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cut Sheet IRON RIDGE XR1 0 Rail JUL 11 2018 :7.4�; ‘%- (U.r BUCifLIDYIONCiF )\1 (6 , See Descri.tion / Length A .62 .46 1 Rail Section Properties Property Value 1.67 Total Cross-Sectional Area 0.363 in2 1.75 Section Modulus (X-axis) 0.136 in3 1.33 iMoment of Inertia (X-axis) 0.124 in4! 58 Moment of Inertia(Y-axis) 0.032 in4F Torsional Constant 0.076 in3 �, Polar Moment of Inertia 0.033 in4 1.00 ---- Clear �Clear Part Black Part Description / Length Material Weight Number Number XR-10-132A XR-10-132B XR10, Rail 132" (11 Feet) 4.67 lbs. 6000 Series XR-10-168A XR-10-168B XR10, Rail 168" (14 Feet) Aluminum 5.95 lbs. XR-10-204A XR-10-204B XR10, Rail 204" (17 Feet) 7.22 lbs. vl.0 Al 0 0 i2 IRONRIDGE RAIL / Cr o o IRONRIDGE FLASHFOOT2 ` a `PI $rc IX HI >00----------------- ,e -- W w VARIES ® X 1 W R \ Os _SSI O SIDE VIEW,FLASHFOOT2 MOUNT,PORTRAIT MODULE w m r Scale:1"=1'-0" (9 AS REQIJIRED BY _ o MODULE MANUFACTURER O 0 IRONRIDGE UNIVERSAL o 3< w �� PV MODULE FRAME FASTENING OBJECT o B 0.a t IRONRIDGE UNIVERSAL � W/MODULEFRAMEFASTENINGI, i. • OBJECT IRONRIDGE RAIL�IL 111 1 1 „up, 111°,10 ill ., „„„, O DETAIL,MID CLAMP PLAN E DETAIL,MID CLAMP FRONT d o ` w w Scale:6"=1'-0” Scale:6"=1'-0" R N = O PLAN VIEW,FLASHFOOT2 MOUNT,PORTRAIT MODULE ---.. Scale:1"=1'-0" IRONRIDGE STOPPER SLEEVE N tR IRONRIDGE UNIVERSAL IRONRIDGE RAIL IRONRIDGE STOPPER SLEEVE pONs IRONRIDGE FLASHFOOT2 ENING OBJECT PV MODULE PV MODULE FRAME IRONRIDGE UNIVERSAL /-IRONRIDGE UNIVERSAL IRONRIDGE UNIVERSAL �F�pV�MODUL�EFRAME ��IRONRIDGE RAIL ® FASTENING OBJECT '� ... .., �. FASTENING OBJECT I /r\ / IRONRIDGE STOPPER F Tl _ I / _ CI� SLEEVE r-4 IRONRIDGE RAIL SLOPED ROOF L L PV SYSTEM 0.4xL MAX. DETAILS: O DETAIL,END CLAMP PLAN O DETAIL,END e:6FRO O" FLASHFOOT2 Scale:6 O FRONT VIEW,FLASHFOOT2 MOUNT,PORTRAIT MODULEG 3.1 SR Scale:1"=P-0" ° xFEB R4.0M — IR 4.0 �"�•'¢ 2.x36 W CI I Z i $< IRONRIDGE RAIL IRONRIDGE FLASHFOOT2 /� '/ G VARIES 4 p I_ ' >®� � W /� X R P , . O SIDE VIEW,FLASHFOOT2 MOUNT,LANDSCAPE MODULE ,- w Scale:1"=10" (7 r • 0' z f O $ C o AS REOIRED BY • MODULE MA�IUFACfURER E x''' 8 • • IRONRIDGE UNIVERSAL 'oo w ' °1110 � PV MODULE FRAME ��ASTENING OBJECT a a IRONRIDGE UNNERSAL PV MODULE FRAME ® fill ' FASTENING OBJECT k IRONRIDGE RAIL iii 0 III ill miff 'g ;- aS<0 O DETAIL,MID CLAMP PLAN Scale:6"=1'-O" O DETAIL,MID CLAMP FRONT Scale:6"=.1..-0" ao ., 8fasN= O PLAN VIEW,FLASHFOOT2 MOUNT,LANDSCAPE MODULE ""°° Scale:1"=1'-0" IRONRIDGE STOPPER SLEEVE IRONRIDGE UNIVERSAL�E N0449..0‘g0 G\0 FASTENING OBJECT IRONRIDGE UNIVERSAL IRONRIDGE RAIL IRONRIDGE STOPPER SLEEVE DONS FASTENING OBJECT PV MODULE FRAME IRONRIDGE UNIVERSAL FATENING OBJECT f IRO DRIDGE RAIL \® ® IRONRIDGE FLASHFOOT2 �/�FIRONRIDGE ASTENIRONRIIN�OBJECT UNF'E PER CSDME PV MODULE FRAMEA IRONRIDGE RAIL j....r. , SLOPED ROOF 0.4xL MAX. L L PV SYSTEM DETAILS: O DETAIL,END CLAMP PLAN O DETAIL,END CLAMP FRONT FLASHFOOT2 O FRONT VIEW,FLASHFOOT2 MOUNT,LANDSCAPE MODULE Scale:l"=1'-0" Scale:6"=1'-O" Scale:6"=1'-0" M 31 SR " XX FEB2016 -- IR5.0 W PV MODULE, -w 111111 BY OTHERS PV MODULE, V IRONRIDGE BY OTHERS RAIL IRONRIDGE Q gill ,� RAIL (E)ROOF TOP-FACING SLOT TOP-FACING SLOT a 2 *RUM �E)ROOF TOP FACING SLOT Et Q o MEMBRANE 1 MEMBRANE UNDERMOUNTING SLOT a Nit Iii‘ ivi -1_- i1�� I INTERNAL SPLICE INTERNAL SPLICE INTERNAL SPLICE ZO o IRONRIDGE IRONRIDGE SIDE-FACING SLOT u FLASHFOOT2 FLASHFOOT2 SIDE-FACING SLOT IX <^ SIDE-FACING SLOT a i _n _ (STRBKTURE (E)BUILDING s STRUCTURE I- OFLASHFOOT23'E TAILIL O FLASH OO DETAIL M DETAIL,SPLICE,XR1000 1 0" N DETAIL,SPLICE,XR1000_1 0" O DETAIL,SPLICE,XR1 0Scale: ® SELF-DRILLING SC' H PIFJ i q Ill 5 6 . ., ���r IIIIP-IRONRIDGE RAIL f J IRONRIDGE INTERNAL SPLICE ,wiNem /� _ y ss O DETAIL,SPLICE CONNECTION,XR1000 O IRONRIDGE FLASHFOOT2,SIDE VIEW w P GROUNDING STRAP, U.a INSTALLED AS NEEDED g o E.E. a a m _sSELF-DRILLING SCREW O IRONRIDGE FLASHFOOT2 2 mk N w _ IRONRIDGE RAIL7--- ----- d iiiiiniiime1 ) 11 20 z3O IRONRIDGE INTERNAL SPLICE a o E 1"MIN. M w o:i 0 0 ODETAIL,EXPANSION JOINT CONNECTION,XR1000 '� _ _ w L _ i \J - ,' o o'' Ei ) N GO $r - 1 Ca— 9 N. a ten. 0,T. l SLOPED ROOF O IRONRIDGE FLASHFOOT2,FRONT VIEW ® IRONRIDGE FLASHFOOT2,PLAN VIEW PV DETAILS: M FLASHFOOT2 '°' 11 SR s.=Ew.c XX FEB 2016 ""'" IR 6.0 ma¢ 24X]8 W •0 IRONRIDGE RAIL ow. C 8. IRONRIDGE FLASHFOOT g C-----\ ‘iiijilli ; O =� IX W d C // VARIES N§ ® X .__--. 1111111W R kils w < O SIDE VIEW,FLASHFOOT MOUNT,PORTRAIT MODULE W Scale:1"=1'-0" (7 AS RE•.IRED BY .1. i MODULE MANUFACTURER 0 8 D O IRONRIDGE UNIVERSAL 3 o w PVIMODULE FRAMERONRIDGE UNIVERSAL �FASTENING OBJECT a 3 a< m ® '�� PV MODULE FRAME - ' FASTENING OBJECT IRONRIDGE RAILLI niiir III 1 1111 w w I 0 ® DETAIL,MID CLAMP PLAN110 E DETAIL,MID CLAMP FRONT a o ` 3 Scale:6"=1'-0" Scale:6"=1'-0" o l i H= 0 g y i f s O PLAN VIEW,FLASHFOOT MOUNT,PORTRAIT MODULE —r"„ Scale:1"=1'-0" IRONRIDGE STOPPER SLEEVE �tR 1 IRONRIDGE UNIVERSAL IRONRIDGE RAIL IRONRIDGE STOPPER SLEEVE ooh ING OBJECT IRONRIDGE FLASH FOOT IRONRIDGE UNIVERSAL PV MODULE PV MODULE FRAME /RONRIDGEUNRSAL (ØSLEEVE ING OBJO ® ASTENING OBJECT MODULEEII� RONRIDGL u I m N '.....!. N N i SLOPED ROOF L L PV SYSTEM 0.4xL MAX. DETAILS: DETAIL,END CLAMP PLAN DETAIL,END CLAMP FRONT FLASHFOOT O 6" C FRONT VIEW,FLASHFOOT MOUNT,PORTRAIT MODULE O Scale:6"=1'-0" Scale:Scale:6"=1'-0" w 3.1 SR Scale:1"=1'-0" IR -- 1" %R 12018 .0 a 24x38 W s 0 D • ♦ - cr 6.8. � K O IRONRIDGE RAIL � z 1 o IRONRIDGE FLASHFOOT O .rc a M � VARIES � • jj*. Xss R R • ~ a> <> B SIDE VIEW,FLASHFOOT MOUNT,LANDSCAPE MODULE ' B m w 0 8 O er AS REQIIIRED BY • MODULE MA�JUFACTURER 8 U�+ • • ♦ IRONRIDGE UNIVERSAL 3 o w �� PV MODULE FRAME FASTENING OBJECT a 3 a m ' IRONRIDGE UNIVERSAL �� PV MODULE FRAME 'I • I ' FASTENING OBJECT IRONRIDGE RAIL iii rl fl ® Imp =• w x ® DETAIL,MID CLAMP PLAN E DETAIL,MID CLAMP FRONT a o S. w w- Scale:6"=1'-0" Scale:6"=1'-0" o I;2 8 o x z m > a f A PLAN VIEW,FLASHFOOT MOUNT,LANDSCAPE MODULE ' Scale:1"=1'-0" IRONRIDGE STOPPER SLEEVE N� \DN IRONRIDGE UNIVERSAL IRONRIDGE UNIVERSAL IRONRIDGE RAIL IRONRIDGE STOPPER SLEEVE pO�S