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B17-1085 047-660-043
BUTTE COUNTY' { DEPARTMENT OF DEVELOPMENT SERVICES 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 P `t N 017 1085 I d 6/1/2017 erml o. - ssue . APN: 047-660-043 Address: 13974 KELSEY DR, CHICO Owner: WILSON MICHAEL G & TERESEA L Permit Type: SOLAR ROOF -RES Description: 6.160 kW DC System .138.//8) www ButteCounty.net/das AREA 4 Flood Zone: None SRA Area: No SETBACKS for Zoneno- AC.- SRA. PW Front: Centerline.of Road: Rear: SRA: Street:. AG: Interior Total Setback from Centerline of Road: ALL PLAN REVISIONS MUST BE APPROVED BY THE COUNTY BEFORE PROCEEDING Insipection Tvne 1VR INSP 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 Underfloof Framing 149 Underfloor Ducts 319' Shear Transfer 136 Under Floor Plumbing 412 Under Slab Plumbing 411 Blockin nder inin 612 Tiedown/Soft Set System 611 Do Not Install Floor Sheathing or Slab Until Above Signed Shearwall/B.W.P.-Interior .134 Shearwall/B.W.P.-Exterior 135 Roof Nail/Drag Trusses 129 Manometer Test 605 Do Not Install Sidin Stucco or Roofing Until Above Signed Rough Framina 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 Si ned • Permit Final 802' Electrical Final 803 Mechanical Final., 809 Plumbing Final 813 Fire Sprinkler Test or Final 702 Swimmin Pools Inspection Type IVR INSP DATE - T -Bar Ceiling' 145 ' Stucco Lath 142 Swimmin 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 nder inin 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 Ski rtin Ste s/Landin s 610 Coach Info Manufactures Name: Date of Manufacture: Model Name/Number: Serial Numbers: length x Width: Insignia: Public Works Final 538.7681 Fire De artment/CDF 538.6226 Env. Health Final 538.7281 Sewer District Final "PROJECT. FINAL `Project Final is a Certificate of Occupancy for (R ident' I ly). PERMITS BECOME NULL AND VOID 1,YEAR FROM THE DATE OF ISSUANCE. IF WORK HAS COMMENCED, YOU MAY PAY ORA 1 YEAR RENEWAL 30 DAYS PRIOR TO EXPIRATION' ?�F," Butte County Department of Development Services PERMIT CEN'T'ER` ." •� y° : 7 County Center Drive, Oroville, CA 95965 Main Phone (530) 538-7601 Fax (530) 538-7785 . www.buttecountv.net/dds Declaration'of Installation for Smoke Alarms and Carbon Monoxide Alarms FORM NO DBI -01 The newly adopted 2013 California �'-Residehtial Code requires the installation of Carbon Monoxide Detectors in dwelling units and in sleeping units within which fuel -burning appliances are installed and in dwelling units that have attached garages. The policy for Carbon Monoxide Alarms in Butte County states: "Any permit obtained in which the value of work exceeds $1000 - associated with a Residential Group R Dwelling Unit or Sleeping Unit shall conform 'to the following 2013 California Residential Code requirements for Smoke and Carbon Monoxide. Alarms (Section R314 & R315)." 2013 California Residential Code requirements, for Carbon Monoxide Alarms: R315.1 New construction: An approved carbon monoxide alarm shall be installed in. dwelling units and in sleeping units within which fuel -burning appliances are installed and in units that have attached garages. R315.1.2 Power supply: For new construction required carbon monoxide alarms shall receive their primary power from the building wiring where such wiring is served from a commercial source and shall be equipped with a battery back-up. Alarm wiring shall be directly connected to the permanent building wiring without a disconnecting switch'other than as required for over - current protection. Exceptions: 1. In dwelling units where there is no commercial power supply the carbon monoxide alarm may be solely battery operated. 2. In existing dwelling units a carbon monoxide alarm is permitted to be solely battery operated where repairs or alterations do not result in the removal of wall and ceiling finishes or there is no access by means of attic basement or crawl space 8315.1.3 Interconnection. Where more than one carbon monoxide alarm is required to be installed within the dwelling unit or within a sleeping unit the alarm shall be interconnected in a manner that activation of one alarm -shall activate all of the alarms in the individual unit. Exception: 1. Interconnection is not required in existing dwelling units where repairs do not result in the removal of wall and ceiling finishes ' there is no access by means of attic basement or crawl space, and no previous method for interconnection existed R316.2 Where required in existing dwellings:. Where a permit is required for alterations, repairs or additions exceeding one thousand dollars ($1,000), existing dwellings or sleeping units that have attached garages or fuel -burning appliance's shall be provided with a carbon monoxide alarm in accordance with Section R315.1. Carbon monoxide alarms shall only be required in the specific dwelling unit or sleeping unit for which the permit was obtained. R315.2.6 Alarm requirements: No person shall install, market, distribute, offer for sale or sell any carbon monoxide device in the State of California unless the device and instructions have been approved and listed by the State Fire Marshal. K:\NEW WEBSITE\Building\Building Forms & Documents\2014\2014 Forms - Completed\DBI\DBI- 01_Declaration for Smoke & Carbon—Monoxide _Dete&ors_REV'D8.13.14 AKM.doc' Page 1 of 2 Carbon monoxide alarms required by Sections R315.1 and R315.2 shall be installed in the following locations: 1. Outside of each separate dwelling unit sleeping area in the immediate vicinity of the bedroom(s). 2. On every level of a dwelling unit including basements. R315.1.5 Multiple -purpose alarms: Carbon monoxide alarms combined with smoke alarms shall comply with Section R315, all applicable standards, and requirements for -listing and approval by the Office of the State Fire Marshal, for smoke alarms. Butte County's Interpretation of 2013 CRC, Sections 314 & 315 for Smoke Alarms & Carbon Monoxide Alarms: Where alterations, repairs or additions exceeding $1,000 in valuation, existing dwellings shall be retrofitted with smoke alarms and those that have attached garages or fuel -burning appliances shall have carbon monoxide alarms installed. Existing smoke alarms can be replaced with dual function alarms for Smoke and Carbon Monoxide and in most cases will comply with the aforementioned code requirements for Carbon Monoxide Alarms. DECLARATION OF INSTALLATION UNDER THE PENALTY OF PERJURY As Owner/Contractor, I/we affirm and declare under the penalty of perjury, under the laws of the State of California, by our signatures below as Owner/Contractor, that I/we will comply prior to final inspection with Items A & B as specified herein: A. Both Owner/Contractor have read and clearly understand the aforementioned 2010 California Residential Code (CRC) Carbon Monoxide Alarm requirements. B. Both Owner/Contractor are responsible for installing Carbon Monoxide Alarms prior to final inspection as per the aforementioned building code and maintaining such installation. Smoke Alarms will also be installed prior to final inspection as per the 2010 CRC. Smoke and Carbon Monoxide alarms gre. now installed in the following locations; F. /_ l- - - Owner's name (print): Owner's signature: Contractor's namel_(print): Contractor's signature: CSLB License: Date: Project Address:) a97U--��-� Y Ci�1�o �� Permit #:� 5 UNEW WEBSITE1BuildinglBuilding Forms & Documents1201412,014 Forms - Completed\DBi1DBI- 0I—Declaration_for_Smoke_&_Carbon_Monoxide_Detectors REV'D 8.I3.14 AKM.doc Page 2 of 2 — — Notes ' 1. THIS IS 6.150 kW DC Power (STC) 5.586 (PTC) 5.446 kW AC Povaer (CEC) ` 3/4 " EMT ATTIC RUN USING 22 CANADIAN CS6K-280M 2. THIS SYSTEM IS GRIDANTERTIED VIA UL-LISTED POWER CONDITIONING ROOF MCOJNf INVERTER1 SOLAREDGE SE6000A-US (240V). — 3. EACH PANEL IS EQUIPPED WITH 1 EA. SOLAREDGE P300 OPTIMIZER- -------------- ------------------ ------------------------------- A._A,RRAY-VVIL-Lf;l:JJ FFM%NT-TPRflOFStOPE-OP 5-j17--- KEMTATTIC - — 5 WIRE 40' ________________________ RUN FROM ARRAY TO SERVICE UTILITY BOX ----------------- -- AR 00 P ULEAN RACKING SYS ' 6. IVE(GHT PER SQUARE FOOT (AS PER MOD D RACK TEM SPECS = 3.59LBS) , 7. RACKING SYSTEM STANDOFFS AT A MAX W SPAN 8. RACKING LABELING DETAIL ON ATTACHED SHEET, 9. BUILDING IS 1 STORIES. 10. ROOF COMP SHINGLE 11. INVERTER AND MSP LOCATED ON NORTHSIDE OF HOUSE. 12.MODULES ARE 3" OFF THE ROOF ROOF MOUNT SOIADECK " 3/4" EMT ATTIC RUN EXISTING ROOF SYSTEM: 2"x6" TRUSS 24" O.C. 14X6" t NOT TO SCALE ...._ ----- -------------------- --- - RCX�F MO SOLADECK -- - -•--- -- - -- ---•-- - - ----------------------- --------------• . . -------------------•--------^- -.-----------•---•--- ---- - - TRUSSES , _ - 2" X 4" 3' N ' 10'4" • . EXTERIOR BEARING WAL INTERIOR BEARING WALL 180 CONTRACTOR: PROPERTY OWNER: CRANE EXTERIORS INC. MICHAEL WILSON DBASOLARV/ORKS 13975 KELSEY DR Drawn By: EAM . _ 3030 THORNTREE DRIVE STE 2 CHYICO,CA 95973 CHICO CA 95973 (530) 228-6144, • Date.: 05/20'2017 • 530 892 2385 530 520 0451 Scale - 1/8" = 1' (6) AWG # 30.(PV WIRE). . 1 II8 BARECOPPER. .. " ,.. .. 3/41n :EMT (4) AWG#j0TFIWN-2 (3z) AWG #8 THWN-2 WIRE . (1) AWG.NSTHWN=2 GROUND (lx) AWG #8 THWN' CU GROUND 9 CANADIAN CS6K-280M i INVERTER SOIAREDGE . - ` `Solabek Roof MountSE 6000A -US - - - '_ <-. . y CANADIAN'C56K-280M tio !uncn-Sox .. INVERTER. .. - .. bK WATT' INVERTER (WI DC DISCONNECT ` 1MEGRATEDINTO 661( -Mom- 9 CANADIAN 66 INVERTER B DC�AFC1 COMPLIANT TO _ UL16998): EXISTING 200E I V 1 PANEL &METER EXISTING 200A. MAIN BREAKER _- "aoA PV BREAKER GROUNDING ELECTRODE' . QuickBOLT Part # Box Quanti Size 10 Washers; 5/16" x 3"; 17672 10 Botts; 5/16" x T; 10 Offset L -Feet; NA; 30 Serrated Hex Flange Nuts 5/16" „ ;f CYC V� ; o✓ 5830 Las Positas Road, Livermore, California 94551 13948 Airway Drive, Rock Hill, South Carolina 29732 Phone: (844)-671-6045 1 Fax: (800)-689-7975 1 www.solarroofhook.com SolarRoofHook is a division of Quickscrews International Corp. 5830 Las Positas Road • Uvermore;.CA 94551 I. Phone (800)-743-6916 Fax (800)-68977975 www.quickscrews.com 1\ , ' 1 i IIIIIIIIIIIII II VIII �I , II �II III � I 'll 1I1 I' I � I 5830 Las Positas Road • Uvermore;.CA 94551 I. Phone (800)-743-6916 Fax (800)-68977975 www.quickscrews.com r. :r January 23, 2b.14, To whom this may concern, SolarRoofHook is committed to excellence. All of our parts were tested by a third party test facility for the following. 