHOTOVOLTAIC SYSTEM 2. (1) ARRAY ON A SINGLE STORY RESIDENCE WITH A COMPOSITION SHINGLE ROOF. 3. (1) INVERTER LOCATED SOUTH WALL. 4. CONNECT SYSTEM TO MSP WITH A NEW 2-POLE PV BREAKER. 5. RUN EMT ON ROOF, UNDER EAVES ON THE EXTERIOR OF THE RESIDENCE. 6. ROOF STRUCTURE: 2" X 4" RAFTERS @ 24" O.C 7. FIRE RATING: CANADIAN TYPE-2 MODULE WITH UNIRAC CLASS-A RACKING SYSTEM EQUIPMENT LIST: (10)CANADIAN SOLAR (CSI) CS3N-395MS (395W) (10)SOLAREDGE POWER OPTIMIZERS: P401 (1)SOLAREDGE WAVE 3.8KW INVERTER: SE3800H-US (240V) [SI1-JUN20]-RGM (16)UNIRAC UNIVERSAL AF MID CLAMPS (8)UNIRAC UNIVERSAL AF END CLAMPS (22)UNIRAC FLASHLOC DUO FOOTING (~83FT) UNIRAC SOLARMOUNT STANDARD RAIL (1)20 AMP 2-POLE PV BREAKER (AT MSP) REFERENCE CODES AND CONSTRUCTION NOTES: THIS PROJECT SHALL COMPLY WITH THE FOLLOWING CODES: 2019 CALIFORNIA ELECTRICAL CODE (CEC), 2019 CALIFORNIA RESIDENTIAL CODE (CRC), 2019 CALIFORNIA BUILDING CODE (CBC), 2019 CALIFORNIA FIRE CODE (CFC), 2019 CALIFORNIA PLUMBING CODE (CPC), 2019 CALIFORNIA MECHANICAL CODE (CMC), MANUFACTURER AND PV INDUSTRY STANDARDS, AND ALL STATE AND JURISDICTION BY-LAWS AND ORDINANCES. PROJECT SHALL BE INSTALLED BY A LICENSED CONTRACTOR. VICINITY MAP: (NOT TO SCALE)FRONT OF RESIDENCE PV SYSTEM SUMMARY : 3.950KW ROOF MOUNT RESIDENTIAL PHOTOVOLTAIC SYSTEM SYYSTEM SIZE (DC) : STC: 10 X 395 = 3950 W DC : PTC: 10 X 372.75 = 3727.50 W DC SYSTEM SIZE (CEC-AC): 10 X 372.75 X 99% = 3690.23 W AC MODULES : 10 X CANADIAN SOLAR (CSI) CS3N-395MS (395W) INVERTER : 1 X SOLAR EDGE SE3800H-US (240V) [SI1-JUN20]-RGM ROOF : COMPOSITION SHINGLE TILT : 20° PITCH AZIMUTH : 270° SHEET INTEX PV-1 COVER PV-2 SITE PLAN PV-2A OPTIMIZER CHART PV-3 ARRAY LAYOUT PV-3A FIRE NOTES PV-4 STRUCTURAL ELEVATION PV-5 SINGLE LINE DIAGRAM PV-5A ELEVATION PV-6 ELECTRICAL NOTES PV-7 PLACARDS ATTACHMENTS: + MODULE SPEC SHEET + INVERTER SPEC SHEET + RACKING SPEC SHEET + ENGINEERING LETTER # OF ARRAYS PITCH ORIENTATION 1 20°270° JURISDICTION CITY OF SANTA ANA DIG ALERT 811 TO BE CONTACTED IN COMPLIANCE WITH EXCAVATION SAFETY IN ACCORDANCE TO GOVERMENT CODE 4216 WILL BE FOLLOW PRIOR TO ANY EXCAVATION TAKING PLACE. TOTAL : 7.73KW (E)7 LG310N1C MODULES (E)7 BP3230T-230W MODULES (N)10 CANADIAN SOLAR (CSI) CS3N-395MS (395W) Bldg permit #101112552 Elect permit #20177785 - approved by MS on 11/14/22 Permits issued on 12/22/22 ***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*** 2110 W 7th St - 2017778512/28/22 MSP AC INV JB AC INV SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 SITE PLAN SCALE: 1/16" = 1'-0"1 PV-2 SITE PLAN NOTES: · SMOKE / CARBON MONOXIDE ALARMS ARE REQUIRED TO BE INSTALLED AND IN WORKING CONDITION. · NOTIFY UTILITY COMPANY BEFORE ACTIVATION OF PV SYSTEM. · DO NOT INSTALL INVERTER WHERE IT COULD BE EXPOSED TO DIRECT SUNLIGHT TO AVOID UNWANTED POWER REDUCTION DUE TO AN INCREASE IN THE INTERNAL TEMPERATURE OF THE INVERTER. NORTHNORTH APN #: 6212013049 SPRINKLER SYSTEM: NO TOTAL ROOF AREA: 2056.12 SOLAR ARRAY AREA: 222.38 % AREA COVERAGE: 10.82% (N)AC DISCONNECT SWITCH (E) RESID E N C E (E)MAIN SERVICE PANEL (SOLAR POINT OF CONNECTION) (E)PROPERTY LINE 46'-3" (N)SOLAR EDGE SE3800H-US (240V) [SI1-JUN20]-RGM INVERTER W/ INTEGRATED DC DISCONNECT (SOUTH WALL) W 7TH STREET (E)DRIVEWAY 1204.2.1.1 PATHWAYS TO RIDGE NOT FEWER THAN TWO 36-INCH-WIDE (914 MM) PATHWAYS ON SEPARATE ROOF PLANES, FROM LOWEST ROOF EDGE TO RIDGE, SHALL BE PROVIDED ON ALL BUILDINGS. NOT FEWER THAN ONE PATHWAY SHALL BE PROVIDED ON THE STREET OR DRIVEWAY SIDE OF THE ROOF. FOR EACH ROOF PLANE WITH A PHOTOVOLTAIC ARRAY, NOT FEWER THAN ONE 36-INCH-WIDE (914 MM) PATHWAY FROM LOWEST ROOF EDGE TO RIDGE SHALL BE PROVIDED ON THE SAME ROOF PLANE AS THE PHOTOVOLTAIC ARRAY, ON AN ADJACENT ROOF PLANE OR STRADDLING THE SAME AND ADJACENT ROOF PLANES (N)PV ARRAY AR-02 46'-3" 1 4 8 ' - 8 " 1 4 8 ' - 8 " (E)7 BP3230T-230W MODULES ROOF ACCESS POINT FIRE CODE 1204.2.1.2 SETBACKS AT RIDGE FOR PHOTOVOLTAIC ARRAYS OCCUPYING 33 PERCENT OR LESS OF THE PLAN VIEW TOTAL ROOF AREA, A SETBACK OF NOT LESS THAN 18 INCHES (457 MM)WIDE IS REQUIRED ON BOTH SIDES OF A HORIZONTAL RIDGE. FOR PHOTOVOLTAIC ARRAYS OCCUPYING MORE THAN 33 PERCENT OF THE PLAN VIEW TOTAL ROOF AREA, A SETBACK OF NOT LESS THAN 36 INCHES (457 MM) WIDE IS REQUIRED ON BOTH SIDES OF A HORIZONTAL RIDGE. ROOF ACCESS POINT (E)7 LG310N1C MODULES (E)INVERTER (E)AC DISCONNECT SWITCH (E)SHED (N)PV ARRAY AR-02 This item has been digitally signed and sealed on Nov 30, 2022 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-2A OPTIMIZER CHART 2110 W 7th St - 2017778512/28/22 MSP AC INV JB AC INV SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-3 ARRAY LAYOUT 2" X 4" RAFTERS @ 24" O.C MODULE DETAILS SCALE: 1/2" = 1'-0" 2 ROOF PLAN WITH MODULES LAYOUT SCALE: 3/32" = 1'-0" 1 (N)UNIRAC SOLARMOUNT STANDARD RAIL (N)CONDUIT RUN: 3/4" EMT (N)ROOF MOUNTS EVERY 72" O.C MAX (N)JUNCTION BOX (UNDER ARRAY) ADDITIONAL NOTES: · FINAL LOCATION OF ALL CONDUIT AND JUNCTION BOXES TO BE DETERMINED AT TIME OF INSTALLATION. · CONDUIT TO BE PAINTED TO MATCH EXTERIOR OF RESIDENCE WHERE APPLICABLE AND IS TO BE SUPPORTED EVERY 10' MAX. · 30" WIDE X 36" DEEP WORKING SPACE CLEARANCES REQUIRED ABOUT ALL ELECTRICAL EQUIPMENT. · STAGGER PENETRATIONS TO EVENLY DISTRIBUTE LOAD ACROSS ALL TRUSSES UNDER ARRAY. · ALL DIMENSIONS ARE APPROXIMATIONS. · DO NOT INSTALL INVERTER WHERE IT COULD BE EXPOSED TO DIRECT SUNLIGHT TO AVOID UNWANTED POWER REDUCTION DUE TO AN INCREASE IN THE INTERNAL TEMPERATURE OF THE INVERTER. CONSTRUCTION NOTES · ROOF PITCH: 20° · ROOF CLADDING: COMPOSITION SHINGLE · ROOF STRUCTURE: 2" X 4" RAFTERS @ 24" O.C O/C · MOUNTS ARE ON GRID SPACING, OCCURRING AT RAFTERS. · VERIFY RAFTER LOCATIONS IN FIELD. · REFER TO MODULE AND RACKING MFR'S INSTALL MANUALS. · MAX SPAN BETWEEN MOUNTS: 72" O.C. · PLUMBING AND MECHANICAL VENTS SHALL NOT BE COVERED BY SOLAR MODULES. · ALL FASTENERS STAINLESS STEEL U.O.N. (N)PV ARRAY AR-02 (222.38 SQ.FT.) (E)MAIN SERVICE PANEL (SOLAR POINT OF CONNECTION) (N)AC DISCONNECT SWITCH STRING 1 ROOF AREA STATEMENT ROOF MODULES QTY PITCH TRUE ORIENTATION 1 9 20°270° PV-4 1 SPECS: L : 76.4" W : 41.3" D : 1.38" 49.6 LBS CANADIAN SOLAR (CSI) CS3N-395MS (395W) 76.4" 41.3" 1.38" 20° (N)SOLAR EDGE SE3800H-US (240V) [SI1-JUN20]-RGM INVERTER W/ INTEGRATED DC DISCONNECT (SOUTH WALL) NORTH (E)7 LG310N1C MODULES (E)7 BP3230T-230W MODULES (E)AC DISCONNECT SWITCH (E)INVERTER 4'-6" 1'-7" 9'-1" 13'-9" (N)PV ARRAY AR-01 20°180°12 This item has been digitally signed and sealed on Nov 29, 2022 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-3A FIRE NOTES 1204.1 General Solar photovoltaic systems shall be installed in accordance with sections 1204.2 through 1204.5, and the California Building Code or California Residential Code. The electrical portion of solar PV systems shall be installed in accordance with the California Electrical Code. 1204.2 Access and Pathways Chapter 12 Energy Systemshttps://up.codes/viewer_export/juris_key/california/pub/california_fire_code_2019/ref/12 6/24Roof access, pathways, and spacing requirements shall be provided in accordance with Sections 1204.2.1 through 1204.3.3. Pathways shall be over areas capable of supporting fire fighter accessing the roof. Pathways shall be located in areas with minimal obstructions, such as vent pipes, conduit or mechanical equipment.Exceptions:1. Detached, no habitable group structures including, but not limited to, detached garages serving group R-3 buildings, parking shade structures, carports, solar trellises and similar structures.2. Roof access, pathways and spacing requirements need not be provided where the fire code official has determined that rooftop operations will not be employed. 1204.2.1 Solar Photovoltaic Systems for Group R-3 Buildings Solar photovoltaic systems for Group R-3 buildings shall comply with Sections 1204.2.1.1 through 1204.2.1.3.Exceptions :1.These requirements shall not apply to structures designed and constructed in accordance with the California Residential Code.2. These requirements shall not apply to roofs with slopes of 2 units vertical in 12 units horizontal or less. 1204.2.1.1 Pathways to ridge not fewer than two 36-inch-wide (914 mm) pathways on separate roof planes, from lowest roof edge to ridge, shall be provided on all buildings. Not fewer than one pathway shall be provided on the street or driveway side of the roof. For each roof plane with a photovoltaic array, not fewer than one 36-inch-wide (914 mm) pathway from lowest roof edge to ridge shall be provided on the same roof plane as the photovoltaic array, on an adjacent roof plane or straddling the same and adjacent roof planes 1204.2.1.2 Setbacks at ridge for photovoltaic arrays occupying 33 percent or less of the plan view total roof area, a setback of not less than 18 inches (457 mm) wide is required on both sides of a horizontal ridge. For photovoltaic arrays occupying more than 33 percent of the plan view total roof area, a setback of not less than 36 inches (457 mm) wide is required on both sides of a horizontal ridge. 1204.2.1.3 Alternative setbacks at ridge where an automatic sprinkler system is installed within the dwelling in accordance with Section 903313 setbacks at the ridge shall conform within the dwelling in accordance with Section 903.3.1.3, setbacks at the ridge shall conform to one of the following:1For photovoltaic arrays occupying 66 percent or less of the plan view one of the following:1. For photovoltaic arrays occupying 66 percent or less of the plan view total roof area a setback of not less than 18inches (457 mm) wide is required on both sides total roof area, a setback of not less than 18inches (457 mm) wide is required on both sides of a horizontal ridge 2 For photovoltaic arrays occupying more than 66 percent of the plan view a horizontal ridge.3. For photovoltaic arrays occupying more than 66 percent of the plan view total roof area a setback of not less than 36inches (914 mm) wide is required on both sides total roof area, a setback of not less than 36inches (914 mm) wide is required on both sides of a horizontal ridge a horizontal ridge. 120.4.2.2 Emergen1204.2.2 Emergency escape and rescue openings panels and modules installed on Group R-3 buildings shall not be placed on the portion of a roof that is below an emergency escape buildings shall not be placed on the portion of a roof that is below an emergency escape and rescue opening A pathway of not less than 36 inches (914 mm) wide shall be provided and rescue opening. A pathway of not less than 36 inches (914 mm) wide shall be provided to the emergency escape and rescue opening the emergency escape and rescue opening.120.4.2.3 Locations of DC Conductors Conduit 1204.2.3 Locations of DC conductors conduit, wiring systems, and raceways for photovoltaic circuits shall be located as close as possible to the ridge or hip or valley and from the hip or circuits shall be located as close as possible to the ridge or hip or valley and from the hip or valley as directly as possible to an outside wall to reduce trip hazards and maximize ventilate valley as directly as possible to an outside wall to reduce trip hazards and maximize ventilation opportunities conduit runs between sub arrays and to DC combiner boxes shall be installed in opportunities. Conduit runs between sub arrays and to DC combiner boxes shall be installed in a manner that minimizes the total amount of conduit on the roof by taking the shortest path from a manner that minimizes the total amount of conduit on the roof by taking the shortest path from the array to the DC combiner box. The DC combiner boxes shall be located such that conduit the array to the DC combiner box. The DC combiner boxes shall be located such that conduit runs are minimized in the pathways between arrays DC wiring shall be installed in metallic runs are minimized in the pathways between arrays. DC wiring shall be installed in metallic conduit or raceways when located within enclosed spaces in a building Conduit shall run a conduit or raceways when located within enclosed spaces in a building. Conduit shall run along the bottom of load bearing members the bottom of load bearing members. 