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HomeMy WebLinkAbout4475 N Old Dixie Hwy - Solar PV Plans (1) R R ground Access Point O : - R_ �_- # Modules (5) ,Y Pitch: 18° T Azimuth: 91° Inverter Type: IQ7PLUS-72-2-US O PV Panel: (18) MSE390SR9S Racking: Iron Ridge ° F R-2 Total Wattage: 7,020W Roof Type: Metal Wind Load: 7 to 20 # Modules (9) Fastener Type: Use S-5 Protea Pitch: 18° Sheet Index Azimuth: 181° H S-1 Cover Sheet/ Site Plan S-2 Detail Utility Mete O O E-1 One - Line Z\m S-lA Mounting Plan -COGEN Disconnectround Access Point T T Located adjacent to lJ Utility meter General Notes: ' Access Pathway S -IQ7PLUS-72-2-US Micro Inverters are located on roof behind each module. -First responder access maintained and -104 round Access Point from adjacent roof. -Wire run from array to connection is 40 feet. R-3 # Modules (4) Pitch: 18° Azimuth: 91° Layout Subject to Change Based on Site Conditions Donnie C 516 Douglas Ave. Unit 1110 Godwin Engineering and i .`pNPD Gp�i,-- Godw n OENSP.2- Design, LLC Na 81380 Altamonte Springs, FL 2021 .05.1 =9i 8378 Foxtail Loop %9'. STATE OF 32714 System meets the requirements of NFPA 70th Edition,Chapter 11.12 Install will be done to Manufacturer Spec -'•O-�(cs (O R �j��'� P Pensacola, FL 32526 J D. Chad Godwin PE NA Meets All Editions of Florida Fire Prevention Code 7th Edition Customer Info: 13:1 3:02 oA Le end Chad@godwineng.com aN E�G7RO1 opEs �oTZ .. g ® Chimney '00'05_ ® First responder access 0, Satellite 1st Responder Access Utility Meter o Vent Pipe Represents all Fire Clearance p David Sheil N. x w N Date: 4/29/2021 EP PV Disconnect including Alternative methods minimum of 36" unobstructed as per 4475 N Old Dixie H Drawn b PB Section R324 of the 2018 IRC y y• Meets the requirements of the following- (2020 FL Residential Code & FBC, 7th Edition (2018 Fort Pierce, FL Revised b International Residential Code) - 2nd Printing modified by the FL Building Standards , 2018 34946 Rev #: 00 International Energy Conservation Code, County of Saint Lucie Code, 2017 National Electric Code.) Rev Date. Page. S-1 Coin ass for Aerial Solar Module x 3/4 FFEX EaG HEAD DOLT Ironridge XR-100 General Notes: - S-5 Brackets are secured to Roof @ 24" O.C. in Zone 1 , @ 24" O.0 in Zone 2e, @ 24" O.C. in Zone 2n, @ 24" O.C. in Zone 2r, @ 24" O.C in Zone 3 e, & @ 24" O.C. in Zone 3 r Install will be done to Manufacturer Spec p..NM GODkk''y using (4) 6mm x 25mm BI-Metal Self-Piercing No 81380 Godwin Engineering and FTATE •�f\`'•(OR\OP,:cam..` - Subject roof has One layer. Design, LLc SSONA - All penetrations are sealed. 8378 Foxtail Loop EE.ao oPs Pensacola, FL 32526 Donnie C Godwin - To be installed (3) rail per row. D. Chad Godwin, PE 2021 .05.13 Chad@godwineng.com '00'05- 13:13:30 Roof Section Pitch Roof Rafter and Spacing Overhang Notes: R1 4/12 211x4" @ 24 O.C. 12" Truss -Designed as per ASCE7-16 Customer Info: 516 Douglas Ave. Unit 1110 Inverter Type: IQ7PLUS-72-2-US Altamonte Springs, FL -Modules mounted flush to roof no higher PV Panel: (18) MSE390SR9S 32714 than 6" above surface. Racking: Iron Ridge David Shell Date: 4/29/2021 -Per 2020 FBC, the Roof Mounted PV System Total Wattage: 7,02OW 4475 N. Old Dixie Hwy Drawn by: PB Roof Type: Metal Fort Pierce FL Revised by: will be subject to the following design criteria: Wind Load: 7 to 20 Rev #: 00 Design Wind Speed(Vult) - 158mph 3 sec