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Home My WebLink AboutSOLAR ELECTRIC PV SYSTEM9 8 - - 7 1 6 1 5 1 4 1 3 1 2 1 1 E F SCOPE OF WORK: Solar electric PV system Improvement/Retrofit - Q-Cell 290 mono modules mounted on Iron Ridge or Unirac rails with Quickmount or equivalent Code Compliant flashings The scope of work is to verity that the solar electric Photovoltaic system specified in this document, meets the requirements set forth in the 2014 NEC, the 2017 FBC 6h Ed. and any other Local Utility requirements. CACELLS The Right Way! Quick Mount PV ilar, sCgr rmn moor JOB SITE ADDRESS: aj S( �►2(-CQ_ W i rid (�1`t`� C-1 1(L' f_�IoR�1 SL(gL(S" -PROPERTY OWNER NAME: ��OA1. rA- A- �)tg4(1 V A St Lucie C MAJOR EQUIPMENT USED: RAILS: BY UNIRAC OR IRON RIDGE - MODULES: HANWHA Q-CELL 290M 60 CELL MONOCRYSTALLINE GROUNDING: EXTERNAL FOR MODULES 290 STC RATED OUTPUT AND RAILS, #6 BARE COPPER INVERTER: SMA SUNNY BOY FOR EXPOSED AREAS, UNIFIED 3.0, 3.8, 5.0, 6.0, 7.0, and 7.7 US GROUNDING ON SAME GROUND GRID -TIED INVERTERS ROD AS MAIN'BREAKER PANEL NO BATTERY BACK-UP JUNCTION BOX: SOLADECK INCLUDES 115V SECURE UL 1741 LISTED POWER SOURCE AND RAPID SHUTDOWN COMBINATION, TRANSITION FLASHINGS: BY QUICKMOUNT PV, UNIRAC, FROM PV OR USE-2 CABLE TO OR IRONRIDGE THWN-2 CONDUCTOR, INCLUDES SHINGLE, TILE HAS BUILT IN 18GA GALV STEEL ROOF BRACKETS: BY S-5! FLASHING TO EXCEED FBC. STANDING SEAM METAL ROOF ST.LUCIS COUNfy PLAN REVIEW PROTEA BRACKET FOR 5V ROOF -�--•�: NOTES: 1 Wind load calculations based on ASCE 7-10 Components & Cladding simplified method and are multiplied by.6 to convert to ASD per 2017 FBC. As such, the maximum elevation is 30 ft with tables for exposures B, C and D. Broward and Dade use Exposure C and D only. 2. Wind force estimates are area dependent and per 2017 FBC 6th Ed., the area used for calculations is 1 module or 18 sq ft for the 32mm frame Q-Cell modules 290 through 300W. 3. Installation must comply with all applicable 2017 FBC 6th Ed.and 2014 NEC codes from which these plans were based. 4. Modules installed per these drawings are for Q-Cell 290 through 300 Series, (32 mm frame) listings with a maximum uplift of 55.6 psf for side mounting. Installation in pressure zones exceeding this rating is not allowed. Consult the Q-Cell installation manual for mounting dimensions and alternate orientations. DATE: 5. Modules must be installed on 2 rails as shown per the module manufacturers Q instructions to obtain the listed wind rating. DA 2.37Y 6. Combined module and rail dead loads are under 4 psf. PLUMB: DATE 7. Rail attachments shall be onto minimum 2x4 trusses or rafters spaced no f er apar`Y- than 24" on center. Attachments in roof zones 1 can be alternate from topWtl;Quat 48" on centers but attachments in Roof zones 2 and 3 or at the ends of argshall be 24" on center. `(refer to mechanical -drawing # M-100). 8. These drawings are only applicable for flush mounting to a roof with an air gap between 2" to 10" between module and roof surface. This requirement eliminates the module and racking from being considered as part,of the building envelope. Page Title Content Rev Date Notes Cover Cover General notes, site address, system selection 00/00 1 A-100 Roof Pressures Wind pressure tables and "A" dimension calculation 00/00 1 E-101 Electrical Diagram Electrical line diagram for Load Side Connection 00/00 1 E-101A Electrical Diagram Optional connections and secured power wiring diagram 00/00 1 E-103 Placard6 � ` r,I-:. Warning labels, and where used 00/00 1 r ),C-) S-101 ;)+las�idng ', t Quickmount Flashings and S-5! cut sheets 00/00 1 `' 01,•,'c • r. - S-102 - ;U'eneral Layout `-.General rail and module layout suggestions 00/00 1 �5� I S-103 � ,Unirac ' - Cut sheets and grounding notes on Unirac rails 00/00 1 S-104 IronRidge ,--Cut sheets and grounding notes on IronRidge rails 00/00 1 Z-101 4. FLa�SIA letter ' - FLASEIA letter in lieu of FSEC certification 00/00 1 Z-102 Motlui'ef'. Cut Sheets on Q-Cell 290 modules 00/00 2 Z-103 Inverter Cut Sheets on SMA Inverters 00/00 2 APPLICABLE CODES - - Florida Building Code 6th edition 2017 - National Electric Code 2014 - NFPA 101-2009 - NFPA 13-2007 ENGINEER: JOHN ALGER 4105 SAINT JOHN'S PARKWAY SANFORD, FL 32771 PH 800-929-3919 X1411 jalger@theleveredge.com State License # 74730 CONTRACTOR REQUIRED TO INDICATE SYSTEM SIZE BY SELECTING THE CORRESPONDING BOX BELOW. DRAWN BY: 2.90KW WITH 3.0 INVERTER Size to install: # modules:: _ WITH ❑3.48KW 3.0 INVERTER Size to install: # modules:: - 4A6KW WITH 3.8 INVERTER Size to install: modules:: NOTES 1. Drawings, calculations, tables developed requiring_a PE seal and signature 2. Support documents, cut sheets, tables, reprints from publications such as ASCE 7-10, and shop drawings that do not require a PE seal and signature 4.64KW WITH 3.8 INVERTER Size to install: modules:: _ ❑5.22KW WITH 3.8 INVERTER Size to install: modules:: - ❑5.8KW WITH 5.0 INVERTER Size to install: modules:: - ❑6.38KW WITH 5.0 INVERTER Size to install: modules:: - 0- PROVIDER: THELEVEHEDGE 1423 Gunn Highway Odessa, R.33656 813403-5100 Certificate of Authorization !k 31930 A DA-11/412016 9:30 AM 61 LDR-SI-SMA-QC290M Rev. 12.15.17 C r PHOTOVOLTAIC SYSTEM SIZE CONT.: ❑6.96KW WITH 6.0 INVERTER Size to install: # modules:: 7.54KW