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-4 STRUCTURAL ELEVATION QUANTITY WEIGHT / UNIT TOTAL WEIGHT MODULE 10 49.6 LBS 496.00 LBS OPTIMIZER 10 1.40 LBS 14.00 LBS FOOTINGS 22 1.25 LBS 27.50 LBS RAILING 83FT 0.75 LBS/FT 62.25 LBS UFO CLAMPS 16 0.10 LBS 1.6 LBS END CLAMPS 8 0.10 LBS 0.80 LBS WEIGHT OF ARRAY 602.15 LBS AREA 559.72 SQFT WEIGHT PER AREA 1.08 LBS/SQFT STRUCTURAL EVALUATION: DEAD LOAD: 1.08 PSF < 4.0 PSF OK 24.9 LBS/PEN < 45 LBS/PEN OK FOOTING SPACING: 72" = 72"" OK TOP PLATE LOAD BEARING WALL RIDGE BOARD 2" X 4" RAFTERS @ 24" O.C MID CLAMP SOLAR MODULE 20° UNIRAC SOLARMOUNT STANDARD RAIL UNIRAC SOLARHOOK FLASH LOC DUO FOOTING MATERIAL LIST 1 SOLAR EDGE SE3800H-US (240V) [SI1-JUN20]-RGM QTY EQUIPMENT DESCRIPTION 10 CANADIAN SOLAR (CSI) CS3N-395MS (395W) 1 JUNCTION BOX 600VDC, NEMA 3R, UL LISTED 1 AC DISCONNECT 600VAC, 30A, NEMA 3R, UL LISTED 1 PV BREAKER 4 POLE, 240V, 20A 22 ATTACHMENTS UNIRAC FLASHLOC DUO FOOTING 83' RAIL UNIRAC RACKING 16 MID CLAMPS UNIRAC UNIVERSAL AF MID CLAMPS 8 END CLAMPS UNIRAC UNIVERSAL AF END CLAMPS 40' CONDUIT 3/4" OR LARGER EMT CONDUIT 1/2" PLYWOOD SHEATHING COMPOSITION SHINGLE ROOF @ 20° PITCH LAG BOLT SCHEDULE LOCATION INFIELD 3' SIDE ZONES 3' CORNER ZONES SELF TAPING SCREWS 5/16" x 2.5" 5/16" x 2.5"5/16" x 2.5" OPEN CIRCUIT VOLTAGE (Voc) : MAX. POWER VOLTAGE (Vmp) : SHORT CIRCUIT CURRENT (Isc) : MAX. POWER CURRENT (Imp) : PTC RATING : 44.3V 37.0V 11.44A 10.68A 372.75W MAX. DC INPUT VOLTAGE : MAX. AC OUTPUT VOLTAGE RANGE : MAX. AC OUTPUT CURRENT : MAX. AC POWER OUPUT : CEC EFFICIENCY : 480V 211-264V 16.0A 3800W 99% (2) 5/16" LAG SCREWS W/2.5" EMEDMEN INTO RAFTER This item has been digitally signed and sealed on Nov 29, 2022 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-5 SINGLE LINE DIAGRAM NOTES: · CONDUTORS ON ROOF MUST BE SUNLIGHT RESISTANT, 90°C RATED AND SUITABLE FOR WET LOCATIONS. · SEE RACKING SPEC SHEETS FOR RACKING EQUIPMENT GROUNDING METHOD. · ALL GROUNDING CONDUCTORS MUST BE PROTECTED FROM DAMAGE IF NOT INSTALLED IN CONDUIT. · ALL WIRING MUST BE PROPERLY SUPPORTED BY DEVICES OR MECHANICAL MEANS DESIGNED AND LISTED FOR SUCH USE. WIRING MUST BE PERMANENTLY AND COMPLETELY HELD OFF OF THE ROOF. · ALL DEVICES USED FOR BONDING FRAMES OF MODULES OR OTHER EQUIPMENT TO THE GROUNDING SYSTEM MUST BE LISTED AND IDENTIFIED FOR THE PURPOSE. · SOLAREDGE OPTIMIZERS ARE TO BE BONDED TO RACKING BY USING EITHER AN OPTIMIZER ATTACHMENT KIT OR A SOLAREDGE GROUNDING PLATE. (SEE SPEC SHEETS). · ALL CONDUCTORS SHALL BE COPPER. · ALL ROOFTOP RACEWAYS SHALL BE INSTALLED A>=7/8" ABOVE ROOF. · INTEGRATED GROUNDING IN ACCORDANCE WITH THE RACKING MANUFACTURER INSTALLATION INSTRUCTIONS CAN ONLY BE USED FOR BONDING THE MODULES TO THE RACKING WHERE THE SPECIFIC MODULE CATALOG NUMBER HAS BEEN TESTED TO UL2703 STANDARDS BY AN ACCREDITED NRTL. WHERE THE MODULE CATALOG NUMBER IS NOT PART OF THE RACKING SYSTEM APPROVED MODULE LIST, BOND ALL MODULES AND ALL RAILS USING A UL2703 LISTED LAY-IN LUG SUCH AS ILSCO GBL-4DBT. 3.950 kW (DC) SOLAR ARRAY: (10)CANADIAN SOLAR (CSI) CS3N-395MS (395W) WITH (10)SOLAREDGE POWER OPTIMIZERS: P401 WITH (1)SOLAREDGE WAVE 3.8KW INVERTER: SE3800H-US (240V) [SI1-JUN20]-RGM (1) STRING OF (10) MODULES UTILITY METER 200AMP 2-POLE MAIN BREAKER N G 3/4" EMT OR EQUIVALENT (ON ROOF, UNDER EAVES) (2) #10 AWG THWN-2 CONDUCTORS (1) #8 AWG THWN-2 GROUND CONDUCTORS EXPOSED TO FREE AIR (2)#10 AWG PV-WIRE 600V/RHW-2 (1)#6 AWG BARE COPPER GROUND WIRE IN CONDUIT CAN BE #8 AWG THWN-23/4" EMT OR EQUIVALENT (2)#8 AWG THWN-2 CONDUCTORS (1)#8 AWG THWN-2 NEUTRAL (1)#8 AWG THWN-2 GROUND AC DISCONNECT (WITHIN 10' OF MSP) NEMA TYPE 3R UL LISTED JUNCTION BOX AR-02 (10)CANADIAN SOLAR (CSI) CS3N-395MS (395W) IN (1) STRING OF (10)MODULES AT (20°) PITCH AND (270°) ORIENTATION 120/240 VAC SERVICE EXISTING 200A MAIN SERVICE PANEL W/ 200A MAIN BREAKER. INSTALL NEW 20A 2-POLE PV BREAKER AT END OF BUS BAR. MAIN SERVICE PANEL IS NOT CENTER FED. AC OUT DC IN NOTE: INTEGRATED DC DISCONNECT IS INSTALLED WITH RAPID SHUTDOWN DEVICE BY MANUFACTURER IN COMPLIANCE WITH NEC 690.12. (10)SOLAREDGE: P401 DC OPTIMIZERS NEW SQUARE D DU221RB 30A, 240V, 2P NON-FUSED, NEMA 3R ENCLOSURE (OR EQUIV.) SOLAREDGE TECHNOLOGIES: SE3800H-US (240V) [SI1-JUN20]-RGM GRID TIED 2-POLE 3800 WATTS INVERTER AC MAX OUTPUT CURRENT OF 16A MAX OUTPUT CURRENT 12.99A 1.56 MULTIPLE CONDUCTOR FACTOR 1.0 TEMP CORRECTION FACTOR 0.71 AMPACITY OF # WIRE (THWN-2 @ 90 °C) 40 MAXIMUM AMPACITY 12.99A * 1.56 = A < 40A CONTINUOUS DUTY AND HIGH IRIDESCENCE FACTOR DC AMPACITY CALCULATION 40 * 1.0 * 0.71 = A > 12.99A ADJUSTED AMPACITY INVERTER OUTPUT CURRENT 16A CONTINUOUS DUTY FACTOR 1.25 MULTIPLE CONDUCTOR FACTOR 1.0 TEMP CORRECTION FACTOR 0.88 AMPACITY OF #8 WIRE (USE 75°)50A MAXIMUM AMPACITY 16A * 1.25 = 20.0A < 50A ADJUSTED AMPACITY INVERTER OCPD RATING AC AMPACITY CALCULATION FOR 3.8KW INVERTER 50A * 0.88 = 44.0A > 16A 20A (E)UFER #4 AWG CU GEC 10 A 20.26 28.4 AR-01 & AR-02 (7)LG315N1C MODULES & (7)BP3230T-230W MODULES AT (20°) PITCH AND (180° & 270°) ORIENTATION EXISTING (E)AC DISCO SUNNY BOY SB3000 TL (N)20A/20A QUAD 2 POLE BREAKER COMMON TRIP 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-5A ELEVATION (N)INVERTER (N)AC DISCONNECT (E)MAIN SERVICE PANEL (N)MODULES ELEVATION SCALE: 3/8" = 1'-0"1 (E)INVERTER (E)AC DISCONNECT (E)MODULES (E)MODULES (N)MODULE This item has been digitally signed and sealed on Nov 30, 2022 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-6 ELECTRICAL CALCS ASSUMPTIONS: HIGH TEMPERATURE = 37 °C LOW TEMPERATURE = -10 °C ADDED TEMPERATURE FOR CONDUIT RUN ON ROOF = 22 °C 90 °C RATED WIRE FOR DC CURRENT 75 °C RATED WIRE FOR AC CURRENT THAT TERMINATES AT A BREAKER ELECTRICAL NOTES: · ALL PV MODULES, ARRAY FRAMING AND RACKING SHALL BE GROUNDED PER MFR'S SPECIFICATIONS. · ALL EQUIPMENT WILL BE UL 1703, UL 1741, OR UL 2703 LISTED AND CERTIFIED. · INTEGRATED GROUNDING IN ACCORDANCE WITH THE RACKING MANUFACTURER INSTALLATION INSTRUCTIONS CAN ONLY BE USED FOR BONDING THE MODULES TO THE RACKING WHERE THE SPECIFIC MODULE CATALOG NUMBER HAS BEEN TESTED TO UL2703 STANDARDS BY AN ACCREDITED NRTL. WHERE THE MODULE CATALOG NUMBER IS NOT PART OF THE RACKING SYSTEM APPROVED MODULE LIST, BOND ALL MODULES AND ALL RAILS USING A UL2703 LISTED LAY-IN LUG SUCH AS ILSCO GBL-4DBT. · ALL WIRE TERMINATIONS, SPLICES AND CONNECTIONS SHALL BE MADE USING A LISTED DEVICE OR ELECTRICAL BOX SUITED FOR THE PURPOSE. ALL WIRES NOT IN CONDUIT TO BE PROVIDED WITH STRAIN RELIEF AT ENTRY INTO JUNCTION BOXES. · PROVIDE AND INSTALL CONDUIT EXPANSION FITTINGS, PER MANUFACTURER'S SPECIFICATIONS, IN CONDUIT RUNS WHERE THERMAL EXPANSION IS 0.25" OR MORE, BASED ON RECORD MAXIMUM AND MINIMUM TEMPERATURES FOR THE SITE (SEE NEC TABLE 310.15(B)(2)(C), AND USING EXPANSION COEFFICIENT OF STEEL. · BOTH ENDS OF ALL METALLIC CONDUIT CONTAINING GROUNDING ELECTRODE CONDUCTORS SHALL BE BONDED PER NEC 250.64(E). · PROVIDE AND INSTALL ALL GROUNDING AS REQUIRED BY NEC ARTICLES 250, 690 AND SYSTEM MANUFACTURER. · INSTALLATIONS WHICH USE TRANSFORMER-LESS INVERTERS - PV WIRE-600V/RHW-2 TYPE IS REQUIRED FOR ALL DC WIRE RUNS IN FREE AIR, OR NOT IN CONDUIT. · EACH CURRENT CARRYING CONDUCTOR IN ALL PV SOURCE CIRCUITS OR PV OUTPUT CIRCUITS SHALL BE DISCONNECTED/ FUSED, WHEN NECESSARY. ·CONTRACTOR SHALL VERIFY EXISTENCE OF UNDERGROUND UTILITIES PRIOR TO ANY EXCAVATIONS. ·ELECTRICAL TRENCH RUNS, WHERE USED, SHALL USE SCHEDULE 40 PVC CONDUIT AND PROVIDE 18" MIN CLEARANCE FROM TOP OF CONDUIT TO GRADE, AND MAGNETIC WARNING TAPE AT 12" BELOW GRADE. 24" CLEARANCE AND SCHEDULE 80 PVC IS REQUIRED IN AREAS WHERE SUBJECT TO VEHICLE TRAFFIC. · CHECK WITH LOCAL JURISDICTION FOR ANY ADDITIONAL FILL AND COMPACTION REQUIREMENTS, SPOILS TREATMENT AND/OR EROSION CONTROL MEASURES PRIOR TO EXCAVATION. · INSTALLATIONS IN LIGHTENING-PRONE LOCATIONS ARE RECOMMENDED TO UTILIZE DC LIGHTENING ARRESTORS IN ACCORDANCE WITH MANUFACTURER'S SPECIFICATIONS. ·SUPPLY SIDE CONNECTIONS SHALL ONLY BE MADE WITH LISTED AND APPROVED TAPS. ·ALL WIRE RUNS SHALL NOT EXCEED 2% CALCULATED VOLTAGE DROP. ·USE WATERPROOF FITTINGS FOR ALL EXTERIOR CONDUIT. ·GROUNDING CONDUCTOR (DC SIDE OF INVERTER) IS #10 IF IN CONDUIT, OR #6 awg IF EXPOSED AND SUBJECT TO DAMAGE (NEC 690.46). PV MODULE SPECS MAKE MODEL SHORT CIRCUIT CURRENT OPEN CIRCUIT VOLTAGE OPERATING CURRENT OPERATING VOLTAGE NOMINAL POWER 3.950 kW (DC) SOLAR ARRAY: (10)CANADIAN SOLAR (CSI) CS3N-395MS (395W) WITH (10)SOLAREDGE POWER OPTIMIZERS: P401 WITH (1)SOLAREDGE WAVE 3.8KW INVERTER: SE3800H-US (240V) [SI1-JUN20]-RGM (1) STRING OF (10) MODULES POWER OPTIMIZER SPECS MAKE MODEL RATED DC POWER MAX INPUT VOLTAGE MPPT OPERATING RANGE MAX ISC INPUT CURRENT MAX OUTPUT CURRENT BUS BAR RATING 200A MAIN BREAKER RATING 200A TOTAL SOLAR BACKFEED NEEDED 20A MAX ALLOWABLE BACKFEED (200A X 120%) - 200A FEEDER BREAKER = 40A ALLOWABLE = 40A SOLAR, SO OK TO CONNECT (PER NEC 705.12) ALLOWABLE SOLAR BACKFEED CALCULATION AT MSP MAX OUTPUT CURRENT 12.99A 1.56 MULTIPLE CONDUCTOR FACTOR 1.0 TEMP CORRECTION FACTOR 0.71 AMPACITY OF #10 WIRE (THWN-2 @ 90 °C) 40A MAXIMUM AMPACITY 12.99A * 1.56 = 20.26A < 40A CONTINUOUS DUTY AND HIGH IRIDESCENCE FACTOR DC AMPACITY CALCULATION 40A * 1.0 * 0.71 = 28.4A > 12.99A ADJUSTED AMPACITY CALCULATIONS: Vmpp = 380V Vmax = 480V Impp = (10 MODULES) * 395W / 380V = 10.39A Imax = 10.39 * 1.25 = 12.99A INVERTER OUTPUT CURRENT 16A CONTINUOUS DUTY FACTOR 1.25 MULTIPLE CONDUCTOR FACTOR 1.0 TEMP CORRECTION FACTOR 0.88 AMPACITY OF #8 WIRE (USE 75°)50A MAXIMUM AMPACITY 16A * 1.25 = 20.0A < 50A ADJUSTED AMPACITY INVERTER OCPD RATING AC AMPACITY CALCULATION FOR 3.8KW INVERTER 50A * 0.88 = 44.0A > 16A 20A OPERATING OUTPUT VOLTAGE MAX ALLOWED SYSTEM VOLTAGE NUMBER OF UNITS PER STRING MAX POWER PER STRING INVERTER SPECS RATED AC POWER MODEL MAKE TRANSFORMERLESS, UNGROUNDED MAX INPUT VOLTAGE MAX INPUT CURRENT RATED AC VOLTAGE NOMINAL INPUT VOLTAGE AC VOLTAGE RANGE MAX AC OUTPUT CURRENT AC OVERCURRENT PROTECTION CANADIAN SOLAR CS3N-395MS (395W) 11.44A 44.3V 10.68A 37.0V 395W SOLAR EDGE P401 430 W 60 VDC 8 - 60 VDC 12.5 A 15 A 5 - 60 VDC 480 VDC 8-18 5700 W SOLAR EDGE SE3800H-US-RGM 3800 W YES 480VDC 380VDC 10.5A 240 VAC 211 - 264 VAC 16.0 A 20.0 A 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-7 PLACARDS WARNING WARNING INVERTER OUTPUT CONNECTION. DO NOT RELOCATE THIS OVERCURRENT DEVICE. NEC SECTION LOCATION OF LABEL LABEL TEXT AND APPERANCE NEC SECTION LOCATION OF LABEL LABEL TEXT AND APPERANCE 690.54 ALL INTERACTIVE SYSTEM(S) POINTS OF INTERCONNECTION WITH OTHER SOURCES SHALL BE MARKED AT AN ACCESSIBLE LOCATION AT THE DISCONNECTING MEANS AS A POWER SOURCE AND WITH THE RATED AC OUTPUT CURRENT AND THE NOMINAL OPERATING AC VOLTAGE. 690.56(B) 690.4(D) 705.10 A PERMANENT PLAQUE OR DIRECTORY SHALL BE INSTALLED AT EACH SERVICE EQUIPMENT LOCATION, OR AT AN APPROVED READILY VISIBLE LOCATION. THE PLAQUE OR DIRECTORY SHALL DENOTE THE LOCATION OF EACH POWER SOURCE DISCONNECTING MEANS FOR THE BUILDING OR STRUCTURE AND BE GROUPED WITH OTHER PLAQUES OR DIRECTORIES FOR OTHER ON-SITE SOURCES. THE PLAQUE OR DIRECTORY SHALL BE MARKED WITH THE WORDING “C UTION: MULTIPLE SOURCES OF POWER͘” NY POSTED DIAGRAMS SHALL BE CORRECTLY ORIENTED WITH RESPECT TO THE DIAGRAM'S LOCATION. THE MARKING SHALL COMPLY WITH 110.21(B). 690.13(B) 690.15 705.20 EACH PV SYSTEM DISCONNECTING MEANS SHALL PLAINLY INDICATE WHETHER IN THE OPEN (OFF) OR CLOSED (ON) POSITION AND BE PERMANENTLY MARKED: “PV SYSTEM DISCONNECT” OR EQUIVALENT. 690.53 A PERMANENT READILY VISIBLE LABEL INDICATING THE HIGHEST MAXIMUM DC VOLTAGE IN A PV SYSTEM, CALCULATED IN ACCORDANCE WITH 690.7, SHALL BE PROVIDED BY THE INSTALLER AT ONE OF THE THREE LOCATIONS. 690.31 (D)(2) UNLESS THE PURPOSE IS EVIDENT, THE FOLLOWING WIRING METHODS AND ENCLOSURES THAT CONTAIN PV SYSTEM DC CIRCUIT CONDUCTORS SHALL BE MARKED: (1) EXPOSED RACEWAYS, CABLE TRAYS, AND OTHER WIRING METHODS (2) COVERS OR ENCLOSURES OF PULL BOXES AND JUNCTION BOXES (3) CONDUIT BODIES IN WHICH ANY OF THE AVAILABLE CONDUIT OPENINGS ARE UNUSED SOLAR PV SYSTEM EQUIPPED WITH RAPID SHUTDOWN TURN RAPID SHUTDOWN SWITCH TO THE "OFF" POSITION TO SHUTDOWN PV SYSTEM AND REDUCE SHOCK HAZARD IN ARRAY SOLAR ELECTRIC PV PANELS WHERE ALL TERMINALS OF THE DISCONNECTING MEANS MAY BE ENERGIZED IN THE OPEN POSITION, A WARNING SIGN SHALL BE MOUNTED ON OR ADJACENT TO THE DISCONNECTING MEANS. 