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BUTTE -COUNTY AREA DEPARTMENT OF DEVELOPMENT SERVICES 1 INSPECTION CARD MUST BE ON JOB SITE 24 Hour Inspection Line (IVR) : 530.538.4365 (Cut off time for inspections is 3pm) Development Services cannot guarantee inspections on the date requested Office: 530.538.7601 Fax: 530.538.7785 www.ButteCounty.net/dds Permit No: B17-2570 Issued: 10/30/2017 APN: 009-290-023 Address: 437 JUSTESON RD, GRIDLEY Owner: WESCOTT REVOCABLE INTER VIVOS Permit Type: SOLAR ROOF -RES Description: Solar pv roof mount 6.6kw Flood Zone: None SRA Area: No SETBACKS for Zonina- AG. SRA. PW Front: Centerline of Road: Rear: SRA: Street: AG: Interior Total Setback from Centerline of Road: ALL PLAN REVISIONS MUST BE APPROVED BY THE COUNTY BEFORE PROCEEDING Inspection Type IVR INSP DATE Setbacks 131 Foundations / Footings 111 Pier/Column Footings 122 Eufer Ground 216 Masonry Grout 120 Setbacks +_ Do Not Pour Concrete Until Above are Signed 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 /Unde inin 612 Tiedown/Soft Set System 611 Do Not Install Floor Sheathing or Slab Until Above Signed Shearwall/B.W. P. -Interior 134 Shearwall/B.W.P.-Exterior 135 Roof Nail/Drag Trusses 129 417 Manometer Test Do Not Install Siding/Stucco or Roofing Until Above Signed Rough Framing 153 Rough Plumbing 406 Rough Mechanical 316 Rough Electrical 208 4 -Way Rough Framing 128 Gas Piping House 403 Gas Test House 404 Shower Pan/Tub Test 408 Do Not Insulate Until Above Signed Permit Final 802 Electrical Final 803 Mechanical Final 809 .Plumbing Final 813 Fire Sprinkler Test or Final 702 SwimminR Pools Inspection Type IVR INSP DATE T -Bar Ceiling 145 Stucco Lath 142 SwimminR Pools Setbacks 131 Pool Plumbing Test 504 Gas Test 404 Pre-Gunite 506 Pre -Deck 505 Pool Fencing/Alarms/Barriers 1 503 Pre -Plaster 1 507 Manufactured Homes Setbacks 131 Blockin /Unde inin 612 Tiedown/Soft Set System 611 Permanent Foundation System 613 Under round Electric 218 Sewer 407 Underground Water 417 Manometer Test 605 Continuity Test 602 Skirting/Steps/Landings 610 Coach Info Manufactures Name: Date of Manufacture: Model Name/Number: Serial Numbers: Length x Width: Insignia: Fl � als Public Works Final 538.7681 Fire De artment/CDF 538.6226 Env. Health Final 538.7281 Sewer District Final "PROJECT FINAL *Project Final is a Certificate of Occupancy for (Residential Only) PERMITS BECOME NULL AND VOID 1 YEAR FROM THE DATE OF ISSUANCE. IF WORK HAS COMMENCED, YOU MAY PAY FOR A 1 YEAR RENEWAL 30 DAYS PRIOR TO EXPIRATION t SCOPE OF WORK � ' GENEFO NOTES .� .� LEGEND ANI 61313REVIATIONS . TABLE OF CONTENTS PAGE # DESCRIPTION PV -1.0 COVER SHEET • SYSTEM SIZE: 660OW DC, 6000W AC . • ALL WORK SHALL COMPLY WITH 2016 CEC, 2016 CBC, MUNICIPAL CODE, AND SE SERVICE ENTRANCE SOLAR MODULES PV -2.0, SITE PLAN • MODULES- (20) LG ELECTRONICS: LG330NlC-A5 i ALL MANUFACTURERS' LISTINGS AND INSTALLATION INSTRUCTIONS. RAIL, • INVERTER(S): - • PHOTOVOLTAIC SYSTEM WILL COMPLY WITH 2016 CEC. `MAIN (1) NINGBO GINLONG TECHNOLOGIES: SOLIS-1P6K-4G-US • ELECTRICAL SYSTEM GROUNDING WILL COMPLY WITH 2016 CEC- . Mp PANEL PV -3.0 LAYOUT • RACKING: SNAPNRACK SERIES 100 UL; FLASHED L FOOT. • PHOTOVOLTAIC SYSTEM IS UNGROUNDED. NO CONDUCTORS ARE SOLIDLY — PV -4.0 ELECTRICAL SEE PEN D01. GROUNDED IN THE INVERTER. SYSTEM COMPLIES WITH 690.35. f ' PV -5.0 SIGNAGE ' - : • MODULES CONFORM TO AND ARE LISTED UNDER UL 1703. SP SUB -PANEL ' ' '; y STANDOFFS & ' • INVERTER CONFORMS TO AND IS LISTED UNDER UL 1741. ' : , FOOTINGS ' • (1) GINLONG SOLIS RSI -1G 2:2 RAPID SHUTDOWN '` •." • RACKING CONFORMS TO AND IS LISTED UNDER UL 2703;. ' • t• ., ' ' • CONSTRUCTION FOREMAN TO PLACE CONDUIT RUN PER 690.31(G). • CHIMNEY LC PV LOAD CENTER . _ • • ARRAY DC CONDUCTORS ARE SIZED FOR DERATED CURRENT..*, • 10.45 AMPS MODULE SHORT CIRCUIT CURRENT.Q ATTIC VENT ` ,.' • 16.32 AMPS DERATED SHORT CIRCUIT CURRENT [690.8 (?) & 690.8 (b)]. SUNRUN METER;+, ` IS] 1 ' 0 -FLUSH ATTIC VENT F PM DEDICATED PV METER y ` o -rPVC'PIPEVENT INVERTER(S) WITH ® METAL PIPE VENT . INTEGRATED DC DISCONNECT AND AFCI ® T -VENT AC AC DISCONNECT(S) SATELLITE DISHDC , T _ DC DISCONNECT(S) FIRE SETBACKS _ ` .. O COMBINER BOX 'HARDSCAPE f ` --� — PL— PROPERTY LINE INTERIOR EQUIPMENT • ( x _��. SHOWN AS DASHED .- SCALE: NTS sunrun �1 A AMPERE - AC ALTERNATING CURRENT - " AFCI ARC FAULT CIRCUIT INTERRUPTER AZIM AZIMUTH CA CL #75018.4 VICINITYMAP.; ' COMP COMPOSITION 1227 STRIKER AVENUE. SUITE 260, SACRAMENTO. CA DC t DIRECT CURRENT ( ) . > E EXISTING 95634 PHONE 916.949.7885 FAX 916.285.9154 r� •' _ L ._,1 L`� _ EXT EXTERIOR CUSTOMER RESIDENCE:. ' '•�. FRM: FRAMING . INT INTERIOR - SUNDARA COOK 7 F' i A LBW t BEARING 437 JUSTESON AVENUE, {} r„ • ice` LOAD WALL GRIDLEY, CA, 95948 ` -' MAG MAGNETIC - �' t - e r . .MSPS- ' •%.MAIN SERVICE PANEL' r �' TEL. (541) 52x3125 APN #: — r a ' _ ► r c.(N) NEW - NTS NOT TO SCALE • • , PROJECT NUMBER: ~ OC ON CENTER 105R-437COOK ' - . `.�- f A�P.,�PPp.e.—.:.,,Q,@'4wµ,ss�,a,.o:m PRE -FAB ,.PRE -FABRICATED , �- r r, PSF ' POUNDS PER SQUARE FOOT • ` t DESIGNER: "* 805.547.2619 e r r. • PV PHOTOVOLTAIC NICHOLAS LIVELY, f , _i y, { * • _ - - ' -4 '” '• _� TL TRANSFORMERLESS ' DRAFTER: • ' ' ' aomenw@„FP�.p I ., - .a •� TYP TYPICAL' - j' ,'- * _ ,t: .... .. .. • Y NICHOLAS LIVELY Bjggawma6Pny y VOLTS t- • ' SHEET �� E• W WATTS • '' ' REV ;:NAME;. _ DATES COMMENTS •r . COVER SHEET - `."Bmnr,C" �} :•ir � 'E( ., jl _ u1 I'�. Y1 ' 9-06s, 1:....-.�-..f LO.fic ._r11. ' � _ .. _ r r� , + A- REV: A 10/25/2017 PAGE PV -1 .O 3 - - . •`w•-�..p NiGB $I�y.SUCl.3t—..`_�SPNCQSt^c$DtllC@Sl„'Y�..yn:0$C,u[o 51',3(iM1,t@SI73� ' •� L t1 �7 f F.• r - `_ F qtr. ' r 'r. • • + r ' + ... f_ ` ' a. ♦ • �� ' , , ' • e . • - r • .. ` ' `i. r "S ,+� 'S ?a.• '}. - iY: i ; t ... SITE PlLkN - SCALE _-3/3T _ ° u d • JUSTESON AVE- • ®A d e v 4 v' v' e ° 4 d a a° d c ° a 'e d p d 4' v p 4 v. ° ''d• d i d Q p a ° ° d c • v d ° 4 • p d e A ' 44 d 0 00 0 O 0 �i MP AC (N) (1) GINLONG 2:2 RAPID (N) ARRAY AR -01 SE O SM INV SHUTDOWN DISCONNECT SITE P&ETAIL - SCALE = 3/128" = 1'0" PITCH TRUE MAG PV AREA AZIM AZIM (SQFT) 0.. 0. 0. AR -01 220 18 1660 368.8 � F e -- — F K F � F d F L FIRE SETBACKS (3' TYP) sunrun CA CL #750184 1227 STRIKER AVENUE. SUITE 260, SACRAMENTO. CA 95834 PHONE 916.949.7885 FAX 916.285.9154 CUSTOMER RESIDENCE: SUNDARA COOK 437 JUSTESON AVENUE, GRIDLEY, CA, 95948 TEL. (541) 520-3125 APN #: = PROJECT NUMBER: 105R-437COOK DESIGNER: 805.541.281.9, NICHOLAS LIVELY DRAFTER: NICHOLAS LIVELY SHEET SITE PLAN REV: A 10/25/2017 PAGE PV -2.0 - ROOF FRAME FRAME MAX FRAME ROOF EDGE MAX RAIL MAX RA DESIGN CRITERIA ROOF TYPE ATTACHMENT OF HEIGHT EXPOSURE MATERIAL FRAME TYPE SIZE SPAN :DING ZONE SPAN OVERHAI� MODULES: AR -01 COMP SHINGLE FLASHED L FOOT. SEE PEN D01. SINGLE STORY ATTIC WOOD RAFTER 2 X 6 14'-0" 24" T-0" 4' - 0" l'- 4" LG ELECTRONICS: LG330NlC-A5 MODULE DIMS: D1 - AR -01 - SCALE: _1/8" = 1'-0" 66.38" x 40" x 1.57" (40mm) PITCH: 22° • ' MODULE CLAMPS: AZIM: 180° Portrait: 5.9" - 15.7" Landscape: 0" - 4.7" ® MAX DISTRIBUTED LOAD: 3 PSF - SNOW LOAD: 0 PSF WIND SPEED: 110 MPH 3 -SEC GUST. - LAG SCREWS: 5/16"x3.5": 2.5" MIN EMBEDMENT NOTE: —4'-5"— 12'-8" 27'-9" 26-9" INSTALLERS TO VERIFY RAFTER SIZE, SPACING AND SLOPED SPANS, AND NOTIFY E.O.R. OF ANY DISCREPANCIES BEFORE ' -3'-9"- PROCEEDING. T-1 I V-10" — — — --e-- --o---- --- --- -- -e — --- — — — O 00 o 5'-6" 4'-2" O I , O sunrun CA CL #750184 1227 STRIKER AVENUE. SUITE 260, SACRAMENTO. CA 95834 PHONE 916.949.7885 . FAX 916.285.9154 CUSTOMER RESIDENCE: SUNDARA COOK +, L . 437 JUSTESON AVENUE, GRIDLEY, CA, 95948 TEL. (541) 520-3125 APN #: - PROJECT NUMBER: • 105R-437COOK • DESIGNER: 805.547.2619 NICHOLAS LIVELY DRAFTER: t NICHOLAS LIVELY SHEET LAYOUT REV: A 10/25/2017 PAGE PV -3.0 120/240 VAC . SINGLE PHASE SERVICE METER #: O PG&E 1009743662 UTILITY GRID EXISTING 200A MAIN BREAKER (CENTER FED) NINGBO GINLONG TECHNOLOGIES: JUNCTION BOX EXISTING (N) LOCKABLE (N) SUN RUN SOLIS-1 P6K-4G-US OR EQUIVALENT (1) RSD 2:2 RAPID 200A BLADE TYPE CENTRON 4G 6000 WATT INVERTER 3 2 SHUT DOWN DEVICE, 1 MAIN 4 AC DISCONNECT 4 METER 4 NEMA4X 600V PV MODULES FACILITY # CONDUIT PANE NEUTRAL GROUND J` NONE (4) 10 AWG PV WIRE NONE (1) 8 AWG BARE COPPER LG ELECTRONICS: LG330NlC-A5 LOADS (4) 10 AWG PV WIRE ^ (1) 8 AWG BARE COPPER (2) 18 AWG SIGNAL CIRCUIT WITHIN TC -ER 3 L Ac _ �. NONE (1) 8 AWG THHN/THWN-2 (2) 14 AWG THHN/THWN-2 SIGNAL CIRCUIT (20) MODULES 3/4" EMT OR.EQUIV. (2) 8 AWG THHN/THWN-2 . NONE (1) 8 AWG THHN/THWN-2 L Dc +r/ (1) STRING OF (8)ODULES NEUTRAL BUSS N + STRING OF 82MMODULES ( ) ( ) GRSSND G GFPD G D 35A PV GROUND SQUARED 240V METER SOCKET E LOAD RATED DT BREAKER AS DU222RB 125A CONTINUOUS & HUTDOWN WITH AFCI, RAPID SHUTDOWN FAR AWAY 3R, 60A,2P 240V METER COMPLIANT FROM MAIN AS 120/240VAC 200A, FORM 2S POSSIBLE CONDUIT SCHEDULE # CONDUIT CONDUCTOR NEUTRAL GROUND 1 NONE (4) 10 AWG PV WIRE NONE (1) 8 AWG BARE COPPER 2 NONE (4) 10 AWG PV WIRE NONE (1) 8 AWG BARE COPPER (2) 18 AWG SIGNAL CIRCUIT WITHIN TC -ER 3 .3/4" EMT OR EQUIV. (4) 10 AWG THHN/THWN-2 NONE (1) 8 AWG THHN/THWN-2 (2) 14 AWG THHN/THWN-2 SIGNAL CIRCUIT 4 3/4" EMT OR.EQUIV. (2) 8 AWG THHN/THWN-2 . NONE (1) 8 AWG THHN/THWN-2 MODULE CHARACTERISTICS LG ELECTRONICS LG330NIC-A5: 330 W OPEN CIRCUIT VOLTAGE: 40.9 V MAX POWER VOLTAGE: 33.7 V SHORT CIRCUIT CURRENT: 10.45 A SYSTEM CHARACTERISTICS - INVERTER 1 SYSTEM SIZE: 6600 W SYSTEM OPEN CIRCUIT VOLTAGE: 528 V SYSTEM OPERATING VOLTAGE: 404 V MAX ALLOWABLE DC VOLTAGE: 600 V SYSTEM OPERATING CURRENT: 19.6 A SYSTEM SHORT CIRCUIT CURRENT: 26.13 A NOTES TO INSTALLER: 1. 491 VDC EXPECTED OPEN CIRCUIT STRING VOLTAGE. 2. ADD 35 AMP PV BREAKER TO MAIN PANEL. 3. CONNECT THE RAPID SHUTDOWN SIGNAL CIRCUIT CONNECTORS PER MANUFACTURER SPECIFICATION. 4. SPLICE THE 14 AWG THHN/THWN-2 CONDUCTORS FOR RAPID SHUTDOWN SIGNAL CIRCUITS INTO 18 AWG CONDUCTORS WITHIN TC -ER CABLE AT THE JUNCTION BOX. ENERGIZING LIFE TOGETHER Ox RCC.. IINPEAK 2 T I E S Al. -.UM SOLAR S i� ,.�' e ++,� . • ,! SSP .j PANELSPeak 2 Series sohr panels feature �__ rt �;�;•• `-> is �:.,. ��'� ! �_ ! !' q. _" WPERIOR PERFORMANCE an w design • panel• -put, enabling customers• •most spacee• •installation.i with w `� mad __ '`•^ a~a ` ` e � F". - industry-leading • •• quality iential and ccmmercial rooftops V ar f • ~' r R it brand, REC TwinP?ak 2 panels are ideal T 01 ~{ Is13 r 1 • �- 5 r f.-r~T' •� —Ati Y F` •Y i to • � r, r• . ' � •�.� _ ��. .a`. -. ... G '�i.a .- �., '(.-t• 1 .:y •� 1 i ���� `1,. .� -:� � •�I � il�'�'ii p�i,l � I 'I'i Vii'` .u�; .1 0 0 % 0 1 /i 'r 1 'RE POWER wERFORMANCE 100%-- 'PUT PER Mx IN SHADED CONDITIONS ♦� r � Z r- _ r� ,, � 1�• 1 �� c � r�. 1� 1675LL516596±0.11 • 2611.11- 910 [3581 38M [5.051 1 ' EFFICIENCY iQ as n sl 6519 s« 01. a Measuenamsnmm(hJ ___{3ensi . tt Back sheet: 1,x.2 Product Code*: RECxxxTP2 280 285 290 toa3 xasl + .. , A. Watt Class Sorting -(W) 0/+5 1 0/+5 - � 32.3 s' - �. EFFICIENCY iQ as n sl 6519 YEAR LINEAR POWER OUTPUT a Measuenamsnmm(hJ ___{3ensi . tt Back sheet: ELECTRICAL DATA @ STC* Nominal Power 275 Product Code*: RECxxxTP2 280 285 290 295 .. , A. Watt Class Sorting -(W) 0/+5 0/+5 �0/+5 0/+5 0/+5 Nominal Powe rVoltage.-VMpp(V) •31.5 31.7• 31.9 32.1 1 32.3 Nominal Power Current IMpp(A) 8.74 8.84 8.95 9.05 9.14 OpenCircuitVoltaga Voc(V) 38.2 38.4 38.6 38.8 39.0 Short Circuit Current-15C(A) 9.30 9.39 9.49 9.58 9.65 Panel Efficiency(%) `16.5 16.8 17.1 17.4 17,7 Values at standard test conditions STC (alrmass AM 15, irradiance 1000 W/m', cel( temperature 25°C). At low irradiance of 200'N/m2 (AM 15 and cell temperature 25`C) at least 94% of the STC module efficiency will be achieved. 'Where xxx indicates the nominal power class (P,,, p) at STC Indicated above, and can be followed by the suffix BLK for black framed modules. ELECTRICAL DATA , NominalPower-P,„p(Wp) 206 210 " 214 218 223 Nominal Power Vokage-VMPp(V) J 29.2' 29.4 29.6 29.8 30.0 Nominal Power Current- IMpp(A) 7.07 '' 7.15 7.24 7.32 7.43 Open Circuit Voltage -Voc (V) 35.4 35.6 35.8 .36.0 36.2 Short Circuit Current- Isc(A) 7.52a 7.59` A 7.68 7.75 7.85 - Nominal operating cell temperature NOCT(800W/m',AMI.5,windspeedIm/s,ambient temperature 20`C). t 'Where mix indicates the nominal powerclass (P,,,v) at STC indicated above, and wnbe followed by the suffix BLK for black framed modules. CERTIFICATIONS b 10 year warranty 25 linear power output warrantyaD c us liar de�A (ma gression In performance of O.7%p.a.from 97% UL1703, Fire classificatonType ZIEC 61215,IEC 6173Q after the first year) IEC 61701(SaltMM-severity level 6). IEC 62804 (PID Fred IEC 62716 (Ammonia Resistance), 150 T1925-2 (Ignitability Class l), See warranty conditions for further details. 1 UNI 8457/9174(Class A), ISO 90013015,15014001,OHSAS18001. ' �. EFFICIENCY iQ YEAR,PR000CT WARRANTY 6519 YEAR LINEAR POWER OUTPUT Temperature coefficient of 1, WARRANTY Back sheet: Highly resistant polyester Max reverse current: MECHANICALDATAo US IMPORT OUTY FREE Nominal operating cell temperature(NOCT) 44.6"C(t2"C) Temperature coefficient of P,,, -0.39%/'C Temperature coefficient ofVoc -0.31%/'C Temperature coefficient of 1, 0.045 %/'C Celltype: 120 REC HC multicrysta[line Design Loads: 6 strings of 20 cells Glass: 0.13"(3.2 mm) solar glass with anti -reflective surface treatment Back sheet: Highly resistant polyester Max reverse current: MECHANICALDATAo polyolefin construction Frame: Anodized aluminum 17.98 ft2 (1.67 m2) o (Available In silver or black) Junction box: IP67 rated, 3-partwith 3 bypass diodes 12AWG (4rrm2) PVwire, 35"+47" (0.9 m+1.2m) Connectors: StaubliMC4PV-KBT4/PV-KST4 12AWG (4 mm2) Operational temperature: -40...+185"F(-40...+85"C) Maximum system voltage: 1000V Design Loads: (+) 75.21bs/ft2 (3600 Pa) (-) 33.4lbs/ft2 (1600 Pa) Refer to Installation manual Max series fuse rating: 20A Max reverse current: MECHANICALDATAo 20A 0 Dimensions: 65.9 x 39.25 x 1.5 (1675 x 997 x 38 mm) Area: 17.98 ft2 (1.67 m2) o Weight: 40.81bs (18.5 kg) o Notel Specifications subject to change without notice. Founded in Norway in 1996, REC is a leading vertically integrated solar energy company. Through integrated manufacturing from - silicon to wafers, cells; high-quality parreLsra@d•extending to solar solutions, REC provides the world with a reliable source of clean QtREC energy., REC's renowned product quality is supported by the lowest warranty claims rate in the industry. REC is a Bluestar Elkem compaiiywith headquarters in Norwayand operational headquarters in Singapore. REC employs more than 2,000 people worldwide, producingl.4 GW of solar panels annually. - www.recgroup.com . t Life's Good t,,•', k. ,• r /', '•} ^sem ,y ' [T � „ eO Nl�"' 11/ 11 +,3b • . .. �....�. :_ ,_._ . law.♦ � N�nti 4• • , . � n- �. '3 . • .. , y' 1 �'•r45. 1 � �� F '• r •+>! � !