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Home My WebLink AboutSOLAR PAPERWORKA B C D E F SCOPE OF WORK: Solar electric PV system Improvement/Retrofit - Q-Cell 295 mono modules mounted on Iron Ridge or Unirac rails with Quickmount or equivalent Code Compliant flashings. Inverter is Solar Edge with Optimizers. 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 6th Ed. and any other Local Utility requirements. solar-• C� CELLS a ! to rWS9W,RYipOHkO:'NS C(]YUV[ALiNcI[t4uflt� Quick Mount PV rse arecr rxe rsoor UNIRAC ;� IRONRIDGE tf 1 S JOB SITE ADDRESS: PROPERTY OWNER NAME:_n%k MAJOR EQUIPMENT USED: MODULES: HANWHA Q-CELL 295M 60 CELL MONOCRYSTALLINE 295 STC RATED OUTPUT INVERTER: SOLAREDGE WITH OPTIMIZERS 3800,-5000,-7600, AND 10,000-WATT GRID -TIED INVERTERS WITH P320 OPTIMIZERS NO BATTERY BACK-UP INCLUDES RAPID SHUTDOWN IN THE INVERTER CIRCUITRY FLASHINGS: BY QUICKMOUNT PV, UNIRAC, OR IRONRIDGE OR CODE COMPLIANT EQUIVALENT INCLUDES SHINGLE, TILE ROOF BRACKETS: BY S-51 S-51-1 OR EQUIV. FOR STANDING SEAM METAL ROOF PROTEA BRACKET FOR 5V ROOF 4 RAILS: BY UNIRAC OR IRON RIDGE 3 GROUNDING: EXTERNAL FOR MODULES AND RAILS, 46 BARE COPPER FOR EXPOSED AREAS, UNIFIED GROUNDING ONSAMEGROUND — ROD AS MAIN BREAKER PANEL JUNCTION BOX: SOLADECK UL 1741 LISTED COMBINATION, TRANSITION FROM PV OR USE-2 CABLE TO THWN-2 CONDUCTOR, FLASHING TO EXCEED FBC REQUIREMENTS NOTES: - -- --- - - - -- - - 1 Wind load calculations based on ASCE 7-10 Components 8. Cladding simplified method and are 5. Modules must be Installed on 2 rails as shown per the rail module manufacturer's Instructions to multiplied by .6 to convert to ASD per 2017 FBC. As such, the maximum elevation is 30 It with tables obtain the listed wind rating, for exposures B, C and D. Broward and Dade use Exposure C and D: 6. Combined module and rail dead loads are under 4 psf. 2. Wind force estimates are area dependent and per 2017 Florida building code 6th Ed., the area used for calculations is 1 module or 18 sq ft for the 32mm frame Q-Cell modules 290 through 300W. 7. Rail attachments shall be onto minimum 2x4 trusses or rafters spaced no further apart than 24" on center. Attachments in roof zones 1 can be alternate from top to bottom at 48" on centers but 3. Installation must comply with all applicable 2017 Florida Building and 2014 NEC codes from which attachments at the ends of arrays shall be 24" on center. '(refer to mechanical drawing # M-100). these plans were based. 6. These drawings are only applicable for flush mounting to a roof with an air gap between 2" to 10" 4. Modules installed per these drawings are for Q-Cell 290 through 300 Series, (32 mm frame) listings between module and roof surface. This requirement eliminates the module and racking from being with a maximum uplift of 55.6 psf for side mounting. Installation in pressure zones exceeding this considered as part of the building envelope. rating is not allowed. Page Title Content Rev Date Notes Cover Cover General notes, site details, system selection 00/00 1 A-100 Roof Wind pressure tables and "A" dimension talc 00/00 1 E-101 Electric Diagram Electrical Line Diagram for Load Side Connection 00/00 1 E-101A Electric Diagram Optional PV connection methods 00100 1 E-103 Placards Warning labels and where used 00100 1 S-101 Flashing Quick Mount flashings and S-5! cut sheets 00/00 1 S-102 Layout General rail and module layout suggestions 00100 1 S-103 Unirac Cut sheets and grounding notes on Unirac rails 00/00 1 S-104 IronR!dge Cut sheets and grounding notes on IronRidge rails 00/00 1 Z-161 FLASEA Letter Engineer certifications for 2.36 to 5.02, 5.31 to 6.97, 7.08 to 9.44, 9.74 to 11.51 kW systems 00/00 2 Z-102 Module Cut Sheet for Hanwha Q-Cell 295W 00/00 2 Z-103 Inverter Cut Sheet for Solar Edge Inverter and Optimizers - 3800, 5000, 7600 "H" series 00/00 2 Z-104 Inverter Cut Sheet for Solar Edge Inverter and Optimizers-10,000 "A" series 00100 2 1902 -0[6� BUILDJ[dG DIVISION REVIEWED " n COMPLIANCEMIEWEP ly DATE F Du D PERMIT BE KEPT ON JdR Op NO INS PE�TION WILL�6E MADE APPLICABLE CODES - Florida Building Code 6th edition 2017 - National Electric Code 2014 -NFPA 12015 Ed - FFPC 6th Ed 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 2 4105 IN ALGER JOHN'S PARKWAY PH 800-929-3919 X1411 jalger@tholevemdge.com State License # 74730 CON TRACTOR REQUIRED TO INDICATE SYSTEM SIZE 1 BY SELECTING THE CORRESPONDING BOX BELOW. J SYSTEM SIZE: 8-17 modules #modules: �Ly�� 5.31-6.79 KW �./ DRAwN ev: I/Y I 18-23 modules ``h JOHN ALGER, PE ••-'--'tt" # modules: lJ L9GEl9Ewer7.08-9.44 KW3se24-32 E modules90#modules: n i:31930 wre:auxsrzo!r 1:3ovm ❑9.74-11.51 KW 33-39 modules 61LOR-SI-SE-QC295M # modules: Rev.08.28.18 ..............................................................................C.........................:: i? Cou r00, ,t, .`.................................... .J 7!..... . \ , ARC SUBJECT TO ANY CORREC-110149 _;CONCEALED FASTENERS OR ATTACH!4}EHTS �EOUIaEa �v FIELD INSPEcroRs T��. AAE THE AESPONSIBILfTY OP THE MAY DE NECESSARY IN ORDER TO CQRP Y WITH ALLx:Pua 'CODES. ` '. - CONTRACTOR OF RECORD W1 B C D �r E e F S Table R301.2(2) x__-,UDlated to effective area of igty 18sq ft modul - - -collector Expowe B, mean roorheight 30ll ana under, Kd+ 85, Ktt-1 fool Roof I 13D1 140 150 1601 16-r1 1701 1751 1 1801 Vitt, Z4rxs dawn Witt damn will dawn wilt dawn 1WIft - wilt dawn 1WIft damn will I down I wilt 1 20 -172 10 -20.2 93 -232 107 -262 114 -2812 12 -30.2 ILS -33 13,5 1 -35.7 0.7 deg 2 10 -27.6 10 -3t.8 93 -36.8 lG7 42 11.4 44.7 12 -07,2 128 -5015 113 -53.7 3 10 -39.6 10 45.8 93 -5L2 10.7 -59A 1L4 -63.5 12 -67.6 its -719 1315 -76.1 1 10 -16 213 -18.2 13 -21.8 14S -24.2 158 -25.7 16.7 -27.2 173 -29.3 188 -31.3 8-27dfg 2 10.1 -26.6 IL) -31.4 13 -3516 143 40.8 158 47.8 167 -54.8 ITS -53.5 138 -5TI 3 10.1 40,6 ILI 46.6 13 -5318 143 -61 q 167 -77 17.8 -77.6 1" -78.1 1 16,3 -172 28-9 -20.2 2L7 -232 24.7 -26.2 263 -27,8 1L9 -29.4 1 29.6 -31.5 32-3 -33,6 I8-45dfg 2 1-3- 163 -20,2 1&9 -232 ZL7 -272 24.7 -30,4 163 -32.4 279 -34,4 19-6 -37 3L3 -395 _ 163_ -_20.2 139 -23.2 _ - 217-. --27.2-. 247- - 30A -15,3- - -32.4 -27.9 -34,�4- -296- --37- -3L9- --325-- ' ExposweC, mean roorhei8ht 15n and undv.Kd+.85, Kil- I xd Lambe)123 fool Roof 1301 l 1401 1501 1(A1 1651 2701 2751 IWI (Vail Z41bM down Wilt dawn Wilt down I Wilt dawn Wilt dawn I Wilt down I Will don Witt dawn Wilt - I 1L1 -20.8 1 ILI -24.4 113 1 -29.1 129 -31.7 138 1 -341 143 -36.5 155 -399 16.3 43.2 04dtg 2 ILI -33.4 ILI -38.5 11-3 -44.5 IL9 -5018 118 1 -541 14,5 -57.1 W -61.1 1&3 -65.0 3 SLS -47.9 ILL -55.4 11.3 -63.2 1L9 -71.9 138 -768 145 -01.8 153 -87.0 163 -92.1 1 IZA -19.4 13.7 •22.0 15,7 -26.4 17.9 -29.3 1A1 -31.1 202 -329 215 -35.5 2L7 -379 3-27dfg 2 IL2 -32.2 13.7 -38.0 15,7 43.1 17.9 -49.4 191 -57,8 202 -6613 215 -64,7 22.7 -63.0 3 12.2 49.1 117 -56.4 15.7 -65.1 179 -73.8 19.1 -035 202 -73,2 2L5 -9319 2L7 -945 1 19,7 -20.8 2L9 -24.4. 