690.13(B) 690.15(C) 705.12 (B)(3)(2) 705.12 (B)(3)(3) 690.56 (C) A PERMANENT WARNING LABEL SHALL BE APPLIED TO THE DISTRIBUTION EQUIPMENT ADJACENT TO THE BACK-FED BREAKER FROM THE INVERTER. PHOTOVOLTAIC SYSTEM AC DISCONNECT PERMANENT WARNING LABELS SHALL BE APPLIED TO DISTRIBUTION EQUIPMENT (2)A RAPID SHUTDOWN SWITCH SHALL HAVE A LABEL LOCATED ON OR NO MORE THAN 3 FT FROM THE SWITCH THAT INCLUDES THIS WORDING. THE LABEL SHALL BE REFLECTIVE, WITH ALL LETTERS CAPITALIZED AND HAVING A MINIMUM HEIGHT OF 3/8 IN., IN WHITE ON RED BACKGROUND . BUILDINGS WITH PV SYSTEMS SHALL HAVE A PERMANENT LABEL LOCATED AT EACH SERVICE EQUIPMENT LOCATION TO WHICH THE PV SYSTEMS ARE CONNECTED OR AT AN APPROVED READILY VISIBLE LOCATION AND SHALL INDICATE THE LOCATION OF RAPID SHUTDOWN INITIATION DEVICES. THE LABEL SHALL INCLUDE A SIMPLE DIAGRAM OF A BUILDING WITH A ROOF AND SHALL INCLUDE THE FOLLOWING WORDS: THE TITLE “SOLAR PV SYSTEM IS EQUIPPED WITH RAPID SHUTDOWN” SHALL UTILIZE CAPITALIZED CHARACTERS WITH A MINIMUM HEIGHT OF 3/8 IN. IN BLACK ON YELLOW BACKGROUND, AND THE REMAINING CHARACTERS SHALL BE CAPITALIZED WITH A MINIMUM HEIGHT OF 3/16 IN. IN BLACK ON WHITE BACKGROUND. MAXIMUM AC OPERATING CURRENT: NOMINAL OPERATING AC VOLTAGE: 240 VOLTS RAPI' SHUT'OWN SWIT&H )OR SOLAR P 9 S<STEM WARNING THIS EQUIPMENT FED BY MULTIPLE SOURCES. TOTAL RATING OF ALL OVERCURRENT DEVICES EXCLUDING MAIN SUPPLY OVERCURRENT DEVICE SHALL NOT EXCEED AMPACITY OF BUSBAR. ELECTRICAL SHOCK HAZARD TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION PHOTOVOLTAIC DC DISCONNECT MAIN PHOTOVOLTAIC SYSTEM DISCONNECT MAXIMUM DC VOLTAGE OF PV SYSTEM SOLAR PV DC CIRCUIT PHOTOVOLTAIC POWER SOURCE (1)BUILDING WITH MORE THAN ONE RAPID SHUTDOWN TYPE. FOR BUILDINGS THAT HAVE PV SYSTEMS WITH BOTH RAPID SHUTDOWN TYPES OR A PV SYSTEM WITH A RAPID SHUTDOWN TYPE AND PV SYSTEM WITH NO RAPID SHUTDOWN, A DETAILED PLAN VIEW DIAGRAM OF THE ROOF SHALL BE PROVIDED SHOWING EACH DIFFERENT PV SYSTEM AND DOTTED LINE AROUND AREAS THAT REMAIN ENERGIZED AFTER THE RAPID SHUTDOWN SWITCH IS OPERATED. PHOTOVOLTAIC AC DISCONNECT CAUTION: MULTIPLE SOURCES OF POWER WITH DISCONNECTS LOCATED AS SHOWN N W 7TH STREET  NE& LA%ELING RE4UIREMENTS 16 AMPS MSP AC INV JB AC INV PV AC DISCONNECT SWITCH PV DC DISCONNECT ON INVERTER (NEAR MSP) NON RAPID SHUT DOWN MODULES AC DISCONNECT MAIN SERVICE PANEL "YOU ARE HERE" INVERTER 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-2A OPTIMIZER CHART 2110 W 7th St - 2017778512/28/22 MSP AC INV JB AC INV SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-3 ARRAY LAYOUT 2" X 4" RAFTERS @ 24" O.C MODULE DETAILS SCALE: 1/2" = 1'-0" 2 ROOF PLAN WITH MODULES LAYOUT SCALE: 3/32" = 1'-0" 1 (N)UNIRAC SOLARMOUNT STANDARD RAIL (N)CONDUIT RUN: 3/4" EMT (N)ROOF MOUNTS EVERY 72" O.C MAX (N)JUNCTION BOX (UNDER ARRAY) ADDITIONAL NOTES: · FINAL LOCATION OF ALL CONDUIT AND JUNCTION BOXES TO BE DETERMINED AT TIME OF INSTALLATION. · CONDUIT TO BE PAINTED TO MATCH EXTERIOR OF RESIDENCE WHERE APPLICABLE AND IS TO BE SUPPORTED EVERY 10' MAX. · 30" WIDE X 36" DEEP WORKING SPACE CLEARANCES REQUIRED ABOUT ALL ELECTRICAL EQUIPMENT. · STAGGER PENETRATIONS TO EVENLY DISTRIBUTE LOAD ACROSS ALL TRUSSES UNDER ARRAY. · ALL DIMENSIONS ARE APPROXIMATIONS. · DO NOT INSTALL INVERTER WHERE IT COULD BE EXPOSED TO DIRECT SUNLIGHT TO AVOID UNWANTED POWER REDUCTION DUE TO AN INCREASE IN THE INTERNAL TEMPERATURE OF THE INVERTER. CONSTRUCTION NOTES · ROOF PITCH: 20° · ROOF CLADDING: COMPOSITION SHINGLE · ROOF STRUCTURE: 2" X 4" RAFTERS @ 24" O.C O/C · MOUNTS ARE ON GRID SPACING, OCCURRING AT RAFTERS. · VERIFY RAFTER LOCATIONS IN FIELD. · REFER TO MODULE AND RACKING MFR'S INSTALL MANUALS. · MAX SPAN BETWEEN MOUNTS: 72" O.C. · PLUMBING AND MECHANICAL VENTS SHALL NOT BE COVERED BY SOLAR MODULES. · ALL FASTENERS STAINLESS STEEL U.O.N. (N)PV ARRAY AR-02 (222.38 SQ.FT.) (E)MAIN SERVICE PANEL (SOLAR POINT OF CONNECTION) (N)AC DISCONNECT SWITCH STRING 1 ROOF AREA STATEMENT ROOF MODULES QTY PITCH TRUE ORIENTATION 1 9 20°270° PV-4 1 SPECS: L : 76.4" W : 41.3" D : 1.38" 49.6 LBS CANADIAN SOLAR (CSI) CS3N-395MS (395W) 76.4" 41.3" 1.38" 20° (N)SOLAR EDGE SE3800H-US (240V) [SI1-JUN20]-RGM INVERTER W/ INTEGRATED DC DISCONNECT (SOUTH WALL) NORTH (E)7 LG310N1C MODULES (E)7 BP3230T-230W MODULES (E)AC DISCONNECT SWITCH (E)INVERTER 4'-6" 1'-7" 9'-1" 13'-9" This item has been digitally signed and sealed on Oct 14, 2022 (N)PV ARRAY AR-01 20°180°12 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-5 SINGLE LINE DIAGRAM NOTES: · CONDUTORS ON ROOF MUST BE SUNLIGHT RESISTANT, 90°C RATED AND SUITABLE FOR WET LOCATIONS. · SEE RACKING SPEC SHEETS FOR RACKING EQUIPMENT GROUNDING METHOD. · ALL GROUNDING CONDUCTORS MUST BE PROTECTED FROM DAMAGE IF NOT INSTALLED IN CONDUIT. · ALL WIRING MUST BE PROPERLY SUPPORTED BY DEVICES OR MECHANICAL MEANS DESIGNED AND LISTED FOR SUCH USE. WIRING MUST BE PERMANENTLY AND COMPLETELY HELD OFF OF THE ROOF. · ALL DEVICES USED FOR BONDING FRAMES OF MODULES OR OTHER EQUIPMENT TO THE GROUNDING SYSTEM MUST BE LISTED AND IDENTIFIED FOR THE PURPOSE. · SOLAREDGE OPTIMIZERS ARE TO BE BONDED TO RACKING BY USING EITHER AN OPTIMIZER ATTACHMENT KIT OR A SOLAREDGE GROUNDING PLATE. (SEE SPEC SHEETS). · ALL CONDUCTORS SHALL BE COPPER. · ALL ROOFTOP RACEWAYS SHALL BE INSTALLED A>=7/8" ABOVE ROOF. · INTEGRATED GROUNDING IN ACCORDANCE WITH THE RACKING MANUFACTURER INSTALLATION INSTRUCTIONS CAN ONLY BE USED FOR BONDING THE MODULES TO THE RACKING WHERE THE SPECIFIC MODULE CATALOG NUMBER HAS BEEN TESTED TO UL2703 STANDARDS BY AN ACCREDITED NRTL. WHERE THE MODULE CATALOG NUMBER IS NOT PART OF THE RACKING SYSTEM APPROVED MODULE LIST, BOND ALL MODULES AND ALL RAILS USING A UL2703 LISTED LAY-IN LUG SUCH AS ILSCO GBL-4DBT. 3.950 kW (DC) SOLAR ARRAY: (10)CANADIAN SOLAR (CSI) CS3N-395MS (395W) WITH (10)SOLAREDGE POWER OPTIMIZERS: P401 WITH (1)SOLAREDGE WAVE 3.8KW INVERTER: SE3800H-US (240V) [SI1-JUN20]-RGM (1) STRING OF (10) MODULES UTILITY METER 200AMP 2-POLE MAIN BREAKER N G 3/4" EMT OR EQUIVALENT (ON ROOF, UNDER EAVES) (2) #10 AWG THWN-2 CONDUCTORS (1) #8 AWG THWN-2 GROUND CONDUCTORS EXPOSED TO FREE AIR (2)#10 AWG PV-WIRE 600V/RHW-2 (1)#6 AWG BARE COPPER GROUND WIRE IN CONDUIT CAN BE #8 AWG THWN-23/4" EMT OR EQUIVALENT (2)#8 AWG THWN-2 CONDUCTORS (1)#8 AWG THWN-2 NEUTRAL (1)#8 AWG THWN-2 GROUND AC DISCONNECT (WITHIN 10' OF MSP) NEMA TYPE 3R UL LISTED JUNCTION BOX AR-02 (10)CANADIAN SOLAR (CSI) CS3N-395MS (395W) IN (1) STRING OF (10)MODULES AT (20°) PITCH AND (270°) ORIENTATION 120/240 VAC SERVICE EXISTING 200A MAIN SERVICE PANEL W/ 200A MAIN BREAKER. INSTALL NEW 20A 2-POLE PV BREAKER AT END OF BUS BAR. MAIN SERVICE PANEL IS NOT CENTER FED. AC OUT DC IN NOTE: INTEGRATED DC DISCONNECT IS INSTALLED WITH RAPID SHUTDOWN DEVICE BY MANUFACTURER IN COMPLIANCE WITH NEC 690.12. (10)SOLAREDGE: P401 DC OPTIMIZERS NEW SQUARE D DU221RB 30A, 240V, 2P NON-FUSED, NEMA 3R ENCLOSURE (OR EQUIV.) SOLAREDGE TECHNOLOGIES: SE3800H-US (240V) [SI1-JUN20]-RGM GRID TIED 2-POLE 3800 WATTS INVERTER AC MAX OUTPUT CURRENT OF 16A MAX OUTPUT CURRENT 12.99A 1.56 MULTIPLE CONDUCTOR FACTOR 1.0 TEMP CORRECTION FACTOR 0.71 AMPACITY OF # WIRE (THWN-2 @ 90 °C) 40 MAXIMUM AMPACITY 12.99A * 1.56 = A < 40A CONTINUOUS DUTY AND HIGH IRIDESCENCE FACTOR DC AMPACITY CALCULATION 40 * 1.0 * 0.71 = A > 12.99A ADJUSTED AMPACITY INVERTER OUTPUT CURRENT 16A CONTINUOUS DUTY FACTOR 1.25 MULTIPLE CONDUCTOR FACTOR 1.0 TEMP CORRECTION FACTOR 0.88 AMPACITY OF #8 WIRE (USE 75°)50A MAXIMUM AMPACITY 16A * 1.25 = 20.0A < 50A ADJUSTED AMPACITY INVERTER OCPD RATING AC AMPACITY CALCULATION FOR 3.8KW INVERTER 50A * 0.88 = 44.0A > 16A 20A (E)UFER #4 AWG CU GEC 10 A 20.26 28.4 AR-01 & AR-02 (7)LG315N1C MODULES & (7)BP3230T-230W MODULES AT (20°) PITCH AND (180° & 270°) ORIENTATION EXISTING (E)AC DISCO SUNNY BOY SB3000 TL (N)20A/20A QUAD 2 POLE BREAKER COMMON TRIP 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-5A ELEVATION (N)INVERTER (N)AC DISCONNECT (E)MAIN SERVICE PANEL (N)MODULES ELEVATION SCALE: 3/8" = 1'-0"1 (E)INVERTER (E)AC DISCONNECT (E)MODULES (E)MODULES (N)MODULE 2110 W 7th St - 2017778512/28/22 SHEET: DRAFTER SIGNATURE PROJECT ADDRESS: REVISION # DATE: 10/14/2022 DRAWING TYPE PENGUIN HOME SOLUTIONS ESTEVAN, RAMIREZ 2110 W 7TH STREET, (000)000-0000 21860 VAN BUREN BLVD, BLDG 11, SUITE 101, RIVERSIDE, CA 92518 (888)488 8001 LICENSE#: C-10 1033658 SANTA ANA, CA 92703 PV-7 PLACARDS WARNING WARNING INVERTER OUTPUT CONNECTION. DO NOT RELOCATE THIS OVERCURRENT DEVICE. NEC SECTION LOCATION OF LABEL LABEL TEXT AND APPERANCE NEC SECTION LOCATION OF LABEL LABEL TEXT AND APPERANCE 690.54 ALL INTERACTIVE SYSTEM(S) POINTS OF INTERCONNECTION WITH OTHER SOURCES SHALL BE MARKED AT AN ACCESSIBLE LOCATION AT THE DISCONNECTING MEANS AS A POWER SOURCE AND WITH THE RATED AC OUTPUT CURRENT AND THE NOMINAL OPERATING AC VOLTAGE. 690.56(B) 690.4(D) 705.10 A PERMANENT PLAQUE OR DIRECTORY SHALL BE INSTALLED AT EACH SERVICE EQUIPMENT LOCATION, OR AT AN APPROVED READILY VISIBLE LOCATION. THE PLAQUE OR DIRECTORY SHALL DENOTE THE LOCATION OF EACH POWER SOURCE DISCONNECTING MEANS FOR THE BUILDING OR STRUCTURE AND BE GROUPED WITH OTHER PLAQUES OR DIRECTORIES FOR OTHER ON-SITE SOURCES. THE PLAQUE OR DIRECTORY SHALL BE MARKED WITH THE WORDING “C UTION: MULTIPLE SOURCES OF POWER͘” NY POSTED DIAGRAMS SHALL BE CORRECTLY ORIENTED WITH RESPECT TO THE DIAGRAM'S LOCATION. THE MARKING SHALL COMPLY WITH 110.21(B). 690.13(B) 690.15 705.20 EACH PV SYSTEM DISCONNECTING MEANS SHALL PLAINLY INDICATE WHETHER IN THE OPEN (OFF) OR CLOSED (ON) POSITION AND BE PERMANENTLY MARKED: “PV SYSTEM DISCONNECT” OR EQUIVALENT. 690.53 A PERMANENT READILY VISIBLE LABEL INDICATING THE HIGHEST MAXIMUM DC VOLTAGE IN A PV SYSTEM, CALCULATED IN ACCORDANCE WITH 690.7, SHALL BE PROVIDED BY THE INSTALLER AT ONE OF THE THREE LOCATIONS. 690.31 (D)(2) UNLESS THE PURPOSE IS EVIDENT, THE FOLLOWING WIRING METHODS AND ENCLOSURES THAT CONTAIN PV SYSTEM DC CIRCUIT CONDUCTORS SHALL BE MARKED: (1) EXPOSED RACEWAYS, CABLE TRAYS, AND OTHER WIRING METHODS (2) COVERS OR ENCLOSURES OF PULL BOXES AND JUNCTION BOXES (3) CONDUIT BODIES IN WHICH ANY OF THE AVAILABLE CONDUIT OPENINGS ARE UNUSED SOLAR PV SYSTEM EQUIPPED WITH RAPID SHUTDOWN TURN RAPID SHUTDOWN SWITCH TO THE "OFF" POSITION TO SHUTDOWN PV SYSTEM AND REDUCE SHOCK HAZARD IN ARRAY SOLAR ELECTRIC PV PANELS WHERE ALL TERMINALS OF THE DISCONNECTING MEANS MAY BE ENERGIZED IN THE OPEN POSITION, A WARNING SIGN SHALL BE MOUNTED ON OR ADJACENT TO THE DISCONNECTING MEANS. 690.13(B) 690.15(C) 705.12 (B)(3)(2) 705.12 (B)(3)(3) 690.56 (C) A PERMANENT WARNING LABEL SHALL BE APPLIED TO THE DISTRIBUTION EQUIPMENT ADJACENT TO THE BACK-FED BREAKER FROM THE INVERTER. PHOTOVOLTAIC SYSTEM AC DISCONNECT PERMANENT WARNING LABELS SHALL BE APPLIED TO DISTRIBUTION EQUIPMENT (2)A RAPID SHUTDOWN SWITCH SHALL HAVE A LABEL LOCATED ON OR NO MORE THAN 3 FT FROM THE SWITCH THAT INCLUDES THIS WORDING. THE LABEL SHALL BE REFLECTIVE, WITH ALL LETTERS CAPITALIZED AND HAVING A MINIMUM HEIGHT OF 3/8 IN., IN WHITE ON RED BACKGROUND . BUILDINGS WITH PV SYSTEMS SHALL HAVE A PERMANENT LABEL LOCATED AT EACH SERVICE EQUIPMENT LOCATION TO WHICH THE PV SYSTEMS ARE CONNECTED OR AT AN APPROVED READILY VISIBLE LOCATION AND SHALL INDICATE THE LOCATION OF RAPID SHUTDOWN INITIATION DEVICES. THE LABEL SHALL INCLUDE A SIMPLE DIAGRAM OF A BUILDING WITH A ROOF AND SHALL INCLUDE THE FOLLOWING WORDS: THE TITLE “SOLAR PV SYSTEM IS EQUIPPED WITH RAPID SHUTDOWN” SHALL UTILIZE CAPITALIZED CHARACTERS WITH A MINIMUM HEIGHT OF 3/8 IN. IN BLACK ON YELLOW BACKGROUND, AND THE REMAINING CHARACTERS SHALL BE CAPITALIZED WITH A MINIMUM HEIGHT OF 3/16 IN. IN BLACK ON WHITE BACKGROUND. MAXIMUM AC OPERATING CURRENT: NOMINAL OPERATING AC VOLTAGE: 240 VOLTS RAPI' SHUT'OWN SWIT&H )OR SOLAR P 9 S<STEM WARNING THIS EQUIPMENT FED BY MULTIPLE SOURCES. TOTAL RATING OF ALL OVERCURRENT DEVICES EXCLUDING MAIN SUPPLY OVERCURRENT DEVICE SHALL NOT EXCEED AMPACITY OF BUSBAR. ELECTRICAL SHOCK HAZARD TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION PHOTOVOLTAIC DC DISCONNECT MAIN PHOTOVOLTAIC SYSTEM DISCONNECT MAXIMUM DC VOLTAGE OF PV SYSTEM SOLAR PV DC CIRCUIT PHOTOVOLTAIC POWER SOURCE (1)BUILDING WITH MORE THAN ONE RAPID SHUTDOWN TYPE. FOR BUILDINGS THAT HAVE PV SYSTEMS WITH BOTH RAPID SHUTDOWN TYPES OR A PV SYSTEM WITH A RAPID SHUTDOWN TYPE AND PV SYSTEM WITH NO RAPID SHUTDOWN, A DETAILED PLAN VIEW DIAGRAM OF THE ROOF SHALL BE PROVIDED SHOWING EACH DIFFERENT PV SYSTEM AND DOTTED LINE AROUND AREAS THAT REMAIN ENERGIZED AFTER THE RAPID SHUTDOWN SWITCH IS OPERATED. PHOTOVOLTAIC AC DISCONNECT CAUTION: MULTIPLE SOURCES OF POWER WITH DISCONNECTS LOCATED AS SHOWN N W 7TH STREET  NE& LA%ELING RE4UIREMENTS 16 AMPS MSP AC INV JB AC INV PV AC DISCONNECT SWITCH PV DC DISCONNECT ON INVERTER (NEAR MSP) NON RAPID SHUT DOWN MODULES AC DISCONNECT MAIN SERVICE PANEL "YOU ARE HERE" INVERTER 2110 W 7th St - 2017778512/28/22 SOLARMOUNT is the professionals’ choice for residential PV mounting applications. Every aspect of the system is designed for an easier, faster installation experience. SOLARMOUNT is a complete solution with revolutionary universal clamps, FLASHKIT PRO, full system UL 2703 certification and 25-year warranty. Not only is SOLARMOUNT easy to install, but best-in-class aesthetics make it the most attractive on any block! THE