WITH 6.0 INVERTER Size to install: #. modules:: 8:12KW WITH 7.0 INVERTER Size to install: # modules:: - ❑8.99KW WITH 7.7 INVERTER Size to install: # modules:: _ 0 E F Table R301.2(2) interpolated to ettective area of 1gty lssq tt moauie or corrector Exposure 8, mean roof height 30 ft and under, Kd =.85, Kzt=1 Roof 130.1401 150l 1601 165 170; 1 175.180; Zones down uplift down uplift down uplift down uplift down uplift down uplift down uplift down uplift 1 10 -17.2 10 -20.2 9.3 -23.2 10.7 -26.2 11.4 -28.2 12 -30.2 12.8 -33 13.5 -35.7 2 10 -27.6 10 -31.8 9.3 -36.8 10.7 -42 11.4 -44.7 12 -47.2 12.8 -50.5 13.5 -53.7 3 10 -39.6 10 -45.8 9.3 -52.2 10.7 -59.4 11.4 -63.5 12 -67.6 12.8 -71.9 13.5 -76.1 1 10 -16 11.3 -18.2 13 -21.8 14.8 -24.2 15.8 -25.7 16.7 -27.2 17.8 -29.3 18.8 -31.3 2 10.1 -26.6 11.3 -31.4 13 -35.6 14.8 -40.8 15.8 -47.8 16.7 -54.8 17.8 -53.5 1 18.8 -52.1 3 10.1 -40.6 11.3 46.6 13 -53.8 1 14.8 -61 15.8 -69 1 16.7 1 -77 l7.8 77.fi 18.8 -78.1 1 16.3 -17.2 18.9 20.2 21.7 -23.2 24.7 -26.2 1 26.3 1 -27.8 27.9 -29.4 29.6 -31.5 31.3 -33.6 2 16.3 -20.2 18.9 -23.2 21.7 -27.2 24.7 1 -30.4 1 26.3 1 -32.4 27.9 -34.4 29.5 -37 1 31.3 -39.5 3 16.3 -20.2 18.9 23.2 21.7 -27.2 24.7 -30.4 1 26.3 1 32.4 27.9 34.4 29.6 -37 1 31.3 -39.5 Exposure C, mean roof height 15 ft and under, Kd = .85, Kzt =1 and lambda (adjustment factor) =1.21� Roof 1301. 1401 150; 160j 165; 170j a' 175; (: 180 Zones down uplift down uplift down uplift down uplift down uplift down uplift j R57W-nn u6lIRK1 down uplift 1 12.1 -20.8 12.1 -24.4 11.3 -28.1 12.9 -31.7 13.8 -34.1 14.5 36.5 1 ffls7sVF 3 97 11 16.3 43.2 2 12.1 -33.4 12.1 -38.5 11.3 -44.5 12.9 -50.8 13.8 -54.1 14.5 -57.1 ' 15.5 Ei 6 I f 16.3 -65.0 3 12.1 -47.9 12.1 -55.4 11.3 -63.2 12.9 -71.9 13.8 -76.8 14.5 -81.8 j &- {5ik; a'87?0`J 16.3 92.1 1 12.1 -19.4 13.7 22.0 15.7 -26.4 17.9 -29.3 19.1 -31.1 20.2 -32.9 FI r F2L5,71, „�51 22.7 . 37.9 2 12.2 15.7 -43.1 17.9 49.4 19.1 -57.8 20.2 -66.3i'I (; 21'Si %-6747'1 22.7 -63.0 3 12.2 -56.4 15.7 -65.1 17.9 -73.8 19.1 -83.5 20.2 -93.2;N 21;5( 93•:9� 22.7 -94.5 1 19.7 *-32.213.7-38.0 -24.4 26.3 -28.1 29.9 -31.7 31.8 33.6 33.8 -35.61 �5.`9 ;`{ 3851] 37.9 40.72 19.7 -28.I 26.3 -32.9 29.9 -36.8 31.8 -39.2 33.8 -41.0f �35 8. _ '1$� 37.9 47.83 19.7 -25.1 26.3 3 -9 29.9 36.8 31.8 39.2 33.8 �11.6y �3�r8?1° `-`�4;Bg 37.9 47.8 Exposure ure C, mean roof height 15 - 30ft, Kd =.85, Kzt=11deiid Lambda (adjustment foetal) 14 Roof 13w 1401 1501 160) 1651 ,1701,: 175! 180... Zones down uplift down uplift down uplift down Juplift down - uplift- - • down uplift down uplift down uplift 1 14.0 -24.1 14.0 -28.3 13.0 -32.5 15.0 -36.7 16.0 -39.5 --16:8 ` -42.3 17.9 -46.2 18.9 -50.0 2 14.0 -38.6 14.0 -44.5 13.0 -51.5 15.0 -58.8 16.0 -62.6 16.8, -. i-66.1 17.9 -70. 7R 0- --75.2- -3- -14.0- -55A- 14:0- - s4:1- :0- -73:1- -35.0 -133- I6.0 - -88:9- `16.8 -94.6 17.9 -100.7 18.9 -106.5 1 14.0 -22.4 15.8 -25.5 18.2 -30.5 20.7 -33.9 22.1 -36.0__ 23.4 `-38.1 24.9 -41.0 26.3 -43.8 2 .14.1 1 -37.2 1 15.8 -44.0 1 18.2 49.8 20.7 -57.1 1 22.1 -66.9 23.4:: 1 ;-76.7 1 24.9 1 -74.9 1 26.3 1 -72.9 3 14.1 -56.8 1 1.9,8 -65.2 18.2 -75.3 20.7 -85.4 1 22.1 -96:6- -23.4 1 -107.8 1 24.9 1 -108.fi 1 26.3 1 -109.3 1 22.8 -24.1 -26.5 -28.3 30.4 -32.5 34.6 -36.7 36.8 -38.9 - 39.1' ' 1' 41.2 41.4 44.1 43.8 -47.0 2 22.8 -28.3 26.5 -37-5 30.4 -38.1 34.6 -42.6 36.8 -45.4 39A :•48.2 41.4 -53-8 1 43.8 -55.3 3 22.8 28.3 26.5 -32.5 30.4 -38.1 34.6 -42.6 1 36.8 245.4"' "39.1 48.2 41A -51.8 1 43.8 -55.3 i 1 ! I I I � =f•� i � -Tposure D, mean roof height 15 ft and under, Kd = .85, Kzt=1 and Lambda ( adjustment factor) =1.47 Roof 1301 1401 150 1601 165_ 1701 175 1801 Zones down uplift down uplift down uplift down uplift dawn uplift down uplift down uplift down uplift 1 14.7 -25.3 24.7 -29.7 13.7 -34.1 15.7 -38.5 16.8 -41.5 17.6 -44.4 18.8 -48.5 19.8 -52.5 2 14.7 -40.6 14.7 -46.7 13.7 -54.1 15.7 -61.7 16.8. -55.7 17.6 -69.4 18.8 74.2 19.8 -78.9 3 14.7 -58.2 14.7 -67.3 13.7 -76.7 15.7 -87.3 16.8 -93.3 17.6 -99A 18.8 -105.7 19.8 -111.9 1 14.7 23.5 16.6 26.8 19.1 -32.0 21.8 -35.6 23.2 -37.8 24.5 -40.0 26.2 -43.1 27.6 -46.0 2 14.8 39.1 16.6 -46.2 19.1 -52.3 21S -60.0 23.2 -70.3 24.5 -86.6 26.2 -78.6 27.6 -76.6 3 14.8 -59.7 16.6 -58.5 19.1 -79.1 1 21.8 -89.7 23.2 -101.4 24.5 -113.2 26.2` -114.1 27.6 -114.8 1 24.0 -25.3 27.8 29.7 31.9 -34.1 36.3 -38.5 38.7 -40.9 41.0 43.2 43.5 46.3 46.0 -49.4 2 24.0 -29.7 27.8 -34.1 31.9 40.0 36.3 -44.7 38.7 -47.6 41.0 _50.6 43-5 -54.4 46.0 -58.1 3 24.0 -29.7 27S -34.1 31.9 -40.0 35.3 -44.7 38.7 -47.6 41.0 _50.6 43.5 -54.4 46.0 -58.1 -- l Exposure D, mean roof height 15 to 30 ft, Kd = .85, Kzt =1 and adjustment factor =1.66 ! V Roof 130 1401 1501 1 1601 1 165_ 1701 1751 18011 Zones down uplift down uplift down uplift down uplift down uplift down uplift down uplift down uplift 1 16.6 , =28.6 �1i5.6 ' ,-33.5 i5A 383 17.8 43.5 18.9 46.8 19.9 50.1 21.2 -54.8 22A 59.3 2 16.6 ` -03i8 ` 'lt� i -52:? , 15.4 61.1 17.8 69.7 18.9 -74.2 19.9 78.4 2L2 83.8 22.4 89.1 3 -16.6, i �65.7, , :16.61- .0' 15.4 -86.7 17.8 -98.6 18.9 -105.4 19.9 -112.2 21.2 -119.4 22.4 -126.3 1 18;fi ` , -26.d, � =if3.8/ �30 ` , `11,6 -36.2 24.6 -40.2 26.2 42.7 27.7 -45.2 29.5 -48.6 31.2 -52.0 2, : e.8' -,44.2 18.8 '-sil A6 59.1 24.6 67.7 26.2 79.3 27.7 -9L0 29.5 -88.8 31.2 -86.5 3- 16,8 67,4^ rt8.8 t 77.4 