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018-010-111
BUTTE COUNTY AREA DEPARTMENT OF DEVELOPMENT SERVICES 4 INSPECTION CARD MUST BE ON JOB SITE '24 Hour Inspection Line (NR) :530:538.4365 (Cut off time for inspections is 2pm) Development Services cannot guarantee inspections on the date requested Office: 530.538.7601 Fax: 530 Permit No: B 16-2558 .Issued:,..' APN: -018-010-111 Address: 1 CHADS PL, CHICO Owner: JOHNSON MATTHEW J & CASSIE ' Permit Type: SOLAR ROOF -RES Description: 9.12KW ROOFMOUNT SOLAR Asa. i ia� www.tsuticuounty.net/cas Flood Zone: None SRA Area: No Front: Centerline of Road: Rear: SRA: Side: AG Other: Total Setback from Centerline of Road: ALL PLAN REVISIONS MUST BE APPROVED BY THE COUNTY BEFORE PROCEEDING Inspection Type IVR INSP' DATE Setbacks 131 Foundations / Footings 11 P 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 nder inin 612 Tiedown/Soft Set S stem 611 Do Not Install Floor Sheathin or Slab Until -Above Signed Shearwall/13 W.P.-Interior 134 Shearwall/B.W.P.-Exterior 135 Roof Nail/Drag Trusses 129. Manometer Test • 605 Do Not Install Siding/Stucco or Roofing Until Above Signed Rough Framing 153 Rough Plumbing 406 . Rough Mechanical 316 Rou h 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 Inspection Tyve IVR INSP DATE T -Bar Ceiling 145 Stucco Lath 142 ' Plumbing Final 813 Fire Sprinkler Test or Final 702 Swimmin2 Pools Setbacks 131 Pool Plumbing Test 504 Gas Test 404 Pre-Gunite. 506 Pre -Deck 505 Pool Fencin Alarms/Barriers 503 Pre -Plaster 507 Manufactured ors Setbacks 131 . Blockin nder inin 612 Tiedown/Soft Set S stem 611 Permanent Foundation System . 613 Underground Electric 218 Sewer 407. Underground Water, 417 Manometer Test • 605 Continuitv Test 602 Skirtin Ste s/Landis s 610 Coach Info Manufactures Name: - Date of Manufacture: Model Name/Number: Serial Numbers: Length x Width: Insignia:.. Permit Final Public -Works Final' 538.7681 802 Electrical Final '803 Mechanical Final .809 Plumbing Final 813 Fire Sprinkler Test or Final 702 ** OJ C AL 29. *Project Final is a Certificate of Occupancy for (Residential Only) PERMITS BECOME NUL_ L 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 Fire De artment/CDF 538.6226 Env. -Health Final 538.7281 Sewer District Final ** OJ C AL 29. *Project Final is a Certificate of Occupancy for (Residential Only) PERMITS BECOME NUL_ L 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 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 R3.15, 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, 1/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. i 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 are now installed in the following locations: �►y►O r\L ►^i d t e -4C t lz* rC00,` I I'. / )c, i t Owner's name (print): V r Owner's signature: Date: I rF) -2 0 (p Contractor's name (print)r '� h C CSLB License: , Contractor's signature: Date: Project Address: �"I%d j 19/ Permit #:_ /,�/G'� 5-5 6r KNEW _WEBSITE1BuildinglBuilding Forms & Documents1201412,014 Forms - CompletedlDBI\DBI- 01_Declaration_for Smoke &_Carbon_Monoxide_Detectors REV'D 8.13.14 AKM.doc — — Page 2 of 2 t (ZX):AWG 4*90 (PV WIRE) (1x)8 BARE CU GROUND, 3/4 In. FLIX,EMT (3x) AWG 8 THWN-2 WIRE (1x) AWG #8 THWN,CU GROUND �.. OC ` 'SOLARWORLD PV MODULES SW ' 285SWMONO '16 295SWMONO• - INVERTER — — SOLAREDGE 1 SolaDek Roof Mount SE1000UA-US I SOLARWORLD PV MODULES Junction Box INVERTER SW 295SWMONO _ ' 16 285SWMONO- 10K WATT INVERTER . (W/ DC DISCONNECT INTEGRATEDINTO NVERTER B DC AFC1 COMPLLANT TO UL16998j n _ 1 EXISTING Z UM TE PANEL &MEE-R' r (NOT-CENTER FED) EXISTING 200AMP'MAIN BREAKER DOWN SIZED TO 150AMP 60A PV BREAKER GROUNDING ELECTRODE t s Notes k 1. THIS ISA9.120 kW DC Power (STC) 8.179' (PTC).8,016 kW AC Power (CEC) USING 32 SOLARWORLD SW260 PANELS 2. THIS SYSTEM! IS GRID-INTERTIED VIA UL -LISTED POWER CONDITIONING INVERTER SOLAREDGE SE10000A-US (240V) 3. EACH PANEL IS EQUIPPED WITH 1 EA. SOLAREDGE P300 OPTIMIZER 4. ARRAY WILL FLUSH, MOUNT TO ROOF SLOPE OF 4/12 5. WIRE' RUN FROM. ARRAY TO SERVICE UTILITY BOX APPROX 50'. 6.. WEIGHT PER SQUARE FOOT (AS PER MODULEAND RACKING SYSTEM SPECS = 2.67LBS) 7. RACKING SYSTEM STANDOFFS AT A MAX 6' SPAN 8. RACKING LABELING DETAIL ON ATTACHED SHEET 9. BUILDING IS 1 STORIES. 10. ROOF IS COMP SHINGLE. 11. INVERTER AND MSP LOCATED ON SOUTHEAST SIDE OF HOUSE. 10 SOLAR VMND SVfA5 I ROGF FLEdtATnC RUN i EXISTING ROOF SYSTEM: _ - U33 24 C . NOT TO SCALE 9JEX AT4$C MM i, TRUSSES l`' I 2'X4 SE l0D80A-US HWERT� Eic�u� �m� Diu � WALL. 2m Ammv Dmqsp asp CONTRACTOR: PROPERTY OWNER: l CRANE EXTERIORS INC. CASSIEJOHNSONI DBA SOLARWORKS 1 Chad!s P4 Drawn By: EAM 3030 THORNTREE DRIVE STE 2 Chico; CA 95928. i CHICO CA 95973 Phone: 81&-207-9375 Date: 11/13/2016 530 892 2385 - 530' 520 0451 - Scal1/8" = 1' . - 9 r G] v - a Sun rnodule/ Pf u s A SWI275-290 MONO'BLACK r n air "+1r'tr. r, - .;�' -rd'6.-. ............ ^j.......... . i� Ij TUV Power controlled: TOVRhelnWnd �i Lowest measuring tolerance in industry ". Every component is tested to meet 3 times IEC requirements Designed to withstand heavy accumulations of snow and ice J `. Sunmodule Plus: r Positive performance tolerance 2S-year linear performance warranty and 10 -year product warranty J' Glass with anti-refle=tive coating .J t Ir World-class quality Fully -automated production lines and seamless monitorinQp of the process and •5.ktyt.tM,IEC61330 -.. - thy( �•�'� material ensure the quality that the company sets as its benchmark for its sites i Amraonie m;ipan:c, IfC G3`7G -""'' :P=„� <<P ; �'�""°'• C" us ` worldwide. .P.•rioalrmry.m°° -f' - , t�"I !! °.nw.rr Por:et rnntrellcA , SolarWorld Plus -Sorting Plus -Sorting guarantees hi hest system efficiency. SolarWorld only delivers modules that have greater than or equal to the nameplate rated power.. J� n6P•': e:'EH'C EP 1 p. 25 -year linear performance guarantee and extension of product warranty to 10 years SolarWorld guarantees a maximum performance digression of 0.7% p.a. in the course f' of25years,asignificant added value compared tothetwo-phase warranties common in the industry, along with our industry -first 10 -year product warranty.— ' Solar cells manufactured in U.S.A. or Germany. Modules assembled in U.S.A. " in accordance with the applicable SolarWorld Limited Warranty at purchase.' www.solarworld.com/warranty r cl t solarworld.com } , MADE IN USA OF US & IMPORTED PARTS' Sunmodule;/Pl SOLARWORLD SW 275-290 MONO BLACKREALVALUE PERFORMANCE UNDER STANDARD TEST CONDITIONS (STC)' sw 290 SW 275 SW 280 SW 285 . 