PROFESSIONALS’ CHOICE FOR RESIDENTIAL RACKING BEST INSTALLATION EXPERIENCE • CURB APPEAL • COMPLETE SOLUTION • UNIRAC SUPPORT NOW FEATURING FLASHKIT PRO The Complete Roof Attachment Solution NOW WITH UNIVERSAL MIDCLAMPS Accommodates 30mm-51mm module frames One tool, one-person installs are here! REVOLUTIONARY NEW ENDCLAMPS Concealed design and included End Caps SOLARMOUNT CONCEALED UNIVERSAL CLAMPS OPTIONAL FRONT TRIM New & Improved: THE PROFESSIONALS’ CHOICE With Superior Aesthetics FEATURING TECHNOLOGY 25 YEAR FULL-SYSTEM WARRANTY UNIRAC CUSTOMER SERVICE MEANS THE HIGHEST LEVEL OF PRODUCT SUPPORT ENGINEERING EXCELLENCE UNMATCHED EXPERIENCE PERMIT DOCUMENTATION DESIGN TOOLS CERTIFIED QUALITY BANKABLE WARRANTY BETTER DESIGNS TRUST THE INDUSTRY’S BEST DESIGN TOOL Start the design process for every project in our U-Builder on-line design tool. It’s a great way to save time and money. BETTER SYSTEMS ONE SYSTEM - MANY APPLICATIONS Quickly set modules flush to the roof on steep pitched roofs. Orient a large variety of modules in Portrait or Landscape. Tilt the system up on flat or low slow roofs. Components available in mill, clear, and dark finishes to optimize your design financials and aesthetics. BETTER RESULTS MAXIMIZE PROFITABILITY ON EVERY JOB Trust Unirac to help you minimize both system and labor costs from the time the job is quoted to the time your teams get off the roof. Faster installs. Less Waste. More Profits. BETTER SUPPORT WORK WITH THE INDUSTRIES MOST EXPERIENCED TEAM Professional support for professional installers and designers. You have access to our technical support and training groups. Whatever your support needs, we’ve got you covered. Visit Unirac.com/solarmount for more information. UNIVERSAL SELF STANDING MIDCLAMPS U-BUILDER ONLINE DESIGN TOOL SAVES TIME & MONEY Visit design.unirac.com BANKABLE WARRANTY Dont leave your project to chance, Unirac has the financial strength to back our products and reduce your risk. Have peace of mind knowing you are providing products of exceptional quality. SOLARMOUNT is covered by a 25 year limited product warranty and a 5 year limited finish warranty. TECHNICAL SUPPORT Unirac’s technical support team is dedicated to answering questions & addressing issues in real time. An online library of documents including engineering reports, stamped letters and technical data sheets greatly simplifies your permitting and project planning process. CERTIFIED QUALITY PROVIDER Unirac is the only PV mounting vendor with ISO certifications for 9001:2008, 14001:2004 and OHSAS 18001:2007, which means we deliver the highest standards for fit, form, and function. These certifications demonstrate our excellence and commitment to first class business practices. UL2703BONDING & GROUNDING MECHANICAL LOADING SYSTEM FIRE CLASSIFICATIONL I S T E D SOLARMOUNT CONCEALED UNIVERSAL ENDCLAMPS END CAPS INCLUDED WITH EVERY ENDCLAMP ENHANCE YOUR REPUTATION WITH QUALITY RACKING SOLUTIONS BACKED BY ENGINEERING EXCELLENCE AND A SUPERIOR SUPPLY CHAIN PUB2016MAY16 - PRINTED UPDATE 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT INSTALLATION GUIDE PUB2022JAN27 TABLE OF CONTENTS A - PRO SERIES SYSTEM COMPONENTS B - SYSTEM LAYOUT C - CODE COMPLIANCE NOTES D - ROOF ATTACHMENT & L-FEET E - SPLICE F - THERMAL BREAK G - ATTACH RAIL TO L-FEET H - MICROINVERTER MOUNTING I - MICROINVERTER SYSTEM GROUNDING J - ELECTRICAL GROUNDING W/ ENPHASE MICRINVERTER FOR SPLICE & THERMAL BREAK K - STANDARD SYSTEM GROUNDING L - END CLAMP, FIRST MODULE M - BONDING MIDCLAMP N - REMAINING MODULES O - BONDING CONNECTION GROUND PATHS P - BONDING CONNECTION GROUND PATHS Q – TRIM AND END CAP INSTALLATION R – STANDARD SERIES SYSTEM COMPONENTS S – MODULE CAPABILITY T – ATTACH RAIL TO L-FEET U – ENDCLAMP & FIRST MODULE V – BONDING MIDCLAMP & TRIM W - REMAINING MODULES & TRIM X – TRIM RETROFIT INSTALLATION Y – BONDING CONNECTION GROUND PATHS Z – BONDING CONNECTION GROUND PATHS APPENDIX A : SYSTEM CERTIFICATION APPENDIX B: FLASHKIT PRO / FLASHLOC COMP / FLASHLOC DUO INSTALLATION APPENDIX C: UNIVERSAL AF CLAMP INSTALLATION GUIDE 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT INSTALLATION GUIDE PAGE Wrench or Socket Size Recommended Torque (ft-lbs) Mid Clamp 1/2”11 MLPE Mount 1/2”10 End Clamp 1/2”5 L-Foot to Rail 1/2”30 Rail Splice 1/2”10 Anti-Seize PRO SERIES SYSTEM COMPONENTS A       SM LIGHT RAIL SM STANDARD RAIL   RAIL: Supports PV modules. Use at least two per row of modules. Aluminum extrusion, available in mill, clear anodized, or dark anodized. RAIL SPLICE: Non structural splice joins, aligns, and electrically bonds rail sections into single length of rail. Forms a rigid splice joint, 4 inches long, preassembled with bonding hardware. Available in dark anodized or mill finish. L-FOOT: Use to secure rails through roofing material to building structure. Refer to loading tables or U-Builder for spacing. L-FOOT T- BOLT: (3/8” x ¾" or 1”) – Use one per L-foot to secure rail to L-foot. Stainless steel. Supplied with L-foot in combination with flange nut, provides electrical bond between L-foot and rail. SERRATED FLANGE NUT : Use one per L-foot to secure and bond rail to Lfoot. Stainless steel. Supplied with L-foot. MODULE ENDCLAMP: Pre-assembled universal clamp that secures module to rail at module flange by tightening 1/2" hex head bolt. MODULE MIDCLAMP: Pre-assembled clamp provides module to module and module to rail bond. Aluminum clamp with stainless steel bonding pins and T-bolt. Available in clear or dark finish. MICROINVERTER MOUNTING BOLT: Preassembled bolt, nut, and captive star washer attaches and bonds microinverter to rail. NOTE - POSITION INDICATOR: T-bolts have a slot in the hardware end corresponding to the direction of the T-Head. Wrenches and Torque  Stainless steel hardware can seize up, a process called galling. To significantly reduce its likelihood: 1. Apply minimal lubricant to bolts only where indicated in installation process, preferably Anti-Seize commonly found at auto parts stores (Anti-seize has been factory applied to mid clamp bolts) 2. Shade hardware prior to installation, and 3. Avoid spinning stainless nuts onto bolts at high speed.  See Appendix C for Universal AF Installation* See Appendix C for Universal AF Installation*2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT INSTALLATION GUIDE PAGE PLANNING YOUR SOLARMOUNT INSTALLATIONS The installation can be laid out with rails parallel to the rafters or perpendicular to the rafters. Note that SOLARMOUNT rails make excellent straight edges for doing layouts. Center the installation area over the structural members as much as possible. Leave enough room to safely move around the array during installation. Some building codes and fire codes require minimum clearances around such installations, and the installer should check local building code requirements for compliance. The length of the installation area is equal to: Standard Series: • the total width of the modules, • plus 1/4” inch for each space between modules (for mid- clamp), • plus approximately 3" ( 1½ inches for each Endclamp) Pro Series: • the total width of the modules, • plus 1” inch for each space between modules (for mid- clamp), • plus 0 to 1" ( 0 to ½ inches for each Endclamp) Peak (Ridge) Ea v e Gutter LOW PROFILE MODE HIGH PROFILE MODE 1½-1¾” Foot spacing / Rail Span “L” Rafters (Building Structure) Note: Modules should be positioned so that rails are flush with edge of module or extending no more than 1/2" beyond edge of module. The modules should not extend past (overhang) the ends of rails. SYSTEM LAYOUT RAILS MAY BE PLACED PARALLEL OR PERPENDICULAR TO RAFTERS LAYING OUT L-FEET FOR TOP CLAMPS L-feet, in conjunction with proper flashing equipment and techniques, can be used for attachment through existing roofing material, such as asphalt shingles, sheathing or sheet metal to the building structure. Locate and mark the position of the L-feet lag screw holes within the installation area as shown below. Follow manufacturer module installation guide for rail spacing based on appropriate mounting locations NOTE: FOR EXPANSION JOINT REQUIREMENTS, REFER TO PAGE F. RAIL LENGTHS AND LOCATIONS OF L-FEET FOR EXPANSION JOINTS WILL NEED TO BE DETERMINED AT THIS STAGE IN PLANNING SYSTEM LAYOUT. If multiple rows are to be installed adjacent to one another, it is not likely that each row will be centered above the rafters. Adjust as needed, following the guidelines below as closely as possible. Refer to Unirac Solarmount D&E Guide & U-Builder for allowable spans and cantilevers. LAYOUT WITH RAILS PERPENDICULAR TO RAFTERS (RECOMMENDED) Ea v e Overhang 33% L max   • •  Lower Roof Edge • • Rail B 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT INSTALLATION GUIDE PAGE SYSTEM LEVEL FIRE CLASSIFICATION The system fire class rating requires installation in the manner specified in the SOLARMOUNT Installation Guide. SOLARMOUNT has been classified to the system level fire portion of UL2703. SOLARMOUNT has achieved system level performance for steep sloped roofs. System level fire performance is inherent in the SOLARMOUNT design, and no additional mitigation measures are required. The fire classification rating is only valid on roof pitches greater than 2:12 (slopes ≥ 2 inches per foot, or 9.5 degrees). The system is to be mounted over fire resistant roof covering rated for the application. There is no required minimum or maximum height limitation above the roof deck to maintain the system fire rating for SOLARMOUNT. Module Types & System Level Fire Ratings are listed below: UL2703 CERTIFICATION MARKING LABEL Unirac SOLARMOUNT is listed to UL 2703. Certification marking is embossed on all mid clamps as shown. Labels with additional information will be provided . After the racking system is fully assembled, a single label should be applied to the SOLARMOUNT rail at the edge of the array. Before applying the label, the corners of the label that do not pertain to the system being installed must be removed so that only the installed system type is showing. Note: The sticker label should be placed such that it is visible, but not outward facing. SM STANDARD RAIL SM LIGHT RAIL CODE COMPLIANCE NOTES Rail Type Module Fire Types System Level Fire Rating Rail Direction Module Orientation Mitigation Required Standard Rail 1, 2, 3 w metal frame, 10 w metal frame, 19, 22, 25, 29, & 30 Class A, Class B & Class C East-West Landscape OR Portrait None Required North-South Landscape OR Portrait None Required Light Rail 1 & 2 Class A, Class B & Class C East-West Landscape OR Portrait None Required North-South Landscape OR Portrait None Required C This racking system may be used to ground and/or mount a PV module complying with UL1703 or UL61730 only when the specific module has been evaluated for grounding and/or mounting in compliance with the included instructions. 