Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
42-008 (3)
;U U N I RA Llnirac Code-Compliant Installation Manual SolarMount ASCE 7-05 AND ASCE 7-10 Step 2:Determine the Distributed Load on the rail, Step 3:Determine Rail Span/L-Foot Spacing W(AD Using the distributed load,w,from Part II,Step 2,look up the Determine the Distributed Load,w(plf),by multiplying the allowable spans,L,for each Unirac rail type,SOLARMOUNT module length,B(ft),by the Total Design Load,P(psf)and (SM) and SOLARMOUNT Heavy Duty(HD)in table 14. dividing by two.Use the maximum absolute value of the three downforce cases and the Uplift Case. We assume each module The L-Foot SOLARMOUNT Series Rail Span Table uses a single is supported by two rails. L-foot connection to the roof,wall or stand-off. Please refer to w=PB 12 the Part III for more installation information. w=Distributed Load(pounds per linear foot,plf) B=Module Length Perpendicular to Rails(ft) P= Total Design Pressure(pounds per square foot,psf) Table 14.L-Foot SOLARMOUNT Series Rail Span SM-SOLARMOUNT HD-SOLARMOUNT Heavy Duty Span Distributed Load oundsllinear foot) A 20 25 30 40 50 60 BO 100 120 140 160 180 200 220 240 260 2 SM SM' SM SM SM SM SM SM SM SM SM SM sn ,' SM SM SM 2.5 SM SM SM SM . SM SM SM SM SM SM SM SM SM 3 SM. SM SM SM SM SM SM SM' SM SM SM 3.5 SM SM SM "SM SM SM SM' SM SM' " SM- 4 SM` SM-'' SM _ SM SM SM SM r, SK- .SM 4.S SM SM C SM SM SM SM SM SM' 5 SM SM ,SM SM SM` SM SM SM'"" µ •; 5.5 SM SM SM SM SM SM SM 6 SM SM SM SM SM SM S14 ` 6.5 SCE SM SM SM SM SM SM 7 SK SM '. SM SM` " :SM SM 7.5 SM_; SM' SM SM SM SM 8 SM SM i SM '' SM SM SM 8.5 SM. SK-1 SM SM SM C9 . 9 SM SM SM SM 9.5 SM SM - SM SM M 10 SM SM SM 10.5 SM :'SM SM I I SM v SM 11.5 SM 12 SM ., a; Page 26 :E°UNIRAC SOLARMOUNT Beams Part No. 310132C, 310132C-B, 310168C, 310168C-B, 310168D 310208C, 310208C-B, 310240C, 310240C-B, 310240D, 410144M, 410168M, 410204M, 410240M Properties Units SOLARMOUNT SOLARMOUNT HD Beam Height in 2.5 3.0 Approximate Weight(per linear ft) plf 0.811 1.271 Total Cross Sectional Area in 0.676 1.059 Section Modulus(X-Axis) in3 0.353 0.898 Section Modulus(Y-Axis) in3 0.113 0.221 Moment of Inertia(X-Axis) in° 0.464 1.450 Moment of Inertia(Y-Axis) in 0.044 0.267 Radius of Gyration (X-Axis) in 0.289 1.170 Radius of Gyration(Y-Axis) in 0.254 0.502 Rails are extruded using these aluminum alloys: 6005-T5, 6105-T5, 6061-T6 SLOT FOR T-BOLT^" 1/4" HEX HEAD SCR 2X SLOT FOR BOTTOM CLIP SLOT FO 38" HEX BOL 387 .7! 2.500 T 1.316 —L Y ►X SOLARMOUNT Beam SLOT FOR T-BOLT OR X"HEX HEAD SCREW SLOT FOR BOTTOM CLIP 1.728 3.000 Dimensions specified in inches unless noted a —TI SLOT FOR HEX BOLT 1.385 � 1.87512 Y `X SOLARMOUNT HD Beam Dimensions specified in inches unless noted a SOLARMOUNT Beam Connection Hardware SOLARMOUNT L-Foot Part No, 3040000, 304000D Y ►X 1 3.01 3X SLOT FOR j 1i HARDWARE 101 Dimensions specified in inches unless noted :6�UNIRAC' • L-Foot material: One of the following extruded aluminum alloys: 6005- T5, 6105-T5, 6061-T6 • Ultimate tensile: 38ksi,Yield: 35 ksi • Finish: Clear or Dark Anodized • L-Foot weight: 0.215 Ibs(98g) • Allowable and design loads are valid when components are assembled with SOLARMOUNT series beams according to authorized UNIRAC documents Foot For the beam to L-Foot connection: •Assemble with one ASTM F593 W-16 hex head screw and one ASTM F594'/e'serrated flange nut •Use anti-seize and tighten to 30 ft-Ibs of torque • Resistance factors and safety factors are determined according to part 1 section 9 of the 2005 Aluminum Design Manual and third-party test results from an IAS accredited laboratory NOTE: Loads are given for the L-Foot to beam connection only; be sure to check load limits for standoff, lag screw,or other attachment method Applied Load Direction Average Ultimate Ibs(N) Allowable Load Ibs(N) Safety Factor, FS Design Load Ibs(N) Resistance Factor, 0 Sliding,Z± 1766(7856) 755(3356) 2.34 1141 (5077) 0.646 Tension,Y+ 1859(8269) 707(3144) 2.63 1069(4755) 0.575 Compression,Y- 3258(14492) 1325(5893) 2.46 2004(8913) 0.615 Traverse,X± 486(2162) 213(949) 1 2.28 323(1436) 0.664 3 Enphaseo M215 Microinverter//DATA INPUT DATA(DC) M215-60-2LL-S22-IG /S23-IG/S24-IG Recommended input power(STC) 190-270 W Maximum input DC voltage 48 V Peak power tracking voltage 27 V-39 V Operating range 16 V-48 V Min/Max start voltage 22 V/48 V Max DC short circuit current 15 A Max input current 10A OUTPUT DATA(AC) @208 VAC @240 VAC Peak output power 225 W 225 W Rated(continuous)output power 215 W 215 W Nominal output current 1.1 A(A rms at nominal duration) 0.9 A(A rms at nominal duration) Nominal voltage/range 208 V/183-229 V 240 V/211-264 V Nominal frequency/range 60.0/57-61 Hz 60.0/57-61 Hz Extended frequency range* 57-62.5 Hz 57-62.5 Hz Power factor >0.95 >0.95 Maximum units per 20 A branch circuit 25(three phase) 17(single phase) Maximum output fault current 850 mA rms for 6 cycles 850 mA rms for 6 cycles EFFICIENCY CEC weighted efficiency,240 VAC 96.5% CEC weighted efficiency,208 VAC 96.5% Peak inverter efficiency 96.5% Static MPPT efficiency(weighted,reference EN50530) 99.4 % Night time power consumption 65 mW max MECHANICAL DATA Ambient temperature range -40°C to+65°C Dimensions(WxHxD) 171 mm x 173 mm x 30 mm(without mounting bracket) Weight 1.6 kg(3.4 Ibs) Cooling Natural convection- No fans Enclosure environmental rating Outdoor-NEMA 6 FEATURES Compatibility Compatible with 60-cell PV modules. Communication Power line Integrated ground The DC circuit meets the requirements for ungrounded PV arrays in NEC 690.35. Equipment ground is provided in the Engage Cable. No additional GEC or ground is required.Ground fault protection(GFP)is integrated into the microinverter. Monitoring Enlighten Manager and MyEnlighten monitoring options Compliance UL1741/IEEE1547, FCC Part 15 Class B,CAN/CSA-C22.2 NO.0-M91, 0.4-04,and 107.1-01 Frequency ranges can be extended beyond nominal if required by the utility To learn more about Enphase Microinverter technology, Cep enphase® visit enphase.com E N E R G Y ©2014 Enphase Energy.All rights reserved.All trademarks or brands in this document are registered by their respective owner. Enphase®Microinverters Enphase'DM215 The Enphase" M215 Microinverter with integrated ground delivers increased energy harvest and reduces design and installation complexity with its all-AC approach. With the advanced M215, the DC circuit is isolated and insulated from ground, so no Ground Electrode Conductor (GEC) is required for the microinverter. This further simplifies installation, enhances safety, and saves on labor and materials costs. The Enphase M215 integrates seamlessly with the Engage" Cable, the Envoy Communications Gatewaim, and Enlighten®, Enphase's monitoring and analysis software. PRODUCTIVE - Maximizes energy production - Minimizes impact of shading, dust, and debris - No single point of system failure [e] enphase® E N E R G Y SIMPLE - No GEC needed for microinverter - No DC design or string calculation required - Easy installation with Engage Cable RELIABLE - More than 1 million hours of testing and millions of units shipped - Industry-leading warranty, up to 25 years @01,C s MECHANICAL SPECIFICATION first year.Thereafter max.0.6%degra- Format 65.7 in x 39.4in x 1.38in(including frame) -0.30 dation per year. NOCT [°F] (1670 mm x 1000 mm x 35 mm) At least 92%of nominal power after E5 °mm, 10 years. W Weight 41.89 lb(19.0 kg) At least 83%of nominal power after i °0 C 25 years. 