FASTENING OBJECT ASTENI OBJECT IRONRIDGE UNIVERSAL PV MODULE FRAME FASTENING OBJECT ® PV MODULE /e . IRONRIDGE FLASH FOOT ' IRONRIDGE UNIVERSAL PV MODULE FRAME ,�, a��a a, '� FASTENING OBJECT I IRONRIDGE RAIL IRONRIDGE STOPPER f ( r �.dEAONRJDGERAIL ( _(c))I SLEEVE IF u 1 u— oa IJ {J SLOPED ROOF 0.4xL MAX. L L PV SYSTEM DETAILS: DETAIL,END CLAMP PLAN DETAIL,END CLAMP FRONT FLASHFOOT O FRONT VIEW,FLASHFOOT MOUNT,LANDSCAPE MODULE F Scale:6"=1'-0" G Scale:6"=1'-0" w 3EB2 Scale:1"=1'-0" xx FEB 2016 ..w IR 1.1 W PV MODULE, --w BY OTHERS PV MODULE, V IRONRIDGE IIIMIlkBY OTHERS Q a 4111.1=11RAIL IRONRIDGE (E)ROOF AWMFMMK RE IROOF TOP-FACING SLOT TOP-FACING SLOT jllnp.,XI MEMBRANE MEMBRANE TOP-FACING SLOT IX Q � �� UNDERMOUNTING SLOT a o i-��p I. iir�irr 41�. INTERNAL SPLICE INTERNAL SPLICE INTERNAL SPLICE Z o IRONRIDGE 1LNG GE SIDE-FACING SLOT > 1 . FLASHFOOTIIMIN SIDE-FACING SLOT SIDE-FACING SLOTIX RE I" k 1, ® FLASHFOOT DETAILO O FLASHFOOT DETAIL.-0 M DETAIL,SPLICE,XRl-00 1-0" N DETAIL,SPLICE,XR100 0" O DETAIL,SPLICE,XRS-0Scale:3". "-1 0" le SELF-DRILLING SC' ill I w -I -� w li IRONRIDGE RAIL to ------ il $ O IRONRIDGE INTERNAL SPLICEo ODETAIL,SPLICE CONNECTION,XR1000 IRONRIDGE FLASHFOOT,SIDE VIEW li L5 ao w GROUNDING STRAP, u E a a m INSTALLED AS NEEDED _ SELF-DRILLING SCREW O IRONRIDGE FLASHFOOT - N o11 IRONRIDGERAIL 1. w x !:i! ;;IRONRIDGE INTERNAL SPLICE 1"MIN. CIDJ. ® DETAIL,EXPANSION JOINT CONNECTION,XR1000 I-4 , --- I'll') %"M CONI \6111 II iV O.FJCS\ON(31) S SLOPED ROOF OIRONRIDGE FLASHFOOT,FRONT VIEW © IRONRIDGE FLASHFOOT,PLAN VIEW1PV 1WAI.11M FLASHFOOT 3.126 ""`°^F XX FEB 2(118 - IR1.2 wa,s¢ 24036 W IRONRIDGE RAIL IRONRIDGE ALUM.POST 63 PIPE-STYLE FLASHING,BY OTHERS I et d°a ♦ � Zi IRONRIDGE L-FOOT C ��� O $rc I. I. Cf i W N*CIIIIIIIV VARIES ® • 1.111.1111111111111 ilk .110 W R f<> O B SIDE VIEW,ALUMINUM POST,PORTRAIT MODULE w H Scale:1"-r-0" AS REQI IRED BY 8 MODULE MANUFACTURER ♦ z g D V.0 IRONRIDGE UNIVERSAL _ U°.9 1 • pm, PV MODULE FRAME FASTENING OBJECT o d a w ®i ®i IRONRIDGE UNIVERSAL �� MODULE FRAME FASTENING OBJECT ' IRONRIDGE ONRIDGE RAIL p I 1 1 I 1 I f�� '&8 e O DETAIL,MID CLAMP PLAN O DETAIL,MID CLAMP FRO"=NT dot w w Scale:61'-0" Scale:61'-0" o a 0 I a 88. O PLAN VIEW,ALUMINUM POST,PORTRAIT MODULE"", Scale:1"=1'-0" IRONRIDGE STOPPER SLEEVE NOtR \ON IRONRIDGE UNIVERSAL IRONRIDGE L-FOOT IRONRIDGE RAIL IRONRIDGE STOPPER SLEEVE G0�5 FASTENING OBJECT PV MODULE IRONRIDGE STANDOFF PV MODULE FRAME IRONRIDGE UNIVERSAL / 40/./__ i IRONRIDGE RAIL ® FASTENINGIRONRIOBJECE T J'._ FASTENING OBJECT �--- -w e !/ / IRONRIDGE UNIVERSAL PV MODULE FRAME FASTENING OBJECT / \ T I IRONRIDGE STOPPER (làA IRONRIDGE RAILI/ IISLEEVE -17.7--- ti __ !I \ !! I SLOPED ROOF 0.4xL MAX. L N L PV SYSTEM DETAILS: PIPE-STYLE FLASHING, PIPE -STYLE FLASHING, O DETAIL,END CLAMP PLAN O DETAIL,END CLAMP FRONT ALUMINUM POST BY OTHERS 3.1 SR ® FRONT VIEW,ALUMINUM POST,PORTRAIT MODULE Scale:6"=1'-0" Scale:6"=1'-0" rt xx re Scale:1"=r-0" w R2.0 W V CI S D •• ./IRONRIDGE L-FOOT fr 8. IRONRIDGE RAIL ` �J a IRONRIDGE ALUM.STANDOFF �' :- L PIPE-STYLE FLASHING,BY OTHERS i• Cr E: �, E D VARIES 1110 Illi,WO X 1 1 R I • • > 'm ® SIDE VIEW,ALUMINUM POST MOUNT,LANDSCAPE MODULE 0 • Scale:i"=1'-0" ii 2 O 8 re AS REORED BY 4 MODULE MAUFACTURER 8 D • 4 IRONRIDGE UNIVERSAL '21 O PVI MODULE FRAME � ASTENINOBJECT N I 3 IRONRIDGE UNIVERSAL PV MODULE FRAME d 9 9 FASTENING OBJECT IRwila ONRIDGE RAIL vw 9 'aw< 8 O DETAIL,MID CLAMP PLAN O DETAIL,MID CLAMP FRONT a o S o w w 3 Scale:6"=1'-0" Scale:6"=l'-0" o H= -91§ H ® PLAN VIEW,ALUMINUM POST MOUNT,LANDSCAPE MODULE """'" "" Scale:1"=1'-0" IRONRIDGE STOPPER SLEEVE IRONRIDGE UNIVERSAL Np'(O SON IRONRIDGE UNIVERSAL FASTENING OBJECT IRONRIDGE RAIL IRONRIDGE STOPPER SLEEVE GOaSt FASTENING OBJECT PV MODULE FRAMEfill IRONRIDGE UNIVERSAL ING OBJECT GASTENING OBJECT PV MODULE ® IR ONRIDDGE ST NA DOFF FNLPV MODULE FRAME "'IRONRIDGE RAIL\ �f /` \ /11) jsLE IRONRIDGE STOPPERIRONRIDGE RAILjr l — L7 N - EVE''" �� Il Il / _ SLOPED ROOF PV SYSTEM 0.4xL MAX. L DETAILS: PIPE-STYLE FLASHING, PIPE-STYLE FLASHING, DETAIL,END CLAMP PLAN DETAIL,END CLAMP FRONT ALUMINUM POST BY OTHERS BY OTHERS O Scale:6"=1'-0" O Scale:6"=1'-0" ® FRONT VIEW,ALUMINUM POST MOUNT,LANDSCAPE MODULE .1 Scale:1"=1'-O" "�'" IR 2.1 �,9g zexse W PV MODULE, PV MODULE, BY OTHERS —_ BY OTHERS AIIIIIIIkIRONRIDGE IRONRIDGE TOP-FACING SLOT Q a TOP-FACING SLOT J-.� RAIL RAIL UNDERMOUNTING SLOT ALUMINUM `'!� AL111111 UMINUM TOP-FACING SLOT re u INTERNAL SPLICE o . STANDOFF STANDOFF 11,. INTERNAL SPLICE INTERNAL SPLICE ZI rc .� ' (E)ROOF .1-1- 1. (E)ROOF SIDE-FACING SLOT _ MEMBRANE MEMBRANE SIDE-FACING SLOT SIDE-FACING SLOTO >ryPIPE-STYLEPIPE-STYLE Iriy�FLASHING, FLASHING, / 14BY OTHERS BY OTHERS ODETAIL,SPLICE,XR10000 1 0" O DETAIL,SPLICE,XR1000-1-0" O DETAIL,SPLICE,XR100.=1-0" O STANDOFF DETAIL O STANDOFF DETAIL 4, , Scale:3"=1'-0" Scale:3"=1'-0" ® SELF-DRILLING SC' r w w ...... ___... . C7 y 0 IRONRIDGE RAIL / o 3 �_ _; O) 4m.6 0OO• 0 8 IRONRIDGE INTERNAL SPLICE ^ l \ 0 / 0 - ODETAIL,SPLICE CONNECTION,XR1000 i 1 w 2 O O IRONRIDGE ALUMINUM POST STANDOFF,PLAN VIEW = GROUNDING STRAP, �--- --- u a "a H INSTALLED AS NEEDED /�-//��-��-" -- SELF-DRILLING SCREW ��oj - '''' 1 arA I I I I I I ILM IRONRIDGE RAIL -qui \ / INSTALL WITH VENT --p- 3 a 1"MIN IRONRIDGE INTERNAL SPLICE 1 PIPE STYLE g ^VARIOUS V66 LE , ... FLASHING e '-' a N w p i s ODETAIL,EXPANSION JOINT CONNECTION,XR1000 0 s IL ,,, „""- ii \\v NOS G\ON 5/16"LAG BOLT GOA BYOTHERS 9t N^JCR HIST CRY ...M. a" FE V O IRONRIDGE ALUMINUM POST STANDOFF ® IRONRIDGE ALUMINUM POST STANDOFF,SIDE VIEW — 5VEZT RAW SLOPED ROOF PV SYSTEM DETAILS: ALUMINUM POST ..M 3.1 SR "" XX FEB 2016 """ 1R 2.2 �,9g 2.X36 Al 4 IE RAIL �` a a o S ASSEMBLY 22 D 4 • 4 1 ' Z O W, IRONRIDGE L-FOOT ® C00001111111111t IZ i W d� VARIES CX W R Or°1°°°' \ "N D • • • IT' > 1 <> B SIDE VIEW,S-5-U ASSEMBLY MOUNT,PORTRAIT MODULE EB0 s Scale:1"=1'-0" AS REQLIRED BY F K MODULE MANUFACTURER 0 g 4 ,l • • • re - O 3• 1'61 IRONRIDGE UNIVERSAL B 3 a B PV MODULE FRAME FASTENING OBJECT B a m �1 1 ' IRONRIDGE UNIVERSAL �� PV MODULE FRAME w --- FASTENING OBJECT IRONRIDGE RAIL O O 1 ' o mu 7 • 1 e i 11111. -A ih .8r e O DETAIL,MID CLAMP PLAN O DETAIL,MID CLAMP FRONT" a o B ti w Scale:61'-0" Scale:6"=1'-0 o 0 A PLAN VIEW,S-5-U ASSEMBLY MOUNT,PORTRAIT MODULE Scale:1"=l'-0" / EO\O� IRONRIDGE STOPPER SLEEVE N t� IRONRIDGE UNIVERSAL IRONRIDGE L-FOOT IRONRIDGE RAIL IRONRIDGE STOPPER SLEEVE pONS FASTENING OBJECT IRONRIDGE UNIVERSAL ® ® PV MODULE ® IRONRIDGE UNIVERSAL CIPP PV MODULE FRAME FASTENING OBJECT �� a FASTENINGIRONRIDGE BJECT ALPV MODULE FRAMEMIIMIIIIIM,( 11111116.... 