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT INSTALLATION GUIDE PAGE EXPANSION JOINT USED AS THERMAL BREAK Expansion joints prevent buckling of rails or system failure due to thermal ex- pansion. Determine location of expansion joints prior to installation of L-feet and rails. To create a thermal expansion joint, set gap between rails that is sufficient for proper installation of end clamps and tooling to achieve required torque. A thermal break is required when a continuous length of spliced rails exceeds the length, in feet, shown in the table to the right. For additional concerns on thermal breaks in your specific project, please consult a licensed structural engineer. Rails in expansion joint configurations are considered cantilevered and must fol- low the cantilever rule, on both sides of the expansion joint, which states that the maximum amount of rail that can be cantilevered is 1/3 the respective adjacent span. An expansion joint must not be spanned by a PV module. Installing a mod- ule over an expansion joint would defeat the goal of a thermal break and could result in damage to the array. Bonding connection for splice used as a thermal break. Option shown uses two Ilsco lugs (Model No. GBL-4DBT P/N GBL-4DBT - see product data sheet for more details) and solid copper wire. Optional grounding may be achieved through Enphase MI. See PG. J. THERMAL BREAK F Œ   Ž Maximum Continuous Length (ft.) of Spliced Rails Solarmount Standard Solarmount Light Attachment Span Attachment Span ∆T (°F)48"72"48"72" 0-40 86 105 70 81 40-50 70 93 62 81 50-60 70 81 54 69 60-70 62 69 54 69 70-80 54 69 46 57 80-90 54 69 46 57 90-100 54 57 46 57 100-120 46 57 38 45 120-140 38 45 38 45 The values displayed are the maximum allowed rail length, in feet, without a ther- mal break. These values apply only to the Flashkit Pro L-foot. For Flashloc Comp Mount, or if your span is less than 48”, refer to the Solarmount Design & Engineering Guide for max lengths of continuous rail before a thermal break is required. The installer is responsible for determining the maximum temperature difference (ΔT) used to establish the maximum rail length, without expansion joint, at the install location. As spans increase, so does the maximum reaction force that the rail exerts on the L-foot. It is the responsibility of the installer to ensure that Maximum Reaction Force does not exceed the shear capacity of the roof connection. See SM Design and Engineering Guide for corresponding reaction forces. ΔT refers to the maximum difference in the temperature of the rail between instal- lation and the extreme high or low temperature. The Extreme Annual Design Con- ditions table at the following url can be used as a reference when determining ΔT. http://ashrae-meteo.info/ 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT INSTALLATION GUIDE PAGE Aluminum mid clamp with stainless steel bonding pins that pierce module frame anodization to bond module to module through clamp Stainless steel nut bonds aluminum clamp to stainless steel T-bolt Serrated T-bolt head penetrates rail anodization to bond T-bolt, nut, clamp, and modules to SM rail BONDING MIDCLAMP ASSEMBLY BONDING MIDCLAMP ASSEMBLY BONDING RAIL SPLICE BAR BONDING MICROINVERTER MOUNT RAIL TO L-FOOT w/BONDING T-BOLT RAIL TO L-FOOT w/BONDING T-BOLT BONDING RAIL SPLICE BAR RACK SYSTEM GROUND MOD U L E FRA M E BONDING CONNECTION GROUND PATHS O Bonding Hardware creates bond between splice bar and each rail section Aluminum splice bar spans across rail gap to create rail to rail bond. Rail on at least one side of splice will be grounded. Note: Splice bar and bolted connection are non-structural. The splice bar function is rail alignment and bonding. Serrated flange nut removes L-foot anodization to bond L-Foot to stainless steel T-bolt Serrated T-bolt head penetrates rail anodization to bond T-bolt, nut, and L-foot to grounded SM rail Hex nut with captive lock washer bonds metal microinverter flange to stainless steel T-bolt Serrated T-bolt head penetrates rail anodization to bond T-bolt, nut, and L-foot to grounded SM rail System ground including racking and modules may be achieved through the trunk cable of approved microinverter systems. See page J for details WEEB washer dimples pierce anodized rail to create bond between rail and lug Solid copper wire connected to lug is routed to provide final system ground connection. NOTE: Ilsco lug can also be used when secured to the side of the rail. See page K for details WEEBLUG (OR ILSCO LUG) SM R A I L SM R A I L SM R A I L SM R A I L SM R A I L SM R A I L SM R A I L SM R A I L MOD ULE FRAM E BOND I NG T- B O L T 2 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 3 3 BOND I NG H A R D W A R E SPLI C E BAR SM RAIL MICRO- I NVERT E R FLAN GE SERRATED FLANG E N U T L-FO OT BONDI N G T-BOLT 1 SEE NOTESEE NOTE HEX NUT W/ CAPTIVE LOCK WASHER BONDING T-BOLT SOLI D COP P E R W I RE BONDING MICROINVERTER MOUNT BONDING MIDCLAMP ASSEMBLY RACK SYSTEM GROUND Note: Note: Only one lug per module row requiredOnly one lug per module row required 3 A B C D E B A C DE Option 1: Ground Through Enphase Trunk Cable Option 2: Ground Lug w/ Bare Copper Wire 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT INSTALLATION GUIDE PAGE Stainless steel Midclamp points, 2 per module, pierce module frame anodization to bond module to module through clamp. Serrated flange nut bonds stainless steel clamp to stainless steel T-bolt Serrated T-bolt head penetrates rail anodization to bond T-bolt, nut, clamp, and modules to grounded SM rail. BONDING MIDCLAMP ASSEMBLY ENDCLAMP ASSEMBLY BONDING MICROINVERTER MOUNT RAIL TO L-FOOT w/BONDING T-BOLT BONDING RAIL SPLICE BAR RACK SYSTEM GROUND Serrated flange nut bonds aluminum Endclamp to stainless steel T-bolt Serrated T-bolt head penetrates rail anodization to bond T-bolt, nut, and Endclamp to grounded SM rail Note: End clamp does not bond to module frame. MODU L E F R A M E MOD U L E F RAME BONDING CONNECTION GROUND PATHS Y Hex nut with captive lock washer bonds metal microinverter flange to stainless steel T-bolt Serrated T-bolt head penetrates rail anodization to bond T-bolt, nut, and L-foot to grounded SM rail System ground including racking and modules may be achieved through the trunk cable of approved microinverter systems. See page J for details WEEB washer dimples pierce anodized rail to create bond between rail and lug Solid copper wire connected to lug is routed to provide final system ground connection. NOTE: Ilsco lug can also be used when secured to the side of the rail. See page K for details WEEBLUG (OR ILSCO LUG) SM R A I L SM R A I L SM R A I L SM R A I L SM R A I L SM R A I L SM R A I L SM R A I L MODULE F RAME BOND I N G T - B O L T 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 3 3 BONDING T-BOL T SERRATED NUT SPLI CE BAR SM RA I L MICRO- I NVERT E R FLAN GE SEE NOTESEE NOTE HEX NUT W/ CAPTIVE LOCK WASHER BONDING T-BOLT SOLI D CO P P E R WIRE BONDING MICROINVERTER MOUNT EN D C L A M P A S S E M B L Y BO N D I N G M I D C L A M P AS S E M B L Y RA C K S Y S T E M G R O U N D Note: Only one lug per module row required BONDING HARD W A R E A C B D E F A B D C EF Gr o u n d L u g w / B a r e C o p p e r W i r e Gr o u n d L u g w / B a r e C o p p e r W i r e BONDING RAIL SPLICE BAR Bonding Hardware creates bond between splice bar and each rail section Aluminum splice bar spans across rail gap to create rail to rail bond. Rail on at least one side of splice will be grounded. Note: Splice bar and bolted connection are non-structural. The splice bar function is rail alignment and bonding. 2 1 RAIL TO L-FOOT w/BONDING T-BOLT Serrated flange nut removes L-foot anodization to bond L-Foot to stainless steel T-bolt Serrated T-bolt head penetrates rail anodization to bond T-bolt, nut, and L-foot to grounded SM rail SM R A I L SM R A I L 2 2 1 SERRATED FLANG E N U T L-FO OT BONDING T-BOLT 1 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT System Certification PAGE APPENDIX A A The SOLARMOUNT system has been certified and listed to the UL 2703 standard (Rack Mounting Systems and Clamping Devices for Flat-Plate Photovoltaic Modules and Panels). This standard included electrical grounding, electrical bonding, mechanical load and fire resistance testing. In conducting these tests, specific modules are selected for their physical properties so that the certifications can be broadly applied. The following lists the specific modules that were tested and the applicability of those certifications to other modules that might come onto the market. PV modules may have a reduced mechanical load rating, independent of the SM load rating. Please consult the PV module manufacturer's installation guide for more information. In addition to UL 2703 certification, Unirac performs internal testing beyond the requirements of certification tests in order to establish system functional limits, allowable loads, and factors of safety. These tests include functional system tests, and destructive load testing. Mechanical Load Test Modules System Level Fire Classification The modules selected for UL 2703 mechanical load testing were selected to represent the broadest range possible for modules on the market. The tests performed cover the following basic module parameters: The system fire class rating requires installation in the manner specified in the SOLARMOUNT Installation Guide. SOLARMOUNT has been classified to the system level fire portion of UL2703. Class A system level fire performance is inherent in the SOLARMOUNT design, and no additional miti-gation measures are required. The fire classification rating is only valid on roof pitches greater than 2:12 (slopes ≥ 2 inches per foot, or 9.5 degrees). There is no required minimum or maximum height limitation above the roof deck to maintain the system fire rating for SOLARMOUNT. Module Types & System Level Fire Ratings are listed below: • Frame thicknesses greater than or equal to 1.0 mm •Basic single and double wall frame profiles (some complex frame profiles could require further analysis to determine applicability) • Clear and dark anodized aluminum frames Tested Modules Module Manufacturer Model/Series Area [sqft] UL2703 Certification Load Ratings Hyundai HiS-S325TI 21.06 Down– 113 PSF, Up – 50 PSF Down-Slope – 15 PSF SunPower SPR-P19-395-COM 22.20 Down– 113 PSF, Up – 50 PSF Down-Slope – 15 PSF First Solar FS-6xxx-P 27.12 Down– 33.9 PSF, Up – 33.9 PSF Down-Slope – 16.5 PSF Rail Type Module Fire Type System Level Fire Rating Rail Direction Module Orientation Mitigation Required Standard Rail 1, 2, 3 w metal frame, 10 w metal frame, 19, 22, 25, 29, & 30 Class A, B, & C East-West North-South Landscape OR Portrait None Required Light Rail 1 & 2 Class A, B, & C East-West North-South Landscape OR Portrait None Required 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT System Certification PAGE APPENDIX A B • Unless otherwise noted, all modules listed above include all wattages and specific models within that series. Variable wattages are represented as "xxx" • Items in parenthesis are those that may or may not be present in a compatible module's model ID • Slashes "/" between one or more items indicates that either of those items may be the one that is present in a module's model ID • The frame profile must not have any feature that might interfere with the bonding devices that are integrated into the racking system • Use with a maximum over current protection device OCPD of 30A • Listed models can be used to achieve a Class A fire system rating for steep slope applications. See Appendix A, page A Aleo P-Series & S-Series Aptos Solar DNA-120-(MF/BF)23 DNA-144-(MF/BF)23 DNA-120-(MF/BF)26 DNA-144-(MF/BF)26 Astronergy CHSM6612 M, M/HV CHSM6612P Series CHSM6612P/HV Series CHSM72M-HC Auxin AXN6M610T AXN6P610T AXN6M612T AXN6P612T Axitec AC-xxx(M/P)/60S, AC-xxx(M/P)/72S AC-xxxP/156-60S AC-xxxMH/120(S/V/SB/VB) AC-xxxMH/144(S/V/SB/VB) Boviet BVM6610, BVM6612 BYD P6K & MHK-36 Series Canadian Solar CS1(H/K/U/Y)-MS CS3K-(MB/MB-AG/MS/P/P HE/PB-AG) CS3L-(MS/P) CS3N-MS CS3U-(MB/MB-AG/MS/P/P HE/PB/PB-AG) CS3W-(MS/P/P-PB-AG) CS5A-M CS6K-(M/MS/MS AllBlack/P/P HE) CS6P-(M/P) Canadian Solar (cont.) CS6U-(M/P/P HE) CS6X-P, CSX-P ELPS CS6(A/P)-MM Centrosolar America C-Series & E-Series CertainTeed CT2xxMxx-01, CT2xxPxx-01, CTxxxMxx-01 CTxxxPxx-01, CTxxxMxx-02, CTxxxMxx-03 CTxxxMxx-04, CTxxxHC11-04 Eco Solargy Orion 1000 & Apollo 1000 ET Solar ET AC Module, ET Module First Solar FS-6XXX(A) FS-6XXX(A)-P, FS-6XXX(A)-P-I Flextronics FXS-xxxBB GCL GCL-P6 & GCL-M6 Series Hanwha SolarOne HSL 60 Hansol TD-AN3, TD-AN4 UB-AN1, UD-AN1 Heliene 36M, 36P 60M, 60P, 72M & 72P Series 144HC M6 HT Solar HT72-156(M/P) HT72-156P-C, HT72-156P(V)-C HT72-156M(PDV)-BF, HT72-156M(PD)-BF HT60-156M-C HT60-156M(V)-C Hyundai KG, MG, RW, TG, RI, RG, TI, KI, HI Series HiA-SxxxHG, HiD-SxxxRG(BK), HiS-S400PI ITEK iT-SE Series Japan Solar JPS-60 & JPS-72 Series JA Solar JAM72D30MB, JAM78D10MB JAP6 60-xxx JAM6(K)-60/xxx, JAP6(k)-72-xxx/4BB JAP72S##-xxx/** JAP6(k)-60-xxx/4BB, JAP60S##-xxx/** JAM6(k)-72-xxx/**, JAM72S##-xxx/** JAM6(k)-60-xxx/**, JAM60S##-xxx/** i. ##: 01, 02, 03, 09, 10 ii. **: SC, PR, BP, HiT, IB, MW, MR ** = Backsheet, ## Cell technology Jinko JKM & JKMS Series JKMxxxM-72HL-V JKMxxxM-72HL4-(T)V JKMxxxM-7RL3-V Kyocera KD-F & KU Series LA Solar LSxxxHC(166) LG Electronics LGxxx(E1C/E1K/N1C/N1K/N2T/N2W/S1C/ S2W/Q1C/Q1K)-A5 LGxxx(A1C/M1C/M1K/N1C/N1K/Q1C/Q1K/ QAC/QAK)-A6 LGxxxN2W-B3 LGxxxN2T-B5 LGxxxN1K-B6 LGxxx(N1C/N1K/N2T/N2W)-E6 LGxxx(N1C/N1K/N2W/S1C/S2W)-G4 LGxxxN2T-J5 LGxxx(N1K/N1W/N2T/N2W)-L5 LGxxx(M1C/N1C/Q1C/Q1K)-N5 LGxxx(N1C/N1K/N2W/Q1C/Q1K)-V5 LGxxxN3K-V6 Manufacture Module Model / Series Manufacture Module Model / Series Electrical Bonding and Grounding Test Modules The list below is not exhaustive of compliant modules but shows those that have been evaluated and found to be electrically compatible with the SOLARMOUNT system. Manufacture Module Model / Series 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT System Certification PAGE APPENDIX A C Manufacture Module Model / Series Manufacture Module Model / Series Electrical Bonding and Grounding Test Modules The list below is not exhaustive of compliant modules but shows those that have been