26,3 -28.1 1)9 -31.7 313 -33.6 .338 -35.6 358 -38.1 37.9 41 23-t5df8 2 19.7 -24,4 27.9 -28.1 263 -329 199 -36,8 318 -39.2 338 41.6 358. 44.8 37.9 -0Tb 3 1%7 -24.4 2L9 -28.1 263 -329 29.9 -36.8 313 -39.2 33S -41.6 358 -44.8 379 47.0 1 ExposweC,mean earhfight]5-304Kai-,85,Kit-1 and Lambda (adxstrwltlacw)-2.4 1 1 1 ,col Roof 130 1401 150 _ 1601 165) 1701 1751 1801 path zares down Wilt down WILL dawn Wilt dawn Wilt dawn Wilt da,+n Will down Wilt dawn will 1 140 -24.1 1" =28.3 130 -32.5 15.0 -36.7 160 -39.5 168 42.3 17.9 -46.2 1" -50.0 0-7 dtg 2 140 -38.6 1" 44.5 13.0 -51.5 150 -58.8 160 -62.6 163 -66.1 17.9 -70.7 1" -75.2 3 140 -55.4 140 -64.1 110 -73.1 150 -83.2 160 -08,9 168 -94.6 17.9 -100.7 189 -106.5 1 IA -22.4 15.3 -25.5 182 -305 20.7 -33.9 2L1 -36,0 23A -38.1 24.9 -41.0 263 4318 8-27 deg 2 1L1 -37.2 158 -44.0 1&2 -49.8 207 -57.1 2L1 -66.9 23.4 -76.7 249 -74.9 263 -72.9 3 1411 -56.8 158 -65.2 18.2. -75.3 207 -85.4 ILI -96.6 11.4 .107.8 24,9 -308.6 263 -1093 1 223 '-I4,1 265 40.8 30A -32.5 34b -36.7 16.8 -389 39.1 -012 41A -44,1 438 -07A 28-aSdeg 2 2L8 -20,3 26.i -32.5 30,4 -38.1 316 -02.6 368 -45.4 39.1 -08,2 41A -51,8 438 -$5.3 3 228 -28.3 26.5 -32.5 304 -3BS 346 42.6 353 -4 4 .39.1 40,2 4L4 -51.8 438 -55.3 Exposwe D,m toofhe'#a 15 R arni Adef,<d-.85,Ka1. l and L4mbda l adjustment Extorl-2A7 I 1 1 .cal Roof 1301 140 1501 iwl 1651 1701 1751 180 path ztr dawn Will dawn will dawn wilt down Wilt dawn cam dawn Wet dawn Wilt dawn Will 1 14.7 -2513 14.7 -29.7 13.7 -34.1 15.7 -38.5 163 41.5 174 44A 188 48.5 198 -52.5 0-7 dta 2 14.7 40,6 14.7 -463 13.7 -54.1 15.7 -61.7 IE3 -65.7 1716 -69.4 188 -74.2 19.8 -78.9 3 143 -58.2 14.7 -67.3 13.7 -76.7 15.7 -87.3 163 -93.3 17.4 -99A 188 -1053 198 -111.9 1 147 -23.5 166 -26.8 19.1 -32.0 218 -35.6 232 -37.8 245 -40.0 262 43.1 27.6 46.0 8-27 deg 2 111.8 -39.1 155 46.2 19.1 -523 218 -60,0 232 -70.3 2145 -00.6 262 -78.6 27.6 •76.6 3 LAS -59.7 16.6 -69.5 19.1 -79.1 218 -89.7 232 -101.4- 245 -1132 262 -114.1 275 .114.8 3 24D -25.3 27.$ -27d 31.9 -341 363 -38.5 3&7 40,9- 410 43.2 435 -46.3 360 -07A IS-45 deg 2 240 2L8 -34,1 31.9 -40.0 363 -447 33,7 47.6 410 -50.6 435 -54.4 4`.0 -5&1 3 2'0 -M,7 223 -34.1 31.9 1 40.0 36.) 44.7 387 47.6 410 50.6 43-5 1 -54.4 1 460 -58.1 Exposwe D, mem toorhe12ht 15 to 3014 Kd -,85, Ka- l and adjustment faltor -1.66 1 I 1 1 1 floc Roof 1301 1401 1501 160 165 170 1751 1801 p;th zoe; dawn Wilt dawn Wall done wilt dawn Wet dawn Wilt down Wil[ dawn Wilt da..n Witt 1 165 -28.6 166 -33.5 15.4 -38.5 178 435 1&9 46.8 19.9 -50.1 212 -54.0 22.4 -59.3 D-7 ft 2 16.6 AM 166 -52.8 154 -61.1 178 -65.7 18,9 . -742 19.9 -78.4 2L2 -83,8 t2F -89.1 3 16.6 -65.7 164 -76.0 ISA -86.7 17.8 -98.6 189 405,4 19.9 -112,2 11.2 -119.4 27-4 -126.3 1 166 -26.6 1s3 -30.2 22.6 -362 24.5 402 152 42.7 27.7 -452 295 48.6 311 -52.0 8-27 deg 2 168 44.2 188 •52.1 11.6 -59.1 246 -67.7 26.2 -77.3 27.7 -91,0 295 -88.B 312 -86,5 3 168 -67.4 183 -77.4 21.6 -89.3 246 -1013 262 -1145 27.7 -127.0 29.5 -128.8 312 -129.6 1 27.1 -2816 3L4 •33.5 360 -38.5 410 -03,5 437 -46.1 463 -0B.8 47.1 -523 Sze -55.8 28-45 deg 2 27.1 -33,5 3L4 -38,5 360 -052 410 -50.5 417 -53,8 463 -57,1 47.1 -61,4 520 -65.6 3 27.1 -33.5 3L< -38,5 360 -052 410 -50.5 4;,7 -53.8 463 -57,1 49,1 -61.4 S20 -65.6 Per Florida Building Code, effective area to be taken as the surface area of 1 module or panel Tables interpolated from 2017 Florida Building Code -Residential, 6th Edition (2017) Page 25 as allowed for effective area Table values have been adjusted and recalculated for height and exposure using adjustment coefficients in Table 301.2.3 Table values have already been multiplied by.6 to convert component and cladding pressures to Aso. Values given in PSF (pounds per sq ft pressure). Positive values indicate down force; negative values indicate uplift. 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.0 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. A WALLS -Cal- = 1 1 1 I ' 1 i 9 1 0 0 1 1 1 657° 1 i ' GABLE ROOFS esr Note: a = 4 feet in all cases. 1 1 i I i 1 9 10( �ml f h 1 ' i 1 7°<6545' 1 f r 0 7 0 GABLE ROOFS 7' <9545° 1�_ a ' e m f 1 � ' 7'<0s 27' HIP ROOFS 7° <0 5 27° ENGINEER: JOHN ALGER 4105 SAINT JOHN's PARKWAY SANFORD, FL 32771 PROVIDER: THE LEVEREDGE 142TGunn Highway aae9sa, ELxuss 813-0 5100 Certificate Of Authorization R 31930 PH 800-929-3919 X1411 jalger@theleveredge.com State License # 74730 DRAWN BY: - JOHN ALGER, PE DATE:02/2=0179.45AM 61LDR-SI-SE-QC295M Rev. 04.16.18 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 30.5-1. 2. Plus and minus signs signify pressures acting toward and away from the surfaces, respectively. 3. For hip roof angles less than or equal to 25 degrees, shall be treated as Zone 2. h: Mean roof height, in feet (meters), except that eave height shall be used for roof angles <10a. 0: Angle of plane of roof from horizontal in degrees. A-100 SOLAR EDGE INVERTERS AND OPTIMIZERS MEETTHE REQUIREMETNS OF 2014 NEC ELECTRICAL DIAGRAM FOR RAPID SHUTDOWN WITH NO ADDITIONAL, 06PEAK BLK-G4.1295W Mono (32MM) DIMENSIONS 65.7" X 39.4" X 1.26" EQUIPMENT (8-19) WEAK BLK-G4.1295W Mono (32mm) = 2.36 to 5.61kW STC DC ,ELECTRICALNOTE& 2POLE BACK FED PV BREAKER MUST /. CONTRACTOR RESPONSIBLE FOR COMPLYING WITH ALL INSTALL OPPOSITE MAINBREAKER LOCAL OR NA710NAL CODE REOUIREMENTSOND EQUIPMENT INSTALLATION INSTRUCTIONS. FOR PANEL CONNECT 2. ALL COMPONENTS MUST BE GROUNDED PER NEC 690.43 SEE E-101A FOR ALTERNATE CONNECTIONS 13. EACH MODULE MUST BE GROUNDED ACCORDING TO PV 4, PER NEC69D./(OI, ALL EQUIPMENT FOR USE IN PHOTOVOLTAIC POWER SYSTEMS WALL BE IDENTIFIED #68ARE COPPER WIRE •- SOLAR EDGE SESDDOH-US INVERTER 5. AND LISTEDFORTHE APPUCAT)ON. USEICAWOTYPE PVWIRE OI6 CONNECTOR, DOUBLE ANY COMBINATION OF SOLADECK MODEL 99.2% CEC EFFICIENCY@24OV JACKETEO)SUPPLIED FOR CONNECTING MODULE STRINGS. 