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B17-2984 058-690-018
DEVELOPMENT SERVICES BUTTE COUNTY AREA DEPARTMENT OF DEVELOPMENT SERVICES 3 INSPECTION CARD MUST BE ON JOB SITE 24 Hour Inspection Line (IVR) :530.538.4365 (Cut off time for inspections is 3pm) Development Services cannot guarantee inspections on the date requested Office: 530.538.7601 Fax: 530 Permit No: B17-2984 Issued: 12/19/2017 APN: 058-690-018 Address: 188 PATTON PEAK RD, CONCOW Owner: KEEN CHARLES H & PATRICIA A TRUST Permit Type: SOLAR ROOF -RES Description: roof mount solar www.i3uttec;ounty.net/aas Flood Zone: X (Unsh SRA Area Front: Centerline of Road: Rear: SRA: Street: AG: Interior Total Setback from Centerline of Road: SRA ALL PLAN REVISIONS MUST BE APPROVED BY THE COUNTY BEFORE PROCEEDING ns ecti n Type I DATE Setbacks 131 Foundations / Footings 111 Pier/Column Footings 122 Eufer Ground 216 Masonry Grout 120 Setbacks 131 Do Not Pour Concrete Until Above are Sign d Pre -Slab 124 Gas Test Underground/floor 404 Gas Piping Underground/floor 403 Underfloor Framing 149 Underfloor Ducts 319 Shear Transfer 136 Under Floor Plumbing 412 Under Slab Plumbing 411 Blockin derpining 612 Tiedown/Soft Set System 611 Do Not Install Floor Sheathing or Slab Until Above Signed ShearwallB.W.P.-Interior 134 ShearwallB.W.P.-Exterior 135 Roof Nail/Drag Trusses 129 Manometer Test 605 Do Not Install Sidin Stucco or Roofing Until Above Signed Rough Framing 153 Rough Plumbing 406 Rough Mechanical 316 Rough Electrical 208 4 -Way Rough Framing 128 Gas Piping House 403 Gas Test House 404 Shower Pan/Tub Test 408 Do Not Insulate Until Above Signed Permit Final 802 Electrical Final 803 Mechanical Final 809 Plumbing Final 813 Fire Sprinkler Test or Final 702 Swimmina Pools Inspection Type IVR INSP DATE T -Bar Ceiling 145 Stucco Lath 142 Swimmina Pools Setbacks 131 Pool Plumbing Test 504 Gas Test 404 Pre-Gunite 506 Pre -Deck 505 Pool Fencing/Alarms/Barriers 503 Pre -Plaster 507 Manufactured Homes Setbacks 131 Blockin derpining 612 Tiedown/Soft Set System 611 Permanent Foundation System 613 Under round Electric' 218 Sewer 407 Underground Water 417 Manometer Test 605 Continuity Test 602. Skirtin Ste s/Landin s 610 Coach Info Manufactures Name: Date of Manufacture: Model Name/Number: Serial Numbers: Length x Width: Insignia: !Finals Public Works Final 538.7681 Fire De artment/CDF 538.6226 Env. Health Final 538.7281 Sewer District Final Al **PROJECT FINALyp -rro,ect rutat Is a cermhcate of Vccupancy for (xesiaentiai Uniy) PERMITS BECOME NULL AND VOID 1 YEAR FROM THE DATE OF ISSUANCE. IF WORK HAS COMMENCED, YOU MAY PAY FOR A 1 YEAR RENEWAL 30 DAYS PRIOR TO EXPIRATION quickMount° RESPECT THE ROOF 925=478-8269 www.quickmountpv.com I info@quickmountpv.com 2700 Mitchell Dr. I Walnut Creek, CA 94598 © 2016 by Quick Mount PV. All rights reserved. 1 quickMount° RESPECT THE ROOF 925=478-8269 www.quickmountpv.com I info@quickmountpv.com 2700 Mitchell Dr. I Walnut Creek, CA 94598 © 2016 by Quick Mount PV. All rights reserved. Reference` and Tips Additional tips and information for installing mounts: ■ See Quick Tips videos on nail removal, and more at: ` http://www.quickmountpv.com/support/videos.htmi f ® It is not necessary or` advisable to use nails or other fasteners to secure the perimeter of the flashing. ® The Classic Comp Lag Mount is made to work with standard and high-definition composition/as- phalt and wood shingle roofs with 5" to 5-5/8" courses. If the exposed surface of the course exceeds this measurement you may need to use our Classic Shake Mount instead. ® Depending on the season and climate, size and location of seal tabs, and quality of the shingles, the seal tabs that adhere the shingle courses together may not effectively seal the shingles to the flashings. If this is the case, simply add several quarter -sized dabs of manufacturer accepted sealant or asphalt roofing cement, meeting ASTM D.4586 Type II, between the flashing and the shingle above. ® Mounts should not be installed in areas of the roof susceptible to ice damming. Water ponding un- der the shingles can reach the bolt. penetration. ® Take care not to damage the roofing material whale working on the roof. Removing stone granules f�f and deforming the shingles in any way can shorten the lifespan of the roofing. The value' of the solar' f array is directly affected by the condition of the roof it is attached to. BI 7.23-32 Jan -2017, Rev 4 Classic Comp lag Installation Instructions Installation Tools Required: tape measure, roofing bar, chalk line, stud finder, caulking gun, sealant compatible with roofing materials and EPDM rubber, drill with 7/32" long -style bit, drill or impact gun with 1/2" socket. Locate, choose, and mark centers of rafters to be mounted. Select the courses of shingles where mounts will be placed. Carefully lift composition roof shingle with roofing bar, just above placement of mount Remove nails as required. See "Proper Flashing Placement" on next page. Insert flashing between 1st and 2nd course. Slide up so top edge of flashing is at least 3/4" higher than the drip edge of the 3rd course and lower flashing edge is above the drip edge of 1 st course. Mark center for drilling. Using drill with 7/32' bit, drill pilot hole into roof and rafter, taking care to drill square to the roof. Do not use mount as a drill guide. Drill should be 'long style bit: aka aircraft extension bit to drill a I %" deep hole into rafter. Clean off any sawdust, and fill hole with sealant compatible with roofing materials and EPDM rubber. Slide the flashing into position. Insert the rubber plug into the QBlodk cavity.' Slide the washer and the L -foot (not included) onto the lag screw. Using a 1/2 inch socket on an impact gun drive the lag screw until the QBlock stops rotating easily. DO NOT over -torque. BI 7.2.3-32 Jan -2017, Rev 4 Classic Comp Lag I AMSC ® LA Elevated Water Seal Technology® ITEM NO. DESCRIPTION QTY./BOX I FLASHING, 12' X 12' X .050", 5052, MILL I 2 QBLOCK, CLASSIC, A360 CAST AL, MILL 1 I 3 PLUG, SEALING, 5/16' X 74, EPDM / 18-8 SS 1 4 LAG SCREW, HEX HEAD, 5/16' x 5-1/2', 18-8 SS 1 5 WASHER, FENDER, 5/16" IDX 1-1 /4" OD, 18-8 SS 1 . RACxHI tL ; 1 I 'j FRACTIONAL- 1/8. !DATE: 12/14/2015 ! �J TWO PLAL:EDEC&VAL ..18 I— I INEiou VMOx CMEWR,IDNix¢DQ.o ¢IxE$OUPROPf Rn a WCL'40U1R N. ANY REPRODUCIIOx NPMORAS rNOTSCALEDRAWING w vmoLLvmxou lxE wcelEx PERAt¢Sgx OrOWC[wOWiw¢PxOx®e[D. - _ I THREE PIP.CE CECIMAL 1.125 SCALE: 13 WEIGHT: 1.20 SHEE110F1 5 4 3 2 I 1 Lag pull-out (Withdrawal) capacitie's (lbs) in typical lumber: Lag Bolt Specifications Specific Gravity 5/16' shaft per 3" thread depth 5/16" shaft per 1"thread depth Douglas Fir, Larch .50 . 