evaluated and found to be electrically compatible with the SOLARMOUNT system. LONGi LR4-60(HPB/HPH) LR4-72(HPH) LR6-60 LR6-60(BK/HPB/HPH/HV/PB/PE/PH) LR6-72 LR6-72(BK/HV/PB/PE/PH) RealBlack LR4-60HPB RealBlack LR6-60HPB Mission Solar Energy MSE Mono, MSE Perc Mitsubishi MJE & MLE Series Neo Solar Power Co. D6M Series Panasonic VBHNxxxSA06/SA06B/SA11/SA11B VBHNxxxSA15/SA15B/SA16/SA16B, VBHNxxxKA, VBHNxxxKA03/04, VBHNxxxSA17/SA17G/SA17E/SA18/SA18E, VBHNxxxZA01/ZA02/ZA03/VBHNxxxZA04 EVPV Peimar SGxxxM (FB/BF) SMxxxM Phono Solar PSxxxM1-20/U PSxxxM1H-20/U PSxxxM1-20UH PSxxxM1H-20UH PSxxxM1-20/UH PSxxxM1H-20/UH PSxxxM-24/T PSxxxMH-24/T PSxxxM-24/TH PSxxxMH-24/TH Manufacture Module Model / Series Prism Solar P72 Series Q.Cells Plus, Pro, Peak, G3, G4, Peak G5(SC) , G6(+)(SC)(AC), G7, G8(+), Plus, Pro, Peak L-G2, L-G4, L-G5 Peak L-G5, L-G6, L-G7, L-G8(BFF) Q.PEAK DUO( BLK)-G6+ Q.PEAK DUO BLK-G6+/TS Q.PEAK DUO (BLK)-G7 Q.PEAK DUO L-(G7/G7.1/G7.2/G7.3/G7.7) Q.PEAK DUO (BLK) G8(+) Q.PEAK DUO L-(G8.1/G8.2/G8.3) Q.PEAK DUO L-G8.3 BFF Q.PEAK DUO (BLK) ML-G9(+) Q.PEAK DUO XL-(G9/G9.2/G9.3) Q.PEAK DUO BLK G10+ Q.PEAK DUO (BLK) ML-G10(+) Q.PEAK DUO XL-(G10/G10.2/G10.3/G10.c/ G10.d) Q.PEAK DUO XL-G10.3/BFG REC RECxxxAA (BLK/Pure) RECxxxNP (N-PEAK) RECxxxNP2 (Black) RECxxxPE, RECxxxPE72 RECxxxTP, RECxxxTP72 RECxxxTP2(M/BLK2) RECxxxTP2S(M)72 RECxxxTP3M (Black) RECxxxTP4 (Black) Renesola All 60-cell modules Risen RSM Series S-Energy SN72 & SN60 Series Seraphim SEG-(6PA/6PB/6MA/6MA-HV/6MB/E01/E11) SRP-(6QA/6QB) SRP-xxx-6MB-HV, SRP-320-375-BMB-HV, SRP-xxx-BMC-HV, SRP-390-450-BMA-HV, SRP-xxx-BMZ-HV, SRP-390-405-BMD-HV Sharp NU-SA & NU-SC Series Silfab SLA-M, SLA-P, SLG-M, SLG-P & BC Series SILxxx(BL/NL/NT/HL/ML/BK/NX/NU/HC) Solaria PowerXT-xxxR-(AC/PD/BD) PowerXT-xxxC-PD PowerXT-xxxR-PM (AC) Solartech STU HJT, STU PERC & Quantum PERC SolarWorld Sunmodule Protect, Sunmodule Plus/Pro Suniva MV Series & Optimus Series (35mm) SunPower AC, X-Series, E-Series & P-Series SPR E20 435 COM (G4 Frame) SunTech STP, STPXXXS - B60/Wnhb Sun Edison F-Series, R-Series Talesun TP572, TP596, TP654, TP660 TP672, Hipor M, Smart Tesla SC, SC B, SC B1, SC B2, TxxxS, TxxxH • Unless otherwise noted, all modules listed above include all wattages and specific models within that series. Variable wattages are represented as "xxx" • Items in parenthesis are those that may or may not be present in a compatible module's model ID • Slashes "/" between one or more items indicates that either of those items may be the one that is present in a module's model ID • The frame profile must not have any feature that might interfere with the bonding devices that are integrated into the racking system • Use with a maximum over current protection device OCPD of 30A • Listed models can be used to achieve a Class A fire system rating for steep slope applications. See Appendix A, page A 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT System Certification PAGE APPENDIX A D Manufacture Module Model / Series Electrical Bonding and Grounding Test Modules The list below is not exhaustive of compliant modules but shows those that have been evaluated and found to be electrically compatible with the SOLARMOUNT system. Trina PA05, PD05, DD05, DD06, DE06, DE09.05 PD14, PE14, DD14, DE14, DE15 DEG15HC.20(II), DEG15MC.20(II) DEG15VC.20(II), DE18M(II), DEG18MC.20(II) DE19, DEG19C.20 TSMC TS-150C2 CIGSw Upsolar UP-MxxxP, UP-MxxxM(-B) URECO D7Kxxx(H7A/H8A), D7Mxxx(H7A/H8A) FAKxxx(C8G/E8G), FAMxxxE7G-BB FAMxxxE8G(-BB), FBKxxxM8G Vikram Eldora, Somera, Ultima VSUN VSUNxxx-60M-BB, VSUNxxx-72MH VSUN4xx-144BMH Vina VNS-72M1-5-xxxW-1.5, VNS-72M3-5-xxxW-1.5, VNS-144M1-5-xxxW-1.5, VNS-144M3-5-xxxW-1.5, VNS-120M3-5-xxxW-1.0 Winaico WST & WSP Series Yingli YGE & YLM Series ZNShine Solar ZXM6-72 Series, ZXM6-NH144 ZXM6-NHLDD144 • Unless otherwise noted, all modules listed above include all wattages and specific models within that series. Variable wattages are represented as "xxx" • Items in parenthesis are those that may or may not be present in a compatible module's model ID • Slashes "/" between one or more items indicates that either of those items may be the one that is present in a module's model ID • The frame profile must not have any feature that might interfere with the bonding devices that are integrated into the racking system • Use with a maximum over current protection device OCPD of 30A • Listed models can be used to achieve a Class A fire system rating for steep slope applications. See Appendix A, page A 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT FLASHKIT PRO INSTALLATION PAGE APPENDIX B A INSTALL FLASHKIT PRO FLASHING STEP 1 STEP 2 STEP 3 INSTALL L-FOOT ATTACH L-FOOT TO RAIL PRE-INSTALL • Locate roof rafters and snap chalk lines to mark the installation point for each roof attachment. • Drill a 7/32” pilot hole at each roof attachment. Fill each pilot hole with sealant. STEP 1 INSTALL FLASHKIT PRO FLASHING • Add a U-shaped bead of roof sealant to the underside of the flashing with the open side of the U pointing down the roof slope. Slide the aluminum flashing underneath the row of shingles directly up slope from the pilot hole as shown. Align the indicator marks on the lower end of the flashing with the chalk lines on the roof to center the raised hole in the flashing over the pilot hole in the roof. When installed correctly, the flashing will extend under the two courses of shingles above the pilot hole. STEP 2 INSTALL L-FOOT • Fasten L-foot and Flashing into place by passing the included lag bolt and pre-installed stainless steel-backed EPDM washer through the L-foot EPDM grommet, and the raised hole in the flashing, into the pilot hole in the roof rafter. • Drive the lag bolt down until the L-foot is held firmly in place. It is normal for the EPDM on the underside of the stainless steel backed EPDM washer to compress and expand beyond the outside edge of the steel washer when the proper torque is applied. TIP: • Use caution to avoid over-torqueing the lag bolt if using an impact driver. • Repeat Steps 1 and 2 at each roof attachment point. STEP 3 ATTACH L-FOOT TO RAIL • Insert the included 3/8"-16 T-bolts into the lower slot on the Rail (sold separately), spacing the bolts to match the spacing between the roof attachments. • Position the Rail against the L-Foot and insert the threaded end of the T-Bolt through the continuous slot in the L-Foot. Apply anti-seize to bolt threads to prevent galling of the T-bolt and included 3/8” serrated flange nut. Place the 3/8” flange nut on the T-bolt and finger tighten. Repeat STEP 3 until all L-Feet are secured to the Rail with a T-bolt. Adjust the level and height of the Rail and torque each bolt to 30ft-lbs. 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT PAGE APPENDIX B B FLASHLOC COMP INSTALLATION STEP 1: SECURE Place FLASHLOC over pilot hole with lag on down-slope side. Align indicator marks on sides of mount with chalk line. Pass included lag bolt and sealing washer through FLASHLOC into pilot hole. Drive lag bolt until mount is held firmly in place. NOTE: The EPDM in the sealing washer will expand beyond the edge of the metal washer when proper torque is applied. PRE-INSTALL Snap chalk lines for attachment rows. On shingle roofs, snap lines 1-3/4” below upslope edge of shingle course. Locate rafters and mark attachment locations. At each location, drill a 7/32” pilot hole. Clean roof surface of dirt, debris, snow, and ice. Next, BACKFILL ALL PILOT HOLES WITH SEALANT. NOTE: Space mounts per racking system install specifications. STEP 2: SEAL Insert tip of UNIRAC provided sealant into port. Inject until sealant exits both vents. Follow sealant manufacturer’s instructions. Follow sealant manufacturer’s cold weather application guidelines, if applicable. Continue array installation, attaching rails to mounts with provided T-bolts. NOTE: When FLASHLOC is installed over gap between shingle tabs or vertical joints, fill gap/joint with sealant between mount and upslope edge of shingle course. USE ONLY UNIRAC APPROVED SEALANTS: Chemlink Duralink 50, Chemlink M-1, Geocel 4500, or Geocel S-4 SEALANT GAP 1.75" 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT PAGE APPENDIX B C FLASHLOC DUO INSTALLATION STEP ONE: SECURE ATTACHING TO A RAFTER: Place FLASHLOC DUO over rafter location and align upper edge of mount with horizontal chalk line. Secure mount with the two (2) provided rafter screws. BACKFILL ALL PILOT HOLES WITH SEALANT. ATTACHING TO SHEATHING: Place FLASHLOC DUO over desired location and align upper edge of mount with horizontal chalk line. Secure mount with the two (2) provided rafter screws. Next, secure mount with four (4) deck screws by drilling through the FLASHLOC DUO deck mount hole locations. Unirac recommends using a drill as opposed to an impact gun to prevent over-tightening or stripping roof sheathing. IMPORTANT: SECURELY ATTACH MOUNT BUT DO NOT OVERTIGHTEN SCREWS. STEP TWO: SEAL Insert tip of UNIRAC approved sealant into port and inject until sealant exits vent. Continue array installation, attaching rails to mounts with provided T-bolts. Follow sealant manufacturer's instructions. Follow sealant manufacturer's cold weather application guidelines, if applicable. NOTE: When FLASHLOC DUO is installed over gap between shingle tabs or vertical joints, fill gap/joint with sealant between mount and upslope edge of shingle course. CUT SHINGLES AS REQUIRED: DO NOT INSTALL THE FLASHLOC SLIDER ACCROSS THICKNESS VARIATIONS GREATER THAN 1/8" SUCH AS THOSE FOUND IN HIGH DEFINITION SHINGLES. NOTE: When installing included rail attachment hardware, torque T-bolt nut to 30 ft-lbs. NOTE: If an exploratory hole falls outside of the area covered by the sealant, flash hole accordingly. USE ONLY UNIRAC APPROVED SEALANTS. PLEASE CONTACT UNIRAC FOR FULL LIST OF COMPATIBLE SEALANTS. PRE-INSTALL CLEAN SURFACE AND MARK LOCATION Ensure existing roof structure is capable of supporting loads prescribed in Flashloc Duo D&E Guide. Clean roof surface of dirt, debris, snow and ice. Snap chalk lines for attachment rows. On shingle roofs, snap lines 1/4” below upslope edge of shingle coarse. This line will be used to align the upper edge of the mount. NOTE: Space mounts per span charts found in Flashloc Duo D&E Guide. 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT INSTALLATION GUIDE PAGE AAPPENDIX C ENDCLAMP 1. Position clamp to align T-bolt with rail slot. Lower clamp and Insert T-bolt into rail slot. 5. When the cap contacts the module frame, release and it will re-engage to the clamp base. 2. Rotate clamp clockwise 2/3 of a turn to engage T-bolt inside rail slot. 6. Tighten bolt and torque to 15 ft-lbs. 3. Place module at least 3/4” from end of rail and position clamp against module frame. 7. Confirm clamp is engaged in correct module height position and that the top of the cap is sitting level with the module frame. NOTE: When installing 46mm modules, loosen bolt by 1 turn before positioning clamp against module frame. Do not force clamp onto module frame as this may damage the bonding pin. 4. While applying pressure to hold the clamp against the module, push down on the module side of the clamp cap. 2110 W 7th St - 2017778512/28/22 SM SOLAR MOUNT INSTALLATION GUIDE PAGE BAPPENDIX C MIDCLAMP 1. Position clamp to align T-bolt with rail slot. Lower clamp and insert T-bolt into rail slot 5. Tighten bolt and torque to 15 ft-lbs. 2. Rotate clamp clockwise 2/3 of a turn to engage T-bolt inside rail slot. NOTE: If excessive force is applied in step 2, the cap may over-rotate causing it to be mis-aligned with the module frame. If this occurs, keep rotating the cap clockwise until it returns to the original position. 3. Slide clamp into position against module. 4. Place second module. 