215 -89.3 1 24.6 -101.3 26.2 -114.5 27.7 1 -127.8 293 -128.8 31.2 -129.6 li 271.1 -28.6 31.4 -33.5,, , 36.6- -38.5 41.0 -43.5 43.7 46.1 46.3 -48.8 49.1 52.3 52.0 -55.8 2, ; 2y.1 -33.5 ' -31A , -38.5' 315A -45.2 41.0 -50.5 43.7 -53.8 46.3 -57.1 49.1 -61.4 52.0 -65.6 31, 273 -33.8 --M-41 '' -38. s z.22:0 -45.2 41.0 -50.5 43.7 -53.8 46.3 -57.1 1 49.1 -61.4 52.0 -65.6 Per Florldp'Bulidin-g �code, effectfve,area ttc, lye taken as the surface area of 1 module or panel Tables i�Jcllated from f20171o�da !] tkdipgCod -Residential, 6th Edition (2017) Page 25 as allowed for effective area Table values haee.been adjusted arCd'teEa dated for height and exposure using adjustment coefficients in Table 30..... Table values AveFalready oeut m l6plfeii by ).6 to convert component and cladding pressures to ASD. Values efven m PSEiI u5unds t+ersa ft oressurei. Positive values indicate down force; negative values indicate uplift A-100 HOW TO USE THIS TABLE AND FIGURE: 1. Determine wind zones on roof from figure. "a" is 4 ft in all cases. 2. Obtain the wind speed from the local authority having jurisdiction. 3. Note roof pitch and mean elevation (height) of the roof and round up. Ex. 14 ft, use 15 ft. 4. Pick the table for exposure and mean roof height. Example: Category C exposure - site conditions with some flat areas and 15 ft means the mean roof height is no taller than 15 ft. 5. Locate the column for the wind speed and circle the down force and uplift pressures for the three roof pressure zones. 6. Uplift pressures up to 55.6 psf are below the module rating and thus, modules may be installed in roof zones lower than 55.6 psf or lower. 0 0 Ur�J �o a1 v 0 'v cc ro 0 U. E w c Q 01 2 ii=9;3C?F'S J Ndte3.aaW4 fo&itCal [,e ENGINEER: JOHN ALGER 4105 SAINT JOHN's PARKWAY y SANFORD, FL 32771 PH 800-929-3919 X1411 jaiger@theleveredge.com State License # 74730 0 PROVIDER: THE LEVEREDGE 1423 Gunn Highway Odessa, R. 33556 813-403-5100 Certificate of Authorization q: 31930 EDRAWN E DATE 02/23/2017 9. AM 61 LDR-SI-SMA-QC290M Rev. 12.15.17 NOTES: 1. Pressures shown are applied normal to the surface, for exposure B, at h=30 ft (9.1 m). Adjust to other _ _ _ conditions_using_Equation-30� 1. - - - - - ' � ", ?. Plus and minus signs signify pressures acting toward � ...s .and away from the surfaces, respectively. 3. For hip roof angles less than or equal to 25 degrees, shall be treated as Zone 2. °f�tQFS h: Mean roof height, in feet (meters), except that eave height shall be used for roof angles <100. 0: Angle of plane of roof from horizontal in degrees. 6EQv1vTrm FILM' . 81- LE META4 CiONDUrr I FOR -USE L DIAGRAM ELE'0"'TR1(.0'j6x fk�UITICIRASOEAR-KGTOVO -Symt,m mAY ui uSE4-'pA(jv1,b0.tT N-0�-mel : QPEAK;1�4.1 290WQ:MQ"I- 2MM P 1MENS,10NS--.65.T"XZ%'4" X. 1-26" WIAL , , RAVIDSHtfi�W.N 0OX (�WM)4' 6XW$TC'DC CLAD �ABK .0 1(*r,MAX1DI1;TANt-9.F;RQ�j CONTROL'aOx To Smumom MUST 5E-WJ.TH1NJ.0,FT'0);4 ENPOSO TO FREE -AIR VARW RM 'GSHUT DOWN Rlid`UtRED TO:MtET 2014-NEB -'-', INS -16FOOklml; #!6.GA.$ CONDUCTORS — 0 (RATED F0R;',OUTWQH'-V$E-Y c MUM. IWO-, CONSULTAW (4, 410 n4ft.2,C,0h 'A, 0 UTDOWCONTHOLLER, (1)#6.'13ARE:C0P.PER:GROUN0 0 'C NDUIT-REQUIREMENT$i. N 0 a tF AW AC it Ur.E OUTSIO _'N I KESSIBi L0C�T1QN.NEXrTVELtCTRk METEW sox 14 ma"umb4rof *duks--Oar, ift-atter Eqp.JVAL9NTUL1741AP 1,,PROVW T1 RO 'v -ET0 , , imftE .'' T �, t F Mp qASL T:-WWN-12 WNO FUSES REQUMEIp. UGOW INVERTER WMI tNTEGMTED aplo-THWN4NEUTPAk (1) 4:8 THWW1,13ROUKD REHR TO PRAWIKG� SUPPLY Utxtfy �- W MAIN ONCAKtRIN RAN5L Wf t1NG:MA1y- At- UPS IF NEEQMTOREDUCE, -VOLTAGE. MP RT4.06AW-Strin.Onver-ter Retrofit. ENGINEER CEIM10 14qty Hanwha Q-.Cefl 290 Mono Modules.; SYSTEM Now— SMA.Sunnyboy,Invefter R EX(SrIWG;BRWER PANEL MINIMUM ICIO&EIM .. .. ........ .. ...... ... 9.07A hoct-r- fricult"twedrit PhbtbvW.tak-.AC OUtopt 9. 6--'vA 117 R, '0 ALgHIPRIZATI Nk MO-30 RX4;NmR'QF IRK=' PROFMIOWLENGREER FL LIMNS8 14a 74M M-lul m_ ffitR to FOR ORr;. MAIM osin rMAP ME CP 31 UQUID 11TE FLEXIBLE METAL CONIDUIT FOR USE IN A DC CIRCUIT FOR A S"R PHOTOVOLTAIC SYSTEM MAYBE USE-OPROVIDCJ) iTMEFTS TKEE REQUIaEMENUS OF NeC'2014.118 FOR MLTAL CLAD CABLE EYPOSEO TO FREE -AIR. $.%TED FOR OUTDOOR (I E R-0 we CA X ;gala .4UTDOWN BOX ,%,I U,51 , 5f_ vil! HIN ;GIFT' OF p"! 1D SOX < 3 suinos required 4 mcoule5 min number per string 14 modules max number per strn 31 modules totat required for system size SOLADECKIM005LOMOR EQUWAILENT UL17441 APPROVED COMIIINMV614CLSURE TO TRANSITION FROM PV CABLE TO THWN-2 WIRE, NO FVSESPEQUIRE0 3/4" metar Cr flex melak conduit 143 # 10 THWN-2 conductors (1) 0 9 THWNQ GROUND System information Q.PEAK-04.41 290%OV MONO (32MM) 011,AENSIONS: 65.7" X 39.4" X 1.26r (31) QREAK-G4.1 29OW MONO (32MM) 8.99 KW STIC DC RAPID SliUTDOWN REQUIRED TO MEET 2014 NEC 916 GA, 5 CONDUCTORS (4) 12V X COMULT AHJ F0) #8 TKAM-2GROUNV 0.4 CONDUIT REQUIAeMENTS If ANY SMA 50 7.7-1US (24M 795OW INVERTER WITH IN TIGRATED DC DISCONNECT 3W=1DUJT'. (2) 08 TKI *94,2 CONDUCTORS (1) Pa TH1' N-2 ninim (1) 99 THWN-2 GROUND REFER TO DRAWING C-10100f(WIRING LOF SECURED POWER ule Make Fianvina-Q-1ceil 290 Iftvefter make SNIA ule Model 0.ppak-6913 TaTvrter Model S37.7-US power 29ow MaX Output 1 F%,W 795o Watt Cirrail Current 1 4.63 Amps I J,�Kx AC Current :,' 2A N"M WMIN6 MAY BE 164FT MAX DISTANCE FROM CONT901. BOX TO SHUTDOWN Box 0 900 L 0 RAPID SHUT1DOk%tN CONTROUli 0 NIAOUNTED OUTSIDE IN ACCESSIBLE LOCATION NCXTTO ELECTRIC METER OR OPTIONAL PV AC DISCONNECT 3WCONDUM. (2) 07MM-2 CONDUCTORS (1) #a ThMq INEUTFIAL (1) 48 THWN�2 GROUND KEFER b DRAWING E-101A FOR OPTIONAL CONNEC110AIMMODS PV PERFORMANCE METER 4SEE UWE 9) 91= UPLWYI�MTIER 240142W SSf. PHASE 40Aj2p RN IN Fo ""a I' ForME3 Wd;Ri-W 201-1 Handbook 2152(A)(4) ChaR 3131 Vd = 777R71 M 7 r1_0;; 27014 E 9(t eS) i'" R up 7 Wife Run, v.