798 266 Douglas Fir, South .46 705 235 Engelmann Spruce, Lodgepole Pine (MSR 1650 f 8 higher) .46 705 235 Hem, Fir .43 636 212 Hem, Fir (North) .46 705 235 Southern Pine Spruce, Pine, Fir 55 921 .42 615 307 205 Spruce, Pine, Fir (E of 2 million psi and higher grades of MSR and MEL) .50 798 266 Sources: American Wood Council, NDS 2005, Table 11.2 A, 11.3.2 A Notes: 1) Thread must be embedded in a rafter or other structural roof member. 2) See NDS Table 11.5.1 C for required edge distances. BI 7.2.3-32 Quick MountPVD RESPECT THE ROOF Ian -2017, Rev 4 SMMOUNTsoLARTRIM RETROFITINSTALLATION 51■ INSTALEATIOMGUIDE ;PACE PREPARATION:'At front edge of array, ensure at least 3:25 inches of space between modules and roof surface and that modules are aligned to within 3/8"' Plan for Trim length so that Endclamps can be properly installed. 1ST MIDCLAMP Position Trim in front of array. Insert Midclamp into the Trim slot, aligned with the gap between the 1st two modules at either end of array. NOTE: Apply Anti -Seize to Each Mid - Clamp prior to installation �1 MOUNT TRIM: Position Trim beneath modules by sliding T -bolt into gap betvveen modules and tighten. Midclamp should stay in position and support Trim. Tighten snugly enough so that Trim is held firmly in place. TORQUE VALUE: Do not exceed specified torque value (10 ft -lbs) . CLEAR T -BOLT SLOT: Rotate unattached end of Trim out and away from array so T -bolt slot (at next T -bolt insertion point) is clear of modules. This may require force to deflect the Trim slightly. Deflect only enough to insert T -bolt. INSERT MIDCLAMPS: Insert T -bolt into slot and slide clamp (rotating Trim) into position between modules and leave loose. _Continue 'to work down array, inserting Midclamps and positioning in gaps between modules. FASTEN MIDCLAMPS: Return to each inserted Midclamp. Ensuring -Tri m lip is in contact with module face and verifying alignment marks on T -bolts are in proper position, tighten clamp. TORQUE VALUE (See Note on PG. 1) 1/4" nuts to 10 ft -lbs W Anti Seize ENDCLAMPS: Install Endclamps_ per previous Endclamp install instructions TORQUE VALUE (See Nate on PG. 1) 1/4" nuts to 10 ft -lbs dv/ Anti Seize CUT EXCESS TRIM: Mark excess Trim and cut at. end of array or where required for proper cantilevers. AY 7 rBy�;: ryc.2r y ♦, � i V 1 I I I I I I I 4r � IA a l�� ELECTRICAL CONSIDERATIONS SOLARMOUNT is intended to be used with PV modules that have, a• system. voltage: less than or equal to=1000 VDC.'.Forstandard system grounding a. **minimum .10AWG :.105°C-r'copper .grounding t f fconductor should: be -used to 'ground, .a 1000:•VDC ^n' system,, according to - the National Etectric!,Code f'' b } e r (NEC): Itis the installer's responsibility to check local co , %.' • �' des, "ich mayvary.See b_elo' interconnection information. - INTERCO_NNECTION INFORMATION There is no size limit on how 'many SOLARMOUNT & PV modules can be mechanically interconnected for any- given configuration, provided that the installationmeets the requirements of applicable building and fire codes.,. i'' - I I'.• y:'. ,y�fa.R':ri{Ws int, �. t y ,�- - i. • _ ^ - -�4-t �fi �`� =� ' � GROUNDING NOTES The installation must be conducted in accordance TEMPORARY BONDING CONNECTION DURING ARRAY MAINTENANCE with the National- Electric Code (NEC) 'and the When removing modules for replacement or system maintenance, any module left in place that'is secured authority having jurisdiction. Please refer to these with a bonding Midclamp will be properly. grounded. If a module adjacent to the end module of a row is- resources in your location for required.grounding lug removed or if any other maintenance condition leaves a module without a bonding mid clamp, a temporary' quantities specific to your. project. bonding connection must be installed as shown ` • Attach Ilsco SG134 to wall of rail The.grounding /bonding components may overhang • Attach Ilsco SG64 to module frame '. • parts -of the array so care must, be made when • �InstalL solid copper wire jumper to Ilsco lugs - walking around the array to avoid damage. Conductor fastener torque values depend on conductor size. See product data sheets for correct torque values. Exisitng 125 amp Sub Panel Existing Garage New Solar Existing house Charles Keen Racking and system not to exceed 3.0 lbs per sq ft 15 Canadian Solar 295 Wood Rafters to be 24 on center 188 Patton Peak Rd All work to comply with NEC 2017 15 IQ series enphase micro Inverters All rails not to exceed Eft on center spacing Concow Ca 95965 Rapid shut down ready 1 IQ series monitor VdH Unlrac rails- I Existing main panel 125 Sub panel at gargae Enphase IQ series inverters Canadian solar 295 monos r O 3/4 EMT conduit 2# 10 Conductors ' I 1#8 Ground Charles Keen Racking and system not to exceed 3.0 lbs per sq ft 15 Canadian Solar 295 Wood Rafters to be 24 " on center 188 Patton Peak Rd All work to comply with NEC 2017 15 IQ series enphase micro Inverters All rails not to exceed 6ft on center spacing Concow Ca 95965 Rapid shut down ready 1 IQ series monitor WIFI Unirac rails Data Sheet Enphase Microinverters Enphase The high-powered smart grid -ready Enphase IQ 6 Micro`" and Enphase IQ>6+ Micro'" IQ 6 and IQ 6+ dramatically simplify the installation process while achieving the highest efficiency•for module -level M icroinverters power electronics. Part of the Enphase IQ System; the IQ 6 and IQ 6+ Micro, integrate seamlessly with the Enphase . IQ Envoy'", Enphase Q Aggregator'", Enphase IQ Battery'", and the Enphase Enlighten' monitoring' and analysis software. The IQ 6 and IQ 6+ Micro extend the reliability standards set forth by previous generations and undergo over a,million hours of power -on testing; enabling Enphase to provide an industry-leading warrantyof-�up to 25 years. Easy to Install Lightweight and simple Faster installation with improved two -wire cabling - O • Built-in rapid shutdown compliant (NEC 2014 & 2017) .