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Home My WebLink AboutSINGLE PHASE INVERTORS=1jeSingle Phase lnvertersfo,r' North, America SCEP wr SE3000A-US SE380OA-US-ISE500OA-US I SE600OA- US/ B SE-760OA-US l SE100DOA-US'[SE1 140DA- US 13t Luck I SOCIOdkUS l 5E3800A US SESQ60k113 I A06CW.t.3 SE7c00A l35 SEIC669A-US V 51!11400A-Us I .OUTPUT t.lorninil A.0 Power butpyt "Ill' UDO 50W 6009 76W 99n LD 2GW 11400 - ....... JOQQO v i4OV. ........ VA .. ........ ... _..I ....... 3300 - ................. ....... ............. 4150 '4CO I" 20ay 66M 8350 low!) @ AM 120Q4j 11A AC C u t P 1A k 'At I I t I 183 -'209 - 2 ..... .. ACAlutput Voltage .Min;-NonL-Ni�x.lk' Ilk ........... .... .' ..................... ..... .............. .S 59.3 -....SM........---- .. Hz Max ConI!rUosDUfAkCufrent .-.._................... .. ...... 125 ......� 16....2S 11173 .. ....... .......................a?. ,.�..,........ A. ... I ....... * ............................ ....................... .................................. A . ........ .......... m ............ 1 ... * PRuMble thrftbaMs ye'.. Yes INPILI-1 Maximum DC Power I (ST - Q 91iJ0 10250.."J.....1.350b 15350 W ........ ............ .......................... Yes ...... ...... .......... .... ...... .............. ................ ....... .. 1-1 ...... ... 1 a 500 ................ . ------------------- ........................ ........ Vdc ........... ------- . ..... : ------- ................... ........ ................. 1 325LTZO3V/5'0@24GV * ......... ------------------ Mic - * ------ ,%bx. Input Current", 9.5 13 23 33 @3 2M 34.5 Ade .......... i .. .-------- 45 -_--_.-.I ...... — .......... - - --------- ............... Adc .. ......... Ht-�crs-_ P�Iztdiy Ofatectfon 1. � I 11.1 ........... . .......... 1 ......... ............................ ------- ........... Y6 ......... ......... .......... ..... ::� ...... I ......... I , 1 ... ... Ground -Fault ls6latton Opwtfon 1 hlaimumInverter E -CECWr, --- : ........ ............. 97.-5 ...... ........ .. ..... ....... ....... 9A 9.7@ 208V 47 715 .97 La_2wl 975 ...... .. ...... NIghthma F�awar Con3urrip;ion 4 2,5 4_ W, ','AD YTIONALAATURES 60M ' 11[caban Interf M.— ... 5�: RS495,- al 1. ............... __...._'...' ----- ------ Ro-W tie deade M6, ANSI C12.221 Z': .. 1 .................... ------ --------- ...... . .......... .... ...... . . .................. Rapid ShUrdowif- NEC 2014 690 Yes :STAMWO LJL_1�19aiCSA222 ........ I ............................. . ........ ...... IEEE ............. ........ ...... .. ...... ----- ------------ -------- Ealimidsts FCC vart95 class U INSTALLATION -SPECIFICATIONS - — -- — - - - - --------- - ----- - AWminimum........................... .............. input Eondult siie ............ .............. ...... ......... ....... .. .................�..*----------......... .....*....... ............... .31S025x7,2j775xj15x184............ ......... mm ..l.b SE2iiii g4,7 / iV,7 83 4 1401 ., ........................'....... .. 'l ........_ -------- - ..... ND(ttraf Codling Natural'Unintion and Intemal Fans JuRr rPpl:-:ceabl0 Fart Susor ...... ... ............ .............. ......... ........ J!;.PAw01dA_ I— ................................ ........ � ................ 25 t C 50 .......... ........ ............ .... .... ........... dPA ...... ... hl It,- Max.'O p6ra ti ng Te wo o-ra tu f e� .13 to +140 1 -4 to #50 (-�G 'o 460venion uvatiabE011 -Fi 'C ............. ...... ... ......... ............ ....... ......... ... ...... ............. ....................... .......... ? f.t If. ".i t.f Rn RH.l 1. A 8 .............. ------------------------------------------ NENIA311 --------- -------------- - ....... ...... . .............. ------ ---- 4Th" OW, . . :1) AJ'4hCf I ROMS ED¢ `;! tr ; Cn M <C 2 LN Vz. w y M Ikfl t C13 1gp f t IT g: 0 :A's R. •d T 9 ItLI U) Q, A, 7 aE z. In Z -01 C=) CO f; J7 F. C"3 S v. H_ti G S Uj =3 0 k A CD C= 'I -41, z U) U) Z-104 solar- ee w-r SalarEd- Single Pha Se.Inverters- g for . North America -$E3000Fi-U.S-/ SE3�. - QOH-U,S / SE5000HUS / S-E6-OOOH-US -SE7606H48- m gy Rdbbrd;-b�eaki6g efflddriiy jp'rsi ngs -Integrated Arc;FaUlt Srotem*cn:and Rapid Shutdown--tor,Nk 2014an 2011,yer,article'.450, jr u LI-7 �j rig' High .Built-4n.module4evel monitoring wave 00tionak ftvenL&grddd data, ANSI C12:20:Class'i);S (0.5% actufacY) ._rs�I�ar Single, Pbase Inverters for North America -_ S,�i.60PH-,US,fSE380CH-US/SE!�C�OH-US'l, -66UGH-USI-SE! GOOH-US 5E311COH-0 SE OtHkils. SESOOOM-Us i -S�G—dljbmus 1= OCTFd—T-- 6000 -29011 Max. AC.Fc�%ver.Ourput ....................... ........ ........ ...... . VA- AC-Ou!p 433 - 208 - 22-9) Vac -A2 . ......... ...... ....... ...... vdc ....... .............. - ------- Liz P�7nrJmvmConttnucwQUtpv tutrenc70$V.. �_'................ - ---- -A. ccraifiu U ffuj�Aov- 2' .......... . A ............ -A y4t 6au" n rabi'e'.Threshctds- &0 Alb, MXrinifftDCPOtiver ......... ..... ....... ....... ..... . ............. .......... ................ ........ 4 U"m 209v",t .............. .............. .......... _ 3 5 - l a ' Adt ......... ... ......... i6v Ade, ibladot) ...... .... 