5a. THWN-Y W METALLIC CONDUIT IS ACCEPTABLE. MODULES FROM 8 MINIMUM _ _ OREQUIVALENT _- SDOGWAC CONTINUOUS - 6. PER NEC 6e0,17. PROVIDE AWARMNO SIGN ATALL _ _ PERSTRING UP T019 MAXI MUM LISTED MAX OUTPUT CURRENT 23AMP5 LILTN LOCATIONS WHERE TERMINALS OF THE DISCONNECTING PER STRING USING 8 TO 19 FOR 1 2 D a a 18 19 ER/ENCLOSURE 70.MAX INPUT CURRENT I3.SADC MEANS MAY BE ENERGIZED N THE OPEN POSITION, SIGN SWLLL READ'WARIING- ELECTRICAL SILOCK HAZARD• 00 TOTAL SYSTM SIZE;1 STRING ION FROM USE-2 o e GROUND FAULT PROTECTION PROVICED NOTTOUCH TERMINALS -TERMINALS ON BOTH LINE AND ONLY + ♦ + L6788-41 LOAD SIDES MAY BE ENERGIZED IN OPEN POSTDOMOR E TO THWN-21=1 Dom PER NECARTICLE 690.35 EQUNALENT. DISCONNECT MUST BE LOCA7EOIN AN O FUSES REQUIRED, iSOLAR EDGE AC/DC SAFETY SWITCH M ACCESSIBLE LOCATION FOR UTILITY PERSONNEL OR NEXT + ai o a o �+ + 240VAC, 32 AMP CONTIN UOUS 7. TOUTR.RYMETEFL PER NEC 705.10, PROVIDE A PERMANENT PLAGUE OR SOLAR EDGE POWER OPTIMIZER == OPENS ALL UNGROUNDED CONDUCTORS DIRECTORY SHOWNG ALL ELECTRICAL POWER SOURCES P320 RATED DC INPUT POWER- 3 20watts PV WIRE IN FREE AIR 3/4N METAL OR FLEX CONDUIT PER NEC ARTICLE 69035 I a. ON THE PREMISES AT SERVICE ENTRANCE, PER NEC 705.12(DX7I UNLESS THE PANEL BOARD IS RATED MIN 10 AWG Cu WIRE EACH (2)#10 THWN-2 CONDUCTORS OPTIONAL SUM OF NOT OF ALL ERE MAXIMUM INPUT VO LTAG E-48VDC MPPT RANGE-8 TO 48VDC (RATED 90 DEG C) (1) #8 GROUND LOCKABLE, NON FUSED OVER -CURRENT PLYINGHE ACONNECTIONIN CONRATINECTION TIONI A PANEL BREM DEVICES POSTPONED A PANEL BOARD SHALL BE POSITIONED ATTIRE OPPOSITE MAXIMUM INPUTCURRENT; 10ADC POSITIVE, NEGATIVE i PV AC DISCONNECT THE INPUT FEEDER LOCATION OR MAW (LOAD))CIRCUIEND FR MOM MAXIMUM OUTPUT CURRENT: 15ADC BARE COPPER EGC OR 30A, 24OV, 2 POLE I 9, AC DISCONNECT ANDIOR PV METERMAY OR MAY NOT BE INSULATED EGC IN CONDUIT (SEE NOTES 6&9) 1 30A/2P REQUIRED BY THE AW ANDIOR UTIUTY FOR MAX POWER 5700W PER STRING KEEP UNDER 2% VOLTAGE DROP pV - AC BREAKER PANEL INTERCONNECTION. PERFORMANCE LID. MIN 150A RATED BUSSI WIRE SMEASSUMES THAT CONDUIT WILL BE RUN IN ATTIC SPACE ORLESS THAN ID' is EXPOSED TO SUNUGHTPER CONNECTION FROM #68ARE METER O (SEE NOTE 9) NEC310-15(A)(2)EX WIRE GAUGE MAY NEED TO BE INCREASED IF RUN IN CONDUIT ON THE ROOF FOR MORE COPPER TO #8 THWN-21NSIDE THAN 10-PER NEC110.15(BX3X[). JUNCTION BOX MUST BE MADE WITH 3/4"CONDUIT 11. PER NEC 690.31, METAL CONDUIT OR TYPE MC CABLE MUST BE USED WHENEVER THE DC CONDUCTORS ENTER AN IRREVERSIBLE CRIMP CONNECTION (2)#10 THWN-2 CONDUCTORS - BUILIDN0 BEFORETHE FIRST READILY AVAILABLE (1)#10 THWN-2 NEUTRAL DISCONNECTING MEANS. (1)#1OTHWN-2 GROUND UWRed 12. GFO PER NEC 690.31, EXPOSED RACEWAYS, JUNCTION BOXES AC CURRENT, WIRE MAY BE UPSIZED TO T/aunft AND CONDUIT BODIES IN WHICH ANY OF THE AVAILABLE CONDUIT OPENINGS ARE USED MUST BE MARKED WITH _ Grour KEEP VOLTAGE DROP BELOW 1-1/2% = THE WORDING'PHOTOVOLTAIC POWER SOURCE'BY MEANS OF PERMANENTLY AFFIXED LABELS NOTIC[C ENGINEER CERTIFIED 91210un 1Ayr`q TM DdLLJJ. FL 3Y156 .wuoy.,n.Nr TVLw�rGP N.m�P.+� B13JO]a100 Vd-2•L'R`I/1000 (R from 2014 NEC Chap 9(table 8) Wire Run Vmp Imp R L Vd %Vd Wire Size PV Strings to Combiner Box 380 13.S 1.29 50 1.7415 0.45% #10 Combiner box to Inverter ago 13.5 1.29 So 1,7415 OAG% #10, Inverter to Interconnection 240 1 2.05 SD 4, 5' 1.79 #12 Inverter to Interconnection 240 21 1.29 75 4.0635 1.69% #10 Inverter to Interconnett On 2 21 0.809 100 3.397 1.42 #8 Inverterto Interconnection 240 21 0.51 150 3.213 1 1.34% #6 Labels Rated MPP.Current 13.5A Rated MPP Voltage 380VDC Max System Voltage 48OVDC max - I 15A Photovoltaic AC Output AC utput Current 21A NominalA VVoltage 240V EN6uE1CPR[OOAD J0INLALGLSLPe. PL UCLN33M MM Are LEVEP9006 ComwATeoF AVn4ONTATKIN ---N0.31W0 2.36 to 5.61kW String Inverter Retrofit REVI aT6 er REVISIONSce cNPrwR "M u � rnAtwer 8 to 19gty Hanwha Q-Cell 295 mono Solar Edge SE5000H-US Inverter >NAn E-101 I- 4 Main Main Required lockable Main Breaks bBreakei fused 60A rated reake disconnect. Fuse size determined Optional lockable House House 125% of by continuous Max. wndnuous House non fused 30A rated disconnected as Circuits 240 V Circuits Inverter output Circuits - - maybe requiiedtiy - -- — - - - - -- - from - - - --- ----- - - - - - ---- — local utility inverter 240 from Existing AC Existing AC inverter Existing AC distribution. panel P Optional lockable distribution panel - P distribution panel 240 V 120/240 V 1 PH non fused 30A 120/240 V 1 Pit 120/240 V 1 PN from rated disconnected as inverter may be required by local utility, Unified Unified PV Breaker Ground PV Breaker between Ground Ground wire to connect Opposite main breaker main and bottom of directly to ground rod and buss not to disconnect or panel grounds to avoid parallel PV Breaker+ Main breaker PV Breaker+ Main breaker grounding thru neutral wire Line side connection required when PV over current must be 5 120% of buss rating must be 5 100% of buss rating device + Main panel breaker > 100% of buss rating PANEL CONNECT OPPOSITE MAIN PANEL CONNECT BETWEEN LINE SIDE TAPS HOUSE CIRCUITS 1- Wire sized per voltage drop table, usually #10 or #8 based on 125% of 2- Wire from disconnect to connection point to be #6 maximum continuous inverter output amps. THWN - 2. Distance from connection point to Upsizing of wire from #10 to #8 Is permitted disconnect panel not to exceed 10' and must comply to reduce voltage drop. with NEC 2014 240.21 (13)(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 2014 765.12 (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. CERTIFICATE OF AUTHORIZATION# 31930 ENGINEER OF RECORD JOHN L ALGER PROFESSIONAL ENGINEER t FL LICENSE NO. 747M x o T l c a s: REVISIONS GRAWING INFORMATION t OPTIONAL CONNECTION DETAILS REV DATE BY DESCRIPnON OATS RY 017 - Themoushu ena.me. eaPmszea ^am wiNin ere Na eacluaNe SCN.E �N.T.S. - PraPeM of Tlie LeverE48e Theuze 7 1423 Gunn Highway 1Nma memd^la, wiNPN Me SHEETN¢ Odessa, FL 33556 "'^^°^°O^sam orthe La or sxc, E-101A DANGER a STOP ! b DO NOT DISCONNECT UNDER LOAD A WARNING LABEL TO BE AFFIXED TO RAIL OR ON SIDE OF PV MODULES IN CONSPICUOUS LOCATION B AFFIXED ON COMBINER BOX REFLECTORIZED LABLEL MUST COMPLY WITH 690.56(C ) AND BE LOCATED NEXT TO METER C INVERTER LABEL TO BE FILLED OUT WITH SYSTEM SPECIFIC DATA AND PLACED ON THE INVERTER OR CHARGE CONTROLLER Must be reflective per , . NEC 630.31 & 1FC 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) SAMPLE PLACARD REQUIRED IF PV DISCONNECT IS NOT CLOSE TO THE AC BUILDING DISCONNECT. ACTUAL PLACARD USED MUST MEET 690.56(A) AND 690.56(8) AND BE SPECIFIC FORTHE JOB SITE EQUIPMENT USED THIS PLACARD IS FOR ILLUSTRATIVE PURPOSES Tn. vay.. w q..........a Mn.an• 0•.vLYA o-,a.no<nrtM,eaw nww 14nwn199R.ry au.»nn.w..cs,.•. O 3S" .mwmrow•of•rtlnpc. .fL 5!"J 5100 + _J E POLARITY OF CABLES MUST BE LABELED AT OR NEAR THE COMBINER BOXES AND INVERTER CONNECTIONS ON THE DC SIDE DC Disconnect. WARN!NO. ENt1n xe NAAad 00 NOT TO CHM NALS line rotr O •of LN:O td°s n•41N• w ,M OW,M OC IOLTLO.