• • - •� r .fit, , • ♦, a • LG's new module, LG NeONTm 2, adopts Cello technology. Cello technology replaces 3 busbars with 12 thin wires ^^PQM_ + to enhance power output and reliability. LG NeCINT"' 2 60 cell demonstrates LG's efforts to increase customers values e beyond efficiency. It features enhanced warranty, durability, Intrtek . ` performance under real environment, and aesthetic design suitable for roofs. ' • v -� + r r -- • -- Enhanced Performance Warranty: O®w High Power Output LG NeONTm 2 has an enhanced performance warranty. Compared with previous models, the LG Ne0h," 2 The annual degradation has fallen from-0.6%/yr to' has been designed to significantly enhance its output -0.55%/yr. Even after 25 years, the cell guarantees 1.2%p . efficiency, thereby making it efficient even in limited space. ,. more output than the previous LG NeONI 2 modules. Aesthetic Roof ' ' Outstanding Durability LG NeONT"' 2 ha been designed with aesthetics in mind; With its newly reinforced frame design, LG has extended thinner wires that appear all black at a distance. the warranty of the LG NeONTM 2 for an additional a f' The product mayihelp increase the value of 2 years. Additionally, LG NeON'"r 2 can endure a front a property with Ns modern design. ' load up to 6000 Pa, and a rear load up to 5400 Pa. ?•. - ' Better Performance on a SunnyDa Double -Sided Cell Structure . • ' �O� • LG NeONI 2 now performs better on sunny days thanks The rear of the cell used in LG NeONTM 2 will contribute to to its improved temperature coefficiency , generation; just like rhe front; the light beam reflected from the rear of the module is reabsorbed to generate a great x ; } t amount of additional power. r `. •About LG Electronics Y - ^ l • . �",• • . „� - , r � - v� � r . LG Electronics is a global player who has been ommitted to expanding its capacity, based on solar energy business as its future growth engine. We embarkedana solar energy source research program in 1985, supported by LG Group's rich experience in semi -conductor, LCD, chemistry, and materials industry. We successfully released the first Mono X® series to the market in 2010, which were exported to 32 countries in the following 2 years, thereafter. In 3013, LG NeON- (previously known as Mono X® NeON) won "Intersolar Award" which•proved LG is the leader of innovation in the industry. , 63 a LG330N1C-AS Mechanical Properties Celts 6 x 10 Cell Vendor LG Cell Type Monocrystalline / N -type Cell Dimensions 161.7 x 161.7 mm / 6 inches o,of Busbar 12 (Multi Wire Busbar) Dimensions (L x W x H) Front Load 1686 x 1016 x 40 mm 66.38 x 40 x 1.57 inch 6000Pa Rear Load 5400Pa Electrical Properties (STC * Module LG330N1 C -A5 Maximum Power (Pmax) 330 MPP Voltage (Vmpp) 33.7 MPP Current (Impp) 9.8 Open, Circuit Voltage (Voc) 40.9 Short Circuit Current (Isc) 10.45 Module Efficiency 19.3 Operating Temperature -40-+90 Maximum System Voltage 1,000 Weight 18 kg Maximum Series Fuse Rating 20 Connector Type MC4 Power Tolerance (%) 0-+3 Junction Box IP68 with 3 Bypass Diodes * STC (Standard Test Condition): Irracliance 1,000 W/mt, Ambient Temperature 25'C, AM 1.5 Cables 1000 mm x 2 ea *The nameplate power output is measured and determined by LG Electronics at its sole and absolute discretion *.The Typical change in module efficiency at 20OW/ml in relation to t 000W/m2 is -20%. Glass High Transmission Tempered Glass Frame Anodized Aluminium Certifications and Warranty LG330N1 C -AS Certifications IEC 61215, IEC 61730-1/-2 UL 1703 IEC 61701 (Salt mist corrosion test) IEC 62716 (Ammonia corrosion test) ISO 9001 Module Fire Performance (USA) Type 1 Fire Rating (CANADA) Class C (ULC / ORD C1703) Product Warranty 12 years Output Warranty of Pmax Linear warranty - arranty- 1) In year: 98%, 2) After 1)Inyear:98%,2)After 2nd year:0.55%annualdegradatioR 3)25 years: 84.8% Temperature Characteristics NOCT 45 * 3T Pmpp -0.37%rC Voc -0.27%rC Isc 0.03 %/eC Characteristic. Curves Q 10 a t, 6 4 2 0 5 10 1s 20 25 30 35 40 �I.... _.............................................................................................. 120 _ 100 - -- = 6o • -- 60 ---- 40 --•- 20 -40 ® LG Life's Good 25 North America Solar Business Team LG Electronics USA. Inc 1000 Sylvan Ave, Englewood Cliffs, N107632 Contact: lgsolar@lge.com www.lgsolarusa am Vouaga(V) Electrical Properties (NOR*) Module LG330N1 C -AS Maximum Power (Pmax) 243 MPP Voltage (Vmpp) 31.2 MPP Current (Impp) 7.81 Open Circuit Voltage (Voc) 38.1 Short Circuit Current fisc) 8.41 * NOCT (Nominal Operating Cell Temperature): Irradiance 80OW/mr, ambient temperature 20'C, wind speed 1 m/s Dimensions (mm/in) V —Temperature CC) 90 Product specifications are subject to change without notice. Copyright 0 2017 LG Electronics. All rights reserved. 01/01/2017 . bmovatlon for a Better Ufe I Z t 0"'LG Chem. RESUIOH Product Specification (1/2) Solaredge compatible Electrical Characteristics Total Energy 9.8 kWh @25°C (77°F) Usable Energy's 9.3 kWh @25°C (77°F) . � Volta 'e Range �. _ Charge 400 - 450 VDC Discharge 350 - 430 VDC ;Absolute Max. Voltage 520VDC Max. Charge/Discharge Current -„ - 11.9A@420V / 14.3A@350V Max. Charge/Discharge Power 2) . 5kW j Peak Power (only discharging)3) AW for 10 sec. , { Peak Current (only discharging) ., 18.9A@370V for 10 sec. Communication Interface RS485 DC Disconnect Circuit Breaker, 25A, 600V rating Connection Method Spring Type Connector User interface LEDs for Normal and Fault operation Protection Features Over Voltage / Over Current / short circuit / Reverse Polarity Scalability (Total Energy, Max. Charge/Discharge Power, Peak Power (only discharging)) Max. 2 in parallel (19.6 kWh @25°C (77°F), 6.6KW, 7kW for 10 sec.) Operating Conditions--- - -------- Installation Location. Indoor(Wall-Mounted) / Outdoor Operating Temperature 14 - 113°F (-10 - 45°C) Operating Temperature (Recommended) 59 - 86°F (15 - 30°C) I Storage Temperature -22 - 131 °F 00 - 55°C) ( Humidity 5%^•95% Altitude Max. 6,562ft (2,000m) Cooling Strategy Natural Convection --------------------------- Certification - ' Safety _ - - Cell UL1642 Battery Pack UL1973 / CE / RCM / TUV (IEC 62619) { Emissions .,.t,_ FCC E Hazardous Materials Classification Class 9 Transportation UN38.3 (UNDOT) Ingress Rating IP55 X Test Conditions - Temperature 25°C, at the beginning of life X Total Energy is measured under specific condition from LGC(0.3000V/0.3CC) X DC/DC Discharge Efficiency 94.5% 1) Value for Battery Cell Only (Depth of Discharge 95%), 2kW charge/discharge power. 2) LG Chem recommends 3.3kW for maximum battery lifetime 3) Peak Current excludes repeated short duration (less than 10 sec. of current pattern). G-Chon ,Product Specification (2/2)r r RESU10H Solaredge compatible - _ z Mechanical Characteristics s ' _ s y Width 744 mm (29.3") ' Dimensions . Height 907 mm (35.7") r _ Depth . 206 mm (8.1 ") , Weight 97 kg (214lbs)' 53 ` it � I � • - ..� � , f,' ,�' . r lir � {� '�� t '� 1 arl�� ( ��.. F j `. � ' •� .r. .t r _ , r � ,1 { �iFIRI`� 1'ij�IN� I �k� .. •pr ^:. _ _ - . . r• , {��. 1,r 111 t I 1 � r � �r� r 11 907 569 sso 206 ;. r 1 r r ' e } ,H4 ... .r ! _ y � r V - c . ;S l `•'h, i '* r • ' . ♦ * .' � r - { .. a • ,fir' ' Solar =@@ SolarEdge,Single Phase Inverters For North America.* SE3OOOA-US / SE38OOA-US / SE5OOOA-US / SE60OOA-US / SE76OOA-US / SE1OOOOA-US / SE114OOA-US The best choice for SolarEdge enabled systems jr Integrated arc fault protection (Type 1) for NEC 2011690.11 compliance — 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 - THE NETHERLANDS-ISR_AEL. :WWW,SOIaredge.Us ' Single Phase Inveitersfor North America sola'O =se z SE3000A-US / SE380OA-US / SE500OA-US / SE600OA-US F SE7600A-US/SE10000A-US/SE11400A-US JSE7600A-U5 I S I OUTPUT Nominal AC Power Output 3000 3800 5000 6000 7600 9980 @ 208V 11�100 VA .............................. ........ . ................ ...... ......... ................. ................ ................. .10000 240V, .................. ........... 5400 @ 208V 10800 @ 208V Max. AC Power Output -3300 4150 6000 8350 12000 VA ............................................ . .............. .............. . . ....... ... ........ ....... . . ................... ........... AC Output Voltage Min. -Nom. -Max.(') ..183.-.20.8.-.2.29.Vac ............... : ...... ................. ............ ........... AC Output Voltage Min: Nom: Max.(1) ?� 4 Vac -1 d .. ........................... ......... : ...... ................. ...... ..AC Frequency Min.-Nom.-Max.10 - 59. 60 - 60.5 (with HI countr ......... .............. .......... . . - - *i�14*i6i� * * I * .... : ........ y.setting 57 - 60 - 60.5) .............. .... H - z ..... ....... I 48 @ 208V Max. Continuous Output Current 12.!:- 16 •25 32 47 S A 4 .4 . ...................................... .......... ............ .. ..... .... ........ . . .......... .... ........................... DI ... ............................... : ...... ................................................................................................ ..................... .... Utility Monitoring, Islanding Protection, Country Configurable Thresholds Yes Yes_ INPUT Recommended Max. DC Powerl') 37504750 6250 7500 9500 12400 250 W mJ�............................. ....... ................ .............. I .................. I ..... ...... I .......... .................. 14.......... ........... Tra ............. ....................................... Ye� ............ ............... ...... .................. : . ........... ... .... . ... ...... 500 Vdc ......................... : .......... ......... ........... Nom: DC Input Voltage 325 @ 208V / 350 @ 240V Vdc .... .......... • 195 16.5 6 268v 18 2333 @ 208V 34 .5 Adc Max. Input Currenf3) ..... ...................................... ................ .. ................ I ................ .. .. ....... ......... : . ........... ..Mq�..Input Short Circuit Current ........................ ��.: ...... .............................................. ... ..................................... ................................ : ... ��qtec.tion .......... ............. I ................. ........ ...... Yes ............. I ............................................... ............ ... .. .. ... Ground -Fault Isolation Detection 6OOkQ Sensitivq . ..................... * .... ... ..... .. .. .......... ..Maximum Inverter Efficiency .... : ...... .. 98 98 ............. .... ..... .. 6.. .... ... �iWib� .... .................. .......... 1 5 98 7.1 @ 208V V CEC Weighted Efficiency 97. 9 97.5 97.5.(�@ 97.5 % . ............................................. ........... . ............... .... ........... ........... . ..... Nighttime Power Consumption < 2.5 <4 W ADDITIONAL FEATURES Supported Communication Interfaces RS485 RS232 Ethernet ZipBee (optional) ........................... I .............. Revenue Grade Data, ANSI C12.1 .. .. ... .. . . ... . . ... .. ....... ............... : .............I .......I ..........I ........... : ............................................... Optional .......... Rapid Shutdown NEC i�i4 69 0. 12 Functionality enabled when S ol arEd je rapid shutdown kit is installed STANDARD COMPLIANCE - Safety ....... ............. : ........... ..... UL1741, UL1699B, UL1998, CSA 22.2 ............................... .... .......... ... ................................................. ... ....... Grid Connection Standards' ..... .................................... ............ I ....................................... liiiE1547 : :..: Emissions iE�. class B INSTALLATION SPECIFICATIONS ..ACoutput conduit .size ./. AWG .range .., ............ 3/4.". mini mu.m.0676. AWq . ... .......... .. . 3./.4".minimum DC input conduit size /#,of strings/ .... ................... 3/4" minimum 1-2 strings / 16-6 AWG ............. ./.8-.3AWG ............. 3/4" minimum/ 1-2 strings/ 14-6 AWG .......... AWG ran e r ................................................. ........... Dimensions with Saii�� i;��iic*h �'Xi i� X- i.' in/ jl�IxW D) .......... 775 x 315 x 172 - x 315 x 191 ....... * 30.5 x 12.5 x 10.5 / 775 x 315 x 260 mm ..Weight with Safety Switch ...................... ................ ........................ 51.2/23.2 54.7 ........... ...................... ..................... 88.4/40.1 ............. ....................... E�0�1 ....... n& .................................. ........ ; Natural Convection ........ .................................. Fan (user replaceable) .................. .................................. .... ...... Noise :. <25 <50 dBA .................................. Min. -Max. Operating Temperature ...... ............................................... -13 to +140 / -25 to +60 (-40 to +60 version available(0) ... -F /'C ................................... ..... : ................................................. ; .................................................................. ........... Protection Rating .................... A ...... ............................................................. M For other regional settings please contactSolarEdge support. M Limited to 125%for locations where the yearly average high temperature is above 77*F/2S*Cand to 135%for locations where it is below 77*F/25'C. Fordetailedinfbmation,mfertohttg),/IwwwsQlaredge.us/files/gdh/inverter dc mte r`izinp Ruide,ndf 131 A higher current source maybe used; the inverter will limit its input current to the values stated -. . 1 (4) Revenue grade inverter P/N: SE=wA-US000NNR2 L Isl Rapid shutdown kit P/N: SE1000-110-SI Lsl -40 version P/N: SE*uxA-US000NNU4 e• � � SVea� . PV power optimization at the module -level' Up to 25% more energy' - Superior efficiency (99.5%) ' Mitigatesall types of module mismatch losses, from manufacturing tolerance to partial shading <; Flexible system design for maximum space utilization Fast installation with a single bolt ' Next generation maintenance with module -level monitoring r Module -level voltage shutdown for installer and firefighter safety °- USA -CANADA -GERMANY -ITALY' FRANCE -JAPAN -CHINA -AUSTRALIA -THE-NETHERLANDS- UK -ISRAEL. TURKEY'; SOUTH AFRICA -BULGARIA -INDIA www.solaredgeius �,�'• r ' solar • • • SolarEdge Power Optimizer Module Add -On for -North America P300 / P320 / P370 / P400 / P405 IINPUT I; P300 0320 ' P370 . P400 P405 i • (for 60tmod- (for high-power (for higher-powerell (for 72 & 96 -cell (far thin film Maximum ShortCircuit Current (Isc) ...0 10 ... .... 11 10.1 ................................................................. ules) 60 -cell modules) 60 and 72 -cell modules) modules) 99.5 % .............. . . _ Weighted Efficiency ..................................................... • 98.8 ........................................................................................ modules) Overvoltage Category II _ IINPUT I; DC.Powertil. 300320 370 400 405 W ..Ra.ted...Input.... .......................................................... Absolute Maximum Input Voltage . ....................... ..................... ...................... ...................... 48 60 80 125 .............. Vdc (Voc at lowest temperature) .............. . MPPT Operating Ranke 8: 48 8 - 60 8 - 8 12.5 -105 Vdc Maximum ShortCircuit Current (Isc) ...0 10 ... .... 11 10.1 ................................................................. Adc ........... Maximum DC Input Current ............................................................... 12 5 :. 13:75 : 12.63 Adc Maximum Efficien ................................................................................................................................................................. 99.5 % .............. . . _ Weighted Efficiency ..................................................... • 98.8 ........................................................................................ % ......... Overvoltage Category II _ f OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING SOLAREDGE INVERTER) Maximum Output Current ........................................................................................................................................... 15 ..................... Adc ............ ' Maximum Output Voltage 60 I 85 Vdc ' N OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLAREDGE INVERTER OR SOLAREDGE INVERTER OFF) Safety Output Voltage per Power • . ' 11 - Vdc Optimizer STANDARD COMPLIANCE ) ' EMC FCC P irt15 Class B, IEC61000-6-2, IEC61000-6-3 ........................................................................ .............. Safety IEC62109-1(class II safety), UL1741 ........................................................................................................................ ....•......... RoHS Yes I INSTALLATION SPECIFICATIONS Maximum Allowed System Voltage .................................................................................................................................................................. 1000 Vdc .............. Compatible inverters ............................................. All SolarEdge Single Phase and Three Phase inverters ' ..... ...................... .............. Dimensions (W x L x H) 128x152x27.5/5x5.97x1.08 128x152x35/ • 128x152x50/ mm/in 5x5.97x1.37 5x5.97x1.96 Weight !Al cables) 630 / 1.4 - ............................................ ..................... 750 / 1.7 845 / 19 gr / Ib Input Connector --�— - ...................................:................. MC4 Compatible. MC4 / AmphenolAH4 MC4 Compatible — ....................T.. ...... - —.... .......... - -- --. ............................. Double Insulated; ' t Output Wire Type / Connector Double Insulated; MC4 Compatible MC4/ Double Insulated; MC4 Compatible .............A....................... Amphenol AH4 ............................................. .............. OutputWireLength •..••.•• .... /3.0 1.2/3.9 ................. m/ft ....... Operating Temperature Ran e.•.....•.-40.-+85/:40-+185 I..•.'C•/.'F Protection Rat ngIP6.. ........................... .................................................................................................................................................................. NEMA6P .............. Relative Humidity0 ................................................ -100 ........................................................................................... %•' .............. I........ M Rated STC power cf the module. Module of up to +5% powertolerence allowed. _ .............. PV SYSTEM DESIGN USING A SOLAREDGE INVERTERWI'I 'PHASE 1 I SINGLE PHASE THREE PHASE 208V THREE ASE 480V HO -WAVE PHSINGLE Minimum String Length 8 10 18 Power O timizers Maximum String Length 25 25 50 Power 0 timizgrs Maximum Power per String5700 (6000 with 5250 6000 12750 W SE7600H.U5) .............. Parallel Strings of Different Lengths Yes or Orientations .................................................................................................................................................................. .............. (')For detailed string sizing information rerer to: http://www.solamdge.mm/sites/default/files/string_sWng_na.pdE . •aCi"' lnl It is not allowed to mix P40S with P3D0/P370/P400/P600/P700 in one string.lKd+rrP,f. Sol is 3 inverters t 6kW- to I'OkW Ginlong Solis US Version Single Phase Inverters, ;+ , Leading Features ' k • Industry Leading'High Frequency Switching`' Technology • Compact and lightweight design inside a Aamori@5 & Monitoring, corrosion-resistant NEMA 4X enclosure • Easy to install and visually pleasing for indoor or outdoor-instaltations Single phase 240Vac output ' . n • 97.8% efficient with an ultra-low start up voltage Industry-leading 3 and 4 MPPT designs with fast (<5 sec.) MPPT response times Web Box • Industry leading (100-500) Operating MPPTVottage Range • Integrated Arc Fault Circuit Interrupt (AFCI) option • RS485 Modbus communication protocol with Wi-Fi Rapid m �1 interface (optional GPRS) , Shutdown • Web based data monitoring with downloadable Device •� 4 Solis Web App. • 10 Year Standard Warranty with extension options Contact us today. Manufacturer: -US Headquarters:. 1 f t: 866.438.8408 Ginlong Technologies 565 Metro Place South V 15t ' e: sales@ginlong-usa.com Ltd., Ningbo, Zhejiang / Suite 3214, Dublin, OH V .� ❑� .. + • i w: ginlong-usa.com P.R. China 43017 USA o�NLONa t Technical Specifications Model Energy Source DC Values Max. power per MPPT(Watts) telex. voltage(Volts) Startup voltage[Volts) Full power MPPT voltage range(Volts) Operating MPPTVoltage Range ; Max. usable input current per MPPT(Amps) Max. short circuit input current(Amps) Number of MPPT Inputs per MPPT ; AC Values (240Vac and 208Vac) Nominal output power 240/208V grid (Watts) Max,continuous output Operating voltage range(Volts) Relative Humidity Range Max. continuous output current 240/208V (Amps) Max. overcurrent protection device 240/208V (Amps) Output Power Factor, Grid THD [current) a _Operating rrequency range (Hertz) Ambient operating temperature range Efficiency Peak efficiency ; CEC weighted efficiency MPPT efficiency Protection ` ^ Teinperature protection, DC reverse -polarity protection AC short circuit protection AC output overcurrent protection Output overvoltage protection-Varistor fi Ground fault monitoring Grid monitoring t Islanding protection , ,Integrated AFCI(DC are -fault circuit protection) Rapid shutdown General Data Dimensions(W*H*D) Weight Topology Internal consumption Enclosure type Noise emission(typical) Cooling concept Max.opera,ing altitude without derating Compliance Features t ` Connections Display Interface Warranty soLis I +Made by Ginlong Technologies inverters r Solis- l;' Solis- iI Solis= Solis-: il Solis- Solis - S" I1107K4"S 1;1P7AK46-US � 1P8K4X-US �Ij 1P9K-4G-US, 1P10K-4G-lJIS+ PV 4000 ; ... 600 120 200-500 ;1 233-500 Ih '253-500 q 200-500 225-500 t9, 250-500 100-500 10 ' 15.6 3 �_ t . 4 ; 1 6000/6000 7000/7000 7600/7600 8000/7600 1. 9000/8600 .10000/9500 6600 • 7700 8360 8800 9900 10000 .183-228 (for 208V 6ted)/211-264 (foe 240_V rated) 0-100% Condensing 25/28.5 29.2/33.7 31.7/36.5 33.3/36:6 � 37.5/41.3 ' 41.7/45.9 40/40 40/40 40/50 40/50 50/50 -50/60 . >0.99 F ^ ' THDi<3% 59.5-60.5 -25°C to 60'C/ -13'F to 140°F , - 97.8% - 97.5%' >99% - — Yes , - Yes Yes n. Yes Yes Yes .c ' f w- Yes,i' .. a ,1a . Yes Yes -. -Optional �. ' 13.1*25.8*9.£in * .' • 43.21b i 43.71b } - Transformerless c <1W (Night) NEMA 4X' r ; <30 dBA , Natural convection 13120ft (4000m) UL 1741, UL 1998, UL 16998, IEEE 1547, FCC Part 15 (Class A & B), CAN/CSA C22.2107.1-1' Plugged 1 1/4" ID on sides, Plugged 1 1/2" ID on bottom t { LCD, 2x20 Z. ' RS 485, WiFi/GPRS (optional) • ` 10 Years STD (Extendable to 20 Years) t: 866.438.84081 e: sales@ginlong-usa.com I w: www.gintong-usa.com • •-USA Solis Rapid Shutdown Device r �•. , 01 4. 7 s i. n ve, i t e r s Made by Ginlong Technologies r— c` Osolis 4 .'RL ,r i .. i ♦ � F' _ i . , •"�'~J'+•i�E�.�.�s���F.'.K+iY'w`j�� ,F.��il`IYY�.-�-- I .c .. • ` A � Outstanding , a. ► UL -Certified and compliant with 2014 NEC 090.12 Rapid Shutdown ► Available in either single channel output or dual channel output allowing for perfect alignment with, the number of MPPT channels in the inverter system ► No interference with AFCI functionality of Solis Inverters " » ► NEMA 4X Enclosure, conformal -coated Internal components and a wide operating temperature range ►.Familiar mounting plate for fast attachment and solid grounding to the support, rack T ► Low profile design allows for easy positioning junder the PV module : ► Pre -wired MC4 connectors for positive, watertight connections ► Engineered for the US Solis transformer -less Inverter line and compatible with any PV Module -string inverter combination where the maximum system operating voltage is 5550VDC. ' Manufacturer: Ginlong (Ningbo) Technologies Co:,Ltd., Ningb6, Zhejiang, P.R.China + - • �/ M Office: 565 Metro PI. S. Suite 3214, Dublin OH 43017, USA •� � � � - '- Toll-free: 866.438.8408 1 Email: sales@ginlong.com Is . ales@ginlong-'usa.com Web: www.ginlong.com _ GINLONG DG. So116-RSD-1G 1:1 Solls-RSD-1G Maximum Input and Output Voltage 60OVDC l DC Input Voltage Range. 30-60OVDC 30-60OVDC .Maxi 11 mum Number of PV Source Circuits 1 input/ 1 output 2 input/ 2 output Maximum Input/ Output Current 20A - 2 independent channels, 20A/1 OA Maximum Short Circuit Current . 131.2A' 31.2A DG. So116-RSD-1G 1:1 Solls-RSD-1G Maximum Input and Output Voltage 60OVDC 60OVDC DC Input Voltage Range. 30-60OVDC 30-60OVDC .Maxi 11 mum Number of PV Source Circuits 1 input/ 1 output 2 input/ 2 output Maximum Input/ Output Current 20A - 2 independent channels, 20A/1 OA Maximum Short Circuit Current . 131.2A' 31.2A DC Input / Output Cable Whips PV Wire with MC4 Locking Connectors PV Wire with MC4 Locking Connectors DC Input/ Output Wire Size AWG #12 to #6 f AWG #12 to #6 ' Ground Wire Size AWG #10 to #6 AWG #10 to #6 AG ' Rated AC Input Voltage 208/240VAC 208/240VAC Rated AC Input Current 0:1A 0.1A Rated Frequency 50/60Hz 50/80Hz AC Control Wire Size - AWG #18 to #14 • AWG #18 to #14 Maximum AC Fuse Rating 2A I 2A GENERAL Ambient Temperature Range -25 to+65`C (-13 to 158°F) -25 to'+85°C (-13 to 158°F) Enclosure Type NEMA4X NEMA4X Roof Mount Style Rail -mount plate (WEER Compatible) Rail -mount plate (WEEB Compatible) Status Indicator LED LED rC Efficiency >99.5% >99.5% Response Time <2 seconds <2 seconds Dimensions (W x H x D) 262 x 240 x 43 cm / 10.3 x 9.4 x 1.7 in. T262x240x43cm/10.3x9.4x1.7in. Weight .2.3 kg / 5.1 Ib 12.4 kg / 5.2 Ib Warranty 10 Year t 10 Year t 3 Certification & Safety Standard Compliance UL1741, FCC Part 15 Class B, NEC 690.12 UL1741, FCC Part 15 Class B, NEC 690.12 2:2 • t 1 Input -1 Output • r iDli$ TranSfOftnef•Ie55 ' - AC BuIkMed. 24DVAC 'StnnR In Veftef , • MCA DC cormctOn n oP0.0 t � COMKtOn' - 'SOES �............a N ......... .........:. Rapid Shutdom 't. Device (RSD) 1:1 'MCAs, e , Connectnq - . I i . $$D Input, � -ffiD Output 20A PV Source 20A PV Grcuit Input output Grcuit • Inverter (AC) --PV.Source Cicult one cuddulf Outputcircuit 2lnput-2 Output - t Solis Transfo r`rrier•less f 'MCA DC - AC WOW .2ADVAC Stflrlt lnyertef . Comefiors COMKtOr 'RSD Amver �� �► Solis .4............E 11114 .........: .............. Rapid Shutdtwrn - 'Device (RSD) ..2i2 .. MC4 11C, comKton ut ` • D ut• '�D OutoiAiOutoiAi 20d 10A 20A • 10A • Source Circuit lnOPts PVOutput Circuits - PvSoutcecirfuas ' One Conduit Imener(Aq ,Output circuit y { :.f .. ._ v,. `..M. • Solis -2G -US Single Phase Inverter _. ' - , - - 501$ c ; . `s �„ '�: .��` •.• ' 4icr IMP 'Soli mve r. tiers Leading Features ► Over 97.8% Max.efficiency ►' Industry widest input voltage range" ► Industry leading three and four MPPT design with precise MPPT algorithm ; ►. Integrated AFCI option y , ► Compact and light design for one-person easy installation y` m. NEMA 4X enclosure with anti -corrosion feature, visually pleasing for indoor , and out door installations - ► Rs485 Modbus communications, WiFi/GPRS(optional) interface Web -based data monitonring and 'SolisWeb' APP • r ►• 10 years standard warranty with Extension options , Manufacturer: Ginlong (Ningbo) Technologies Co., Ltd., Ningbo; Zhejiang; P.R.China i y'e US Office: 565 Metro PI. S. Suite 3214, Dublin OH 43017, USA ? :r • . ` ' ` K Toll-free: 866.438.84081 Email: sales@ginlong.com I sales@g nlong-usa.com •M1 } G I N L O N G Web: www.ginlong.com �' Datasheet Modal- "'�SoILs-1K,2G-USiSotls-1.5K,2G11S,So1Is-2K,2G17S�ts-2� 5K -2G- SSotla•3� 3E WAKBK-Y^G-USKSo0.s4��-2GUSSoIIad SolisSK-2C>-•US,I Energy source PV j DC Values Max power per MPPT (Watts) 1200 1800 2406 3000 3600 4300 4800 5500 6000 Max voltage (Volts) ' 500 600 t Startup voltage (Volts) 80 - 120 t ! Full power MPPT voltage range (Volts) 100400 150400 200-400 125500 750.500180500 145500 165-500 180500 Operating MPPT.votiage range (Volts) 70-400 100400 100500 Max usable Input current per MPPT (Amps) - 10 - 10+10 ' • 10+18 ) Max short circuit input current (Amps) 115.6 15.6+15.6 15.6+ 28.08 Number of MPPT 1 2 r Inputs per MPPT 1 2 j AC Vatues Nominal output power (Watt) 1000 1500 2000 2500 3000 3600 4000 4600 5000 Continuous output power (Watt) ! 1100' 1700 2200. '� 2800 3300 4000 4400 5000 l '5000 Nominal grld voltage (Volts), f 208/240 Max. continuous output current (Amps) 4.8/4.2 7.218.3 9,6/8,3 12/10.4 14.4/12.5 16/15 19.2/16.7 '22.1/192 24/20,8 L, Max overcurnenl protection device (Amps) 10 10 20 20 20 30 30 30 30 Operating voltage range (Volts) ` 183-228(for 208V ratedy211-264(for 240V rated) ' Operating phase Single i Output power factor , 6 >0.99 } Grid current THDTHD<3% " i . DC Injection current (mAmps) <20 j Nominal grid frequency (Hertz), 60 # ' Operating frequency range (Hertz) . 59.3.60.5. t Efficiency Peakeffdency 96.8% 96.8% 96.8% 97.5% 97.5%1• 97.5% 97.8% 97.8% l' .97.8% CEC weighted eftciency 96.0% 96.0% '96.5% 96.5% 96.5% 96.5% ' 97.0% 97.0% • 97.0% MPPTeftdeICY .99.9% 99.9%-, , 99.9%. . 99.9% 99.9%• 99.9% 99.9% 99.4% c 99.9% h Protectlon a '' t Temperature protection s Yes DC reverse=polarity protection ; Yes,. , AC short circuit protection Yes v AC'output overcurrent protection - Yes Output overvoltage protection-Varistor Yes Ground fault. monitoring Yes " ! i Grid monitoring Yes i Islanding protection Yes Integrated DC switch. . • r ?• , Yes Integrated AFCI(DC aro{autt drevtt protection) - + N Optional Rapid shutdown Optional 'General datet-� -4 Dimensions (Inch) 13.3W+25.gH•6.5D 13.3W*25.gH*6.8D Weight (lbs) i. ' 21.6 33.1 38.6 . Topology Transformerless Internal consumption- a1W (Night) Ambient operating temperature range -25'C -60'C/ -13°F -140°F Enclosure type } NEMA4X ^ " Noise emission(typical) -<30dBA - Coorug type , Natural convection Max.operating altitude without derating 4000 m / 13120 ft Designed lifetime ' . >20 years Compliance' CAN/CSAC222 N107.1, UL1741, U1.1998, UL1699B, FCC part 15, Class B Operating' surroundings humidity 0-100% Features Conduit connention Plugged 3/4' openings for bottom and side Display i1 LCD, 2 x 20 Z. Interface ; RS 485. WiFYGPRS (optional) We.nanty Terms 10 years standard warranty with Extension optloi;s i Ginlong-USA Solis Rapid Shutdown Device so .is -- i nwe rte rs ' Made by Ginlong Technologies - Solis. .. f '�'.?�.� �>: �a,,,,=.,.fir>=a=..�...�.- �-• . , F Outstanding Features ► UL -Certified and compliant with 2014 NEC 690.12 Rapid Shutdown . ► Available in either single channel output or dual channel output allowing for perfect alignment with the number of MPPT channels in the inverter system ► No interference with AFCI functionality of Solis Inverters - ► NEMA 4X Enclosure, conformal -coated Internal components and a wide operating temperature range - Familiar mounting plate for fast attachment and solid grounding to the support rack ► Low profile design allows for easy positioning under the PV module ► Pre -wired MC4 connectors for positive, watertight connections ► Engineered for the US Solis transformer -less Inverter line and compatible with any PV Module -string inverter combination where the maximum system operating voltage is 5550VDC. 0 • Manufacturer: Ginlong (Ningbo) Technologies Co.,Ltd.,'Niligbo, Zhejiang, P.R.China ,Office: 565 Metro PI. S. Suite 3214, Dublin OH 43017, USA . ^ , Y • . ' Toll-free: 866.438.8408 I Email: sales@ginlong.ctim Isales@ginlong-usa.c.c om � V Web: www.ginlong.com - GINLONG . 