- Productive and Reliable • Optimized for high powered 60 -cell and 72 -cell* modules, - -More than a million hours of testing" • • Class II double -insulated enclosure • UL listed Smart Grid Ready • ,Complies with fixed power factor, voltage and frequency ride -through requirements • Remotely updatesto respond to changing grid requirements • Configurable for varying grid profiles UL • Meets CA Rule 21 (UL 1741 -SA) * The IQ 6+ Micro is required to support 72 -cell modules To learn more about Enphase offerings, visit enphase.com v EN PHAS E. Enphase IQ 6 and IQ 6+ Microinverters INPUT DATA (DC) IQ6-60-2-US / IQ6-60-5-US IQ6PLUS-72-2-US / IQ6PLUS-72-5-US Commonly used modulepairings, 195W -330W+ - . _ 235W -400W+ i Module compatibility 60 -cell PV modules only 60 -cell and 72 -cell PV modules Maximum input DC voltage 48V 62V Peak power tracking voltage - 27V -37V 4 27V -45V Operating range • 16V -48V 16V -62V Min/Max start voltage 22 V / 48 V . 22 V / 62 V �: ► �) �� m Max DC short ciicuit current (module Isc) 15 A - r. 15A Overvoltage.class DCport ,'&+t , -' f' 't"; ""ll ! k., Q. r: `,. 11 .'•a`i 1 . �:. d' -i t DC portbackfeed under single fault . • ?- 0 A,, OA PV array configuration 1 x 1 ungrounded array; No additional DC side protection required; f. 'L— t / AC side protection requires max 20A per branch circuit C. ! =7-9V � fl ( �1 J 1 IV OUTPUT DATA (AC) , _ IQ 6 Microinverter IQ 6+ Microinverter Maximum continuous output power `{ r'r '1.230 VA ` ' 1. 280 VA Nominal (GL)voltage/range? ` , 1 • , ;-1 240 V / 211-264 V ' 208 V / 183-229 V 240 V / 211-264 V 208 V / 183-229 V Maximum continuous output current ,1 , t. 0.96 A r ,;- .. 1.11 A 1.17 A 1.35 A Nominal frequency 60 Hz 60 Hz Extended frequency range • 47- 68 Hz- 'M - 47 - 68 Hz Power factor at rated power... 1.0 Maximum units per 20 A (L -L) branch circ iiitl 16 (240 VAC) y ; 14 (208 VAC) 13 (240 VAC) 11 (208 VAC) Overvoltage clas7ACport•- • III III AC port backfeed under'single fault o 1'+ r 0 A I ' r I. + S,. : - 0 A Power factor (adjustable) 0.7 leading ... 0.7 lagging 0.7 leading ... 0.7 lagging EFFICIENCY @240 V @208 V @240 V @208 V CEC weighted efficiency 97.0% 97.0 %• 97.0% 97.0% MECHANICAL DATA I Ambient temperature range =40°C to ;+650C # j Relative humidity range 4% to 100,% (condensing) Connector type MC4 (-2 US) or Amphenol H4 UTX (-5-US) Dimensions (WxHxD) 219 mm x191 mm x 37.9 mm (without bracket) Wcinht 1 S'4n /4 Zlhc1 - a Cooling Natural convection - No fans Approved for wet locations tj Yes Pollution degree PD3 Enclosure c o Class Il double -insulated Environmental category / UV exposure rating Outdoor -NEMA 250, type 6 (IP67) FEATURES I Communication ;, . '~ Power line Monitoring Enlighten Manager and MyEnlighten monitoring options,,' ' ;+'.s;. Compatible with Enphase IQ Envoy Disconnecting means The AC and DC connectors have been evaluated and approved by UL• forfuse as4he load -break t disconnectrequired"by NEC 690. Compliance CA Rule 21 (UL 1741 -SA) 4 ;;`. ^ ` • ` 4 r ;f arta , LUL,62109-1; UL1741/IEEE1547, FCC Part 15 Class B,JCES-0003 Class. +. G..•nCAN/CSA=C22.2 NO. 107.1-01 eiThis product is UL Listed as PV Rapid Shut Down Equipment and conforms with NEC -2014 and NEC -2017 section 690.12 and C22.1-2015 Rule 64-218 Rapid Shutdown of PV Systems, for AC and DC conductors, when installed according manufacturer's instructions. I�It' 1 ire. .rt;V w .. l.i .� • . 1. No enforced DC/AC ratio. See the compatibility calculator atenphase.com/en-ustsupport/module-com atebbloty. a 2. Nominal voltage range can be extended beyond nominal if required by the utility. To learn more about Enphase offerings, visit enphase.com" 2017 Enpliase Energy All rights reserved. All trademarks or brands used are the property of Enphase Energy, Inc' 201 E N P H 7-09-17 i . 1- 3 ►..` P4:..i! r,.y ... , ii y.1 a ! `/ 1 _ r C56K-275 1 280 1 285 290.M Canadian Solar's modules use the latest innovative *Black frame cell technology, increasing module power output and product can be system reliability, ensured by 15 years of,experience_ A• erg provided upon JJ, in module manufacturing, wellgrigineered modules,, .f, request. I ,�7 design, stringent BOM, quality testing, an automated `l ��, s; ; •,,'mr „gip manufacturing process and 100% EL testing. t P t0t J KEY FEATURES • ' . y; _.t• r i r f ( �� ,• ; . , V , t't7 "f f� : r ,,'. - of+*•.ra �, _ �, h ``y. ' , L 1.� ,f - Olinear ower output warranty,,.; + Excellent module efficiency of years P p up to: 17.72 %. ,t r!, + w 1.4,11 j.`.y.r'. ..?'. • .X .. " ' 10 product warranty on materials High High PTC gating of up to: 92.17% 1 11Q"'r and workmanship PTC a ,... 