1. Uplift test 2.. Downward loadtest 3. Water Proof QuickBOLT. only AME Research facility hada current engineer license per the State of California in 2012 and 2013. . Terrapin Testing had a current. engineer license per the State of California in 2011. The following is an excerpt from: CALIFORNIA BOARD FOR PROFESSIONAL ENGINEERS AND LAND SURVEYORS g u i d e to' Engineering & Land Surveying for City and County Officials Page 12, Line 27 27. If the license has expired between the time.the engineering documents were prepared and the time when the local agency's review is performed, do the documents need to be re -sealed by; licensee with a current license? (B&P. Code §§ 6733, 6735, 6735.3, 6735.4) As long as. the license was current at the time the engineering documents were prepared, the documents do not need to be re -sealed prior to review by the local agency. However, any changes (updates or modifications) to the documents that are made following the .review by the local agency would have to be prepared by a licensed engineer with a current license and those changes would have to be signed and sealed. We trust the information provided will, alleviate any request for the test reports submitted to, have a stamp' from the current year. ' Respectfully, Rick Gentry V.P. of Sales & Marketing .5830 Las Positas,Rd Livermore, CA 94551 Phone: (844)-671-6045 Fax: (800)-689 7975 www.solarroofhook.com -' .e o o . e c e o. c APPLOC D G�Q�C MALS & C��1C�0(�EERONSo ONC . 98,3 41s'.5treet . Tel: (510) 420-8190 0; <dand, CA, 94.608 FAX: (5.10) 420-8186 e-mails info@appmateng.com June 3, 2016 Mr. Rick Gentry Project Number 1160414C Quickscrews International Corporation 5830 Las Positas Road Livermore, CA 94551 Subject: OuickBOLT Load Testing Dear Mr. Gentry: As requested,. Applied Materials & Engineering, Inc. (AME) has completed load testing QuickBOLT in . 2"x6" Douglas Fir wood as fellows: 1. Withdrawal resistance of 5/16"0x7" (#15685., #17670), 5/16"0x8" (#17678), 5/16"0x9" (#17686) QuickBOLT.` 2. Lateral resistance of 5/16"0x7" (#17670) QuickBOLT. QuickBOLT is reportedly made of type 304 SS. QuickBOLT dimensions are provided Appendix A.. TEST PROCEDURES & IR.ESULTS 1. Withdrawal Resistance A total of nine tests were conducted on May 24, 2016 in general accordance with applicable procedures outline in ASTM D1761, section 8.2. The bolts were driven at right angle (in a 3/16"0 pilot hole) onto the 2"face of the test wood and withdrawn using a United Universal testing machine at a uniform rate of platen separation of 0.1 inch.. Based on our testing, the average withdrawal resistance of QuickBOLT in a 2" x6" Douglas Fir wood was determined to be as follows: 5/16"00" (penetration depth: 3.21 ") 2747 lbs The specific gravity and moiE"ture content of the wood member was tested in accordance with ASTM D2395, Method A (oven-dry). Detailed results are provided in Table 1, 11 and Ill. 2. Lateral Resistance " A total of three tests were coWucted for lateral -load capacity on May 25, 2016 using a United Universal testing machine. Mockup. configuration consisted .of three 2"x6"xl2" long rafters.at 4.5"o.c., screwed to 1/2" Structural I plywood. Page 1 of 13 APPUED H6°JitE6 ALO ENMEEMNO, Mg. Mr. Rick Gentry Project Number 1160414C Quickscrews International Corporation QuickBOLT Load Testing June 3, 2016 The bolts were driven at right angle (in a 3/16"0 pilot hole) on to the 2" face of the middle rafter. Samples were rigidly attached to the testing machine and a shear load was applied to the QuickBOLT at the furthest end. The samples were loaded parallel to rafter at. a constant rate of axial deformation of 0.1 • in. /min. without shock until the bolt was bent.' Based on the above testing, the average maximum lateral resistance of the 5/16" Ox7"QuickBOLT attached to a 2."x6" Douglas Fir rafter was determined to be 1273 lbs. Test setup and mode of failure are provided in Appendix B. The specific gravity and moisture content of the rafter was tested in accordance with ASTM D2395, Method A (oven -dry). Detailed results are provided in Table IV. ,If you have any questions regarding the above, please do not hesitate to' -call the undersigned. Respectfiilly. Submitted, APPLIED MATERIALS & ENGINEERING, INC. Q�oFEssioNReviewed by: 1AJIR�9F2c� N0. 35535 p o _ w Exp• 91301V o e aiyaz \enTinPh.D., P.E. oratefy Manager C\�b incipal fOFCA� 4 r 1 . Page 2 of 10 APPUED BROOM &MOMEERNO, W. TEST MAXIMUM MODE OF ' SPECIFIC MOISTURE NUMBER 'WITHDRAWAL FAILURE .' ". GRAVITY CONTENT. (%). LOAD (lbs) 338 2525 Bolt pull-out 0.360 23.2- r' 340 3.177 Bolt pull-out 0.354 19.2 341 2539 Bolt pull-out 0.385 ' -20.4 AVERAGE ' 27.47 .. 0.366 20.9 TEST MAXIMUM, MODE'OF SPECIFIC MOISTURE NUMBER ._ , LATERAL- LOAD (Ibs) FAILURE .. GRAVITY CONTENT (%) 342 ' 1381 Bent bolt 0.373, 13.1 343 1095 Bent bolt 0.422 13.9 .344 1343 Bent bolt 0.342 13.3 AVERAGE 1273 ' s .. 0.379 13.4 Page 7 of 13 APPUED HG°J4EG' ALS A ENOWEERPHO, MC. t �.' r ' . � - , � Y. • , • �. � � i � - i r r,. .+ • � � � "r. • �, , t• . • . .. .�� .t � i a t ! ' t ♦ r. �.I y s .. ' � 1. f ` � r I •' F � �4 ' r i i r r,. .+ • � � � "r. • �, , t• . • . f ` � r » ' . r r,. s . � � "r. ��. • . • .. �-� 1%�ii�� _ 2 � � l S R TJX � � • . �.:��L. ,� • . � #r"Y � ,rte f�� f� Figure 2 -Typical Failure Mode ' Page 13 of .13 APPUED MWER O A ENNNCE6 NO, WC. eterrapor�te5ting, , v you build fi. we`ll breakt ,o Q'UICKS.CREWS - .:�xrru"rios,u�4,~r,gRvnarrui� I°NTE:RIVATION.AL CO"RP- Quickscrews QuickBoltTo `" y. Wa#errPenetrationETestoWith, Sealant ' Report No: 17 511011C • - r N"ovember 18, ;20"1.1 r ('REV "2.0) _ r Embossed Corporate Seal Submitted by: #; TERRAPIN TESTING 3206 LUYUNG DRIVE ' + RANCHO CORDOVA, CALIFORNIA 95742-6830 PHONE [916]j851=965'8 - ' FAX [916] 853=9432 i IAS,'INC. X O. TL -159 ' FLA TST2542 Signed: Rick Cavanagh Title: Lab" Manager ;Dated: No2 vember 18,01.1. This Report is for the"exclusive use of the Client named _ herein Terrapin Testing authorizes the Client to'reproduce this. report only if reproduced in its entirety. - The.results ofaesting in this report apply only `to the samples, supplled and under. the stated conditions of testing: ' _ i' The fiard copy of this report is the final copy; and supersedes z any electronic versions of, the same, In"case.of disputes:, 7� ; 3206 Luyung Drive S , *k, ari6o Cordova California 957426830 C". t ��, • "' pHone:9ibii53.4058IFa�916$53.9932 Info: rtre`terrapin�g com (www.rerrapinre9ting.com 6 1.0 INTRODUCTION Quickscrews International Corporation (QSI) contracted ,with Terrapin Test - ing est i ing (LAB) to perform tests, on its QW&Bolt"`' product:. The LAB performed water penetration tests at its facility in Rancho Cordova, California. Section 3.0 below describes the. product, configuration. 2.0 REPORT IDENTIFICATION This report titled "Quickscrews QuickBoltT° Water Penetration. Tests - With Sealant," was prepared by -the testing lab, Terrapin Testing, TL7159. The LAB is located at 3206 Luyung Drive, Rancho Cordova; California, 95742- 6830. The LAB's unique job number, TT 511011C identifies this report. This report was prepared,at the request of QSI. The proponent's corporate; offices and facility are located at 5830 Las Positas Road, Livermore, Califor- nia 94551. This report is issued as of the date on the report cover., The tests covered by this report were performed during the month of October, 2011. Rick Cavanagh, Lab Manager, prepared this report and.supervised the.tests. His signature icon the report cover. 3.0. SAMPLE MESCRIPTION The QuickBoltT"' assembly consist of one 8 1/4 -inch long, 5%16 -inch, 18 -threads per inch. proprietary hanger bolt and one. EPMD backed stainless steel compression washer. The QuickBoltT" assemblies subjected to testing were selected by QSI and delivered to the LAB, and. received in good condition, on October 13, 2011- 4.0 RESULTS . Water Penetration Tests The specimens were installed into a simulated roof deck and subjected to water penetration tests:. A 1/8" diameter lead hole was bored into the wood framing membrane prior to inserting each specimen. The simulated roof' deck was fabricated by the LAB using. Spruce -Pine -Fir (SPF) dimensional 2x4 lumber, 7/16" OSB:(APA rated to PS -2 04), and`two'(2) layersof Owens Corning 25 -,year Onyx Black AR 3 Tab Asphalt Shingles. Terrapin Testing Quickscrews QulckBolt— Water Penetration Tests -With Sealant Drig. Issue Dater 2011-11-09• A p p r oval . Report No; TT 511011C Revision Date: 2011-11-18 RWC Page 3 of Revision #r 2.0 The specimens were installed onto this deck .at- the, intersection. of three, (3)1 shingle,,elements:r A 3.0"diameter neoprene,washer•was:installed as a fiash- ing•element'and a '1/4' diameter bead-of'Henry 900 Construction and Flash-- 5eWint'was placed between the perimeter- of tFie:vuasher�and tl e,roofing. �A3%8,' ball of sealant was placed at the,center,,of;the,washer,between it and I th'e>roofng';pnor to.installetion•of-the specimen: A plastic test chamber en- capsulated -thespecimen against the roof,deck. The chamber. was,.floode&.with colored water and subjected to a, pressure of 30 psi -for-10 minutes. The. underside ,of'the'roof'deck was observed'for leak'- age and tissues were inserted into a cavity,b'elow"the OSB At th`e comple tion of the test, ,the tissues were obsenied for contact with the colored water. None of the te'sts-showed signs of leakagethrough the roof'deck. Ji A total of five (5) specimens were subjected to testing. Figure 1 below docu- ments the testing configuration. •l i j . i -q _ __ _ .� _ ,�. •. .. � - - .+. .. ,y.... ate- �.. •s.,.. ....- „�-. - 1 IF FIGURE 1 " PRESSURE GAUGE INLET/OUTLET j:�'Aiy;_� AIR WALVE, 4. PLASTIC PLATE " FOO QuickBoltTM ASSEMBLY 1 t /- CLEAR°TUBE DYED WATER -��6 i PLASTIC GA GASKET ff ,,-`-'ROOF SHINGLE f f OSB PS2 BOARD SPF 2X WOOD 2X WOOD sM '; Two layers of asphalt shingles were ,placed• under the QuickBoltTM assembly. The first layer covered the entire 'OSB PS2 board. The second •laye. consisted of two shingle elements placed ,side by side. The specimens. -was placed at - the intersection ' of an . imaginary line ,drawn between the -two shingle -elements-,(top layer) and an imaginary line .drawn at the downslope edge of the two shingle elements. renecraaon 1 es6 - wi Org. issue Date: '2011-11-09 Approval: 3 Report No. TT 511011 Revision -Date: `1011=11=18 RMC Revision #: 2.0 OM Photo \q'Z Photo 2—Typical Dry Results Photo i—Typical Test Setul w Terrapin Testing Quickscrews Quickeolt`^ Water Penetration Tests - With Sealant Org. Issue Date: 2011-11-09 Approval: Report No. TT S11011C Revision Date: 2011-11-18 RWC Page 6 of 7 Revision 2.0 Revision Number Revision Date #0.0 November 9, 2011 No Revisions #1.0 November.16, 2011 Update Text Per Client Review #2.0 November 18, 2011 Update Text Under Figure 1 Per Client Review Sr Terra in. Testih Quickscnews QuickBolt- Water p - _ - Penetration'7esta- With Sealant OrP,g. Issue Date:- 2011-11409 Approvah Report,No. Trs11011C Revision'Date: 2011-11-18 RWC Page 7of7 Revision #: 2:0 lA terrapintest ng YPU build o'// breokit. I. ild it, we 10, QUICKSCREWS :Q1 - %TrR--IAT Uk-4 , INTERNATIONAL CORP. Qqicksceews Qu'ickBOjtTM Water ,Penetration Tests, - No Sealant I Report No. TT 511011 E November 18, 2011 (REV 2.0) Embossed Corporate -Seal Submitted by: TERRAPIN TESTING 3206 LUYUNO DRIVE .R NCHO'CbkDOVA, CALIFORNIA 95742'-6830 PHONE [91,61853-96,58 Fax [916],853-.9432 IAS, INCAO. TL -159 FLA TST2542 Signed: Rick Cavanagh Title: Lab Manager 'Dated:. Wbvemibdr ig, 2631i This Report is for the -exclusive,. use of the ,Pjpnt,named h6r6in. Terrapin Testing 6 - u-thorizes'the Client to reproduce. 