-up Imp Ft wvp S*ae PV Strings to Combiner Box r5e -b CombTner box to Inverter FInvcrtartg 447.4 447�4 28.14 18'14 2.24 1,24 35 1.. 7 so 2.25 ol 41; I ?ter to rivertef to Interior 2.1.0 32 0.869 30 1.55 0.65% Inturcionnectlar; 240 32 0.809 40 1 107 1 0-86%--R- 49 Inter 32 0,.504� J- - 4S 3 3 0, 1% 'Its. Inv fte inverter to intercwnection inverter to inter �E �2,1 0,49 MCMCAL NOTES: t. CONTMCIOR RESPaNISIBLE! FOR COMPLYING WITH ALL LOCAL OR NAWOMI CODE RE10UiRr;&'ZNT.9 AND EQUIPMENT INSTALLATIM4 INSIRUCTIOft 2, ALL COMPONENTS MUST BE GROUNDED PER NEC 69OA3. 3. EACH MOVU16 MUST BE GROIA1090 ACCOR01MG TO PV MAWFACTURER USER WSTRUICTIONS, 4. Kit N E c 6 90.4 CD). k, L Ci2 UtMENT FOR U St 1,4 PHOTOVOLTAIC POWER SYMV6 SHALL 05 MMMFMD AND LIVED FOR THE APPLICATION. 6 USE 110AWO TYPE FVWM (144 CONNECTOR, UOUBLe JACXEM) SUPPLIED FOR CONNECTING 1400ULE STRING& 5a THWN-2 IN METALLIC CONDUIT IS ACCEPTABLE 6. PER NEC 6MIT, PROVIDE A WARNING SrGNAT ALL LOCATIONS WHERE TERFAINALS OF TIC OlsCORNECTING MEANS MAYBE ENERGIZED IN THE OPEN POSMON, SIGN SHALL RM*WAFNNG-ELVCTRtCAL SKOCKKkZARD-00 NOT YOUCH TERLIAW&S -TERMINALSON SOTHUNE AND LOAD 9t0%MAYBEENRR=OIN OPEN POSIVOWOR CCWJAL15NT. 7. PER NEC 70110. PRWAOS A PER144NE-14T PLACIUBOR DIRECTORY 5140VANO IXTRICAL POYMA SOUROGS 01 TM P All M IS E 65. ATZA F_ 04TRAN CE. PER 1(7), UNLESS 11M PANEL BOARD 19 RATED j7THAN TKF SUM OF THE X4PERA RATING OF ALL A PANEL BOARD $KALL Of. POSITIONED AT THE OPPOSIM JLOAD) END FROM THE INPUT FESCER LOCATION OR MAIN CIRCUIT LOCATIOW AC DISCONNECT ANDIOR PV METIER MAY OR MAY NOT BE REOUIR ED BYTHE AW ANDIOR. UTUM FOR 10. WIRE SIZE AS=WS THAT CONDUIT WILL BE RUN IN ATTIC SPACE OR LESS Ttfl" IV IS EXPOKO TO SVNUW PER NZC3I4.1S(AVjE& WIRE GAUGE MAY NEED TO BE INCREASED IF RUN IN =DUIT ON THE ROOF FOR MORE THA14 IV PER NlEC3I0.15(S4)j# 11. PER N -C 600,31. M- At CONW1 OR TYPE VA CAIILE MUST SE USED W4ENEVER THE CC CONDUCTORS ENTER A BUILOM BEFORE THE FIRST READILY AVAILABLE DISCONNECTWO MEANS. 12, PER NEC GWal. EXP=0 RACEWAYS, JUNCTION BOXES AND C M*UIT BODIES $N VftC,4 A14Y OF THE AVAILABLE CONDUIT OPEKW,59 ARE USED MST BE MARKED WITH TPG V?OAD,1;K3'PKOT0VOLTA!,0 POWER SOURCEBy Antcd MP? CUMN1L Rated MPP Voltage 447.4V Max Systern Voltage Short Circuit Current 193A Ptiotovolmic AC Output 32A aIIAeft 71,1 CEFITIFICATE OF AUTHOIRMATION# 31930 PROFESSIONAL WOWEER FL LICENSE 1!40. 74730 REWSIONS 8.99 kW String Inverter Retrofit Aw- --am- ay DEISCAIPTION- DAW-. ==7 ENGINEER CERTIFIED WPM" 31qty Han ha Q-Cell 290 Mono Modules 1423 Gunn WgIffty SYSTEM Odmij,FL 3390 E-101 `7 Sunnyboy 7.7-US Inverter E-101 from inverter House Circuits unified Ground PV-Sreaker + Miln.breaker mutt ble:5 !'2'0%S,bf bu'ts -rating evolta.ge'drop. SMA 3.0 TO 7.7 US INVERTER SMASewred Power supoy (SPS) rated 12A425V 0Q.ercurrent by the IntqSM SPS lag!et!6� No additlan4l: overcur rent -protection required, NEC-00-1010) and 69D.61 ISA 3 prong outlet Wre �-%c 49*4f� on/off VMtch M House circuitt froin ,inv erter ExistitiOAC d1sW bution panel Pon ftmdooA 121NNOV-1 01t miy be r"Wred by tocal Uniffied PV Breaker between Ground main and. bottorn of buss PV Breaker. + Main breaker must -be 9 100% of buss, MUng SECORED-ROWER SOURCE WIRING C� 6* OPTIONAL CONNECTION DETAILS L E 14230mn uftwal" AND WIRING FOR SECURED Cdessa� FL wh MMIM cA the Up aw SHC. 1— $1340341100 b rw F"ft.4L I I I 115V POWER SOURCE 4 Re4uWd bekable - fL=d Mratqd disconnM Rao slze�detemnlnid W 125% of max, coritinuous invaderoufput from Inverter Omundwi#* to connod dire cily to.9mund ro dand notto 41swnn6ct:or panel Sir . � to avoid pawal Line side connection required,whe PVqver-current n. device + Maln. panel breaker > 1601% of.buss rating 2- Wire from disconnect to connection point to be #6 THWN - 2. Distance from connection point to disconnect panel not to exceed 10' and must comply with NEC 2011 240.21 (B)(1). 3- Line side taps may be made with double lugs in the box or meter can or with polaris taps. Rating of the connections must be rated at least 125% of maximum inverter output current. 