6=4, sei iSll i v pbwo on, o_rl10 q -1��r6iflpti' -W ADDITIONAL F,EATURkS ------------- Revenue apt zin&261.7. UWWA`064w�;w ........... . ,SrfAN'DAkO COMPLIANCE rfAFLCI-accofding.ti?T.I-L:M-07.' Gnd .... Conntctfon SS...da,Tds....... EmasaJgns fCC tar ,,. _INSTAL. ATICIN -A ................... . ................ ............................. ............. ...... ...... 2F;-2 �d�u' .... ...... . ................ T. ....... ... ............. ........... ............. . ........ ......... dBA can•end. Cooling NatdratCanv ec�don rcplaeeuble} e p— vq� qn WAP m Z-103 is Powered by 1A TZA `,Mop With its top performance and completely black design the new UYEAK 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 Higher yield per surface area and lower 130S costs thanks to higher power classes and an efficiency rate of'up to 18.3%. INNOVATIVE ALL-WEATHER TECHNOLOGY Optimal yields, whatever the weather with excellent low -light and temperature behavior. ENDURING HIGH PERFORMANCE Long-term yield security with Anti-PID Technology', Hot-Spot-Protect:and Traceable Quality'Tra.Q`nm. EXTREME WEATHER RATING High-tech aluminum alloy frame, certified.for high snow (540bPa) and wind loads (4000Pa) regarding IEC. MAXIMUM COST REDUCTIONS Up to 10% lower logistics costs due to higher module capacity per box. A RELIABLE INVESTMENT Inclusive I2=year product warranty and 25-year linear performance,guarantee2. THE IDEAL. a0LUT10N FOR., �rr�• �s1��1jj Roet11ol oxq �ys{ j ( f `. i ?tresidenfi§I bulld)ngs z. Engineere ''in,Germany, R MOW' ... SPECIFICIt 011 SCALE NTSj III EUPD'RESEARCH' =° • 73D.7utEs y/axn rroTscv�+otocr (IPT) 1 �Hai3P°T PMJTCGT trsP> �%TtXLUit ouaun Itaavr Phnf u_ Ountity Tested Qcalts, � Z,_V Be polytn/itaniae=, ''•"""�"•"'" �irolirmatale.2at4; ID. •G0032587 -- I APT test conditions: Cells at -1500V against grounded, with conductive me- tal foil covered module'surface, 25'C, 168h 2 See data sheet on rear for further information. OCELLS USE DATA FOR QC 295 MODULE MECHANICAL SPECIFICATION ffli'u, mm2 a ) (1670mmx 1000mmx32mm) Weight 41.45lbs(18.8kg) Front Cover 0.13in (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 )unction box 2.60-3.031n x 4.37-3.54 in x 0.59.C.751n (66-77 mm x 111-90mm x Cable 15-19mm), Protection class IP6.7, with bypass diodes 4 Sol bI • ( ) 39 37' 1000 39 ar ca e, + . In ( ram , (-) z . to ( OOOmm) Connector Multi -Contact MC4 or MC4 intermateable, IP68 ELECTRICAL CHARACTERISTICS POWER CLASS 290 295 300 MINIMUM PERFORMANCE AT STANDARD TEST CONDITIONS, STC' (POWER TOLERANCE +5W /-OW) Power at fAPPa P„r, [W] 290 295 300 Short Circuit Current- Ise [A] 9.63 9.70 9.77 e open Circuit Voltage- V. [V] - - 3.9.19 39.48 - 39.76 Current at MPP• [A] - 9.07 9.17 -9.26 Voltage at MPP• V,o, IV] 31.96 32.19 , 32.41 EHfciency' q [%] 217.4 217.7 218.0 MINIMUM PERFORMANCE AT NORMAL OPERATING CONDITIONS, NOC' Power at MPP2 Pw [W] 214.4 218.1 221.8 e . Short Circuit Current* - Ise [A] - 7.77 7.82 7.88 Open Circuit Voltage` VW IV] 36.65 36.92 37.19 Current at MPP• I,,,, [A] 7.12 7.20 7.27 Voltage at MPP• V_ IV] 30.12 30.30 30.49 I icooW/m°, 25°C, spectrum AM 1.5G 'Measurement tolerances STC m3%; NOC z5% '800W/m�, NOCL specuum AM 1.5G •typical values, actual values may differ D CELLS PERFORMANCE WARRANTY PERFORMANCE AT LOW IRRADIANCE At least 98% of nominal paver during first year. X10 --11 ---r-----'---��-----; Thereafter max. 0.6% degradation per year. i � e " """""-""""""'- At least 92.6% of nominal pasvt up to 10 years. z ` At least 83.6% of nominal pmw up to 25 years. All data within measurement tolerances. r o--r-----r----ti------ ----- j ; Full vramantles In accordance with the warranty fl terms of the Q CELLS sales organisation of your $ o respective country. as .00 rm rAa �� V IRRADUIRCE ANW) n mats Typical module performance order low irradiance conditions in STC comparison to conditions (25"C, 1000W/m°). TEMPERATURE COEFFICIENTS Temperature Coeffielent of Ise a [%/K] +0.04 Temperature Coefficient of V. [%/K1 -0.28 Temperature Coefficient of Pt,,, Y [%/IQ -0.39 Normal Operating Cell Temperature NOCT [°F1 113 t5.4 (45 t3'C) ' PROPERTIES! DESIGN Maximum System Voltage V. M 1000 (IEC) / 1000 (UL) Safety Class II Maximum Series Fuse Rating [A CC] 20 Fire Rating C (IEC) / TYPE 1 (UL) Design load: push (UL)2 [Ibs/N=] 75 (3600 Pa) Permitted module temperature -40°F up to +185 °F on continuous duty (-40°C up to +85°C) Design load, pull (UL)2 [Ibs/fl=1 55.6 (2666 Pa) 2 see installation manual QUALIFICATIONS 1 CERTIFICATES PACKAGING INFORMATION i UL 1703; VDE Quality Tested; CE-compliant; Number of Modules per Pallet 32 ' IEC 61215 (Ed.2); IEC 61730 (Ed.l) application class A - -- - ' Number of Pallets per 53' Container 30 ; /' Sew RUS Number of Pallets per 40' Container 26 ovE C M C Pallet Dimensions ( L x W x H ) 68.7 in x 45.3 in x 46.1 in (1745mmx 1150mmx 1170mm) Pallet Weight 1435lbs (651 kg) NOTE Installation instructions must be fdlmved. See the installation and operating manual or contact our technical service department for further information on approved installation and use ' of this product. , Hanwha Q CELLS America Inc. 300 Spectrum Center Drive, Suite 1250, Irvine, CA 92618, USA I TEE +l 949 748 59 96 1 EMAIL Inquiry®us.q-cells.eom I WEB vnwi.q-cclls.us Z-102 FRSE11�FiultrirsMsocimion June 28, 2017 Dear building official, On June 23rd 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 cert¢ied by an engineer licensed pursuant to chapter 471 using the standards contained in the most recent version of the Florida Building Code. -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 FlaSEIA Florida Solar Energy Industries Association (FlaSEIA) 2555 Porter Lake Dr., Suite 106 Sarasota, FL 34240 J JSystem Certification by a Florida Licensed Engineer ;; JQC295with Solar Edge Inverter 1, I 1! 