1 1IRONRIDGE RAIL FASTENING OBJECT FASTENING OBJECT I/T /_ IRONRIDGE STOPPER ii � ��ma � SLEEVE �, IRONRIDGE RAIL u SLOPED ROOF 0.4xL MAX. L PV SYSTEM L DETAILS:S-S-U F G DETAIL,END CLAMP PLAN DETAIL,END CLAMP FRONT ASSEMBLY O FRONT VIEW,S-5-U ASSEMBLY MOUNT,PORTRAIT MODULE Scale:6"=1'-0" Scale:6"=1'-0" Xx31 SR RU18 Scale:1"=1'-0" "" RIO 9kF9g 24x38 W S I 0 a a IRONRIDGE L-FOOT r- Cr <o 1 o Z a rc IRONRIDGE RAIL • I S-5-U ASSEMBLY I��� , O rc c VARIES D / I .0%, _ ' X W R a s > > B SIDE VIEW,S-5-U ASSEMBLY MOUNT,LANDSCAPE MODULELi W r, Scale:1"=1'-0" 0 D O = R f O $ 0 D AS REQOIRED BY • MODULE MANUFACTURER $ 0m x D • IRONRIDGE UNIVERSAL E.P, w PV MODULE FRAME � FASTENING OBJECT 3E.d< S IRONRIDGE UNIVERSAL PV MODULE FRAME ® ® 1E04 FASTENING OBJECT ' IRONRIDGE RAIL S m iir 0 411, 41111 II 1111 ® _�� wg2 O DETAIL,MID CLAMP PLAN O DETAIL,MID CLAMP FRONT a o'g�w w Scale:6"=1'-0" Scale:6"=1'-0" o S 0 � f i� A PLAN VIEW,S-S-U ASSEMBLY MOUNT,LANDSCAPE MODULE "`°° Scale:1"=1'-0" IRONRIDGE STOPPER SLEEVE ptF \°''IRONRIDGE UNIVERSAL IRONRIDGE UNIVERSAL IRONRIDGE RAIL IRONRIDGE STOPPER SLEEVE p,.,<,,, SSS FASTENING OBJECT FASTENING OBJECT IRONRIDGE UNIVERSAL PV MODULE FRAME FASTENING OBJECT ® PV MODULE 0 ® ._ IRONRIDGE UNIVERSAL PV MODULE FRAME ,�, — d" /� �.' FASTENING OBJECT ` ` / IRONRIDGE RAIL ` \ IRONRIDGE L-FOOTColl IRONRIDGE STOPPER �� IRONRIDGE RAIL i i / SLEEVE F I, 0.4xL MAX. , L 1 I N ' t ' I SLOPED ROOF PV SYSTEM L DETAILS:S-5-U O DETAIL,END CLAMP PLAN O DETAIL,END CLAMP FRONT ASSEMBLY O FRONT VIEW,S-5-U ASSEMBLY MOUNT,LANDSCAPE MODULE F Scale:6"=1'-0" G Scale:6"=1'-0" d 31 SR Scale:1"=1'-0" XX FEB 2016 IR 3.1 24X36 PV MODULE, PV MODULE, -W BY OTHERS BY OTHERS AIIIIIIIu IRONRIDGE IRONRIDGE RAIL �� RAIL IRONRIDGE AIMIll IRONRIDGE TOP-FACING SLOT Q J�� L-FOOT L-FOOT U .■ UNDERMOUNTING SLOT Ce []� TOP-FACING SLOT o INTERNAL SPLICE TOP-FACING SLOT Z 1 1 _a f:-� -�� 11 � SIDE-FACING SLOT INTERNAL SPLICE INTERNAL SPLICE O hl.S-S-U CLAMP `S-S-U CLAMP ISIDE-FACING SLOTNW JI SIDE-FACING SLOT(E)METAL (E)METALr, I r STANDING STANDING l I11►►►--- w SEAM ROOF SEAM ROOF 1 OSTAND eD.ETAIL 0" O STANDOFF DETAIL 0 O M DETAIL,SPLICE,XR1000" DETAIL,SPLICE,XR100' O DETAIL,SPLICE,XR10 1'-0=1'-0" N N 1-0"=1'-0" O 1'-0"=1'-0" ® SELF-DRILLING SC' w W V, 0 r �i( �_IRONRIDGE RAIL ¢ f IRONRIDGE INTERNAL SPLICE I 0 5151 ODETAIL,SPLICE CONNECTION,XR1000 I -0--9 K S 1 G GROUNDING STRAP, O 5-5-U ASSEMBLY,FRONT VIEW O S-S-U ASSEMBLY,SIDE VIEW - 3 <S S w INSTALLED AS NEEDED " m SELF-DRILLING SCREW " �I I I I 1 li L. IRONRIDGE RAIL 1"MIN. IRONRIDGE INTERNAL SPLICE a a _ O DETAIL,EXPANSION JOINT CONNECTION,XR1000 S.,�p ��V o. e� �_ r NC'., G AGN GGNS OSS-U ASSEMBLY,PLAN VIEW ���. a ® S-5-U ASSEMBLY SLOPED PV SYSTEM DETAILS:S-5-U ASSEMBLY "N0 3.1 SR "°' F XX FEB 2016 '"° IR 3.2 sg.aa 2.X36 Technical Data Model Name CPS SCA50KTL-DO/US-480 CPS SCA60KTL-DO/US-480 DC Input Max.PV Power 75kW(25kW per MPPT) 90kW(30kW per MPPT) Max.DC Input Voltage 1000Vdc Operating DC Input Voltage Range 200-950Vdc Start-up DC Input Voltage/Power 330V/80W Number of MPP Trackers 3 MPPT Voltage Range 480-850Vdc 540-850Vdc Max.PV Short-Circuit Current(Isc x 1.25) 180A(60A per MPPT) Number of DC Inputs 15 inputs,5 per MPPT DC Disconnection Type Load rated DC switch DC Surge Protection Type II MOV,2800V0,20kA ITM(8/20pS) AC Output Rated AC Output Power 50kW 60kW Max.AC Apparent Power 50kVA 60kVA Rated Output Voltage 480Vac Output Voltage Rangel 422-528Vac Grid Connection Type 34)/PE/N(Neutral optional) Max.AC Output Current @48OVac 60.2A 72.2A Rated Output Frequency 60Hz Output Frequency Rangel 57-63Hz Power Factor >0.99(±0.8 adjustable) Current THD @ Rated Load <3% Max.Fault Current Contribution(1 Cycle RMS) 64.1A AC Disconnection Type Load rated AC switch AC Surge Protection Type II MOV,1240VD,15kA ITM(8/20pS) System and Performance Topology Transformerless Max.Efficiency 98.8% CEC Efficiency 98.5% Stand-by/Night Consumption <1W Environment Enclosure Protection Degree NEMA Type 4X Cooling Method Variable speed cooling fans Operating Temperature Rangel -22°F to+140°F/-30°C to+60°C(derating begins above+122°F/+50°C) Non-Operating Temperature Range3 No low temp minimum to+158°F/+70°C maximum Operating Humidity 0 to 95%,non-condensing Operating Altitude 13123.4ft/4000m(derating from 9842.5ft/3000m) Audible Noise <60dBA @ 1 m and 25°C Display and Communication User Interface and Display LCD+LED Inverter Monitoring Modbus RS485 Site Level Monitoring CPS Flex Gateway(1 per 32 inverters) Modbus Data Mapping CPS Remote Diagnostics/FW Upgrade Functions Standard/(with Flex Gateway) Mechanical Dimensions(HxWxD) 39.4 x 23.6 x 10.24in.(1000 x 600 x 260mm) Weight Inverter:123.5Ibs/56kg;Wire-box:33lbs/15kg Mounting/Installation Angle4 0 to 90 degrees from horizontal(vertical,angled,or lay flat) AC Terminations M8 Stud Type Terminal Block(Wire range:#6-2/OAWG CU/AL5,Lugs not supplied) DC Termination Screw Clamp Fuse Holder(Wire range:#14-#6AWG CU),Optional H4(Amphenol) Fused String Inputs(5 per MPPT) 15A fuses provided(Fuse values up to 30A acceptable) Safety Certifications and Standards UL1741SA-2016,UL16996,CSA-C22.2 NO.107.1-01,IEEE1547a-2014;FCC PART15 Selectable Grid Standard and SRD IEEE1547a-2014,CA Rule 21 Smart-Grid Features Voltage-RideThru,Frequency-RideThru,Soft-Start,Volt-Var,Frequency-Watt,Volt-Watt Warranty Standard 10 years Extended Terms 15 and 20 years 1)The"Output Voltage Range"and"Output Frequency Range"may differ according to the specific grid standard. 