4- NEC 2011 705,12 (A). The sum of the overcurrent protection devices from the PV system connected to the service conductors, cannot exceed the service conductor's rating, when using line side connections. REFER TO DRAWING E-101AFORWIRING OF SECURED POWER SUPPLY CEIRMIFIOATE OF AUTHORIZATION# 31030 MR94-im -am— C;7N—,JN 4 SCAW- E-11 On 1 A 00' E-101A DANGER <== STOP DO NOT DISCONNECT UNDER LOAD dev+ Labei A WARNING LABEL TO BE AFFIXED TO RAIL OR ON SIDE OF PV MODULES IN CONSPICUOUS LOCATION MWWAOR,10 ELECTRICAL SHOCK HAZARD a IFA GROUND FAULT 48 W=ATED TM ROft54AL1.YCRd1ROED 6Ot N.ICTORS MAY CC UNGROUNDCO AND 64iER=M DC VI B AFFIXED ON COMBINER BOX ELECTRICAL SHOCK HAZARD DO TQUC" TERTR ALA TEALS S OH BOTH LUMAtiO.. LOAD SIDES NLIY BE EtaE46fT4 INTKE OIMN POSR DC V'DL3AGE.JSAI=T8 F`MMNT WHEN SCALAR U00=5 AEY.P88 TQ 3iatfliGk{T , �, 4 I d�1 � C INVERTER LABEL TO BE FILLED OUT WITH SYSTEM SPECIFIC DATA AND PLACED ON THE INVERTER OR CHARGE CONTROLLER Must be reflective per NEC 6.30.31 & ,. s PFC 605.11.1.2 D REFLECTORIZED LABEL TO BE PLACED ON ALL CONDUITS AND RACEWAYS THROUGHOUT THE SYSTEM TO ALERT FIRST RESPONDERS NOT TO CUT CONDUIT WITH AN AXE DUE TO RISK OF ELECTRICAL SHOCK (IFC 605.11.1.1) I_1 I E.. E POLARITY OF CABLES MUST BE LABELED AT OR NEAR THE COMBINER BOXES AND INVERTER CONNECTIONS ON THE DC SIDE F DC DISCONNECT LABEL AFFIXED ON OR BESIDE INVERTER'S DC DISCONNECT SWITCH PER NFPA 0 x t ELECTRICAL SHOCK HAZARD OO NOT TOTICH TERMINALS ' i n �u TERMINALS ON BOTH UN€ AND LOAD SIDES MAYBE ENER09ED LN THE OPEN POSn ION G SOLAR DISCONNECT SWITCH ON AC DISCONNECT SWITCH IF USED. REQUIRED ANYTIME LINE SIDE TAPS ARE USED FOR THE POINT OF CONNECTION 190 ELECTRICAL SHOCK 14AZAPM If AC&M MO 91AULT434iWCATED t=VAL4YGf tN"CQNDo CUM WAYDE WKWOU110EDAd40 ENEFb RED H AFFIX TO INVERTER INVERTER WITH INTEGRATED DC DISCONNECT H C, E D B, E F t " ' dLINGFROMPVUON Box PV TRFF{ i�TI - �A � PYACCISCONYECT PERFORMANCE IRE T THW -2 A"dtRE i�t Tlt��a-z 30A, 24w 2•PoLE METER (SEE NOTE 91 (SEE NOTE 9) r--1 G Le , E �� '. NOTI6E5, _ �• '+ N' 1"iw31+�!''Ar.xetiNaoa +, s+�d I y REV DATE BY REVISIONS DESCRIPTION rwTalAmda,oc4sr PLACARDS FOR TYPICAL 'peupe'.jtY atTtx3 'Cci`¢�£tlprTleo_�fpd � 1A23Gunn Hl�rNay LeiIIase cali_h�l2ar�&aw. Cl,L STRING INVERTER PV SYSTEM it.nmx, PHOtOV*k:UAIC-SY=M GtRi iFITI5 BACKF.ED I AC SIDE OF SYSTEM DENOTING THAT THE PANEL IS DOUBLE SOURCED AND UTILITY WETER THIS MUST AFFIX NEXT TO THE PV 01120V BREAKER INSIDE THE PANEL SINGLE PEE CERTIFICATIE OF AtT6HOR17AT ON# 31930 ENGINEER OF RECORD JONNI L. ALGER PROFESSIONkIL ENGENEER FL LICENSC NO.74730 ORAVANG I€ rom,%T" DATE. 6 28AZI17 pF.0.vapt Rr: — st=Eruo_ E-103 AC SIDE OF SYSTEM BY PV BREAKER IN PANEL Pox ELECTRICAL SHOCK HAZARD IFAGROOM FAULT IS INDICATED NORUALLY C.EGUK+tD£D GOaP6l7GTdA3 0AT89 UW,iORAC14 GDA.A'ST.Pa£ii£0T4R,• K AFFIX ON METER CAN FOR BI-DIRECTIONAL METER E-103 S- and barrel Tile Standing Seam Clamp t48a o univws t "rtio Mount /amoTMshown) Composition Shingle Flat Tile (E/1Pount /QMaE Shom) (06ase Un€ wsal Tile Mount /QMUTM Shown) SCALE: NTS • Alternate Tile Strategy. Quick Mount Tile Replacement Mounts (QM`M-BM) WoT=R • , a 12 L7@SCR1PTSdh GtPf.1E:t:} i FVSHNG, 9 X I r X JM , SM. PAU 2 09L0CK. CLA=. AUD CASrA'- MLL S }LUG, #EAVXCk, $t1r X 7ta". UOP-11 W SS 4 LAG•$CR$ti4';HL7f}iEAG.SIib"3FSi;^"i.1$8SS' b WASHER, "CM W16" IT7 X 1-1P� Gk�. F8853 P RACKING COMPONENTS j ia--- (S iA& vlotardPVI IMF: GM$ -LAG' QMF'V B-MtOLIN1 WITH LAG BOLT u!ck Mount WWI OMUcM: OBASE UNIVERSAL TILE MOUNT ta' P1PA°aantx2�A� �e�:l6a tle �e3em9 S-51.1 and Mini Protea STANDING SEAM TRAPEZOIDAL Metal roofs are made by several manufacturers using several different styles from standing seam to 5V and others. S-51 makes clips for each particular roof style. It is the contractors; responsibility to determine the particular brand and model of roof and select the proper S-5 clip for their particular installation. Check the S-51 web site at www.s-5.com. Installers can access the tools and procedures for proper installation of the clips at www.s-5.com/tools. Proper installation is critical to achieve the rated pull and slide off values listed. CAP SCREW MD(H�l�+X SAC18 X 314'UNC•a,+'+. Gi,ADE}i�.. c3Wfi-1.tXafC&, Je1W6WAW-AWACAVAL 1 I SAG ENJ. 11CR1tCA0.`PCX4r: PING 2 SUB,m1 ffPZG, coNr- nrxowmr, 3LrI7b AL 1, ra 1 FLASIMCL CONE 1B'X "037. =3 AL },1iLL COUAt . CS7WaER PWHNG, 1.114`11 VIDY4 I 1 FOX I-WOD X 61$ }4516063-t6. P.tki 1 WAAH€Pi.S£AILW', 3116'OX 1=t1<'Gt1.EFDM.W DOZ 1 WAIMMPF#v1aM511CID Xi'OD.18.8SS --•--- 1 WA;HMSM-LOGK.S/161D.168$'S I I 4:kkPSCRE..W.HQtHrAE65116-IBXI-UW-- A I" SS 7 otes on Flashings and Attachments: 1 Contractor is responsible for compliance with any and all local and National codes and equipment installation instructions. 2 PV modules are mounted to aluminum racking components and rails and attached to the roof using Quick Mount PV flashings or other flashings and attachments approved by racking manufacturer as appropriate to the installation. 3 Maximum span between attachments to be 48" or less. For the attachments on the ends of the rails each side, the span, can not exceed manufacturer's 4 Contractor is responsible for ensuring watertight penetrations and for sealing, trimming, cutting roof shingles and membranes in a neat, professional, and workmanlike manner. Note: Protea is limited to 40psf when used with an equal number of PV clips in a 24 ga steel roof. See LeverEdge Engineering for higher uplift loads. ..1 ..REVISIONS The LeverEdge ? +t CARTE I BY D£sCFi1pnom 1�tk � tt152917 z 1423 Gunn Highway Certaficate of AL}thwization#: a1u,�a Lar Odessa, FL 33556 31930 ScAr KT.s, cClsl sctSFi,,a93 813-4033-6100 S-101 i3 13 S-101 I role] m A-1 I 10 1 a i " W Z 11111: a I ra I - THIS LAYOUT USES (2) ADDITIONAL SPLICES OPTIONAL LAYOUT . Scale: NTS nTm to tit TiQtT 61 QD 113, �EPUMMA 10 F-Mom .1 _ att__ 7__�LMIVERVI T&E WONT FU 001:. IMAIr yu I •-JOY jjk,j 0] :2 IfAl I GROUNDING LUG (SEE NOTE 9) #6 BARE CIT GRO,11 AD FOR MODULE GROUNDING (SEE NOTE 9) PV TRANSITION BOX 4' Typ. MODULE GROUNDING LUG (SEE NOTE 9) RAIL L-BRACKET & QUICK MOUNT ROOF PENETRATION SPLICE CONNECTOR MECIIANICALNOTIM, i CONTRACTOR RESPONSIBLE FOR. COMPLYING WITH ALI, LOCAL OR NATIONAL CODE REQUIREMENTS AND EQUIPMENT INSTALLAITDN INSTRUCTION& 2 ROOF MEMBER SM=Rj; 2- X 4" WOOD RAFTERS AT 24- ON CENTER 3 ROOF CAN BE COMPOSjkON Si%19�..E OR TILE WITH A PITCH BEIVIEEN 9 AND 45 DEGREES. ALL OTHER ROOF TYPES PLEASE REFER TO SUPPLEMENTALALTERNATE AITACHMENTIFLASHINO STRATEGIES. 