1 J stern Size (STC DC) ( 2.36 to 5.02kW j S.31 to 6.79kW 7.1 to 9.44kW 9.74 to 11.51kW j t MODULES AND ARRAY odule Brand Hanwha Q-Cell I Hanwha Q-Cell Hanwha Q-CeIF i Hanwha Q-Cell odule Size & model j :i 295W 4Peak BLK-G4.1 295W 4Peak BLK-G4.1 295W Q Peak BLK-G4.11 295W 4Peak BLK-G4.11 odule FSEC# i # QC17-NT9D-01771 QC17-NT90-0177 QC17-NT90-0177 QC17-NT90.0177 j Ital Number of PV Modules 8 to 17 i 18 to 23 J 24 to 32 I 33 to 39 J j ries Strings/Branch Circuits i 1 or 2 strings I 2 strings 1 2 or 3 strings I 3 strings I 1 artest String ( i 1 string of 8 ! 1 string of 8 1 string of 8 1 string of 8 ngest String J q 1 string of 17 1 1 string of 1S 1 string of 16 1 1 string of 17 J ray Nameplate Power Rating y 2360 to 5015W { 5310 to 6790W 7080 to 9440W ; 9735 to 11505W )WER CONDITIONING (Inverter) I verter Brand I s Solar Edge with optimizers Solar Edge with optimizers Solar Edge with optimizers Solar Edge with optimizers verter model number SE-380OH-US SE-5000I1-US SE-760OH-US SE-10000A-US Iting to UL 1741 Verified 1 Yes I yes I Yes 3 Yes J J verter DC Voltage Window l 380V to 480V ; 380V to 480V 400V to 480V 1 400V to 480V _J : Power Rating i 3800W —5000W-- — —7600Wtij --- J 10000W J Nominal Voltage Output ? 240V ; 240V J 240V 1 240V ax PV array Power per Inverter 5900W I 775OW J 1I800W j 13500W Amber of inverters used ; 1 I 1 J 1 d 1 J + Iwer Optimizer used } P320 J P320 1 P320 I I P320 1 Ited Input DC Power i ! 320W ( 320W J 320W j j 320W f volute Max input voltage I 48VOC I 48VDC I 48VDC ? 48VDC 1 PPT operatin Range I I 8-48V J 8-48V 1 848V ; i 8-48V J ax DC input current j 13.75 13.75 j 133S q j 13.75 J ax DC output Current 15A j iSA i 15A I I iSA aximum output voltage ? 60VDC J 60VDC I 60VDC i { 60VDC impatible with all Solar Edge Inverters Yes 1 I Yes I Yes K J Yes i MRGE CONTROLLER AND BATTERIES N/A ( N/A I N/A I N/A J kTTERY BANK CONFIGURATION 3 I N/A ! N/A j N/A ) I N/A j NOTICCr. REVISIONS ORAMG th MMiTCN 4 Th• Chau" aid idea axpmsad REV QATE BY pc$(:RIPTIpl1 DATE. If211aD17 hem eMlx hln am n.x6.ntra [:IiANN 3Y. pmp.ety ar The LavwU. Th. u.. SCALE: N.r.3 1423Gunn HIGhwey orthee. a ewf tl.%"IWAthe SHEET Na Oda&se.FL 33MG ertl¢.emn.anewonLearaHG 813403-5100 I. not permllaM. Z-101 xe-10"PLOW Ur. XR100 EOfQED SPtDCE 11!�* GROUNDING LUG (SEE NOTE 9) MICROINVERTER KIT (SEE NOTE 10) 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 4 approved by the racking,, manufacturer as Maximum spin. between appropriate to the installation. r attach to be 48 5 Please refer to matiufacturer,s installation instructions for rail cantilever distance from roof attachment. 6 Contractor:➢s.rlesponsi616 for d&.s- unh9 watertight attachments and for sealing, trimming, cutting roof shingles and r'-'.braves n' �`neat�p-ofessionaI and workmanlike manner. 7 Differ'ent.ruws and columns are perfni"s_sable as long as the attachment requirements listed in #4,;maximum rail�ovarhar?g, and maximum module overhang from ends, does not exceed marfufaexurer's recommendations. IRON RIDGE RAIL DETAILS FASTENING STOPPER SLEEVE IRONRIDGE XR100 SPAN TABLE 72' Spans are permitted only under the fallmAng conditions. An others are limited to 4ir spans. Fos Fxposures is and C only. Exposure 0 requires engineering evaluatlom Wind Speed Conditions 13pmph Zone 1 and 2 A roof pitches 5 to 45 deg, Zone 3 pitches 30 to 45 deg 140mph . Zone t all roof pitches (5 to 45 deg}, Zones 2 and 3.30 to 45 deg 150niph acne 1 all roof pitches (5 to 45 deg), Zones 2 and 3, 3a to 45 deg 1 omph Zone Ionly, all roof pitches5to45degrees Cantilever limited to40%of span and no spilcm in cantilever. Shsgle and IYae roofs only_ Metal roofs require engineering evaluation for pull ott • � Ir : 11 1 � � GROUNDING BOLT & NUT 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. 10 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. xoTicEs ' - REVISIONS REV GATE By DESCRIPTION TY� tt:usyeydW iWa.7j�r�:s:,M ` rmu,lrshin ®. �M:'cxxlvw �L:.OtlrV of Tim L.Yel,`Si ULL 1423 Own HYWway (cr�h``►s�bu ai bra 1 tM Odessa. FL 33°iS8 1 na tN F a SHC, 813403-S100 CK WMINFORMATGON DATE: imam? CRA1WN BY., — SCAM N,T.S, SHEET NO. S-104 CE MFICATE OF AUMORIZAXIONe 3103o i WyxplM 1:0 -ke*Ro JC_% -9P-a morcccKra &� R UCLh-= Mo. T4T_O Pr 'I S-104 GROUND LUG OPTIONS [SEE NOTE 9) BONDING SPLICE DETAIL SHEATHING (TYP.) ®�— nr■iiinO:aar.»ix:•s..dcWe TYPDX SPLICE MR DETAIL 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 GBL -4DBT - see product data sheet for more details) and solid copper wire. THERMAL EXPANSION JOINT Notes on Racking: MID -CLAMP ASSEMBLY L BRACKET WITH BONDING T BOLT AND NUT ASSEMBLY 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 belMeen attachments to be 48". For the attachments on the ends of the rails eachsid' . ,' �' ;`\ y 5 Rail overhang from .attachrh2nts io roof to be less than 16". 