111i in s1.6 dri:onlof.reprod d 'u c'e i , its entirety. 'The results: qi(:testing; in I this report . apol . y.only to.the samples. suppkied apdunclentile sta.ted."conditi6ns-of.iesiinq. The hard"copy W ihis rqpOrt is the 'final 'copy; and supersede s :any electronic verslons,of,the same, in case .32061.UyunqVlve R.a kho Cordova, California 95142=6830 Plio!1e: 916-4853;96541 Fax. 9i6 $53.9432 info_ ttqtqr�jjjjtp.s14S9 - m.,,ww Aerrapinu?s69xbrn L T, errap" 'in Testing QuickscreWs Qul keolr'-" Wafer Penetration Tests.- No S_ ealanh ;Report No. TT 511013E • ' DaM 2011-1-1.-09 " Approval ' Redsion Dafe: 2011=11=18 Re4ision #:"'2.0 JOng.:7ssue RWC Page 2 of 7 1.0 'INTRODUCTION Quickscrews.International Corporation (QSI) contracted with Terrapin Test- ing (LAB) to perform -tests, on its Quick.bolt;lm product. The LAB performed water penetration tests at its facility in Rancho Cordova, California. Section 3.d`below describes the product configuration. 2.0 .REPORT IDENTIFICATION This report titled "Quickscrews QuickBolt1m Water Penetration,Tests - No -Sealant," was prepared by the testing Iab,.Terrapin Testing,'TL-159. The LAB is located at 3206 Luyung Drive, Rancho Cordova, California, 95742- 6830. The LAB's unique job number, TT 511011E identifies this report. This report was prepared at the request of"QSI. The proponent's corporate offices and facility_ are located at.5830 Las Positas Road, Livermore, Califor= nia 94551. This report is issued as of the date on the report cover. The tests covered by this report were performed during the month of October, 2011. Rick Cavanagh, Lab Manager, prepared, this report and supervised'the.tests. His signature is on the report cover. 3.0 SAMPLE DESCRIPTION. The QuickBolt•°' assembly consists of one,8 1/4 -inch long, 5/16 -inch, 18 threads per,inch proprietary hanger bolt and one EPDM backed stainless steel compression washer. - The QuickBolt"" assemblies subjected to testing were selected by QSI and delivered to the LAB,.and received in good condition, on October 13, 201;1'. 4.0 : RESULTS Water Penetration Tests The specimens were installed into a simulated roof deck and subjected to water penetration tests. A 1/8" diameter lead hole was bored into the wood framing membrane prior to inserting•each specimen. The simulated roof deck was fabricated by the LAB using Douglas Fir (DF) dimensional 2x4 lum- ber, 7/16" OSB (APA rated to PS -2 04), and two (2).'la.yers of Owens Corning 25-year'Onyx Black AR 3 Tab Asphalt Shingles.' , Terrapin. Testing Qulckscrews QuickBolt'" ,Water Peneirai tion Tests - No Sealant.' Orig.IssueDate 2011-11-09 Approval; Report No.,.TT511011E RevisionDite. ;2011=11-18 RWC Page 3 of Revision # ' SIA The`specimens we're installed onto-thit'deck,at the intersection'of three (3). shingle elements..A 3.0" diameter neoprene,washer was installed -as a flash= ing element., ,Sealant was not placed between the washer and, the roofing.. A, plastic test chamber encapsulated the specimens against the roof deck. The, chamber -was flooded, with colored water and subjected to a ,pressure. of 22 ;psi for `10, minutes. The�underside of the roof deck was obseryed for leak= age and tissues were inserted into a,cavity below the OSB. 'At the comple; tion of the test, the tissues ,were observed for., contact with the colored water. None of the tests showed signs of leakage through t:he roof deck. A total' of five (5) specimens were. subjected to testing. Figure) below docu- ments the testing configuration. Terrapin Testing Qnfckscrews Quick8bit" Water Penetration Tests - No sealant • irig. Isse%Date.; 2011-11-09 Approval iReport,No.,TT511011E Revision Date: 2011-11-18 ` I RWC_ Page 4 of 7 Revision # 2:0 INLET/OUTLET -� ' _ 3 AIR VALVE „� + .— PLASTIC PLATE F00- --- ,, --+ + CLEAR TUBE QUICkBolt" ASSEMBL, '",� f f— PLASTIC GASKET. DYED WATER — r ROOF SHINGLE OSB PS2 BOARD .« «•�*'a!+�` - SPF 2X WOOD, 2X WOOD 1 y 1 t r. .ate � " :. •--,�: �'1 r"•"-, CC'.� �C'.��^ �...• -C� `.�.,, - Two -layers. -of aspha•It shingles were placed under the QuickBoltTM assembly.` The first layer•covered the'entire OSB PS2 board. . The second layer consisted` -of two shingle elements placed side Py side. The .specimen was placed •at,,,the intersection of an a imaginary line drawn between, the Mo.'shingle elements (top r layer) and an imaginary line' drawn at the downslope edge of the two shingle elements. Quickscrews QuickBolt- %$/Tap/p %G'St//1[J Water Penetration Tests - No Sealant Orig. Issue Date:$ 2011-11-09 ' Approvah. , Report No. TT 511011E Revision Date.2011-11-18 RIMC + Page S of 7 Revision #: 2.0.. i ,woe 1 V67 1 Photol—Typical Test Setup Photo 2—Typical DryResults ' Terrapin Testing Quickscrews Quickeolt— Water Penetration Tests - No Sealant O.-ig. Issue Date: 2011-11-09 Approval: Report No. TT 511011E Revision Date: 2011-11-18 RING Page 6 of 7 Revision #r 2.0 Terrapin Testing QuIckscrews Qulckeo/r=� Water Penetration Tests - No Sealant .Report No. TT 512011E Orig. Issue Date: .2011-11-09.Approval:- i' 1 1 ReVl5i0i7 Date: 2011-11-18- - RWC: Page 7 of 7 Revision #:. Z-0 �i Terrapin Testing QuIckscrews Qulckeo/r=� Water Penetration Tests - No Sealant .Report No. TT 512011E Orig. Issue Date: .2011-11-09.Approval:- ReVl5i0i7 Date: 2011-11-18- - RWC: Page 7 of 7 Revision #:. Z-0 o O WAS 194:401012-:16161 R.l• Sol arEdge•Power .Optimizer Module Add -On For North America P300 / P320 / P370 / F400/ P405 • PV power optimization at the module level - - Up to 25% more energy - Superior, efficiency (99.5%) Mitigates all types of module misrvatch losses, from manufacturing tolerance to partial shading - Flexible system design for maximus space utilization -,Fast installation with a single bolt Next`generation maintenance witF module -level monitoring Module -level voltage shutdown fo installer and firefighter safety. USA - CANADA -GERMANY -ITALY -FRANCE -JAPAN-'CHINA -AUSTRALIA -THE NETHERLANDS-UK-ISRAEL-TURKEY-SOUTHAFRICA-BULGARIA -INDIA www.solaredge.us SolarEdge Power Optimizer Sold r=@@ Module Add -On for North America P300'/ P320 / P370 / P400 / P405 ' 4 r • P370 P400 P405 '..(Voc at lowest temperature) (for 60 -cell mod- (for high-power (for higher -power ^ ll 60 and 72 -cell (for 72 & 96 -cell d li • IINPUT T P300 P320 P370 P400 P405 '..(Voc at lowest temperature) (for 60 -cell mod- (for high-power (for higher -power ^ ll 60 and 72 -cell (for 72 & 96 -cell (for thin film ? • ules) 60 -cell modules) modules) modules) modules) a 99.5 IINPUT T Rated Input DC Poweri'I 300 320 3.70 400 405 W Absolute Maximum Input Voltage '..(Voc at lowest temperature) 48........... 6.. 80 ....... .........125 .......... ........... ......... ............... •........: Vdc MPPT Operating Ranke B-48 8 - 60 8 - 80 12.5 =105 d, I: Vdc Maximum Short Circuit Current (Isc) ........5 ..... 10 . 11 10.1 .............. Adc Maximum DC Input Current ........................... 12.5 13.75 12.63 ±� ............. Adc Maximum Efficiency ..............................................................:.................................................................................................... 99.5 % Weighted Efficiency. '................. 98.8 .......... .............. % ' Overvoltage Category II (I : ) OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTEQTO OPERATING SOLAREDGE INVERTER) e� ) Maximum Output Current 15 Adc Maximum Output Voltage 60 I' 85 Vdc Z OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLAREDGE INVERTER OR SOLAREDGE INVERTER OFF) I Safety Output Voltage per Power , t Optimizer Vdc STANDARD COMPLIANCE EMC ................................................................................................................................................................... - " I FCC Part15 Class B, IEC61000-6-2, IEC61000-6-3 Ji Safety..........'................................................................... IEC62109.1 (class II safety), UL1741 .... ................ .............. .............. RoHS Yes 11 I INSTALLATION SPECIFICATIONS • Ij r Maximum Allowed System Voltage 100.0............. I .............................. ..I......... I Vdc Compatible inverters All SolarEdge Single Phase and Three Phase inverters f ...................... . ............`. Dimensions (W x L x H) / �• 128x152x27.5/5x5.97x1.08 128x152x35128x152x50/ mm/in .................................. ........... :.. ..................................................................... S x. 5.97x 1. 37 S. x 5.97x. 1. 96 ..Weight (including ................................ ...................... ....630..1.4...... .._..750..1...... 84..11:9 ... gr/Ib .j Input Connector ............................................................................................. % MC4 / 1` „MC4_^ompatible; MC4 Compatible 1 `Amphenol AH4.. ..................................... Double Insulated; Output Wire Type / Connector.• Double Insulated; MC4 Compatible MC4 / Double Insulated; MC4 Compatible . '•................................................................... . ......................... .. Amphenol AH4 .. .................... ... Output Wire Length ...................................... 0.95 / 3.0 1.2/3.9 ...........I......... ............................ m ft . Operating Temperature Ranke ......:.: .......:...........:........................ -40 : +85 / 40 +185...........:............................... Protection Rating .Y..................................................................................................................... IP68 / NEMA6P i) .... ...*C....F.... ..... Relative Humidi ri 0-100 '............................................................................... % iri Rated STC power of the module. Module of up to+S%power tolerance allowed. .............. PV SYSTEM DESIGN USING SINGLE PHASE "THREE SINGLE PHASE THREE PHASE 208V PHASE 480V I A SOLAREDGE INVERTERaxil � NO -WAVE �• - Minimum String Length 8 10 .18 (Power Optimizers ) ................................................................................ ............................ ............................ .............. Maximum String Length 25 25 501 t! Power. Optimizers........... :........ ........................... ................ .......... .............. ............................... ........................... . 5700 (6000 with Maximum Power per String5250 6000 12750 W ....................... .:.......................... ............:..... ............... SE7600H .USJ....... ............................ '.......... .............. Parallel Strings of Different Lengths rj or Orientations Yes II • ................................................................................................................................................:................. .............. For detailed string sizing information refer to: http://www.solaredge.com/sites,'default/files/string_slzing_na.pdf. II - - It is not allowed to mix P405 with P300/P370/P400/P600/P700In one string. 11 rY � F solar=ee r SolarEdge -Single Phase Inverters for North America , SE3000H-US / SE380OH=US / SE5000H-.US / SE6000H-US / SE760OH-US iF F F irl r� .q. • r... e r w 'A `Optimized installation with HD -Wave technology a, Specifically designed to work with power optimizers F Record-breaking efficiency" Integrated -Arc Fault protection an_d'Rapid Shutdown for NEC 2014 and 2017, per article 61.90.11 and 690.12 Extrerriely`small High reliability without any electrolytic capacitors A 'Built-in module -level monitoring: _ ` IV__� Outdoor and indoor installation ,: - wave Optional: Revenue grade clpp 'AMSI C12.20 Class 0.5 (0.5% accuracy) ' USA-CANADA-GERMANY-ITALY-FRANCE-JAPAt4-CHINA-AUSTRALIA-THENETHERLANDS-UK-ISRAEL-TURKEY-SO6TH AFRICA -BULGARIA WWW.SOIdfedge.US t Supported Communication ........................ �eYen.ue.@.rade. Data, ........ . .. .. . .. . .. ... ..... .. .. Raoid Shutdown - NEC 2014 and 2017 690.12 ..WetY ................................ ..................... .......... Grid Connection Standards :*....:'*...*.........*.......... ............. ..I ........ Emissions RS485, Ethernet, ZigB e (optional)C, ................................. (optional) .......... Automatic utom cRapid . Shutdown up . on . A . C . G . rid Disconnect . . . . ......... .YL17I.I.,,U.LI6.99.B,.CSA .C.22.2,.Canadian .AF.Cl.according tp ..................... IEE.E1547,.Ru.Ie. 21(l),.Rule 14 (1:19 .................... FCC Part 15 Class 8 IN -rAi a Arinsq SPECIFICATIONSSPECIFICATIONS AC Output Conduit S.ize. /.AW.G. Ranke..... ............. ........ . ... .. . .. . ... . . ............ ......... . 0.75-1" Conduit/ 14-6 AWG DC Input Conduit Siie / # of Strings / AWG Ran ..... .............................. ...................................... .............. g� ; 6.–S 1."" u*'it"/'I* ..................... ............... so la'r=@@ Single Phase InvertersforNorth America ti Yyeii;�� �yith Safety Switch . . ................................................. ........................................................ 25.3/11.5 SE3000H-US SE380OH-US SE500OH-US SE600OH-US/ SE7600H US I .................... i ............. : ........................ 25 Cooling ...................... I ..................... I ........ . * .... ** . ' ........ ........... ral Convection I ....................................... Natural Operating Temperature Range ...... . ................ ............. H 1 . -13to+140/-25to+60t4) .(-Aq*�J:�q'�Rpi�qq)() .......... ...... ............. ............. SE3000H-US 'SE380OH-US SESOOOH-US SE6000H-US,- -SE7600H-US NEMA R(Inverter with Safety Switch) ................. ..................... . JOUTPUT 131 Pending certification Power de -rating from 50*C Rated AC Power Output i 30003800 0 6000 7600: ....... .................... ...... VA Max. AC Power ......... ........ .... 3000 6000 7600 .................... . ....... 00 VA ..AC Output .Volt.age. Min.-.No.m..-Max...(.183.-.208.-.229.) ....................... .. ..... .. ... ... . I ... .. . ..... ... . ... . ... ....... ..... ................... ........... ; ......... I . ............. ..........✓/ ............. Vac AC Output Voltage Min. -Nom. -Max. (211 - 240 - 264) ............................................. . ....... . ................ . – * ... * : ........ ......... ✓ ... I ......... Vac AC Frequency (Nominal) ........... ..................... .................... .................... ......... .................... 59.3 - 60 - 60.5111 ........ ............. H, Maximum Continuous Output Current 208V ............................ I ........... ......... ........... 2 A ..Max.im.um.C9�inti.nuo.us.O.utpui Current 240V . .. ... . .. ... .. ....... .. ......... ........ .. ............ ......... 21 25, 32 ....... 12.5 16 ........ ..... GFDI Threshold ... ......................................................... ......... ........... .................... .................... 1 ............. A Utility Monitoring, Islanding Protection, ..... .. Country Configurable Thresholds Yes i INPUT . .. ... . .... :.IY!?X.imMm.D�.P.ower ................. ..................... ....... ....... 7?�q 118 0 9.. W Transformer -less, UR&r9u90eq ................... ....... ....... ....... ....... ...... ....... ....... ... ...... Yes I . 1 .1 ..... ..... 7. Maximum ...................... .................................................... if ............. Vdc Nominal DC ..... ..... .... ....... ............ . . 380 �::: ....... ............ ...... -. ............. . Vdc ..Maximum In ut Current 208V . . ............. .........1::::: �::i �:: �::::: �: ............. Adc Max ...im.u.m.l.n.pu.t. Current .t..24.OV ....... .................. 13.5 8.5 6 1Adc .................... . ...... 10..S I 15 Max. Input Sloq.C:,rcult Current45 . ...................... .. I ........ ........ ... I .... ........ ........ ......... ........ .............................................................................................. .... Adc Protection.. ............................. .......... Yes ............. Gro6nd-Fault Isolation Detection ............................................................. .................................................. .................. ........ ......... 600kn Sensitivity ....... .... y ......... ............. ........... ..Maximum Inverter Efficien .....................q....................... .................. ....................................... R�-? CEC Weighted CY ....................................................................................K.......... .— .................................................................. ... ........ .. % Nighttime Power Consumption ............................... < 2.5 11 W ADDITIONAL FEATURES Supported Communication ........................ �eYen.ue.@.rade. Data, ........ . .. .. . .. . .. ... ..... .. .. Raoid Shutdown - NEC 2014 and 2017 690.12 ..WetY ................................ ..................... .......... Grid Connection Standards :*....:'*...*.........*.......... ............. ..I ........ Emissions RS485, Ethernet, ZigB e (optional)C, ................................. (optional) .......... Automatic utom cRapid . Shutdown up . on . A . C . G . rid Disconnect . . . . ......... .YL17I.I.,,U.LI6.99.B,.CSA .C.22.2,.Canadian .AF.Cl.according tp ..................... IEE.E1547,.Ru.Ie. 21(l),.Rule 14 (1:19 .................... FCC Part 15 Class 8 IN -rAi a Arinsq SPECIFICATIONSSPECIFICATIONS AC Output Conduit S.ize. /.AW.G. Ranke..... ............. ........ . ... .. . .. . ... . . ............ ......... . 0.75-1" Conduit/ 14-6 AWG DC Input Conduit Siie / # of Strings / AWG Ran ..... .............................. ...................................... .............. g� ; 6.–S 1."" u*'it"/'I* ..................... ............... –Dimensions with Safety Switch (HxWxD) ............... .................................. 6.V.45.0.x..3.70. x.1.7.4 .................... ti Yyeii;�� �yith Safety Switch . . ................................................. ........................................................ 25.3/11.5 .Nqise< ............................... ................... I .................... i ............. : ........................ 25 Cooling ...................... I ..................... I ........ . * .... ** . ' ........ ........... ral Convection I ....................................... Natural Operating Temperature Range ...... . ................ ............. H 1 . -13to+140/-25to+60t4) .(-Aq*�J:�q'�Rpi�qq)() .......... ...... ............. ............. ............ ; ............ I ............. ................................ NEMA R(Inverter with Safety Switch) ................. ..................... . For other regional settings please contact SolarEdge support Revenue grade inverter P/N: SEx H-USDDONNC2 131 Pending certification Power de -rating from 50*C 61-40 version P/N: SbootxH-1.15000NN1.14 0 , w 'Nr CanadianSolar CS6K- 275 ] 2801285 M Canadian Solar's modules use the latest innovative *Blackframe cell technology, increasing module power output and product can be system reliability, ensured by 15 years of experience provided upon in module manufacturing, well -engineered module request. design, stringent BOM quality testing, an automated manufacturing process and 100% EL testing..' KEY FEATURES + Excellent module efficiency of up to 17.41 % ?5 linear power output warranty '! Cell efficiency of up to 20.0 %:�0 product warranty on materials years and workmanship. . t,. • ................................................................................................................ High High PTC rating of up to 90.7% PTC MANAGEMENT SYSTEM CERTIFICATES* ISO 9001:2008 / Quality management system + ISO 14001:2004 / Standards for environmental management system j Outstanding low irradiance r OHSAS 18001:2.007 / International standards for occupational health & safety performance: 96.5 % PRODUCT CERTIFICATES* IP67 jUr1CtI0n box for long -IEC 61215 / IEC 61730: VDE / CE / MCS /JET / CEC AU / CQC IP67 term weather endurance a UL 1703 /IEC 61215 performance: CEC listed (US) ' i UL 1703: CSA / IEC 61701 ED2: VDE / IEC 62716: VDE / Take -e -way ** * Heavy snow load up to 5400 Pa, y ;� UNI9177 Reaction to Fire: Class 1 C� wind load up to 2400 Pa `� w de cspU9C E C"a� BBA ;�« �e� �j -RTr * As there are different certification requirements in different markets, please contact your local Canadian Solar sales representative for the specific certificates applicable to the products in the region in which the products are to be used. - ..........................................................................:................................................. _ CANADIAN SOLAR INC: is committed to providing high quality solar products, solar system solutions and services to customers around the world. As a leading PV project developer and manufacturer of solar modules with over 15 GW deployed around the world since 2001, Canadian Solar Inc. (NASDAQ: CSIQ) is one of the most bankable solar companies worldwide. ................................ ........................ :.............................................. :................................................................................................. :......................... ... CANADIAN SOLAR INC. , 545 Speedvale Avenue West, Guelph, Ontario N1 K 1 E6, Canada, www.canadiansolar.com, support@canadiansolar.com I • ENGINEERING DRAWING (mm) Rear View Frame Cross Section A -A Aounting Hole Iff ELECTRICAL DATA I STC* CS6K 275 M 280 M 285 M Nominal Max. Power (Pmax) 275 W 280 W 285 W Opt. Operating Voltage (Vmp) 31.3 V 31.5 V 31.7 V Opt. Operating Current (Imp) 8.80 A 8.89 A 8.98 A Open Circuit Voltage (Voc) 38.3 V V 38.6 V Short Circuit Current (Isc) _38.5 9.31 A 9.43 A 9.51 A Module Efficiency 16.80% 17.11% 17.41% Operating Temperature -40*C - +85°C Max. System Voltage 1000 V (IEC) or 1000 V (UL) Module Fire Performance TYPE 1 (UL 1703) or CLASS C (IEC 61730) Max. Series Fuse Rating 15A Application Classification Class A Power Tolerance 0-+5W * Under Standard Test Conditions (STC) of irradiance of 1000 W/m', spectrum AM 1.5 and cell temperature of 25°C. ELECTRICAL DATA I NOCT* C56K 275 M 280 M 285 M Nominal Max. Power (Pmax) 199W .202W 206 W Opt. Operating Voltage (Vmp) 28.5 V_ 28.7 V 28.9 V Opt. Operating Current (Imp) 6.95A 7.04 A 7.12 A 'Open Circuit Voltage (Voc) 35.1 V 35.3 V 35.4 V Short Circuit Current (Isc) 7.54 A 7.63 A 7.70 A * Under Nominal Operating Cell Temperature (NOCT), irradiance of 800 W/m', spectrum AM 1.5, ambient temperature 20°C, wind speed 1 m/s. PERFORMANCE AT LOW IRRADIANCE Outstanding performance at low irradiance, average relative efficiency of 96.5 % from an irradiance of 1000 W/m2 to 200 W/m2 (AM 1.5, 25°C). The specification and key features described In this datasheet may deviate slightly and are not guaranteed. Due to on-going innovation, research and product enhancement, Canadian Solar Inc. reserves the right to make any adjustment to the Information described herein at any time without notice. Please always obtain the most recent version of the datasheet which shall be duly incorporated into the binding contract made by the parties governing all transactions related to the purchase and sale of the products described herein. Caution: For professional use only. The installation and handling of PV modules requires professional skills and should only be performed by qualified professionals. Please read the safety and installation instructions before using the modules. ii CS6K-280M / I-V CURVES A A Cell Arrangement 60 (6 x 10) 10 ..... -I ........... .. ........ ..... 10 ....................................... _Weight _ _ Front Cover 3.2 mm tempered glass 9 .......... .--------- I_ _.... ....... 9 _................ Cable ........ 8 ................................ ...... 8 _ 26 pieces, 520 kg (1146.4 lbs) ........ e.. .. .. . . 7.. . .... 7 --..: -----_ i... .. .... 6 ....... ....... ... 6 3 ................................... . ._ 3... _.,_..................�.,.... .. .. ... 2 ...... ........... ............. _.. .. 2 ..................... ....'�. _. _. . .. 1 .................................... .. 1 ........................ rf...... .. .. o v o 5 10 15 20 25 30 35 40 5 10 15 20 25 30 35 40 1000 W/w - ii s°C 800 W/m' 25-C 600 W/m' 45-C 400 W1W 65°C MECHANICAL DATA Specification _ . Data Cell Type Mono -crystalline, 6 inch Cell Arrangement 60 (6 x 10) Dimensions _ 0.31 % / °C _1650x992x4Omm(65.Ox39.1x1.57in) 18.2 kg (40.1 lbs) _Weight _ _ Front Cover 3.2 mm tempered glass Frame Material Anodized aluminium alloyq )-Box IP67, 3 diodes ii Cable 4 mm2 (IEC)6r4 mm2 & 12 AWG 1000 V (UL), 1000 mm (39.4 in) Connector_ T4 -1000V or PV2 series _ Per Pallet _ 26 pieces, 520 kg (1146.4 lbs) Per container (40' HQ) 728 pieces TEMPERATURE CHARACTERISTICS Specification J: Data' Temperature Coefficient (Pmax) % / *C _-0.41 Temperature Coefficient (Voc) _ 0.31 % / °C Temperature Coefficient (Isc) 0.053 % / °C Nominal Operating Cell Temperature 45±2 °C PARTNER SECTION CANADIAN SOLAR INC. August 2016. All rights reserved, PV Module Product Datasheet V5.52 -EN sm _.AL - --------------------------------=------------------------------------------------------------------------------------------------------_----- TABLE OF CONTENTS A -SYSTEM COMPONENTS B -MODULE COMPATIBILITY C- SYSTEM LAYOUT . D- FIRE SYSTEM COMPLIANCE NOTES E - ROOF ATTACHMENT• & L -FEET ' F- SPLICE & THERMAL BREAK G -ATTACH RAIL•TO L -FEET H-MICROINVERTER MOUNTING I -SYSTEM GROUNDING 1- ENDCLAMP,TRIM & FIRST MODULE K- BONDING MIDCLAMP & TRIM L REMAINING MODULES & TRIM M- BONDING CONNECTION GROUND PATHS N- BONDING CONNECTION GROUND PATHS - MAINTENANCE . n-TOIAA DCTOrWIT IMQTA1 I ATWIM 0Wr n�Ne ar�dfTorque' - STANDARD SYSTEM COMPONENTS SM "10 3/8" Hardware'© 9/16" PAGE n12 Hardware e 5/16" 10 --------------------------------------------------------------------------------------------------------------------------------------------- ORAIL: Supports PV modules. Use at least two per :. row of modules. Aluminum extrusion, available in mill, clear anodized, or dark anodized. ®RAILSPLICE: 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 • 1 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 katj;( steel. Supplied with splice. In combination with rigid splice, provides rail to rail bond. OL-FOOT: Use to secure rails through roofing -:= material to building structure. Refer to loading tables ;R..... _.. • .. o Builder for spacing. U ,:;•,�,�.. :::�' ®L-FOOT T BOLT: (3/8" x 3/4") - Use one per L-foot f =ry' to secure rail to L-foot. Stainless steel. Supplied with t 4L� L-foot. In combination with flange nut, provides electrical bond. between rail and L-foot. �.` @SERRATED FLANGE NUT (3/8"):. Use one per " L-foot to secure and bond rail to L-foot. Stainless +, — SM STANDARD RAIL _ F. ;i- steel. Supplied with L-foot. pp i ",. ®MODULE ENDCLAMP: Provides bond from rail to SM LIGHT RAIL 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 0Wr n�Ne ar�dfTorque' - Wrench Size Recommended Torque (ft-tbs) 1/4" Hardware eeo 7/16" "10 3/8" Hardware'© 9/16" ''30 n12 Hardware e 5/16" 10 Torques are not designed for use with wood connectors 'w/Anti-Seize. provides module to module and module to rail bond. Stainless steel clamp and T -bolt. Available in clear or dark finish. @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. 1 MODULE COMPATIBILITY ,1��z�: � '^tb>> x�; �'�' 1 PAGE 1 -----------------------------------------------------'---------------------------------------------------------------------------------------- EF SIZE MIDCLAMP 97: Gy DK SIZE MIDCLAMP 6C SIZE MIDCLAMP EF SIZE MIDCLAMP 97: y� LAY0UT:..!-V SYSTEM PAGE ----------=-------------------------------------------------------------------------------=-------------------------------------------------- PLANNING YOUR SOLARMOUNT INSTALLATIONS LAYING OUT L -FEET FOR TOP CLAMPS The installation can be laid out with rails parallel to the rafters or perpendicular L -feet, in conjunction with proper flashing equipment and techniques, can be to the rafters. Note that SOLARMOUNT rails make excellent straight edges for used for attachment through existing roofing material, such as asphalt shingles, doing layouts. sheathing or sheet metal to the building structure. Center the installation area over the structural members as much as possible Leave enough room to safety 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 (11/2 inches for each Endclamp) RAILS MAY BE PLACED PARALLEL OR PERPENDICULAR TO RAFTERS Peak (Ridge) to w HIGH PROFILE MODE LOW PROFILE MODE 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. LAYOUT WITH RAILS PERPENDICULAR TO RAFTERS (RECOMMENDED) •� <— overhang 33% L max Foot spacing / Rail Span "L' r-- --� t 'Rail � l t/z • 13/a" Lower hoof Edge 40 Rakers (Building Structure) Gutter Note: Modules must be centered symmetrically on the rails (+/- 2'') z , r , C -COMPEIANCE NOTES' } ��D�� ODE 0 1 11 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 beeh incorporated into our UL2703 product certification. SOLARMOUNT has achieved'system 1.6veL performance for steep'sloped roofs. System level fire performance is inherent in the SOLARMOUNT deiign, and no additional mitigation measures are required. The'. fire classification rating'is only valid on roof pitches greater than 2:12 (slopes > 2 inches per foot, or 9.5 degrees). There is no required minimum or maximum height Limitation above the roof deck to maintain the system fire rating for SOLARMOUNT Module Types & System Level Fire Ratings are listed below: ..... . . . Rait Type Module Type System Level Fire Rating Rail Direction Module Mitigation Orientation = Required .... . .... . .......... . ..... .. ............... Standard Rail Type 1, Type 2, Type 3 & Type 10 Class A, Class B & Class C East-West Landscape OR Portrait" None Required' Norih-So'uth Landscape OR Portrait N6rie Required . . .... ....... .. ...... .. . ... .... . .. ............... .. .. ......... .... . ........ .. ......... . . . . .... . .. .. .... ... . ......... .. . . ...... ... . ...... .. .......... ... . Light Rail Type 1,& Type 2 Class A, Class,B & Class C East-West Landscape OR Portrait None Required North-South Landscape OR Portrait None Required. .... ..... ...... ... UL2703 CERTIFICATION MARKING LABEL Unirac SOLARMOUNT is listed to UL 2703. Marking Labels are shipped with the M idc[amps. After the racking system is fully assembled, a single Marking Label should be applied to the SOLARMOUNT rail at the edge of the array. Note: The sticker Label should be placed such that it is visible, but not outward facing. . . ..... . ........... ... ... ...... .. ... . . ........ .. . ......................................... . 401r_ UNIR-CSO-ARMOUNT. U1 z7o: SM STANDARD RAIL SM LIGHT RAIL .. .......... . . . ...... .. ... .. 4 1 VNIPAC SOLARMOUNT "Up Ilia -I, .�.;,} �.j R 0 R F ATTR C HM Nr T & L-FE+fitEV,� 1 7s P. ..A = SMa: - - - - - - - --- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - --- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Z 'got .ROOF- PREPARATION:. Layout- and install flashing at rafter locations determined per Design and Engineering Guide. . DRILL PILOT HOLES.' Center the roof FLAT FLASHING INSTALLATION: Insert INSTALL -LAG BOLTS & L -FOOT: attachment over the rafter and drill a the Flat Flashing so the top part is Insert the Lag bolt through the L -Foot pilot hoLe(s) for the tag bolt(s). under the next row of shingles and the in the order shown in the illustration. hole Lines up with the pilot hole. Verify proper orientation before tightening Lag bolts. • .. ... ...... . ...... . ........ .... . . ........ ..... .. .... . —son MaR H ...... ..... .... PIECE ALUMINUM STANDOFF WITH FLASHING.& L -FOOT: -=� — r.ZOP MOUNTTILE HOOK& L -FOOT: • If necessary cut an opening in the roofino material over a rafter to accommodate the • Remove or slide up the roof tiLe,,position the roof hook above the roof rafter flashing riser. Place Tile Hook in the middle of the underlying interlocking tile's valley. Drill 3/16 • Install the standoff, ensuring that both tag bolts are screwed into the rafter. inch pilot holes through the underLayment into the center of the rafters. Securely • Insert the flashing under the shingle above and over the shaft of the standoff. fasten each tile hook to the rafters with two 5/16" x 31/." Lag screws. Slide down or (No-Calk"m collar does not require sealing of the flashing and standoff shaft) re-insert the tile. - • Add L -Foot to top with bolt that secures the EPDM washer to the top of the standoff. • Attach L Foot to the roof hook. SPLICE E-" M 1-.-: PAGE & THERMAL BREAK: .... ...... . -; ";hrotrgh Enphase MI See PG 1-3 SPLICE INSTALLATION (IF REQUIRED PER SYSTEM DESIGN) If your installation uses SOLARMOUNT splice bars,attach the rails together before mounting to the L-feet/footings. Use splice bars only with flush installations or those that use low -profile tilt legs. A rail should always be supported by more than one footing on both sides of the splice. There should be a gap between rails, up to 3/16" at the splice connections. T -bolts should not be placed less than a dlStanee bf 1" ff OIT) the end of the rall regardless of a splice. EXPANSION JOINT USED AS THERMAL BREAK Expansion joints prevent buckling of rails due to thermal expansion. Splice bars may be used for thermal expansion joints. To create a thermal expansion joint, slide the splice bar into the footing slots of both rail lengths. Leave approxi- mately '/2" between the rail segments. Secure the splice bar with two screws on one side only. Footings (such as L -feet or standoffs) should be secured normally on both sides. of the splice. No PV module or mounting hardware component should straddle the expansion joint. Modules must clearly end before the joint with mounting hardware (top mount Endclamps) terminating on that rail.T-bolts 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 mounting hardware beginning on the next rail. Athermal break is required every 40 feet of continuously connected rail. For additional concerns on thermal breaks in your specific project, please consult a licensed structural engineer. Buns of rail less than 40 feet in length, with more than two pairs spliced together, are an acceptable installation for the SOLARMOUNT systems. ie ie 'Lo i .... ...... . -; ";hrotrgh Enphase MI See PG 1-3 SPLICE INSTALLATION (IF REQUIRED PER SYSTEM DESIGN) If your installation uses SOLARMOUNT splice bars,attach the rails together before mounting to the L-feet/footings. Use splice bars only with flush installations or those that use low -profile tilt legs. A rail should always be supported by more than one footing on both sides of the splice. There should be a gap between rails, up to 3/16" at the splice connections. T -bolts should not be placed less than a dlStanee bf 1" ff OIT) the end of the rall regardless of a splice. EXPANSION JOINT USED AS THERMAL BREAK Expansion joints prevent buckling of rails due to thermal expansion. Splice bars may be used for thermal expansion joints. To create a thermal expansion joint, slide the splice bar into the footing slots of both rail lengths. Leave approxi- mately '/2" between the rail segments. Secure the splice bar with two screws on one side only. Footings (such as L -feet or standoffs) should be secured normally on both sides. of the splice. No PV module or mounting hardware component should straddle the expansion joint. Modules must clearly end before the joint with mounting hardware (top mount Endclamps) terminating on that rail.T-bolts 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 mounting hardware beginning on the next rail. Athermal break is required every 40 feet of continuously connected rail. For additional concerns on thermal breaks in your specific project, please consult a licensed structural engineer. Buns of rail less than 40 feet in length, with more than two pairs spliced together, are an acceptable installation for the SOLARMOUNT systems. PLACE T BOLT INTO RAIL & SECURE BOLT: Insert 3/8" T -bolt into rail at L-fgot locations. Apply Anti -Seize to bolt. Rotate T -bolt into position. ALIGN RAILS: Align one pair of rail ends to the edge of the installation area. The opposite pair of rail ends will overhang installation area. Do not Trim them off until the installation is complete. If the rails are perpendicu- lar to the rafters,either end of the rails can be aligned, but the first module must be installed at the aligned end. If the rails are parallel to the rafters, the aligned end of the rails must face the lower edge of the roof. Securely tighten all hardware after alignment is complete. Mount modules to the rails as soon as possible. Large temperature changes may.bow the rails within a few hours if module placement is delayed. SECURE T BOLT: Apply Anti -Seize to ,1\? STA. t,1DR'[I ?A!L: I ; s e SM LIGHT RAIL: For a lower profile array when using bolt. Rotate T -bolt into position. either slc�` to connect SM Light rail, rotate the L -foot to orient the side with ,:he I: fa«% stt the :sil io only one (1) slot against the rail. Only use the slot obtair�. the c;e=iE-e!i heiatht location closet to the rail to connect the tag bolt to itsr� the flashing / roof on the side with two (2) slots. and alignment �idll�rE Alkl Y the to slot to connect the L -foot to using air? .Standard rail. NOTE: Use onl P the rail to obtain the desired height and alignment % 'r .! when using SM Light rail. - r ALIGN POSITION INDICATOR: Hand tighten nut until rail alignment is complete. Verify that position indicator on bolt is vertical (perpendicular to rail) ATTACH RAILTO ter :SMPAGE _____________________________________________________________________________________________________________________________________________ �. DO NQT USE I WITH SM TRIM(}` . 3/8.,T bolt i ./ �`}/ .. • ' • • • •OPTIONAL` j; LOCATION •'S •• • • • DO NOT USE .... DO `. NOT USE /r ` •�.., STANDARD SM LIGHT RAIL LIGHT RAIL' t SM _RAIL.. .; _SM PLACE T BOLT INTO RAIL & SECURE BOLT: Insert 3/8" T -bolt into rail at L-fgot locations. Apply Anti -Seize to bolt. Rotate T -bolt into position. ALIGN RAILS: Align one pair of rail ends to the edge of the installation area. The opposite pair of rail ends will overhang installation area. Do not Trim them off until the installation is complete. If the rails are perpendicu- lar to the rafters,either end of the rails can be aligned, but the first module must be installed at the aligned end. If the rails are parallel to the rafters, the aligned end of the rails must face the lower edge of the roof. Securely tighten all hardware after alignment is complete. Mount modules to the rails as soon as possible. Large temperature changes may.bow the rails within a few hours if module placement is delayed. SECURE T BOLT: Apply Anti -Seize to ,1\? STA. t,1DR'[I ?A!L: I ; s e SM LIGHT RAIL: For a lower profile array when using bolt. Rotate T -bolt into position. either slc�` to connect SM Light rail, rotate the L -foot to orient the side with ,:he I: fa«% stt the :sil io only one (1) slot against the rail. Only use the slot obtair�. the c;e=iE-e!i heiatht location closet to the rail to connect the tag bolt to itsr� the flashing / roof on the side with two (2) slots. and alignment �idll�rE Alkl Y the to slot to connect the L -foot to using air? .Standard rail. NOTE: Use onl P the rail to obtain the desired height and alignment % 'r .! when using SM Light rail. - r ALIGN POSITION INDICATOR: Hand tighten nut until rail alignment is complete. Verify that position indicator on bolt is vertical (perpendicular to rail) Smr CRO INMOUNTING Ail ---------- ----- 4 I' Y INSTALL MICROINVERTER MOUNT INSTALL MICROINVERTER: Install INSTALL MICROINVERTER: ALIGN POSITION INDICATOR: Verify TBOLT: Apply-Anti -Seize and install microinverter on to.rail. Engage with that position indicator on bolt is pre-assembled'/a" dia. bonding T-bolts bolt. perpendicular to rail. into top '/a" rail.slot at microinverter Locations. Rotate bolts into position. MICROINVERTER ; PAGE ------------------------------------------------------------------------------=----------------------------------------------------------�--- SME EQUIPMENT GROUNDING THROUGH ENPHASE MICROINVERTERS The Enphase M215 and M250 microinverters have integrated grounding w capabilities built in. In this case,the DC circuit is isolated from the AC circuit, and 54auf^S• r n1"-• ' . Qom. 49. 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 ` x $� ;;-•�:��•,:-'�: ��: %�'- � .� � PV modules connected to the same trunk cable within a continuous row. 4 ... Continuous row is defined as a grouping of modules installed and bonded per the re uirements of this installation guide sharing the same two rails. The q .� y i � �> �1' microinverters are bonded to the SOLARMOI NT rail via the mounting hardware. y,. Complete equipment grounding is achieved through the Enphase Engage. cabling ® with integrated grounding (IG). No additional EGC grounding cables are required, 21 ,• as all fault current is carried to ground through the Engage cable. ?` ' SOLARMOUNT g� l' 4 'A ' O BONDING ADVAi�TA11�: �: ,USE All THE COPPER & LUGS C -'J6 R* 0. M. -N, ....... . ... ........... .. .. ... . ... ... ELECTRICAL BONDING SPLICE EXPANSION JOINT USED AS THERMAL BREAK W/ EXPANSION JOINT USED AS THERMAL BREAK W/0 GROUNDING LUGS & COPPER JUMPER ELECTRICAL BONDING CONNECTION 4 -------------------------------------------------------------------------------------------------- --------------------- -------------------- I ELECTRICAL GROUNDING W/ 'ft%LIC.E & 4r Y. ��P-ENMSEMICROIMFER .YZGa. THERMAL MR -BREAK 531 - 0M Jill I-. ----------------------------------------------------------------------------------------------------------------------------------------------- CONTINUOUS I� LECTRCAC�66W&IJINGsKlCt� EXPANSION10INTW/GROUNDINGLUGS &;COPOERJUMPE041j. 14fiWb k�k• 10 EXPANSION J 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 cable & rails . .... MIn. 3 Microinverters on each side of thermal break . ........ .......... ...... .... . L MI (-4YO 1 QU I I Z NIM . . ........ .... .... .... ... . ... ... .. . ... . ... j IrL 'Y' U'T*'r�E-C)�!li�i�'P,.'-.I'r"' . ...... .. ............ ...... ... ....... . ....... T Min.3 iniuninveiters sharing fvi;r..3 mic!-(Anvevter,; same trunk cable & raiis sar,',e- runit earh'itt--;r: ,.)f tkerimit bleak ----------- . ... . . ....................... ........ . ...... _EA L S�Ll E� . . ... ....... ........... PAIL S ?LICE RA'ILSPLICE. ... ....... 0.— Min. 3 inicroinvertrirtsbarinp • same trunk cable railson Less than 3 �nicroinve -Aers . NOT. each side of thermal break NOT. ....... .. ... . . ....... . . ..... . . . .......... ... . .... ............. . . ............ RAIL�OLICE . .. .... ............ . .. . .... . ... ....... .............. —....__......_......._....•. .. . .... .... ... .. . . ....... .... . .......... ... . .... ......... . . ....... . . .... -'J6 R* 0. M. -N, ....... . ... ........... .. .. ... . ... ... ELECTRICAL BONDING SPLICE EXPANSION JOINT USED AS THERMAL BREAK W/ EXPANSION JOINT USED AS THERMAL BREAK W/0 GROUNDING LUGS & COPPER JUMPER ELECTRICAL BONDING CONNECTION 4 -------------------------------------------------------------------------------------------------- --------------------- -------------------- I Y ONE LUG PER OW OF MODULES: ♦A , s' Only one lug pr`row�of modules is required. '-tiSee Pag��or additional lugs required for ' .:. _ -0 . ee p sl'on joints. `>- 4P:. ' WEEBLUG CONDUCTOR - UNIRAC P/N 0080025: �u 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. GROUNDING LUG MOUNTING DETAILS: Details are provided for both the WEEB and ILsco products. The WEEBLug has a grounding symbol located on the lug assembly.The Ilsco 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. [GROUN1'INGI TUG'I WBOLTr51ZEy&;DRILL SIZE GROUND LUG BOLT SIZE DRILL SIZE WEEBLug 1/4" N/A- Place in Top SM Rai! Slot ILSCO Lug #10-32 7/32" • Torque value depends on conductor size. • See product data sheet for torque value. �'...'' =F4 ei ILSCO LAY -IN LUG CONDUCTOR - UNIRAC P/N 008009P: Alternate Grounding Lug - Drill, deburr hole and bolt thru both rail walls per table. NOTE: ISOLATE COPPER FROM ALUMINUM CONTACT TO PREVENT CORROSION drb MODULE � RIM limittia s _ PAGE Ism -------------------------------------------------------------------------------------------------------------------------------------- ------- Faso.-.'u`rl+�". , ��i' f;.. d;S i�'�•.::"i. ti /.: •r/ ''. r °� �� d -1Yd T` •tea rY Kx I...t, ♦4 1 . .INSTALL MODULE ENDCLAMPS: The Endclamp is supplied as an assemblywith a T-bolt,serrated flange nut, and washer. The washer retains the clamp at the top of the assembly. This will enable the clamp to remain upright for module installation. INSTALL FIRST MODULE: Install the first end module onto rails. Engage module frame with Endclamps. Verify that the position indicator & T -bolt shaft are angled in -the correct position. Vi; LW_ `lc". un D�.A• ir INSERT ENDCLAMP T BOLT: Insert 1/4" T -bolt into rail, �, „ . I , t ' .1 flll POSITION INDICATOR - SERRATED T BOLT: Verify the T -bolt position indicator is perpendicular to the rail. _ ��� Ate, ,. � �; �.G, ♦ :' �- F , ROTATE ENDCL4MP T BOLT: Rotate T -bolt into position. Verify that the position indicator & T -bolt shaft are angled in the correct position. Cirtl ._,,�IItp7 . , • pi)Sit�'}F�f:ir oF, ,ails iFfior to th:* first TRIM INSTALLATION INSTRUCTIONS TRIM ENDCLAMPS Install Endclamps on Trim in like manner to module endclamps per install instructions above. l : BONDING MID CAMP &TRIM: ! -:kt t-', PAGE ------------------------------------------------------------------ -------------------------------------------------------------------------- ........ . ..... .. . ......... . .... . . ... � yR� �/ � y / .. ��.`. .. .. ... -3r,�.a�Y�yc��+. ��'4 ��wt[yy�'1� ..._ ..... �, Ni MM4 :21 '7 'Z* INSTALL MIDCLAkPS: Mic1clamp is supplied as an L INSERT MIDCLAMP T -BOLT: Apply Anti -Seize and assembly with a T -bolt for module installation. insert 1/4"T -bolt into rail. Clamp assemblies may. be positioned in rail near point of use prior to module placement. TRIM INSTALLATION INSTRUCTIONS - POSITION INDICATOR - SERRATED T-BOLT:.Verify-the— TRIM. M I DCLAMPS:.E nsu re --Trim tip:is.in contact with—' T -bolt position indicator is perpendicular to the rail. module face and verify alignment marks on T -bolts are in proper position, tighten micictarnp on Trim, repeat at each gap between modules. ROTATE MIDCLAMPT-BOLT: Rotate bolt into position' and slide until bolt and clamp are against module frame. Do not tighten nut until next module is in position. Verify that the. position indicator & T -bolt shaft are angled'in the correct position. V 1 .. TRIM" 11, PAGE ---------- -------------------------------------------------------------------- --_-------------------------------------------------------------- zr,� 4. INSTALL REMAINING MID -CLAMPS: Proceed with module installation. Engage each module with previously positioned Midclamp assemblies. ' l.i,F3'?1 Fl ?:r7J1•'.'rt•it1 ;t:Y''„ ' A INSTALL ENDCLAMPS: Apply Anti -Seize and install final Endclamps in same. manner as first Endclamps. Slide clamps against module.; ` iGKQU' VALUE i_rt-. NUS'. On p(j. A OF POSITION . T BOLT ALIGNMENT MARKS:' Verify that the position indicator(s) & T -bolt 'shaft(s) are angled in the correct position.' S [ P fS;. � ?'j �i i TS1. 1%1 F' x c ��•ti+• r' MIN. v • 4k:w ia.v4'r a 1 Y POSITION T BOLT ALIGNMENT MARKS & CUT RAIL: Verify that the position indicators) & T -bolt shaft(s) are angled in the correct position. Trim off any excess rail, being careful not to cut into the roof. Altow'/z" between the Endclamp and the end of the rail. r F FINISH MODULE INSTALLATION: Proceed with module installation. Engage.each module with the previously positioned clamp assembly: o Install second module - I Install remaining Midclamps & modules & position alignment marks • Install Endclamps & position alignment marks • Cut rail to desired length TRIM INSTALIA1TION MISTRUCTIONS *�-� , t�+;��"-.. 5�*s�". '# FINISH TRIM INSTALLATION, INSTALL. EN_ DCLAMP & CUT, EXCESS RAIL: ,ax, ` w! T a it " �4 Install final endclamp &Cut. away A.3iF � M� excess Trim at end of array or where - • j d�, required for proper cantilevers.S^ � "���5 t .. � M S.7�a s! rif/, I�i1r: �: 1= ! �t t.::{S l.�r•1: i0(j':� 0 T'� •._, ^5 r ... 4 �:- :'4 t ^r.' 1411 i. tit 0 t--' �u ;t. -!l:3 (. l�i)t. �fi.: Es•. 91 t SMBONDING CONNECTION GR.0Q.._N.Q_.P.ATHS W '7 1 . •+• 3 --.,__________________________________.___-_-----______________________-________________-______--_-.-______--_--_--__--___-.._----____---_---_ M N�. MF °h rS. Q� �'%'. ` Cyt n w,C� ' - (`Q'. �j ✓, r � 1 G.,�l S`�yFV` S �pN NGT W 1E EA s? t ......., r BONDING MIDCLAMP ASSEMBLY END CLAMPASSEMBLY BONDING RAIL SPLICE BAR - RAILTO L -FOOT w/BONDING T BOLT. ®Stainless steel Midclamp points, 2 per module, Serrated flange nut bonds aluminum Endclamp Stainless steel self drilling screws drilland tap Serrated flange nut removes L -foot anodization pierce module frame anodization to bond cg .to stainless steel T -bolt *{ into splice bar and rail creating bond between L to bond L -Foot to stainless steel T -bolt module to module through clamp. splice bar and each rail section Serrated T -bolt head penetrates rail anodization 00- Serrated T -bolt head penetrates rail anodization Serrated flange nut bonds stainless steel clamp ; Aluminum splice bar spans across rail .gap to . to bond T -bolt, nut, and L.foot to rounded SM to bond T -bolt, nut, and Endclamp to grounded 9 to stainless steelT-bolt SM rail 3- create rail to rail bond. Rail on at least one side rail 0 ,Serrated T -bolt head penetrates rail anodization of splice will be grounded. to bond T -bolt, nut, clamp, and modules to grounded SM rail. .,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 create bond between rail and lug Serrated T -bolt head' penetrates rail anodization to bond T-bolt,nut,and L-footto grounded SM rail Solid copper wire connected to lug is routed to • provide final system ground connection. i . - - _-- -- -.._....... ._ f .WEEBL•UG (OR.ILSCO LUG) ..........i ••_ ....:.. :. i BONDING MICROINVERTER I BONDING RAIL i MOUNT SPLICE BAR Option 1: i Ground Through i Enphase Trunk Cable i1 ! t f i BONDING MIDCLAMP �f ASSEMBLY' , D Option 2: Ground Lug w/ t RAILTO L -FOOT w/BONDiN6 T -BOLT ---- Bare Co-- Copper Wire - — ----= t- --- -- - — - ---- — -- - �._..- ---- --- .,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 create bond between rail and lug Serrated T -bolt head' penetrates rail anodization to bond T-bolt,nut,and L-footto grounded SM rail Solid copper wire connected to lug is routed to • provide final system ground connection. i . tr f .WEEBL•UG (OR.ILSCO LUG) .,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 create bond between rail and lug Serrated T -bolt head' penetrates rail anodization to bond T-bolt,nut,and L-footto grounded SM rail Solid copper wire connected to lug is routed to • provide final system ground connection. i . P sw aBONDING CONNECTION GROUND PATHS.: ,x } 4 I i_ r. PAGE SMNI ------------------------------------------------------------------------------------------------------------------------------- ........_................................. ELECTRICAL CONSIDERATIONS .,, REQUIREDjiO'NLYFO_ R TEMPORARY SOLARMOUNT is intended to -be used with PV >.4 zBONDING DURING ARRAY MAINTENANCE, modules that have a system voltage less than or s ''•�"#r� �r a r x �. equal to 1000 VDC. For standard system grounding: � "-�, ��� �• 'i' a minimum 10AWG, 105°C copper grounding conductor'should be used to' ground`a 1000 VDC !*44 system, according to the National Electric` Code ` (NEC). It is the installer's responsibility to check local codes,which may vary. See below for interconnection information: 4' v INTERCONNECTION INFORMATION - There is no size limit on how many'SOLARMOUNT & PV modules can be mechanically interconnected for any given configuration, provided that the ��. installation meets •the requirements of applicable building and fire codes. TEMPORARY BONDING CONNECTION DURING ARRAY MAINTENANCE When removing modules for replacement or system maintenance, any module left in place that is secured with a bonding ,Midclamp will be properly grounded. If a module adjacent to the end module of a row is removed or'if any other maintenance condition leaves a module without a bonding mid clamp, a temporary bonding connection must be installed as shown Attach Ilsco�SG64 to wall of rail Attach I Isco SG134 to module frame Install solid copper wire jumper to Ilsco lugs., GROUNDING NOTES The installation must be conducted in accordance with the National Electric Code (NEC) and the authority having jurisdiction. Please refer to these resources in your location for required grounding lug quantities specific to your project. The grounding/ bonding components may overhang parts of the array so care must be made when walking around the array to. avoid damage. f Conductor fastener ' torque values depend on conductor size. See product data sheets for correct torque values. - • I TOIL OLTP SIT INSTALLATIONIj= a PAGE ------------------------------------------------------------- —---------------------------------------------------------- ---_------------------ .