gust, Fastener Type: Use S-5 Protea 34946 Rev Date: Exposure Category - C Page: S-2 Photovoltaics: ! A Photovoltaics: Enphase Total Output Ckt(for Battery) Total Enphase Output Ckt (6) MSE390SR9S SOURCES:: (12) MSE390SR9S AC Max Output Current 7.26 AC Max Output Current 14.52 •PV SOLAR"ELECTRIC SYSTEM AC Max Output Current* 1.25% 9.075 AC Max Output Current* 1.25% 18.15 Inverters: Inverters: Overcurrent Protection(A) 20 Overcurrent Protection A 20 No.of Current Carrying Cond <4 No.of Current Carrying Cond <4 (6) IQ7PLUS-72-2-US Micro Inverters Engage Cable Engage Cable (12) IQ7PLUS-72-2-US Micro Inverters Conductor Gauge(AWG) 10 Conductor Gauge AWG 10 Combined Enphase+Battery Output Ckt Circuits: Circuits: AC Max Output Current 12.56 (1) circuit of(6) Modules (1) circuit of(12) Modules AC Max Output Current* 1.25% 15.072 Overcurrent Protection A 20 Maximum Inverters Per 20A Circuit 13 No.of Current Ca Cond <4 Maximum Inverters Per 20A Circuit(13) ( ) Conductor Gauge AWG 10 #6 AWG THWN (n Line I Combined Total Output Ckt (1)Line 2 Meter in 3/4"Co AC Max Output Current 27.08 in 3/4"Conduit Typically POWER SOURCE OUTPUT CONNECTION: DO NOT RELOCATE THIS OVERCURRENT NE IA 3R NEMA 3R 0 � AC Max Output Current* 1.25% 33.85 F MENDEVICE Junction Box Junction Box Roof Overcurrent Protection A 40 Black-L1 Black-L1 RATED AC OUTPUT CURRENT: 18A G4 NO., OPERATING VOLTAGE: 240VAC NO.Of Current Ca Cond Red-L2 Red-L2 #lo AWG TrnvN Line side Tap Conductor Gauge AWG 8 Green-Ground Green-Ground (1)Line I 125A Combiner #10 AWG THWN for Home runs over 100' (1)Line 2 (1)Line 1 Neutral (1)Line 2 #8(1)EGC Per Circuit in @least 3/4"Conduit Typically Manual Disconnect #8 AWG THWN (1)EGC 20A Inside @ least 3/4"Conduit(tbd on site) 60A service Rated Fused Disconnect Neutral to Ground Bond 20A AC Disconnect SOLAR PV SYSTEM EQUIPPED c 40A Fuse 3/8 IN MIN.TEXT WITH RAPID SHUTDOWN Enphase Combiner N P Enphase Combiner Box Box 2 Pole Main Distribution Panel #3AWG THWN Circuit Breakers TURN RAPID (2)Hot 200A Main SHUTDOWN SWITCH T (1)-20A Breaker (1)-20A Breaker (1)Neutral 3116 IN MIN.TEXI THE"OFF"POSITION T 118 AWG EGC #8 AWG THWN SHUT DOWN PV Per Circuit Per Circuit in @ least 1.25' SYSTEM AND REDUCE I Circuit 1 Circuit Conduit Typically (2)Hot SHOCK HAZARD IN THE l0A Breaker for Envoy (1)Neutral _ A r Distribution an Panel l0A Breaker for Envoy Y ARRAY. #8 AWG EGC Disconnect Disconnect in @ least 3/4"Conduit Typically (IJkBAWG EGC&GEC No 01380 c#1°neI P T - Godwin Engineering and ft Encharge BatteryTotal Output Ckt �p (1)Neutral )EGCFilter Design, LLC g -r (1)Neutral Enphase Line o AC Max Output Current 5.3 #s(tent 3 in@least 3/4"Conduit Typically IOA 8378 Foxtail Loop AC Max Output ' Current* 1.25% 6.625 Bolt down Breaker ^ EnpOWer Overcurrent Protection A 10 ATS Pensacola, FL 32526 Donnie C Godwin No.of Current Carrying Cond <4 (1)Encharge 3 Conductor Gauge AWG 10 W/NEMA 100A�- D. Chad Godwin, PE 3RRating 2021 .05.13 T 11 1 ..............1Chad@godwineng.com CT's installed Line side of the empower. - 100105- 13:1 4:03 #10 L1,L2 GEC _ y NEC LABEL NOTES: #8 Ground L1 1. THE WARNING SIGN(S)OR LABEL(S)SHALL COMPLY In Min 3/4" * . + WITH NEC 110.21(B) Conduit RATED+ nI I +I 2. LABELS SHALL BE SUITABLE FOR THE ENVIRONMENT #3 AWG THWN ` • • AC yy I Icy Iy�RENT WHERE THEY ARE INSTALLED. (1)#8 AWG EGC&GEC (1)L ne I Back-Up Loads Refer to NEC 312.8 for 3. LABELS TO BE A