1! Solls-RSD-1G 1:1 } ' Maximum Input and Output Voltage 60OVDC 600VDC DC Input Voltage Range 3U-60OVDC ' 30-60OVDC ' Maximum Number of PV Source Circuits 1 input/ 1 output 2 input/ 2 output DC Solls-RSD-1G 1:1 Solis -RSD -1G 2:2 Maximum Input and Output Voltage 60OVDC 600VDC DC Input Voltage Range 3U-60OVDC ' 30-60OVDC ' Maximum Number of PV Source Circuits 1 input/ 1 output 2 input/ 2 output Maximum Input / Output Current 20A 2 independent channels, 20A/1 OA Maximum Short Circuit Current, 31.2A 31.2A i DC Input / Output Cable Whips PV Wire with MC4• Locking Connectors PV Wire with MC4 Locking.Connecttirs DC Input/ Output Wire Size AWG #12 to #6 AWG #12 to #6 Ground Wire Size AWG #10 to #6 AWG #10 to 06 T ,' .Rated AC Input Voltage 208/240VAC 208/240VAC Rated AC Input Current 0AA� 0.1A Rated Frequency A 50/601-lz 50/601-lz s AC Control Wire Size AWG #18 to #14 AWG #18 to #14 Maximum AC Fuse Rating 2A , 2A GENERAL 71 Ambient Temperature Range -25 to +65eC (-13 to 1587) -25 to +65aC (-13 to.158*9 ' Enclosure Type NEMA4X NEMA4X Roof Mount Style - Rail -mount plate (WEER Compatible) Rail -mount plate (WEEB Compatible) ` Status indicator LED LED . Efficiency >99.5% >99.5% Response Time <2 seconds <2 seconds 'Dimensions (W x H x D) 262 x 240 x 43 cm / 10.3 x 9.4 x 1.7 in. ' 262 x 240 x 43 cm / 10.3 x 9.4 x 1.7 in. Weight - 2.3 kg / 5.1 Ib 2.4 kg / 5.2 Ib Warranty 10 Year 10 Year Certification & Safety Standard Compliance 1,11-1741, FCC Part 15 Class B, NEC 690.12 UL1741, FCC Part 15 Class B, NEC 690.12 i 1 Input -1 Output ' a eutkliead 14ov4c String Inverter Acr L Co C4 DC ' Camecmn 'RSD Power ` - 'Ssifis. �............a �............: ........... a Repid Shutdown u ve Device(RSD), 'MCA DC + ' ar - G.—cm.f - RS 61nou - BSD Oumut: _ 20A PV Sou.rce 20A PV _ Circuit Input ♦ Output Circuit r # irearter (AC) _ PV Source CFcuit One Conduit. Output UrcuH 2lnput-2 Output SolisTra'nsforrner-less ,�Strina (rive rtes ' ' MC4 DC AC BuIMhead 240V4C Cortitecfoa :Camector RSD Pokver SOBS ............. Rapid Shutdm-n I. Device (RSD) —N' H... •2[2. i MCS DC • � comecmn f . it RSp lroutiSB Doutputoutput: ' - 20A'•10A 20A. 10A' t Source Circuit Inputs PV Output_ Circuits tevendr (nCl s PV Sou'6 circuits On. Conduit Output Cecuit `GI -,'f' M0 U!'I[I IC,a SOILIl:liMS 775 Fiero Lane, Suite 200 San Luis Obispo, CA 93409 Email: contact@snapnrack.com Phone Number: (877) 732-2860 SnapNrack Series 200 Residential Ground Mounts COTTER LE'T'TER The loading criteria used in this report is ASCE7-10. For codes that reference ASCE7-05, Appendix A is pro- vided to convert the wind speeds in the older version, ASCE 7-05, to the wind speeds used in this report. In- structions for this conversion are provided in Appendix A. this report covers wind speeds (Vwt) to 170 MPH, ground snow to 120 PSF ground snow. The following codes are covered in this report • IBC 2015 •_ IBC 2012 • IBC 2009 • I BC 2006 • 2013 California Building Code (CBC) • 2016 California Building Code (CBC) The structural submittal package shall consist of the following: 6 Pages 1-18 of the report (this includes the cover letter) • Only the applicable configuration table from pages 19 — 96 • Pages C1— C29 Appendix A (if applicable) The applicable installation details. This report provides structural engineering calculations and installation criteria for the mounting system only.it does not certify the capacity of the supporting soil. The soil criteria are based soil class 4 (IBC Chapter 18). This is the generally accepted code minimum. The capacity of the supporting soil is to be approved by the Authority Having Jurisdiction (AHJ). For unusual soil conditions occur or where required by the AHJ, a geotechnical investigation shall be performed. Please contact SnapNrack at (877) 732-2860, or Contact@snapnrack.com, for questions regarding this report. A� 18 2017 A r � Series 200° rack Sna , �a Structural Report and Calculations 13 V N 'DU V S -i i r Structural Report and Calculations Series 200 Ground Mount For SnapNrack 775 Fiero Lane, Suite 20.0 San Luis Obispo, CA 93401 ` Prepared By Norman Scheel Structural Engineer 5022 Sunrise Boulevard Fair Oaks, CA 95628 ( ,�) 536-9585 July 6, 2016 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 2 - Series 200 SnapNwack - • Structural Report and Calculations PV MG 1.910 t I l g S y S t le a 3 S Table of Contents Section page Cover Letter 1 , Summary Report 2 to 96 Building Department Support Calculations Design Notes and Specifications Cl Sketches and Details C2 Wind Calculations ASCE 7-10 C3 Seismic Calculations ASCE 7-10 C4 Snow Load Calculations ASCE 7-10 C5 Required Number of Rails for Four 39" X 65" PV Panels , C6-7 Required Number of Rails for Four 39" X 78" PV .Panels C8-9 Required Number of Rails for Three 39" X 65" PV Panels C10-11 Required Number of Rails for Three 39" X 78" PV Panels C 12-13 _ Pipe Rail Specifications C14 Non Constrained Footing Calculations C15 Grade Beam Calculations C16 Brace A Calculation for Axial Forces C17-18 Brace C Calculation for Axial Forces C 19-20 Brace .D Calculation for Axial Forces C21-22 Brace E Calculation for Axial Forces C23-24 Brace F Calculation for Axial Forces C25-26 2D Frame Analysis for .Example (90 mph Exp. C with 20 degree Tilt Angle) C27-29 Appendix A: ASCE-2010 to 2005 conversion sheet A.l 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 3 Series 200 Structural Report and Calculations Introduction a.+ a S n a pra c TM i w f_ f,V r This summary letter is referencing the Structural Calculation Packet for the SnapNrack Series 200 Mounting System. 'We performed the calculations in accordance with the International Building Code (IBC) and the ASCE 7-10. The racking system has been designed to withstand code -prescribed forces due to the racking system's own weight, the weight of the solar panels, the snow loads, and both the wind and seismic forces. The limits of the structural design are as listed below. Wind Speed from 100 mph to 170 mph (Page C3 of calculations) Seismic Design Category D (Page C4 of calculations) Ground Snow Loads from 0 to 120 psf (Page C5 of calculations) In our opinion, the racking system, outlined in the SnapNrack Series 200 PV Mounting System Code Compliant Installation Manual, is acceptable and meets the loading requirements stated above. It should also be noted that the provided summary charts assume the site has a slope less than 15:1 or 15%. For sites with slopes greater than 15%, the listed foundation depths will be required to be increased as per the soils engineer or, if the project does not involve a soils engineer, SnapNrack's drawing S200 -D06. NSSE 1 5022 Sunrise Boulevard Fair oaks CA 95628 (916) 536-9585 Page 4 Series 200 Structural Report and Calculations Aluminum Ground Rail Spans Snalal.Nlrack- PV flAoui stin g yste ns. The aluminum ground rails used.to connect the. PV panels to the racking system should be installed per the dimensions on the following detail for all tilt angles. With these lengths being constant the horizontal span between the footings will be different for every tilt angle. See detail and chart on page C2 for dimensions. The standard installation of the aluminum rail is two rails per row of PV panels. See chart located on page C 14 for conditions where three rails per row of PV panels are required. The rails are to be connected to horizontal pipes with SnapNrack pipe clamps on the bottom of the rail and module clamps on the top in'order to secure the PV panels. RAIL CENTERED ON PIPE SUPPORT STRUCTURE � 8' RAIL SPAN \ ARRAY -TILT -ANGLE R MODULE PANEL, TYPICAL RAIL CENTERED ON PIPE GI IPMOT GTPI IrT11RF 3 MODULE*PANEL, TYPICAL �'V+ '.d NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 5 Series 200 Structural Report and Calculations Pine Rails, Braces, and Vertical Post SQapNrack,- .1 �;Ung ;. 3 viouA'� 1 :` Y The racking.system is composed of either a schedule 40 or a schedule 80 pipe, both of which are 1 ''/z" in diameter and have a minimum yield strength of 35 ksi. See following details for labels for individual pieces. The 50 ksi Flo -:Coat Tube may be used as an alternative for the typical schedule 40 and 80 pipe as listed in these calculations. See manufacturer's specifications.for this pipe. There are two different kinds on installations: standard and braced. Each option comes with a 4 module panel or a 3 module panel choice. Using 2 rails is standard at the more common lower loads, but higher wind and snow loads will require 3 rails per panel. This makes for a total of 8 possible installation configurations. Each configuration has unique load capabilities for the wind and snow loads specific to each project. Pages C6 -C 13 illustrate the minimum number of rails required for every snow and wind load combination as we11 as for every tilt angle. Pages 7 through 14 show each of the 8 possible system configurations. NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 6 % Series 200 Structural Report and Calculations _ P -V M o i"1 # i a. i i"1 g •J y S to m S "_ Standard Installation (4 Module Panels and 2 Rails per Panel) - r NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 7 Series 200 Structural Report and Calculations S"""rack- na u Standard Installation (4 Module Panels and 3 Rails per Panel) NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 rage is Series 200 SnaliN Structural Report and Calculations PV 1 0 M i n gI Sy s t e i 13 S Standard Installation (3 Module Panels and 2 Rails per Pane - 1 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 9 S � 3 Standard Installation (3 Module Panels and 2 Rails per Pane - 1 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 9 Series.200 • • � �Ft, " °, ra Sia -As Structural Report and Calculations , Afiz .i•. k Yk n i,K� y PIr ' . ' � �� Sam �t c�'��`��aok ,.� r } • J f .. � .Y''h�:; .ate 1..,.," •._ Vii,? � t • 1'`r.. 1y �i r - Standard installation(3 Module Panels and 3 Rails per Panel) r t NS5E5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585' •Page 1 O Series 200 Structural Report and Calculations Sna. Frac Braced Installation (4 Module Panels and 2 Rails per Panel) ".j" NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page I 1 •`+p TAT . ra c Series 200O� f Str'uctu' ral Report and Calculations . V : `-Wj C� i I = 1 ' ; '-`;°' C`W. .F •'� Sj{''F j�W}v� [.fir 30 .?%' z ..a ��•. 1, moi. 7 y-1�•f ]�yRL 5 s � C• 3 � ! ' Braced Installation (4 Module Panels and 3 Rails per Panell ` • Y NSSEi 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 12 Series 200 Structural Report and Calculations SnapNrack- PV A13- 0ti Sting Systerns Braced Installation Q Module Panels and 2 Rails per Panel) NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 13 Series 200 Structural Report and Calculations S apl� -.rac - !'V loulritirlg ys Braced Installation Q Module Panels and 3 Rails per Panel) NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 14 " Series 200 SnapNrack' W Structural Report and Calculations PV firt ;) t i I n g Sys to r i S Configuration Tables See pages 1.9 thru 96 for installation .of racking system per wind and snow load requirements. See example below for instructions on how to read tables. All dimensions are in inches. Standard Installation Braced Installation Max SFS) 12"Dia Pier Required Braces Sch 40 Sch 60 Standard Installation Tall 4, Tilt Angle ° ' NIB JFS) 1?'Dia Pier -�30 Required Braces Horizontal pipe spans (in) Sch-0 Sch8O Short Tall A c D Footing depth at short pipe (in) 6.0 135 155 30 30 No Every 3rd Bay No Footing depth at tall pipe (in) 0>6<7. 0 30 Yes Every3rd Bay No Brace A requirements 7.S 99 > 33 Yes 's Every3rd Bay No Brace C requirements r - 110 30 Yes Every3rd Bay Every 3rd Bay 41 Yes Every rd Bay Every3rd Bay Brace D requirements in, A 17 r *q112 30 51 Yes Every3rd Bay Every3rd Bay �. 37.5>9<45 101 ®�mm®�®m�mm����■moi "very3rd Bay I�®m®mm���m�mm®®�■�a Standard Installation Braced Installation Max SFS) 12"Dia Pier Required Braces Sch 40 Sch 60 Standard Installation Tall 4, Tilt Angle ° ' NIB JFS) 1?'Dia Pier -�30 Required Braces Horizontal pipe spans (in) Sch-0 Sch8O Short Tall A c D Footing depth at short pipe (in) 6.0 135 155 30 30 No Every 3rd Bay No Footing depth at tall pipe (in) 0>6<7. 0 30 Yes Every3rd Bay No Brace A requirements 7.S 99 > 33 Yes 's Every3rd Bay No Brace C requirements r - 110 30 Yes Every3rd Bay Every 3rd Bay 41 Yes Every rd Bay Every3rd Bay Brace D requirements in, A 17 r *q112 30 51 Yes Every3rd Bay Every3rd Bay �. 37.5>9<45 101 "very3rd Bay Braced Installation Horizontal pipe spans (in) Footing depth at short pipe (in) Footing depth at tall pipe (in) Brace A requirements Brace E requirements Brace F requirements Number of aluminum ground rails required for either the standard or braced options per panel size. See pages C6 through C 13 for 2 or 3 rail configurations. Number of Rails Required Per Panel Module Size 39".. 65" 39"x78" 2 2 2 2 2 z z 2 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 15 Braced Installation Max SFS) 12"Dia Pier Required Braces Sch 40 Sch 60 Shcrt Tall 4, I E F Igo Igo -�30 30 Yes Yes Yes Me i69 3 9 1 Yes Yes Yes. 180 160 30 40 Yes Yes Yes' es Yes Yes 1B0 180 30 50 Yes Yes Yes Yes Yes Number of Rails Required Per Panel Module Size 39".. 