��f'h' ..`J t r.._ ...... ';?5'r. t "' _i:" -S _ L. xr..t:•i#�ir�{ �--�' '+ ;1' °moi • �. (� .�.i r_ - 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 3 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. MOUNT TRIM: 'Position Trim beneath modules by sliding T -bolt into gap between modules and tighten. Midclamp should stay in position and support Trim. Tighten snugly enough so that Trim is held firmly in place. 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., ., 4 INSERT MIDCLAMPS: Insert::T-bolt =FASTEN,MIDCLAMPS:=Return.to!each ENDCLAMPS:=Install=Endclamps:.per —CUT, EXCESS :TRIM: <Mark-excess,Trim==--=—= into slot and slide clamp (rotating inserted Midclamp. Ensuring Trim lip previous Endclamp install instructions and cut at end of array or where Trim) into position between modules is in contact with module face and required for proper cantilevers. and leave loose. Continue to work verifying alignment -marks on T -bolts down array, inserting Midclamps and are in proper position, tighten clamp. positioning in gaps between modules. Certificat Li lheinlai Cel-tsfisaEe :91*. 01501 - I, I;cc?�se � e�o��e: i•`��€�aafflr�l, ��a� F����G: " Unirac.Inc. -Univac Inc. 1411 Broadway NE 141-1. Broadway NE Albuquerque NM 87102 AlbuquergIue Nib 37102 USA - USA + 'Fest 2 po l sus., USA- 3144'0029 005 Tom Yo'u.ng Tes i to- -UL 2703:2015 / f cM 7 ^�ceanct: Module Rack Mounting System L;ec, seFee Units -- — Model. ;Designation: Sol-arMount (SM). 7 Nlas System Voltage of PV Module: 1000 VDC Max Size of PV Module: 20.8 sq..ft. surface area i :Max Overcurrent Protection Rating of PV Module: 30 A when using the qualified grounding lugs,- 20 A when using the Enphase micro i:Liverter EGC. Fire Rating-. Class A when installed with r Type 1; Type 2,. Type3Y or Type 10 fire rated modules. (continued) 7 Appendix:•1,1-5 Lieereed Test :2rh-. 27/07/2015 i y'M•ys: �' i oaf'+Y`4Ms 1 1 TUV Rheinland PTL, LLC, 2210 South Roosevelt Street, Tenn,pe, Arizona 85282, Tel (400) 5166-1700, Pax (775) 314-6455 9969-4LL' (SLA "ed'OOLL-996 (OOV) Ial'Z8Z98 Jpf s'oo2l.4tnoS %ZZ'0lllid PueRga48 A01 4_ C 9IOZ/ LO/LZ h arissg,g® a. w(a :I.Oute JsaL psuawll -T ' T : .c-rpuaddV L (panuTzuoa) -Daae aTnpou>; pa -r; Tenb _ aO > S -r eaan 'I-4 g:T pa'L'3T-[E'nb a.�e aD1ea; aUTLs g4TM saTaaS auleS U7LOag STaPO.T[ OT 0I ZIT IW00£S-STH '3 IKIOO£W-STN TPTOS T"PIDUnAH IT, /P;i OO ZTTLZ£-OZ'J-UTdel aGMys nS j IIN -S£ ZJOST-SI • -P-[OS DfAISL w/DI OS ZTT 909Z S Pue MS 09E 9dL JeTos014uaD S/N OS ZTT eu-rTs;. adoTS 5a1Q . sad -umocl ;peo7 TEJ CUC'L�adGT -M—f paT.;TVRnp saTnpoW ( Sd) pi -o2 cub-isaQ L (panuTquoo) --- s�3iafi- tasHrar ulags as nu-1-YunoTA }(oe aTnpoW :1311go-;,5srYregay.,a3. — I STOZ:£OLZ 'I11 Un U2� li10j_�33��.i39�o 9 0 0 00 �7 �7 Z £ '�%Sll :`�1Y AAflC�7 H �5 I i n ! Sn �ZSIt ZOTL8 INiq anbTanbngTV ZOTL8 kqn anbaanbnq-1- Std L_eMaeoag TIPT sm Ali--mPpo.zg TTT7T ;cul oz,I-run •ouI oea-run :g>��g� Ararnr�ga�g►rr�g� :3ag3g®� asaa:rg� ZO SI009Ia Sr1l ©u aisaa�sr�.sa� r} -LJ-P-jUliD.LjP,G�(.u. ,',,'}t}t%j��jy,, 1t'''�1!!ii.aa" NN' 9 I�,1.,1'�L(����yL�R.,�i`"jf .,f' ',,+L—'���y���vk"�, G j'-�w�^��lL'.�tl. • - ��� �� e" j �(�y (�- a -y • s� .f , 113'-V L �` �i 1�7 1 !i i�,it diuJF.i f�'. e� i ��. , ' t'�u� fAI la�iV'3A�'�� .• �✓ ,S 2 p/V Z ✓ Y .R ' 1 1 . ,'ee€ese Blolden: ie�a6�e�sasfiaacc.� I PS c: Unirac Inc. Univac Inc. 1411 Broadway NE 1411 .Broadway NE ' Albuquerque NM 87102 Albuquerque NIS! 87102 USA Y LISA e ;ti as Mq USA- 514 44.0 029 -0 0 5 CUan'- r raiemeek Tom. Young Tes- ;: ia: Ui 2703:201.5. i i rs�rFiier!�''<r190Aee: Module Racks MounHnEj System ---------- i ae E�eLc-/v' tl4uaEc I (continued) ,7 i Modules Quali .ied for Electrical Bonding,,j AU Optronics (BenQ Solar) -PM Series Canadian So].ar CS5A-M, CS6P-M, CS6P-P; CSX CS6X-P, ELPS CS6P-MM, LLPS CS6A-MM Centrosolar America C --Series, E -Series ET Solar ET AC nodule, ET. Module Hahwha Solarone HSL 60 Hyundai Heavy Industries MG, RG, RW, and IIiS Series Fyocera KD-F.Series LG Electronics Mono Neon; Mono X Phono Solak Technology All Std Modules (continued). _ 7 i Appendix: 1,1-5 ' l - Dote Os" IisEZp r" 27/07/2016 .•r pus ' .. TOV Rheinland PTL, LLC, 2210 South. Roosevelt Street, Tempe, Arizona 85282, TPI (• 130) 90,1700:.Fax (775) 914.6458 dry%5b ® t TOV Rheinland P7 1 i.. .eI Certificate no. ----- - yrs gz 01 s 04 ------- - — — Pvlaatt<ffactenricag Plant: License Holder I Unirac Inc.i Unirac Inc. 1411. Broadway NE 1411 Broadway ATE Albuquerque Nis 87102 Albuquerque NM 87102 USA USA II T'e� e�ot t eao.: IJSt - 314 4 U 0 2 9 005 — ^d-lient Fr'efe -nee: Tom. Young iTni redia: JUL 27.03:201S. f I - Cor-tiietiFiimd-ect: .Module Rack. Mounting System LicenscFa..e- Uizifta (continued) .7 Renesola All 60 -cell Modules Sharp ND240OCJ,-ND2400CS, ND0235Ta4 Suniva MV Series, OPTIMUS Series SunPower AC, E -Series, Sig Black, 'K' -Series Suntech STP XX Trina PD05, PA05 TSMC Solar TS --150C2 CICS Yingli - Panda 60, YGE 60, YGE--Z 60, YGE-U72 Sun Edison. r! MEMC F -`aeries, R --Series SolarWorld SunModule Protect, Plus, and Pro _ 7 Appendix_: 11-5 Licensed Test nark: Elate or Issue (day/mo/yr) z' 27/07/2016 YLJUnh�_rrl.rtd a ° �` us d • TOV Rheinland PTL, LLC, 2210 South Roosevelt Street, Tempe, Arizona 85282, Tel (480) 986-1700, fax (775) 314-8458 Grounding Lugs Constructed of corrosion resistant, tin-plated copper, the Wiley line of grounding lugs are high quality solutions for your solar PV system. The tin-plated lug assures minimum contact resistance and protection against corrosion. The low profile of the grounding lug allows it to be installed in a variety of positions with one solid or stranded copper wire (14 AWG to .6 AWG), or two copper wires (12 AWG to 10 AWG). Copper wire is secured by a 1/4-28 stainless steel screw, which is horizontal to the tang. This allows for easy access when mounted under a PV module. The result is a continuous ground on all solar applications. WEEBO Grounding Lug The VVEE6® Grounding Lug is installed using stainless steel mounting hardware. When the hardware is tightened, the WEEB® washer's specialized teeth embed into anodized aluminum or any electrically conductive metal to establish a gas tight electrical connection. 'HS = HEX SOCKET GAN TERMINAL SCKtw ° Made of corrosion -resistant, tin-plate copper ° No surface preperation on rail or module required LENGTH . WIDTH HEIGHT HOLE SIZE MOUNTING One 14 AWG to 6 AWG or two 10 AWG, two 12 AWG Intertek ITEM # CATALOG # In. [mm] In. [mm] In. [mm] , in. [mm] HARDWARE ASSEMBLED TORQUE 30020109 VVEEB-LUG-6.7 1/4 inch 7 ft lbs for. terminal 1.575 .709 0.709 0.472 0.266 hardware N screw, 10ft lbs for - 40.00 [ ] [ 1 12.00 [ ] [6.76] included mounting hardware w/ 50045236 WEEB-LUG-6.7HS Penetrox-A on threads 30020110 WEEB-LUG-6.7AS 7 ft lbs for terminal 1.575 0.709 0.472 0.266 1/4 inch hardware Y screw, 1 Oft lbs for [40.00] [18.001 [12.00] [6.76). included mounting hardware w/ 50046747 VVEEB-LUG-6.7ASHS Penetrox-Aon threads 30020111 WEEB-LUG-8.0 M8 or 5/16 7 ft lbs for terminal . 1.575 0.866 0.472 0.323 inch hardware N screw, 1 Oft lbs for [40.001 122.00] [12.001 [8'20] not included mounting hardware w/ 50046750 WEEB-LUG-8.01-IS Penetrox-A on threads 50010335 VVEEB-LUG-8.OAS 7 ft lbs for terminal 1.575 0.866 0.472 0.323 5/16 inch hardware Y screw, 1 Oft lbs for 40.00 C 1 [22.001 12.00 [ ] [8-201 included mounting hardware w/ EEB-LUG-B.OUNHS Penetrox:A on threads [50046753[VIVEEB-LUG-8.OUN 3920 5/16 inch 7 ft lbs for terminal 1.575 0.866 0.472 0.323 hardware N screw, 10ft lbs for [40.00] [22.00] [12.001 [8.20] included mounting hardware w/ 50046756 WEEB-LUG-8.OASHS Penetrox-A on threads. 30020112 WEEB-LUG-15.8 M8 or 5/16 7 ft lbs for terminal 1.575 - 0.709 0.472 0.323 inch hardware N screw, 10ft lbs for [40.00] [-18.00 ] 12.00 [ ] [8'201 not included mounting hardware w/ 50046759 WEEB-LUG-15.81 Penetrox-A on threads 50021995 WEEB-LUG-8.2 MS or 5/16 7 ft lbs for terminal 1.575 0.709 0.472 0.323 inch hardware N screw, 10ft lbs for [40.001 [18.00] [12.00] [8.201 not included mounting hardware w/ 50046762 WEEB-LUG-8.2HS Penetrox-A on threads 'HS = HEX SOCKET GAN TERMINAL SCKtw ° Made of corrosion -resistant, tin-plate copper ° No surface preperation on rail or module required U ° Reliability throughout the lifetime of the PV system E ° Multiple equipment ground conductor allowance: m° One 14 AWG to 6 AWG or two 10 AWG, two 12 AWG Intertek ° UL2703 Listed Customer Service 1-800-346-4175 1 International 603.647-5299 1 Canada 1-800-387-6487 1 www.burndycom ° Made of corrosion -resistant, tin-plate copper ° No surface preperation on rail or module required U ° Reliability throughout the lifetime of the PV system us ° Multiple equipment ground conductor allowance: m° One 14 AWG to 6 AWG or two 10 AWG, two 12 AWG Intertek ° UL2703 Listed 4004188 ° Listed to ANSI/UL 467 by Intertek ETL ° CSA Certified to C22.2 No. 41 Customer Service 1-800-346-4175 1 International 603.647-5299 1 Canada 1-800-387-6487 1 www.burndycom Grounding Lugs G WILEY Grounding Lug The Wiley Grounding Lug is available unassembled, Without installation hardware' and with standard hole sizes of 1W and 5/16" (M8). Perfect for.galvanized steel applications or anywhere a WEEBe washer is not required. ITEM #CATALOG LENGTH In IDTH In. HEIGHT HOLE SIZE HARDWARE ASSEM= TORQUE In. [m+n] In. [mm] In. [mmj BLED [mm[ 51002BB61 WILEYLUG6.7 ;.575 140.001 0.709 f18.00] 0.472 [12.00] 0.266. 16.761 114 inch hardware riot included N 7 ft lbs for terminal screw 50046 65 VJILEYLUG6.7HS rA)028866 WILEYLUG8.0 1.575 [40-001 0.866 [22.00] 0.472 [12.001 6.323 18.20] or 5ro hardware t hae nof included N 7 ft lbs for terminal screw 50046768 WILEYLUG8.0I1S qq 50028869 WILEYLUG8.2 M8 or 5/16 inch 1.575 [40.001 0.709 118.00] 0.472 [12.00]' 0.472 [12.00} hardware not included N 7 ft lbs for terminal screw _ 50046771 VVILEYLUG8.211S 50028872 V1lfLEYLUG15.8 N18 or inch 1.575 [40.001 0.709 [18.00] 0.472 112.00] 0.323 [8,201 are r hardware not included N 7 ft Itis for terminal screw 50046774 VVILEYLl1G15.SHS 'HS = HEX SOCKE'r CAP TF_RMIP, 6CREW Material: tin-plated copper Outdoor rated Low profile design Perfect for galvanized steel applications or anywhere a WEE130 washer is not required Multiple equipment ground conductor allowance: One 14 AWG to 6 AWG or two 10 AWG, two 12 AWG Listed to ANS VUL 467 by Intertek ETL collUS l Co US 4004188 Customer Service 1-800-346-4175 1 International 603-647-5299 1 Canada 1-800-387-6487 1 www.burndy.com V `.-i�.:�z�r �r�. .. .moi., ',