•\ 1WAT! f•EfflO �. •aAR ROgRf.•ARf DOOst0 ro wn9lRr • . •a L1 n G SOLAR.DISCONNECT SWITCH ON AO DISCONNECT -SWITCH IF b USED. REQUIRED ANYTIME LINE SIDE TAPS ARE USED FOR THE POINT OF CONNECTION H AFFIX TO INVERTER I AC THAT UnUTY METER THIS MUST AFFIX NEXTTO THE PV 2012W BREAKER INSIDE THE PANEL SWGLE PHASE' M D This diagram is for illustrative purposes K A in the placement of labels and not to be' INVERTER used for electrical and wiring details. WITH INTEGRATED For electrical and wiring details see DC DISCONNECT g C, E drawings E-101 and E-1O1A D �( H i. ti B,E F w TRiNSRWIRNO TEN-2 wAGDISCOfd1EOT PERCORNANCB 1 N9RE TO TN9M3 T9A 74OV, T•POIfi METER j (SEE NOTE 91 G t� 4D D I i, J CERTIFICATE OF AUTHORVATIONN 31930 EWWEEROFRECORO J0101L.&GER F'ROFECIENSE f.74MR f4 LIEAt5E N0.TIT]0 K AFFIX ON METER CAN FOR BI-DIRECTIONAL METER 0 S- and Barrel Tile (cease Universal Tile Mount /QMUTM Shown) Standing Seam Clamp • 's• rT-ir n'rF.. wj4'- ht 4 Composition Shingle (Emount /QMSE Shown) ROOF MOUNTING DETAIL SCALE:NTS Flat Tile (QBase universal Tile Mount /QMUTM Shown) Altemate Tile Strategy: Quick Mount Tile Replacement Mounts (QMTR-BM) ITEM NO. DESCRIPTION GTY./BOX I HASHING, r X IT X.047, 505Z MILL I 2 GBLOCK, CLASSIC, A3W CAST AL MILL I 3 PLUG. SEALING, 511 C X)/8', EPDM/IB-B SS I 4 LAG SCREW, ILEX HEAD. 5116'X S-I IT, 18-8 SS 1 5 WASHER, FENDER, 5116' ID X I-I/4M. I68 SS I RACKING COMPONENTS NOT INCLUDED 5 F l� 4 f, l� 3 _ �7 2 I Quick Mount PV' TIRF: QMSE-LAG: QMPV E-MOUNT WITH LAG BOLT S-511.1 and Mini STANDING SEAM Quick Mount PV' TITLE: QMUTM: ABASE UNIVERSAL TILE MOUNT (nse mm)1 \lu� —1 m1 JLao• f Iss.a/a mm) Ivamm) d.33• . (6.39 mm1 lTry Hnle 4, a2rlads mm j9.910.3r 1 � mm) F.c .Paied Seal.. 239' r (sa]t nunl / 193• �l (99.93 mmI Please aaWAll ama aseam R am mundod W Ns sewnd dedmal Place. Protea TRAPEZOIDAL DESCRIPTION GIY. CAP SCREW. HEX HEAD, 6/16'-18 X 3/4' UNC-2A. GRADE 8 1 GBASE.1.114'IO. FOR 5/16'HARDWARE. A3W.1 CAST AL 1 IAG SCREW. HEX HEAD. 51le X T. ZINC 2 SUB -FLASHING. CONE 97%9'X.820"1MT, 3003 AL. MILL 1 FLASHING, CONE 19'](18'XA3T', 3W3 AL MILL 1 COLLAR. COUNTER FLASHING. 1-1/4' ID EPDM 1 POST, 1.25'013 X 65. 6063-75/6G013-T6. MILL 1 WASHER.SEAUNG.S/16'IDX I-1/4'OD, EPDM BONDED SS I WASHER, FENDER. 5/1C ID X 1'OD. I" SS 1 WASHER,SPLR;OCK.5IICID.I8ESS 1 CAP SCREW. HEX HFAD.5/i C.IS X 1' UNG2A,18855 I 1 lotes 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 P.V flashings or other (lashings 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 recommendations. 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. Metal roofs are made by several manufacturers using several different styles from standing seam to 5V and others. S-5! 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-5! 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. FLASHING CUT SHEETS Quick Mount Flashings NOTICES: Tm mml9l,a anamm.,ln.a.ea The LeverEdge ^NeP'"N"e1e'I"•ad°•"• 1423 Gunn Highway vmwm dlTn•L+•„Ee9e m.9e. Certificate of Authorization#: a Meu manda,, �INadae 1423 Gunn Highway Odessa, FL 33556 31930 .Bmncodaam ellna LE ersxq Odes", FL 33558 1. nanmlm,a e134D3-5100 873-403-5100 REVISIONS DRAWING WFORNATION REV DATE BY I DESCRIPTION DATE lAsa817 EG.'a. SCALE N.T.S. SHEET NO: S-101 Pr s-ir COMP PENETRATION DETAIL Scale: NTS WHY LOCK /% vls•x/a• VNC LAG BOLT SH6'X I- SS HEX BOLT XI -SS FEN ASHER 16'ID D, EPDM S DSSS WASH 1-IN• ID EPDM COL �COUNTERFLASHING PV QUICKMOUNT UNIVERSAL TILE MOUNT FU CONC. FLAT TILE q F TILE PENETRATION DETAIL Scale: NTS THIS LAYOUT USES (2) ADDITIONAL SPLICES OPTIONAL LAYOUT Scale: NTS 102" (2, GROUNDING LUG — (SEE NOTE 9) #6 BARE CU GROUND FOR MODULE GROUNDING (SEE NOTE 9) EXAMPLE OF RACKING LAYOUT ACTUAL RACKING LAYOUT DETERMINED BY CONTRACTOR PV TRANSITION BOX Iz'-IU4 V MAX.) 2'4' PV MODULE . Z 4 inH m 1 1 9N I D I 1 I i MODULE GROUNDING LUG (SEE NOTE 9) RAIL I . pr L-BRACKET & QUICK MOUNT ROOF PENETRATION SPLICE CONNECTOR ARRAY DETAILS Scale: 1/4" = 1' MECHANICAL NOTES: I. CONTRACTOR RESPONSIBLE FOR COMPLYING WITH ALL LOCAL OR NATIONAL CODE REQUIREMENTS AND EQUIPMENT INSTALLATION INSTRUCTIONS: 2. ROOF MEMBER STRUCTURE 2-X4- WOOD RAFTERS AT 24' ON CENTER. , 3. ROOF CAN BE COMPOSITION SHINGLE OR TILE WITH A PITCH 13ETWEEN 9 AND 45 DEGREES. ALL OTHER ROOF TYPES PLEASE REFER TO SUPPLEMENTAL ALTERNATE ATTACHMENT/FLASHING STRATEGIES. 4. MODULES MOUNTED TO ALUMINUM RACKING SYSTEM AND ATTACHED WITH DUICKMOUNT PV MOUNTING SYSTEM OR OTHER FLASHING/ATTACHMENT SYSTEM APPROVED BY THE RACKING.MANUFACTURER. j-'it ;r•t 5. DISTANCE BETWEEN PENETRATIONS NOT TO EXCEED 4.00 FT. 6. RAIL OVERHANG FROM PENETRATIONS NO TO EXCEED RACKING MANUFACTURER'S SPECIFICATIONS. T. CONTRACTOR SHALL TAKE ALL NECESSARY PRECAUTIONS WHEN PREPARING ROOF FOR RACK INSTALLATION BUILDING. STRUCTURAL INTEGRITY AND WATERPROOFED PENETRATIONS SHALL BE THE RESPONSIBILITY OF THE INSTALLER. S. ADJUSTMENTS MAY BE REQUIRED DUE TO EXISTING ROOF LAYOUT.- 9. FOR INFORMATION AND DETAILS ON GROUNDING OF THE SOLAR MODULES AND RACKING SYSTEM PLEASE REFER TO THE SPECIFIC RACKING MANUFA=RER'S INSTRUCTIONS. NOTICE 'P REVISIONS DPAvnxL wFLRNAnoN CERfIFlCATE OF 1(,�// TMtli.upxl..ne lt.0 nmmnJ 0.EV DATE BY DESCRIPTION WlE in IT At1moR 31930 M wiWn.n tA..adwM1. OPAtYN BY: F meh Y�,llefElmo SGI£ NTS dN. „�,G""„g� GENERAL RACKING LAYOUT .xe.ewn.axwln.LEwbxe, Odessa, FL 33556 STATE DLENSE N napmJe.b 613A03-5100 S-102 7a73o •,"1; .. sw S-102 GROUND LUG OPTIONS ,SEE NOTE 9) BONDING SPLICE DETAIL tYFWf WCf W DUAq WOOD SHEATHING (TMp•) A thermal break Is required every 40 feet of continuously connected rall. Bonding connection for splice.used as a thermal. break., • Option shown uses two Ilsco lugs (Model -No. .GBL-4DBT PM GSL-4DBT- see product data sheet for more details) and solid copper wire. ASSEMBLY PHOTOVOLTAIC MODULE (TYP.) UNIRAC SOLARMOUNT RACKING SYSTEMS MOUNTING RAIL (TYP.) ASPHALT SHINGLE ROOFING (TYP.) 3rd RAIL LOCATION (TYP. - IF REQUIRED, SEE STRUCTURAL) THERMAL EXPANSION JOINT Notes on Racking: L BRACKET WITH BONDING T-BOLT AND NUT ASSEMBLY 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 attachments to roof to be less than 16". Contractor is responsible for ensuring watertight attachments and for sealing, trimming, cutting roof shingles and membranes in a neat, professional and workmanlike manner. Different rows and columns are permissable as long as the attachment requirements listed in #4, maximum rail