65" 39"x78" 2 2 2 2 2 z z 2 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 15 Series 200 na ra P c k,- Structural Report and Calculations V 1", Frame Section Standard Installation Rear View Bracing, H NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 16 -- - --- ----- 4. e' il :, t Series 200 '� Structural Report and Calculations PV MlO lu e3 "Ny S ie nn s Foundation Options • Pier foundations: piers will be 12" in diameter and be at the depth required in the following charts based on wind speed, panel tilt, and snow load. The minimum depth of the footings is set to 30 inches and the concrete will be 2500 psi minimum. • Grade beam option: a grade beam may be used in place of the pier foundations See SnapNrack's drawing S200 D07 for grade beam configuration. Grade beams will be a minimum of 12" wide x 12" deep and will run a minimum of 12'-0" centered under the posts. Two #4 Bars will be used at the top and the bottom of the grade beam, one on each side for the vertical pipe. These must have a minimum of 3" clear concrete cover and shall be Grade 40 minimum. See table on page C 16 for grade beam sizes. SOIL BEAMNG-CAPACITY ALLOWABLE FOUNDATION AND LATERAL PRESSURE Referring to page C 15, this report uses 1500 pcf foundation pressure into the calculations, In addition, it uses a footing diameter of 1 ft., making the foundation pressure 1500 psf. From these calculations, which arein terms of the worst -possible conditions, any of the choices for the Class of Materials listed above in the table would work for the ground - mount solar panels. ' NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 17 Allowable Lateral Bearing Lateral Sliding Class of Materials Foundation (psf/f below Coefficient of Resistance Pressure (psf)d natural grade)d friction (sf)b 1. Crystalline bedrock 12,000 1,200 0.70 — 2. Sedimentary and foliated rock 4,000 400 0.35 3. Sandy gravel and/or gravel (GW and GP) 3,000 ' 200 0.35 — 4. Sand, silty sand, clayey sand, silty gravel and clayey 2,000 1.50 0.25 — gravel (SW, SP, SM, SC, GM and GC) 5. Clay, sandy clay, silty , clay, clayey silt, silt and 1,500 100 — 130 sand silt (CL, ML, MH and CH) Referring to page C 15, this report uses 1500 pcf foundation pressure into the calculations, In addition, it uses a footing diameter of 1 ft., making the foundation pressure 1500 psf. From these calculations, which arein terms of the worst -possible conditions, any of the choices for the Class of Materials listed above in the table would work for the ground - mount solar panels. ' NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 17 Series 2UU SnapNrack'!A Structural Report and Calculations . V §x'33 o l z s a rg—`: v s Ze %'�'- Site — Specific Analysis A site-specific analysis will be required if the location of the solar panel installation corresponds to any of the following criteria: • The pitch of the solar panel is greater than 45 degrees above the horizontal. • A topographic factor applies to the location. Topographic factors apply, for general purposes, when the structure is on a hill, mesa or bluff, or is adjacent to a large body of water. For complete descriptions of topographic, factors please refer to ASCE 7-10 section 26.8 • A combination of loads .and/or site conditions applies when not addressed in the attached charts. If one or more of these factors applies to the project location, please contact NSSE, and we will analyze the site conditions and recommend post spacing for each specific site. Topographic Factors and Limits It must be noted for any site location where the topographic factor is applied (e.g. hills, mesas, and seashore) the configurations listed in this packet may not be adequate for the given site. A registered structural engineer should evaluate the exact topographic conditions for this specific site prior to construction. Please note all sizes, material specifications, and weights have been provided by SnapNrack. Please see SnapNrack's plans for limits on the bolt parameters. Torque all 5/16" diameter hardware as specified in SnapNrack' plans (10-16 f3 -lbs for Silver Stainless Steel and 7-9 f3 -lbs for black Stainless Steel). SnapNrack has also provided estimated soil values, referenced on page 17, used to calculate the optimized size and depths of the footings. It is the responsibility of SnapNrack's customer, otherwise known as the contractor or professional solar installer, to verify, that the site specific soil conditions match or exceed the estimated values given within this report. Installation of Series 200 is to be conducted in accordance with SnapNrack's drawings 5200 DO1 thru D09 (all drawings are REV G)., Please feel free to contact me with any questions or concerns, Thank you. Sincerely, Norman Scheel PE, SE LEED-AP BD+C, LEED-AP Homes Fellow SEAOC. Fellow A.S.C.E. NSSEi 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page IS Series 200 SnOp ac r PIN,rM PV Mounting y s ; e n- -� ss Configuration Tables for Ground Mount System 0 psf Snow Loads (4 Module Panels) NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 19 of 96 100 mph Wind Load 0 psf Snow Standard Installation Braced Installation Number of Rails Required Per Panel Tilt Angle B Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module Size Module Size Sch 40 Sch 40 Sch 80 Short Tall A C D M40 Sch 80 Short Tall A E F 40" x 66" 40" x 78" 0=0 119 136 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 2 0 >0<7.5 102 116 30 30 Yes Every 3rd Bay No 180 180 30 35 Yes Yes Yes 2 2 7.5 > 0 < 15 96 109 30 34 Yes Every 3rd Bay No 180 180 30 44 Yes Yes Yes 2 2 15 > 0 < 22.5 1 91 104 1 30 1 40 Yes Every 3rd Bay I Every 3rd Bay 180 180 30 52 Yes Yes Yes 2 2 22.5 > 0 < 30 87 100 30 43 Yes Every 3rd Bay Every 3rd Bay ISO 180 30 56 Yes Yes Yes 2 2 30 > 0 < 37.5 90 103 30 46 Yes Every 3rd Bay I Every 3rd Bay 179 180 30 59 Yes Yes Yes 2 2 37.5 > 0 <45 92 1 105 30 49 Yes I Every 3rd Bay Every 3rd Bay 168 180 30 62 1 Yes Yes Yes 2 2 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 19 of 96 110 mph Wind Load 0 psf Snow Standard Installation Braced Installation Number of Rails Required Per Panel Tilt Angle 0 Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module Size Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" 40" x 78" 0=0 115 132 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 2 0 >0<7.5 98 112 30 30 Yes Every 3rd Bay No ISO 180 30 38 Yes Yes Yes 2 2 7.5 > 0 < 15 92 105 30 37 Yes Every 3rd Bay No 180 180 30 48 Yes Yes Yes 2 2 15 > B < 22.5 87 100 30 43 Yes Every 3rd Bay Every 3rd Bay 180 180 1 30 57 Yes Yes Yes 2 2 22.5 > 0 < 30 84 96 '- 30 46 Yes Every 3rd Bay Every 3rd Bay 174 180 30 61 Yes Yes Yes 2 2 30 > B < 37.5 87 99 T 30 49 Yes Every 3rd Bay Every 3rd Bay 163 180 30 63 Yes Yes Yes 2 2 37.5 > 0 < 45 66 101 d 30 52 Yes Every 3rd Bay Every 3rd Bay 153 1 175 30 66 1 Yes Yes Yes 2 2 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 19 of 96 120 mph Wind Load 0 psf Snow Standard Installation Braced Installation Number of Rails Required Per Panel Tilt Angle 0 Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" 40" x 78" 0=0 112 128 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 2 0 >9<7.5 9S 108 30 31 Yes Every 3rd Bay No ISO ISO 30 41 Yes Yes Yes 2 2 7.5 > 0 < 15 89 101 30 39 Yes Every 3rd Bay No 180 180 30 52 Yes Yes Yes 2 2 15 > 0 < 22.5 84 96 30 45 Yes Every 3rd Bay Every 3rd Bay 180 180 30 62 Yes Yes Yes 2 2 22.5 > 0 < 30 81 92 30 49 1 Yes Every 3rd Bay Every 3rd Bay 1 159 180 30 64 Yes Yes Yes 2 2 30 > 0 < 37.S 83 95 30 52 1 Yes Every 3rd Bay Every 3rd Bay 1 149 170 30 1 66 Yes Yes Yes 2 2 37.5 > 0 <45 85 97 30 55 1 Yes Every 3rd Bay Every 3rd Bay 1 140 160 30 1 69 Yes Yes Yes 2 2 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 19 of 96 Series 200 Configuration Tables for Ground Mount System 0 psf Snow Loads (4 Module Panels) .a crack-Sna.., _. p , , N b f Rail Re ured Per Panel um er o s i q Module Size 40" x 66" 40" x 78" 2 2 2 2 130 mph Wind Load 0 psf Snow 2 2 2 2 2 2 2 2 2 Standard Installation Braced Installation Per Panel Module Size Tilt Angle B Max (PS) 12" Dia Pier 2 Required Braces Max (PS) 2 2 Required Braces 2 Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80all A E F 0=0 108 124 30 30 No Every 3rd Bay No 180 1800 Yes Yes Yes o >0<7.5 91 104 30 33 Yes Every 3rd Bay No 180 1804 Yes Yes Yes 7.5> 0 <15 86 98 30 41 Yes Every 3rd Bay No 180 1806 111DIar Yes Yes Yes 15 > 0 < 22.5 81 93 30 48 Yes Every 3rd Bay Every 3rd Bay178 1805 Yes Yes Yes 22.5 > 0 < 30 77 88 30 52 Yes Every 3rd Bay Every 3rd Bay 147 1687 Yes Yes Yes 30> 0 < 37.5 80 91 30 55 Yes Every 3rd Bay Every 3rd Bay 138 1578Yes Yes Yes 37.5>8<45 82 93 30 58Yes Every 3rd Bay Every 3rd Bay 129 1488 Yes Yes Yes 140 mph Wind Load 0 psf Snow Standard Installation Braced Installation Tilt Angle 0 Max (PS) 12" Ola Pier Required Braces Max (PS) 12" Dia Pier Required Braces Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 0 = 0 105 120 30 30 No Every 3rd Bay No 180 180 32 32 Yes Yes Yes 0 > 8 < 7.5 88 101 30 35 Yes Every 3rd Bay No 180 180 32 47 Yes Yes Yes 7.5 > 0 < 15 83 1 94 30 44 Yes Every 3rd Bay No 180 180 32 61 Yes Yes Yes 15 > 0 < 22.5 78 1 89 30 51 Yes Every 3rd Bay Every 3rd Bay 166 180 32 67 Yes Yes Yes 22.5 > 0 < 30 75 85 30 55 Yes Every 3rd Bay Every 3rd Bay 137 156 32 69 Yes Yes Yes 30 > 0 < 37.5 77 88 30 59 Yes Every 3rd Bay Every 3rd Bay 128 146 32 71 Yes Yes Yes 37.5 > 0 < 45 79 90 30 62 Yes Every 3rd Bay Every 3rd Bay 120 137 32 74 Yes Yes Yes 150 mph Wind Load 0 psf Snow Standard Installation Braced Installation Tilt Angle B Max (PS) 12" Dia Pler Required Braces Max (PS) 12" Dia Pier Required Braces Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 8=0 102 117 30 30 No Every 3rd Bay No 180 180 35 35 Yes Yes Yes 0 >0<7.5 85 97 30 37 Yes Every 3rd Bay No 180 180 35 51 Yes Yes Yes 7.5 > 8 < 15 80 91 = 30 46 Yes Every 3rd Bay No 180 180 35 65 Yes Yes Yes 15 > 8 < 22.5 76 86 cf 30 54 Yes Every 3rd Bay Every 3rd Bay 155 176 35 70 Yes Yes Yes 22.5 > B < 30 72 82 30 58 Yes Every 3rd Bay Every 3rd Bay 128 146 35 72 Yes Yes Yes 30 > 0 < 37.5 74 85 30 59 Yes Every 3rd Bay Every 3rd Bay 119 136 35 72 75 Yes 1 Yes Yes I Yes Yes Yes crack-Sna.., _. p , , N b f Rail Re ured Per Panel um er o s i q Module Size 40" x 66" 40" x 78" 2 2 2 2 2 2 2 2 2 2 2 2 2 2 Number of Rath Required Per Panel Module Size 40" x 66" 40" x 78" 2 2 2 2 2 2 2 2 2 3 2 2 3 3 Number of Rails Required Per Panel Module Size 40•• x 66" 40" x 78" 2 2 2 2 2 2 2 3 2 3 3 3 3 3 9 ( t 37.5 > 0 < 45 76 86 30 62 Yes Every 3rd Bay Every 3rd Bay 118 135 35 i NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (91 6) 536-9585 Page 20 of 96 G Series 200 SapNrack,a PV o u n fl g Sys to k z i!, Configuration Tables for Ground Mount System 0 psf Snow Loads (4 Module Panels) e `d _ a - NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page, 21 or 160 mph Wind Load 0 psf Snow Standard Installation Braced installation Numberof Rails Required Per Panel Tilt Angle B Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" 40" x 78" 0=0 99 113 30 30 No Every 3rd Bay No 180 180 37 37 Yes Yes Yes 2 2 0 >9<7.5 83 94 ; 30 39 Yes Every 3rd Bay No 180 180 37 55 Yes Yes Yes 2 2 7.5 > B < 15 77 88 30 48 Yes Every 3rd Bay No 180 180 37 68 Yes Yes Yes 2 3 15> B <22.5 73 83 a 30 56 Yes Every 3rd Bay . Every 3rd Bay 145 165 37 73 Yes Yes Yes 3 3 22.5 > 8 < 30 70 79 30 61 Yes Every 3rd Bay Every 3rd Bay 120 136 37 74 Yes Yes Yes 3 3 30 > e < 37.5 72 1 82 30 65 Yes Every 3rd Bay Every. 3rd Bay 112 128 37 76 Yes 'Yes Yes 3 3 37.5>0<45 73 83 30 68 Yes Every.3rd Bay Every 3rd Bay 105 120 37 79 Yes Yes Yes 3 , 3 e `d _ a - NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page, 21 or 170 mph Wind Load 0 psf Snow Standard Installation Braced Installation Number of Rails Required Per Panel Tilt Angle B Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" 40" x 78" e = 0 96 110 30 30 No Every 3rd Bay No 180 180 40 40 Yes Yes Yes 2 2 0 >0<7.5 8o 91 ' 30 41 Yes Every 3rd Bay No 180 180 40 59 Yes Yes Yes 2 2 7.5 > B < 15 75 86 30 51 Yes Every 3rd Bay No 178 180 40 70 Yes Yes Yes 3 3 15 > e < 22.5 71 81 30 59 Yes Every 3rd Bay Every 3rd Bay 136 156 40 75 Yes Yes Yes 3 3 22.5 > B < 30 67 77 30 64 Yes Every 3rd Bay Every 3rd Bay 113 128 40 77 Yes Yes Yes 3 NG 30 > B < 37.5 70 1 79 1 30 69 Yes Every 3rd Bay Every 3rd Bay 105 120 40 79 Yes Yes - Yes 3 NG 37.5>6<45 71 1 81 30 72 Yes Every 3rd Bay Every 3rd Bay 99 113 40 82 Yes Yes Yes 3 NG e `d _ a - NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page, 21 or 96 Series 200 Snap Configuration Tables for Ground Mount System 1 to 10 psf Snow Loads (4 Module Panels) NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 22 of 96 I 100 mph Wind Load 1-10 Psf Snow Braced Installation Number of Rails Required Per Panel Standard Installation Tilt Angle B Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module Size Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" 40" x 78" Sch 40 Sch 80 Short Yes 2 2 B = 0 106 121 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes 0 > B < 7.5 95 108 x 30 30 Yes Every 3rd Bay No 180 180 30 35 Yes Yes Yes 2 2 7.5 > B < 15 91 E88 104 " 30 34 Yes Every 3rd Bay No 180 180 Yes Yes Yes 2 2 15 > B < 22.5 101 30 40 Yes Every 3rd Bay Every 3rd Bay 180 180Yes Yes Yes 2 2 22.5 > B < 30 87 99 30 43 Yes Every 3rd Bay Every 3rd Bay 180 180Yes a30S6 Yes Yes 2 2 30 > B < 37.5 90 103 30 46 Yes Every 3rd Bay Every 3rd Bay 179 180Yes Yes Yes 2 2 37.5 > 8 <45 92 105 30 49 Yes Every 3rd Bay Every 3rd Bay 168 180Yes Yes Yes 2 2 110 mph Wind Load 1-10 psf Snow Braced Installation Number of halls Required Per Panel Numb Standard Installation Tilt Angle 8 Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" 40" x 78" 0=0 104 119 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 2 0 > 0 < 7.5 92 105 30 30 Yes Every 3rd Bay No 180 180 30 38 Yes Yes Yes 2 2 7.5 > B < 15 88 101 30 36 Yes Every 3rd Bay No 180 180 30 48 Yes Yes Yes 2 2 15 > 8 < 22.5 85 97 30 43 Yes Every 3rd Bay Every 3rd Bay 180 180 30 57 Yes Yes Yes 2 2 22.5 > B < 30 83 95 30 46 Yes Every 3rd Bay Every 3rd Bay 174 180 30 61 Yes Yes Yes 2 2 B 37.5 87 99 30 49 Yes Every 3rd Bay Every 3rd Bay 163 180 30 63 Yes Yes Yes 2 2 30 > < Yes Yes Yes 2 2 37.5 > B < 45 88 101 30 1 52 Yes Every 3rd Bay Every 3rd Bay 1 153 175 30 66 120 mph Wind Load 1-10 psf Snow Braced Installation Number of Rails Required Per Panel Standard Installation Tilt Angle 8 Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" 40" x 78" 0=0 102 117 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 2 0 >0<7.5 89 102 30 30 Yes Every 3rd Bay No 180 180 30 41 Yes Yes Yes 2 2 , 7.5 > B < 15 85 97 30 36 Yes Every 3rd Bay No 180 180 30 52 Yes Yes Yes 2 2 + 1s > 8 < 22.5 82 94 30 43 Yes Every 3rd Bay Every 3rd Bay 180 180 30 62 Yes Yes Yes 2 2 22.5 > B < 30 80 92 30 47 Yes Every 3rd Bay Every 3rd Bay 159 180 30 64 Yes Yes Yes 2 2 30 > B < 37.5 83 95 30 51 Yes Every 3rd Bay Every 3rd Bay 149 170 30 66 Yes Yes Yes 2 2 37.5 > B < 45 85 97 30 54 Yes Every 3rd Bay Every 3rd Bay 140 160 30 69 Yes Yes Yes 2 2 t NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 22 of 96 I • Series 200 1 Nrack,-naP Configuration Tables for Ground Mount System 1 to 10 psf Snow Loads (4 Module Panels)PV NIOUr agi19Systeg t'�" NSSE - 5022'Su'nrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page " 23 ° of 96 -44- 130 mph Wind Load 1-10psf Snow Standard Installation Braced Installation Braced Installation -' ^- Number of Rails Required Per Panel Tilt Angle B Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module SizeSch Module SizeallSch 40 40 Sch 80 Short T A C D Sch40 Sch 80 Short Tail A E F 40" x 66" 40" x 78" B=0 100 114 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 2 0 >B<7.5 86 75 30 30 Yes Every 3rd Bay No 180 180 30 41 Yes Yes Yes 2 2 7.5 > B < 15 83 76 30 36 Yes Every 3rd Bay No ISO ISO 30 52 Yes Yes Yes 2 2 15 > e < 22.5 79 79 30 43 Yes Every 3rd Bay Every 3rd Bay 178 180 30 62 Yes Yes Yes 2 222.S > B < 30 77 81 30 47 Yes Every 3rd Bay Every 3rd Bay 147 168 30 64 Yes Yes Yes 2 2 30>8<37.5 80 87 30 51 Yes Every 3rd Bay Every 3rd Bay 138 157 30 66 Yes Yes Yes 2 2 37.8 > B < 48 82 93 30 54 Yes Every 3rd Bay Every 3rd Bay 129 148 30 69 Yes Yes Yes 2 2 NSSE - 5022'Su'nrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page " 23 ° of 96 -44- 140 mph Wind Load 1-10 psf Snow Standard installation Braced Installation Braced Installation -' ^- Number of Number of Rails Required Per Panel Tilt Angle B Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module SizeSch Module Size 40 Sch 80 Short Tall A C D. Sch 40 Sch 80 Short Tall A E W F- 40" x 66" • 40" x 78" B=0 98 111 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 20 >B<7.5 84 96 . 