5 -40°F up to+185°F All data within measurement tolerances. on continuous duty + i 100 000 '°° °oo °m eaa wo wo aaa ,mo Front Cover 0.13 in(3.2 mm)thermally pre-stressed glass IRRADIANCE IN/W1 organisation of your respective country. UL 1703;VDE Quality Tested;CE-compliant; Number of Modules per Pallet with anti-reflection technology IEC 61215(Ed.2);IEC 61730(Ed.1)application class A Q® Number of Pallets per 53'Container Number of Pallets per 40'Container Back Cover Composite film C E C us Pallet Dimensions(L x W x H) °ra„somm, (1740 x 1130 x 1170 mm) Frame Black anodized aluminum Pallet Weight 1323 lb(600 kg) o ^� on approved installation and use e r Cell 6 x 10 polycrystalline solar cells Junction box Protection class IP67,with bypass diodes Cable 4 mm2 Solar cable;(+)2-45.67 in(1160 mm),(-)245.67 in(1160 mm) Connector SOLARLOK PV4, IP68 °mm, 0.798120IOI°,,,•,,mm, mm, ELECTRICAL CHARACTERISTICS PERFORMANCE AT STANDARD TEST CONDITIONS(STC:1000 W/m',25°C,AM 1.5G SPECTRUM)' NOMINAL POWER(+5W/-OW) [W] 255 260 265 Average Power PMPP [W1 257.5 262.5 267.5 Short Circuit Current Isc [A] 8.90 9.09 9,28 Open Circuit Voltage V. [V] 37.83 38.18 38.52 Current at PmpP IMPP [A] 8,37 8.53 8.69 Voltage at PMPP VMPP IV] 30.77 30.78 30.79 Efficiency(Nominal Power) rl 1%] 2--15.3 >15.6 2--15.9 PERFORMANCE AT NORMAL OPERATING CELL TEMPERATURE(NOCT:800 W/m2,45 s3°C.AM 1.5G SPECTRUM)' NOMINAL POWER(+5 W/-0 W) [Wl 255 260 265 Average Power PMPP [W] 189.7 193.4 197.1 Short Circuit Current Isc [A] 7.18 7.33 7.48 Open Circuit Voltage Vac [V] 35.22 35.54 35.86 Current at PM" IMPP [A] 6.56 6.68 6.80 Voltage at PMPP VmPP [V] 28.92 28.94 28.97 'Measurement tolerances STC:t3%(P_);t 10%(I,°,1 P--1_1 VmPP) 2 Measurement tolerances NOCT:t 5%(P_); t 10%(I,°,V Im",VmPP) 0 CELLS PERFORMANCE WARRANTY PERFORMANCE AT LOW IRRADIANCE 5W ' YEARS At least 97%of nominal power during first year.Thereafter max.0.6%degra- Temperature Coefficient of V. 0 [%/K] -0.30 dation per year. NOCT [°F] 113 t 5.4(45±3'C) At least 92%of nominal power after E5 10 years. W II At least 83%of nominal power after i °0 C 25 years. 5 -40°F up to+185°F All data within measurement tolerances. on continuous duty (-40'C up to+85'C) Full warranties in accordance with the 100 000 '°° °oo °m eaa wo wo aaa ,mo warranty terms of the Q CELLS sales IRRADIANCE IN/W1 organisation of your respective country. The typical change in module efficiency at an irradiance of 200 W/m2 in relation to 1000 W/m2(both at 25°C and AM 1.5G spectrum)is-2%(relative). TEMPERATURE COEFFICIENTS(AT 1000W/M',25°C,AM 1.5G SPECTRUM) Temperature Coefficient of Isc a [%/K] +0.04 Temperature Coefficient of V. 0 [%/K] -0.30 Temperature Coefficient of PMPP Y [%/K] -0.42 NOCT [°F] 113 t 5.4(45±3'C) PROPERTIES FOR SYSTEM DESIGN Maximum System Voltage VsYS [V] 1000(IEC)/600(UL) Safety Class II Maximum Series Fuse Rating [A DC] 20 Fire Rating C Max Load(UL)' [Ibs/ft'] 75(3600 Pa) Permitted module temperature -40°F up to+185°F on continuous duty (-40'C up to+85'C) Load Rating(UL)' [Ibs/ft2] 75(3600 Pa) 2 see installation manual QUALIFICATIONS 1 CERTIFICATES PACKAGING INFORMATION UL 1703;VDE Quality Tested;CE-compliant; Number of Modules per Pallet P9 IEC 61215(Ed.2);IEC 61730(Ed.1)application class A Q® Number of Pallets per 53'Container Number of Pallets per 40'Container 32 26 C E C us Pallet Dimensions(L x W x H) 68.5 in x 44.5 in x 46.0 in (1740 x 1130 x 1170 mm) Pallet Weight 1323 lb(600 kg) NOTE:Installation instructions must be followed.See the installation and operating manual or of this product. contact our technical service department for further information on approved installation and use Hanwha 0.CELLS USA Corp. 8001 Irvine Center Drive,suite 1250,Irvine CA 92618,USA I TEL+1 949 748 59 96 1 EMAIL q-cells-usa @q-cells.com I WEB www.q-cells.us Engineered in Germany OCELLS The new Q.PRO BFR-G3 is the reliable evergreen for all applications, with a black frame design for improved aesthetics. The third module genera- tion from Q CELLS has been optimised across the board: improved output yield, higher operating reliability and durability, quicker installation and more intelligent design. INNOVATIVE ALL-WEATHER TECHNOLOGY • Maximum yields with excellent low-light and temperature behaviour. • Certified fully resistant to level 5 salt fog ENDURING HIGH PERFORMANCE • Long-term Yield Security due to Anti PID Technology', Hot-Spot Protect, and Traceable Quality Tra.QT11. • Long-term stability due to VIDE Quality Tested—the strictest test program. SAFE ELECTRONICS • Protection against short circuits and thermally induced power losses due to breathable junction box and welded cables. • Increased flexibility due to MC4-inter- mateable connectors. THE IDEAL SOLUTION FOR: PROFIT-INCREASING GLASS TECHNOLOGY • Reduction of light reflection by 50%, plus long-term corrosion resistance due to high-quality • Sol-Gel roller coating processing. LIGHTWEIGHT QUALITY FRAME • Stability at wind loads of up to 5400 Pa with a module weight of just 19 kg due to slim frame design with high-tech alloy. MAXIMUM COST REDUCTIONS • Up to 31% lower logistics costs due to higher module capacity per box. EXTENDED WARRANTIES • Investment security due to 12-year product warranty and 25-year linear performance warranty'. ®Rooftop arrays on Ground-mounted Rooftop arrays on commercial/industri- solar power plants ® residential buildings al buildings ® APT test conditions:Cells at-1000V against grounded,with conductive metal foil covered module surface, 25°C, 168h See data sheet on rear for further information. Engineered in Germany ToCacti s 0 Phntnln, Quality Tested QCELLS n�yn.etab�uty Best polycrystalline iow aegraeaeon solar module 2013 Geque�t _ product su Q.Paa62235 ID.40032587 tsi. ukt.ma aa . OCELLS Wiring Description ro o Q ^ N Special Notes: r ` z E Z z w Q O G � Z Meter Type �_ " > Enphase RGM ° o v The standard process for installing a LST in the gutter space. 