6 Contractor is responsible for erjs"raring watertight attachments and for sealing, trimming, cutting roof shingles'an5 merribranes iri dneaff fofessional and workmanlike manner. 7 Different rolncs and columns are permissable as long as the attachment requirements listed in #4, maximum raid awerhia4ig, and maximum module overhang from ends, does not exceed manufacturer's recommendations: ; . � l �y ;Yh. LL 1423 Gunn Hiphwsy W Cdessa, fL 3355E 813.10 IDO PHOTOVOLTAIC MODULE (TYP.) WOOD ROOF TRUSS (TYP.) UNIRAC SOLARMQUNT RACKING SYSTEMS MOUNTING RAIL (TYP.) ASPHALT SHINGLE ROOFING (TYP.) 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 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. nortcEs` `~s REVISIONS or:Awwain�oau++rwN The LeverEdge REV DATE ey I OES"IPTICN DAM tntrzof7 DRAWN o .,1423 Gunn Highway Certificate of Authorization #: rrne 'Tk;ae 3CAL� N.r,s. mk«+ twha.. •ti+ Odessa, FL 33556 31930 sK€tarNa ',�n't a tlm'`EW 81LC. 813-403-5100 S-103 END CLAMP ASSEMBLY 3rd RAIL LOCATION (TYR - IF REQUIRED, SEE STRUCTURAL) ENPHASE M-216 AND M-250 MOUNTING DETAIL (SEE NOTE 10) S-103 MODULE MOUNTING CLAJAP ER X I'SS f FENQERWASHER y1fr10SS `� r ,�Fir)C hill / 511 / UICKAIOIlNT PV FLASHING HANGER BOLT j SHINGLE OMPOS i COMP PENETRATION DETAIL Scale: NTS TILE PENETRATION DETAIL Scale: NTS * THIS LAYOUT USES (2) ADDITIONAL SPLICES OPTIONAL LAYOUT 2- (2, GROUNDING LUG (SEE NOTE 9) #6 BARE CU GROUND —� FOR MODULE GROUNDING (SEE NOTE 9) r,= t. EXAMPLE OF RACKING 'LAYOUT ACTUAL RACKING LAYOUT DETERMINED -BY CONT PV TRANSITION BOX €" MAX.) - -.-2 PV MODULE GYP X1r ,+:, `.t . y C '�,Ew4^u`�:'m^+.ivc•+;. ..F-a=�L'ft;Y�'T:.. G CL - ` I -.L — — r MODULE GROUNDING LUG (SEE NOTE 9) RAIL L-BRACKET & —� QUICK MOUNT ROOF PENETRATION SPLICE CONNECTOR MECHANICAL NOTES: 1. CONTRACTOR RESPONSIBLE FOR COMPLYING WITH ALL LOCAL OR NATIONAL CODE REOUTAEMENTS AND EOUIPMENT INSTALLATION INSTRUCITONS. 2. ROOF MEMBER STRUCTURE. V X 4 %V1&G kk71--AS AT 2.3` ON CENTER. 3, ROOF CAN BE COMPOSITION 3HINGkF. UR TI1C W 14 A?ITC7i BETWEEN A AND 45 DEGREES, ALL OTHER ROOF TYPES PLEASE REFER TO SUPPLEMENTAL ALTERNATE ATTACHMENTIFLASHMG STRATEGIES. A, MODULES MOUNTED TO ALU.MiN[gM r;ACM146 SYS{T04 AND ATTACHED WITH QUICKMOUNT PV MOUNTING SYSTEM OR OTHER FLASHINWATTACHMENT SYSTEII! APPROVED BY THE RACIONG MANUFACTURER. 5. DISTANCE BETWEEN PF31E7fi13I0.4S►L0T:T0 ((r.'C•E1 440 FT , ®, RAIL OVERHANG FRO6iPOI£TRATFLNS I'.O TO EkC.EEID FQKrNG MANUFACTURER'S SPECIFIGATICNS. — ALL NECESSARY PRECAUTIONSfWH£N PREPARING ROOF FOR RACK INSTALLATION BUILDING. STRUCTURAL INTEGRITY AND WATERPROOFED PENETRAT10fIS SHALL 8E THE RESPOh IBIl1N OF THE INSTALLER 7. CONTRACTOR SHALL TP1ti 8. ADJUS"IENTS MAY BE AEOUIREO iNIE, 7Ur*miiw ROOF LAY66T. N OYIGErt a - 1 7Mtx+pEq R-0lfiu.•4at1sW c FaawtlMn a. tr.srinM �roaYdTh.lr.n6ia+rh.cT.�- � .'-- ' aft�.0 eLvwws. rClaltrie j .rlas+co�sare�t�s.�.e, -<I 142! .gain Fy Yaot� . I • IOdd'r. 1, Ff_'935,8 GENERAL RACKING LAYOUT DAAWtIM 145CROATICH DATE mumly DFMM or. YTa F? EE7 #a S-102 ARRAY DETAILS Scale: 1/4" = 1' unnF)CAiE OF- AUTHORZATION: - r- 31930 STATE LIMJSE • .1 74730 •i Aj S-102 a- anu DdlM11 I lit! 5tanaing Seam (;lamp (0I3a;e Univemat Tile Mount /QMUTM Shown) - Composition Shingle / Flat Tile (Emount 1QMSE Shown) (blase Univeml Tile Mount /QMUTM Shown) SCALE: NTS Alternate Tile Strategy: Quick Mount Tile Replacement Mounts (QMTR-BM) NOTICES Tatrovlft.tnaroattwnul - �T ~[fiaLeverEdge Im,ri�Litrtt'w.�latM ,,c, -1423 Gunn Highway pvp«tyaFfitt�ra@dRtTl�tcu 1_`._,., , , Odessa, FL33556 se.n a7r» latttdstr wlxvt7� 1423 Gw Kgth - y Irr"..,t° .i anlart oF:M LE or lNC, Oda, �L'3 --Al -- I ' umtp.mm,a 813403-Sloo 813-403-5100 REM 'O, DESCRIPTION QTY.160X I I FLAS"G, r X 12-X LI*-. 5052. MILL I 2 OBLOCK. CLASSIC, AUO CAST AL MILL 1 3 MUG. SEAUM $11 V X 7re. EPD1.t / I" S$ I 4 1AGSCREW.IJEXHEAD. $116'xS-Iff I"SS I 5 WASHER. FENCER. 5116.10X 1-11-'QO, 18-8SS 1 RACKING COMPONENTS NOT INCLUDED O s� ji lY r44 (wick Mount Pv- ItItE: QMSE-LAG: QMPV E-MOUNT WITH LAG BOLT >m, 4 Quick Mount PV OMUTM: ABASE UNIVERSAL TILE MOUNT ,zr s' DESCRIPTION U1T. CAP SCREW, HEX HEAU, SJ76•IeX3JG UNC•7A, GRA'7E u 1 - BBASF- I -I s-IDJOR S/16' l I 01VAM A366.1 CAST AL 1 LAG SCRCW. tMX 1IE.AD. 5I1 r X:!'_ 21NC 2 SU114LASHNG. CCN[. YXYX02d•/j='. 3S AL MILL 1 fl,&MG w CONE. 18-XrkrXO37.3tn3 AL &%L 1 COILAR•COUNIERFLASHWC,1-1/4'iDEPDf.S 1 PDST, I.Y9.OD X dS ER63 r5/4043ib. MILL I WASHER,SEAUrtG, S/16'�XI•IJd00.fPD,tiLBOt�EDSS I WAShMFENDM5116'mXPOD.I8SSS 1 WASSrE-?.SPLIT-LOCK 5/16-g, IMSS 1 CAP SCREW. HEX HEAD. 5116 615 X 1' UN--2A. I" SS I 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 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 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. 