30 30 Yes Every 3rd Bay No - 180 180 30 44 Yes Yes Yes 2 2 7.5 > 8 < 15 80 91 30 38 Yes Every 3rd Bay No ' 180 180 ' 30 56 Yes Yes Yes 2' 2 15 > B < 22.5 77 88 30 46 Yes Every 3rd Bay Every 3rd Bay ' 166 180' 30 65 Yes Yes Yes 2 2 22.5 > B < 30 7S 88 30 51 Yes Every 3rd Bay Every 3rd Bay 137 186 30 67 Yes Yes Yes 2 3 30 > B < 37.S 77 88 30 55 Yes Every 3rd Bay Every 3rd Bay' 128 146 30 68 Yes Yes Yes 2 3• 37.5 >B<45 79 90 .30 58 Yes Every 3rd Bay Every 3rd Bay 120 137 30 68 Yes Yes Yes 2 3 NSSE - 5022'Su'nrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page " 23 ° of 96 -44- 150 mph Wind Load 1-10 psf Snow Standard installation Braced Installation Number of Rails Required Per Panel Tilt Angle B Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dla Pier Required Braces Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40•'x 66" 40" x 78"B=0 95 108 30 30 • No Every 3rd Bay No 180 ISO 32 32 Yes Yes Yes 2 2 0 >B<7.5 81 93 30 35 Yes Every3rd Bay No 180 180 32 47 Yes Yes Yes 2 2 7.5 > e < 15 77 88 30 43 Yes Every 3rd Bay No 180 180 32 61 Yes Yes Yes 2 2 15 > B < 22.5 74 85 30 51 Yes Every 3rd Bay Every 3rd Bay 155 176 32 67 Yes Yes Yes 2 3 22.5 > B < 30 72 82 30 55 Yes Every 3rd Bay Every 3rd Bay 128 146 32 69 Yes Yes Yes 2 3 30 > B < 37.57485 30 59 Yes Every 3rd Bay Every 3rd Bay 119 136 32 71 Yes Yes Yes 337.5>B<45 76 86 30 62 Yes Every 3rd Bay Every 3rd Bay 118 138 32 74 Yes Yes Yes 3 3 NSSE - 5022'Su'nrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page " 23 ° of 96 -44- NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Braces F Yes Yes Yes Yes Yes Yes Yes Braces F Yes Yes Yes Yes Yes Yes Yes Sna 0. 1, ra cId rJ TM P t' :.f t Number of Rails Required Per Panel ' Module Size 40" x 66" 40" x 78" 2 2 2 2 2 3 3 3 3 3 3 3 3 3 Number of falls Required Per Panel Module Size 40" x 66" 40" x 78" 2 2 2 2 3 3 3 3 3 NG 3 NG 3 NG s Page 24 of 96 Series 200 Configuration Tables for Ground Mount System 1 to 10 psf Snow Loads (4 Module Panels 160 mph Wil d Load 1-10 psf Snow standard Installation Braced Installation 7IIt Angle B Max (PS) Sch 40 TS.ch 80 12" Dia Pier Short Tall A Required Braces C D Max (PS) Sch 40 Sch 80 12" Dia Pier Short Tall A Required E 0=0 93 106 30 30 No Every 3rd Bay No 180 180 37 37 Yes Yes 0 >0<7.S 79 90 30 38 Yes Every 3rd Bay No 180 180 37 ss Yes Yes 7.5 > 0 < 15 75 86 30 48 Yes Every 3rd Bay No 180 180 37 68 Yes Yes 15 > 0 < 22.5 72 82 30 57 Yes Every 3rd Bay Every 3rd Bay 145 165 37 73 Yes Yes 22.5 > B < 30 70 79 30 61 Yes Every 3rd Bay Every 3rd Bay 120 136 37 74 Yes Yes 30 > 0 < 37.5 37.5 > B <45 72 73 82 83 30 30 65 68 Yes Yes Every 3rd Bay Every 3rd Bay Every 3rd Bay Every 3rd Bay 112 128 105 120 37 37 76 79 Yes Yes Yes Yes 170 mph Wind Load 1-10 psf Snow Standard Installation Braced Installation Tilt Angle 0 Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E 8=0 90 103 30 30 No Every 3rd Bay No 180 180 40 40 Yes' Yes 0 > 0 < 7.5 77 88 . 30 40 Yes Every 3rd Bay No 180 180 40 59 Yes Yes 7.5 > 0 < 15 73 83 77 30 51 Yes Every 3rd Bay No 178 180 40 70 Yes Yes 15 > 0 < 22.5 70 80 1 30 59 Yes Every 3rd Bay Every 3rd Bay 136 156 40 75 Yes Yes 22.5 > 0 < 30 67 77 30 64 Yes I Every 3rd Bay Every 3rd Bay 113 128 40 77 Yes Yes 30 > e < 37.5 37.5 > B < 45 70 71 79 " 81 30 30 69 72 Yes Yes Every 3rd Bay Every 3rd Bay Every 3rd Bay Every 3rd Bay 105 120 99 113 40 40 79 82 Yes Yes Yes Yes NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Braces F Yes Yes Yes Yes Yes Yes Yes Braces F Yes Yes Yes Yes Yes Yes Yes Sna 0. 1, ra cId rJ TM P t' :.f t Number of Rails Required Per Panel ' Module Size 40" x 66" 40" x 78" 2 2 2 2 2 3 3 3 3 3 3 3 3 3 Number of falls Required Per Panel Module Size 40" x 66" 40" x 78" 2 2 2 2 3 3 3 3 3 NG 3 NG 3 NG s Page 24 of 96 Series 200s 11 11- 11 nap,, %v ra cH,,- Con6gd tion Tables for Ground Mount System 11 to 20 psf Snow Loads (4 Module Panels) NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 25 of 96 100 mph Wind Load 11-20 psf Snow Standard Installation Braced Installation Number of Rails Required Per Panel Tilt Angle B Max (PS) 12" Dia Pier Required Braces Required Braces Max (PS) 12" Dia Pier Required Braces Required Braces Module Size Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" 40"-x 78" 0=0 88 101 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 2 0 >0<7.S 83 95 30 30 Yes Every 3rd Bay No 180 180 30 3S Yes Yes Yes 2 2 7.5 > B < 15 83 95 30 33 Yes Every 3rd Bay No 180 180 30 44 Yes Yes Yes 2 2 15 > e < 22.5 85 97 30 39 Yes Every 3rd Bay Every 3rd Bay 180 180 30 52 Yes Yes Yes 2 2 22.5 > e < 30 84 96 30 43 Yes Every 3rd Bay Every 3rd Bay 180 180 30 56 Yes Yes Yes 2 2 30>e<37.5 89 101 30 46 Yes Every 3rd Bay Every 3rd Bay 179 180 30 59 Yes Yes Yes 2 2 37.5,8<45 92 f 105 30 49 Yes Every 3rd Bay Every 3rd Bay 168 180 30 62 Yes Yes Yes 2 2 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 25 of 96 110 mph Wind Load 11-20 psf Snow Standard Installation Braced Installation Number of Ralls Required Per Panel Tilt Angle a Max (PS) 12" Dia Pier 12" Dia Pier Required Braces Max (PS) 12" Dia Pier 12" Dia Pier Required Braces Required Braces Module Size Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" ` 40" x 78" 0=0 87 100 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 2 0 >6<7.5 81 93 30 30 Yes Every 3rd Bay No 180 180 30 38 Yes Yes Yes 2 2 7.5 > B < 15 82 93 30 36 Yes Every 3rd Bay No 180 180 30 48 Yes Yes Yes 2 2 15 > e < 22.5 82 94 30 42 Yes Every 3rd Bay Every 3rd Bay 180 180 1 30 57 Yes Yes Yes 2 2 22.5 > 8 < 30 81 92 1 30 1 46 1 Yes Every 3rd Bay Every 3rd Bay 1 174 1 180 30 1 61 1 Yes Yes Yes 2 2 30 > e < 37.5 1 86 1 98 30 1 49 1 Yes Every 3rd Bay Every 3rd Bay 1 163 1 180 30 63 Yes Yes Yes 2 2 37.5>0<45 1 88 1 101 30 1 52 I Yes Every 3rd Bay Every 3rd Bay 1 153 1 175 30 66 Yes Yes Yes 2 2 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 25 of 96 120 mph Wind Load 11-20 psf Snow Standard Installation Braced Installation Number of Rails Required Per Panel Tilt Angle B Max (PS) 12" Dia Pier Required Braces Max (PS) 12" Dia Pier Required Braces Module Size Sch 40 Sch 80 Short Tall A C D Sch 40 Sch 80 Short Tall A E F 40" x 66" .40" x 78" 0=0 86 98 30 30 No Every 3rd Bay No 180 180 30 30 Yes Yes Yes 2 2 0 >0<7.5 80 91 30 30 Yes Every 3rd Bay No 180 180 30 41 Yes Yes Yes 2 2 7.5 > B < 15 80 91 lI 30 38 Yes Every 3rd Bay No 180 180 30 52 Yes Yes Yes 2 2 15 > e < 22.5 79 91 w 30 4S Yes Every 3rd Bay Every 3rd Bay 180 180 30 62 Yes Yes Yes 2 2 22.5 > e < 30 78 89 30 49 Yes Every 3rd Bay Every 3rd Bay 159 180 30 64 Yes Yes Yes 2 2 30 > e < 37.5 83 94 30 52 Yes Every 3rd Bay Every 3rd Bay 149 170 30 66 Yes Yes Yes 2 2 37.S > e <45 85 97 30 55 Yes Every 3rd Bay Every 3rd Bay 140 160 30 69 Yes Yes Yes 2 2 NSSE 5022 Sunrise Boulevard Fair Oaks CA 95628 (916) 536-9585 Page 25 of 96 -•�' •` � ', ' ' � � - ; t, a ii � ,. r ) r° ._...._.` - GROUND 11411. POST + ` .a.. �" t�^-•o ; t" -�;- fes,.. � +. - t_..�,' ,_, ,•.1 � �.. V BRACE F y SNAPNRACK • I ::,J. s ` GROUND RAIL ') + - BRACE A SNAPNRACK UNIVERSAL END CLAMP (SHOWN) SNAPNRACK OR SNAPNRACM. TOP l - t `` CHANNEL NUTS '.' BRACE E' 1 MOUNT END CLAMP l f. SCHEDULE 40 may` (MIN) STEEL PIPE SNAPNRACK ?�� (�- ) r ,• r ; ; I 4✓ RAIL END CAP j;' X 14" SS HEX BOLTS } WITH SS SPLIT LOCK WASHERS .PIPE TO RAIL_ CONNECTION EXPLODED 2. - - NEW �WNE r Tilt Angle • 0-45 Degrees` Wind Speed:' • Up to 120 MPH Snow Loads .• Up 50 PSF Fouridation Options • Concrete Encased,Piers • Grade Beams ` ° • Driven Piles • Ballast Blocks A Materials `- r i • 6000 Series Aluminum, r Stainless Steel' _ E• Galvanized Steel' ' Material Finish • Black & Clear Anodized Aluminum ' Installation • Quick & Efficient Mounting ' • Adjustable Hardware to Ensure Clean & Level Finish • Multiple Foundation Options Grounding • SnapNrack Grounding Lug (One Lug per individual row of modules) Warranty • 10 Year material and worksmanship (download full details at snapnrack.com) rto U c k. • Solar i`�'lol�ra%Ing Solutions ` (877)-732-2860 ` www.SnapNrack.com- 0 Printed on recycled paper using soy based inks. t9 2014 by SnapNrack PV Mounting System. All rights reserved. �.,, RE -.R I ESE --- r ®r'-"" PROMIUMIS-MLAPA LS, F '7S, ".7z W IT, H SRU P. RK R, 10 ® P R ® RR M A N' C! REC TwinPeak 2 Series solar panels feature an ir)novativi� design with high panel effidency and Id, ;power output, enabling custo0g` the most out of the space used for the installafien Combined with inclustry-leading,prodoct quality and the reliability of a strong and established European &an, d, REC TwinPeak 2 panels adeal:: f 4Y, k't or residential and commercial, rrooftop� 4- woddwide S 0 .i t -s .61 k' I I R DL Ir -p, :Z 7 "4<4 7.i.` L a' r ! REE TWINFEAK "215ERIES' ' 6 ,e�sazs[bs.9a:o.n t 0 ' t EFEQENCw ' --- _ .--._......_..........._...................._......._...... R 28[1.11 „","..,,,,,.._910135E1 3825[sASf - - -�;� - _ X• d ... .............. 4gr _. h Y 900[3s) +El ~ Q 1YEAR PRODU INARRP�NT 'AR LINrE'AtR°POWER"OUTPUT o ® �UT r�*'F US'IMPORY DUTY FREE RF . e. [oA3 30211 - .. - } 205205 ? � •. ' •�1 �. � �I � �TEMPERATURE RATINGS 1200[471- NominaloperatingeelltemperaEu r" 1 TemperaturecoefficientofPM�; 0.3996/�C + asil sl *Tempe , ture coefficientlof Voce 0-3 + _~__..._. _._ _.._.:.. .._..:.--;------- ..-�-...._.._.�__ " . �3ens1 �m ure'coe`ffi� �'r 1004596/ C • � ; ,. f�cauuemmismlrm[m1 - + -Te erat cient`ofl Nominal Power P(Wp) 275 280 , 285 290 295 @ella•ydp"e" �g 120ECHC�mniticgrAtalline Est, of20'cells' " 4 WattClassSorhrg (W) 0/+5 0/+5 0%+5 0/+5 0/+5 t } olan Glass: -r 0.13° (3 2,mm) slasswtth NomlrialPowerVoltage; V,,PP(V) 31.5 317 319 321, 32.3 ants"r Fl etive'�s�uQace moment �NominalPowerC.)rrent-I„rP(A) },8.74 8.84` , 6:95. 9056 9.14 BaektsheeG t Highlyresfs`fannninllyye�ster 5 -. V, 8.4OpenGrcuitVoltage=V(V)382 386 X388 39A +I fi onlefinc nesltunrmucinfiuomn " j A Circuit Current )A) 930 9.39 9.58 965 :.Sct. ... Frame: , . odiz�edshort (A allabl Insllverorb'lack) . n-OC Panel Efficiency(%) . `,, 165 16.8 171 17.4'' 7.7 lunciionbox` ` IP67ratedy3 partwithl3bypessdiodes.�.. + 2m)1 Values at standard testcondit[onsSTC (ainnassAMI.S, irradiance 1000W/ne,cell temperature 25'C). ' 12%AWG(4mmZ)PVWife3L5 (0 ' AtlowirradianceofZ)OW/m'(AM 15and cell temperature 25'C)atleast 94%ofthe STC module efficiency wllheachieved. - 'Where xxxindicates ':henominal powerclass (P,.jatSTC indicated above, and can befollowed bythe suffixBLKfor black framedmodules. - ConneGtor;S:. I' St�ubI1MC4PVKBT�y4�� V'KSt0. ;,MAXIMUM ; RATINGS Nominal Power ,MPPP) (W :• !2061 210 214 218 223 Operationaltemprat'ure .. .. ..... VM,(V) 292 .4 29.6 298 300' " Nominal Power voltage ; 29 Maximumsystemvoltage 1000V� , r r 7 07 71'5 ` 7.24 7 32 _ 7 43 Nominal Current -I-(A)g Oesos (+)`75'v2f4' 03600 Pa) 33 1. x OpenCircuit Voltage Vdc (V) , . .35.4, 35.6 3,5 .8 a. 36.0 36.2 • (t) s%ft2 (d60 rtolnstalltionman Refe al, ShortCircuitCurrent I (A) : '_752 7.59 7.68' 7.75 ' `7.85 sc .........:.. Y..... -, Max Seri- s fuse rat1 _g: 20 A° Nominal operating cell temperature NOCT (800 W/m°, AM 15, windspeed l m/s, amblent temperature *Wherti xKx Indicates the nominal powerclass (Pj at STC indicated above. andcan be followed by the suffix BLK for black framed modules. ' Max rere-securrent:. 20TA ,D -7CERTIFItATI,`�WARRANTY MECHANICAL DATA"0 r .IO.yearproductwarrarity = ' CC DVE '.' S�° 25' earlinear ower output Y P P Y Olmensions:,, 65!9:x•39.251x1.5({167r5x,997x.38'mm). r 1798ft2(1.67m2) Area: 1 o t— t , C us nIde resslonin erformanceofO.7% a from 97% P ` UL'1703, Fire claisificationType ilk 6121S.IEC91730. ,, after thefirstyear)p Weight:; 40.81bs(1185.kg) IEC61701(SaltMist everitylevel 6).IEC 62804(PIDFree), See warranty conditions for further details: IEC62716(AmmoniaResistance),ISO 11925-2(IgnitabilityClassl) " • 11 SU eE_titochange4dift1UIJ five r= ! UNI8457/9174(ClassA).1509001:2015.15014001,OHSAS18001' Founded in Norway in 99 REC is a leading vertically integrated solar energy company. Through integrated manufacturing from source ofzleant,: •.silicon to waferapeells, high-quality panels and extending to solar solutions, REC pr w,:_:_� the world with ail reliable energy. REC's renowned product quality is supported by the lowest warranty claims rate in,the industry. EC is a Bluestar Elkem r companywithheadquartersinNorwayandoperationalheadquartersinSingapore.RECemploysmorethan2,000peopleworldwide; , .. producing 1.4 GY1of solar panels annually. I- ' www.recgroup.com r, Manufacturer: Ginlong (Ningbo) Technologies Co.,Ltd., Ningbo, Zhejiang, P.R.China US Office: 565 Metro PI. S. Suite 3214, Dublin OH 43017, USA Toll-free: 866.438.8408 1 Email: sales@ginlong.com I sales@ginlong-usa.com Web: www,ginlong.com I www.ginlong-usa.com Please record the serial number ol'your Rapid Slwtdown Device and quote this when you contact us. E1 Intertek PV Rapid Shutdown device Installation and Operation Manual Solis -RSD -1 G(1:1 ) Solis -RSD -1 G(2:2) Solis © 2016, Ningbo Ginlong Technologies Co., Ltd Ver 1.0 i 1. Introduction.....:............................................... 2 1.1 Product Description •••••••••••••.••••••••••••••••••••••• 2 t 1.2 Packaging............................................:.. 3 2. Safety Instructions............................................ 4 2.1 Safety Symbols ............:............................. 4 2.2 General Safety Instructions p•••••••• .•••••••••••• 4. - � k - 3. Installation •...............................:...................... 6 3.1 System diagram...............:......................... .6. a 3.2 Installation ........................: ..................... - e 4. Commissioning................................................. 12 5. Troubleshooting............................................. 12 6. Specifications................................................ 13 6.1 Technical Specifications •••••••=•••.••••••••••••••••• 13 -l'. Introduction . r < .= 1. Introduction - - r7_1 r. . " The Solis Rapid Shutdown Devices (RSD) are certified to the UL 1741 inverter When you receive the RSD, please ensure that all the parts listed below are included: ' standard and comply to all 2014 National Electrical Code 690.12 Rapid Shutdown requirements. Solis RSD's are packaged inside NEMA 4X enclosures that fit neatly •' �' under the modules. The RSD is controlled by an AC signal circuit. A green LED on the RSD indicates that AC power is supplied to the RSD and that RSD 'PV output circuits may be energized. ` When first responders cut AC power to the building, the RSD(s) will force the PV array and DC capacitors inside the inverter(s) to drop to less than 30VDC and less than 240VA ra i j• in less than 10 seconds. 1 i A Figure 1.3 Parts solis Part # ' .Description Number 1 Rapid Shutdown Device 1 2 ,AC Terminal Assembly 1. 3 Manual 1 A Table 1.1 Parts list A Figure 1.1 Front side view r + , yr ��Y - �*`- .Mi, .� �• - +' � ` '_ [ ~ + .- •'• � . �. '•`-'4< •` � � � •.._: ..' s4. I � , _, •j 1 -. - r • �, _. a ; •�. } _ Z( � +` � A Figure 1.2 Back side view' r r `'*_, t , TA •' 'r �, .' •4 -. `' ; • 1 x t . •, ' -"_(i K .hr r + ?._Safety 1_n,structions w 2 -Safety tlnstructi®ns #fit l K `60 iss'l� Off ��'���� Improper use may result in potential electric shock hazards or burns. This manual Q CAUTION: f contains important instructions that must be followed during installation and An electric shock can be fatal. Inadequately sized electrical components can cause serious injury and damage to property. maintenance. Please read these instructions carefully before use and keep them r - All electrical connections must be made in acc'rdance with the National for future reference. - `• Electrical Code, ANSI/NFPA 70, and any other regulations applicable to the installation site. Safety symbols used in this manual, which highlight potential safety risks and important safety information, are listed as follows:, QWARNING: g WARNING symbol indicates important safety instructions, which if not correctly followed, could result in serious injury or death. QCAUTION: CAUTION, RISK OF ELECTRIC SHOCK symbol indicates important safety instructions, which if not correctly followed, could result in electric shock. CAUTION: SSS CAUTION, HOT SURFACE symbol indicates safety instructions, which if not correctly followed, could result in burns. - Use min.194 F(90 C) copper wire for all grounding wires (see NEC table. 