overhang, and maximum module overhang from ends, does not exceed manufacturer's recommendations. WOOD TRUSS y UNIRAC SM LITE DETAIL 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 OC 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. aatmcea: REVISIONS 8nn»vxmaarxAn� TheLeverEdge msEv oan: eY oescwanou ogre vmmrtav 1423 Gunn Highway Certificate of Authorization ff. IXu mar. p,ymy Writs l.varEus rmr u« srrae N.r.s taYa Gw»itghway W'^"'""�^`�'`""OiM1dis Odessa, FL 33556 31930 sN W. oaasaa, FL 33sse `""'"""""s„W„aSMO 813403-5100- S-103 et9-aossteo S-103 dap Notes on Racking: WOOD SHEATHING (TYP.) UNIVERSAL FASTENING OBJECT L-FOOT 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". Please refer to manufacturer's installation instructions for rail cantilever distance from roof attachment. Contractor is responsible for ensuring watertight attachments and for sealing, trimming, cutting roof shingles and membranes in a neat, professional and workmanlike manner. Different rows and columns are permissable as long as the attachment requirements listed in #4, maximum rail overhang, and maximum module overhang from ends, does not exceed manufacturer's recommendations. PHOTOVOLTAIC MODULE (TYP.) RAIL (TYP.) ASPHALT SHINGLE ROOFING (TYP.) TRUSS (TYP.) BOLT & NUT IRON RIDGE RAIL DETAILS FASTENING IRONRIDGE XR100 SPAN TABLE 72' Spans are permitted only under the following conditions. All others are limited to 48'spans. For Exposures B and C only. Exposure D requires engineering evaluation. Wind Speed Conditions 130mph Zone I and 2 all roof pitches 5 to 45 deg,Zone 3 pitches 30 to 45 deg 140mph Zone l all roof pitches IS to 45 deg), Zones 2 and 3,30 to 45 deg 150mph Zone l all roof pitches IS to 45 deg), Zones 2 and 3,30 to 45 deg 160mph Zone l only, all roof pitches 5 to 45 degrees Cantilever limited to 40%of span and no splices in cantilever. Shingle and tile roofs only. Metal roofs require engineering evaluation for pull off. 0 ATTACHMENT DETAIL SCALE: 7.16 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). Grounding lugs are only needed on one mil per row of modules. Grounding lugs can be installed anywhere along the rail and in either orientation. 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 I06+ 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. 1423 Gunn Highway Odessa, FL 33558 613-0035100 NOTICES' REVISIONS DRAWING INFORMATION The Oouams end meal exprazsea hem widlin ere INe exclusive pmpeM alTM LevorEtlpe Theuse on i N. metedel; wNaut Ne writle"wnsent of the LE or GNO, moat permitled. REV DATE BY DESCRIPTION OATS to lRBt] DRAWN BY: SCALE: N.T.S. sNFtrNo: 5-104 CEFIIIFICATE OF AffrHOflIZAT10Ntl 31930 EN6 M'iN"L K"FA � sou rn rr 1 S-104 SHEATHING (TYP.) Q-RAIL BONDING LUG T-BOLT WITH NUT Q-RAIL LIGHT 1 SPLICE WITH BONDING 1 Q-RAIL STANDARD SPLICE WITH BONDING UNIVERSAL MID -CLAMP WITH BONDING CLIP (30-45MM SIDE WALL) Q-RAILSPANTAIM.01 exposures Bad CnPto3a1F Comult LF ¢�n¢edn6 fd prah°rt Sqn laird aWINn Eupagve D) V. Slane aaaa Uto Up to 230mph In met rani No go brreof %one 2 72°spans (EPoPSsaeeard Up 10 173MPH In rod5me2 _ 16amIIl Nogabrooftme2 72'Spans QJagSTzsdard Up W 36amph In roofaane1 172 Cell) Noggin foetmnc2 48`Spam 4Wll um Up to 175mph In rootloneI Up to laonao In rvafmne a 4WSNM cb a stadam Up to 17 91, In met mnel 1600:16 Up to 175mph In roof zone `Spare Q.8all5tandand Up to 175mph In Inof... I in Cell) Upto175mphlnmofmne2 L 'Spam 0.graas AIIfDmbbatbnf lorwl speed, vryosvre. root saw and a bwtM L BRACKET WITH BONDING T-BOLT AND NUT ASSEMBLY Q-RAIL STANDARD SHOWN WITH WIRE CLIP I NOTES an RACKING FOR Q-RAIL I Call approRE raMte mapanwsssbal be medtoneretwhd load rodn6s END CLAMP •B iconm vrbrommhNlomnabaaewMmYaMatonlmdNauanai ' tdnand epUllmenl hCalhum Imgrvnbns BONDING 1 3PJ ModW¢f are mmttl [oalum mm aJ gmmpmnmad rabad I a11XMdm Nero41ts531gQWekMounl PV Phihingtarqthen ahamm¢M CLIP andaadatompDam bshhgaPproavdMroeRWngmarufrnvHas PHOTOVOLTAIC apvroprhte rotAefi5h6tlen MODULE(TYP.) ENPRASEIQQI115PLUS 4 Meximusrt aponbewnnamcnmmb lb y1-014S` batmfarmtbe I Q]AND gOPl155 MDUHHRD DETAILS( spanhbte,papkaladvier expmWOOandrwfaents3. Ov.,nALercr[dg - -- - IQ7 NDXOSP -_ W91meong for arnyoom 3 allad:ment _ - S R2fnlo Iho mawHuureti NiblUUon h6UrHaonslM tY2 araertr r' SRtpnte Nom the rodfxtpcnmenU 9CedruRorb rppvmitleforonsurcgu'atertFdLlzttadlmentsand fpr MOUNTING seat):lg,aemming,pAOngrestshlhaner. membrmtet Iva nvaq RAIL (iYP) profesN+nalmdwolkltrw2ln rmmer- ] gNermt roanmd mllan are pestnUsable851ongyheathrhmtd \. UNIVERSAL � I hpuimmeb"apdhR4,maxhnam rail O'a0exhad maahevm moeub ASPHALT SHINGLE END CLAMP � uestlangfrvmm¢eMs,daxne[a<teedmanuhausMs retdnnrendatlons. Mmxrttne otlmOWnsarePortraltfartM Ngaen / ROOFING (TVP.) Wndratine.C,rmitthemodule mwvh0.umrs kublaaan Wtmdbas ASS'Y WITH fao "LI"gash°q'c "ry "non odennuwshavDalaaer / BONDING gegnaiea ammapNmmrewbebthaoTb roofpreswre%anes ultra an t• 'JL(30-45MM SIDE WALL) Ot mina moe Ieesppeanownnshaett and Jnswcdonnerlwsfar maredehtb). Natethat module pfahure ratings aOyMrduud br vdeneetienepUrerthm pamaRxith maunU m the I-Esgq. q Groundinglug opeomarc repulredlf no[uilrgapprowd integrated grourbin0 mkra trlvenen aalerro manldadwelshstallatbnhnbumlmtfd bmM1 WEEeand ILSOD ILSCOproducts. `. �+ 30 The EOpham IQ7and Iq]+Ux¢pen haws mnovnauntre aase and do not require gmwdhy The Qoble. haupwr, does mtoonW n a ground, m modldes and ralb must be l owndO ememaM and gmwded at the breaker pmalgrotMlemdnal connepd to the grind Source in wDkd gve mmng. 11 Q-Rag meet eau nd beyond the module frame by l2- mWinum 12 Uhe mly 30 nho lhiskmodoks for proper atachnaet to wile n Tomue Nauss f e"Ip theIt IW (.raw and 12 the lermId eggs )A An Q-E1irk reld [nps hlcblde lnlemal bendlegawsheO IWEE9) �/\✓ End apawa onemal WEE11,45 CODES and STANDARDS 1YOODROOF 1RU8SITYPd f r 01 •�1 Q-RAIL LITE .- MCV=2a1Sg.IZQ&C2a17 Ahminven DeOpn Mawel I ASUMOl ASCE7-05 20S.d2OM CWCRC2016 CabARnaWtad I.Steep Slope Aa151/UL2703Ed1 Appkatbnfptboth ETI-toted ULYFORAO Type land Type llmerLks FBORC2017 QUICK MOUNT Q-RAIL AND ACCESSORIES CERTIFICATE OF AUTHORIZAT1ONO 31930 ENGINEER OF RECORD JORN L. ALDER MOPEA Onak wqule9i R.LI E19e NO.7471e NOTICES: REVISIONS g1nWaX9115aRrW1IDN REV BATE BY DESCRIPTION64TE: g12Bf20O ,Ta gm4pbN eldkaes aspraoed Q-RAIL AND ACCESSORIES p„y,pp,.: hereere propry a The LemlEdc&TbeOar su[E: n.TS 1423 Gunn Highway ofaNSemaLmlNr,wn Ulhe vuruC: 9 Q3' rtitlmoonsonlalha LEd6HDle Odessa, FL 33666 rblPamMae. 