1Y 'IV P -" rmP ..A'i MMUMMeaLS an M&W to Iht 2&ea d dWAnA oUd& S-5U 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-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. 1=LASHING CUT SHEETS Quick Mount Flashings REVISIONS I EIRAHINO WOA51ATOPG REV DATE I BY DESCWRTI4N t 7- tnSROtT Certificate of Authorization#: crud , or, SGLE N.T,S 31930 W49e SO: S-101 S-101 Al.3 DANCER a STOP DO NOT DISCONNECT UNDER LOAD A WARNING LABEL TO BE AFFIXED TO RAIL OR ON SIDE OF PV MODULES IN CONSPICUOUS LOCATION �,iWArRNIN;G� ELECTRICAL SHOCK HAZARD IF A GROUND FAULT 19 INDICATED NORMALLYCPOUICEO CONDUCTORS MAY OQUMOROUNO[DAND INEROU" ® WAR�N1NG ELECTRICAL SHOCK HAZARD DO NOTTOUCH mm"IIALS TERNNmUL-s ON BOTH LINE AMU LOAD SIDES MAY OB 914RC=O IM THE OPEN POSITION OC VOLTAGE IS ALWAYS PRESENT WHEN SOLAR MODULES ARE EXPOSED TO SUMLUGHT B AFFIXED ON COMBINER BOX A WARNING ELECTRICAL SHOCK HAZARD Do NOT TOUCH TCRUM LL3 Tf;UIX"" ON DOTH Lu.M AA-O LOAD SEES MAY BE EHERGUED IN THE OPEN POSITION DC VOLTAGE 19 ALWAYS PRESENT WHEN 80(.IIR MODULES ARE pIPOS-0 TO SUNLIGHT • i • ® i tSagalpro 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) L A E POLARITY OF CABLES MUST BE LABELED AT OR NEAR THE COMBINER BOXES AND INVERTER CONNECTIONS ON THE DC SIDE f 4.:2- t DC Disconnect • • • • 4tRMINALS �+Terminals onr r F a and Load sidas umay beL'III In Zha . .on Posillon. DC "Lr= IS AVMYS rMvim _I_ :, 1'WO TO SUXUGHT F DC DISCONNECT LABEL AFFIXED ON OR BESIDE INVERTER'S DC DISCONNECT SWITCH PER NFPA 9 • • Tel Is \WAR'NIN:G� -- - - ELECTRICAL SHOCK HAZARD DO NOT TOUCH TERMINALS • 3-%TERMINALS ON BOTH LINP AND LOAD SIDES MAY BE ENERGRED W THE OPEN POSITION N G SOLAR DISCONNECT SWITCH ON AC DISCONNECT SWITCH IF USED. REQUIRED ANYTIME LINE SIDE TAPS ARE USED FOR THE `e— POINT OF CONNECTION ' WARNI�NG7 ELECTRICAL SHOCK HAZARD IF A CAOUND FAULT IS 11MICATED NOiISULLLY GROUNDED CONDUCTORS MAYBE UNMGMDED AND ENERGQED H AFFIX TO INVERTER INVERTER WITH INTEGRATED -fA I DC DISCONNECT — H C, E ? ti BE F 0000�o ' PV JUNCTION Ev FVACOISCONNECT PERFORMANCE TRANSITWIRE 3 THW -2 _ 30A, 240V, 2-POLE METER WIRE TO THV1N•2 — - - - - - - (SEENOTE9)- - --- (SEENOTE9)- G D D UTILITY -%MTER 2401120V SINGLE PHASE K M D� 3DA12P ACAUTION PHOTOVOLTAIC SYSTEM CIRCUIT IS BACKFED IS SWA:RNING' ELECTRICAL SHOCK HAZARD DO NOT TOUCH TERMINALS TERMLYALS ON BOTH LINE AND LOAD SIDES MAY DB ENERGMED DI THE OPEN POSITION WARWATRNWNG' TURN OFF PHOTOVOLTAIC AC DISCONNECT PRIOR TO WORKING INSIDE PANEL I AC SIDE OF SYSTEM DENOTING THAT THE PANEL IS DOUBLE SOURCED AND THIS MUST AFFIX NEXT TO THE PV BREAKER INSIDE THE PANEL J AC SIDE OF SYSTEM BY PV BREAKER IN PANEL EASTING 200A MAIN SVI7TCH90ARD - - - ®`SIN` ATRTNING ELECTRICAL SHOCK HAZARD IFAO.AOUMO FAULT IS DMCATED NORMALLY GROUNDED COIIOUCTO" MAY GB UNCROWWED AND ENEWUM i, J K AFFIX ON METER CAN FOR GEC BI-DIRECTIONAL METER Ground CERTIFICATE OF AUTHORIZATIONff 31930 ENGINEER OF RECORD JOHN L ALLGER PROFESS1GNAL ENGINEER FL LICENSE NO.74730 'HtlTECES: REV DATE ®Y REVISIONS DESCRIPTIONWD+GiNF RMAMCHIN ' TQIEa I °`pms"d PLACARDS FOR TYPICAL DRAWN aY: / _ Ptgy�.TiyoT TD°le,IerEdW The use SCALE! N.T.S. 1-123 &A HIg iway `� ` t y 17 U ow SUaw ala, .ahaA the SILET NO: oetB3sa,i`L}3LSSti j WTRILVI. itsm[DTII1•LEo RHC STRING INVERTER PV SYSTEM a134oslrYa T"°°Lr n °pL E-103 E-103 Optional tockat non fused N rated disconnected may be required local via 1 V fr( In, Opposite main breaker House Circuits Existing AC stribution panel 201240 V 1 PH ed Ind PV Breaker + Main breaker must be s 120% of buss rating Main Brsal �� 7 240 V r. from o a inverter Optional tockaWe non fused 30A rated disconnected as may be required by local utility PV Breaker between main and bottom of buss House Circuits Existing AC distribution panel 120/240 V 1 Pit Unified Ground PV Breaker + Main breaker must be s 100% of buss rating 2 Required lockable fused BOA rated disconnect. Fuse size determined by M% of Max. continuous Inverter output from Inverter 3 4 House Circuits . Existing AC distribution panel 120/240 V 1 PN Ground wire to connect �" dtrady to ground rod and not to disconnect or panel grounds (o avoid parallel grounding Ihru neutral wire Line side connection required when PV over current device + Main panel breaker > 100% of buss rating - ----- ---- ---- ----- ----- --- ------- PANEL CONNECT OPPOSITE MAIN PANEL CONNECT BETWEEN -- -- -- - - - HOUSE CIRCUITS LINE SIDE TAPS c: The q-;0 -4 dn9 Q.;A 9i Mf19 e� lwve'Edae TM Ice 1423 Glyn ?ily1T+YFry _ , t n i �wfc:If7ealsm,. eQ the L.E ar SHC, Odessa, FL 3$" �C+�olpe.rtustsd A aia�oa ciao + L ti . 1- Wire sized per voltage drop table, usually #10 or #8 based on 125% of maximum continuous inverter output amps. Ups izing of wire from #10 to #8 is permitted to reduce voltage drop. 