275 Pma. WP 280 Wp 285 Wp 290 Wp maximum power 39.7 V 39.9 V V 39.4 V 3,9 .5 V V. Open circuit voltage 31.0 V 31.2 V 31.3 V 31.4 V Maximum power point voltage Vmrr 971 A 9.84 A 9.97 A I3c 9.58 A Short circuit current 8.94A* 9.07 A 9.20 A 9.33 A Maximum power point current Imrr 16 17.00% 17.30 % 16.40%. .70% ' Module efficiency nm 'STC: 1000W/m', 25"C, AM 1.5 PERFORMANCE AT 800 WIM2, NOCT, AM 1.5 Cells per module Front 48'C Powersorting SW 275 SW 280 SW 285 IP65 203.1 Wp 207.2 Wp 211.1 Wp Maximum power P-. 35.7 V 35.8 V 36.0 V Open circuit voltage V� Cell dimensions (156.75 x 156.75 mm) 28.3 V 28.4 V Maximum power 0oint voltage Vmrr 28.1 V 7.96 A . _ ...... 7.75 A 7.85 A ...................._....._ Short circuit current Ifr 7.22 A 7.33 A 7.43 A Maximum power point current Imrr at 25' C: at 200 W/m'-, too%of the STC efficiency (1000 vv/m') is achieved. Minor reduction in efficiency under partial load conditions COMPONENT MATERIALS 1000 W/m' Imo'60 Cells per module Front 48'C Powersorting -0Wp/+SWp NOCT IP65 Cell type Monocnrstalline Frame a 6o0W/m' _:............ 6.17 in x6.17 in Weight = ---- Connector with Cell dimensions (156.75 x 156.75 mm) TCPmrr 70.44 % /'C Module fire performance (UL 1703) Type 1 Operating temp -40to +85 "C . _ ...... ...................._....._ 20owjm=......_._...... 4.20 (106.65) 7.12 (180.85) 0 0 Q 11.32 (28750) I Module voltage Iv) V. 1.30 (33) All units provided are imperial. 51 units provided ill parentheses. SolarWorld AG reservesthe rightto make specification changes without notice. SW 290 215 Wp 36.2 V 28.5 V 8.06 A 7.54 A Low -iron empered glass with ARC (EN 12150) Black anodized aluminum 39.7 lbs (18.0 kg) THERMAL CHARACTERISTICS ADDITIONAL DATA 48'C Powersorting -0Wp/+SWp NOCT IP65 TO. 0.044 %/'C J -Box -0.31 % / Y PV wire per UL4703 TCV„ Connector with H4/UTXconnectors TCPmrr 70.44 % /'C Module fire performance (UL 1703) Type 1 Operating temp -40to +85 "C PARAMETERS FOR OPTIMAL SYSTEM INTEGRATION 1000 V Maximum system voltage SC 1.'/NEC . 25 A Maximum reverse current _ 3 Number of bypass diodes y Design loads' Two rails stem 113 psf downward, 64 psf upward Design loads' Three rail system 178 psf downward, 64 psf upward Edgemounting 178 psf downward. 41 psf upward Design loads' Please refer to the Sunmodule installation instructions for the details associated withthese load cases. 0.43(11) Compatible with both "Top -Down" and "Bottom" mounting methods 1 Grounding Locations: -4 locations along the length of the 1.301B)module in the extended flange. SW-01-7520US 160324 �- 1.14 (29) ^I , r - • A solar - SolarEdge Power Optimizer Module Add -On For North America P306 / P400 / `P405 ' i. PV power optimization. at the module -level Up to 25% more; energy r Superior efficiency (99.5%) f Mitigates all types of module mismatcKlosses; from manufacturing'tolerance to partial shading Flexiblesystem design formaximum'space utilization; Fast'installation with a single bolt Next generation maintenance with module -level monitoring- h Module, -level voltage shutdown for installer and firefighter safety r USA - GERMANY - ITALY - FRANCE - JAPAN - .CHINA ISRAEL - AUSTRALIA www.solaredge.us r s - SD1 -ar " SolarEdge Power Optimizer Module.Add-On for North America y 03001 P400 / P405 r P300 P400 P405 t (for 60-cell modules) (for 72 & 96-cell modules) (for thin film modules) (INPUT. .. Rated Input DC Power/ti ..................................................................................... 300 400 405 W Absolute Maximum Input Voltage48 ................................................................................. 80 125 Vdc ` (Voc at lowest temperature) .... ..................................... .... .................................. .................................. ........ I......................... .... ' MPPTOperatingRange.....•....„..•:....•••...•...._._.•.•8:48 8-80. ••.....•..••••12:5-105 Vdc Maximum ShortCircuit Current (Isc) ., SO Adc Maximum DC Input Current r .........•............... 12.5 .......................................................... Adc ' Maximum Efficiency ..:........................ .: ..................................................... 9.5'.:,..: 9........................................................ s. Weighted Efficiency •. ....... . Overvoltage Category ......................98:8.....................................................0:....' � 11 OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING SOLAREDGE INVERTER) Maximum Output Current .... .............................................................................................................................................................. 15 Adc ...... Maximum Output Voltage 60 85 Vdc ( OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLAREDGE INVERTER OR SOLAREDGE INVERTER OFF) Safety Output Voltage per Power Optimizer 1 Vdc ( STANDARD COMPLIANCE EMC ..................................... ................. FCC Part15 Class B, IEC61000-6-2, IEC61000-6-3 .................................................................................. a-iet Safety................... ............................ ..............................IEC62109:1(class II safety), UL1741.................: . - RoHS Yes ' INSTALLATION SPECIFICATIONS } _ • Maximum Allowed System Voltage ...............................•..................,..................,.................................................... 1000 Vdc = Pxxx-2 series ................... :................................ 141 x 212 z 40.5 / 5.55 x 8.34 x 1.59 mm/in.... _ Dimensions (W x L x H) Pxxx-5 series 128x152x27.5 128x152x35128x152x48 I / mm/in Sx5.9x1. ....................... Pxxx 2 series Weight (including cables)................................................ ........ .................................... ......................... ..r. 950 / 2.1 g. Pxxx-5 series 770 / 1.7 9-30-/-2-0-5 .930 /2 .05 ' Input Connector .............. ..........MC4 Compatible .................................... .............. _Output Wire Type / Connector ...............................................•.. Double Insulated; MC4 Compatible Output Wire Length ....... .............I................ . 0:95 / 3.0 .............. I 1.2/3.9 ....... ........................... ........................ m / ft . Operating Temperature Range _ ..... -40 : +85 / -40 - +185 - ...................................... 'C/'F . �. .... Protection Rating Pxxx-2 serves IP65 / NEMA4 P65/...............:.............................. .. ......... Pxxx.5 series .................. ............. IP68 NEMA6P . ...................................... Relative Humidity ................................... .... 