8:j^ Outstanding low irradiance r MANAGEMENT SYSTEM CERTIFICATES* 8 performance of up to: 96.5 % ISO 90012008 / Quality management system " M It ) �y, , t x't T ; .: , 'ISO 14001:2004/ Standards for environmental management system r y. OHSAS 18001:2007 / International standards for occupational health & safety, L� ( IP68 junction box for long- tPea term weather endurance i,, ,i., ate PRODUCT CERTIFICATES* t -rt -•s ,; f r" i IEC61215/IEC61730:VDE/CE/MCS/JET/CECAU/CQC/INMETRO,tCt Heavy snow load up to'6000 Pa, " ' ` ' UL 1703 / IEC 61215 performance: CEC listed (US) i i ; „ - J ** UL 1703: CSA /IEC 61701ED2:VDE/IEC 62716:VDE.gtr CC wind load up to 4000 Pa * UNI 9177 Reaction to Fire: Class 1 , c ° IEC 60068-2-68: SGS Takeo -way Moir 417- 'Please contact your local Canadian Solar sales representative for the specific product - 'Certificates applicable in your market i. _ '' . f:.✓'.. . i CANADIAN SOLAR INC. is committed to providing high quality 'solar products, solar system solutions and services to customers around the world. Asa leading PV project developer and manufacturer of solar modules with over 21 GW deployed around . 1 the world since 2001, Canadian Solar Inc: (NASDAQ: CSIQ) is one of lthe most bankable solar companies worldwide. ' •Por detail information, please refer to Installation Manual. J i • • r .. n- t__._..._..__..._........._......_..._..........._........... ........................._.._.:.::.:....._. .._. ' CANADIAN SOLAR INC. 545 Speedvale Avenue West, Guelph, Ontario N1 K,1 E6; Canada, www.canadiansolar.com; support@canadiansolar.com ENGINEERING DRAWING (mm) RearView`•�)i,•�,•Frame Cross section A -A • '1a0.� 30 t, 1 Mounting Hole A. e ' - tA. 1 99 5 CS6K-280M / I-V CURVES A A 5 10 15 20 25 30 3s 40 5 10 15 20 25 30 35 40 ■ 100owmv t 5'C ■ ■ f80D W/m'.. .,' 4 .., ,ice �'t L ,'�` /'`25°C'■ ■ - 600 w/rM ..' 1: 1 d ,. !. , i1 . . Y 45-C' ■ ■ 400 W/m' 65°C ■ j o❑ 814x9 � I r Specification ELECTRICAL DATA j STC* NwrrM1ig Hok j 1000• ,' Ca6btaryh Cmvenm -0.41 %/°C MECHANICAL DATA i j.v .•a, CS6K 275 M 280 M 285 M• 1 + Specification Data ; '' L �' •- Nominal Max. Power (Pmax)' 275 W 280 W 285 W' 290 W Cell Type) • ' bas I 1' G,uvmglbk � • A Opt. Operating Voltage (Vmp)- 31.3 V 31.5 V 31.7 V 31.9 V Cell Arrangement' 30 t, 1 Mounting Hole A. e ' - tA. 1 99 5 CS6K-280M / I-V CURVES A A 5 10 15 20 25 30 3s 40 5 10 15 20 25 30 35 40 ■ 100owmv t 5'C ■ ■ f80D W/m'.. .,' 4 .., ,ice �'t L ,'�` /'`25°C'■ ■ - 600 w/rM ..' 1: 1 d ,. !. , i1 . . Y 45-C' ■ ■ 400 W/m' 65°C ■ • Under Standard Test Conditions (STC)of irradlance of 1000 W/m1, spectrum AM 1.5 and cell temperatureof25°C. "4'' x.'I ' " ' ELECTRICAL -DATA I NMOT* CS6K 275 M 280 M 285 M 290 M Nominal Max. Power(Pmax) 202 W 206-W:1209 W'213 W-' Opt. Operating Voltage (Vmp) 28.8 VA 29.0 VT 29.2V -29.3V Opt. Operating Current (Imp) 7.02A 7.10A 7.18 A • 7.26 A Open Circuit Voltage (Voc) 35.7V 35.9V 35.9'V 36.OV Short Circuit Current (Isc) 7.52 A 7.62 A 7.68 A' 7.74 A " Under Nominal Module operating Temperature (NMOT), irradiance of 800 W/m', spectrum AM 15, ambient temperature 200C, wind speed 1 m/s. TEMPERATURE CHARACTERISTICS Specification ELECTRICAL DATA j STC* ; , ,... " .. -0.41 %/°C MECHANICAL DATA i t CS6K 275 M 280 M 285 M• 290 M Specification Data ; '' L �' •- Nominal Max. Power (Pmax)' 275 W 280 W 285 W' 290 W Cell Type) • ' Mono -crystalline, 6 inch 0 - Opt. Operating Voltage (Vmp)- 31.3 V 31.5 V 31.7 V 31.9 V Cell Arrangement' 60 (6X 10) Opt. Operating Current (Imp) 8.80A 8.89 A 8.98 A 9.09 A Dimensions 1650x992X40 mm (65.0X39.1 x 1.57 in) Open Circuit Voltage (Voc) 38.3 V 38.5 V 38.6 V 38.7 V Weight 18.2 kg (40.1 lbs) Short Circuit Current (Isc) 9.31 A 9.43 A 9.51 A 9.59 A Front Cover 3.2 mm tempered glass 4TA 1 r Module Efficiency 16.80% 17.11% 17.41% 17.72%, Frame Material Anodized aluminium alloy Operating Temperature,, M- -40°C=+85°C'- ' "' t r..-'' J J -Box IP.68, 3 diodes - - Max. System Voltage 1000 V (IEC) or 1000 V (U L) . - 14 Cable 4.0 mm2 (IEQ; 12 AWG (UL), Module Fire Performance TYPE 1 (UL 1703) or .- 1000 mm (39.4 in) CLASS C (IEC 61730) Connector T4 series Max. Series Fuse Rating 15 A_ �., 1 -, Per Pallet 27 pieces, 538 kg (1186.1 lbs) Application Classification Class A ^ Per Container (4(Y HQ) 756 pieces Power Tolerance 0-+5W • Under Standard Test Conditions (STC)of irradlance of 1000 W/m1, spectrum AM 1.5 and cell temperatureof25°C. "4'' x.'I ' " ' ELECTRICAL -DATA I NMOT* CS6K 275 M 280 M 285 M 290 M Nominal Max. Power(Pmax) 202 W 206-W:1209 W'213 W-' Opt. Operating Voltage (Vmp) 28.8 VA 29.0 VT 29.2V -29.3V Opt. Operating Current (Imp) 7.02A 7.10A 7.18 A • 7.26 A Open Circuit Voltage (Voc) 35.7V 35.9V 35.9'V 36.OV Short Circuit Current (Isc) 7.52 A 7.62 A 7.68 A' 7.74 A " Under Nominal Module operating Temperature (NMOT), irradiance of 800 W/m', spectrum AM 15, ambient temperature 200C, wind speed 1 m/s. PERFORMANCE AT LOW IRRADIANCE' - PARTNER SECTION Outstanding performance at low irradiance, with an average relative efficiency of 96.5 %for irradiances between 200 W/m2 and 1000 W/m2 (AM 1.5, 25°C). r ., ' . i.'1 ♦,"171 Gff ►' The aforesaid datasheet only provides the general information on Canadian Solar ' products and, due to the on-going innovation and improvement please allays i contact your local Canadian Solar sales representative for the updated information on specifications, key features and certification requirements of Canadian Solar 7 products in your region. _ I , , . _ _ Please be kindly advised that PV modules should be handled and installed by qualified people who have professional skills and please carefully read the safety and installation instructions before using our PV modules. - - CANADIAN SOLAR INC. Aug. 2017. All rights reserved, PV Module Product Datasheet V5.551 EN TEMPERATURE CHARACTERISTICS Specification Data Temperature Coefficient(Pmax) -0.41 %/°C Temperature Coefficient (Voc) " "-0.31%/`C Temperature Coefficient (Isc) 0.05 %/°C Nominal Module Operating Temperature (NMOT) _ 43 ± 2 °C PERFORMANCE AT LOW IRRADIANCE' - PARTNER SECTION Outstanding performance at low irradiance, with an average relative efficiency of 96.5 %for irradiances between 200 W/m2 and 1000 W/m2 (AM 1.5, 25°C). r ., ' . i.'1 ♦,"171 Gff ►' The aforesaid datasheet only provides the general information on Canadian Solar ' products and, due to the