1)Access the work space and move any obstacles that will be in the way while working 2)Put on the proper PPE 3)Inspect the panel and surrounding area for hazards 4)Remove the panel cover `^ 5)Determine that the panel Is suitable for the LST a 6) Determine the location of the new fused disconnect switch(60 Amp minimum)or main circuit breaker enclosure(125 Amp minimum).This must be within 10'of the tap location.If FMC or Sealtite is used it cannot be g more than 6'and must be bonded on both ends. 7)Install the switch or circuit breaker enclosure.If the main breaker enclosure is being installed in an existing finished wall or finished living space,recess the enclosure if possible. 8)Install metal conduit from main service panel to the new switch or main circuit breaker enclosure.Bonding bushings are required.Minimum 1",but sized as designed and necessary depending on LST wire size. 9)Install COPPER wiring for the LST.#4 Minimum,but sized as designed and required by the LST amperage.Bring the wire in behind all existing wiring in the panel.Enter the panel on the same side as the tap when possible. Our standard"B-Tap"are rated for 4/0 wire.If an existing service conductor has tape on the exterior,remove the tape before installing the"B-Tap". 10)Terminate wiring at the fused disconnect switch or the main buss in the new main circuit breaker enclosure. 11)Neutral WILL be BONDED In this enclosure. 12)Locate best location to install the B-Taps and complete the taps in the main service panel.Check and dress all wiring in this panel. > m 13)Test power on the LINE SIDE of the main breaker installed in the new main circuit breaker enclosure.If all is good,move on,if not troubleshoot the taps. 14)Install the lock out tag out kit 15)Take photos of connections and taps and close up the main service panel. Conduit Runs: 1)All conduit runs shall be sized appropriately for the conductors being installed.The lead electrician is responsible for verifying that the correct conduit size,and type is being installed. 2)Greenfield(flexible metal conduit,FMC)shall be Aluminum,ONLY.Size shall be as designed. 3)Greenfield,PVC,and EMT shall be installed in a neat and workmanlike manner. a.Following building lines b.Square with the building c.Straight and level z o d.Supported as per the NEC "-' o 0 a e.Penetrations shall be sealed,inside and out. PVC will require expansion fittings as required by the NEC " Z G Conductor Installation: w 1)DCwiring inside of a building must be installed in metallic conduit. _ o 2)Any DC wiring installed in conduit will need to be labeled appropriately 3)USE-2 cannot be used inside a home even when sleeved in conduit. 4)All wiring shall be sized as designed.Any questions concerning wire size should be directed to the designer or your manager. 5)All wiring MUST be THHN-THWN-2 Copper,unless otherwise specified 6)All circuits MUST be labeled appropriately on both ends with the circuit identification 7)Conductors as much as possible should be installed from the soladeck or junction box to the PV combiner panel in one continuous length with no additional splices.If splices are necessary,the circuits MUST be identified in the junction box,also.The junction box MUST be sized appropriately and bonded as necessary.The same applies to boxes specifically used as pull boxes. 8)Care MUST be taken to assure that the conductors are not damaged during installation.Use appropriate pulling compounds,if necessary. WIRING 9)The number of conductors/circuits installed in each conduit is listed on the design.This number MUST be adhered to.Conduit fill and de-rating calculations have been done in the design and MUST be followed.If it is DESCRIPTION necessary to change the conductors in a conduit,check with the designer or your manager. 10)Once all conductors have been installed in a conduit,the conduit opening MUST be sealed to prevent air exchange between cold and warm atmospheres that can cause moisture buildup and damage to the interior of the property.Ductseal compound is to be used for this. PV-5 String and Conduit Layout 0 a n 0 w o 0 a z E Rw c W j Z W —ge E' a 0 d . G N Z v --- w h Ei a i — Q D rt C.—u,1(1')N 1 I _ Circuit 1(1 2)o \I :, Circuit 3(8) 0 Junction Box(3) Eud Cy,O �d a T—k Cable Exterior Conduit t^x Shapiro,Lynne.Residence Electrical Review ' 987 Westhampton Rd.Florence,MA 01062 Hopkinton,MA Office:Walter Jette Reviewed By:Michael Laffredo(267)733-4803 Financing:Purchase (32)Q Cells 265w Panels with(32)M215 Inverters PV meter type:Enphase RGM Emu location:Interior near the main panel ° Internet Connection:Bridge G z o Main Electrical Panel: GE(200 Amp)22k AIC o E3 d a Utility:National Grid u 6 N W V Circuit Calculations:32 M215 inverters x.9/Inverter=28.8 Amps x 1.25=36 FLA. < a PV combiner with(3)15 Amp,2 pole circuit breaker,(1)15 Amp,1 pole circuit breaker(for EMU) `^ 3 Interconnection calculation:N/A,Line-Side-Tap Interconnection will be a feeder tap in the gutter space of the existing main electrical disconnect outside in meter/disconnect.From the LST install wiring to a 60 Amp fused disconnect with a 40 Amp fuses mounted to the left ofthe utility meter/Service disconnect.Wiring from the disconnect switch,will then be installed through the PV meter and then into the PV combiner panel.From the PV combiner panel,run exterior conduit up the wall following the service drop and onto the roof surface.Continue across the roof surface to the first junction box located under the array on roof A. From the first junction box,run conduit towards the second junction box on the same roof.From the second junction box run conduit towards the third junction as shown in the drawing. All roof mounted conduit must be at least 1"above the roof surface and flash supported properly.There will be three circuits of inverters to the roof. STRING& Main PV Disconnnect Exterior To the left of Main Disconnect cellar CONDUIT LAYOUT Utility PV Disconnect Exterior 0 0 PV Meter Exterior To the left of Utility Meter PV Combiner Panel Exterior To the left of Utility Meter SE Inverter 0 0 0 EMU Interior Adjacent to Main Panel PV-4 Comunication Equipment Bridge #N/A m � o Q Calculation for PV Breaker PV Wire Calculation PV Service Calculation o ,,, o °o Calculation for Main PV Breaker&Circuits Minimum Wire Size 1110 AWG Minimum Wire Size 116 AWG i d system Current 3z 1 - 32Amps WIRE SIZING CALCULATION Wire Call:1 WIRE SIZING CALCULATION Wire Call:2 Z x 2011/2014 NEC Article 310 2011f2014 NEC Article 310 w ¢ ° a Design Amperage= 32 x 125% = 40 Amps Full Load Amperage.............:28.8 Full Load Amperage.._..__._.:10.8 w Main Buss Rating= 200 x 120% = 240 Amps Source Voltage___._....__.-:240 Source Votage_._..._..