0-100 ... % t•i Rated STC power of the module. Module of up to .5% power tolerance allowed. PV SYSTEM DESIGN USING A SOLAREDGE INVERTERM SINGLE PHASE THREE PHASE 208V THREE PHASE 480V Minimum String Length 8 ' 10 18 (Power Optimizers ................... ........................ I......... ...I.... ................... ........ Maximum String Length 5 25 25 50 (Power O timizers ..........P.........)............................:.......................................................................................I..........., .......... Maximum Power per String...:.................. 5250.....................:.....6000............................12750 ............ ............... . . ......... W...... ... . Parallel Strings of Different Lengths or Orientations .................................... Yes ” + ...:.......................,.............. pi It is not allowed to mix P405 with P300/P400/P600/P700 in one string. .............. ... .. ..................................................... • f Solar- • SolarEdge Single Phase 'Inverters For North America ° r s SE3000A-US / SE380OA-US /.SE5000A=US / SE6000A-US / r SE760OA-US / SE1000OA-US L SE11400A-US I {Il •t ♦ ,r r rG ` j3d� j The best choice for SolarEdge enabled systems Integrated arc fault protection for NEC 2011690.11 compliance Rapid shutdown for NEC 2014 690.12 Superior efficiency (98%) ' Small, lightweight and easy to install on provided bracket Built-in module -level monitoring Internet connection through Ethernet or Wireless ' Outdoor and indoor installation ' Fixed voltage inverter, DC/AC conversion only Pre -assembled Safety Switch for faster installation. Optional — revenue grade'data; ANSI C12.1 USA - GERMANY - ITALY - FRANCE - JAPAN - CHINA - AUSTRALIA - THENETHERLANDS - UK - ISRAEL www.solaredge.us. solarSSingle" Phase Inverters fo(North America SE3000A-US/SE3800A-USISE5000A-US/SE6600A-US/ SE760OA-US/SE1000OA-US/SE1140OA-US !, I It I - I SE3000A-US I SE3800A-US I SE5000A-US I SE600OA-US I SE760DA-US I SEIOWOA- US I SE11400) 9980 r-) 208V Nominal AC Power Output 3000 3800 5000 6000 7600 RS485,RS232,Ethernet,ZigBee(optional) ...................... ........................ 11400 VA .............. ............................ ................ .. ; ............. ................. ................ ................ 10250 . . ................... 15350 ........... Max. AC Power Output 3300 4150. . . 5400 @ 208V 6000 V50 * 10800 @ 208V 12000- VA ............ I ..................... I ........ ................ ............... . .......... .. .... ............ . losIS . ............................. ............ Vdc ... ..... AC Output Voltage Min: Nom: Max.l'l .................. .......................... ........... �2� 2 / 350 @ 240V ................ ... . . . . . ... . .. ...... or Max. Input Current() . 9.51 q ........ ...... ................ ............... ... ............. ................ ..... ......... .................. ...... ; ...... I .... ........... AC Output Voltage Min. -Nom. -Max.('] ....... ........... I ...... ................ ....................... ................................ .. .. .... ..... I ....... ... ..211..240:.264 Vac ...... I ..................................................... lb .................................................. ; ........... ............. .... ......... ....... AC Frequency59.3 ............. .. ............... ............ : .... ................ ................ - 60 - 60.5 ............ : ...... ....... .......... ........... Hz Max. Continuous OutputCurrent12.5 . 16 ". * ....... . 25 32 48 @ 208V 47.5 A .............. I ............................ ................ ............... . . 42.(�. A 8. 1; .............. ..................... NEMA 3R ........................................................ GFDI Threshold .......;�.......................... . . . ........................ ............................................................... .3 .. ................ 97.5 ................ A ...... Utility Monitoring, IsiandinR Protection, Country Configurable Thresholds Yes % I.: ....................................... Ves I INPUT ..rm m ....................!.,..... u.n..ic.a t ic!Interf.a.c.e.s.. .. ......... RS485,RS232,Ethernet,ZigBee(optional) ...................... ........................ ............................................................... ........ �qq ��q _ Ti!q 10250 13500. 15350 W ..Maximum)CPRwero�! . . .............. Transformer -less, Ungrounded ........................ f STANDARD COMPLIANCE Yes Safety..< ............ YLYjl, UL1699B, UL1998, CSA 22.2 ......... ............................ .................................. Max.Input Vci�p T ........ ....... -6--61iV .............................................. ........... .................................. Emissions ............ Vdc ... ..... ...... ..................... Rn DC In ................ .................. .......................... ........... �2� 2 / 350 @ 240V ................ ... . . . . . ... . .. ...... ;�� c ........... Max. Input Current() . 9.51 13 .. ......................... .... DC input conduit size /# of strings/ 18 23 33 @ 208V' ] I ................. .. 34.5 Adc ................... .................. ................ ....... ........... I ...... ................ ....................... ................................ .. .. .... ..... I ....... ... ` Max. In ut Short Circuit P.Current4Adc ..................... ...... I ..................................................... lb .................................................. ......... ........... Reverse Polarity Protection ............ ........................ .................................... Natural Convection' . and internal Yes ...................................................... r fan (user Ground -Fault Isolation Detection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...................... .................. . .. ". * 600ka Sensitivity Noise ........................... ........................ dBA Intrerter.Efficien 7 ...... ... F/.c . ............................ ............................................................................ 98 8. 1; .............. ..................... NEMA 3R ........................................................ 7 %..... ..Maximu.m .......... CEC Weighted Efficiency ....... 97.5 98 .3 .. ................ 97.5 ................ 97.5 ......... 97 @ Z ......98......, I 97.5 % I.: ....................................... ....... : ........ ....... 9 8 .: ........ ................ 9 S ... .................. .......... Nighttime Power Consumption < 2.5 < 4 W 'ADDITIONAL FEATURES ..rm m ....................!.,..... u.n..ic.a t ic!Interf.a.c.e.s.. .. ......... RS485,RS232,Ethernet,ZigBee(optional) ...................... ........................ ............................................................... ........ ..S..u..p..p..o.. Revenue Grade Data, ANSI C12.1 .e..d..0.o.... .. .. OptonalM ..................... ............A ..........I....... .... . ........... . Rapid Shutdown — NEC 2014- 690.12 Yes f STANDARD COMPLIANCE Safety..< ............ YLYjl, UL1699B, UL1998, CSA 22.2 ......... ............................ .................................. ........... Standards �9ricl Connection Stand ii I ... E 547 .................... ........................................ ; W ................... ........... .................................. Emissions ...... ........ FCC partlS class 6 SPECIFICATIONS AC output conduit size / AW ran R q V� .. .......................................... 3/4" minimum 16-6 AWG ........... 3/4" minimum / 8- .............. ........... .. ......................... .... DC input conduit size /# of strings/ .3/4" minimum / 1-2 strings / 16-6 AWG .. .. .... minimum / 1-3 strings ................. .. 14-6 AWG Dimensions with Safety Switch 30HxWxD.5x12.5x7.2/77Sx315x184 In ....................... ................................ .. * 775 x 315 x 260 mm Wei ht with Safety Switch ...... .................. ........... 51.2/23.2 54.7/24**.7* ... ......... 88.4/40.1 lb Natural convection Cooling Natural Convection' . and internal Fans (user replaceable) r fan (user ... .......... ................. ........ ...................... .................. . .. ..................................... ........... Noise ........................... ........................ dBA ... ........... ................. Min. Wii� TemperatureRan I ............... ..... ......... -13 to +140 -25 to +60 (40 to +60 version avallableP)) ... F/.c e 8...................... t .......... ........... ............................ ............................................................................ ........... ..Protection Rating .............. .......... ..................................... 1; .............. ..................... NEMA 3R ........................................................ ........... For other regional settings please contact SolarEdge Support.' P) A higher current source may be used; the Inverter YrIll limit its Input current tothe values stated. Milevenue grade inverter PIN: SE=mA-US000NNR2 (for 7600W invener.SE7600A-US002NNR2). in-40ver3ionP/N:SE=cxA-US000NNU4(ror7600Winverter:SE7600A-US002NNU4). A t M11111 Classic Comp Lag I QMSC - LAG PRO11,110 1ION CoW""'nAL 1NEwEORrnin WTK WNnE pOKANwO iNE50lEPROPERTY MPM OIRCK rAOUM Pv, ANY REPROWC1gNIN PARI OR AS I DO NO A WNgF WIIHON 1ME W%PEN PERM¢SpN OP OUICK MOUIn fN ¢ PROHBnrq. 6 1 .. 4 -I- - 3 ITEM DESCRIPTION QTY./BOX NO. • • • •capacities 1 FLASHING, 17X 12" X.059', 5052, MILL 1 2 QBLOCK, CLASSIC, A360 CAST AL, MILL 1 3 PLUG, SEALING, 5/16" X 7/8". 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" ID X 1-1/4" OD, 18-8 SS 1 235 RACKING COMPONENTS .46 705 NOT INCLUDED Hem, Fir 5 'L 'L 4 T 1 1 .55 921 3 Spruce, Pine, Fir .42 615 205 I 2 .50 798 1 _ Quick Mount PV TITLE: QMSC-LAG: QMPV CLASSIC COMPOSITION MOUNT WITH CLEAR !ONZE LAG BOLT SES -- --- -------------- _ . __ - .__ UNLESSONSAREININCHIFIED: SIZE DRAWN BY: RAD REV DIMENSIONS ARE IN INCHES ___ FOLERAN L: A 3 ------- -- — FRRACTIOACTIONAAL I /8 DATE: 12/14/2015 SCALE DRAWING TWOPLACEDECIMAL t.18 . ---_ . 7 .. THREE PLACE DECIMAL :.175 SCALE: 1:3 ;WEIGHT: 1.20 SHEET 1 OF I 2 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 11.5.1C for required edge distances. Puick Mount PV® RESPECT THE ROOF BI 7.2.3-32 Apr -2016, Rev 3 • • • •capacities Lag Bolt Specifications Specific Gravity 5116" 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 .55 921 307 Spruce, Pine, Fir .42 615 205 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 11.5.1C for required edge distances. Puick Mount PV® RESPECT THE ROOF BI 7.2.3-32 Apr -2016, Rev 3 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. WARNING: Quick Mount PV products are NOT designed for and should NOT be used to anchor fall protection equipment.': 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 1 st 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 13/4' deep hole into rafter. Clean off any sawdust, and fill hole with sealant compatible with roofing materials and EPDM rubber. 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. Slide the flashing into position. Insert the rubber plug into the QBlock cavity. You are now ready for thTcko,of Your c . F hoiceollow all the directions of the rack manufacturer as well as the module manufacturer. All roofing manufacturers' written instructions must also be followed by anyone modifying a roof system. Consult the roof manufacturer's specs and instructions prior to touchi' gi theroof. BI 7.2.3-32 Apr -2016, Rev 3 ' n . Additional tips and information for -installing mounts: , n See QuickTips videos on nail removal, and more at: http://www.quickmountpv.com/support/videos.html n It is not necessary or advisable to'use nails or other fasteners to secure the perimeter of the flashing. n 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. n Depending on the season and•climate;'siie 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. n Mounts should not be installed in area of the roof susceptible to ice_ damming. Water ponding un- ' der the shingles can reach the bolt penetration. %I, - r ,. n Take care not to damage the roofing material while working on the roof. Removing stone -granules and deforming.the shingles in anyway can shorten the lifespan of the roofing. The value of the solar array is directly affected by the condition of the roof it is attached to. ' 61 7.2.3-32 Apr -2016, Rev 3, ti a. Apr -2016, Rev 3, ti AW .980 41 Street Tel• (510) '420=8190; AW 08kland, CA 94,608 FAX (5'10) 420-8186 e-mail: info@appmateng.com- October 29°i, 201.4 Mi ,$ryan Espiritu. Project Number 114490C QUIC101OUNT P81 •2700 Mitchell. Dr:; Bldg: 2 Walnut Creek, CA .94598 SttbjJeett A116Nvable Loads for'OMSE-Lag Dear -Mr. Espiritu: As requested, below please rind allowable loads for the subject product: Analysis of Allowable Tension :incl Shear Loads From AME's report (Lab&atoi)) L&O Testing of the QAWSL-Ldg) dated October 6, 2014, the allowable tension and shear loads in accordance with AC 13, Section 3.2,1,1.1.2 (Nvhich requires a factor of safety were determined to be as follows: Douglas Fir Lumber Tension (uplift): 732 Ibf Shear (lateral Parallel to Rafter): 526 lbf If you have any questions regarding the above, please do not hesitate to call the