4 NT0DULfS?6TOUWE" DT9b4tNUI�1i ISMG SYSTEM AND ATTACHED WITH OIJECKMOUNT PV MOUNTING SYSTEM OR OTHER FLASHINGfArfACHMENT SYSTEM APPROVED BY THE RACKING MANUFACTURER. 5 DISTANCE Wn'I'EENAM-ZtiMEqTr3t4TOEXCEED 4.00FT. 6 HAIL OVEAHAA NG- Ft IM A �nkpli,MEN IFICA IONS. U��f,.TO EXCEED RACKING MANUFACTURER'S SPEC T 7 PRECAL)TIONSWIIIEN PREPARING ROOF FOR RACK INSTALLAMN BUILIANG, STRUCTURAL INTEGRFTY AND WATERPROOFED PEN97TtMONS$tfALL BE THE RESS MUSIBILRYOFTHE INSTALLER, 8 ADJUSTMEWMAX13JENEQUIRED 6UtTCr6JS`nNG ROOF LAYOUT: DIFFERENT ROWS AND COLUMNS ARE PERMISSABLE SO LONG AS THE ATTACHMENT REQUIREMENTS SPECIFIED IN NOTE OSARE MErAND T14ATTHE MAXIMUM RAIL OVE-610'iG ANb'MODULE OW'R1iANVGrROAA END$ QO NOT EXCEED MANUFACTLIFIER$ SPECIMATION& 9 FOR woR�gMN ArID,�OILS=04 GROuNDING OF THE SOLAR MODULES AND RACKING SYSTEM PLEASE REFER TO THE SPECIFIC RACKING MANUFACTURER'S INSTRUCTIONS. REOS40NS RCMWTtQN CtRunciucor :ATE 6y o2smpnm Ims=T Am al wo f4'o GENERAL RACKING LAYOUT SWELCERM M S-102 74 m wz,Tiw�. I r_* ARRAY DETAILO Scale: 1/4!' = 1' S-102 GROUND LUG OPTIONS ,SEE NOTE 9) WOOD SHEATHING (TYP•) .ai s3�av �atiie.43#�.xxi4ts7�:vY..� 'EYEf[[+ AL SPUM &BAR DETAIL A thermal break Is required every 40 feet of continuously connected rail. Bonding connection for splice used as a thermal break. Option shown uses two Ilsco lugs (Model No. GBL-40' PIN GBL -40137 - see product data sheet for more dulls) and solid coppeT wire. THERMAL MANSION ,JOINT Notes on Racking: MID -CLAMP ASSEMBLY L SRACK,ET WITH SONLINOT-BOLT AND NUTASSENIBLY Only approved racking components shall be used to meet wind load ratings. Contractor is responsible for compliance with any and all local and National codes and equipment installation instructions. PV modules are mounted to aluminum racking components and rails and attached to the roof using Quick Mount PV flashings or other attachment and flashings approved by the racking manufacturer as appropriate to the installation. Maximum span between attachments to be 48". For the attachments on the ends of the rails each side. Rail overhang from laq h,meni<slto roof to be less than 16". Contractor is res orisiEiRg:fi��re sdring'watertight attachments and for sealing, trimming, cutting roof shingles and r emb a es jh_ahegt 06ofbssional and workmanlike manner. Different rows•anlj)colurn7ts i6/perrrrisOsq le as long as the attachment requirements listed in K maxirrsirnrail overhang, and nihm6uo module overhang from ends, does not exceed manufacturer's?ecomr�gQe ii&6. = � 2S GiT LE ir��'atl�4! 1423Gum IbEg" l of�sYkarr�ca Odessa. FL 336&f3 r ac Cac f1t3.dtt3-�ff� 1 �c��a <ti The LevwEdge 1423 Gunn Highway ' Odessa, FL 33556 8134MI-6100 Certilfimte sAuthorization 31930 PHOTOVOLTAIC MODULE (TYP) RAIL (TYP.) rrr •err UMEREZ ASPHALT SHIN ROOFING O YP,) 8 Modules are not permitted to be installed in roof pressure zones with an estimated uplift that exceed the limitations specified by the module manufacturer (please refer to the module specification sheet and installation manual for more details). 9 Grounding lug options are required if not using approved integrated groundin gmicroinveters. Please refer to manufacturer's installation instructions for both WEEB and ILSCO products. 10 The Enphase M215 and M250 microinverters have integrated grounding capabilities built in. In this case, the DC circuit is isolated from the AC circuit, and the AC equipment grounding conductor (EGC) is built in to the Enphase Engage integrated grounding (IG) cabling. No additional EGC grounding cables are required, as all fault current is carried to ground through the Engage cable. The Enphase IQ6 and IQ6+ inverters have a nonconductive base and do not require grounding. The Q-Cable, however, does not contain a ground, so modules and rails must be grounded externally and grounded at the breaker panel ground rod in unified grounding. �� -Ir11�o17 a.� Es S-103 3rd RAIL LOCATION (TYR - IF REQUIRED, SEE STRUCTURAL) ENPHASE M-215, M-250, IQ6, AND IQ6PLUS MOUNTING DETAILS (SEE NOTE 10) S-103 XP'10MPLC-1" ctr XR100eorszEasettcE lt�* GROUNDING LUG (SEE NOTE 9) Notes on Racking: 1 Only approved racking components shall be used to meet wind load ratings. 2 Contractor is responsible for compliance with any and all local and National codes and equipment installation instructions. 3 PV modules are mounted to aluminum racking components and rails and attached to the roof using Quick Mount PV flashings or other attachment and flashings approved by the racking manufacturer as appropriate to the installation. 4 Maximum span between. -attachments to be 48". 5 Please refer to mandfacturer,'s Installation instructions for rail cantilever distance from roof attachment. 6 Contractor is,resporisi6le'fot'ens6r dg watertight attachments and for sealing, trimming, cutting roof shingles and- membrapes,lr ne&,� 6fessional and workmanlike manner. 