__.:240 a > Existing Main Breaker = 200 Amps Length of Run(Feet) .:75 Length of Run(Feet) - 30 0 ° Load Duty_......... :Continuous Max Solar Breaker zoo (-I zoo = 40 Amps Load Duty __Application :Continuous y LL x 1 x 125%= 15 Amps Conductor Application -...:Conductors in Raceway,Cable or Conductor Application -- Conductors in Raceway.Cable of Earth Circuit x 1= 12 Conductor Ampacity Table _._ NEC Table 310-15(6x16) x 1 x 125%= 15 Amps Earth tircuit#z= 1z Conductor Ampacity Table...__:NEC Table 310-15(Bx16) Conductor Type_-__._.___:THHN Copper Circuit#3= B x 1x125%= 10Amps Conductor Type __._...___:THHN Copper Conductor Location_.......__:Dry/Damp Circuit#4= 0 x 1x125%= 0Amps Conductor Location........ Dry/Damp Conductor Insulation Temperature:90 aC x 1 x lzsv- o Am Conductor Insulation Temperature:90 aC Ambient Temperature_.._..__:26-30 aC=78-86 eF circuit#5= o °- ps Rooftop Installation:NEC 310.15(B)(3xc) Terminal Temperature Rating._:60 aC h Circuit#6= 0 x 1 x 125%= 0 Amps Distance Above Roof... -- Above 13 mm to 90 mm[above 1/2 Circuit Type-Single Phase 3 Wire(2 phase conductors&neutral) pg circuit#7= 0 x 1.125%= 0 Amps inch to 3 1/2 inch] Qty.of Circuit Current-Carrying Conductors:2 Circnn#s= o x 1z125%= DAmps Average Outside Temp_.-___.:60 Deg-F 15.6 Deg.0 Conductor Requirement: w Circuit#9 o x 1x12s%= oAmps Temperature Adder.... 40 Deg.F22 Deg.0 Full Load Amps__..___:1.25 m -_ Load Duty Multiplier-_.:1.25 Circuit#10= 0 1 z 125%= 0 Amps Adjusted Ambient Temperature _.:100.0 Deg.F 37.6 Deg.C Ambient Temp.Multiplier.:1.0 x Terminal Temperature Rating._.-.60 eC Qty.Conductors Multiplier_.1.0 Circuit Type:Single Phase 3 Wire(2 phase conductors&neutral) -----'------------- Qty.of Circuit Current-Carrying Conductors.2 Required Conductor Ampacity:36.0 Additional Current-Carrying Conductors ...:4 Terminal Requirement: o Full Load Amps-_.._..-.:28.8 Total Qty.Current-Carrying Conductors._..:6 Load Duty Multiplier_.._.:1.25 Conductor Requirement: Full Load Amps___._....:10.8 Required Terminal Ampacity:36.0 W „, Load Duty Multiplier.. _:1.25 Selected Conductor: w Ambient Temp_Multiplier 1.1 Conductor Ampacity-_....:55.0 Qty,Conductors Multiplier:115 Ambient Temp.Derate__.:1.0 Qty.Conductors Derate...:1.0 ` Required Conductor Ampacity:18.56 ------""---------- ---- ' Terminal Requirement: Adjusted Ampacity_.._-:55.0 Full Load Amps...........:10.8 SELECTED CONDUCTOR SIZE:6 Awg Load Duty Multiplier 1.25 2 x Ohms/MilFt x Length x Amps 2 x 0.491 x 30 x 36.0 VD=----------------_------------=0.65 Required Terminal Ampacity:13.5 1000 x Qty Wires per Phase 1000 x 1 Selected Conductor:: Vohs At Load Terminals._._:239 15 Conductor Ampacity_.__:30.0 Actual Percent Voltage Drop.:0.35 Ambient Temp.Derate .._:0.91 Qty.Conductors Derate...:0.8 Adjusted Ampacity----.:21.84 Electrical Notes SELECTED CONDUCTOR SIZE:10 Awg 1)All eq,ipmertto be listed and labeled is,Its appfi-1 . 2 x Ohms/MilFt x Length x Amps 2 x 1.24 x 75 x 18.56 2)All mnduaors shall be copper,rated for Ward at envlronmenq unless VD=---------------_--------------=2.01 0 1O ptherwise noted. 1000 It Qty Wires per Phase 1000 x 1 Volts At Load Terminals._._:237.99 G Z ° ul 3)Working clearances around al new and ezisting electrical equipment shall Actual Percent Voltage Drop.:0.84 o a °Q -ply with NEC110.26 p < 4)All wire terminatlana shall be appropriately labeled and readily visable. ° m G Z U 5)Module grounding clips to be Installed between module frame and module Q = 3 O support rail,per grounding clip manufacturers "' InstruRlon. J m F 6)Module Support rail tp be bonded to continuous copper GEC vla W EEB lug per NEC 690.4(C). 7)If used PV power source breaker to be looted at bottom of bus per NEC 690.69(8)(7). 8)AC combiner panels shall be labeled as"Inverter AC Combiner Panel". ELECTRICAL 9)Dsting agency name and number to be indicated on Inverters and modules per NEC 110.3(B) CALCULATIONS So)PV power source breaker to be su hable for backfeed per NEC PV-3.1 kN/A ¢ v o ¢ n w ° o Shapiro, Lynne UtiliryDistr9WtbnCaxea0or � w 987 Westhampton Rd. zmAAV w > o Y Florence,MA 01062 MAIN SERVICE G Fea4rTap WAIN � wO °v Taps BREAKER) (Ewsnr�) w Solo Modnk Total 32 Modules and owners - 240 Volt,1 Rinse Fused f — —— — I Man boding oc wirne from the I"module(typ) Disconnect Switch I connecdoo nwanted adjacent to I I Enphne Micro krverter PV me service disconnect kwen.Model M215-WZLL-S22 Cutler H—AF.6el 9 N"x DCValt Ratio' 95 VO[ weft DG222NR8 �— Max Pow A 40 decrees C 215W Eslphase RGM 45 Amp I I Exsitk Feed.W- May 12 Penh kwerms NomNal K VoKaze 2401M I w ' Ran x AC CUrtad: 09Nro. 12 ■9x125%= 13.5 an 15 Aurp Two Ungranwded wMa[ors and ate Neu[ra I Q'radt Breaker ' per ckak of krverts SS AmD =_ _ _ =°_ _ 1 2(10 Amp 1 e 15 Amp I Main hardkug toad Q caoection I Side p ' I (3)86-THHN-TNWN-2 Capp. ' I 15 A.P I (1)w-THHN-THWN-2CaPPer Gran I ' kwaBaann of the 1°canduh(75')will have I I I"PVC Conduit or three ckcuks.wig consist of IS I 1°Uquidtire Metal l'mdnnk (6)910 THHN-THWN-2.Wussecoductai I e GFa Receptolc I (3)410 THHN-THWN-Z MUtraIL I ( for Engf—EMU Wire Calc 2 Plus Grant .. _ — — (3)04-THHN-THWN-2 Copp. s TWk Army 12 HOek/knveners ' I (1)96-THHN-THWN-2 Copp.Gmod I 125 Any Man tug Inadoente, 12 x.9 x 125%- ° 13.5 on 15" , I 1"PVC Conduit a Wire Calc 1 PV Condkner Panel I Circuit Breaker , CWI.Hammer MOdef 9 BR816L125RP I 1"Uptidtrte MeW Candui[ ' With C-A peakff listed b doW Far Lne Side Tap Conductors (3)15 Amp.2 pale c-a break.as an—-Wove I R6 Bare CU (1) IS Amp.1-pale circuit break.far EMU I I pis Bare CU i 200 Amp Stns ' 5/8x8' 5/8 r8'Ground Rod GE M ' Gsoud Rod Panel oomt��nn 1 This May 8 Paneh/nv.rers 8 x.9 x125%= 9 an 15 Artnp Circuit Breaker p z GZo w o 0 o d ¢ a u Z u m m l= ELECTRICAL DIAGRAM PV-3 0 Typical Section #N/A N K V O a r O w O o This solarar..yiscomprisedof solarpanels.The panels are mounted u,ingthe Unirac5olar Mount splay mounting radio the building's, a � w � spaced at oc.Each splay panel is attached to an Enphase M250-60-2LL-522 micro-inverteralso mounted t°the UniracSolar MOUnt rail _ w"na,rx z E w w Z w directly beneath the panel. w Q O a � G N Z d The solar pa ncla produce DC power when struck bvs Iaht The DC power's converted to 240 V AC power at the-nvercer Micro- _ O O= w inverters are cpnnected'n sty ngs w[h a may mum number o(16 mcro-nverters n each sti ng. ee gas♦` This system will be 1,E tied.If the solar panels produce mare power than is used by the bu Iding,[he excess power flaws back into the util#y grid through a net meter to be available for other power users. K All metal parts including solar panel frames,micrp-inverters,and mounting rails are grounded using the manufacturer's recommended Q grounding method and W EEB technology along with#6 AW G grounding wire. fL The building was constructed in 1956-1957. D quicxu - .. 