undersigned. Resomt ful ly,Submitted, APPLIED MATERIALS ENGII\ ]KERING; INC. Armen Taji hn, Principal Awl 980 41st Street Tel' (510) 420-8190 AM Oakland, CA 94608 FAX: (510) 420-8186 e-mail: info@appmateng.com October 29"','20,14 Mr. Bryan Espiritu Project Nuniber I I 4490 QUICKMOUNT YV 2700 Mitchell Dr., Bldg. 2 Walnut Creek, CA 94598 Subject: Laboratory'Load Testing of the QMSE-Lag Dear Mr. Espiritu: As requested, Applied Material's & Engineering, Inc. (AME) has completed load -testing the. QMSE-Lag., The purpose of our testing was to evaluate the tensile (uplift) and lateral. (Parallel to rafter) load capacity of the QMSE-Lag attached to a 2"a4";Douglas Fic Rafter using one 5/16"0 x 5:5" 304ss lag bolts. SANIPLE DESCRIPTION Samples were assembled in our laboratory•between August 11°i and September 9'11, 2014. Mockup configuration'consisted of three 16" long rafters at 4.5"o.c., screwed to 1/2" Structural I plywood. The QMSE-Lag is attached .through the-plywood.into a rafter using one 5/16"o x 5:5" 304ss lag bolt. QMSE-Lag configuration is provided in Appendix A. TEST,PROCEDURES & RESULTS I. Tensile (Uplift) Load Test A total of six tests were conducted forr tensile load capacity on September 9"','2014 using a. United Universal testing machine: Samples were rigidly attached to the testing marline and an uplift load was. applied to the mount. The samples were loaded in tension at a constant rate of axial deforination of 0.09 in. /min. without shock until failure occurred; displacement at maximum load was recorded. Based on the above testing, the average maxinium tensile load of the QMSE-Lag attached to a 2"x4" Douglas Fir rafter using,one 5/16"0 x 5.5" 304 lag bolt was determined to be 2197 lbf. Detailed results are. provided in Table I. Test setup and mode of failure are provided in Appendix B, Figure 1. The specific gravity and moisture content of the rafters was tested in accordance with ASTM D2395, Method A (oven -dry). The average specific gravity and:moisture content was determined to be 0.426 . and 17.0%, respectively. Page 1. of 10 0 Mr.Bry an Espiritu Projecf%hiber 134.0C49 QUICKMOUNT- PV 2700'Mitthell Dr..,'Bldk..2 Walnut Creek, CA' 9459-8 October 291h, 2014 I Skeai- (Lateral) Load Test Parallel to Rafter -six sarri pies were tested for hear strength parallel to rafter on August 11 "" 2014 ising,a United Universal,. testing ihachine. Samples were. rigidly attached to the tdsti iig machine and. a shear'lood)NAs apPlIedid,the QMSE.-Lag System parallel to the rafter. The samples were loaded at. a constant rate of axial deformation of 0,09,im/min. without shock until failure occitirred. Based on thd above. 'testing, the average ultimate -load, of the QMSE-Lag System attached to a,2"x4'1 Douglas Fir tatter i.isiii.g one 5/wv x 5..5',16g bolts -was I detlefinined to be'l 578.1b1f. Detailed results are provided in Table 11. 'Test setup and mode Of failure are provided in Appendix B, Figure 2. The specific gravity and moisture content of the rafters was tested in accordance with ASTM D2395, Method A (oven -dry). The average specific -gravity and moisture content Was d6te'rinined to be 0.389 and 16.0 respectively. If you have Any qiestions regarding the above; pleas& (to not hesitate to call the undersigned. Respectffilly Submitted, APPLIED MATERIALS -ENGINEERING, INC. Reviewed By: 4a4rr'ili�Shuem e Armen - frian arrit Shu6n).ake Laboratory Technician. Principa Pago, 2 of 10. 410. m C OF C ARLO RATE90NO."a E(WkEHM, IWQ �QMSE-LAG CONFIGURATIONPROM CT NUMBER 114490C ^ � ----- r--'- - — --'- ----' ---- ----'-- ! � /noEDGE TOWARDS ROOF RIDGE 1 ^ ' | ' Page of -80 NO. DESCRIPTION 0TY./box! RACKING COMPONENTS NOT INCLUDED Quick Mount PV' MES I MOM ED Vfl.A- /& ' � ' � 00:9% :M SOLAR. 000:INSTALLATIONGUlDE 00,11UNT' � --------------------------------- *1 ----------- TABLE OF CONTENT;' A - SYSTEM COMPONENTS . 8- MODULE COMPATIBILITY C- SYSTEM LAYOUT r i C t D- FIRE SYSTEM COMPLIANCE NOTES E: ROOF ATTACHMENT & L -FEET F- SPLICE &THERMAL BREAK I G- ATTACH RAIL TO L -FEET H. MICROINVEkFER MOUNTING I- SYSTEM GROUNDING 1- ENDCLAMPTRIM & FIRST MODULE K- BONDING MIDCLAMP & TRIM L- REMAINING MODULES & TRIM M- BONDING CONNECTION GROUND PATHS N- BONDING CONNECTION GROUND PATHS - MAINTEW�ICE 0 -TRIM RETROFIT INSTALLATION % PUB2016APR1.5 -®®®_ • SOLAR STANDARD'SYSTEM COMPONENTS.:A„ MOUNT - -INSTALLATION GUIDE ; PAGE. GRAIL: Supports PV modules. Use at least two per row of modules. Aluminum extrusion, available in mill, clear.anodized,ordark anodized. �.� ORAILSPLICE:Nonstructural splice joins, aligns,and electrically, bonds rail sections into single length of. rail. Forms either a rigid or thermal expansion joint, GMO O 4 inches long, pre -drilled (see page F). Anodized L 0aluminum extrusion available in clear or dark. tOSELF-DRILLING SCREW:'(No. 12 x 3/4")•- Use v4 . per rigid splice or 2 per expansion joint. Stainless steel. Supplied with splice. In combination with rigid splice, provides rail to rail bond. f M:N p ` OL -FOOT: Use to secure rails through roofing. materiat to building structure. Refer to Loading tables, , . _ or U -Builder for spacing. ! OL -FOOT T- BOLT: (3/8" x 3/4") - Use one per L -foot t r to secure rail to. L -foot. Stainless steel. Supplied with L -foot. In combination with flange nut, provides f _ electrical bond between rail and L -foot. ' P @SERRATED FLANGE NUT (3/8"): Use one per Q ti� ' © L -foot to secure and bond rail to L -foot. Stainless . r SM STANDARD RAIL steel. Supplied with U foot. s • ' c ' — SM LIGHT RAIL OMODULE ENDCLAMP: Provides bond from rail to enddamp. Pre -assembled aluminum clamp available in clear or dark finish. Supplied washer keeps clam pp • p P r and bolt upright for ease of assembly. @MODULE MIDCLAMP Pre -assembled clamp Wrenches and Torque • Wrench Six - - - Recommended Toryue (Kibe) 1/4"Hardwareeoo 7/16" 3/8" Hardware o 9/16" 30 a12 Hardware o 5/16" SO Torques are not designed for use with wood connectors 'w/Anti-Seize. •- - r t 'y • e provides module to module and module to rail bond. Stainless steel clamp and T -bolt. Available in clear or dark finish. OMICROINVERTER 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. ' t s ' - iCr - - �• ' - . ®®; :SOLAR . �.� l MODULE"COMPATIBILITY B �l mm- MOUNT , 3 �Y'. INSTALLATION GUIDE ; PAGE - -------------------- — --------• —t--------- -0 , to —y — -------------- a , SIZE l , : F SIZE - ENDCIAMP k D SIZE r K SIZE ENDCIAMP C SIZE ENDCLAMP; ! r ENDCLAMP B SIZE ,r ENDCIAMP ENDCIAMP . , - + Module Thickness • . t • - : Module Thickness : somm to 51mm ; • 1.97into 2.00in • ' _ Module Thickness : , Module Thickness : 45mm to 47mm • _ _ • a; a I . 