2)Derating above 50°C occurs when MPPT Voltage is 700-850Vdc 3)See user manual for further requirements regarding non-operating condltions. 4)Shade Cover accessory required for installation angles of 75 degrees or less. 5)AL requires bimetallic compression lug or bimetallic adapter. Installation and Operation Guide YASKAWA 'RSDCOM p SOLECTRIA SOLAR 1.0 Introduction 6.0 Warranty and RMA Instructions 2.0 Ratings Table 7.0 Appendices 3.0 Installation 8.0 UL1741/CSA Certification Letter 4.0 Operating Instructions 5.0 Options Copyright 2017 Yaskawa—Solectria Solar This guide is subject to change without notice. IMPORTANT SAFETY INSTRUCTIONS INSTRUCTIONS IMPORTANTES SAVE THESE INSTRUCTIONS CONCERNANT LA SECURITE Before installing or using the Commercial Rapid Shutdown Combiner (RSDCOM), please read all instructions and caution markings in this manual and on the combiner, as well as on the PV modules, PV inverter, and Charge Controller. This manual contains important instructions that shall be followed during installation and operation of RSDCOM. To reduce the risk of electrical shock, and to ensure the safe installation and operation of the combiner, the following safety symbols are used to indicate dangerous conditions and important safety instructions. CONSERVER CES INSTRUCTIONS. CETTE NOTICE CONTIENT DES INSTRUCTIONS IMPORTANTES CONCERNANT LA SECURITE. At\ WARNING Instructions for Positive Negative Ground DC Electrical Could Injure Personnel or Qualified Connection Connection Connection Connection Damage Equipment Personnel Only Point Symbol Point Symbol Point Symbol Point Symbol WARNING: The RSDCOM contains no user serviceable parts. For maintenance, please contact Yaskawa — Solectria Solar or an authorized installer by visiting http://www.solectria.com or by calling +1-978-683- 9700. WARNING: Disconnect all PV modules or completely cover the surface of all PV arrays with opaque (dark) material before wiring. PV arrays produce electrical energy when exposed to light and could create a hazardous condition. AVERTISSEMENT: Couper Toutes Les Sources d'alimentation Avant Le Depannage. WARNING: Connection of the RSDCOM with PV modules and a PV inverter to the electric utility grid must be done after receiving prior approval from the utility company and performed only by qualified personnel. WARNING: The RSDCOM is designed to be used with a transformerless (TL) PV string inverter or other ungrounded inverter or system. This guide assumes a floating, ungrounded PV system. Both positive and negative polarities are fused and switched. ,Installation and Operations Guide RSDCOM(Rev C) 1.0 Introduction 1.1 Product Overview The Commercial Rapid Shutdown Combiner(RSDCOM) is a rapid shutdown, fused string combiner that meets the array-level rapid shutdown requirements of NEC 2014 and NEC 2017 Article 690.12. The unit integrates with Yaskawa —Solectria Solar PVI I4/20/23/28/36/50/60TL three-phase transformerless, string inverters. The combiner may be used with additional string inverters with an MPPT zone input capacitance of 65 pF or less. The RSDCOM allows for operation of 1 or 2 Maximum Power Point Tracking (MPPT) zone configurations with up to 5 strings per MPPT zone, depending on the model. Array disconnect is automatic upon loss of AC power at the site, per NEC 690.12. The unit uses a 208-277 VAC input or a 24VDC input for the control power. A disconnect can also be located remotely from the combiner as an additional shutdown method. A local, lockable disconnect is provided on the unit as well. 1.2 Part Number Matrix Part number example RSDCOM-M-PC-1 Z-5F-24V Rapid shutdown combiner, customer-supplied external 24VDC supply to be wired into the unit, 1 MPPT zone, 5 string, no fuses, polycarbonate enclosure RSDCOM M PC 1Z 5F 24V Model Name Control Power RSDCOM=Rapid Shutdown Combiner NULL=208-277 VAC Voltage Fused Inputs 24Y=24 VDC SuPPIY M=1000 VDC 4F=4 Fused Positions 5F=5 Fused Positions Enclosure Type MPPT Zone PC-Polycarbonate 1Z=1 MPPT Zone FG-Fiberglass 2Z=2 MPPT Zones Table 1-1 —RSDCOM Part Number Matrix 1.3 Disconnect Switch Operation OFF ON No output power Output power if control power present 1 On 1 On ` 00 Offe=1) Off Figure 1-1 — Disconnect Switch (lockable) The disconnect switch can be locked when in the OFF position. DOCR-070841-C Page 3 of 15 ,Installation and Operations Guide RSDCOM(Rev C) 2.0 Ratings Table 1 MPPT Zone 1 2 MPPT Zones Max Voltage 1000 VDC Control Power 208-277 VAC/0.6 A max or 24 VDC Enclosure Rating 4 or 4X Ambient Operating Temp -40°F to+122°F(-40°C to+50°C) Weight 18 lbs(8.2 kg) 29 lbs(13.2 kg) Dimensions 14 x 12 x 6 in (356 x 309 x 152 mm) 20 x 16 x 8 in (508 x 406 x 203 mm) Number of Fused Inputs 4 5 4 5 15 A Fuse Value 4 Fuses 5 Fuses 8 Fuses 10 Fuses 20 A Fuse Value 3 Fuses N/A 6 Fuses N/A 30 A Fuse Value 2 Fuses N/A 4 Fuses N/A Table 2-1 —RSDCOM Ratings Table 3.0 Installation AWARNING: These installation instructions are for use by qualified personnel only. To reduce the risk of Alb electric shock, do not perform any installation unless qualified to do so. A1 NING: This manual contains important instructions for all RSDCOM models that shall be followed / • \j installation of the Combiner. The necessary steps to installing the RSDCOM are unpacking, inspecting, mounting, conduit installation, wiring, testing, and commissioning. 