on-going innovation and improvement please allays i contact your local Canadian Solar sales representative for the updated information on specifications, key features and certification requirements of Canadian Solar 7 products in your region. _ I , , . _ _ Please be kindly advised that PV modules should be handled and installed by qualified people who have professional skills and please carefully read the safety and installation instructions before using our PV modules. - - CANADIAN SOLAR INC. Aug. 2017. All rights reserved, PV Module Product Datasheet V5.551 EN S■SMsoLaR STANDARD SYSTEM COMPONENTS;IN ���,� MOUNT INSTALLATION GUIDE ;PA6E -------------------------------------------------------------------------------------------------------------------------------------- �. SM STANDARD RAIL SM LIGHT RAIL }314 '1 w L 3 Stainless steel hardware can seize up,a process called galling.To significantly reduce its likelihood: 1.Apply minimal lubricant to bolts, preferably Anti -Seize commonly found at auto parts stores 2. Shade hardware prior to installation, and 3.Avoid spinning stainless nuts onto bolts at high speed. GRAIL: 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 either a rigid or thermal expansion joint, 4 inches long, pre -drilled (see page F). Anodized aluminum extrusion available in clear or dark. ©SELF -DRILLING SCREW: (No. 12 x 3/4") — Use 4 per rigid splice or 2 per expansion joint. Stainless steel. Supplied with splice. In combination with rigid splice, provides rail to rail bond. OL -FOOT: Use to secure rails through roofing materialto building structure. Refer to loading tables or U -Builder for spacing. ©L-FOOTT BOLT: (3/8" x j/") — 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 rail and L -foot. OSERRATED FLANGE NUT (3/8"): Use one per L -foot to secure and bond rail to L -foot. Stainless steel. Supplied with L -foot. OMODULE ENDCLAMP: Provides bond from rail to endclamp. Pre -assembled aluminum clamp available in clear or dark finish. Supplied washer keeps clamp and bolt upright for ease of assembly. OMODULE MIDCLAMP: Pre -assembled clamp provides module to module and module to rail bond. Stainless steel clamp and T -bolt. Available in clear or dark finish. O MICROINVERTER MOUNTING BOLT: Pre -assembled bolt and nut attaches and bonds microinverter to rail. Washer at base keeps bolt upright for ease of assembly. NOTE - POSITION INDICATOR: T -bolts have a slot in the hardware end corresponding to the direction of the T -Head. Wrench Size Recommended Torque (ft -Lbs) 1/4" Hardware 600 7/16" `10 3/8" Hardware a 9/16" •30 a12 Hardware a 5/16" 10 Torques are not designed for use with wood connectors "w/Anti-Seize. w L 3 Stainless steel hardware can seize up,a process called galling.To significantly reduce its likelihood: 1.Apply minimal lubricant to bolts, preferably Anti -Seize commonly found at auto parts stores 2. Shade hardware prior to installation, and 3.Avoid spinning stainless nuts onto bolts at high speed. GRAIL: 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 either a rigid or thermal expansion joint, 4 inches long, pre -drilled (see page F). Anodized aluminum extrusion available in clear or dark. ©SELF -DRILLING SCREW: (No. 12 x 3/4") — Use 4 per rigid splice or 2 per expansion joint. Stainless steel. Supplied with splice. In combination with rigid splice, provides rail to rail bond. OL -FOOT: Use to secure rails through roofing materialto building structure. Refer to loading tables or U -Builder for spacing. ©L-FOOTT BOLT: (3/8" x j/") — 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 rail and L -foot. OSERRATED FLANGE NUT (3/8"): Use one per L -foot to secure and bond rail to L -foot. Stainless steel. Supplied with L -foot. OMODULE ENDCLAMP: Provides bond from rail to endclamp. Pre -assembled aluminum clamp available in clear or dark finish. Supplied washer keeps clamp and bolt upright for ease of assembly. OMODULE MIDCLAMP: Pre -assembled clamp provides module to module and module to rail bond. Stainless steel clamp and T -bolt. Available in clear or dark finish. O MICROINVERTER MOUNTING BOLT: Pre -assembled bolt and nut attaches and bonds microinverter to rail. Washer at base keeps bolt upright for ease of assembly. NOTE - POSITION INDICATOR: T -bolts have a slot in the hardware end corresponding to the direction of the T -Head. Sol I SOLAR -U-L-E C;O;M,PA ME I MOD,ItBI�LITY-' 1 sSMINSTALLATION GUIDE ; PAGE --------------------------------------------------------------------------------------------------------------------------------------------- ° m e , 0 ° • E SIZE m F SIZE ENDCLAMP ® D SIZE K SIZE ENDCIAMP D ENDCLAMP ; ENDCLAMP C SIZE • ° B SIZE ENDCLAMP a ° ° ENDCLAMP ; ; ; Module Thickness Module Thickness • 50mm to 51mm �. a ° 45mm to 47mm 1.97in to 2.00in Module Thickness ; Module Thickness • ° ' ° 1.77in to 1.85in - Module Thickness ; 38mm to 40mm ; 39mm to 41mm ; ; 3�5c?cfule Tf?iricress t 33mm to 36mm ° e 1.50in to 1.57in ° u 1.54in to 1:61in ; o 30mm to 32mn? C 1.301n to 1.42in r D a ° 0 -------- ° ------...---.. ... .. .. .. .. —.. r. --. --..—.n—..—..-- ----A----------------------------------------------i-------------------------------------- — ----- m o a ° ° ° m P c • ° ° m P ° • m • ° EF SIZE DK SIZE MIDCLAMP MIDCLAMP a 2.5in Lona T-bott BC SIZE 2.25in Long T bolt ; MIDCLAMP .. Sm O e e , e c u P ! • t , SSOLAR SYSTEM LAYOUT'10 r MOUNT INSTALLAiIONGifI�E' 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: • the total width of the modules, • plus 1/4" inch for each space between modules (for mid- clamp), • plus approximately 3 inches (1'/z inches for each Endclamp) 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 guide for rail spacing based on appropriate mounting locations. 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 Univac Solarmount D&E Guide & wgu^ cantilevers. LAYOUT WITH RAILS PERPENDICULAR TO RAFTERS (RECOMMENDED) 1. I i.. i Overhang 339E L max i Foot spacing/ 1 . I . Rail Span "L' 1 , �P.i t ! ... !. ..i. Rail" I I I • ; ot I Lower Roof Edge Cl. f ! !