5-1031 813-40MI00 S-103 FiasE�A rlodd., War Energy 6ldustrie5 ARwciatiun 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, (FSEC,) 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 chapter471 using the standards contained in the most recent version of the Florida Building Lode. Please find HB 1021 attached for your convenience. This modification to 377.705 will go into effect July 1, 2017 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 FIaSEIA Florida Solar Energy Industries Association (F1aSEIA) 2555 Porter Lake Dr., Suite 106 Sarasota, FL 34240 System.Certification .bya Florida. Licensed. Engineer__ ___ QC295with Solar Edge Inverter- —; -I- I stem Size (STC DC) I 12.36 to 5.02kW I 5.31 to 6.79kW 7.1 to 9.44kW 9.74 to 11.51kW r MODULES AND ARRAY I I I I I I J odule Brand I Hanwha Q-Cell I Hanwha Q-Cell Hanwha Q-Cell Hanwha Q-Cell odule Size & model 1295W Q.Peak BLK-G4.1 295W C Peak BLK-G4.1 295W Q.Peak BLK-G4.11 295W Q.Peak BLK-G4.11 oduleFSEC# I QC17-NT90-01771 QC17-NT90-0177 QC17-NT90-0177 I QC17-NT90-0177 Ital Number of PV Modules 1 8 to 17 1 18 to 23 I 24 to 32 I 1 33 to 39 I ries Strings/Branch Circuits 11or2strings 2 strings I 2 or 3 strings 3 strings ortest String I 1string of 1string of 1string of 1string of ngest String 1 string of 17 1 1 string of 15 1 string of 16 1 string of 17 ray Nameplate Power Rating 2360 to 5015W 5310 to 679OW 7080 to 944OW 9735 to 11505W )WER CONDITIONING (Inverter) oerter Brand I I Solar Edge with optimizers Solar Edge with optimizers Solar Edge with optimizers Solar Edge with optimizers rerter model number SE-380OH-US 1 SE-5000H-US SE-760OH-US SE-10000A-US Ring to UL 1741 Verified Yes I yes I Yes I Yes Tenter DC Voltage Window 380V to 480V 380V to 480V 400V to 480V 400V to 480V : Power Rating I 380OW 1 5000W 76COW 10000W 1 : Nominal Voltage Output 240V 240V I 240V 240V I1 ax PV array Power per inverter I 5900W 775OW I 11800W 1 135DOW 1 ember of inverters used I 1 1 1 1 1 1 IwerOptimizer used ) P320 I P320 I P320 I P320 I I ited Input DC Power 1 320W 1 320W I 320W 320W I [solute Max input voltage 1 48VDC 48VDC I 48VDC 48VDC PPT operatin Range 1 8-48V 8-48V I 8-48V I 8-48V ax DC input current _ 13.75 1 13.75 I 13.75 13.75 ax DC output Current I 15A 15A I 15A SSA aximum output voltage 1 60VDC 60VDC I 60VDC 60VDC Impatible with all Solar Edge Inverters Yes Yes I Yes Yes 1ARGE CONTROLLER AND BATTERIES N/A N/A I N/A I N/A 1TTERY BANK CONFIGURATION I N/A N/A N/A N/A 1 NREVISIONS ORAWWO INFORMATION OTICES: REV DATE BY DESCRIPTION OATS 1RIROIJ TNe Neughli mElEeai eiprouoa DRAWN BY: Nem . are Ns eitlVilve R&M.'M eiei. twuoul u.in sHEEf No: N.r.s. 1423 Gunn Highway .,.tlnon ceneenta Ne Le aBNF Z-101 Odesse, FL 33666 Lnet R•rmlNe9. - 813-003-6f00 Z-101 °; ��..'r _ _ .. _ ,�. ;'�. .-r �� f!. .,_ � powered by I USE DATA FOR QC 295 MODULE MECHANsr.•`° ' Format 65.7in x 39.4in x 1.26in(including frame) (1670mmx 1000mm x 32mm) Weight 41.45lbs(18.e1,91 • •••-a'...�••+r'.•-' ♦ �Wm Front Cover 0.13 in (3.2mm) thermally pre -stressed glass with anti -reflection technology o-a.aa,.• r Back Cover Composite film Frame Black anodized aluminum Cell 6 x 10 O.ANTUM ULTRA menocrystalline solar cells " __ -- - Junction bac 2.60-3.03inx 4.37-3.54is IP67. with bypass n(6diodes 1 11-90mmx ,nM °�.,,..• , • 15- -3.62i Protection class IP67, with bypass diodes r.m.a.a.�., •'°""" Cable 4 forma Solar cable; (+) z39.37 in (1000mm), (-I e39.37 in (IOOOmm) _ Connector Multi -Contact MC4 or MC4 Imermaleable, IP68 : ua�, IOLa'*a•^° With its top performance and completely black design the new Q.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 °-f Higher yield per surface area and lower BOS costs thanks to higher power classes and an efficiency rate of up to 18.3%. l INNOVATIVE ALL-WEATHER TECHNOLOGY Optimal yields, whatever the weather with excellent low -light and temperature behavior. ENDURING HIGH PERFORMANCE J Lang -term yield security with Anti-PID Technology', LBI Hot -Spot -Protect and Traceable Quality Tra.QT". ELECTRICAL CHARACTERISTICS. POWER CLASS 290 295 300 . MINIMUM PERFORMANCE AT STANDARD TEST CONDITIONS, STC' (POWER TOLERANCE +5 W /.O W) Power at MPP2 Prime, [WI 290 295 300 Short Circuit Current` Is. (A] 9.63 9.70 9.77 = Open Circuit Voltage* V. IV] 39.19 39.48 39.76 Current at MPP• tan [A] 9.07 9.17 9.26 voltage at MPP• Van IV] 31.96 32.19 32.41 Efficiency' n [%1 a17.4 a17.7 z18.0 MINIMUM PERFORMANCE AT NORMAL OPERATING CONDITIONS, NBC' Power at MPP' Pan (wl 214.4 218.1 221.8 E Short Circuit Current" lu [A] 7.77 7.82 7.88 = Open Circuit Voltage* Vs IV] 36.65 36.92 37.19 Current at MPP• Ian [A] 7.12 7.20 7.27. Voltage at MPP• Van Bit 30.12 30.30 30.49 11000WIma, 25•C; spectrum AM LSG • Mess urement tolerances SIC m3%; NOC xS% •800W/ma. NCCL soccia. AM 1.5 G •typical values. actual values may differ O CELLS PERFORMANCE WARRANTY PERFORMANCE AT LOW IRRADIANCE CZAt least98% of nominal power during first yeas K10 Thereafter max. 0.6% degradation per year. a b�^ -Wr ------"'" Al leas[92.6%of nominal powerupto lOYears. m � g At least 83.6% of nominal power up to 25 years. ' n W , All l war within measurement tolerance. ' _ FUll warzantles in accortlance with the warranty 3 lermsofthe Q CELLS sales organisation of your m - respective country. m ® ® m ,® g mNlauxpe IwmS 1` EXTREME WEATHER RATING z• Ci CEllS -... �_.�.-m•` �-isu noes Typicalisonto TCconperformancesneerlow Irradiance conditions In High-tech aluminum alloyframe, certified for high snow TOP.eRANp.w ase it em„paNapn msrc conmupna (xs•c, lCOowim•l. (540OPa) and wind loads(4000Pa) regarding IEC. •• TEMPERATURE COEFFICIENTS 2016 Temperature Coefficient of lss re [%/Kl +0.04 Temperature Coefficient of V. - p - [%/KI -0.28 MAXIMUM COST REDUCTIONS Temperature Coefficient of Pen V [%/Kl -0.39 Normal Operating Cell Temperature NDCT [°n 113 t5.4 (45 t3°C) Up to 10 % lower logistics costs due to higher module PROPERTIES Fr • SYSTEM DESIGN Capacity per box. Maximum system voltage v.w IV] 1000(IEC)/1000(UU Safety Class II Phnynn i Maximum Series Fuse Rating [A OC] 20 Fire Rating C (IEC) /TYPE 1 (UU ® A RELIABLE INVESTMENT o�amy Taieea oceus Design load, Push(ULP [Ibs/Na1 75(3600Pa) Permitted module temperature -40oF up to+185°F i ba,�•.a. �.n satmrN+nm• I a•a•°p°^ .ri.am. oars on continuous duty (-40°C up to+85°C) Inclusive 12-year product warranty and 25-year ' a� .....,a,v s.. Design load, pull NLIa [Ibs/fal 55.6 (2666Pa) 'a see installation manual linear performance guarantee2. to. 40032587 -_ . _ _ - QUALIFICATIONS t INFORMATION r APT lest conditions: Cells at -1500V UL 1703; VOE Quality Tested; CE-compluah