3.1 Unpacking and Inspection The RSDCOM are thoroughly inspected and rigorously tested before they are shipped. Even though units are delivered in rugged, cardboard packaging when shipped individually or on a pallet, it is possible the units may become damaged during shipping. Upon receiving, inspect the combiner thoroughly after it is unpackaged. If any damage is noticed, document the damage with digital photos and immediately report the damage to the shipping company. If there is any question about potential shipping damage, contact Yaskawa — Solectria Solar. If it is determined that the unit must be returned, an RMA number must be obtained from Yaskawa — Solectria Solar prior to returning the unit. When unpacking, remove any cardboard shipping aids and the tape inside the enclosure. The mounting tabs and associated hardware may be inside the unit. 3.2 Mounting The RSDCOM may be mounted vertically with input conductors exiting the bottom-left side of the unit. It may also be mounted flat on the enclosure back such that the back of the unit is parallel to the mounting surface and the door opens upward. The combiner may also be mounted at any angle between vertical and flat, as shown in Figure 3-1 at 90°, 45°, and 0°. ®A o r El Figure 3-1 Mounting Angle The string combiner box weight is 18-29 lbs, depending on the model number. Be sure to verify the load capacity of a wall mounting area. DOCR-070841-C Page 4 of 15 Installation and Operations Guide RSDCOM (Rev C) Mounting tabs, located at the corners of the unit, allow for simple mounting to a wall, array racking, or posts. Install the combiner in an accessible location following NEC requirements for enclosure door and disconnect switch clearances and proximity to other equipment. Although not required, installation at waist or chest height allows for easiest access and keeps the unit above potential snow line or drifts. Installers sometimes prefer lower installation heights for aesthetics or wind-loading reasons. Q Figure 3-2 Mounting Tabs Although not required, the RSDCOM will achieve a maximum lifetime if located in the shade or partial shade. Ensure the disconnect switch is set to OFF, as shown below. 1 On 0 OffeD Figure 3-3 Disconnect Switch 3.3 Install Conduits WARNING: Do not create conduit entrances and exits in a place that interferes with the internal components. The use of UL514B or equivalent conduit fittings and UL50 installation methods are required d to maintain the Type 4 or 4X rating of the enclosure. Failure to follow these standards may result in water intrusion into the unit through conduit connections and will void the warranty. Consult Figure 3-4 for conduit entries. Installing conduit entries in other places may interfere with internal components. Output conductor conduits must be installed on the bottom. Source circuit conduits may be installed in any of the shaded regions. Do not use the top wall for conduit entry. DOCR-070841-C Page 5 of 15 Installation and Operations Guide RSDCOM (Rev C) 1 ZONE RSDCOM BOX DIMENSIONS LEFT SIDE BOTTOM a, ak a; i Wim; •__WEI_ �__ __.__, NI I `9 r (88.9) (114.3] 1-3.5 / 44 311J SCALE. [MILLIMETERS] iI ----;� — INCHES 14 -...—_ �. 31.8 �' -1- 1.3 (31.2) 150.01L 142.6) [1271 ALL MEASUREMENTS i 31 2.0 1.7 5.0 ARE APPROXIMATIONS 1.2 1108) 4.25 2 ZONE RSDCOM BOX DIMENSIONS LEFT SIDE BOTTOM (190.51 (50.8) 1114.31 8 2 5 • I Mr MI, i/ lir /1 r 12 139.7 1 [152.41 5s 6 88.9, , , „ ' A tl i/ 1 0 mini mow _ 128.91 (24.31 _,165.1i 127.71 ' 1 6.5 1 122.6) 150.8) (91.4) [213.41 1 2 4 8 Figure 3-4 Conduit Entries 3.4Wiring The RSDCOM requires copper PV source circuit conductors only. For the PV output circuit feeders, either copper or aluminum conductors may be used. Due to terminal size restrictions, aluminum wiring may not be an option in all cases. As with any aluminum wiring, follow best industry practices to ensure a reliable connection by thoroughly cleaning the conductor just prior to making the electrical connection and using an oxide inhibitor to prevent the formation of aluminum oxide. Both input and output terminations for all models are rated for 90°C. All wiring must be in accordance with local and national electrical codes. 3.4.1 Remove Fuses WARNING: Removing fuses from a live circuit may create dangerous arc-flash and shock hazards. Note: The unit is not shipped with fuses unless the fuses option is ordered. Refer to section 5.1 — Fuses. Remove all fuses as shown in Figure 3-5. ?, dr Q Cs r----7 J Figure 3-5 Removal of Fuses DOCR-070841-C Page 6 of 15 Installation and Operations Guide RSDCOM (Rev C) 3.4.2 Grounding Connect both input and output equipment DC ground wires to the ground terminal on the left, hinge side of the box. I o l' ClU it �C1w DC I!', l iii Ground E®U Elm o C®u BIM Figure 3-6 DC Ground Use 14AWG —4AWG copper wire. Attach only 1 wire per terminal. Tighten with a slotted screwdriver to 20 in- lbs. Use of oxide inhibitor paste is recommended. 3.4.3 PV Source Conductors Connect PV source circuit conductors to fuse holders. Shown in Figure 3-7 are connections for 2 MPPT zones with 4 strings. The zones are kept separate with positive (+) on top and negative (-) below. Ensure polarity matches. Zone 2lm t CD MI =4024 al I Zone 2 7 ElIi 1 .. e 61 Zone 1 ;I EES I r o•a` O El , i ESN Zone 1 i GEEi a. CD URI Figure 3-7 Fuse Holder Connections—2MPPT Zones with 4 Inputs Keep all strings within the MPPT zone desired. Be sure to never connect positive (+) of a string in one zone and the negative (-)to a different zone. 1 or 2 wires may be attached at each fuse holder. For 1 wire, use 12AWG — 6AWG wire. For 2 wires, use 12 AWG— 10 AWG wire. Tighten with a Phillips #2, 6mm diameter shank screwdriver to 20 in-lbs. Note: Use the 2 wires per terminal only when connecting 2 strings and 30A fuses are in use. 3.4.4 PV Output Circuit Conductors Connect the output circuit conductors to the terminal blocks. Shown in Figure 3-8 are the connections for the 2 MPPT zone unit with the AC power supply. With the 1 MPPT zone unit, there will be only one pair of positive and negative terminals. Ensure that the polarity matches. DOCR-070841-C Page 7 of 15 Installation and Operations Guide RSDCOM(Rev C) F f 0 c e©e©', iC1 MPPT MP- Zone 1 Zone 2 Figure 3-8 Fuse Holder Connections—2MPPT Zones with Power Supply Use 6AWG — 2AWG copper or aluminum wire. Attach only 1 wire per terminal. Tighten with a slotted screwdriver to 28 in-lbs. 3.4.5 Control Power The RSDCOM offers control power from two sources. This is determined by the model number. RSDCOM models ending with "-24V', refer to 24 VDC control power, supplied by the customer. This is explained in section 3.4.5.b — Customer Provided 24VDC Input. For all other models, refer to the section 3.4.5.a — AC Power Supply. 