111 t 11aOK ry m Panel Layout Panel Dimensions #N/A System Weight #N/A Panel Weight 1111", System Distnbutad Load #N/A '- a System Square Footage #N/A Roof Support 0 s ntf aunt Racking Weight #N/A Actual Point Load Max Spacing Oft Micro-Inverter Weight 0lbs Total number of ROOF Penetrations #DIV/01 Max Allowable Rail Overhang Oin allowing Ibs per inch thread depth #N/A Variables Note 2:Roof support Members ore h ft 3 ft Inner Downforce #N/A Nate 3:Unirac Solar Mount Racking Nate 4: H ft Wind Di #NIA Pnet Uplift #N/A Roof Pitch degrees Wind Uplift #N/A U #N/A Load Combinations wMax #N/A y 90 mph Kt 1 Dl D2 W#N/A Max Span #N/A Snow Lood 40 psf Exposure Category B Dead Load D #N/A #N/A Actual5pan Oft Roof Zone 3 ,1 1 Snow Load S 40.0 0.0 Rd #N/A E #N/A 1 1 DWL• Pner 0.0 #N/A Ru #N/A O d Q ry Total Load P•• #N/A #N/A #N/A #N/A I psf Required Thread Depth #N/A Q Distnb TL #N/A #N/A #N/A #N/A plf Actual Thread Depth 2.25 in i~is Z V 3 a o •DWL Design Wind Load N m w h ••Absolute values are indicated for the calculated quantities of P-Uplift and W-Uplift Glossary of Terms for Load Calculations h Building Height A Adjustment Factor for height H Building Least HOrixontal f PlKh Roof Pitch 1 Importance Factor of for a single family residence y eed DESCRIPTION OF B.,Ic Wind Sp Snow Load Snow Load R Module length perpendiculartp beams WORK&LOAD Rpp)gpna B fZone Rd Point Load-Maximum Downforce E Effective Roof Area Ru Point Load-Uplift CALCULATIONS Roof Zone Setback Length Exposure B-SUburbansingle family dwelling Pnet Downforce Net D esign Downforce Pressure 0°tsa°n' Pnet Uplift Net Design Uplift Pressure PV-2.2 Kat Topographic Factor A Typical Section ob This solarar..y is c.,p,,,.d of 32 solar p-111.The b-111 are--d!using the U,i,,,Sol.,MOUnt solar mounting-I to the building's 2,8, > < spaced at 16—Each solar panel is attached to an Eriph—M250-60-21-1--S22 —1,,mounted to the Uoi—5.1,,M...t rail 'w E directly beneath the panel. Z b' 0 ow Z The solar in-1,d—DC on,.,when struck by sunlight.The LC p,,,,is--fted to 240 V AC p—,at the inverter.Micro—inverters Micro-inverters are LL b.n..a,d in strings whh.rr,oirr—.,,be,of 16 In each string. This system will be iind-tied.uth,solar p.111,produce more p,,,,than is used by the building,the--p—,fl—back into the utility grid through,net rnete,to be—il,ble for other p,,., All rn—1 pan,including solar P1111 frames, no mounting all,are grounded usirgth.rn—f--rs—c—rd.d grounding method and WEEB—hr,lalong with#6 AWG grounding.1- The building was,chid in 1956-57, In, Panel layout Panel Dimensions #N/A System Weight #N/A ell Panel Weight #N/A system Distributed Lead #N/A System Square Footage #N/A Roof Support 2x8 Racking Weight #NJA Actual Point Load Max Spacing 4 ft Micro-Inverter Weight 140.8 lbs Total number rf Roof Penetrations 75 Max Allowable Rail Overhang 16 in Member,are Hem,Fir(North)allowing 235 lbs perinch thread depth No.1:Use 5116"x 4-H-Head Stainless S-1 Lap 5,— Variables Note 2:Roof Support Members are 2,8 IT 32 ft 3 ft P"'""'force #N/A Not,3 un-c Solar Mount Racking Note 4 H 26 ft Wind Dowrforce #N/A Pret Uplift #N/A Roof Pitch 40 degrees Wind Uplift #N/A B #N/A Load C—bir lone wMax #N/A Max Span #N/A V 90 mph Ktt Uplift 8 Snow Load 40 1psf Expos...Category B 11)..d Load 1) #N/A I #N/A #N/A #N/A lb�f Actual Span 4 ft T, cl 0 r, z 1. 2 w 0 [S...—Load —S 40.0 0.0 30.0 0.0 Isf Rd #N/A Roof Zone 3 C3 b, E #N/A 2t 0.0 N/A IN/A .WON/A psf Ru #N/A Total Load I•• #NTA :N/A #N/A #N/A psf Required Thread Depth #NJA Di,trib TL #N/A #N/A #N/A #N Actual Thread Depth 2.25 in u 0 an ca •DWL:Design Wind Load u! o" wz Absolute values are indicated Jar the calculated quantities ofJo-Upift and w-Uprllijft Glossary of Terms for Load Calculations h Balding-ght A Adjustment F.a,r for height H Building Least Horizontal Roof Pitch Roof Pitch 1 Importance F.I.,of for,single family residence DESCRIPTION OF v B.-Wind speed So..Load Sr..Load B ..dblo length perpendicular to beams WORK&LOAD Roof Zone —f—. Rd Point Load-Maximum D—f... CALCULATIONS E Effectiii.Roof Area R. Point Load-Uplift a R..fZ.n.Setback Length E.P.." B-Suburban ngl.family dwelling Pre,Db..Iror Net Design D...far,,Pressure Co..., P—Uplift Net D—Uplift P....... Kit Topographic F—, Shapiro Residence Building inspector 987 westhampton Rd 212 main st northhampton Ma ti Florence,Ma 01062 _ __ _.. _._-_ ____ _.- _____— ___. O w o g City of Northampton R-1 A w E E z Y System Ratings Building Department Rx„k: IXnvn;6 a 0 #N/A Plan Review 8 kW AC Photovoltaic Solar Array R” 0 0 212 Main Street Rxh�e:b' LL Northampton, MA 01060 Equipment Summary 32 Modules RcV A ° h ����// nr` Y 32 Enphase M3Q60-2LL-522 Inverters Reltpt 6 lknvn.6° 75 Roof Attachments D—o! Sheet index ,� 1t{ PV-1 Cover bfrler ",._ Q PV-2.1 Description of Work and Load Calculations- A PV-2.2 Description of Work and Load Calculations- i.a PV-3 Electrical Diagram PV-3.1 Electrical Calculations M PV-4 String and Conduit Layout PV-5 Wiring Description PV-6 Equipment Ratings and Signage Governing Codes 2014 National Electric Code Massachusetts Residential Code,8th Edition Underwriters Labratories(UL)Standards o OSHA 29 CFR 1910.269 z GZo ASCE-7-10 0 a Q _ R G z G = 3 0 LL A� COVER SHEET PV-1 tP% Direct Energy Solar Framing Check (Roof A2 -West) PASS w=64 plf Dead Load 15.7 psf PV Load 4.0 psf Snow Load 28.0 psf x. 2xferslf� rs; *- Governing Load Combo=DL+SL c Member Span=8'-6" Total Load 47.7 psf Member Properties Member Size S(in^3) 1(in^4) Lumber Sp/Gr Member Spacing 2x6 7.56 20.80 SPF#2 @ 16"o.c. Check Bending Stress Fb(psi)= fb x Cd x Cf x Cr (NDS Table 4.3.1) 875 x 1.15 x 1.3 x 1.15 Allowed Bending Stress= 1504.3 psi Maximum Moment = (wL^2)/8 = 573.965 ft# = 6887.58 in# Actual Bending Stress=(Maximum Moment)/S =910.8 psi Allowed>Actual-60.6%Stressed -- Therefore,OK Check Deflection Allowed Deflection(Total Load) = L/180 (E=1400000 psi Per NDS) = 0.566 in Deflection Criteria Based on = Simple Span Actual Deflection(Total Load) _ (5*w*L^4)/(384*E*I) = 0.257 in = L/397 > L/180 Therefore OK Allowed Deflection(Live Load) = L/240 0.425 in Actual Deflection(Live Load) _ (5*w*L^4)/(384*E*I) 0.151 in L/676 > L/240 Therefore OK Check Shear Member Area= 8.3 in"2 Fv(psi)= 135 psi (NDS Table 4A) Allowed Shear = Fv*A = 1114 lb Max Shear(V)=w*L/2 = 270 lb Allowed>Actual--24.3%Stressed -- Therefore,OK 89SS Henkels Lane • Suite 508 » Annapolis Junction, MD 20701 Phone: 800.903.6130 • Fax:443.267.0036 * Web: directener§04iroResidence, Florence 6 tP4j Direct Energy, �r Solar m Framing Check (Roof Al - East) PASS w=64 plf Dead Load 157 psf PV Load 4.0 psf Snow Load 28,0 psf Governing Load Combo=DL+SL Member Span=T-0" Total Load 47.7 psf Member Properties Member Size S(in^3) 1(in^4) Lumber Sp/Gr Member Spacing 2x6 7.56 20.80 SPF#2 @ 16"o.c. Check Bending Stress Fb(psi)= fb x Cd x Cf x Cr (NDS Table 43.1) 875 x 1.15 x 1.3 x 1.15 Allowed Bending Stress=1504.3 psi