Number of Modules per Pallet 32 IEC 61215 (Ed.2h IEC 61730 (EC.1) application class A against grounded, with conductive me- Number of Pallets per 53' Container 30 tat foil covered module surface, 25°C, Number of Pallets per 40' Container 26 THE IDEAL SOLUTION FOR: Seed C E gRu - a See data sheet an rear far further E \ Ca.... Us Pallet Dimensions (Lx WxHI in at inx46.1i) ® epp¢pp al brulu; a u (1745mm x 1150mm x e (651 S) � esi0en[lal 6uiltlings information. Pallet Weight I4351bs (fist kg) NOT- Installation instructions must be folloared. See the installation and operating manual or contact our technical service department for further information on approved installation and use Q CElLS ofthis product. Hanwha O LEILB AmericaInc. Engineered in Germany 3006pedrum Center Drive, Suite 1250.Irvine, CA 92618, USA IiFLH 94974859961 EMAIL inquiry®uz.q-cellssoml WEB wnw.q<ells.us PV MODULE SPECIFICATIONS SCALE: NTS Z-102 solar ®• SolarEdge Single Phase Inverters for North America • SE3000H-US/SE3800H-US/SE5000H-US/SE6000H-US/ - SE7600H-US a c" ' O I v� t. Optimized installation with HD -Wave technology o Specifically designed to work with power optimizers . Record -breaking efficiency Fixed voltage inverter for longer strings Integrated Arc Fault protection and Rapid Shutdown for NEC 2014 and 2017, per article 690.11 and 690.12 - UL1741 SA certified, for CPUC Rule 21 grid compliance' RM- Extremely small and easy to install outdoors or Indoors High reliability without any electrolytic capacitors llllll)i)Il®� Built-in module -level monitoring wave Optional: Revenue grade data, ANSI C12.20 Gass 0.5 (0.5% accuracy) USA-CANADA-GERMAPIY-ITALYFRA;ICE-JAPAN-CHINA-AUSTRALtA-THENETHERLANDS-UK-ISRACL-TURKEY-SOUTH AFRICA-BULGARIA www.solaredge.us solar=ua Single Phase Inverters for North America SE3000H-US/SE3800H-US/SE5000H-US/SE6000H-US/SE760OH-US j SE3000H-US j SE380OH-US ! SE500011-US I SE6000H-US SE7600H-US OUTPUT RaRated AC Power Output ted 1...................,.... _ 3000 3800�— 5000 6000 �7600 TA^ .. .............. ...... Max AC Power Output { ................ .... ....�... 3000 j 38C0 L 5000 6000� 7600 ' VA AC Output Valcage Min Nom Max. 1183 208 = 229) I - ✓ - Vat AC Output Voltage Min Nom Maz (211 240 264) J 1 ._ J,_ .... -!. _, ,.! ✓ ..J-.Vac ................ .............�.. AC Frequency Mominall ........ ...... ................... ............. 59.3 60-6051i1 .............. ........ .. Hz . Maximum Continuous Output Current 208V i...I...... - 24 (. . A Maximum Continuous Output Current 240V 12.5 I6 21. 25 32 I " A GFDI Thresh old ........ .dingP 1 ........:................................ ..... ........... {{ q Protection, U[iIIC7 Monitoring, Islanding Protection, . . Country Configurable Thresholds INPUT Maximum DC Power ..Tra.n.s.f.o..rm...e.r.-l.e.s.s.,...............................-,.,., ....... ...... 7750, .,,...... ... 93W........-..._ W Ungrounded ..................... ..............._........ -Yes ........._. . Maximum Input Voltage ,.............................................................................................................. 480 . Vdc Nominal DC Input Voltage ............................ 380 I 400 .j_....... ...... .................._............................................................................. Vdc Maximum Input Current 208V pl ................ .........:......................... .........3...:...................: ..{ . ... Adc... ................................... Maximum Input Current 240V VI ......... ........ I., ........ 8.5 10.5 16.5 . I A c Max.lnpu[Short Circuit Curren[ ............ ...... 45 ................................................44...................................................... ................ .... Reverse Polant Protection y ..Adc Yes ..G ound Fault Isolation Detection . �..... .... .... ........ ............ 600ku Sensitivity -....... ............. .......... ... ... ....... .............. Maximum Inverter Efficiency .............. 4..................._......... I -� 99 99.2 ..................................................................................... .. . 95 . .. CEC Weighted Efficiency 99 .. % Nighttime Power Consumption <25 I W ADDITIONAL FEATURES ' Supported Communication Interfaces ......................................................... T R5485, Ethernet, Zigeee (optional), Cellular (optional) .................................................................................1............ i Revenue Grade Data, ANSI C12.20 .....9................................................. Optionalpl ..:...................................:..................:..............................:. Rapid Shutdown -NEC 2014 and 2017 690.12 _.....L.......... Automatic Rapid Shutdown upon AC Grid Disconnect . STANDARD COMPLIANCE Safety _ UL1741, UL, 2acco ...I. .... Grid Connection Standards ........ ...... ........................... IEEE1547, Rule 21, Rule 14 (HI) ...... .. .. ....... ................ ......... ... is Emissions � ............. 15 C FCC Part 15 Class 8 . INSTALLATION SPECIFICATIONS AC Output Conduit Size/AWG Range 0.75-1" Conduit/146 AWG OC Input Condw[Sue /.... Stnngz/AWG Range 0751 Contluit...... ng. /.146 AWG Dimensianswith 5afety Switch (HxWxD .............................. �.............. 17.7 x 14.6 x 6.8/ 450 x 370 x 174 ....................... ,....:......... in/mm .. . Weight with Safety Switch .......................... .. ............... 22/ 19................I....251 / i3A....�..............26.2 /_11.9.................Ib / kg.. . Noise................... .......... .................... . .... I....... �.50........ d8A Natural convection and Cooling Natural Convection internal fan 14 (user ......................................................... ............................:.................................................!...replaceable)... j .. Operating Temperature Range ... .......... ........... ....... ...............: 13 [0 *140/-2. to.... ....../-0... OPti..... ............................... ........................... Pratetta Rating .........._R......................................... NE MA 3R Inverter with Safe Sv�itch), ....................................... f N .................. j m For dtherteglowl settinpleGonna Seh6dee.,P. gsase eel A Ngher Curren[ source rnw the used; the Inverter Ma Ihnic im input omen to the values rated m Revenue grade inverter P/N: Seers"SODONNQ PI peNer denting from s0'c m 10version PIN: SEUvH-tlMNNW ` e Z-103 solar Single Phase Inverters for North America SE3000A-US-US/SE5000A-US/SE6000A-US/ SE7600A- US/ SE10000A-USISE1140OA-US SE300DA-US I SE380OA-US I SE500DA-US SE6000A-US SE7600A-US I SE10000A-US I SE1140OA-US OUTPUT Nominal AC Power Output 3000 3800 5000 6000 7600 9980 @ 208V 11400 VA ........................ 