MIN LETTER HEIGHT OF 3/8"AND (1)Line 2 Panel Conditions on taps in switch ~ NOMINAL OPERATING AC VOLTAGE V PERMANENTLY AFFIXED. (1)Neutral and over current devices 4. LABELS SHALL ALSO COMPLY WITH THE SPECIFIC If Encharge to empower>5Ft in @ least1.25"Conduit Typically Enclosures. J REQUIREMENTS OF THE AUTHORITY HAVING If the conditions are not JURISDICTION. or if not line of sight,an AC disconnect met a tap box will 516 Douglas Ave. Unit 1110 System meets the grounding requirements of NEC 690.43 is required on Encharge side of Feeder. need to be installed. g Altamonte Springs, FL Including the label below Note: GEC NOTES Customer Info: 32714 - Ungrounded system per 690.41(A)(4) -All wiring to meet the 2017NEC and - GEC must be installed per 250.64 Date: 4/29/2021 In Case of Emergency Call - GEC must be continuous un-spliced or irreversibly spliced from Inverter Type: Florida electric codes. David Sheil g y inverter to existing service ground system or continuous from the Drawn b : PB �T 7 7� Hwy IQ7PLUS-72-2-US 60A Disconnect arrays to the existing service ground system. 4475 lV, Old Dixie Hwy PV Panel: Revised b � Lotus Energy and Solar - GEC must be min#8 AWG and installed in conduit (18) -Type of conduit to be determined - If GEC is not in conduit,it must be#6 min per NEC 690.54 Fort Pierce, FL Rev #: 00 MSE390sR9s at 407-377-7437 on site by contractor. 34946 Rev Date: Total Wattage: All Labels&Markings for photovoltaic system will be 7,020W Install will be done to Manufacturer Spec reflective and meet all requirements for NFPA 11.12 1 Page: E-1 Iron Ridge Rail 241_ 1 0" XR-100 17' 6 53'-2" XR-100 14' 6 L L L 15'-3" o L o L L o q 11 '-7" L L L L L L L Splice Bar 3 R-2 S-5! Protea Mounts 96 R-1 Iron Ridge UFO's 63 # Modules 5 # Modules (9) O Iron Ridge Sleeves/End Caps 18 Pitch: 18' 6x6x6 J-Box 3 Pitch: 18° Iron Ridge Ground Lugs 3 Azimuth: 91 ° Azimuth: 181 ° MSE390SR9S 18 IQ7PLUS-72-2-US 18 314" 60A Fused Disconnect I 40A Fuses 2 �� 6'-7" l0A Breaker 1 20 -4 - 20A Breakers 5 En phase Combiner Box 2 L L - L L L _ L L 1� � Plans satisfy zones FBC-1510.7.1 Empower ATS I L L pL L pL L L Install will be done to Manufacturer Spec Enphase Line Filter 1 12'-9" L L L L L L L Encharge 3 1 �0 81360 *: 125A Combiner 1 Godwin Engineering andF,.,E of p. '.IFS•SOH\0' Design, LLC s,aNA ECG 125A Load Center I 8378 Foxtail Loop Pensacola, FL 32526 Donnie C Godwin D. Chad Godwin, PE Max cantilever is 8" as per manufacturer spec. R_3 Chad ad Godwin, ng E 2021 .05.13 Zone 1: Max Cantilever = Max Span * 1 =24"* 1 =8" '00'05- 13:14:35 p (3)— (3)— # Modules (4) Max cantilever is 8" as per manufacturer spec. Zone 2e: Pitch: 18° Max Cantilever ::-- Max Span * (3)=24"*(3)=8" Max cantilever is 8 as per manufacturer spec. Azimuth: 91 ° Zone 2n: - Max Cantilever = Max Span * (3)=24"*(3)=8" Customer Info: 516 Douglas Ave. Unit 1110 Max cantilever is 8" as per manufacturer spec. Inverter Type: IQ7PLUS-72-2-US Altamonte Springs, FL Zone 2r: 32714 Max Cantilever = Max Span * (3)=24"*(3)=8" PV Panel: (18) MSE390SR9S Racking: Iron Ridge David Sheil Date: 4/29/2021 Max cantilever is 8 as per manufacturer spec. Zone 3e: Total Wattage: 7,020W 4475 N. Old Dixie Hwy Drawn by: P13 Max Cantilever = Max Span * (3)=24"*(3)=8" Roof Type: Metal Fort Pierce, FL Revised b Max cantilever is 8" as per manufacturer spec. Wind Load: 7 to 20 34946 Rev #: 00 Max Cantilever = Max Span * ( Zone 3r: Fastener Type: Use S-5 Protea Rev Date: 3)=24"*(3)=8" yp Page: S-IA PERC 72 CLASS LEADING 380-39OW ELECTRICAL SPECIFICATIONS CERTIFICATIONS & TESTS OMEN 0 Electrical Parameters at Standard Test Conditions(STC) MEE ■■ Module Type MSE375SR9S MSE380SR9S MSE385SR9S MSE390SR9S IEC Power Output Pmax Wp 375 380 385 390 61215-61730-61701 -Salt mist MEE■■■ Module Efficiency % 18.61 18.86 19.11 19.35 UL Tolerance 0"+3% 0"+3% 0"+3% 0"+3% CERTIFIED RELIABILITY uL17o3listed ■■■■■■ Short-Circuit Current Isc A 9.939 9.966 9.993 10.024 >Tested to UL1703&IEC standards Open Circuit Voltage Voc V 48.02 48.31 48.53 48.96 � CEC > PID resistant � � :■■■■■■ Rated Current Imp A 9.360 9.385 9.426 9.499 L16sE>s ADVANCED TECHNOLOGY Rated Voltage Vmp V 40.06 40.49 40.84 41.05 MENNEN > PERC and 5 busbar drive>19.3% module efficiency Fuse Rating 20 20 zo zo > Ideal for all applications MENNENCOEFFICIENTS EXTREME WEATHER RESILIENCE MSE385SR9S: 385WP,72 CELL SOLAR MODULE ■■■■ >5631 Pa front and back load(117 psf)tested load to UL1703 Normal Operating Cell Temperature(NOCT) 46.43°C(±2°C) CURRENT-VOLTAGE CURVE Temperature Coefficient of Pmax -0.375%/°C 12 mom Temperature Coefficient of Voc -0.280%/°C cells Temp.=25`c BAA COMPLIANT FOR GOVERNMENT PROJECTS Temperature Coefficient of Isc 0.045%/°C to Incident Irrd.=1000 W/mZ > Buy American Act 8 Incident Irrd.=800 W/m2 mom >American Recovery&Reinvestment Act OPERATING CONDITIONS g Incident Irrd.=600 W/m2 mom Temperature TM Maximum System Voltage 1,500VdC or 1000Vdc u e Incident Irrd.=a00 W/m2 Operating Temperat Range -40°C(-40°F)to+85°C(185°F) 4 Incident Irrd.=200 W/m2 ONE ——USA Maximum Series Fuse Rating 20A 2 Fire Safety Classification Type 1,Class C 0 Front&Back Load(UL standard) 5631 Pa(117 psf) 0 10 20 30 40 50 380 -39OW FRAME-TO-FRAME Tested to uL1703 standard WARRANTY"' Hail Safety Impact Velocity 25mm at 23 m/s Voltage[V] Current-voltage characteristics with dependence on irradiance 0 100% MECHANICAL DATA and module temperature 25 CLASS LEADING POWER OUTPUT •Mission Solar Energy Warranty 90.7% Solar Cells P-type mono-crystalline silicon (158.75mm) BASIC DESIGN (UNITS: mm) 90% O Cell Orientation 72 cells(6x12),5 busbar ooa /� 35 35 9 ■ /O 80.2/ 1999mm x 1008mm x 40mm 80/ ; Module Dimension (78.7 in.x 39.68 in.x 1.58 in.) Drain Tr 373 Weight 23 kg(52 lb) 1200 MAXIMUM EFFICIENCY 77 70/ Front Glass 3.2mm(0.126 in.)tempered, 999s 1 5 10 15 20 25 low-iron,anti-reflective coating Mounting Hole YEARS Frame Anodized aluminum alloy 1999 Encapsulant Ethylene vinyl acetate(EVA) 1999 Grounding J-Box Protection class IP67 with 3 bypass-diodes Hole POSITIVE POWER TOLERANCE CERTIFICATIONS 2 4mm/12 AWG 1.2m(47.24 in.), IEC 61215-IEC 61730-IEC 61701 -UL 1703-Salt mist Cables PV wire, 999.5 Connector MC4 Compatible 5 America's Module Company a&A CEC Mission Solar Energy is headquartered in San Antonio,TX.,with module RISTTEp a� SHIPPING INFORMATION production facilities on-site.We produce American quality solar Please contact Mission Solar Energy if you have questions or concerns about certification 10 modules ensuring the highest power output and reliability to our Container FT Pallets Panels 385 W of our products in your area. customers.Our product line is well suited for residential,commercial loos and utility applications.Every Mission Solar Energy solar module is 'Standard 12-year product warranty