2110 W 7th St - 2017778512/28/22 LEGAL NOTICE DRAWING NOT TO SCALE ALL DIMENSIONS ARE NOMINAL PRODUCT PROTECTED BY ONE OR MORE US PATENTS SOLARMOUNT PART DETAIL 9/11/2017 STANDARD RAIL REVISION DATE: DRAWING TYPE: DESCRIPTION:SM - P 0 1 PRODUCT LINE: 1411 BROADWAY BLVD. NE ALBUQUERQUE, NM 87102 USA PHONE: 505.242.6411 WWW.UNIRAC.COM SHEET 2 9 16 " 1 4" BOLT LOCATION 3 8 " BOLT LOCATION PART # TABLE P/N DESCRIPTION LENGTH 320132M SM RAIL 132" MILL 132" 310132C SM RAIL 132" CLR 132" 320168M SM RAIL 168" MILL 168" 310168C SM RAIL 168" CLR 168" 320168D SM RAIL 168" DRK 168" 320208M SM RAIL 208" MILL 208" 310208C SM RAIL 208" CLR 208" 320240M SM RAIL 240" MILL 240" 310240C SM RAIL 240" CLR 240" 310240D SM RAIL 240" DRK 240" LEGAL NOTICE DRAWING NOT TO SCALE ALL DIMENSIONS ARE NOMINAL PRODUCT PROTECTED BY ONE OR MORE US PATENTS SOLARMOUNT PART DETAIL 9/11/2017 LIGHT RAIL REVISION DATE: DRAWING TYPE: DESCRIPTION: SM - P 0 2 PRODUCT LINE: 1411 BROADWAY BLVD. NE ALBUQUERQUE, NM 87102 USA PHONE: 505.242.6411 WWW.UNIRAC.COM SHEET PART # TABLE P/N DESCRIPTION LENGTH 315168M SM LIGHT RAIL 168" MILL 168" 315168D SM LIGHT RAIL 168" DRK 168" 315240M SM LIGHT RAIL 240" MILL 240" 315240D SM LIGHT RAIL 240" DRK 240" 1 11 16" 1 4 " BOLT LOCATION 3 8 " BOLT LOCATION 2110 W 7th St - 2017778512/28/22 2110 W 7th St - 2017778512/28/22 Simply drive the required number of screws and inject sealant into the port to create a permanent pressure seal. 4 FLASHLOC ™ DUO is the most versatile direct to deck and rafter attachment for composition shingle and rolled comp roofs. The all-in-one mount installs fast — no kneeling on hot roofs to install flashing, no prying or cutting shingles, no pulling nails. Simply drive the required number of screws to secure the mount and inject sealant into the base. FLASHLOC’s patented TRIPLE SEAL technology preserves the roof and protects the penetration with a permanent pressure seal. Kitted with two rafter screws, sealant and hardware for maximum convenience (deck screws sold separately). Don’t just divert water, LOC it out! FLASHLOC™DUO THE MOST VERSATILE DIRECT TO DECK ATTACHMENT PROTECT THE ROOF Install a high-strength waterproof attachment without lifting, prying or damaging shingles. LOC OUT WATER With an outer shield 1 contour-conforming gasket 2 and pressurized sealant chamber 3 the Triple Seal technology delivers a 100% waterproof connection. Cut Away View HIGH-SPEED INSTALL FASTER INSTALLATION. 25-YEAR WARRANTY. FOR QUESTIONS OR CUSTOMER SERVICE VISIT UNIRAC.COM OR CALL (505) 248-2702 3 2 1 4 4 Cut Away View JUNE2021_FLASHLOCDUO_V2 CuCuCuCuCuCuCuuuCuCCuuCCCCuCuCuCCCCCCCCCCCCCCCCttttt tttttttttttttt AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAwaawaawaaaawawaawaawaawwwwwwwwwwwyy y VieVieVieeeVieVieieVieVieVieVieieieViVieiViVVVVVVVVVwwwww 3333333333333333333333333333333333333333333333333333 2222222222222222222222222222222222222 11111111111111111 STEP ONE: SECURE ATTACHING TO A RAFTER: Place FLASHLOC DUO over rafter location and align upper edge of mount with horizontal chalk line. Secure mount with the two (2) provided rafter screws. BACKFILL ALL PILOT HOLES WITH SEALANT. ATTACHING TO SHEATHING: Place FLASHLOC DUO over desired location and align upper edge of mount with horizontal chalk line. Secure mount with the two (2) provided rafter screws. Next, secure mount with four (4) deck screws by drilling through the FLASHLOC DUO deck mount hole locations. Unirac recommends using a drill as opposed to an impact gun to prevent over-tightening or stripping roof sheathing. IMPORTANT: SECURELY ATTACH MOUNT BUT DO NOT OVERTIGHTEN SCREWS. PRE-INSTALL: CLEAN SURFACE AND MARK LOCATION Ensure existing roof structure is capable of supporting loads prescribed in Flashloc Duo D&E Guide. Clean roof surface of dirt, debris, snow and ice. Snap chalk lines for attachment rows. On shingle roofs, snap lines 1/4” below upslope edge of shingle coarse. This line will be used to align the upper edge of the mount. NOTE: Space mounts per span charts found in FLASHLOC DUO state certification letters. STEP TWO: SEAL Insert tip of UNIRAC approved sealant into port and inject until sealant exits vent. Continue array installation, attaching rails to mounts with provided T-bolts. Follow sealant manufacturer's instructions. Follow sealant manufacturer's cold weather application guidelines, if applicable. NOTE: When FLASHLOC DUO is installed over gap between shingle tabs or vertical joints, fill gap/joint with sealant between mount and upslope edge of shingle course. CUT SHINGLES AS REQUIRED: DO NOT INSTALL THE FLASHLOC SLIDER ACCROSS THICKNESS VARIATIONS GREATER THAN 1/8" SUCH AS THOSE FOUND IN HIGH DEFINITION SHINGLES. NOTE: When installing included rail attachment hardware, torque T-bolt nut to 30 ft-lbs. NOTE: If an exploratory hole falls outside of the area covered by the sealant, flash hole accordingly. NOTE: Read and comply with the Flashloc Duo Design & Engineering Guide prior to design and installation of the system. USE ONLY UNIRAC APPROVED SEALANTS. PLEASE CONTACT UNIRAC FOR FULL LIST OF COMPATIBLE SEALANTS. FLASHLOC™DUO INSTALLATION GUIDE FASTER INSTALLATION. 25-YEAR WARRANTY. FOR QUESTIONS OR CUSTOMER SERVICE VISIT UNIRAC.COM OR CALL (505) 248-2702 SEALANT GAP " 1/4” SESESESESESESESESESEESEEESESESESESESESESESESESEESESESESESESEEEEESEESESEESEESEEESEESEEESEESESESEEESEESESEESEESESEEEEEESEEESESEEESESEEESSSESESEESEEESEESEESEESESEEEEESESEESSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSALALLLALLLALLALALALALALALALALALLLALALALALALALLLALLLALALLALALALLLALALALALALALALALALLALALLALALLLALLLALALALLALALLALALALLALALLALLLLLALALLLLLALALALALALALLAALLLLLLALAALLLLLLLALLLLALALLLLAALALLLLAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAANANANANANANANANANANANANANANANNANNAANANANANANANANANNAANANANANNNANANNANANANANNANNNNANNNANANANANANANNNANNNNANNNNANANNNNANANANANNANNANNNNNANNANNNANNNNANNANANAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAATTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT GAGAGAGAGAGAGAGAGAGAGAGAAGAAGGAGAGAGAGAGAGAGAGAGAGAGAGAAGAGAGAGAGAAGAGAAAAGAGAGAGAGAAAGAGAGAGAGAAAAGAAGAGAGAAGAAGAGAGAAAAAAAGAAGAAGAGAGAAAGAGAGAAAGAGAGAGAAAGAGAGAGAAAAAAGAGAGAGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPP x """"""""""""""""""""""""""" 1///1/1/1/1/1//1/1/1/1//1//1/1/1/1/1/1/1//1/1//1 //1 //////1/1///111111111 4”4”4”4”4”4””4””4”4”4”4”4”4””4”””4””4”4”4””4””4””4”4”4”4””4”4”4””4””4”4”4”4”””4”4”4444444441//1/1 /////1//1//1/1////1/111 444444444444444444444///////////////////////// 2110 W 7th St - 2017778512/28/22 2110 W 7th St - 2017778512/28/22 CS3N-380|385|390|395|400MS 380 W ~ 400 W Canadian Solar (USA) Inc. is committed to providing high quality solar products, solar system solutions and services to customers around the world. Canadian Solar was recognized as the No. 1 module supplier for quality and performance/price ratio in the IHS Module Customer Insight Survey, and is a leading PV project developer and manufacturer of solar modules, with over 52 GW deployed around the world since 2001. MORE RELIABLE Comprehensive LID / LeTID mitigation technology, up to 50% lower degradation Module power up to 400 W Module efficiency up to 19.7%425 W Better shading tolerance Minimizes micro-crack impacts * For detailed information, please refer to the Installation Manual. MORE POWER Lower LCOE & BOS cost HiKu Mono PERC (All-Black) Heavy snow load up to 5400 Pa, enhanced wind load up to 2400 Pa* 3000 Oak Road, Suite 400, Walnut Creek, CA 94597, USA, www.csisolar.com/na, service.ca@csisolar.com 12 Years Years products you order or use. Please contact your local Canadian Solar sales representative in which the products will be used. PRODUCT CERTIFICATES* MANAGEMENT SYSTEM CERTIFICATES* *According to the applicable Canadian Solar Limited Warranty Statement. Enhanced Product Warranty on Materials and Workmanship* Linear Power Performance Warranty* 1 st year power degradation no more than 2% Subsequent annual power degradation no more than 0.55% Canadian Solar (USA) Inc. IEC 61215 / IEC 61730 / CE FSEC (US Florida) UL 61730 / IEC 61701 / IEC 62716 d P d W M i l May 2021 | All rights reserved | Module Product Datasheet v2.7_F30_J1_NACanadian Solar (USA) Inc. PARTNER SECTION ENGINEERING DRAWING (mm)CS3N-400MS / I-V CURVES products due to the on-going innovation and product enhancement. CSI Solar Co., Ltd. reserves the right to make necessary adjustment to the information described herein at any time without further notice. professional skills and please carefully read the safety and installation instructions before using our PV modules. MECHANICAL DATA Data Cell Type Mono-crystalline Cell Arrangement 132 [2 X (11 X 6) ] Dimensions Weight Front Cover 3.2 mm tempered glass Frame Anodized aluminium alloy Cable 4 mm2 (IEC), 12 AWG (UL) Cable Length (Including Connector) Connector T4 series or MC4 Per Pallet 30 pieces 720 pieces * For detailed information, please contact your local Canadian Solar sales and technical representatives. TEMPERATURE CHARACTERISTICS Data -0.35 % / °C -0.27 % / °C 0.05 % / °C Nominal Module Operating Temperature 42 ± 3°C V A 12 11 10 7 6 5 4 3 2 1 0 V A 1000 W/m2 2 600 W/m2 400 W/m2 200 W/m2 5°C 25°C 45°C 65°C 12 11 10 7 6 5 4 3 2 1 0 065 50 55 40 45 30 35 20 25 10 15 065 50 55 40 45 30 35 20 25 10 15 Rear View Mounting Hole 1 1 5 5 1 3 0 0 1000 6- 5 -XU[TJOTM .URK 3U[TZOTM .URK A A B B 1 4 Frame Cross Section A - A B - B 25 35 35 35 ELECTRICAL DATA | STC* CS3N 380MS 385MS 390MS 395MS 400MS 380 W 385 W 390 W 395 W 400 W Opt. Operating Voltage (Vmp) 36.4 V 36.6 V 36.8 V 37.0 V 37.2 V Opt. Operating Current (Imp) 10.44 A 10.52 A 10.60 A 10.68 A 10.76 A Open Circuit Voltage (Voc) 43.7 V 43.9 V 44.1 V 44.3 V 44.5 V Short Circuit Current (Isc) 11.26 A 11.32 A 11.38 A 11.44 A 11.50 A 19.2% 19.4% 19.7%18.7% 18.9% Operating Temperature 1000V (IEC/UL) Module Fire Performance TYPE 1 (UL 61730 1500V) or TYPE 2 (UL 61730 1000V) or CLASS C (IEC 61730) 20 A Class A Power Tolerance * Under Standard Test Conditions (STC) of irradiance of 1000 W/m2, spectrum AM 1.5 and cell temperature of 25°C. ELECTRICAL DATA | NMOT* CS3N 380MS 385MS 390MS 395MS 400MS 283 W 33.9 V 8.36 A 41.1 V 9.08 A 287 W 34.1 V 8.42 A 41.3 V 9.13 A 291 W 34.3 V 8.49 A 41.5 V 9.18 A 295 W 34.5 V 8.56 A 41.7 V 9.23 A 298 W 34.7 V 8.6 A 41.9 V 9.28 A Opt. Operating Voltage (Vmp) Opt. Operating Current (Imp) Open Circuit Voltage (Voc) Short Circuit Current (Isc) 2, spectrum AM 1.5, ambient temperature 20°C, wind speed 1 m/s. 2110 W 7th St - 2017778512/28/22 2110 W 7th St - 2017778512/28/22 PowerOptimizer ForNorthAmerica P320/P340/P370/P400/P401/P405/P485/P505 25 YEAR WARRANTY PVpoweroptimizationat the module-level Specifically designed to workwith SolarEdge inverters Up to 25%more energy Superior efficiency (99.5%) Mitigates all types of module mismatch losses, from manufacturing tolerance to partial shading Flexible system design for maximum space utilization Fast installation with a single bolt Next generation maintenance with module- level monitoring Meets NECrequirements for arc fault protection (AFCI) and Photovoltaic Rapid Shutdown System (PVRSS) Module-level voltage shutdown for installer and firefighter safety solaredge.com PO W E R O P T I M I Z E R PowerOptimizer ForNorthAmerica P320 / P340 / P370 / P400 / P401 / P405 / P485 / P505 Optimizer model (typical module compatibility) P320 (for 60-cell modules) P340 (for high- power 60-cell modules) P370 (for higher- power 60 and 72- cell modules) P400 (for 72 & 96-cell modules) P401 (for high power60 and 72 cell modules) P405 (for high- voltage modules) P485 (for high- voltage modules) P505 (for higher current modules) INPUT Rated Input DCPower(1)320 350 370 400 485 505 W Absolute MaximumInput Voltage (Voc at lowest temperature)48 60 80 60 125(2)83(2)Vdc MPPT Operating Range 8 - 48 8 -60 8 -80 8-60 12.5 -105 12.5 -83 Vdc Maximum Short Circuit Current (Isc)11 11.02 11 10.1 11.75 11 14 Adc Maximum DCInput Current 13.75 12.5 14.65 12.5 17.5 Adc MaximumEfficiency 99.5 % Weighted Efficiency 98.8 98.6 % Overvoltage Category II OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING SOLAREDGE INVERTER) Maximum Output Current 15 Adc MaximumOutput Voltage 60 85 Vdc OUTPUT DURING STANDBY (POWEROPTIMIZERDISCONNECTED FROM SOLAREDGE INVERTERORSOLAREDGE INVERTEROFF) Safety Output Voltage per Power Optimizer 1 ± 0.1 Vdc STANDARD COMPLIANCE EMC FCCPart15 Class B, IEC61000-6-2, IEC61000-6-3 Safety IEC62109-1 (class II safety), UL1741 Material UL94 V-0, UV Resistant RoHS Yes INSTALLATION SPECIFICATIONS Maximum Allowed System Voltage 1000 Vdc Compatible inverters All SolarEdge Single Phase and Three Phase inverters Dimensions (W x L x H)129 x 153 x 27.5 / 5.1 x 6 x 1.1 129 x 153 x 33.5 / 5.1 x 6 x 1.3 129 x 153 x 29.5 /5.1 x 6 x 1.16 129 x 159 x 49.5 / 5.1 x 6.3 x 1.9 129 x 162 x 59 /5.1 x 6.4 x 2.3 mm / in Weight (including cables)630 /1.4 750 /1.7 655 /1.5 845 /1.9 1064 /2.3 gr /lb Input Connector MC4(3)Single or dual MC4(3)(4)MC4(3) Input Wire Length 0.16 / 0.52 0.16 or 0.9 /0.52 or 2.95(5)0.16 / 0.52 m / ft Output Wire Type /Connector Double Insulated / MC4 Output Wire Length 0.9 /2.95 1.2 /3.9 m / ft Operating Temperature Range(6)-40 to +85 / -40 to +185 Ü&/Ü) Protection Rating IP68 /7\SH 3 Relative Humidity 0- 100 %  Rated power of the module at STCwill not exceed the optimizer “Rated Input DC Power”. Modules with up to +5% power tolerance are allowed  NEC 2017 requires