250.122). -Voltage drop and other considerations may mean larger cable cross sections need to be used. The PV array (i.e. the solar paiiel") supplies a DC voltage when it is exposed to sunlight. `ATTENTION: �`• - A ATTENTION; Installers of the'RSD shall have a reflective, white -on -;ed, . permanent plaque or directory that includes the -following wording; PHOTOVOLTAIC SYSTEM EQUIPPED WITH RAPID SHUTDOWN f CAUTION: " t SSS The surface temperature of the RSD can reach up to 75C (167F). To avoid risk of burns, do not touch the surface of the RSD when it is operating. WARNING: € Incorrect operation or maintance can cause serious injury and damage to property. Only qualified personnel to commission the Rapid Shutdown Device and only within the scope of the respective technical regulations. Read the safety rules before commissioning and performing maintenance work.. WARNING: I, Work performed incorrectly cavi cause serious injury and damage. • ; ; } The Rapid Shutdown Device should only be installed by qualified personnel: _ .,.,... • ry f = ' Follow the safety rules! ` Before any installation or connection work is carried out, disconnect the AC supply to the inverter and the DC supply to the Rapid Shutdown Box. .4. nstallati®n °� 3. I nstallati®n F •,2=.� The Ginlong Rapid Shutdown Device is controlled by an AC signal circuit. If AC power is RSD is designed to mount on the rack under PV modules. cut at the utility service entrance and/or at the inverter AC output circuit disconnect, the Step 1. Attaching RSD to the racking. - RSD will be activated and the PV array will drop to less than 30 volts in less than 10 seconds (per 2014 NEC 690.12). Solis -RSD -1G(1:1) - _• - .� r + _ ` + � • . , , Sot's Transtormrr•IepS ' • . � ,,, � ` - -~ �� � , ;oa:P •r.a9 z:ar:c ! 5�IYI8.invert Pt aucc .......... . Sc6s �.......:. Mn .......... • (T �H�---� C •ice (VSD) ASO tnoul: HSPO-' 1 . nurce 20A i\' l . .r .. �. 20A PV S�+ - 20A �l�V!/ � r • � a c - r � . circuit "'pati: output circuit ` • • = r - • �. • rr sv.m. cavi. t - o,e C -d.11 • •. o•tuaC ,.. i *" . '� d f- e Figure 3. 2 Attaching RSD to rack 1 "'a. Evaluate the location of the RSD with respect to the PV module junction box Solis -RSD -1 G(2:2) , or any other obstructions. ` - .. ,� � , $yrs Transformer les; _ ••r. oc C _c s:+:.re.a •::cv:.c ittieBJnvxtlnl. ,,� a • - t - r cor:.«:ar, c. «:rr P.t� a:•:y WARNING: • �. Sobs �............o i.....���• ..............., - s RaPidSnwdam �� f i - Allow aminimum of 3/4 inches between the top of the roof and the bottom De.•icc lRsoi �� — — - - of the RSD. We also recommend that you allow 1/2 inches between t c:oc the back of the PV module -and the top of the RSD. Do not mount the RSD C° " .n in a location that allows exposure to direct sunlight. • HSR!^Oi+l.' '_ RSO Outaut: .~ . V - s- � .. • . .. ' -• 10A • ICA 10A • IOA s Source Circuit snout _ PV output circuits _ r `r F- P,sa K,c.:ni:: on•conaw, ^ t'u b. If using grounding washers (e.g. WEEB) toground the RSD chassis to the PV �• , module racking, choose a grounding washer that is approved for the racking A Figure 3.1 System diagram _ manufacturer. Install a minimum of one grounding washer for RSD. The Torque for ! - • the fasteners values listed below: • 1/4" mounting hardware —45 inlbs minimum 5/16" mounting hardware — 80 inlbs minimum. r . . • + i . I nstallatio.n 3. I nstallati® ,A Figure 3. 3 Fix the screws Step 2 - Using MC4 connectors, connect the DC input and DC output wires. RSD -1G(1:1) DC connection: The single channel RSD -1 G (;1:1) enclosure is rated for 20 amps. Installers may parallel wire more than 1 pair of PV suing conductor to the single channel RSD -1 G (1:1) input connectors. " i However, the total Imax current must be less than 20 amps and Isc current less than 31.2 amps. Any parallel wiring of PV module strings. on the roof must be accomplished per NEC guidelines. RSD -1G(2:2) DC connection': S The dual channel RSD -1G (2:2) enclosure is rated for 30 amps. Either channel can accept 20 amps (31.2 Isc). Installers may parallel wire more than 1 pair of PV string conductors to one of the chanriels on the dual channel RSD -1G (2:2). However, when the installer connects a PV string(s) to the second channel, they must be sure that the 30 amp total RSD -1 G (2:2) enclosure rating has not been exceeded., Any � parallel wiring of PV module strings on the roof must be accomplished per NEC guidelines. g . • F .8. f A Figure 3. 4 Connect DC input and DC output MC4 connectors a. Connect PV string to RSD "STR DC" side, connect inverter DC input to RSD "INV DC" side. QI WARNING: The string input PV+and PV -must match RSD PV+and PV-. Reverse PV input polarity could damage the RSD and void the warranty. Step 3 - Connect AC terminal of RSD Each RSD includes an AC 3 -pin weathertight bulkhead receptacle on a short pigtail. One (1) AC 3 -pin mating connector assembly comes with each unit. Follow the instructions below to assemble the At signal circuit connectors and make all connections. a. Use an appropriate 3 -wire cable for the AC signal circuit connection. The AC signal circuit cable wire size can range from 18AWG to 14AWG. b. Follow the wiring sequence below to connect the cable to the AC 3 -pin weathertight connector 240V AC ' I _ _ _ Black - L1, Pin 1 - Black L1 Red - L2 z®� Pin 3 = Red L2 Green - Ground Pin 2- Ground (Optional) , F. Y © Table 3. 1 AC cable connection'squence 3. Installation 3. Installation c. Please see Figure 3.5 for proper assembly of the 3 -pin AC connector. After assembly connect the connector to the RSD bulkhead receptacle. A Figure 3. 5 Assembly of the AC connector Step 4 - Grounding the System A Figure 3. 6 Ground connection If you are not using grounding washers to ground the RSD chassis please follow the step below. Each RSD comes with a ground clip that can accommodate a single #6, #8, or #10 AWG conductor. Check your local code for grounding conductor sizing requirements. a. Connect the grounding electrode conductor to the RSD ground clamp. Torque the RSD ground clamp to 20 in -lbs, 2.25 N -m. The racking and module could be grounded to this conductor using a crimp connection. Step 5 — Complete the RSD installation by routing the RSD DC output conductors and the AC signal circuit conductors to the wire box on the Solis inverter. a. Follow instructions in theGinlong Inverter Installation Manual to connect the RSD DC output conductors to the i0certer DC input terminal blocks inside the inverter wire box. Check to ensure that DC polarity is correct. a. Follow instructions in the Ginlong Inverter Installation Manual to connect the RSD DC output conductors to the inverter DC input terminal blocks inside the inverter wire box. Check to ensure that DC polarity is correct. b. Connect RSD "GRID" Connect the RSD "GRID" conductors (i.e. AC signal circuit conductors) to a 240VAC termination point, inside or outside the Ginlong Solis inverter wire box. A 2 -amp ac fuse is integrated in RSD to protect the RSD AC signal circuit components and conductors. A7, Attention To ensure AC signal quality, the AC signal circuit conductors must be no longer than 100 meters. Attention F After installation of one or more RSD's on site, the system installer will install a plaque (per 2014 NEC 690.56(C)) that reads: PHOTOVOLTAIC SYSTEM EQUIPPED WITH RAPID SHUTDOWN. Additional signage on site can include a plaque next to the InverterAC Disconnect Switch that reads: OPERATION OF THE PV SYSTEM AC DISCONNECT SWITCH WILL RESULT IN RAPID SHUTDOWN OF THE PHOTOVOLTAIC ARRAY AND INTERRUPTION OF SYSTEM POWER. QWARNING: IThe RSD and all ac connections to the utility grid must only be made by qualified personnel. WARNING: Ensure that all AC and DC wiring is correct. Ensure that none of the AC and DC wires are pinched or damaged. Ensure that all wiring boxes are properly closed. . Com missionin To commission the PV system with the Solis RSD(s) installed: da a. Move the Inverter AC ollitput circuit disconnect switch to the ON position b. Move the PV system int;erter output circuit breakers to the ON position c. Ensure that RSD AC signal circuit conductors are energized d. Confirm the correct polarity of the DC input circuit conductors. e. Move the DC switch on the inverter to the ON position f. Confirm the inverter turns ON in 300 seconds (5 minutes) . Troubleshooting WARNING: IThe RSD and all ac connections to the utility grid must only be made by qualified personnel. ailure of the RSD could interrupt DC power to the inverter. If the installer checks the C input terminals at the inverter and does not detect PV voltage, the installer should Mow the procedure below: Check DC string voltage at the inverter as a way to isolate the issue to the RSD or to the inverter. If the DC voltage can be measured at the DC input terminals at the inverter, follow inverter troubleshooting instructions. If DC voltage cannot be measured at the DC input terminals at the inverter, Check the AC signal circuit connection point to confirm that AC power is available at these terminals. If there is AC power at the AC signal circuit connection point, check to see if the RSD LED is lit. This would indicate that the RSD has AC signal circuit power. Check for loose MC4 connections at the RSD DC inputs and outputs. If the RSD LED is off, check all AC and DC cable connections. After confirming the inte arity of the DC cable connections and confirming that the RSD is receiving AC po,,�,Ver, but the LED is still OFF, replace the RSD. a 12 6. Specifications) 13. k i OC•' - 5o1I5-RSD-1G 1:1 Maximum Input and Output voltage - 600VDC DC Input Voltage Range 30-6UOVDC Maximum Number of PV Source Circuits I input/ I output - [-Aaximum Input / Output Current ; 20A Maximum Short Circuit Current 31.2A OC Input / Output Cable Whips PV Wire Willi MC4 Lucking Connectors DC Input / Output Wire Size AWG #12 to h0 Ground Wire Size AWG 1,110 to 46 AC .. Rated AC Input Voltage 208240VAC Rated AC Input Current _ OJA Rated Frequency 50160liz AC Control Wire Size AWGL,018 to 014 ' Maximum AC Fuse Rating 2A GENERAL' Ambient Temperature Range -251u +65°C (-13 to 158'F) Enclosure Type NEMA 4X Roof Mount Style Rail -mount plate (WEEB Compatible) Status Indicator LED Efficiency %99.5% ' Response Time - :2 seconds Dimensions (W=H-D) 262'240`43 cm / 10.3.9.4^1.7 in ' Weight - 2.3kgI5.1lb Warranly 10 Year ' Corlificalion 8 Safety Standard UL1741, FCC Pan 15 Class B. Compliance NEC 690.12• 13. 6. Specifications % ".si^.: -,. � .•ot� � ..'1 ..). e'6 i"... 7:�_7. :-U 1 d�� K �:'r rl y<. ... p o f�,} DC - Solls•RSD•1G-2:2 .. Maximum Input and Output Voltage 600VDC , OC Input Voltage Range 30.600VDC Maximum Number of PV Source Circuits 2 input / 2 output Maximum Input / Output Current 10120A Maximum Short Circuit Current 31.2A DC Input / Output Cable Whips PV Wire with MC4 Locking Connectors DC Input / Output Wire Size ite AWG #12 to #6 Ground Wire Size - AWG 1110 to #6 AC Rated AC Input Voltage 208/240VAC Rated AC Input Current 0.1A Rated Frequency 50/60Hz I AC Control Wire Size AWG 1018 to #14 Maximum AC Fuse Rating 2A GENERAL., Ambient Temperature Range -2510 +65"C (-13 to 158"F) Enclosure Type NEMA 4X Roof Mount Style Rail -mount plate (WEER Compatible) ' Status Indicator LED . ., .... .. .. .. .... ............. Efficiency _.....,..._._.. .... ....................,.................... >99.5% i Response Time <2 seconds Dimensions (W -+H=D) 262"240`43 cm / 10.3"9.4'1.7 in Weight 2.4 kg 15.2 Ib Warranty 10 Year Certification & Safely Standard UL1741, FCC Part 15 Class B. Compliance NEC 690.12 ' 14. 1.0 Reference and Address Report Number 150201029SHA-001 Original Issued: 19-Mar-2015 Revised: None UL Standard for Inverters, Converters, Controllers and Interconnection System Equipment for Use With Distributed Energy Resources, UL 1741, Second Edition Dated January 28, 2010 containing Revisions through and including January 7, 2015'& - Standard(s) General Use Power Supplies, CSA C22.2 No. 107.1-01 dated September, 2001, Reaffirmed 2011 with Interim Certification Requirements for Utility-Interconnected Inverters - CSA Technical Information Letter (T.I.L.) No. 1-43, dated January 21, 2011 Entirel Re laces Re ort.Number 140601539SHA-001 Applicant Ningbo Ginlong Technologies Co., Manufacturer Ningbo Ginlong Technologies Co., Ltd. Ltd. - ' No. 57, Jintong Road, Seafront No. 57, Jintong Road, Seafront (Binhai (Binhai )Industrial Park, Xiangshan Address )Industrial Park, Xiangshan Economic Address Economic Development Zone, Development Zone, Xiangshan, - - Xiangshan, NINGBO Zhejiang315712 NINGBO Zhejian 315712 Country CHINA Country CHINA Contact-- Mr. Wang Yiming Contact Mr. Wang Yimin Phone 0086-574-65781806 Phone'" 0086-574-65781806 FAX.. 0086-574-65781606 FAX :, .. 0086-574-65781606 Email' linfoflginlong.com Email 1info2ginlong.corn Page 1 of 66 This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility ano lability 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 report. Only the Client is authorized to permit copying or distribution of this report and Men only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and lest results in this report are relevant only to the sample tested. This report by itself does not imply that the rxn�navmvr Report No. 150201029SHA-001 Page 2 of 66 Ningbo Ginlong Technologies Co., Ltd. Issued: 19 -Mar -2015 Revised: None 2.0 Pfoduct D69 ri tion P.,roddbt -...ri r-:. Grid -Tie Inverter Es ran name Ginlong, Solis Description The products covered by this report are single-phase, non -isolated, grid connected inverters for . solar power generation with a rating from 1 kW to 5kW. GCI-'K-2G-US, GCI'K-2G-W-US, GCI 'K -2G -H -US, Solis -'K -2G -US M deS.! (The "*" in the models could be 1, 1.5, 2, 2.5, 3, 3.6, 4, 4.6 or 5) '-`..i. The "" in the models means nominal AC power rating of the inverter, could be 1, 1.5, 2, 2.5, 3, 3.6, F'x 4, 4.6 or 5, which stands for 1kW, 1.5kW, AW, 2.5kW, UK 3.6kW, 4kW, 4.6kW or 5kW. ; The models with the same nominal AC power rating is physical and electrical identical except with Ivloiiel ^' t•,:.,,�;�,�� different model name. Similanty'.wr; The models with different nominal AC power rating have similar circuit diagram and constructions except with different sizes of heatsink, enclosure, power devices and ratings. Ratings' Refer to section 7 Illustration 2 - Ratings Other Riitih NA sem.: ED 16.3.15 (Wan -13) MandotM Report No. 150201029SHA-001 Page 58 of 66 Ningbo Ginlong Technologies Co., Ltd. Issued: 19 -Mar -2015 Revised: None 8.0 Test Summary Evaluation Period 2014.06 - 2014.07 Project No. 140601539SHA Sample,Rec. Date 23 -May -2014 Condition Prototype Sample ID. . 