10000 240V Max. AC Power Output 3300 4150 5400 @ 208V 6000 8350 10800 @ 208V 12000 VA ...................................................................... 5450,�a1,240V ................30950,(, 240V.............................. AC Output Voltage Min: Nom: Max.ul 163 208-229Vac ...... ............................ ......... . .. AC Output Voltage Mln. Nom: Max!'I .... ............... ... ...... ..:...::. ... ...... ....... .... ....... .......... .. ..... .. 211-240-264Vac J ! J J ! ! J ............................................................................................................................................................................ AC Frequency Min: Nom: Max!'I ............................................................. 59.3 - 60 - 60.5 Hz Max. Continuous Output Current........... 12 5............ ...................................................... 56......I.. @ 208V I,,,,,, 47.5........... 21,240V,,,I..._...25.......I.......32.......I.. 42 @ 240V,,, A..... GFDI Threshold .............................................. 1 A Utility Monitonng, Islanding Protection, Country Configurable Thresholds Ves Yes INPUT Maximum DC P w r 7 o e 5 C ( l ..................................................................... 4050 5100 6750 8300 10250 ..... ..... .......................................................................:........ 1 3500 15350 W Transformer -less Un r ounded Yes .... ....... Max. Input Voltage ............................................................................................................................................................................... Soo ............ Vdc Nom. DCIn?ut Voltage .... ............. ..... . .......... .. .......... .......:............. 325 @ 208V / 350 @ 240V.......................... Vdc Max. Input Currend9l 95 I ... @ 13 18 23 2240V 34.5 Adc ........................ 4................... 15.5 240V ...........I.......@........I................I................I.....@ 30S@ ..... ... .I ............................. Maz. In ut Short Circuit Current...._.. .......................................................................................................................... 45 R—....;Polarity .....4 Protection..... ....................................... � Ves ..,Adc,,., Ground.Fault Isolation Detection...................................................... ............................................................... 600ko SensitivitY............................................................. Maximum Inverter Efficency -„-,977..,,.. .....98.2..... ......98.3... 98.3 98 98 98 ?Ii CEC Weighted Efficiency 97.5. 97 97.5 97.5 98 I.. 97 @ 208V 97.5 % 98 �1,240V„ .. _.. "" ..... ......97;5,�01, 240V.<4................. .... Nighttime Power Consumption <2.5 W.... ADDITIONAL FEATURES Supported Communication Interfaces .... .............................. RS485 :RS232, Ethernet, ZigBee (optional) ..........P.................................................. Revenue Grade Data, ANSI C12.20 ................................................................................................................................................................................ O ttanalol Rapid Shutdown -NEC 2014 690.12 Yes STANDARD COMPLIANCE - Safery ....5tand..ards....... ................................................................................................................................................................ UL1741, UL1741 SA, UL36998, UL1998, C5A 22.2 Grid.Connecd'on. ................................. .............................................. IEEE1547 Emissions FCC oart15 class B INSTALLATION SPECIFICATIONS ; AC output conduit size/AWGrange ................ ................ 3/4'mininnum/16:6 AWG 3/4"minimum /8-3 AWG DC inputconduit size/#of strings/ .............................. 3/4"minimum/1-2 strings/16-6 AWG /................. .........g............... 34"minimum 1-3 strip s/ AWG ran a ..:.......& ............................... ................................... .........................................AWG............ 14-6 Dimensions with Safety Switch 30.5 x 12.5 x 7.2/ 775 x 315 x 194 30.5 x 12.5 x 10.5/ ...... . in/ .............. :................. ................................ ............................................................. 775: 315 x 260.............mm.... Weight with Safety Switch 51,2/23.2 ..................... 6.................... .......... I .................. 54.7/24:7-...-...._ 88:4,/40.1-.. .................... Ib%kg Natuml convection Cooling Natural Convection and internal Fans user replaceable) fan (user ....................... .............. .............................................................:. replaces ble1. ......... ...................................... Noise........... 25 < emdn Tem r p g pe r atue - -13 [ori40/-25 to+60(-40to +60..... na........... ' 'F/'C RMin.-Max.O ang?....................................................................................................................................... Protection Rating .............p?em ....................................................................................................... . ..ther NEMA 3R ................................. tonal m Forotherrrrent Wyrter support. ................... .....:............... MA Ngnuegrare slurce maybe used; the merterwlllimit its 'npu[eurrent tothe valuesxtatea. de inventat PIMSeused;the Ie40verso^P/N:SEv 14000NNU IIo�(AOwlrnener:SV600A-Ln0%2NV4). SUOSPEC ROHS me bad e trederearks or registered trademarus of scharwile jr, -da,., d1j. Teehmdqj.� Ins. All rights eb.�. SOLAREDGE a Are he at the Sol.,Eriu. I,., ORIMIZED BY SOILAREDGE Teebrudoloss, use. All other trademarks mendthelmd hurtle Q - 3i ei si Qi xi xi �!y a C rim ixi i E �e E� W m— e�z ~ U n E - s o z a eE O o o - O)- '=i W Q a ) m fO i0 G C E E , � O s. s 1 - i - 0� 3 c 3 33 a - V=Z' L Ezd 2.c- in:4R - s k �iE�. i -re& 8 I - G E: E: E'v' A E. E:Z�E'Ec E: a: ei' E^: ��O//�� E: ^'a is: s': F: f::6% �. 'o E:E 2'E'i 'o o ''.9 G ^:d _ 5 SE _ � ? F: s: d :3`: s o': o: is sa `. E: i�,P m.m g. : Vi _ .�.: .i 1 i F: I I - m N3yy I Q, _N cu E a - € d, m 0 0 __ E: o a co z O :.'''C � - r _s E 6 E V 3 �� Od. ^^ N '^ E CD C O E 0- C7'-„ 3 sum Ci Q7 'O O a -E w L v 3 P L W N O E o P+ O o l Cn C4 Z-104