__Note: Modules -must be centeredlsymmetricatly on'the railsl(t/- 2 ) Peak (Ridge) ! .. !_ J. ! I C.F.I (,II.. I ! .i.J J.:....1 HIGH PROFILE ! ; LAW PROFILE ._ 1 M . I MODE ! i LA__ MODE I .. , . _i_ -i.' !. I- _i.I l_I: J Gutter: !; ! I I:.I 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 guide for rail spacing based on appropriate mounting locations. 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 Univac Solarmount D&E Guide & wgu^ cantilevers. LAYOUT WITH RAILS PERPENDICULAR TO RAFTERS (RECOMMENDED) 1. I i.. i Overhang 339E L max i Foot spacing/ 1 . I . Rail Span "L' 1 , �P.i t ! ... !. ..i. Rail" I I I • ; ot I Lower Roof Edge Cl. f ! !__Note: Modules -must be centeredlsymmetricatly on'the railsl(t/- 2 ) ION 11 1 SOLARCODE rCOM,PLIANCE N*OTES E Nigel SM OUNT 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 UL 1703. This UL 1703 classification has been incorporated into our UL 2703 product certification. 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 : -ATTACHMENT & L=FEET' SOLAR ROO�F M 'I %) - MOUNT INSTALLATION 1 GUIDE PA ROOF PREPARATION: Layout and install flashing at rafter locations determined per Design and Engineering Guide. DRILL PILOT HOLES: Center the roof attachment over the rafter and drill a pilot holes) for the lag bolt(s). NOTE: Determine lag bolt size and embedment depth. Quick Tip: Pre -drill the pilot hole through the flat flashing lag bolt location for easier installation. 2 PIECE ALUMINUM STANDOFF WITH FLASHING & L -FOOT: • If necessary cut an opening in the roofing material over a rafter to accommodate the flashing riser. • Install the standoff, ensuring that both lag bolts are screwed into the rafter. • Insert the flashing under the shingle above and over the shaft of the standoff. (No-CalkTM collar does not require sealing of the flashing and standoff shaft) • Add L -Foot to top with bolt that secures the EPDM washer to the top of the standoff. See Standoffs & Flashings Installation Manual 907.2 for Additional Details. FLAT FLASHING INSTALLATION: Insert the Flat Flashing so the top part is under the next row of shingles and the hole lines up with the pilot hole. INSTALL LAG BOLTS & L -FOOT: Insert the lag bolt through the L -Foot in the order shown in the illustration. Verify proper orientation before tightening lag bolts. See Lonlrac PIZT Flash bog mannai fo Additional Uetails. TOP MOUNT TILE HOOK & L -FOOT: • Remove or slide up the roof tile, position the roof hook above the roof rafter • Place -Tile Hook in the middle of the underlying interlocking tile's valley. Drill 3/16 inch pilot holes through the underlayment into the center of the rafters. Securely fasten each tile hook to the rafters with two 5/16" x 31/2" lag screws. Slide down or re-insert the tile. • Attach L Foot to tile roof hook. See Tile Hook Universal Mount Installation Manual ir"or Additional inform. ation. `40 [moi AR" - - �B'Ry,A- S'PL1,CE RMAL, S NT: MOM - .„ GUIDE ; PAG E -=---------'---------------- ------ ,. =---_ -------- It f )[1 4 I: ;•yi, 'V h.. }i.'S W,.r ji2i `n,�`'i' y� �r c,�a --=-----------INSTALLT ---------- -------- -- - --------=------- --- - --- - - -- •. y G SPLICE INSTALLATION: IF REQUIRED PER SYSTEM DESIGN1 (. L ) •� , If your installation' ses'SOLARMOUNT splice'bars,attach the rails to ether before .': .. r Y,1"" ,mounting to.the Lfeet/footings: Use splice.bars only with flush installations or ' ,y s those that use.low-profile tilt legs. A rail should;always beau orted b more v . �. -" - s y _ , . .. tharrone footrng on.both sidesof"the splice. There -should be a gap between rails,. "• �Yy 4 r� aLsn. up to. 3/16" at:the splice connections. T -bolts should not'be placed less.than a -n� x.. ai i"11-41,10- ,ja A w ��iH'. ,, ; �Y;: ;,� distance'.of 1"from the end of the railre ardless of a s lice: g p k<a •a. °� 1 z" - TORQUE VALUE (See Note on. PG. ,A) ^ d1^ '� 4 t tifj, .k, -•.. y� _ Flex head socket size 5/16" - Do not exceed 10 ft=lbs. Do nonuse Anti- Seize.' r max length of spliced rail'is" 40 ft: An exp* ansioh jdInt.is required > 40 ft. 4' ' rs91d" �,O. JSP j.:( 1 Sti� •µt�M ` . .. •- n�� ��•�.vd' 't5�� 3��x ;x�'i� ��.�r p� l � .. � r -„j3: JT 9 /q.:;I (LSI,-;fi't�,*�'f'.:::' '� .ss,u; l ,.Y�. .,.. '.a a Y `�1 t" .. e - .. + .. �.•T�.. �.. 'fir. $.��Z',?7P�°t ,uf. s ,� _ EXPANSION JOINT USED AS THERMAL BREAK �� Expansion joints prevent buckling of rails ue to thermal expansion. Splice bars maybe used,f6r, thermal expansion joints. To create a thermal expansion joint . slide the.sp.lice bar into the footing`slots'of both raR Lengths' Leave approxi- :_ mately 1/2" between the rail segments. Secure the.splice bar with two screws on one side only. Footings'(s.uch as L -feet or standoffs) should=be secured. normally hS_K,u .,�F als'• �x on both sides of the splice. No PV module or mounting hardware component Y •`. : - .. , . - �l?,lr'ci i {t�e�i k �w t�5 4 n�. a`t'e' ;s , r should •straddle•.the' expansion joint. Modules must clearly end before the joint r .• as , �— F {=� .i �F _ ,.. with mounting hardware (top mountEndclamps) terminating on that rail. T=bolts .: 3� should not be placed less than a distance of 1" from the end of the •rail regard- "' .� - less of a splice.-The:next set of modules would then start after the splice with - . .. R y•'�;F � :. xs�� mounting hardware=beginning on the next rail. A thermaL break is required every 40 feet of; continuously conneited,rail For additional concerns on thei�malbreaks In.your_specific project, please consulta-licensed structural engineer. Runs of rail less than 40. feet in length. with more than two pairs spliced together, are an y~� acceptable installation for he SOLARMOUNT systems. E pna' M� Bonding,connection46ir splice"used:as 'a'thermat break. Option shown uses two•' 4 13 . `; Ilsco.Iugs (Model GBL 4DBT,P/N GBL-4DBT- see product -data sheet for more '�.:. details) and --solid copper wire: . UNION ; M SULAR- MICROINVERTER,MOUNTII Mmaur n �'�" .. ... ate' �. �,���) ,."