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 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 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. CERTIFICATE OF AUTHORIZATION# 31930 ENGINEER OF RECORD JDHN L ALGER PROFESSIONAL ENGINEER FL INCENSE ND. 74730 REVISIONS CEMWNG INFORsvasvN OPTIONAL CONNECTION DETAILS REV DATE I BY DESCRIPnON CASE: 7DSM17 DRAWN BY; — SCALE: N.7,3. SHEET NO, E-101 A ELECTRICAL DIAGRAil/I Q40EAK BLK-G4.3 295W Mono (32mm) DIMENSIONS 65.7" x 39r4"x 1.26" (24-32) WEAK BLK-G4.1.295W Mono (32mm) = 7.08 to 9.4.4kW STC DC M6 Sara re ANY COMBINATION OFF SSarEdge$E7a110H•U8•ttl inverter ea MODULES FROM 8 MINIMUM �� 600 Wacicontinuous PER STRING TO 17 MAXIMUM I 2 0 0, o t3 i6 !lr t Current 32 Amp� MMayrurn nui�ipaYCurrent NAAdo PER STRING USING 24 TO 32 Ground fault ptatt:cfta Wadded TOTAL FOR SYSTEM SIZE; 2 + + - + - + - a o NEC STRING REQUIRED — -- A SolarEdpe At'/UC5n/ety SwlteN rEd /DC5 (etyG90Switch 440 Vac. i0 amps continuous �• - 600 Wt. 36.5 amps cantrnuaus • ..v i o O d Opensall ungrounded conductor. — — per NEC article69odS SollaftePowe►aptindler _ — P320 Rated DC Input Power- 3Wwade% .--.- -� Maxhnum htptutVcllage - 48 Vdo Soladack inodei MPFTRap -8In48Vdo UM41oregWvatdtt MidmmninpytCwratt-115A Meldmnn tr,9urerd t z o 0 o t8 is �j�� to OPTIONAL Shbtp Lhnita0one Lions S to 17 plImIa PVCa antramWW 2 PV Cebie toTBNIN-2 Lockable,lleedesbd e maxbn:arrt, 5�50 waft STC Dw �B tnaximtrm ! - + - * - + + wtro. No fuses re}gtrirodr PVAC Daacatmed 00A, 7AOV 2-Pate t - n 0 0 0 PV 911m In RoeAh " WMI-2 wke In conduit t n AW Me M o.10AW8 Ca wire each Wn.10AW0 Cu wife each (rated C) L L2, and L$ eed utetrtnl trial (rated 00 ft C) ° (rated 00 den C) Yp' ��e , ne 8A dwire Sam CoppFacitive'per or Ban) Copper ESC or Keep under iA%wdalpe drop In 11111 ui MC IR CottduR h Wded ESC In conduit Keep tailor 2%va fto drop Keep under 2%vobpe drop system Inlaination. PV Module Ratings Inverter Ratings Module Make, Hanwha Q-ce 1295 inuerter Make SolarEdge Moduld.Model CLPeak-:64.1 Inverter Model SE7600H Wx Power 295,w Maxoutput Power 7600W Open Circuit Voltage 39.48 Max DC Voltage 480V Max Power point Voltage 32.19 Nominai AC Voltage 240 ' Short Circuit Current 9J Max AC Current 32A ax ower Pont current 9.27 C C Inverter 0113ency P%un ELECTRICAL NOTES: I. CONTRACTOR RESPONSIBLE FOR COMPLYING WiTH ALL LOCAL OR NATIONAL CODE REQUIREMENTS AND EQUIPMENT INSTALLATION INSTRUCTIONS. 4. ALL COMPONENTS MUST BE GROUNDED PER NEC 69OA3. & EACH MODULE MUST BE GROUNDED ACCORDING TO PV MANUFACTURER USER INSTRUCTIONS. 4. PER NEC 69DA(D). ALL EQUIPMENT FOR USE IN PHOTOVOLTAIC POWER SYSTEMS SHALL BE IDENTIFIED AND LISTED FOR THE APPUCATION. 5. USE 10AWG TYPE PV WIRE (144 CONNECTOR, DOUBLE JACKETED) SUPPLIED FOR CONNECTING MODULE STRINGS LIM THWN-21N METALLIC CONDUIT IS ACCEPTABLE. 6. PER NEC 690.17 PROVIDE A WARNING SIGN AT ALL L1 12 N LOCATIONS WHERE TERMINALS OF THE DISCONNECTING MEANS MAY BE ENERGIZED IN THE OPEN POSITION, SIGN SHALL READ "WARNING - ELECTRICAL SHOCK HAzARD. DO NOT TOUCH TERMINALS. - TERMINALS ON BOTH LINE AND LOAD SIDES MAY BE ENERGIZED IN OPEN POSITION- OR M EQUIVALENT DISCONNECT MUST BE LOCATED IN AN ACCESSIBLE LOCATION FOR UTILITY PERSONNEL OR NEXT TO UTILITY METER. 7. PER NEC 70&10, PROVIDE A PERMANENT PLAQUE OR DIRECTORY SHOWING ALL ELECTRICAL POWER SOURCES ON THE PREMISES AT SERVICE ENTRANCE & PER NEC 705.12(D)(7), UNLESS THE PANEL BOARD IS RATED NOT LESS THAN THE SUM OF THE AMPERE RATING. OF ALL OVER -CURRENT DEVICES SUPPLYING IT, A CONNECTION IN A PANEL BOARD SHALL BE POSITIONED AT THE OPPOSITE E (LOAD) END FROM THE INPUT FEEDER LOCATION OR MAIN 1 CIRCUIT LOCATION. 0- AC DISCONNECT AND/OR PV METER MAY OR NOT BE REQUIREDBY THE AHJ AND/OR UTILITY FOR AC Load Center INTERCONNECTION. 1-2 pole_,10 amp _ __ 10.-WIRE SIZE ASSUMES THAT CONDUIT WILL BE RUN IN ATTIC — — — ` ehadl hroaker SPACE OR LESS THAN 10' IS EXPOSED TO SUNLIGHT PER NEC310.16(A)(2) Ex. WIRE GAUGE MAY NEED TO BE INCREASED IF RUN IN CONDUIT ON THE ROOF FOR MORE -- G THAN 10' PER NEC310.15(e)(3)(c). - 11. PER NEC 690M, METAL CONDUIT OR TYPE MC CABLE MUST BE USED WHENEVER THE DC CONDUCTORS ENTER A BUILDING BEFORE THE FIRST READILY AVAILABLE DISCONNECTING MEANS. UniDed Grounding 12 PER NEC 69U1, EXPOSED RACEWAYS, JUNCTION BOXES AND CONDUIT BODIES IN WHICH ANY OF THE AVAILABLE Ground '= CONDUIT OPENINGS ARE USED MUST BE MARKED WITH THE WORDING "PHOTOVOLTAIC POWER SOURCE" BY MEANS OF PERMANENTLY AFFIXED LABELS. Vd = 2-L-R-If 1000 J9 Vorn 2014 NEC C p 9( table 8 Wife Run Vmp imp. R L Vd %Vd Wire Size PV 5tfings to Combiner Box 350 15 1.24 50 1.86. 0.53% #10 Combiner box to Inverter 350 is 1.24 5D 1.96. 0.53% 1#10 ltwerter to'Intercennectlon 2411 32 2,24 25 1.98 0.83% #10 InverWrto'Intedconr ectron Z40 32 0.778 40 1.99 0.83% #B inverter to Interconnection 240 32 0.778 1 60 2.99 . T24 #8 rnveRe7rto Interconnect on 1 240 32 • 9 1 0.7M Labels Rated MPP Current 9.17 Rated MPP Voltage 350V Max System Voltage 480V Short Circuit Current 19,4A Photovoltaic AC Output AC Output Curfent 32A Nominal A Vo tage 2 Solar Edejo Inverters and Optlmizer, ft.:lNrca,;;Cr;t a!; nteeY the requirements ot'20I4 NEC ,t te�.crt�;6•r,r� r�rrt, for rapid shutdown with no additional equipment rim t bri+n�lrr� �: EItle F1CAlE" t?- nslitli}rr�; �rcal: lilt ',.r r}7 wo Ytc E 5 REVi 10I l$ �at,r .s mFen a .rt h�yDR/AWII�Ntiyi+ATIITLpE�. 