3.4.5.a AC Power Supply Connect AC control power circuit conductors to the power supply at terminals marked AC(L) and AC(N). Shown in Figure 3-9 is the 2 MPPT zone unit with the power supply. The power supply is in a different place in the 1 MPPT zone unit. Use 208, 240, or 277 VAC. '4 • �" 1 b --- .v ' - AC Connect' n Figure 3-9—2 MPPT Zone Unit with the AC Power Supply Use a 14AWG — 10AWG wire with matching #6 stud fork terminal. Tighten with a Phillips screwdriver to 5 in- lbs. Note: Having multiple units using the same input control wires or running the wires long distances may affect the minimum wire size. Make sure that at least 208VAC reaches all units. 3.4.5.b Customer Provided 24VDC Input Connect the 24VDC control power circuit conductors to the push-in terminal. Use 16AWG-12AWG wire. Push a slotted instrument screwdriver in the square hole and then insert the wire into the round hole. Tug the wire to ensure it is connected. o El oil ao MCC= 0 0®0 .41 DOCR-070841-C Page 8 of 15 Installation and Operations Guide RSDCOM(Rev C) Figure 3-10—2 MPPT Zone Unit with Customer Provided 24VDC Input Note: Having multiple units using the same input control wires or running the wires long distances may affect the minimum wire size. Make sure that at least 21±0.1VDC reaches all units and account for 3.9A (0.08s) surge (turn-on) current. 3.4.6 Connecting to PVI 14-60TL AWARNING: Wiring to or removing fuses from a live circuit may create dangerous arc-flash and shock hazards. De-energize the string inverter before installing RSDCOM inputs. 3.4.6.a Connecting to PVI 14/20TL Fuse bypass kits are not supported for these models. Connect directly to the terminals above fuses. I if 31 u i�� Qll SII .� ,1SIIa uSD � I III !II nil SlSlliiSl � rI ° SO ."1* •@®Ik It&9[�➢!9%�'',�° C , o s i _._... L I Figure 3-11 —PVI 14/20TL Bypass 2 MPPTS For 1 MPPT (paralleling)zone bypass (to combine 2 MPPTs to 1), add jumpers connecting the 2 negatives(black) to each other and the 2 positives (red)to each other. Refer to DC Connections from the PV Array in the PVI 14/20TL-Installation and Operation Manual. Do not use zone bypass jumpers (paralleling of the two zones) if using the 1 MPPT RSDCOM product. Zone bypass(paralleling) is only allowed in PVI 14-36TL units in combination with the 2-Zone RSDCOM unit. In all cases, it is recommended to operate in the individual MPPT mode. AWARNING: Ensure that the polarity matches before powering on inverter. Polarity mismatch will create an arc-flash hazard once power is applied. 3.4.6.b Connecting Output to PVI 23-60TL Remove fuses before installing the bypass. Install the bypass kit that corresponds to the string inverter, as shown below. Inverter Model Bypass Kit Part Number Kits for 1 MPPT Zone Kits for 2 MPPT Zones PVI 23TL, PVI 28TL, PVI OPT-FUSEBYPASS-PVI- 1 2 36TL 23-36TL PVI 50TL, PVI 60TL OPT-FUSEBYPASS-PVI- 1 2 50-60TL Table 3-1 — Inverter Bypass Kits Attach the output from the RSDCOM to the screw of the bypass kit. Use a stud ring terminal with an inner diameter of at least 6 mm or'/ inch that matches the size of the PV Output Circuit Conductors of the RSDCOM Installation Summary Table. DOCR-070841-C Page 9 of 15 Installation and Operations Guide RSDCOM (Rev C) 3.4.7 Wiring Summary Tables Connection__ Wire Size Terdtte __..Screwdriver,.. Notes Ground 14AWG-4AWG 20 in-lbs Slotted Copper only 12AWG-6AWG (1) 1 or 2 wires per terminal, PV Source Conductors 12AWG-10AWG (2) 20 in-lbs Phillips see number in parentheses Copper only PV Output Circuit 6AWG-2AWG 28 in-lbs Slotted Copper or aluminum Conductors Control Power— Power 14AWG-10AWG 5 in-lbs Phillips 208-277 VAC, use matching Supply #6 stud fork terminals Control Power—Customer 16AWG-12AWG N/A Instrument Round hole: wire Provided 24 VDC Input slotted Square hole: screwdriver Table 3-2—RSDCOM Installation Summary Table AC Power Supply 24VDC Voltage Range 208—277 V 21±0.1 —26 V Surge Current N/A 2.8A(0.04s) Continuous Current 0.087A(rms) 0.6A Table 3-3—RSDCOM Control Inputs 1 MPPT Zone AC Power Supply 24VDC Voltage Range 208—277 V 21 —26 V Surge Current N/A 3.9A(0.08s) Continuous Current 0.17A(rms) 1.2A Table 3-4—RSDCOM Control Inputs 2 MPPT Zones 3.4.8 Final Steps AWARNING: Verify the proper polarity of each source conductor and correct matching MPPT zone. Polarity reversal can lead to dangerous arc-flash conditions capable of harming personnel and equipment. AWARNING: Check the string combiner box for tools and ensure the unit is clean and orderly. AWARNING: Installing fuses in a live circuit may create dangerous arc-flash and shock hazards. 1. Verify all connections meet the requirements of this Installation and Operations Guide. 2. Check all source circuit voltages and polarities. 3. Ensure the disconnect switch is set to OFF. 4. Install all fuses as shown on right. 0 0 J Figure 3-11 Installation of Fuses 5. Close RSDCOM door, ensuring door is securely closed using enclosure latches. 6. Apply both nylon 7 inch tie-wraps to the rings of 2 door latches to lock enclosure. DOCR-070841-C Page 11 of 15 1 Installation and Operations Guide RSDCOM (Rev C) 4.0 Operating Instructions The combiner box is controlled by the disconnect switch and either the power supply or a 24VDC control power input. The disconnect switch is user operable. When both the control power is present and the disconnect switch is on, a red LED on the circuit board will illuminate. This indicates the RSDCOM enables the flow of power from the input to output conductors. If either the control power is absent or the disconnect switch is set to off, the RSDCOM prevents the flow of power from the input to the output conductors. The disconnect switch is fully load-break rated and can be safely operated under normal operating conditions when installation is per this manual and all warnings and ratings are observed. See Disconnect Switch Operation for positioning the switch. 5.0 Options Additional options are available for order with the RSDCOM. These must be included in an order as they are factory installed options. 5.1 Fuses The RSDCOM will be shipped with 15A, 20A, or 30A fuses installed. Fuses are typically moved from inverter to combiner and not included with combiner. 