7 Different rtiv+cs`and, columns are•periwssable as long as the attachment requirements listed in K maximrUm rail overhang,,,and maximum module overhang from ends, does not exceed manufactur4% reco'in�er datidns. $TOPPER SLEEVE IRONRI GE XR100 SPAN TABLE 72" Spans we permitted only under the fallmvinr3 conditions. AR others are ICsstSted to 48' spans For E9sures 8 and i<only. FxpmtQ 0 rNuires "Ingering evalijallorL Wind Speed Conditions I XMph Zane 1 and 2 a0 roofp tshes 5 to 45 deg, Zone 3 p0ehes 30 to 45 deg t40,mph Zone I all roof pitclia 5 to 45 deg?, Zones 2 and 3, 30 to 45 deg i somph .'Wtal[roof pitches(5to45degh Zono2and ?34toa5deq Wmph Zone 1 wty, all root pit hm S tu-"S &9"S Cantdewr 11mited to 40%ofspan and no spurts 0 cantilmr. SEu le and tog reofsonly-Plctatrefireti roe i.n erltt a tualr'enbarearl!off s l Malri K 8 Modules are not permitted to be installed in roof pressure zones with an estimated uplift that exceed the limitations specified by the module manufacturer (please refer to the module specification sheet and installation manual for more details). 9 Grounding lugs are only needed on one rail per row of modules. Grounding lugs can be installed anywhere along the rail and in either orientation. 0 IronRidge systems using approved Enphase microinverters eliminate the need for lay -in lugs and field installed equipment gounding. This solution meets the requirements of UL 2703 for bonding and grounding and is included in this listing. Specifically, the Enphase IQ6 and IQ6+ inverters have a nonconductive base and do not require grounding. The Q-Cable, however, does not contain a ground, so modules and rails must be grounded externally and grounded at the breaker panel ground rod in unified grounding. Nc `lr�.` Tim ftLVt49 6" aYa ra# fi6'. matt Qi QES RfpTl4N attiiYrpra��:s.�Ta. ot'TE�a 6.aterEvt� Ytta os4.. 1423 Gunn HowW Odessa, FL 33566 arttts smairn cy12 ca lC $13rt03-5100 a+rrs,'a re�+w��larrt 0ATF: tJtrrmaT DRAWN By', 4H W ter. S-104 csanT raJue of AXORKAW01ONd 31930 �+w'WbEFr� �csrtr, yy�sl L. N_LSNPS fY3Sti'CL]rOS:£3dC}th�E:e L'L a Frr+.IME Na, Y#TSO S-104 June 28, 2017 Dear building official, On June 23`d of 2017 Governor Rick Scott signed HB 1021 amending 377.705 of Florida Statute authorizing solar energy systems manufactured or sold in the state to be certified by professional engineers. In effect a Florida Solar Energy Center, (FSECj certification is no longer required by state statute for materials or systems to be sold or installed in the state of Florida. . On page 6, lines 138-144 read; All solar energy systems sold in the state must meet the standards established by the center and shall display accepted results or approved performance tests in a manner prescribed by the center, unless otherwise certified by an engineer licensed pursuant to chapter 471 using the standards contained in the most recent version of the Florida Building Code. u 1, 2017 n to 377.705 will go into effect July If you have any questions, please feel free to contact FlaSEIA at (407) 339-2010 or (800) 426-5899 Regards, The Board of Directors of FlaSEIA System Certification by a Florida L censed Engineer System Size (STC DC) 2.9kW 3.48kW 4.06kW 4,64W 5.22kW SAW PV MOiDULES AND ARRAY Module Brand tiara a Flan a n5'nw a Ir 5; a aM-95 Han►at a a u e S e ma3 a TTPea - 290 -0,Pea - 4.1290 Q Pea -64.1290 tr;.Pea -G4. 290 Q,Pea -G4.2 290 Q Pea-G4.1290 Module FSECg QC17-NT90.0182 QC17-NT9"181 QC17-NTSO-0181 QC17-NT90.0181 Q.C17 W90-0183 QC17-@+3190.0181 asta Number PV Ntodu as _ eras- rigs ranc ri�ul s 1(I S9r -rings 12 _ _ or rings is or s rIg- 16 rigs 18 rings Z 3F strings o tr ng Is-FingM Is-rag I s ng BY 4 rng o _ string string 0 ring o ng ing r ay s Ing o . ng - Ing o nng to s rl s -0 s gs 5 POWER CONDITIONING (inverter) Irauer it Bran Sunny Boy Sunny soy sunny Boy Stanray Beiy _ Sunray say sunny Bay' Inverter mcaei number MUMS— S0.5-US 563.8-U5 S93.8-us SB .5t-u Ses.0-lis scrag to UL 1741 Ve-difledyes G;e- ier DC Vts tegE n o; 125*6til7V yes 1 S-6 yes 225-600V yes ........... . 234 I yes 1,25=00V - yes 9 25=BYit}V AC Power tln,g 3000 300OW 300V1 3800W 3800Wd 50tF W C Nomfna V-o tage Output 240V 240V 240W 240V v V _ Max PV army carverper Inverter uM- UFF ® Y rive Rers ass CHARGE CONTROLLER AND BATTERIES [BATTERY BANK (CONFIGURATION N/A N/A N/A N/A N/A N/A NIA N/A N/A NIA . Size (STC XON11111 Nominal 240V I 240V I 240V NIA I WA { N/A Florida Solar Energy Industries Association 1 r i 4 (F1aSEIA) 2555 Porter Lake Dr., Suite 106 Sarasota, FL 34240 a: c� REVISIONS aa�s es. c ariHgpyw%i1R$3�R4fd�f�'37m®� .. Frad4 iH1K0 tum"t tlPciti'9� 3423 0~ H' = 31 a z,�a�a�'tea` aMa Clfaam FL 3351% �:�er�#�a,y�v �osbelasr OUC Z-101 Z-101 4 1 With its top performance and completely black design the new G.PEAK BLK-G4.1 is the ideal solution for all residential rooftop applications thanks to its innovative cell technology, Q.ANTUM ULTRA. The world -record cell design was developed to achieve the best performance under real con- ditions - even with low radiation intensity and on clear, hot summer days-. LOW ELECTRICITY GENERATION COSTS t *�p �e a Higher yield per surfac area and lower BOS costs thanks t higher power,classes and an efficiency