7.08 to 9.�44kW String Inverter Retrofit «t.� ran, !;•. tu:,tt:tr norm ant¢ r t1x MI. NdrW L47110 {.f MS..T PHOTOV(DI.TAIC PLAN (24 -32) qty Hanwha Q-Cell 295 Mono Modules l•1?,lt mnnoh•..a•t TM�varu-H ra..t.la, (.i1�k55J, t•t :1•��it' aME'-°VI7M M�pHP.tMMVlt 6r ENGINEER CERTIFIED TM �...:rAtlawnW.twr.nrl SolarEdge SE760OH-US Inverter - E-101 E-101 Table R301.2(2) interpolated to effective area of lgty 18sq ft module or collector apowee N, mean fool' height 3011aml uni te, Kd Q .85. Xtt s 1 egry! Rocf 130I I-W 1-501 1651 lr`0� 175I 1W ZC"t doA'l up lilt dery 1 upUt anrA Waft ds'w l Wilt d" u; ilt dcYw i uplift do uplift &AI u, ut 1 10 -17.2 10 -20,2 93 -23.2 101 -26,2 1L4 -2812 12 -30.2 113 -33 1-3 s -35.7 C-7 deg 2 10 -27.6 10 -31.8 93 -36.8 10.7 42 IV. -44.7 12 -47.2 11.3 -50,5 115 -53.7 3 10 -39.6 10 45.8 %3 -52.2 103 -59.4 11.4 -63.5 12 -6716 113 -71.9 13.5 -76.1 1 10 -16 1 113 4812 13 -21.8 143 -24.2 153 -2517 163 -27,2 ITS -29.3 13.8 -31.3 a - 27 d'8 2 1011 1 -26,6 1] 3 1 -31.4 13 -35.6 1•1,3 40.8 15.3 47.5 16.7 1 -54.8 173 -53.5 13.3 -52.1 3 111 -10.6 11-3 46.6 1 13 -53,8 14.8 -61 15.3 -69 161 -77 17.3 1 -77.6 13.3 78.1 1 163 -17.2 189 -20.2 2L7 -23,2 IR7 -26.2 26.-3 -27.8 27:3 -2.1,4 296 -31.5 313 33,6 23--45ft 2 163 -20.2 139 -23.2 2L7 -27.2 24.7 -30.4 26.3 -32.4 279 -34.4 29.6 37 313 39,5 3 153 -20,2 13.9 -23,2 IL7 -27,2 1 2•1,,7 30A 26,3 32,4 279 31,4 29.6 37 3L3 39.5 l i%poiwe t; inean tour heightj5 rt end urlde, Kd - .85, {tt 41 ZOd laf!T 4 [VII-Strmoft FaCf09) =1,21 j :cor Boor 1-301 1401 IwI 1 1601 165I im 140� och Z1rri dcrwcl upF!t d$wt1 uplift dom-n kout lotrA.0 WFfl &,,.A Wul drw t WE!, 111t a • -put 1 1L1 -20.8 ILl -21.4 1L--3 -28.1 IZA -31.7 133 -34.1 14.5 -36.5 - 9.9 116.:3 43.2 C-7 dell 2 ILl -33.4 17-1 -38.5 1L3 44.5 1L9 -50.8 13.3 -54,1 14.5 -57.1 ,� 61.1 16.3 -65.0 3 17-1 -17,9 1L1 -55.4 113 -63.2 12,9 -71.9 13.3 -7618 143 -81,0 1 1S�5 I I L@_'[4 1 16,3 -92.1 1 17-1 -19.4 117 -2210 15.7 -26.4 17.9 -29.3 1 19.1 -31.1 Z0:2 -319 35,5 Z17 -37.9 8-27dtR 2 12=2 1 -32,2 1--17 1 -33.0 1a.7 43.1 17.9 49.4 1%1 -57.8 202 -66.3 ` Ii 3 -fi4,3 I 2:L7 -63.0 3 1L2 49.1 117 1 -56.4 15.7 -65.1 179 -73.8 19.1 -03.5 ZO.2 -93.2 I 1}- -93?J M -94.5 1 19.7 -20.0 2L9 -24.4 MI -28A 29.9 -31.7 3L3 -33.6 313 -35.6 i :3 -38,1 379 170,7 28-43dsg 2 19.7 -24.4 219 -28.1 Z53 -32.9 7-9.9 -3618 3L8 -39.2 318 11,6 t -a `8 14.8 379 -47" 3 19.7 -24.4 2L9 -28.1 26:3 -32.9 299 -36.8 31-8 39.2 33.3 -11,6 Lif3a 8 J�7,d3Q 37S _77.8 acpoiuee G, ruean feral' height 15 - 30ft, Kd .85, Kit r 1 end Lam4da 00;S"emt raelx),1A l ecof ",OF 1301 1401 1 uw 1501 16a1 1701 w51 1901 PE;ch aftts *'A-M s+pl:ft cwwcl Witt &.A.0 WHI d5'wo ynFlt &A -.I uplift dvw:i %%WL &Ael uplift &A.0 I uplift 1 1• -0 -24.1 14,0 -20.3 13.0 -32.5 15.0 -36.7 16.0 -3915 16.3 42.3 17.9 46.2 13:9 -50.0 C-7 dtt 2 14.0 -30,6 14.0 -•14.5 110 -51.5 15.0 -50.8 1&0 -62.6 16.8 -66.1 17.9 -70.7 189 -75.2 3 14-0 -55.4 1410 -64.1 1:3.0 -73.1 15.0 -012 16-0 -08.9 163 -94.6 17.9 -100.7 189 -106.5 1 1410 -22.4 15.3 -25.5 132 -30,5 70,7 -33.9 2L1 -36:0 Z3.4 -30.1 2• -9 ALD 163 43.8 8-27d18 2 14A -37.2 L5.3 -44;0 182 49.8 20.7 -57A 22.1 -66.9 23A -76.7 243 -74.9 263 -72.9 3 141 56.@ 158 -6512 13,2 -75.3 20.7 -85.4 2L1 -96.6 23,4 -107.8 24.9 -180.6 Z63 -105.3 1 228 24.1 265 -28.3 7,4 -32Z 346 -36.7 358 -38.9 39.1 41.2 4LA 44,1 43.3 -4710 23 - 45 dt 2 ZZ8 2@.3 26:5 -32.5 30.4 -38.1 34,6 �12.6 .36 3 15,4 .19.1 -40.2 4L4 51.@ 43;3 65.3 3 223 2@.3 26.5 -32.5 30.4 -38A 34,6 -42.6 36:3 15.4 39,1 d8,2 4L4 -51.8 433 -5513 i � i:zpoivfe p, elleasl oval hei�lt 15 @a'erd under, {d -,�, Kit n 1 and LFrn4da 16Jjnstment faCtotl � L47 � � � � j :e�f ?fiof 130� 1401 - _150� - -- -1601 1651 1701 f751 1301 p d �4r13 dtr�ri t,li,l do' =. I W"t domii W01 down uplift 66 iFpu F' upift- do, M. - - ul- dSYaw Wut 1 14.7 -25.3 14.7 -29.7 117 -34.1 15.7 -38,5 16.3 41.5 17.6 14.4 13.8 48.5 1" -52.5 C 7 dla 2 14,7 -40.6 14,7 46.7 13.7 -54.1 1-5.7 -61.7 163 -65.7 17.6 -69A 133 -74.2 193 ?@,9 3 14.7 -53.2 14.7 -673 117 -76.7 15.7 -87.3 16.8 -93.3 17.5 -99.4 13-3 -105,7 19.3 -111,9 1 14.7 -23.5 1&6 -26.8 19.1 -32.0 1 21.8 -35.6 232 -37.8 24s5 -40.0 26.2 43.1 27.5 -46.0 8 - 27 dig 2 14.3 -39.1 16.6 46.2 19.1 -52.3 213 -60.0 Z3.2 -70.3 24S 1 -80.6 151 -78.6 27.6 -76.6 . t _ 3-• - ! 143 -59,7-. 16 6„ , , -6815, 19.1 -79.1 213 -89.7 2-32 -101.4 24S -113.2 151 -1141 27.6 -114.0 24A _ -25.3 27.3 , , ;-29,7-, •31-3 -34.1 36:3 -38.5 .3317 -40.9 4L-0 412 •'3.5 -46.3 45.0 -49.4 Z8-.'Sdft 2 24.0 -29.7 _ pigs, . .. 34:i, 3L9 -40.0 .353 -44.7 33,7 -47.6 4L0 -50.6 43.5 -54.4 .05-0 -58.1 3 24.0 27,7 77.8 -;q34; , 3L9 40.0 363 -44.7 333 -47.6 4L0 50,6 43-5 54A 413.0 -51A 7 . Exposlare D, alle"xl eW W0115 to 30 ft, Kd - ,85, Kit -1 end adjuitrnent ra;tor 1.68 i l aced'"' iojd :. 139 _-'.: q_:;1 cI4Q. i i::: 1a01 M wol 1751 1801 pa:e Zert6 slow:, Wift skM1 WUL d01-AT; WL't dvrh WFlt dorA:) 0111 dMti1 VPTJt cFSah ypFlt do-Avi vxTIL 1 164 -23.6 16.6 -33.5 15A -38,5 17,8 -43.5 1.5.9 -46.8 193 -50.1 212 -54.8 27_4 -5913 I}7 drd 2, , ; .115B S ` -15,8 16'5 -52,8 15A -61.1 17Z -69.7 1319 -74.2 1%9 -78.4 ZL2 -83,8 22.4 -09.1 -65.7, , 15.6 -76.0 15A -06.7 17.8 -98.6 18D 405.4 1%13 -112.2 2LZ -119A 2L4 -126.3 15k+ 26,6 ' . 