� .� �'il� �'t.� �'"'�•+x�?�,. � tF" Y° a � �'r s. r �p v14. . K '.g'fsf^ a. �„c�'..s�: J.i`w.L`' �'�:�L`'��� � �✓'�iMS��i:.ti�` �oil ' SM SOLAR MICROINVERTER SYSTEM GROUNDING'M MOUNT INSTALLATION GUIDE I PACE -------------------------------------------------------------------------------------------------------------------------------------- SM EQUIPMENT GROUNDING THROUGH ENPHASE MICROINVERTERS The Enphase M215 and M250 microinverters have integrated grounding capabilities built in. In this case, the DC circuit is isolated from the AC circuit, and the AC equipment grounding conductor (EGC) is built into the Enphase Engage integrated grounding (IG) cabling. In order to ground the SOLARMOUNT racking system through the Enphase microinverter and Engage cable assembly, there must be a minimum of three PV modules connected to the same trunk cable within a continuous row. Continuous row is defined as a grouping of modules installed and bonded per the requirements of this installation guide sharing the same two rails. The microinverters are bonded to the SOLARMOUNT rail via the mounting hardware. Complete equipment grounding is achieved through the Enphase Engage cabling with integrated grounding (IG). No additional EGC grounding cables are required, as all fault current is carried to ground through the Engage cable. rSALARMOUNTINTEGRATED BONDING ADVANTA6E LOSE ALL THE COPPER & LUGS m�OLAR ~EN,DCLAM�P,FIRSTMODULE&TB 1�11,_ •. 0 r J Jxi .fit y r M.St.s 5 �f SOLARELECTRICAL GROUNDING W/ BREAK'N ENPHASE MICROINVERTER FOR S p .. .. Fri ----- MOUNT I ; NSTALLATION GUIDE ,PAGE ---------------------------------------------------------------------------------------------------- Enphase Microinverter (MI) Requirements Enphase Microinverter (MI) Requirements Enphase Microinverter (MI) Requirements (Model No. M215 & M250) (Model No. M215 & M250) (Model No. M215 & M250) 3 Microinverters sharing same trunk cable & rails 3 or more Microinverters sharing same trunk cable & rails Mtn. 3 Microinverters on each side of thermal break M1Nr!lU�4,;L IY66T REiQUIkEMENTS. Iain. 3 mtcroirmrters sharing i T I i..� l-7-1 _ L same trunk cable d. rails �_. i I 1 I , — -- j 1� RAIL SPLICE Mir, 3 microimrerters sharing T i 1 same trunk cable & rails I f ' , _ l 1 J. J 1 :I I 1.. L �'- +w, r �?- 3, j a h✓. :-i .yam .'j,_ .�. JP fit i e , J � � ELECTRICAL BONDING SPLICE rx..7 I MINIMUM-LAIC©t,EM Fad T i 1 3 or more microinverters sharing same trunk cable b rails S� RAIL BICE _ —�. F I I 'THERMAL BREAKT, L _ 1_ ._1__._! . J-7 r �T _j_ T l r T 1 , i r , L J ._ L_ LL .J.r_ rdYat��EuteENTs ._ Min 3 miciolnveroers.. on each side of thermal break n� 1 RAIL CE �- _..1_ , THERMAL BREAK' 7--� , t_I.t.1 .J. I ( i Less than 3 microinverters 1401-l. I .. J_ on each side of thermal beak . ALdCLj €PT BLE L RAIL LICEI-- �--T r' i i" - — EXPANSION JOINT USED AS THERMAL BREAK W/ GROUNDING LUGS & COPPER JUMPER EXPANSION JOINT USED AS THERMAL BREAK W/O ELECTRICAL BONDING CONNECTION ---------------------------------------------------------------------------------------------- 110TA :THEABOVE: I-IAGEF ARE SAI: PLE CONFIGUP,ATtONS T 0ILLUSTRATE THE REQUIREMENTS FOR SM SYSTEM GROUNDINGTHROUGH ENPHASE MICROINVERTERS DESCRIBED ON PAGE 1-2 ONLY ONE LUG PER ROW OF MODULES: Only one lug per row of modules is required. t See Page F for additional lugs required for %,®o� expansion joints. GROUNDING LUG MOUNTING DETAILS: Details are provided for both the WEEB and Rsco products. The WEEBLug has a grounding symbol located on the lug assembly. The Rsco lug has a green colored set screw for grounding indication purposes. Installation must be in accordance with NFPA NEC 70, however the electrical designer of record should refer to the latest revision of NEC for actual grounding conductor cable size. Required if not using approved integrated grounding microinveters GROUND LUG 'BO LT SIZE WEEBLug 1/4" ILSCO Lug #10-32 • Torque value depends on conductor size. • See product data sheet for torque value. WEEBLUG Single Use Only Ila ➢ERiv"�NALTORQUE, 7r7_tal( Condur.te..:nzi torque 0 the fattowing: 644 A141G: Sfe-lbs WEEBLUG CONDUCTOR - UNIRAC P/N 0080025: Apply Anti Seize and insert a bolt in the aluminum rail and through the clearance hole in the stainless steel flat washer. Place the stainless steel flat washer on the bolt, oriented so the dimples will contact the aluminum rail. Place the lug portion on the bolt and stainless steel flat washer. Install stainless steel flat washer, lock washer and nut. Tighten the nut until the dimples are completely embedded into the rail and lug. TORQUE VALUE 10 ft lbs. (See Note on PG. A) See product data sheet for more details, Model. Ne. Star Washer is (Single Use On! ILSCO LAY -IN LUG CONDUCTOR -UNIRAC P/N 008009P: Alternate Grounding Lug DRILL -SIZE - Drill, deburr hole and bolt thru both rail walls per table. N/A- Place in Top SM Rail Slot TORQUE VALUE 5 ft lbs. (See Note on PG. A) 7/32" See ILSCO product data sheet for more details, Mociel No. GISL-4l T NOTE: ISOLATE COPPER FROM ALUMINUM CONTACT TO PREVENT CORROSION TEi:IMMAL TORgUe , ppppp- Install Conductor grid torque to the folic ing: 4-t- AWG: 35in-tits ® 8 AW,6. 25 In -lbs :10-:+.4 AWG: ZG iwk- s ILSCO LAY -IN LUG CONDUCTOR -UNIRAC P/N 008009P: Alternate Grounding Lug DRILL -SIZE - Drill, deburr hole and bolt thru both rail walls per table. N/A- Place in Top SM Rail Slot TORQUE VALUE 5 ft lbs. (See Note on PG. A) 7/32" See ILSCO product data sheet for more details, Mociel No. GISL-4l T NOTE: ISOLATE COPPER FROM ALUMINUM CONTACT TO PREVENT CORROSION amm i "INN Rip Ma IN IINIMiIi'iIJ; '4 K .............. i "INN Rip Ma IN IINIMiIi'iIJ; '4 K I SSOLAR,- MODULES '. .r MOUNT INSTALL REMAINING MID -CLAMPS: Proceed with module installation. Engage each module with previously positioned Midclamp assemblies. NOTE., Appiy A aFi-S -- 'o e2c4 Mid 0 INSTALL ENDCLAMPS: Apply Anti -Seize and install final Endclamps in same manner as first Endclamps. Slide clamps against module. T ORO ME, VAL OF (ce Vor`.e on P G..A) 1/4" nuts to 10 st.ibs,. vs/Anal Seize POSITION T BOLT ALIGNMENT MARKS: Verify that the position indicator(s) & T -bolt shaft(s) are angled in the correct position. 