38mm[o40mm,•a 39mmto4lmm' '1.77in,to1.851n- Module Thickness Module Thickness 33mm to 36mm .1.501n to 1.571n 1.541n to 1.611n 30mm to32mm 1.30in to 1.42in 1:18in to 1.261n ' _ - , . •� ti •.�. «� ,. � - . EF SIZE + - • DK SIZE .• ,• - MIDCLAMP a • n '. MIDCLAMP : 2.5in Long T•bolt . • , '� '� . BC SIZE ' LL• �� _ 2.25in Long T -bolt' r • ' MIDCLAMP 2inLong T•bol[ '�J. - ;`• .L I •f ■■; SOLAR ti = SYSTEM LAYOUT: ��■ :--SM-MOUNT _ INSTALLATION GUIDE ; PAGE ----o-------------------------------------------------------------------- 7�. W1rJ�'1 HIGH PROFILE , LOW P OFILE MODE ILL ; MODE ,l1!++ � 4 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. 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 Leave enough room to' safety- move around the array during installation. on appropriate mounting locations. Some building codes and fire codes require minimum clearances around such installations, and the installer should check local building code requirements for If multiple rows are to be installed adjacent to one another, it is not likely that compliance. each row will,be centered above the rafters. Adjust as needed, following ,the guidelines below as closely as possible. The length of the installation area is equal to: • the total width of the modules, r Refer to Unir'ac'Solarmount D&E Guide & U -Builder for allowable spans and plus 1/4" inch for each space between modules (for mid- clamp);, , cantilevers. • plus approximately 3 inches (1'/i inches for each Endclamp) ;t RAILS MAY BE PLACED PARALLEL OR PERPENDICULAR TO RAFTERS LAYOUT WITH RAILS PERPENDICULAR TO RAFTERS (RECOMMENDED) L Peak'(Rige) -L d I,T-LY 11 .' T IJ:C'1 I r l' S 1- L T I -t T:f�, LLTT ZI.J [a lr l _ 7�. W1rJ�'1 HIGH PROFILE , LOW P OFILE MODE ILL ; MODE ,l1!++ � 4 LL I. Gutter 1_ IJ �1J7 T • 1 � 4 i ®o SOLAR CODE COMPLIANCE NOTES: 000, o°MoMOUNT1NSIALLATION 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 : 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: Rail 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 North-South Landscape OR Portrait None Required • p' z UL2703 CERTIFICATION MARKING LABEL Unirac SOLARMOUNT is listed to UL 2703. Marking Labels are shipped with the Midclamps.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 [abet should be placed such that it is visible, but not outward facing. A. tl - • • • • • UNMACSOIARMOUNT `r�,-:,., A Nw¢RelTww•un�.Townnm L� IIi1LfICl6AY6FpyY tVm� • • • � .+•-."'4". r,_ 1 � 1.y(%w�._ 4srlMtf+tnp'r1�rW � aw�N� ew.mwrsuaaw�rrnr ' SM LIGHT RAIL S I • • • •~` • UNRIACSOIARMOUNT - ' .. �NtICIBFAlgA11r/ ww 6•�.4r�r•Wur•'r.rtlln SM STANDARD RAIL tl - • • • • • UNMACSOIARMOUNT `r�,-:,., A Nw¢RelTww•un�.Townnm L� IIi1LfICl6AY6FpyY tVm� • • • � .+•-."'4". r,_ 1 � 1.y(%w�._ 4srlMtf+tnp'r1�rW � aw�N� ew.mwrsuaaw�rrnr ' SM LIGHT RAIL S I o00°o°o SM SOLAR ' ROOFATTACHMENT & L -FEET Fil MOUNT INSTALLATION GUIDE ;PACE .T 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 hole(s) for the lag bolt(s). NOTE: Determine lag bolt size and embedment depth. Quick Ti p: Re -drill t he pil of hole through the' at ' ashing lag bolt location for easier installation. 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 Unirac Flat Flashing Manual for Additional Details. 2 PIECE ALUMINUM STANDOFF WITH FLASHING & L -FOOT: TOP MOUNT TILE HOOK & L -FOOT: • If necessary cut an opening in the roofing 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 lag 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" z 31h" lag screws. Slide down or ' (No -Calk— 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 tile roof hook. See Standoffs & Flashings Installation Manual 907.2 for Additional Details. See Tile Hook Universal Mount Installation Manual for Additional Information. Z e oog SM SOLAR SPLICE & THERMAL BREAK D 00 MOUNT INSTALLATION GUIDE : PAGE lam,, ;p.... s: .e v- +"�• w.y _ Ale SPLICE INSTALLATION (IF REQUIRED PER SYSTEM DESIGN) . Ifyour 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 distance of 1"from the end of the rail regardless of a splice. TORQUE VALUE (See Note on PG. A) Hex head socket size S/16"- Do not exceed 10 ft -lbs. Do not use Anti -Seize. Max length of spliced rail is 40 ft. An expansion joint is required > 40 ft. 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 'A" 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. A thermal break is required every 40 feet of continuously connected rail. For additional concerns on thermal breaks in your sped-c:project, please consult a licensed structural engineer. %ns of rail less than 40 feet in length, witli more than two pairs spliced together, are an acceptable installation for the SOLARMOUNT systems. Bonding connection for splice used as a thermal break. Option shown uses two Itsco Lugs (Model No. GBL-4DBT P/N GBL-4DBT -see product data sheet for more details) and solid copper wire. t 1 �0000:1% � SM SOLAR ATTACH RAIL TO L -FEET FU MOUPIT INSTALLATION GUIDE ;PACE PLACE T -BOLT INTO RAIL & SECURE SECURE T -BOLT: Apply Anti -Seize to SM STANDARD RAIL: Use SM LIGHT RAIL: For a lower profile array when using BOLT: Insert 3/8" T -bolt into rail at bolt. Rotate T -bolt into position. either slot to connect SM Light rail, rotate the L -foot to orient the side with L -foot locations. Apply Anti -Seize to Note: the L -foot to the rail to only one (1) slot against the rail. Only use the slot bolt. Rotate T -bolt into position. Allowable L -foot slot obtain the desired height location closet to the rail to connect the Lagbolt to 'aching t� locations for SM and alignment when the /roof on the Sidewith two (2) slots. Standard & Light using SM Standard rail. NOTE: Use only the top slot to connect the L -foot to , Rail. the rail to obtain the desired height and alignment � when using SM Light rail 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. � r P It `C ,�� ms`s t •�••• �' i P �„ ALIGN POSITION INDICATOR: Hand tighten nut until rail alignment is complete.Verifythat position indicator on bolt is vertical (perpendicular to rail) TORQUE VALUE (See Note on PG.A) 3/8" nut to 30 ft -lbs s oog SOLAR �� . MICROINVERTER MOUNTING:[11 00 ;SMMOUNT ;. �- INSTALLATIONCUIDE;PACE . - r •I��JI INSTALL . MICROINVERTER MOUNT 'INSTALL-. MICROINVERTER:` -`Install ' INSTALLMICROINVERTER: f ALIGN POSITION INDICATOR: Verify T -BOLT: Apply Anti -Seize and install microinverter on'to rail Engage with TORQUE VALUE (See Note on PG. A), that ' position indicator. on bolt is ' /< • pre -assembled'" dia: bonding T -bolts bolt, � perpendicular to rail _ into top '/4" 6U'slot at microinverter . 