extendable to 25 years with registration: 53' Double stack 30 780 300.30 kW certified and surpasses industry standard regulations,proving excellent https://www.missionsolar.com/warranty/ 40' Double stack 24 624 240.24 kW Front View Back View performance over the long-term. Panels Weight Height Width Length TM Pallet 26 1,414lbs 42.45" 45.50" 79.50" •me }µ MISSION SOLARMISSIONR❑Ln)�'b www.missionsolar.com I info@missionsolar.eom ENERGY Mission Solar Energy reserves the right to make specification changes without notice Mission Solar Energy 18303 S.New Braunfels Ave.,San Antonio,Texas 78235 DOCUMENT#:C-SA2-MKTG-0019 REVISION#:R2 REVISION DATE:3/17/2020 DOCUMENT#:C-SA2-MKTG-0019 REVISION#:R2 REVISION DATE:3/17/2020 info@missionsolar.com I www.missionsolar.com Data Sheet Enphase IQ 7 and IQ 7+ Microinverters Enphase Microinverters INPUT DATA(DC) IQ7-60-2-US/IQ7-60-B-US IQ7PLUS-72-2-US/IQ7PLUS-72-B-US Region:AMERICAS Commonly used module pairings' 235 W-350 W+ 235 W-440 W+ Module compatibility 60-cell PV modules only 60-cell and 72-cell PV modules Maximum input DC voltage 48 V 60 V Peak power tracking voltage 27 V-37 V 27 V-45 V Operating range 16 V-48 V 16 V-60 V Min/Max start voltage 22 V/48 V 22 V/60 V The high-powered smart grid-ready Max DC short circuit current(module Ise) 15 A 15 A Overvoltage class DC port 11 11 Enphase Enphase IQ 7 MicroTM and Enphase IQ 7+ MicrOTM DC port backfeed current 0 A 0 A Q 7 and I Q 7 dramatically simplify the installation process while PV array configuration 1 x 1 ungrounded array;No additional DC side protection required; AC side protection requires max 20A per branch circuit achieving the highest system efficiency. OUTPUT DATA(AC) IQ 7 Microinverter IQ 7+Microinverter Peak Microinverters Part of the Enphase IQ System,the IQ 7 and Maximum umcontinutput 240 VA 290VA Maximum continuous output power 240 VA 290 VA IQ 7+ Microinverters integrate with the Enphase Nominal(L-L)voltage/ranger 240 V/ 208V/ 240 V/ 208 V/ 211-264 V 183-229 V 211-264 V 183-229 V IQ Envoy'"', Enphase IQ Battery'"", and the Enphase Maximum continuous output current 1.0 A(240 V) 1.15 A(208 V) 1.21 A(240 V) 1.39 A(208 V) Enlighten'"" monitoring and analysis software. Nominal frequency 60 Hz 60 Hz Extended frequency range 47-68 Hz 47-68 Hz IQ Series Microinverters extend the reliability AC short circuit fault current over 3 cycles 5.8 Arms 5.8 Arms standards set forth by previous generations and Maximum units per 20 A(L-L)branch circuit' 16(240 VAC) 13(208 VAC) 13(240 VAC) 11 (208 VAC) Overvoltage class AC port III III undergo over a million hours of power-on testing, AC port backfeed current 0 A 0 A enabling Enphase to provide an industry-leading Power factor setting 1.0 1.0 warranty of up to 25 years. Power factor(adjustable) 0.7 leading...0.7 lagging 0.7 leading...0.7 lagging EFFICIENCY @240 V @208 V @240 V @208 V Peak CEC efficiency 97.6% 97.6% 97.5% 97.3% CEC weighted efficiency 97.0% 97.0% 97.0% 97.0% MECHANICAL DATA Ambient temperature range -400C to+65°C Relative humidity range 4%to 100%(condensing) Easy to Install Connectortype(I07-60.2-US&IQ7PLUS-72-2-US) MC4(or Amphenol H4 UTX with additional Q-DCC-S adapter) Connector type(I07-60-B-US&IQ7PLUS-72-B-US) Friends PV2(MC4 intermateable). • Lightweight and simple Adaptors for modules with MC4 or UTX connectors: • Faster installation with improved,lighter two-wire cabling