Maximum Moment = (wL^2)/8 = 389.263 ft# = 4671.16 in# Actual Bending Stress=(Maximum Moment)/S =617.7 psi Allowed>Actual--41.1%Stressed -- Therefore,OK Check Deflection Allowed Deflection(Total Load) = L/180 (E=1400000 psi Per NDS) = 0.466 in Deflection Criteria Based on = Simple Span Actual Deflection(Total Load) _ (5*w*L^4)/(384*E*I) = 0.118 in = L/712 > L/180 Therefore OK Allowed Deflection(Live Load) = L/240 0.35 in Actual Deflection(Live Load) _ (5*w*L^4)/(384*E*I) 0.070 in L/1200 > L/240 Therefore OK Check Shear Member Area= 8.3 in^2 Fv(psi)= 135 psi (NDS Table 4A) Allowed Shear = Fv*A = 1114 lb Max Shear(V)=w*L/2 = 2221b Allowed>Actual--20%Stressed -- Therefore,OK 8955 Henkels Lane * Suite 508 * Annapolis Junction. MD 20x'01 Phone.800.303,6130 * Fax: 443.267.0036 * Web: directeneloVirodiesidence, Florence 5 Direct Energy 'filar Wind Calculations Per ASCE 7-05 Components and Cladding Input Variables Wind Speed 90 mph Exposure Category C Roof Shape Gable/Hip Roof Slope 40 degrees Mean Roof Height 20 ft Building Least Width 40 ft Effective Wind Area 17.5 ft Design Wind Pressure Calculations Wind Pressure P=qh*(G*Cp) qh=0.00256*Kz*Kzt*Kd*V^2*1 (Eq_6-15) Kz(Exposure Coefficient)= 0.9 (Table 6-3) Kzt(topographic factor)= 1 (Fig.6-4) Kd(Wind Directionality Factor)= 0.85 (Table 6-4) V(Design Wind Speed)= 90 mph I Importance Factor= 1 (Table 6-1) qh= 15.86 Standoff Uplift Calculations Zone 1 Zone 2 Zone 3 Positive GCp= -0.90 -1.10 -1.10 0.85 (Fig.6-11) Uplift Pressure= -14.28 psf -17.45 psf -17.45 psf 13.5 psf X Standoff Spacing= 4.00 4.00 4.00 Y Standoff Spacing= 2.75 2.75 2.75 Tributary Area= 11.00 11.00 11.00 Footing Uplift= -157 lb -192 lb -192 lb Standoff Uplift Check Maximum Design Uplift= -192 lb Standoff Uplift Capacity = 400 lb 400 lb capacity> 192 lb demand Therefore,OK Fastener Capacity Check Fastener= 1 -5/16"dia Lag Number of Fasteners= 1 Embedment Depth= 2.5 Pullout Capacity Per Inch= 2501b Fastener Capacity= 6251b w/F.S.of 1.5= 417 lb 417 lb capacity> 192 lb demand Therefore,OK 8955 Henkels Lane • Suite S08 + Annapolis Junction, MD 20701 Phone: 800,9013.6130 + Fax:443.267.0036 • Web: directenerirroidence, Florence 4 Direct Energy Solar Gravity Loading Roof Snow Load Calculations p9=Ground Snow Load= 40 psf pf=0.7 Ce C,I p9 (ASCE7-Eq 7-1) Ce=Exposure Factor= 1 (ASCE7-Table 7-2) C,=Thermal Factor= 1 (ASCE7-Table 7-3) 1 =Importance Factor= 1 pf=Flat Roof Snow Load= 28.0 psf p5=4f (ASCE7-Eq 7-2) Cs=Slope Factor= 1 ps=Sloped Roof Snow Load= 28.0 psf PV Dead Load=4 psf(Per Astrum Solar) Roof Dead Load(Roof Al-East) Composition Shingle 4.00 Roof Plywood 2.00 2x6 Rafters @ 16"o.c. 1.72 Vaulted Ceiling 4.00 (Enclosed Attic) Miscellaneous 0.28 Total Roof DL(Roof Al -East) 12.0 psf DL Adjusted to 40 Degree Slope 15.7 psf Roof Dead Load(Roof A2-West) Composition Shingle 4.00 Roof Plywood 2.00 2x6 Rafters @ 16"o.c. 1.72 Vaulted Ceiling 4.00 (Enclosed Attic) Miscellaneous 0.28 Total Roof DL(Roof A2-West) 12.0 psf DL Adjusted to 40 Degree Slope 15.66 8955 Henkels Lane • Suite S08 * Annapolis Junction, MD 20?01 Phone: 800.903,6130 • Fax: 443-26? 0036 • Web: directeneloVirodiesidence, Florence 3 Direct n er , Bolan • Ground Snow Load=40 psf - Roof Snow Load=28 psf Please contact me with any further questions or concerns regarding this project. Sincerely, s�� a 0y $4 ELAINE A. o HUANG `' CIVIL cn Elaine Huang, P.E. No 490290 Project Engineers �UNAL �' 8955 Henkels Lane Suite 508 * Annapolis Junction, MD 20;01 Phone:800.903.6130 * Fax: 443.267.0036 * Web: directenergysolar.com JPfflJ Cart Energy Solar- September 9, 2015 To: Town of Northampton 212 Main Street Northampton, MA 01060 Subject: Structural Certification for Installation of Solar Panels Shapiro Residence 987 Westhampton Road Florence, MA.01062 To Whom It May Concern, A design check for the subject residence was done on the existing roofing and framing systems for the installation of solar panels over the roof. From a field inspection of the property,the existing roof support structures were observed by Direct Energy Solar auditors as follows: The roof structure of(Roof Al-East)consists of composition shingle on roof plywood that is supported by nominal 2x6 rafters @ 16"o.c., paired with nominal 2x8 ceiling joists @ 16"o.c..There are 2x6 collar ties at every rafter which frame out an enclosed attic.The rafters are supported ar the mid-span by veritcal struts which work with collar ties and ceiling joists to provide a truss system to support the rafters above.The rafters have a max projected horizontal span of 7'-0",with a slope of 40 degrees.The rafters are connected at the ridge to a continuous 2x8 ridge board and are supported at the eave by a load bearing wall. The roof structure of(Roof A2-West)consists of composition shingle on roof plywood that is supported by nominal 2x6 rafters @ 16"o.c., paired with nominal 2x8 ceiling joists @ 16"o.c..There are 2x6 collar ties at every rafter which frame out an enclosed attic.The rafters are supported 4'-6"from the eave by veritcal struts which work with collar ties and ceiling joists to provide a truss system to support the rafters above.The rafters have a max projected horizontal span of 8'-6",with a slope of 40 degrees. The rafters are connected at the ridge to a continuous 2x8 ridge board and are supported at the eave by a load bearing wall. The existing roof framing system of(Roof Al-East)is judged to be adequate to withstand the loading imposed by the installation of the solar panels. No reinforcement is necessary. The existing roof framing system of(Roof A2-West) is judged to be adequate to withstand the loading imposed by the installation of the solar panels. No reinforcement is necessary. The spacing of the solar standoffs should be kept at 48"o.c.with a staggered pattern to ensure proper distribution of loads. I further certify that all applicable loads required by the codes and design criteria listed below were applied to the Unirac Solarmount solar rail system and analyzed. Furthermore,the installation crews have been thoroughly trained to install the solar panels based on the specific roof installation instructions developed by Unirac Solarmount for the racking system and Ecofasten for the roof connections. Finally, I accept the certifications indicated by the solar panel manufacturer for the ability of the panels to withstand high wind and snow loads. Design Criteria: • Applicable Codes=Massachusetts Residential Code,8th Edition,ASCE 7-05, and 2005 NDS • Roof Dead Load=12 psf(Roof Al-East) -- 12 psf(Roof A2-West) • Roof Live Load=20 psf * Wind Speed=90 mph,Exposure C 8955 Henkels Lane • Suite S08 » Annapolis Junction, MD 20?01 Phone:800.903,6130 • Fax: 443.267.0036 . Web: directenergysolar.com City of Northampton 212 Main Street, Northampton, MA 01060 Solid Waste Disposal Affidavit In accordance of the provisions of MGL c 40, S54, I acknowledge that as a condition of the building permit all debris resulting from the construction activity governed by this Building Permit shall be disposed of in a properly licensed solid waste disposal facility, as defined by MGL c 111 , S 150A. Address of the work: 99 2 Le Sis9.,,,��yr r c✓ ��r��rr, 1�, ��o�z The debris will be transported by: The debris will be received by: If—Xuell v� �' Alf1l ' %,,X . �-)/7Y3-O Building permit number: r ' Name of Permit Applicant � 1s, g 0/. 