1; 1/4" nut to 10 ft -lbs w/Anti-Seize locations. Rotate bolts into position. a' ' � 6 .+ ... is i_'�" !' • r •; } 1 . " ^ 'f n 4. , i• �` 1 .• }+. + f .} � . ' .• � r +,^ ' '� if ♦ r e 4. • _ < <# w ^,' f 000001 SOLAR_ MICROINVtRTER SYSTEM GROUNDING- �,00 „ MOUNT INSTALLATION GUIDE ; PAGE ------------------------------------------------------------------------------------------------------------------------------r------------------ 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 z X '`, bj /" integrated grounding (IG) cabling. +jamIn older 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. T} r Continuous row is defined as a grouping of modules installed and bonded per the requirements of this installation guide sharirig 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. LCL r• ■ • 'o, •�• i ' ' � r ." . � • � 1. '?� . � �: ... .. � � 1t - 1 00' SOLAR ELECIAICALGROUNDING W/ �SPLICE & THERMAL,BREAK: i=2 DO� ; SM MOUNT P�M���p INSTALLATION CUIDE : PACE CONTINUOUS RAIL& ELECTRICAL BONDING SPLICE r P°T.d"�I■�tsslyZ��t�Zn.ss. �® IMMrN s--s—s—s—ssr•—s—s—s— s--s—ssr �s—s—s—s—s---- +�ss�s--s—■ RARSPUCE DING LUGS & COP PER JUMPER M250) ommmmmmm M �® IMMrN s--s—s—s—ssr•—s—s—s— s--s—ssr �s—s—s—s—s---- +�ss�s--s—■ EXMAJSIONJOIMW/OEIECMICALBONDINOCONNEcnoN Enphase Microinverter (MI) Requirements ' (Model No.14215 & M25O) Min.3 Microinverters on each side of thermal break e�rnwnua-rnvnnrocnru Cl r tI- KrL 3 mlcrolnverters ,.., -'.on each side of thermalbreakL RARSPUCE ELECTRICAL BONDING SPLICE EXPANSION JOINT USED AS THERMAL BREAK W/ EXPANSION JOINT USED AS THERMAL BREAK W/O GROUNDING LUGS&'COPPER JUMPER ELECTRICAL BONDING CONNECTION ----------- ----- -- ------ ---- ----- --- -- -- ---- ---- -- -- ----- ---- ----- -- - - -- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - NOTE:THE ABOVE IMAGES ARE SAMPLE CONFIGURATIONS TO ILLUSTRATETHE REQUIREMENTS FOR SM SYSTEM GROUNDINGTHROUGH ENPHASE MICROINVERTERS DESCRIBED ON PAGE 1-2 00, SMsoLAR � "STANDARD SYSTEMGROUNDING:1-3 00� ' MOUNT INSTALLATION GUIDE : PAGE. GROUNDING LUG MOUNTINGDETAILS: Details are provided for both the WEEB and Ilsco products. The WEEBLug has a grounding symbol located on the lug assembty.The Ilsco lug hasra 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 cablesize. 'Required if not using approved integrated grounding microinveters+ ix GROUNDING LUG -.BOLT SIZE & DRILL SIZE GROUND LUG BOLT SIZE DRILL SIZE , WEEBLug 1/4" N/A -Place in Top,SM Rail Slot ILSCO Lug u10-32 7/32" Torque value depends on conductor size. See product data sheet for torque value. WEEBLUG TERMINALTORQUF Single Use Only lnstatl Conductor and • torque to the following: 6-14 AWG: 5ft-Lbs WEEBLUG CONDUCTOR - UNIRAC P/N 0680025: 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 No. VVEM-LUG6.7 +TEiMINALTOROUE Install Conductor and torque to the following: 4-6 AWG: 35in-lbs B AWG: 25 in -lbs' 10-14 AWG: 20 in -lbs ILSCO LAY -IN LUG CONDUCTOR - UNIRAC P/N 008009P: Alternate Grounding Lug - - Drill, deburr hole and bolt thru both rail watts per table. TORQUE VALUE 5 ft lbs. (See Note on PG. A)',, See ILS00 product data sheet for more details, Model No. (BL-41DBT. NOTE: ISOLATE COPPER FROM ALUMINUM CONTACTTO PREVENT CORROSION oo; 000., S'- � SOLAR � ENDCIAMP;;FIRST MODULE &TRIM:D DO .MOUNT INSTALLATION GUIDE ; PAGE INSTALL MODULE ENDCLAMPS: The Endclamp is INSERT ENDCLAMP T -BOLT: Insert 1/4" T -bolt into ROTATE ENDCLAMP T -BOLT: Rotate T -bolt into supplied as an assembly with a T -bolt, serrated flange rail. position. Verify that the position indicator & T -bolt , nut,and washer.The washer retains the clamp at the shaft are angled in the correct position. top of the assembly. This will'enable the clamp to remain upright for module installation. 4 End damps are positioned on rails prior to the rst end module and installed after the last end module. TRIM INSTALLATION INSTRUCTIONS rim INSTALL FIRST MODULE: Install the first end module. POSITION INDICATOR - SERRATED T -BOLT: Verify the TRIM ENDCLAMPS: Install Endclamps on Trim in like onto rails. Engage module frame with Endclamps. T -bolt position indicator is perpendicular to the rail. ,manner to module endclamps per install instructions Verify that the position indicator & T -bolt shaft are above. angled in the correct position. TORQUE VALUE (See Note on PG. 1) TORQUE VALUE (See Note on PG. A) 1/4" nuts to 10 r Y 1/4" nuts to 10 ft -lbs w/ Anti Seize . ft -Lbs. w/Anti Seize r 0 13:'S M SOLAR coo: BONDING, MIDCLAMP &TRIM ! -.0011 MOUNT INSTALLATION GUIDE : PAGE' I ----------------- f ---------------------------- -------------------------------------------------------------- ---------------------- -, WJOW� Ili- 744 T INSTALL MID&S:'Midclamp is supplied . as. an INSERT MIDCLAMP T -BOLT: Apply Anti -Seize and ROTATE MIDCLAMPT-BOLT: Rotate bolt into ' o position assembly with a T -bolt_ for module installation., insert 1/4"T -bolt into rail. and slide until bolt and clamp are against module Clamp 'assemblies may, be positioned in rail near frame. Do not tighten nut-untit'nex't module is in point of use prior to module pLacenient. position: Verify that the position indicator & T -bolt shaft are angled in the correct position. TRIM INSTALLATION INSTRUICTIONS - POSITION INDICATOR.- SERRATED T -BOLT: Verify the. TRIM MIDCLAMPS: Ensure Trim Lip.is in contact with T -bolt position indicator is perpendicular to the rail. module face and verify alignment marks on Tbotts are in proper position, tighten midcLamp on Trim, o. repeat at each gap between modules. t TORQUE VALUE (See Note on PG. 1) 1/4"nuts to 10 ft -lbs w/Anti Seize 14 f 1v iov 4 101 "4: POSITION INDICATOR.- SERRATED T -BOLT: Verify the. TRIM MIDCLAMPS: Ensure Trim Lip.is in contact with T -bolt position indicator is perpendicular to the rail. module face and verify alignment marks on Tbotts are in proper position, tighten midcLamp on Trim, o. repeat at each gap between modules. t TORQUE VALUE (See Note on PG. 1) 1/4"nuts to 10 ft -lbs w/Anti Seize 14 f 1v iov 4 101 o°O',SM SOIAR � � � REMAINING, --MODULES & TRIM ELI 00 � MOUNT INSTALLATION GUIDE ; PAGE ==\ INSTALL REMAINING MID -CLAMPS: POSITION T -BW ALIGNMENT MARKS: Proceed with module installation. Verify that the position indicator(s) ,Engage each module with previously & T -bolt shaft(s) are angled in the positioned Midclamp assemblies. r correct position. NOTE: Apply Anti -Seize to each Mid 'TORQUE VALUE (See Note on PG. A) Clamp prior to installation. 