'TORQUE 'VALUE (See Note on PG. A) 1/4" nuts to 10 fa -lbs. w/Anti Seize uz• MIN. POSITION T BOLTALIGNMENT MARKS & CUT RAIL: Verify that the position indicator(s) & T -bolt shaft(s) are angled in the correct position. Trim off any excess rail, being careful 'not to cut into the roof. Allow 1/z". between the Endclamp and the end of the rail. FINISH MODULE INSTALLATION: Proceed with module installation. Engage each module with the previously positioned clamp assembly • Install second module • Install remaining Midclamps & modules & position alignment marks • Install Endclamps,& position alignment marks • Cut rail to desired length TRIM INSTALLATION INSTRUCTIONS FINISH TRIM INSTALLATION, INSTALL ENDCLAMP_ & CUT EXCESS .,RAIL: Install'final endclamp &' Cut away excess Trim at end of array or where required for proper cantilevers. See D&E Guide or U -Builder for allowable cantilevers. TORQUE VALUE (See Note on PG. 1) 1/4" nuts to 10 ft -lbs w/ Anti Seize 9' ° ��''�t`.;s."�d.tSERRATED;��t�,51i5m,mt � I 0 RIM W ' - BONDING MIDCLAMP:ASSEMBLY:. ENDCLAMPASSEMBLY -`' BONDING:RAIL• SPLICE BAR RAILTO L -FOOT w/BONDING T BOLT " Stainless steel` Midclamp points, 2 per module, ®`pierce' module - frame anodization to bond .Serrated flange nut bonds aluminum Endclamp to stainless steel T-boltting Stainless steel self -drilling screws drill and tap into Serrated flange nut removes L -foot anodization ° 'to M splice bar and rail creabond between bond L -Foot to stainless steel T -bolt module to module through clamp.' • ' Serrated flange nut bonds stainless steel clamp e1YRYnS/nPr Serrated T -bolt head penetrates rail anodization splice bar and each rail section r ' '. Aluminum. splice bars across t * r 1Serrated T -bol[ head penetrates rail anodization p �.. to stainless steel`T-bolt *�� 1\4/ Ami �'�' � ��� to bond -T-bolt,' nut and Endclamp to grounded .. SM rail p pans rail gap to create rail to rail bond. Rail on at least one side _ • to bond:T-bolt, nut; and L'foot to rounded SM g rail'' Serrated T -bolt head penetrates raiC anodi2atlon t BOND GERAIL' , of splice will be grounded.' t,��5�;fSPLICEBARa,, tt sq�y is r it'd t S 1 )l ,.. �`. f k r t f.,,t ,°' '� t w2y, St'34 (.i1 t�j to band T -bolt, nut, clamp, and modules to fOr .}. �•.,�.� '�," w ur }E Any , Note: End clam does not bond to module frame. P Note:, Splice bar and bolted conne'cttion'are ` grounded SM rail. - _, y �i 'i��� � H l "9SO non-structural. The splice bar function'is rail . 4 ,t > > r 'w. i'.�,. h Y'�i!-I e' r' i'r ;.i �i, -�,,r±�}"�.v`t _ " ("�.��r�'�' � s �� �r alignment and bonding. t v`r4 .jn•r ¢xyt'�-siyE-xty t e i W. xis�.-khi1�•ar.,. r�t'�S" .� t ,ay e, BONDING MICROINVERTER MOUNT RACK SYSTEM GROUND Hex nut with captive lock washer bonds metal WEEB washer dimples pierce anodized rail to microinverter flange to stainless steel T -bolt ' R create bond between rail and lug. Serrated T -bolt head penetrates rail anodization`. tobond ,T -bolt, nut, and L -foot to grounded SMrail Solid copper wire connected to lug is.routed to' System ground including racking and modutes may- , provide final system ground connection. , he achieved through the trunk cable, of approved microinverter systems. See page I for details NOTE 11= -co l[;g .aii also .ba used when secured W - the side of the rail. See page 1-3 for details _• r s a �.a '• _ 'Y ! '; • r .. .r a '. VIM s �?' �f., _•S No ;IY. i.� ._J+'i.7.Y` I..Si(r���.ff i.°:�I� ,wi+tgV8117. .? .M1'.M 'I.e515�sb.♦'.4llTi�:fG±{i. xi=i 4R?r��:1s' .a e1YRYnS/nPr 4 t / Y���I.r<^9 ���: 'JT •�6 � '�lf� bj •'rj '� � r 9 .ry-x �d53Y S' � 5! S \ ,�a+. �,+t9 A LSM,. �F� � 1 � � r t p *�� 1\4/ Ami �'�' � ��� i o yd3 ry#7( l . , � 3 a a�aa. a s ss ERTERf BONDr,I..NG MICROtNV.�itct 1W OUN�T4�ys�kx t BOND GERAIL' ' J °D W h*y7au ....:+9 Optloh.t It, 1 r Grow d,ThroY��nhN =! ^v' f +J -+k r'W y Yna+Y7. r r� '�.fi t S `�t z Enphase Trunk Cable .�u�- S "f flti•w i f '[ d a jr �y* 1 t } yrL rr"{'Sf''•`E'y ""L 33 T t,��5�;fSPLICEBARa,, tt sq�y is r it'd t S 1 )l ,.. �`. f k r t f.,,t ,°' '� t w2y, St'34 (.i1 t�j fOr .}. �•.,�.� '�," w ur }E Any , • V�r. `l r ��}I 6'� 77R i+?jJ y4'�, j. ecd .3� r'4 f• :i� s%' { G ,f j A5 w� s � ,.'Fd �" �'� �•" 1��;1 9"( � t t! -y.. t ! k .� ("y �i 'i��� � H l "9SO :Yit ' 7 \`V •.°y 4: �Y� ° • 5 a �,CC'�Jri s . 4 ,t > > r 'w. i'.�,. h Y'�i!-I e' r' i'r ;.i �i, -�,,r±�}"�.v`t " ("�.��r�'�' � s �� �r ° �` • g7. t v`r4 .jn•r ¢xyt'�-siyE-xty t e i W. xis�.-khi1�•ar.,. r�t'�S" .� t ,ay �i ' BONDING MIDCIAMP' • � SASSEMBLY ♦ + ♦ �i ♦ 3'S m ;i; , z �n$��2 fn-.. tb I r$ fir•\. t ' C' . / � \ r .a .a>. r Option,2 Ground lugkw/ 4At3areCoppef�Wiiel,,�.��,,'r.# ;s 1 _ . tz '�"w�,., w/BONDINGTBOLT t ,, 4x,2, t t���, , e, BONDING MICROINVERTER MOUNT RACK SYSTEM GROUND Hex nut with captive lock washer bonds metal WEEB washer dimples pierce anodized rail to microinverter flange to stainless steel T -bolt ' R create bond between rail and lug. Serrated T -bolt head penetrates rail anodization`. tobond ,T -bolt, nut, and L -foot to grounded SMrail Solid copper wire connected to lug is.routed to' System ground including racking and modutes may- , provide final system ground connection. , he achieved through the trunk cable, of approved microinverter systems. See page I for details NOTE 11= -co l[;g .aii also .ba used when secured W - the side of the rail. See page 1-3 for details _• r s a �.a '• _ 'Y ! '; • r .. .r a '.