PV2 to MC4:order ECA-S20-S22 PV2 to UTX:order ECA-S20-S25 • Built-in rapid shutdown compliant(NEC 2014&2017) Dimensions(WxHxD) 212 mm x 175 mm x 30.2 mm(without bracket) Weight 1.08 kg(2.38 Ibs) Productive and Reliable Cooling Natural convection-No fans Approved for wet locations Yes • Optimized for high powered 60-cell and 72-cell*modules Pollution degree PD3 • More than a million hours of testing Enclosure Class 11 double-insulated,corrosion resistant polymeric enclosure • Class 11 double-insulated enclosure Environmental category/UV exposure rating NEMA Type 6/outdoor • UL listed FEATURES Communication Power Line Communication(PLC) Monitoring Enlighten Manager and MyEnlighten monitoring options. Smart Grid Ready Both options require installation of an Enphase IQ Envoy. Disconnecting means The AC and DC connectors have been evaluated and approved by UL for use as the load-break Complies with advanced grid support,voltage and disconnect required by NEC 690. _ frequency ride-through requirements Compliance CA Rule 21 (UL 1741-SA) Remotely updates to respond to changing UL 62109-1,UL1741/IEEE1547,FCC Part 15 Class B, ICES-0003 Class B, grid requirements CAN/CSA-C22.2 NO.107.1-01 This product is UL Listed as PV Rapid Shut Down Equipment and conforms with NEC-2014 and • Configurable for varying grid profiles NEC-2017 section 690.12 and C22.1-2015 Rule 64-218 Rapid Shutdown of PV Systems,for AC • Meets CA Rule 21 (UL 1741-SA) and DC conductors,when installed according manufacturer's instructions. U *The IQ 7+Micro is required to support 72-cell modules. 1.No enforced DC/AC ratio.See the compatibility calculator at httos://enphase.com/en-us/su000rt/module-compatibility. 2.Nominal voltage range can be extended beyond nominal if required by the utility. 3.Limits may vary.Refer to local requirements to define the number of microinverters per branch in your area. E N P H AS E® To learn more about Enphase offerings,visit enphase.com E N PHASE. To learn more about Enphase offerings,visit enphase.com u �./ ©2018 Enphase Energy.All rights reserved.All trademarks or brands used are the property of Enphase Energy,Inc. 2018-05-24 /lam IRONRIDGE XR Rail Family XR Rail Family The XR Rail Family offers the strength of a curved rail in three targeted sizes. Each size supports specific Solar Is Not Always Sunny design loads, while minimizing material costs. Depending on your location, there is an XR Rail to match. Over their lifetime, solar panels experience countless extreme weather events. Not just the worst storms in years, but the worst storms in 40 years. High winds capable of i ripping panels from a roof, and snowfalls weighing enough to buckle a panel frame. XR Rails are the structural backbone preventing these results. They resist uplift, protect XR10 XR100 XR1000 against buckling and safely and efficiently XR10 is a sleek,low-profile mounting XR100 is the ultimate residential XR1000 is a heavyweight among transfer loads into the building structure. rail,designed for regions with light or mounting rail. It supports a range of solar mounting rails.It's built to handle Their superior spanning capability no snow.It achieves spans up to 6 feet, wind and snow conditions,while also extreme climates and spans up to 12 while remaining light and economical. maximizing spans up to 10 feet. feet for commercial applications. requires fewer roof attachments, reducing the number of roof 6'spanningcapability 10'spanningcapability 12'spanningcapability penetrations and the amount -� Moderate load capability Heavy load capability Extreme load capability • Clear&black anodized finish Clear&black anodized finish Clear anodized finish of installation time. Internal splices available Internal splices available Internal splices available Rail Selection fThe table below was prepared in compliance with applicable engineering codes and standards.