1/4" nuts to 10 ft -lbs. w/Anti Seize INSTALL ENDCLAMPS: Apply Anti -Seize POSITION T-BOLTALIGNMENT MARKS and install final Endclamps in same & CUT RAIL: Verify that the position manner as first Endclamps. Slide indicator(s) & T -bolt shaft(s) are clamps against module., angled 'in the.correct position. Trim TORQUE VALUE (See Note on PG. A) off any excess rail, being' careful not T OR nuts to 10 (ft -lbs. w/Anti Seize to cut into the'roof. Allow 'k" betwee1/4"n * the Endclamp and the end of the rail. FINISH MODULE INSTALLATION: Proceed with module installation. Engage each f module with the previously positioned clamp assembly: Install second module f • Install remaining Midclamps & modules & position alignment marks • Install Endclamps & position alignment marks • Cut rail to desired length TRIM INSTALLATION INSTRUCTIONS FINISH TFJM INSTALLATION, INSTALL ENDCLAMP & CUT EXCESS RAIL: Install final endcLamp & Cut away excess Trim at end of array or where required for proper cantilevers. See t 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 t o°o°o S'M SOLAR,BONDING CONNECTION'GROUND PATHS:[91 00 MOUNT INSTALLATION GUIDE ;PAGE ; BONDING MIDCLAMP ASSEMBLY ENDCLAMP ASSEMBLY BONDING RAIL SPLICE BAR RAILTO L-FOOTw/BONDINGT-BOLT Stainless steel Midctamp points, 2 per module, ® Serrated flange nut bonds aluminum Endclamp Stainless steel self drilling screws drill and tap gh t Serrated flange nut removes L -foot anodization i _ mpierce module frame anodization to bond lugper module row repaired to stainless steel T -bolt ® into splice bar and rail creating bond between 7 NUT W/CAPTIVE � tACK WASHER• to bond L -Foot to stainless steel T -bolt module to module through clamp. !. splice bar and each rail section BQNDIN•.© © Serrated flange nut bonds stainless steel clam g p © Serrated T -bolt head penetrates rail anodization r to bond T -bolt, nut, and Endclam to rounded Aluminum splice bar spans across 'rail gap to © Seriated T -bolt head penetrates rail anodization to stainless steel T -bolt. p g SM © create rail to rail bond. Rail on at least one side t to bond T -bolt, nut, and L -foot to grounded SM © Serrated T -bolt head Penetrates rail anodization fail _ of splice will be grounded. roll to bond T -bolt, nut, clamp, and modules to P Note: End clamp does not bond to module frame. - Note: Splice bar and bolted connection are ! grounded SM rail BONDING MICROINVERTER BONDING RAIL non-structural. The splice bar function is rail' ' _ Option a _ alignment and bonding. , G r t � Note: only one lugper module row repaired ' 7 NUT W/CAPTIVE � tACK WASHER• S V• :�.F'' BQNDIN•.© ® BONDING MICROINVERTER BONDING RAIL 5 r ' _ Option MOUNT SPLICE BAR o Ground Through• SEE NOTE - W EnphaseTrunk Cabit, TWEE L GL9 ILS' jU UGj� . o_ s 5 BONDING MICROINVERTER MOUNT RACK SYSTEM GROUND � - o • � • IsHex nut with captive lock washer bonds metal 0 WEER washer dimples pierce anodized rail to w BONDING MIDCIAMP microinverter flange to stainless steel T -bolt - create bond between rail and lug ASSEMBLY _ E ' �� Serrated T -bolt head penetrates rail anodization © r to bond T-bolt,nu[,and L -foot to grounded SM rail Solid copper wire connected to lug is routed to © D " _ ` ,�' System ground Including racking and modules may provitle final system ground connection. J'JB A - D be achieved through the trunk cable of approved .. OptionRAILTO Ground Lug w, L -FOOT • microinverter systems. See page lfor details NOTE: Itsw tug can also be usM when secured to Bare Copper Wire Bare Wire w/BONDINGT-BOLT ,/ � _ the side at the ra(L' See Paye I-3 for details .` r G r t • 5 r 00SOLAR BONDING CONNECTION- GROONDPATHS: I1, 0000 -MOUNT " ,' f INSTALLATION GUIDE PAGE ' ------------------------------------------------------------------------------------------------------------------------------------------------- - t ELECTRICAL CONSIDERATIONS e , RE�ZU-_ .•. RY TEMIRE SOLARMOUNT is intended to be used with PV BONNGD tnAkR-MMAINTENANCl modules that have a system voltage less than or, F ' CTION'♦ .%+a'.� - equal to 1000 VDC. For standard system grounding • $ a minimum 10AWG, 105°C copper grounding ` conductor should be used to ground a 1000 VDC system, according to the National Electric Code ( (NEC). It is the installer's responsibility to check local codes,which mayvary. See belowfior interconnection 'information. 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. 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 coridition leaves a module without a bonding mid clamp, a temporary quantities specific to your project. bonding connection must be installed as shown - • Attach Ilsco SG64 to wall of rail " ! The grounding / bonding components may overhang - • Attach Ilsco SG64 to module frame r! parts of, the array so care must be made when • Install solid copper wire jumper to Ilsco lugs •� r walking round the array to avoid damage. ., Conductor fastener torque values depend, on • - { . _ A conductor size. See product data sheets for correct i " torque values. • a - r it � 00000-:: SOLAR `� TRIM RETROFIT INSTALLATION: 311'MOUINT - INSTALLATION GUIDE � PAGE ----------------------------------=--------------------------------------------------------------------------------------- PREPARATION: At front edge of array, IST MIDCLAMP: Position Trim in front MOUNT TRIM: Position Trim beneath CLEAR T -BOLT SLOT: " Rotate ensure at least 3.25 inches of space of array. Insert MidcLamp into the Trim modules by slidingT-bolt into gap between unattached end of Trim out and away between modules and roof surface slot, aligned with the gap between the modules and tighten. Middamp should stay from array so T -bolt slot (at next T -bolt .I and that modules are aligned to within 1st two modules at either end of array. in position and support Tdm.Tighten snugly insertion point) is clear- of modules. 3/8-. Plan for Trim Length so that Endclamps can be installed. NOTE: Apply Anti -Seize to Each Mid- enough so that Trim is held firmly in place.- This may require force to deflect the Trim Deflect properly Clamp prior to installation TORQUE VALUE: Do not exceed slightly. only enough to 1/4" nuts to 10 ft -lbs w/ Anti Seize, spededtorque value (10ft-lbs) - insert T -bolt. " \J 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. Ensurir g Trim lip previous Endclamp install instructions and cut at end of array or where Trim) into position between modules 'Loose. is in contact with module face and il A U TORQUE VALUE E L(o See N Note on PG. 1) TOROR1/4" required for proper cantilevers. and Leave Continue to work verifying alignment marks on T -bolts nuts lbs f( Anti Seize down array, inserting Midclamps and.- are in proper position, tighten clamp. L positioning in gaps between modules. TORQUE VALUE (See Note on PG. i) d 1/4" nuts to 10 ft -lbs w/ Anti Seize, f ' r e 1, r