1$.a -30.2 216 -36.2 24,6 -40.2 262 42.7 27.7 15,2 Z9 a 48,6 3L2 52.0 - 2 '. i16:3 j 44,2 ::$' -52.1 216 -59.1 24.6 -67.7 26:2 -79.3 27.7 -91.0 29.5 -88,8 312 -86.5 168 , 67,4 Eta_ -77,4 216-89.3 24.6 -101.3 26:2 -114.5 27.7 -127,8 zqs -128.8 3L'2 -129.6 E!60�t -33.5 .360 -38.5 4L-0 -43.5 -3.7 -46.1 453 48.8 49.1 -52.3 SL0 -55.8 2 27AJ -33.5 31<4 ' " -38,5 36.0 -451 4L0 -50.5 4117 -53.0 45.3 -57,1 49.1 -61 51.0 -65,6 3 - + 27M11 r '�=53.5 : 31.4 -38.5 •36.0 -45.2 4LO -50.5 41.7 -53,8 453 -571 -9.1 -61.4 1 57.0 -65.6 Per Floride'Building Code, effective area to be taken as the surface area of 1 moouie or panel ' " 'Tableg,irjtetpolatecifr,pi i �17 Florida Building Code -Residential, 6th Edition (2017) Page 25 as allowed for effective area Ta�ble..yaluel have been'adjusted and recalculated for height and exposure using adjustment coefficients in Table 301.2.3 <<rabl"61uds.have already been multiplied by .6 to convert component and cladding pressures to ASD. values---gi%ah 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 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. is 0- 5 p In tr 0 r O UJ :5 so m 0 e� c v m cc E w a YfALLS t I e ° a s ° t� LV{BLE R00FS 4.67, Note: a = 4 feet in all efises. i i 1 I N� m. tP %aA®L8 flQO"5 �� 7' <os27° T'<6s2r ENGINEER: JOHN ALGER 4105 SAINT JOHN'S PARKWAY SANFORD, FL 32771 PROVIDER: THE LEVEREDGE 1423 Gunn Highway Odessa, FL 33556 813-403-5100 Certificate of Authoraa0en q:31930 PH 800-929-3919 X1411 jalger@theleveredge.com State License # 74730 DRAWN BY: JOHN ALGER, PE DATE: 02/23/2017 9:45 AM 61 LDR-SI-SE-OC295M Rev. 02.05.18 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. ?. 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 <10°. O: Angle of plane of roof from horizontal in degrees. A-100 9 I R 7 1 6 5 4 3 2 1 A- B C lei 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. M solar=ee :- �l t_t � - y �• a �ti O The Right Wayl Quick Mount PV* Re5FMC.T"ere0011 OCELLS SH R U kN 1A r a Hanurlta company on ' A Itib f r.KLc` gj.J-- hT IRONRIDCE N ., [u>eReg Fer soar stook c cat�ufxFlurxccaaaREs� JOB SITE PROPERTY OWNER NAME:�� 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-5! S-5U OR EQUIV. FOR STANDING SEAM METAL ROOF 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. 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. 3. Installation must comply with all applicable 2017 Florida Building 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. 74 ENGINEER: JOHN ALGER 4105 SAINT JOHN'S PARKWAY SANFORD, FL 32771 PH 800-929-3919 X1411 jalger@theleveredge.com State License # 74730 RAILS: BY UNIRAC OR IRON RIDGE 4 CONTRACTOR REQUIRED TO INDICATE SY=SIZEGROUNDING: oc EXTERNAL FOR MODULES BY SELECTING THE CORRESPONDING BO AND RAILS, #6 BARE COPPER FOR EXPOSED AREAS, UNIFIED PHOTOVOLTAIC GROUNDING ON SAME GROUND ",.j.,OD-.A$ MAIN BREAKER PANEL JUNCTION'BOXISOLADECK UCo:t741-LISTED OMBINATION, TRANSITION " FROM PV OR USE-2 CABLE TO T0,1NN=2 CONDUCTOR, ;FLASHING TO EXCEED FBC REQUIREMENTS RECEIVE® MAY 21 Z018 5. Modules must be installed on 2 rails as shown per the rail module manufacturer's instructions to obtain the listed wind rating. 6. Combined module and rail dead loads are under 4 psf. 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 attachments at the ends of arrays shall 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 details, system selection 00/00 1 A-100 Roof Wind pressure tables and "A" dimension calc 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 00/00 1 E-103 Placards Warning labels and where used 00/00 1 S-101 Flashing •, . ? Quick Mount flashings and S-51 cut sheets 00/00 1 S-102 Layout' ,;. t `' General rail and module layout suggestions 00/00 1 S-103 Unirac�`, ,, :cdt sheets and grounding notes on Unirac rails 00/00 1 S-104 ,:, Ir6rfNidg&- ,.. Cut Sheets and grounding notes on IronRidge rails 00/00 1 Z-101 FLASEA Lefter ` 'Engirieer ortifications 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. Gut.Sh'eet for Solar Edge Inverter and Optimizers - 3800, 5000, 7600 "H" series 00/00 2 Z-104 11 InvertQt, ,' :'; ` `Cut sheet for Solar Edge Inverter and Optimizers - 10,000 "A" series 00/00 2 APPLICABLE CODES - Florida Building Code 6th edition 2017 - National Electric Code 2014 - N FPA 101-2009 - NFPA 13-2007 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 SYSTEM SIZE: ❑2.36-5.02 KW 8-17 modules # modules: 5.31-6.79 KW DRAWN BY- 18-23 modules JOHN ALGER, PE # modules: PROVIDER: THELEVEHEDGE 1423 Gunn Highway 7.08-9.44 KW Odessa, FL M558 24-32 modules 813-403-5100 Z# modules: Certificate of Authorization tF.31930 DATE: 04/25/20171:30 PM ❑9.74-11.51 KW 33-39 modules 61LDR-SI-SE-QC295M # modules: Rev. 02.05.18 WING DIVISION REVIEWED FOR CO LIANCE :..............REV.IEWED. EY.............................................. DATE i 8 PLANS A D PERMI UST f3EK LL BE ON SITE OR NO INSPE IONS) V •............................................................................................................... COVER A B C E ■= F