*Values are based on the following criteria:ASCE 7-16, Gable Roof Flush Mount, Roof Zones 1 & 2e, Exposure B, Roof Slope of 8 to 20 degrees and Mean Building Height of 30 ft. Visit IronRidge.com for detailed certification letters. Mill Force-Stabilizing Curve 90 Sloped roofs generate both vertical and lateral forces on mounting rails which can cause them 120 7M to bend and twist.The curved shape of XR Rails None is specially designed to increase strength in both 140 XR10 XR100 XR1000 directions while resisting the twisting.This unique 160 feature ensures greater security during extreme weather and a longer system lifetime. 90 120 � 20 140 160 9 30 0 160 Compatible with Flat&Pitched Roofs Corrosion-Resistant Materials 90 XR Rails are IronRidge offers All XR Rails are made of 6000-series F 40 compatible with a range of tilt leg aluminum alloy,then protected with an 160 FlashFoot and options for flat anodized finish.Anodizing prevents surface other pitched roof roof mounting and structural corrosion,while also providing I 80 160 attachments. applications. a more attractive appearance. 120 160 'Table is meant to be a simplified span chart for conveying general rail capabilities.Use approved certification letters for actual design guidance. GODWIN ENGINEERING AND DESIGN, LLC 8378 Foxtail Loop, Pensacola, FL 32526 1 (850)712-4219 1 chad@godwineng.com May 12, 2021 To: St. Lucie County Building Division 2300 Virginia Avenue Ft. Pierce, FL 34982 Re: Sheil- Residential PV Roof Mount Installation 4475 N Old Dixie Hwy Fort Pierce, FL 34946 Plan Reviewer, This letter is regarding the installation of a new roof mounted Solar PV System on the existing residential structure at the address above. I have reviewed the attachment plan and have determined that the roof mounted PV system is in compliance with the applicable sections of the following Codes as amended and adopted by the jurisdiction: 2020 Florida Building Code 7th Edition, FBC ASCE 7 Min. Design Loads for Buildings &Other Structures Per 2020 FBC,the Roof Mounted PV system will be subject to the following design criteria: Design Wind Speed(V it) - 160mph 3sec gust, Exposure Category-C The PV System consist of the modules,railing, and connection hardware.The system will add a dead load of approximately 3 psf to the roof. The existing roof covering is Metal Panel.The roofing,decking, and roof trusses are in good condition.The existing structure will be adequate for supporting the additional PV dead load and wind loads. The securement method of the PV system is to be flush mounted to the metal panel roof with the Ironridge railing and the S-5 Protea Brackets.The attachments can be attached up to 24"apart in roof zones 1, 2e, 2n, 2r, 3e,&3r.The mounts should be staggered,where possible,to allow distribution of the design loads evenly to the structure.The mounts shall be installed with 4 x 6mm x 25mm Bi-metal self-piercing screws. Please see attached documents and contact me should you have any questions. Donnie C G E N Sincerely, God Win No *1360 *: ;♦- STATE GF D. Chad Godwin, PE 81360 2021 .05.13 :9•. . T P. ',,,dos.