rate of up to 18.3%. INNOVATIVE ALL-WEATHER TECHNOLOGY Optimal yields, *whatever the weather with excel lent. low -I ight and temperature behavior. ENDURING HIGH PERFORMANCE Long-term yield security with Anti-PID Technology', Hot -Spot -Protect and Traceable. Quality Tra.Qtm. EXTREME WEATHER RATING High-tech aluminum alloyframe, certified for high snow (5400Pa) and wind loads (4000Pp) regarding IEG. MAXIMUM COST REDUCTIONS Up to 10-,�_Jower logistics costs due to higher module capacity per box. A RELIABLE INVESTMENT Inclusive 12-year product warranty and 25-year linear performance guaranteez. THE IDEAL SOLUTION FOR: RODA-P arrays On residmital buAdings Engineered in Germany O cum CELLS: ID. 40032587 I APT test-6onditions: Cells at -1500V against grounded, with conductive me - tar foil covered module surface; 25C, 168 It 2 Set, data sheet on rear for further information. ONLY USE DATA FOR 290W MODULE . L:0 r, A 1- Format 65.7 in x 39.4in x 1.26in (including frame) (1670mm x 1000mm x 32mm) Weight 4 1.45 lbs (1-8.8 kg) Front Cover 0.13 in (3.2mm) thermally pre -stressed glass with anti -reflection technology Back Cover Composite film Frame Black anodized aluminum Cell 6 x 10 Q.ANTUM ULTRA monocrystalline solar cells Junction box 2.60-3.03 in x 4.37-3.54 in x 0.59-0.75 in (66-77 mm x 111-90 mm x 15-19mm), Protection class IP67, with bypass diodes Cable 4 mrna Solar cable: W ;t39.37 in 41000mmI, W k39.37 in (1000mm) Connector Multi -Contact MC4 or MC4 intermateable, IP68 T EL�PIWOAL WRACT ERJSTI�S POWER CLASS 296, 205,300 MINIMUM PERFORMANCE AT STANDARD TEST CONDITIONS, STC' (POWER TOLERANCE +SW/-DW) Power at MPP Pus, 290 295 300 Short Circuit Current* 1, [A] 9.63 9.70 9.77 Open Circuit Voltage Voc IV] 39.19 39.48 39.76 Current at MPP* 1', [A] 9.07 9.17 9.26 Voltage at MPP. VW? 31.96 32.19 32.41 EfficiencyZ 17.4 >_ 17.7 18.0 MINIMUM PERFORMANCE AT NORMAL OPERATING CONDITIONS, NOW Power at MPPZ P" 11N] 214.4 218A 221.8 Short Circuit Currem* 7,77 7.82 7.88 Open Circuit Voltage* VW M 36.65 36,92 37.19 Current at MPP* I'm [A) 7.12 7.20 7.27 voltage at MPP* Vie IV] 30.12 30.30 30.49 1100OW/ml. 251C, spectrum AM I.SG tMeasuremerit tolerancesSTO *3%; NOC &5% 1800WIM4. NMT, spectrum kM 1.5G valum mual values may differ _QCELLS PERFORMANCE WARRANTY PERFORMANCE AT, LOW IRPAOIANCE At least 98 % of nominal power during first year. Thereafter max. 0.6 % degradation per year, At least 92.6 % o to 10 of nominal Dower D years. At'east 83.6%of nominal power upto 25 years. Ei -------------- All data within measurement tolerances. --------------- Full warranties in accordance with the warranty terms of the Q CELLS sales organisation of your respective country, 2W 4M sm ON I= IRRADINCE WWI 10 M X j ss AVsk _TEMPERATURE COEFFICIENTS Temperature Coefficient of I. cc Temperature Coefficient of Pwp Y [*/Qliu +0,04 10/6/19 -0.39 typical module performance under low irradiance conditions in -is (25'C, 1000W/m2). comparison to STC conditim 7-- Temperature Coefficient ofV. f3 W.IK] -0,28 Normal Operating Cell Temperature NOCT VFI 113:i-5.4 (45±3C) IF, ROMTIES',' 64 $YSTW_,'DE-S11K, f 4 Maximum system Voltage V., [VI 1000 OM) f 1000 (UL)_ Safety Class II Maximum Series Fuse Rating (A DC] 20 Fire Rating C (I EC) TYPE I (UU Design load, push (UL)-' LlbsffPl 75 (360OPa) Permitted module temperature -40*F up to +185'F on continuous duty (-401C up to +855°C) Design load, pull (ULF [lbs/ft2l 55.6 (2666 Pa) 2 see installation manual UL 1703; VIDE Cikwfity Tested; CE-compliant; Number of Modules per Pallet 32 EC 61215 (Ed,2): I EC 61730 (Ed. 1) application class A Number of Pallets per 53' Container 30 DVE CE Number of Pallets per 40'Contaiver L W H 26 68.7 in x 45.3 in x 46.1 in 0 - w Pallet Dimensions ( x x (1745mm x 1150mm x 1170 mm) Pallet Weight 1435 (bs (651 kg) NOTE. Installation Instructions must be followed. See the installation and operating manual at contact out technical service department for further information on approved installation and use of this product. Hanw 1 h Q CELLS America Inc. 300 Spectrum center Drive. Suite i250, Irvine, CA 92618, USA I TEL +1 949 748 59 96 1 EMAIL inquiryOus,q-cells-com I WE[Iwvu/A-cells.us Z-102 N w SUNNY BOY 3.0-US 13.5-Us / 5.v-US / 6.0-U / 7.0-US / 7.7-us MOMPOU ... ............ _. NO10 bo a uw!! n INVERTER SPECIFICATIONS SCALE. NITS SUNNY BOY 3.0-US / 3.8-US / 5.0-US / b.o-US / 7.0-US / 7.7-US Reduce costs across your entire residential business model The residential P/ market is changing rapidly, and wa understand that your bottom lino matters moro than war. Thot's why wave designed a superior residential solution that will help you decrease ebsis throughout all stages of your business oporaitons. The Sunny Bay 3.0•US/3.0•US/5.0•US/3.0•US/7,0•US/7,7-US join the SMA lineup of fiold.prown seta, technology backed by the w Id's kl service team, along with a wealth of Improvements. Simple design, Improved stocking and ordering, volue driven sates support and sbreamNaad Instaliotlon ore lust some of the ways that SMA is working to help your business operate more efficiently. Useldata only for the S133.0 and S135.0 inverters as applicable per the wiring diagrams. No other inverters used in this plans set. All systems are residential, 240V single phase, grid tied with no battery back up.