0140523-31- 001-005 Test Location. Intertek Testing Service Shanghai Limited. Test Procedure ITesting Lab Determination -of the result includes'consideration of measurement uncertainty"from°the test equipment -and -- methods. The product was tested as indicated below with results in conformance to the relevant test criteria. The following tests wereperformed: CSA C22:2 - No.107.1=01 Dated ' . Septembee' IEEE Std. UL 1741..2nd 2001',':': Edition Dated Reaffirmed Dated June 9; '` "' ' ' Janus ` 2t3;tr2010 2011 r ' " 2005,:'f est Descri' tion rY Maximum -Voltage Measurements 42 -- Temperature 43 6.3 -- Dielectric Voltage -Withstand Test 44 6.5 Output Power Factor Test -- 15.3.2.1 Output Power Characteristics - Output Rating 45.2 15.3.2.2 Output Power Characteristics - DC Input Range 45.3 6.2.3 -- Abnormal Tests - Output Overload Test 47.2 6.6 -- Abnormal Tests - Short Circuit Test 47.3 -14.4.2 -- Abnormal Tests - DC Input Miswiring Test 47.4 14.4.3 -- Abnormal Tests - Component Short and Open Circuit 47.6 15.3.7 -- Abnormal Tests - Loss of Control Circuit 47.8 15.3.6 -- Grounding Impedance Tests 48 4.23 -- Static Load 59 -- -- Rain and Sprinkler 61 -- 4.2.7 Operation Temperature Test -- -- 5.1.2.1 Storage Temperate Test -- -- 5.1.2.2 Test for response to abnormal voltage conditions -- -- -5.2 Response to abnormal frequence conditions -- -- 5.3 Start Current Measurement Method 2 -- -- 5.4.4 Protection from EMI Test -- -- 5.5.1 Sure Withstand Test -- -- 5.5.2 DC Injection for inverters without interconnection transformers -- -- 5.6 Unintentional Islanding Test -- -- 5.7.1 Open Phase -- - 5.9 Securement of components -- 6.17 -- Resistance to impact - 6.13 -- Reconnect Test Following Abnormal Condition Disconnect -- 15.3.4.3 5.10 Harmonics Test for Inverter -- 15.3.3 5.11 • '- Test.Descrition UL 5085-1 UL 5085-3, Dated April 17, Certification 2006 containing Technical. , „ Decesion for Revisions,, a �.� - Information'Letter �L,:I 7-411 Aated` ' through and No. I-43, dated January 28, including May January 21, 2011 2010' 24, 2011 Anti-islanding test 1.1 -- -- Anti-islanding test 2.1 -- Voltage and Frequency Operation Limits 4 -- -- Continuous Isolation Monitor Interrupter Fault Current Limit Test 1-- 94 -- ..7 = en=13) Mandatory- - -solo Ground Fault Protelction Is Inverters Ground Fault Protection is Standard in the Ginlong North American String Inverter Product Line Ginlong inverters are sold around the world and are certified to IEC Standards in Europe (TUV), the A53100 and AS4777 Standards in Australia (ASS), and to the UL 1741 Standard in North America (ETL): Any inverter that hopes to bear the certification mark of a Nationally Recognized Testing Laboratory (NRTL) and be sold in the United States must pass safety and protection tests as part of the UL test standard. As part of the UL Test Standard, the Ginlong product line of single and three phase inverters are subjected to a battery of tests to ensure that the inverter conforms to the relevant test criteria. For example, all Ginlong inverters sold in North America must be an anti-islanding type. Inverters are tested for grid monitoring and unintentional islanding. The Ginlong NEMA 4 inverters must pass a rain and sprinkler test. The enclosure cannot exceed a certain temperature during normal operation and must be resistant to impact. Electrical tests are done to ensure that abnormal grid or DC circuit conditions are safely handled by the inverter. Overload and short circuit tests are applied to both the AC and DC circuits. DC input and AC output ratings must be correct. The inverter is tested for harmonics and must respond to abnormal frequency conditions. For protection of system owners and. system technicians, all Ginlong inverters are tested for ground impedance and for safe response to ground faults. Ginlong inverters are designed to protect the installer and system owners during normal operation. And when the inverter detects abnormal conditions, Ginlong inverters employ additional safety features including; • Grid Monitoring • Ground Fault monitoring and protection • Anti-Islanding protection • Temperature protection • DC reverse -polarity protection • AC output overcurrent protection • Output overvoltage protection Other Ginlong inverter safety equipment includes an optional integrated AFCI (DC arc fault protection) and an integrated DC switch on the bottom of every inverter. For compliance to the NEC 690.12 rapid shutdown requirements, Ginlong offers a Rapid Shutdown Device (RSD) that can be installed at the PV array. '' ":sin: � •� �:.,�.a• 1 Ginlong Technologies (Ningbo) Co. Ltd. Ginlong Solis USA: 565 Metro. PI. S. Suite 3214, Dublin, OH 43017 Toll free: 866.438.8408, www.ginlong-usa.com Z 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 c property of--Intertek- Testing -Services and isnot transferable. -The certification_mark(s) may be , applied only at the location of the Party Authorized To Apply Mark. Applicant: Ningbo Ginlong Technologies Co., Ltd. Manufacturer: Ningbo Ginlong Technologies Co., Ltd. No. 57, Jintong Road, Seafront (Binhai No. 57, Jintong Road, Seafront (Binhai )Industrial Park, Xiangshan Economic Address: )Industrial Park, Xiangshan Economic Address: Development Zone, Xiangshan, Development Zone, Xiangshan, NINGBO NINGBO Zhejiang 315712 Zhejiang 315712 Country: CHINA Country: CHINA Contact: Mr. Wang Yming Contact: Mr. Wang Yming Phone: 0086-574-65781806 Phone: 0086-574-65781806 FAX: 0086-574-65781606 FAX: 0086-574-65781606 Email: info@ginlong.com Email: info@giniong.com Party Authorized To Apply Mark: Same as Manufacturer Report Issuing Office: Intertek Testing Service Shanghai Control Number: 3186984 Authorized by: ` I �III'l l°VjV Thomas J. P tter ori; CertificafiphlManager v C us craTEo Intertek This document supersedes all previous Authorizations to Mark for the noted 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 parry, 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 copying or distribution of this Authorization to Mark and then only In Its entirety. Use of Intertek's Certification mark Is restricted to the conditions laid out in the agreement and in this Authorization to Mark. Any further use of the Intortok 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 or 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 UL Standard for Inverters, Converters, Controllers and Interconnection System Equipment for Use With Distributed Energy Resources, UL 1741, Second Edition Dated January 28, 2010 containing Standard(s): Revisions through and including January 7, 2015 & General Use Power Supplies, CSA C22.2 No.107.1-01 dated September, 2001, Reaffirmed 2011 with Interim Certification Requirements for Utility -Interconnected' Inverters - CSA Technical Information Letter (T.I.L.) No. 1-43, dated January 21, 2011 Product: Grid -Tie Inverter Brand Name: Ginlong, Solis GCI -'K -2G -US, GCI 'K -2G -W -US, GCI 'K -2G -H -US, Solis -'K -2G -US Models: (The ""r in the models could be 1, 1.5, 2, 2.5, 3, 3.6, 4, 4.6 or 5) ATM Issued: 30 -Mar -2015 EO 16.3.15 (1 -Jen -13) Mandatory t . Solis inverters .' 6kW to 10kW - - Ginlong Solis US Version Single Phase Inverters = Leading Features • Industry Leading High Frequency Switching .—_,.• - Technology • Compact and lightweight design inside a Accessories Monitoring corrosion -resistant NEMA 4X enclosure • . Easy to install and visually pleasing for indoor or outdoor installations - WIFi Stick �- • Single phase 240Vac output VZ • 97.8% efficient with an ultra -tow start up voltage • Industry-leading 3 and 4 MPPT designs with fast (< 5 sec.) MPPT response times. Web Box Industry leading (100-500) Operating MPPT Voltage Range • Integrated Arc Fault Circuit Interrupt (AFC0 option • RS485 Modbus communication protocol with Wi-Fi Rapid r interface (optional GPRS) Shutdown e . Web based data monitoring with downloadable Device Solis Web App. • 10 Year Standard Warranty with extension options j Contact us today. Manufacturer: US Headquarters: Y f t: 866.438.8408 Ginlong Technologies 565 Metro Place South I e: sales@gintong-usa.com Ltd., Ningbo, Zhejiang /Suite 3214, Dublin, OH V 0WE w: gintong-usa.com P.R. China 43017 USA oiNioao Technical Specifications Model Energy Source ---- DGValues_:_:__..:......... Max. power per MPPT(Watts) Max. voltage(Volts) Startup voltage(Volts) Full power MPPT voltage rangelvolts) Operating MPPTVoltage Range Max. usable input current per MPPT(Amps) Max. short circuit input current(Ampsl Number of MPPT Inputs per MPPT AC Values (240Vac and 208Vac) Nominal output power 240/208V grid (Watts) Max ccntinuous output Operating voltage range(Volts) Relative Humidity Range. Max. continuous output current 240/208V (Ampsl Max. overcurrent.protection device 240/208V (Amps) Outpul Power Factor Grid TIO (current) Operaling frequency range (Hertz) Ambient operating temperature range Efficiency Peak efficiency CEC weighted efficiency MPPT efficiency Protection Temperature protection DC reverse-polaFity protection AC short circuit protection AC output overcurrent protection Output overvoltage protection-Varistor Ground fault monitoring Grid monitoring Islanding protection Integrated AFCI(DC are -fault circuit protection) Rapid shutdown General Data Dimensions(W`H'D) Weight Topology Internal consumption Enclosure type Noise emissionitypical) Cooling concept Mai.cperating altitude without derating Compliance Features Connections Display Interlace Warranty Solis- Solis- . Solis- , Solis- Solis- Solis- IIKK-413-1.15 1P7K-4G-US 1P7.6K-4G-U5 1P8K-4G-U5 1P9K-4G-US 1P10K-4G-US PV 200-500 . 233-500 3 4000 600 120 253-500 200-500 100-500 10 15.6 225-500 250-500 4 6000/6000 7000/7000 7600/7600 8000/7600 9000/8600 10000/9500 6600 7700 8360 8800 9900 10000 183-228 (for 208V rated)/211-264 (for 240V rated) 0-100% Condensing 25/28.5 29.2/33.7 31.7/36.5 33.3/36.6 37.5/41.3 41.7/45.9 40/40 40/40 40/50 40/50 50/50 50/60 >0.99 THDi<3% 59.5-60.5 -25°C to 60°C/=13°F to 140°F 97.8% 97.5% >99% Yes Yes Yes Yes Yes Yes Yes Yes Yes Optional 13.1'25.8.9.8in 43.21b 43.71b Transformerless <lW (Night) NEMA 4X <30 dBA Natural convection 13120ft 1400047" UL 1741, UL 1998, UL 1699B, IEEE 1547, FCC Part 15 Klass A & B), CANICSA C22.2107.1-1 j' Plugged 1 1/4" ID on sides, Plugged 1 1/2" ID on bottom LCD, 2x20 Z. RS 485, WiFi/GPRS (optional) 10 Years STD (Extendable to 20 Years) cA�.l .�—Made-hvGinbnaTec600IM, . . I - sslubm 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. , c� R315.1.5 Multiple -purpose alarms: Carbon monoxide alarms combined with smoke alarms shall comply with Section R315, all applicable standards, and requirements for listing and approval by the Office of the State Fire Marshal, for smoke alarms. Butte County's Interpretation of 2013 CRC, Sections 314 & 315 for Smoke Alarms & Carbon Monoxide Alarms: Where alterations, repairs or additions exceeding $1,000 in valuation, existing dwellings shall be retrofitted with smoke alarms and those that have attached garages or fuel -burning Whances shall have carbon monoxide alarms installed. Existing smoke alarms can be replaced with dual function alarms for Smoke and Carbon Monoxide and inmost cases will comply with the aforementioned code requirements for Carbon Monoxide Alarms. DECLARATION OF INSTALLATION UNDER THE PENALTY OF PERJURY ' As Owner/Contractor, Uwe affirm and declare under the penalty of perjury, under the laws of the State of California, by our signatures below as Owner/Contractor, that Uwe will comply prior to final inspection, with Items A & B as specified herein: A. Both Owner/Contractor have read and clearly understand the aforementioned 2010 California Residential Code (CRC) Carbon Monoxide Alarm requirements. B. Both Owner/Contractor are responsible for installing Carbon Monoxide Alarms prior to final inspection as per the aforementioned building code and maintaining such installation. Smoke Alarms will also be, installed prior to final inspection as per the 2010.. . CRC. ' Smoke and Carbon Monoxide Prins are now installed in the following locations: 1 1 n a-[� e CDX Owner's name (print): Owner's signature._.,_ �` ( 007 [C__, Date: A F7 Contractor's name (print): iN CSLB License: <7 �, Date: IO Contractors signature: Project Address: J j�% 2 Permit #: D Revise :2 Department of Development Ser4s Butteonty PERMIT CENTER 7 County Center Drive, Oroville, CA 95965 W,= •�.w .,.Y Main Phone (530) 538-7601 Fax (530) 538-7785 www.buttecounty.net/dds Declaration of Installation for Smoke Alarms' and Carbon Monoxide Alarms FORM NO DBI -01 The newly adopted 2013 California Residential Code requires the installation of Carbon Monoxide Detectors in dwelling units and in sleeping units within which fuel -burning appliances are installed and in dwelling units that have attached garages. The policy for Carbon Monoxide Alarms in Butte,Countystates: "Any permit obtained in which the value of work exceeds $1000 associated with a Residential Group R Dwelling Unit or Sleeping Unit shall conform to the following 20.13 California Residential Code requirements for Smoke and Carbon Monoxide Alarms (Section R314 & R315)." 2013 California. Residential Code requirements for Carbon Monoxide Alarms: R315.1 New construction: An approved carbon monoxide alarm shall be installed in dwelling units and in sleeping units within which fuel -burning appliances are installed and in dwelling units that have attached garages. R315.1.2 Power supply: For new construction required carbon monoxide alarms shall receive their primary power from the building wiring where such wiring is served from a commercial source and shall be equipped with a battery back-up. Alarm wiring shall be directly connected to the permanent building wiring without a disconnecting switch other than as,required for over - current protection. - I Exceptions: 1. In dwelling units where there is no commercial power supply the carbon monoxide alarm may be solely battery operated. 2. In existing dwelling units a carbon monoxide alarm is permitted to be solely battery operated where repairs or alterations do not result in the removal of wall and ceiling finishes or there is no access by means of attic, basement or crawl space. R315.1.3 Interconnection. Where more than one carbon monoxide alarm is required to be installed within the dwelling unit or within a sleeping unit the alarm shall be interconnected in a manner that activation of one alarm shall activate all of the alarms in the individual unit. Exception: 1. Interconnection is not required in existing dwelling units where repairs do not result in the removal of wall and ceiling finishes, there is no access by means of attic, basement or crawl space, and no previous method for interconnection existed. R315.2 Where required in existing dwellings: Where a permit is required for alterations, repairs or additions exceeding one thousand dollars ($1,000), existing dwellings or sleeping units that have attached garages or fuel -burning appliances shall be provided with a carbon monoxide alarm in accordance with Section R315.1. Carbon monoxide alarms shall only be required in the specific dwelling unit or sleeping unit for wh►o,1he permit was obtained. R315.2.6 Alarm requirements: No person shall install, market, distribute, offer for sale or sell any carbon monoxide device in the State of California unless the device and instructions have been approved and listed by the State Fire Marshal. Pagel of 2 Revised 7.20.2015