<°R�O,.•��`. Exp. 02/28/2023 13:15:23 '00'05— Do. oo ASCE 7-16 CHAPTER 29 WIND LOADS-Rooftop Solar Panels Minimum Design Loads-Part 1:Enclosed(gable,h<60ft,7°<0<20°) Risk Category II Table 1.5-1 Load Types Load,PSf Basic Wind Speed(Ult) 160 mph Figure 26.5-16 Dead Load,D 3 Wind Speed(asd) 124 mph IBC 1609.3.1 Weight of Ice,Di 0 Roof Angle 18 Earthquake,E 0 Effective Wind Area 21.40 ft2 26.20 Fluid,F n/a Wind Load Parameters Flood Load,Fa n/a Wind Directionality Kd 0.85 Table 26.6-1 Lateral Earth psi,H n/a Exposure Cat. B,C,or D C Section 26.7 Live Load,L n/a Topographic factor Kzt 1.00 26.8 or 26.8.2 Roof Live,Lr n/a Ground Elevation Factor Ke 1.00 Table 26.9-1 Rain,R n/a Velocity Exposure Coefficient K, 0.85 Table 26.10-1 Snow,S Array Edge Factor YE 1.50 29.4.4 *Modules are considered Exposed Self-Straining,T n/a Solar Panel Equalization Factor 7. 0.67 Fig.29.4-8 Wind,W see calc Velocity Pressure qh 28.41 psf qh=0.00256 K KZ1KdKeV2 Wind-on-Ice,Wi n/a Mean Roof Height h 15.00 ft h2 5 In Not>10in(panel height above roof( 0.4h 6.00 ft 2h2 10 In *min distance array shall be from the roof edge,Gable Ridge,or hip ridge least horizontal dim 528 In 0.25 In min gap between all panels but not>6.7ft 10%of least horizontal dim 4.40 ft d1 1.00 ft Horizontal distance orthogonal to panel edge Roof Zone Set Back a 4.40 ft d2 0.25 ft Horizontal distance from edge of one panel to the nearest edge in the next row 0.5h 7.50 ft 1.51-p r 9.88 ft *modules are considered exposed that are within 1.51-p from roof edge Figure 30.3-2b(Gable roof,h<60ft,7°<8<20°) Zone 1 2e 2n 2r 3e 3r GC, -2.00 -2.00 -2.60 -2.60 -2.60 -3.00 uplift GCp 0.50 0.50 0.50 0.50 1 0.50 0.50 downward p=gh(GCp)(-/j(ya) -56.92 -56.92 -74.00 -74.00 -74.00 -85.38 psf uplift p=gh(GCp)(-/j(Ta) 14.23 14.23 14.23 14.23 14.23 14.23 psf downward Design Calculations for the Use of Attachment Module Length C(Lp) 6.58 ft Module Width B 3.25 ft Module Area A 21.40 ft2 Total Design Load(Uplift) Pdesign 53.92 -53.92 -71.00 -71.00 -71.00 -82.38 psf Total Design Load(Downforce) Pdesign 17.23 17.23 17.23 17.23 17.23 17.23 psf Design Load per Module T p -1153.71 -1153.71 -1519.08 -1519.08 -1519.08 -1762.66 Ibs T p=A*Pdesign Design Load per Module Tdown 368.66 368.66 368.66 368.66 368.66 368.66 Ibs Tdn=A*Pdesign Distributed Load(Uplift) Pdlst.Up -118.33 -118.33 -155.80 -155.80 -155.80 -180.79 1 plf Top/B*3(3rd rail) Distributed Load(Down) Pdist.Down 37.81 37.81 37.81 37.81 37.81 37.81 plf Tdn/B*3(3rd rail) Railspan Between Anchor Points L 2 2 2 2 2 ft Point Load per Mount(Uplift) R -236.66 -236.66 -311.61 -311.61 -311.61 -361.57 Ibs Point Load per Mount(Down) R 37.81 37.81 37.81 37.81 37.81 37.81 Ibs 2.00 Table 1.1-Pullout Value for S-S Mount Ultimate Pullout W 950 950 950 950 950 950 Ibs Ultimate Pullout Value per S-51 Design Pullout Value per Mount Wt 475 475 475 475 475 475 Allowable Pullout Value DESIGN CHECK SF 2.01 2.01 1 1.52 1 1.52 1.52 1.31 Calculation:SF=W,/R(Uplift) 1 2e 2n 2r 3e 3r Maximum Cantilever from Last attachment Max Cantilever M 8 8 8 8 8 8 in Max rail span*33% S......�.I Donnie C No 81360 Godwin - 2021.05.13 ,O��ss/ONA...... % ` ,rrrtttrttt`� '00'05- 13:15:41