7;� Date Signature of Permit Applicant The Commonwealth of Massachusetts Department of Industrial Accidents Office of Investigations 1 Congress Street, Suite 100 Boston, MA 02114-2017 `� s�•y' www mass.gov/dia Workers'Compensation Insurance Affidavit: Builders/Contractors/Electricians/Plumbers Applicant Information Please Print Legibly Name (Business/Organization/Individual): Directenergysolar/AstrumSolar Address: 15 Ave E City/State/Zip: Hopkinton, MA 01748 Phone#: Yl 11 1 -3 9`8- o Are you an employer?Check the appropriate box: Type of project(required): 1.0 I am a employer with 15 4. ❑ I am a general contractor and I 6. F-1 New construction employees (full and/or part-time).* have hired the sub-contractors 2.❑ 1 am a sole proprietor or partner- listed on the attached sheet. 7. ❑Remodeling ship and have no employees These sub-contractors have g, ❑Demolition working for me in any capacity. employees and have workers' 9. ❑ Building addition [No workers' comp. insurance comp. insurance.$ required.] 5. ❑ We are a corporation and its 10.E] Electrical repairs or additions 3.❑ I am a homeowner doing all work officers have exercised their 11.❑ Plumbing repairs or additions myself. [No workers' comp. right of exemption per MGL 12.❑ Roof repairs insurance required.] t c. 152, §1(4),and we have no solar employees. [No workers' 13.❑■ Other comp.insurance required.] *Any applicant that checks box#1 must also fill out the section below showing their workers'compensation policy information. t Homeowners who submit this affidavit indicating they are doing all work and then hire outside contractors must submit a new affidavit indicating such. +Contractors that check this box must attached an additional sheet showing the name of the sub-contractors and state whether or not those entities have employees. If the sub-contractors have employees,they must provide their workers'comp.policy number. I am an employer that is providing workers'compensation insurance for my employees. Below is the policy and job site information. Insurance Company Name:Zurich American Insurance Policy#or Self-ins. Lic.#:WC595396901 Expiration Date: 1/1/16 Job Site Address: ! ��1 // Ate, L, City/State/Zip:9-06�i6e, Ol0 Attach a copy of the workers' compensation policy declaration page(showing the policy number and expiration date). Failure to secure coverage as required under Section 25A of MGL c. 152 can lead to the imposition of criminal penalties of a fine up to$1,500.00 and/or one-year imprisonment, as well as civil penalties in the form of a STOP WORK ORDER and a fine of up to$250.00 a day against the violator. Be advised that a copy of this statement may be forwarded to the Office of Investigations of the DIA for insurance coverage verification. I do hereby certify under th pain7ndpen es of perj ry that the information provided above is true and correct Sip-nature: D ate: Phone#: Official use only. Do not write in this area,to be completed by city or town official. City or Town: Permit/License # Issuing Authority(circle one): 1.Board of Health 2.Building Department 3.City/Town Clerk 4.Electrical Inspector 5.Plumbing Inspector 6.Other Contact Person: Phone#: SECTION 8-CONSTRUCTION SERVICES 8.1 Licensed Construction Supervisor: y— 1 Not Applicable ❑ �{C; Name of License Holder: j (� L��f GV C� –e Y7 +� License Number Address Expiration Date Signature Telephone 9.Registered Nome Improvement Contractor: Not Applicable ❑ R S-ramrl /�8 22 9 Company Name Registration Number �rtna li 1/11/,26,12 Address ,7070/ Expiration Date Telephone SECTION 10-WORKERS' COMPENSATION INSURANCE AFFIDAVIT(M.G.L. c. 152, §25C(6)) Workers Compensation Insurance affidavit must be completed and submitted with this application. Failure to provide this affidavit will result in the denial of the issuance of the building permit. Signed Affidavit Attached Yes....... AdU" No...... ❑ 11. Home Owner Exemption The current exemption for"homeowners"was extended to include Owner-occupied Dwellings of one(1) or two(2)families and to allow such homeowner to engage an individual for hire who does not possess a license, provided that the owner acts as supervisor. CMR 780 Sixth Edition Section 108.3.5.1. Definition of Homeowner: Person(s)who own a parcel of land on which he/she resides or intends to reside,on which there is,or is intended to be,a one or two family dwelling,attached or detached structures accessory to such use and/or farm structures.A person who constructs more than one home in a two-year period shall not be considered a homeowner. Such"homeowner"shall submit to the Building Official,on a form acceptable to the Building Official,that he/she shall be responsible for all such work performed under the buildine permit. As acting Construction Supervisor your presence on the job site will be required from time to time,during and upon completion of the work for which this permit is issued. Also be advised that with reference to Chapter 152(Workers' Compensation) and Chapter 153 (Liability of Employers to Employees for injuries not resulting in Death)of the Massachusetts General Laws Annotated,you may be liable for person(s) you hire to perform work for you under this permit. The undersigned"homeowner"certifies and assumes responsibility for compliance with the State Building Code,City of Northampton Ordinances, State and Local Zoning Laws and State of Massachusetts General Laws Annotated. Homeowner Signature SECTION 5-DESCRIPTION OF PROPOSED WORK(check all applicable) New House ❑ Addition ❑ Replacement Windows Alteration(s) ❑ Roofing ❑ Or Doors El Accessory Bldg. ❑ Demolition ❑ New Signs [0] Decks [Q Siding [0] Other Brief Description of Proposed— Work: �Z ► it S/01��A//ow ©.� SeJ.