max input voltage be not more than 80V  For other connector types please contact SolarEdge  For dual version for parallel connection of two modules use P485-4NMDMRM. In the case of an odd number of PV modules in one string, installing one P485 dual version power optimizer connected to  one PV module. When connecting a single module seal the unused input connectors with the supplied pair of seals  Longer inputs wire length are available for use. For 0.9minput wire length order P401-xxxLxxx  For ambient temperature above +85°C/ +185°F power de-rating is applied. Refer to Power Optimizers Temperature De-Rating Technical Note for more details PVSystem DesignUsing a SolarEdge Inverter(7)(8) Single Phase HD-Wave Single phase Three Phase for 208Vgrid Three Phase for 277/480Vgrid Minimum String Length (Power Optimizers) P320, P340, P370, P400, P401 8 10 18 P405, P485, P505 6 8 14 Maximum String Length (Power Optimizers)25 25 50(9) Maximum Power per String 5700 (6000 with SE7600-US - SE11400- US) 5250 6000(10)12750(11) W Parallel Strings of 'L੔HUHQW Lengths or Orientations Yes    )RU GHWDLOHG VWULQJ VL]LQJ LQIRUPDWLRQ UHIHU WR KWWSZZZVRODUHGJHFRPVLWHVGHIDXOWILOHVVWULQJBVL]LQJBQDSGI    ,W LV QRW DOORZHG WR PL[ 333 ZLWK 33333 LQ RQH VWULQJ    $ VWULQJ ZLWK PRUH WKDQ  RSWLPL]HUV GRHV QRW PHHW 1(& UDSLG VKXWGRZQ UHTXLUHPHQWV VDIHW\ YROWDJH ZLOO EH DERYH WKH 9 UHTXLUHPHQW   )RU 9 JULG LW LV DOORZHG WR LQVWDOO XS WR : SHU VWULQJ ZKHQ WKH PD[LPXP SRZHU GL੔HUHQFH EHWZHHQ HDFK VWULQJ LV :   )RU 9 JULG LW LV DOORZHG WR LQVWDOO XS WR : SHU VWULQJ ZKHQ WKH PD[LPXP SRZHU GL੔HUHQFH EHWZHHQ HDFK VWULQJ LV : © SolarEdge Technologies Ltd. All rights reserved. SOLAREDGE, the SolarEdge logo, OPTIMIZED BY SOLAREDGE are trademarks or registered trademarks of SolarEdge Technologies, Inc. All other trademarks mentioned herein are trademarks of their respective owners. Date:/2021 DS-000044-1.-NA. Subject to change without notice. 40 2110 W 7th St - 2017778512/28/22 Rapid Shutdown Kit Installation - MAN-01-00186-1.6 1 Rapid Shutdown Kit - Installation and Configuration (Single Phase Inverters) This document describes how to install the rapid shutdown kit in the SolarEdge Safety Switch, and how to enable the rapid shutdown feature in the inverter in order to provide the functionality described in the Rapid Shutdown clause of NEC2014 690.12 (1) through (4). Kit Contents  Rapid shutdown cables Micro-SD card and SD card adapter with firmware files (Note: DO NOT THROW AWAY THE CARD AND THE ADAPTER; keep them for installation of other rapid shutdown kits) Cable Installation Perform this procedure before connecting the strings to the Safety Switch [Chapter 4: Connecting the AC and the Strings to the Safety Switch in the SolarEdge Installation Guide]. 1 Turn the inverter ON/OFF switch to OFF. If installing the kit in an inverter that is already operating, wait until the LCD indicates that the DC voltage is safe (<50V), or wait five minutes before continuing to the next step. 2 Turn the Safety Switch and the AC switch on the main circuit board to OFF. WARNING! If you cannot see the inverter panel, or if a malfunction is indicated on the LCD panel, wait five minutes for the input capacitors of the inverter to discharge. 3 Loosen the four Allen screws on the front cover of the Safety Switch, and open the cover. 4 Carefully disconnect the two DC cables from the left side of the switch and from the DC connection spring clamp terminals, as illustrated below1. Use a standard straight-bladed screwdriver to disconnect the cables from the terminals. Figure 1: Inside the AC/DC Safety Switch 1 The internal components may vary depending on the Safety Switch model; the figures in this documents show the AC/DC Safety Switch for single phase 7.6-11.4 kW inverters. DC connection terminals Disconnect here Disconnect here Switch terminal block Rapid Shutdown Kit - Installation and Configuration (Single Phase Inverters) Rapid Shutdown Kit Installation - MAN-01-00186-1.6 2 5 The rapid shutdown cables have a resistor connected to one end (on the red cable). Connect these ends to the switch, making sure that the red and black cables are reversed relative to the cables connected at the top of the switch (going into the DC side conduit between the inverter and the Safety Switch), as detailed below. Apply a torque of 2 N*m (18 lb*in):  If the cables at the top are red and black from left to right, connect as shown below. Figure 2: Rapid shutdown cable connected – option 1  If the cables at the top are black and red from left to right, connect as shown below. Figure 3: Rapid shutdown cable connected – option 2 6 Use a standard straight-bladed screwdriver to connect the other end of the rapid shutdown cables to the DC connection spring-clamp terminals: Connect the black cable from the switch to the DC- terminal block, and connect the red cable from the switch to the DC+ terminal block. 7 Check that the cables are located and connected in the correct positions to ensure the rapid shutdown functionality. 8 Close the cover: Attach the switch cover and secure it by tightening the four screws with a torque of 0.9 ft.*lb / 1.2 N*m. Red (+) Black (-) Black (-) DC+ DC- Red (+) with rapid shutdown resistor Black (-) Red (+) Black (-)Red (+) with rapid shutdown resistor DC+ DC- 2110 W 7th St - 2017778512/28/22 Step 1: Mounting and Grounding the Power Optimizers For each  of the power optimizers1:  1. Determine the power optimizer mounting location  and use the power optimizer mounting brackets to attach  the power optimizer to the support structure (See Figure 5). It is recommended to mount the poweroptimizer in  a location  protected from direct sunlight. For frame-mounted  power optimizers follow the instructions supplied with  the optimizers, or refer to https://www.solaredge.com/sites/default/files/installing_frame_mounted_power_ optimizers.pdf.  2. If required, mark the mounting hole locations and drill the hole. CAUTION! Do not drill through the power optimizer or through the mounting holes. The drilling vibrations can damage the power optimizer and will void the warranty. ATTENTION! Ne pas percer à travers la optimiseur de puissance ou ses trous de fixation. Les vibrations qui en résulteraient peuvent endommager la optimiseur de puissance.  3. Attach  each  power optimizer to the rack using M6 (1/4'') stainless steel bolts, nuts and  washers or other appropriate mounting hardware.  Apply torque of 9.5 N*m / 7 lb*ft. For 3NA  series power optimizes, SolarEdge recommends mounting the power optimizer on  a rail with the smooth  side facing out, so  that the power optimizer body will prevent its rotation.  4. Use the following methods2 to ground the power optimizer: WARNING! The metallic enclosure of the power optimizer must be grounded in accordance with the requirements of the local and national codes. AVERTISSEMENT! L'enceinte métallique de l’optimiseur de puissance doit être mise à la terre en accord avec les régulations locales et nationales.  l For mounting on a grounded metal rail: Use the provided  5/16'' stainless steel grounding star washer between  the railing and  the flat side of the mounting bracket.  The grounding washer should break through  the anodize coating of the railing to ensure low resistive connection. Apply torque of 9.5 N*m / 7 lb*ft. See Figure 5. 1Not applicable to smart modules. 2These methods have been evaluated by a nationally recognized testing laboratory as part of the optimizer evaluation. The SolarEdge-supplied grounding lug kit has been evaluated only for use with SolarEdge power optimizers. It is not intended or listed to be used as a general purpose grounding lug with other electrical equipment. Chapter 2:InstallingthePower Optimizers SinglePhaseInverter with HD-WaveTechnologyInstallation MAN-01-00306-1.1 19 Figure 5: Power optimizer installation and grounding using a star washer  l For mounting on rails with sliding nut fasteners: If the star washer cannot be used, use the SolarEdge grounding plate (purchased  separately) between the railing and  the flat side of the mounting bracket. Use mounting specific hardware as needed. Apply torque of 9.5 N*m / 7 lb*ft. See Figure 6 Figure 6: Power optimizer installation and grounding using a grounding plate  l For mounting on un-grounded structures (such  as a wooden structure): If the star washer or the plate cannot be used, use the SolarEdge grounding lug (purchased  separately) with  an equipment-grounding conductor  according to the supplied  instructions. The grounding terminal accepts a wire size of 6-14 AWG, and must be sized  for equipment  grounding per NEC 250.122 requirements. Tighten the screws connecting the power optimizer to the frame and the grounding terminal screw. Apply torque of 9.5 N*m  / 7 lb*ft. See Figure 7 Figure 7: Power optimizer grounding terminal  5. Verify that each  power optimizer is securely attached to the module support structure. SinglePhaseInverter with HD-WaveTechnologyInstallation MAN-01-00306-1.120 Step1:MountingandGroundingthePower Optimizers 2110 W 7th St - 2017778512/28/22 SOLARMOUNT is the professionals’ choice for residential PV mounting applications. Every aspect of the system is designed for an easier, faster installation experience. SOLARMOUNT is a complete solution with revolutionary universal clamps, FLASHKIT PRO, full system UL 2703 certification and 25-year warranty. Not only is SOLARMOUNT easy to install, but best-in-class aesthetics make it the most attractive on any block! THE PROFESSIONALS’ CHOICE FOR RESIDENTIAL RACKING BEST INSTALLATION EXPERIENCE • CURB APPEAL • COMPLETE SOLUTION • UNIRAC SUPPORT NOW FEATURING FLASHKIT PRO The Complete Roof Attachment Solution NOW WITH UNIVERSAL MIDCLAMPS Accommodates 30mm-51mm module frames One tool, one-person installs are here! REVOLUTIONARY NEW ENDCLAMPS Concealed design and included End Caps SOLARMOUNT CONCEALED UNIVERSAL CLAMPS OPTIONAL FRONT TRIM New & Improved: THE PROFESSIONALS’ CHOICE With Superior Aesthetics FEATURING TECHNOLOGY 25 YEAR FULL-SYSTEM WARRANTY UNIRAC CUSTOMER SERVICE MEANS THE HIGHEST LEVEL OF PRODUCT SUPPORT ENGINEERING EXCELLENCE UNMATCHED EXPERIENCE PERMIT DOCUMENTATION DESIGN TOOLS CERTIFIED QUALITY BANKABLE WARRANTY BETTER DESIGNS TRUST THE INDUSTRY’S BEST DESIGN TOOL Start the design process for every project in our U-Builder on-line design tool. It’s a great way to save time and money. BETTER SYSTEMS ONE SYSTEM - MANY APPLICATIONS Quickly set modules flush to the roof on steep pitched roofs. Orient a large variety of modules in Portrait or Landscape. Tilt the system up on flat or low slow roofs. Components available in mill, clear, and dark finishes to optimize your design financials and aesthetics. BETTER RESULTS MAXIMIZE PROFITABILITY ON EVERY JOB Trust Unirac to help you minimize both system and labor costs from the time the job is quoted to the time your teams get off the roof. Faster installs. Less Waste. More Profits. BETTER SUPPORT WORK WITH THE INDUSTRIES MOST EXPERIENCED TEAM Professional support for professional installers and designers. You have access to our technical support and training groups. Whatever your support needs, we’ve got you covered. Visit Unirac.com/solarmount for more information. UNIVERSAL SELF STANDING MIDCLAMPS U-BUILDER ONLINE DESIGN TOOL SAVES TIME & MONEY Visit design.unirac.com BANKABLE WARRANTY Dont leave your project to chance, Unirac has the financial strength to back our products and reduce your risk. Have peace of mind knowing you are providing products of exceptional quality. SOLARMOUNT is covered by a 25 year limited product warranty and a 5 year limited finish warranty. TECHNICAL SUPPORT Unirac’s technical support team is dedicated to answering questions & addressing issues in real time. An online library of documents including engineering reports, stamped letters and technical data sheets greatly simplifies your permitting and project planning process. CERTIFIED QUALITY PROVIDER Unirac is the only PV mounting vendor with ISO certifications for 9001:2008, 14001:2004 and OHSAS 18001:2007, which means we deliver the highest standards for fit, form, and function. These certifications demonstrate our excellence and commitment to first class business practices. UL2703BONDING & GROUNDING MECHANICAL LOADING SYSTEM FIRE CLASSIFICATIONL I S T E D SOLARMOUNT CONCEALED UNIVERSAL ENDCLAMPS END CAPS INCLUDED WITH EVERY ENDCLAMP ENHANCE YOUR REPUTATION WITH QUALITY RACKING SOLUTIONS BACKED BY ENGINEERING EXCELLENCE AND A SUPERIOR SUPPLY CHAIN PUB2016MAY16 - PRINTED UPDATE 2110 W 7th St - 2017778512/28/22