5.2 Surge Arrestor The RSDCOM will be shipped with one surge arrestor next to each zone (1 installed in 1 zone combiner, 2 installed in 2 zone combiner)to protect against abnormal voltage. Specify either 600V or 1000V. 5.3 MC4 or H4 Whips The RSDCOM will be shipped with MC4 or H4 whips, making the source circuit connections easier. 6.0 Warranty and RMA Instructions For all warranty information, please visit: http://solectria.com/support/documentation/warranty-information/qrid-tied-inverter-warranty-letter/ DOCR-070841-C Page 12 of 15 Installation and Operations Guide RSDCOM(Rev C) 7.0 Appendices 7.1 Appendix A: Datasheet https://solectria.com/support/documentation/inverter-datasheets/commercial-rapid-shutdown-combiner/ 7.2 Appendix B: Contact Information Yaskawa —Solectria Solar 360 Merrimack Street Building 9, 2nd Floor Lawrence, Massachusetts 01843 USA Tel: 978.683.9700x2 Fax: 978.683.9702 Sales/General Info: inverters(asolectria.com Technical Support and Service: 978.683.9700 Website: www.solectria.com 7.3 Appendix C: Authorized Distributors https://solectria.com/pv-inverters/how-to-buy/ DOCR-070841-C Page 13 of 15 011111111 .1 Installation and Operations Guide RSDCOM(Rev C) 8.0 Certifications Intertek AUTHORIZATION TO MARK This authorizes the application of the Certification Mark(s) shown below to the models described in the Product(s)1 Covered section when made in accordance with the conditions set forth in the Certification Agreement and Listing Report. This authorization also applies to multiple listee model(s) identified on the correlation page of the Listing Report. This document is the property of Intertek Testing Services and is not transferable. The certification mark(s) may be applied only at the location of the Party Authorized To Apply Mark. Applicant: Solectria Renewables, LLC Manufacturer: Solectria Renewables, LLC 360 Merrimack Street 360 Merrimack Street Address: Bldg 9,Floor 2 Address: Bldg 9,Floor 2 LAWRENCE,MA 01843 LAWRENCE,MA 01843 Country: USA Country: USA Contact Jihua Ma(primary) Contact Michael Dinneen(primary) Anthony Marinella(alternate) Frank Wright(alternate) Phone: (978)683-9700 Phone: (978)683-9700 FAX: (978)683-9702 FAX: (978)683-9702 jihua.ma©solectria.com m ichael.dinneen@solectria.com Email: anthony.marinella@solectria.com Email' frank.wright@solectrica.com Party Authorized To Apply Mark: Same as Manufacturer Ji Report Issuing Office: Cortland,NY 7" { Control Number: 3058299 Authorized by: for Dean Davidson,Certification Manager US use Intertek This document supersedes all previous Authorizations to Mark for the ncted Report Number. This Authorization to Mark is for the exclusive use of Intertek's Client and is provided pursuant to the Certification agreement between Intertek and its Client.Intertek's responsibility and liability are limited to the terms and conditions of the agreement.Intertek assumes no liability to any party,other than to the Client in accordance with the agreement,for any loss,expense or damage occasioned by the use of this Authorization to Mark.Only the Client is authorized to permit c opying or distribution of this Authorization to Mark and then only in its entirety.Use of Intertek's Certification mark is restricted to the c onditions laid out in the agreement and in this Authorization to M ark.Any further use of the Intertek name for the sale or advertisement of the tested material,product or servic e must first be approved in writing by Intertek.Initial Factory Assessments and Follow up Services are for the purpose of assuring appropriate usage of the Certification mark in accordance with the agreement,they are not for the purposes of production quality control and do not relieve the Client of their obligations in this respect. Intertek Testing Services NA Inc. 545 East Algonquin Road,Arlington Heights,IL 60005 Telephone 800-345-3851 or 847-439-5667 Fax 312-283-1672 Inverters,Converters,Controllers And Interconnection System Equipment For Use With Distributed Standard(s): Energy Resources[UL 1741:2010 Ed.2] Product: Rapid Shutdown Combiner Box RSDCOM-M-XZ YF With Options: RSDCOM-M-PC-1Z-4F, RSDCOM-M-PC-IZ-5F,RSDCOM-M-PC-1Z-4F-24V,RSDCOM-M-PC-IZ-5F-24V, RSDCOM-M-FG-2Z-4F, RSDCOM-M-FG-2Z--5F,RSDCOM-M-FG-2Z-4F-24V,RSDCOM-M-FG-2Z-5F-24V Models: RSDCOM-M-PC-IZ-2F, RSDCOM-M-PC-1Z-3F,RSDCOM-M-PC-1Z-2F-24V,RSDCOM-M-PC-IZ-3F-24V, RSDCOM-M-FG-2Z-2F, RSDCOM-M-FG-2Z-3F,RSDCOM-M-FG-2Z-2F-24V,RSDCOM-M-FG-2Z 3F-24V ATM for Report 102909915CRT-001 Page 1 of 2 ATM Issued: 16-Mar-2017 ED 16.3.15(1-Jul-16)M andatory DOCR-070841-C Page 14 of 15 Installation and Operations Guide RSDCOM (Rev C) Intertek AUTHORIZATION TO MARK This authorizes the application of the Certification Mark(s) shown below to the models described in the Product(s) Covered section when made in accordance with the conditions set forth in the Certification Agreement and Listing Report. This authorization also applies to multiple listee model(s) identified on the correlation page of the Listing Report. This document is the property of Intertek Testing Services and is not transferable. The certification mark(s) may be applied only at the location of the Party Authorized To Apply Mark. Applicant: Solectria Renewables, LLC Manufacturer: YASKAWA AMERICA, INC. 360 Merrimack Street 150 WEST OAKWOOD ROAD, Address: Bldg 9,Floor 2 Address: OAK CREEK,WI 53154 LAWRENCE,MA 01843 Country: USA Country: USA Contact: Jihua Ma(primary) Contact: KRSTAN MALUSIC(primary) Anthony Marinella(alternate) ROY JENSEN(altemate) Phone: (978)683-9700 Phone: 414-856-2555 FAX: (978)683-9702 FAX: 414-856-2501 Email: jihua.ma@solectria.com Email: krstan malusic@yaskawa.co anthony.m arinella@sdm ectria.co — m Party Authorized To Apply Mark: Same as Manufacturer Report Issuing Office: Cortland,NY c ' Control Number: 5002456 Authorized by: for Dean Davidson,Certification Manager GUS Intertek This document supersedes all previous Authorizations to Mark for the noted Report Number. This Authorization to M ark is for the exclusive use of Intertek's Client and is provided pursuant to the Certification agreement