��' Alteration of existing bedroom Yes No Adding new bedroom Yes No Attached Narrative Renovating unfinished basement Yes No Plans Attached Roll -Sheet 6a.if New house and or addition to existing housing, complete the following: a. Use of building : One Family Two Family Other b. Number of rooms in each family unit: Number of Bathrooms c. Is there a garage attached? d. Proposed Square footage of new construction. Dimensions e. Number of stories? f. Method of heating? Fireplaces or Woodstoves Number of each g. Energy Conservation Compliance. Masscheck Energy Compliance form attached? h. Type of construction i. Is construction within 100 ft. of wetlands? Yes No. Is construction within 100 yr. floodplain Yes No j. Depth of basement or cellar floor below finished grade k. Will building conform to the Building and Zoning regulations? Yes No . I. Septic Tank City Sewer Private well City water Supply SECTION 7a-OWNER AUTHORIZATION -TO BE COMPLETED WHEN OWNERS AGENT OR CONTRACTOR APPLIES FOR BUILDING PERMIT I as Owner of the subject property f hereby authorize / l to act on my behalf, in all matte s relative t work aut ed by this building per it pplication. Signat e Owner bXt o c _,. as Owner/Authorized Agent hereby declare that statements and information on the foregoing application are true and accurate, to the best of my knowledge and belief. Signed nder the pains and penalties of perjury. Print Nam --� Own– 6� Date Signature of Owner/ gent Section 4. ZONING All Information Must Be Completed. Permit Can Be Denied Due To Incomplete Information Existing Proposed Required by Zoning This column to be filled in by Building Department Lot Size Frontage Setbacks Front Side L:. . R: R:'. x Rear Building Height Bldg. Square Footage Open Space Footage % (Lot area minus bldg&paved parking) #of Parking Spaces Fill: (volume&Location) A. Has a Special Permit/Variance/Finding ever been issued for/on the site? NO Q DON'T KNOW er YES Q IF YES, date issued:: IF YES: Was the permit recorded at the Registry of Deeds? NO Q DON'T KNOW YES Q IF YES: enter Book Page= and/or Document # B. Does the site contain a brook, body of water or wetlands? NO DON'T KNOW Q YES Q IF YES, has a permit been or need to be obtained from the Conservation Commission? Needs to be obtained Q Obtained 0 , Date Issued: C. Do any signs exist on the property? YES 0 NO IF YES, describe size, type and location: €. D. Are there any proposed changes to or additions of signs intended for the property? YES Q NO IF YES, describe size, type and location: E. Will the construction activity disturb (clearing, grading, excavation, or filling)over 1 acre or is it part of a common plan that will disturb over 1 acre? YES NO IF YES,then a Northampton Storm Water Management Permit from the DPW is required. "€ �' � ;, t?°at�":i td J`�� LR L S R .. �• t« �.�w� r- 7 Department use only =-� ty of Northampton Status of Permit: -1 ilding Department Curb ODri�reway Permit SEP 15 2015 212 Main Street Sev ggosepticAuailabllity mac,Plumbin Room 100 waterllNeilAuaiii" ty'� gs toes hampton, MA 01060 Two Sets of Structural Plans 01 p 587-1240 Fax 413-587-1272 Plo#1S1t Plans Other ISpecify APPLICATION TO CONSTRUCT, ALTER, REPAIR, RENOVATE OR DEMOLISH A ONE OR TWO FAMILY DWELLING SECTION 1 -SITE INFORMATION This section to be completed by office 1.1 Property Address: �� ��. Sly� ;.!1�,�-� G��Y� Map Lot Unit Fletaw�l /, , v /�)/ Zone Overlay District Elm St.District CB District SECTION 2-PROPERTY OWNERSHIP/AUTHORIZED AGENT 2.1 Owner of Record: , � Name(Print Current Mailirt�Address' Telephone O Signature 2.2 Authorized Agent: h� IN e�'o c, Name(Print) Current Mailing Address: —.z 7 /O Q Signature Telephone SECTION 3-ESTIMATED CONSTRUCTION COSTS Item Estimated Cost(Dollars)to be Official Use Only completed by ermit applicant 1. Building _ (a) Building Permit Fee 2. Electrical r�D (b) Estimated Total Cost of S Construction from 6 3. Plumbing Building Permit Fee 4. Mechanical (HVAC) 5. Fire Protection 6. Total= 0 + 2 + 3+4+ 5) Check Number �p This Section For Official Use Only Date Building Permit Number: Issued: Signature: Building Commissioner/Inspector of Buildings Date File#BP-2016-0411 APPLICANT/CONTACT PERSON ASTRUM SOLAR ADDRESS/PHONE 15 AVENUE E HOPKINTON01748(508)259-2387 PROPERTY LOCATION 987 WESTHAMPTON RD MAP 42 PARCEL 008 001 ZONE THIS SECTION FOR OFFICIAL USE ONLY: PERMIT APPLICATION CHECKLIST ENCLOSED REQUIRED DATE ZONING FORM FILLED OUT Fee Paid Building Permit Filled out Fee Paid Tyneof Construction: INSTALL ROOF MOUNTED 8 KW SOLAR ARRAY New Construction Non Structural interior renovations Addition to Existing Accessory Structure Building Plans Included• Owner/Statement or License 057898 3 sets of Plans/Plot Plan THE FOLLOWING ACTION HAS BEEN TAKEN ON THIS APPLICATION BASED ON INFO ION PRESENTED: pproved Additional permits required(see below) PLANNING BOARD PERMIT REQUIRED UNDER:§ Intermediate Project: Site Plan AND/OR Special Permit With Site Plan Major Project: Site Plan AND/OR Special Permit With Site Plan ZONING BOARD PERMIT REQUIRED UNDER: § Finding Special Permit Variance* Received&Recorded at Registry of Deeds Proof Enclosed Other Permits Required: Curb Cut from DPW Water Availability Sewer Availability Septic Approval Board of Health Well Water Potability Board of Health Permit from Conservation Commission Permit from CB Architecture Committee Permit from Elm Street Commission Permit DPW Storm Water Management D }iti Sk n o uil ial Date Note: Issuance of a Zoning permit does not relieve a applicant's burden to comply with all zoning requirements and obtain all required permits from Board of Health,Conservation Commission,Department of public works and other applicable permit granting authorities. *Variances are granted only to those applicants who meet the strict standards of MGL 40A. Contact Office of Planning&Development for more information. 987 WESTHAMPTON RD BP-2016-0411 GIs#: COMMONWEALTH OF MASSACHUSETTS Map:Block: 42-008 CITY OF NORTHAMPTON Lot:-001 PERSONS CONTRACTING WITH UNREGISTERED CONTRACTORS Permit: Building DO NOT HAVE ACCESS TO THE GUARANTY FUND (MGL c.142A) Category: SOLAR PANELS BUILDING PERMIT Permit# BP-2016-0411 Project# JS-2016-000644 Est.Cost: $30000.00 Fee: $75.00 PERMISSION IS HEREBY GRANTED TO: Const.Class: Contractor: License: Use Group: ASTRUM SOLAR 057898 Lot Size(sq. 1): 50965.20 Owner: SHAPIRO LYNNE R zoninp-: Applicant: ASTRUM SOLAR AT. 987 WESTHAMPTON RD Applicant Address: Phone: Insurance: 15 AVENUE E (508) 259-2387 WC HOPKINTONMA01748 ISSUED ON.912512015 0:00:00 TO PERFORM THE FOLLOWING WORK.-INSTALL ROOF MOUNTED 8 KW SOLAR ARRAY POST THIS CARD SO IT IS VISIBLE FROM THE STREET Inspector of Plumbing Inspector of Wiring D.P.W. Building Inspector Underground: Service: Meter: Footings: Rough: Rough: House# Foundation: Driveway Final: Final: Final: Rough Frame: Gas: Fire Department Fireplace/Chimney: Rough: Oil: Insulation: Final: Smoke: Final: THIS PERMIT MAY BE REVOKED BY THE CITY OF NORTHAMPTON UPON VIOLATION OF ANY OF ITS RULES AND REGULATIONS. Certificate of Occupancy Siiinature: FeeType: Date Paid: Amount: Building 9/25/2015 0:00:00 $75.00 212 Main Street,Phone(413)587-1240,Fax: (413)587-1272 Louis Hasbrouck—Building Commissioner