between Intertek and its Client.Intertek's responsibility and liability are knifed to the terms and conditions of the agreement.Intertek assumes no liability to any party,otherthan to the Client in acc ordance with the agreement,for any loss,expense or damage occasioned by the use of this Authorization to Mark.Only the Client is authorized to permit copying or distribution of this Authorization to Mark and then only in its entirety.Use of Intertek's Certification mark is restricted to the c onditions laid out in the agreement and in this Authorization to M ark.Any further use of the Intertek name for the sale or advertisement of the tested material,product or service must first be approved in writing by Intertek.Initial Factory Assessments and Follow up Services are for the purpose of assuring appropriate usage of the Certification mark in accordance with the agreement,they are not for the purposes of production quality control and do not relieve the Client of their obligations in this respect Intertek Testing Services NA Inc. 545 East Algonquin Road,Arlington Heights,IL 60005 Telephone 800-345-3851 or 847-439-5667 Fax 312-283-1672 Inverters,Converters,Controllers And Interconnection System Equipment For Use With Distributed Standard(s): Energy Resources[UL 1741:2010 Ed.21 Product: Rapid Shutdown Combiner Box RSDCOM-M-XZ-YF With Options: RSDCOM-M-PC-IZ-4F, RSDCOM-M-PC-1Z 5F,RSDCOM-M-PC-1Z-4F-24V,RSDCOM-M-PC-IZ-5F-24V, RSDCOM-M-FG-2Z-4F, RSDCOM-M-FG-2Z-5F,RSDCOM-M-FG-2Z-4F-24V,RSDCOM-M-FG-2Z-5F-24V Models: RSDCOM-M-PC-1Z-2F, RSDCOM-M-PC-1Z 3F,RSDCOM-M-PC-1Z-2F-24V,RSDCOM-M-PC-1Z-3F-24V, RSDCOM-M-FG-2Z-2F, RSDCOM-M-FG-2Z-3F,RSDCOM-M-FG-2Z-2F-24V,RSDCOM-M-FG-2Z-3F-24V ATM for Report 102909915CRT-001 Page 2 of 2 ATM Issued:16-Mar-2017 ED 16.315(1-Jul-t6)Mandatory DOCR-070841-C Page 15 of 15 VECTOR E r'1 G I 11 E E R s VSE Project Number:U2801-004-181 July 6,2018 A-R Solar ATTENTION:Michael O'Brien 3211 Martin Luther king Jr Way S,Suite B Seatle,WA 98144 REFERENCE: Durham Education Center Building:8040 SW Durham Road,Tigard,OR 97224 Solar Array Installation To Whom It May Concern: Per your request, we have reviewed the existing structure at the above referenced site. The purpose of our review was to determine the adequacy of the existing structure to support the proposed installation of solar panels on the roof as shown on the panel layout plan. Based upon our review, we conclude that the existing structure is adequate to support the proposed solar panel installation. Design Parameters Code:Oregon Structural Specialty Code,2014 Edition(2012 IBC) Risk Category:III Design wind speed: 130 mph (3-sec gust)per ASCE 7-10 Wind exposure category:C Ground snow load: 10 psf Existing Roof Structure Roof structure: manufactured trusses @ 24"O.C. Roofing material:metal corrugated Roof pitch:2:12 Connection to Roof Mounting connection(Zone 1):(1) S-5-S Mini at max.48 in.O.C. Mounting connection(Zone 2):(1) S-5-S Mini at max.24 in.O.C. Mounting connection(Zone 3):(1) S-S-S Mini at max. 12 in.O.C. For zone details see Figure 1. Conclusions Based upon our review,we conclude that the existing structure is adequate to support the proposed solar panel installation. The weight of the solar array is 3 psf or less. In the area of the solar array, other live loads will not be present or will be greatly reduced.The gravity loads in the area of the solar array are decreased;thus,the stresses of the structural elements are decreased.Therefore,the requirements of Section 3403.3 of the 2014 OSSC are met and the structure is permitted to remain unaltered. 651 W.Galena Park Blvd.,Ste. 101/Draper, UT 84020/T(801)990-1775/F(801)990-1776/www.vectorse.com VSE Project Number: U2801-002-181 Taco Time Residence ,.. 1111 ECTOR 5/24/2018 E n g i n e E R s The solar array will be flush-mounted (no more than 6" above the roof surface) and parallel to the roof surface. Thus, we conclude that any additional wind loading on the structure related to the addition of the proposed solar array is negligible. The attached calculations verify the capacity of the connections of the solar array to the existing roof against wind(uplift), the governing load case. Regarding seismic loads, we conclude that any additional forces will be small. With an assumed roof dead load of 9 psf, solar array dead load of 3 psf, and affected roof area of 33% (maximum), the additional dead load (and consequential seismic load)will be 10.9%.This calculation conservatively neglects wall weight.Because the increase in lateral forces is less than 10%,this addition meets the requirements of the exception in Section 3403.4 of the 2014 OSSC. Thus the existing structure is permitted to remain unaltered. Limitations Installation of the solar panels must be performed in accordance with manufacturer recommendations. All work performed must be in accordance with accepted industry-wide methods and applicable safety standards. The contractor shall notify Vector Structural Engineering,LLC should any damage, deterioration or discrepancies between the as-built condition of the structure and the condition described in this letter be found. Connections to existing roof framing must be staggered,except at array ends, so as not to overload any existing structural member. The use of solar panel support span tables provided by others is allowed only where the building type, site conditions, site-specific design parameters,and solar panel configuration match the description of the span tables.The design of the solar panel racking(mounts,rails,etc.),and electrical engineering is the responsibility of others. Waterproofing around the roof penetrations is the responsibility of others. Vector Structural Engineering assumes no responsibility for improper installation of the solar array. VECTOR STRUCTURAL ENGINEERING,LLC OR Firm License:2202 4�,} P3374.4' 1 R, ØV2� OREGON , (EXPIRATION DAIL 12/31/2019 07/06/2018 Roger Alworth,S.E. OR License:41725-Expires:01/27/2020 Principal Enclosures RTA/stb 651 W.Galena Park Blvd.,Ste. 101/Draper,UT 84020/T(801)990-1775/F(801)990-1776/www.vectorse.com