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Home My WebLink About2205 Washington Ave (2)lU (AllCITY OF SANFORD BUILDING & FIRE PREVENTION PERMIT APPLICATION MAt Z t 2016 �. Application No: Documented Construction Value: $ • Ov Job Address: '220 5 W ASt+I N Cr1DN AV E Historic District: Yes ❑ No ❑ Parcel ID: 31 • 101 • 31 - 522 - 0000 •00 20 Residential ❑ Commercial ❑ Type of Work: New 13' Addition ❑ Alteration ❑ Repair ❑ Demo ❑ Change of Use ❑ Move ❑ Description of Work: 1N5,TPc1-L- (" 1_vy SoL-Prr- PV S�{S -•� Plan Review Contact Person: V'41 PSK- Title: Pt✓ES1�1�1T' Phone: 401. '16'1 •10527 Fax: 407 - -167.1052q Email: m i chel e e a f I Sol ar+ Com Property Owner Information Name eo4p►R9 O #6• to L. V &O Phone: 4 01 • 4S 5 -42 gp Street: '"V V- Resident of property? • Y� S City, State Zip: S1%,NF10R-D 1=L 32"7"1 1 Contractor Information Name GAN-�i'�1_ F,.bR-ADA SPOL r -V, 1 N C- Phone: A-61 - 7 61 • &S27 Street: '5� IFN 4>Aa1-->-D Fax: 40"1 r ?6'1 -U0 Zai City, State Zip: -PFW N6r5, Fi- State License No.: C- V C0 E (olo45 Architect/Engineer Information EG l3 X1-1 Name: �G ENG►N 'RiNb� 1N(- MRIE .SP1 O Phone: 40-1 - 4'74 • 9 1 8 1 Sheet: 25t;'% C1-P4T 1zt-VCrtE U Fax: A 01 , (O s ) • I Sci City, St, Zip: t. % 32'1'1 I E-mail: Bonding Company: >r1 f t-- Mortgage Lender:ap "' Address: Address: WARNING TO OWNER: YOUR FAILURE TO RECORD A NOTICE OF COMMENCEMENT MAY RESULT IN YOUR PAYING TWICE FOR IMPROVEMENTS TO YOUR PROPERTY. A NOTICE OF COMMENCEMENT MUST BE RECORDED AND POSTED ON THE JOB SITE BEFORE THE FIRST INSPECTION. IF YOU INTEND TO OBTAIN FINANCING, CONSULT WITH YOUR LENDER OR AN ATTORNEY BEFORE RECORDING YOUR NOTICE OF COMMENCEMENT. Application is hereby' made to obtain a permit to do the work and installations as indicated. I cerhh• that no work or installation has commenced prior to the issuance of a permit and that all work will be performed to meet standards of all laws regulating construction in this jurisdiction. I understand that a separate permit must be secured for electrical work, plumbing, signs, wells, pools, furnaces, boilers, heaters, tanks, and air conditioners, etc. FISC 105.3 Shall be inscribed with the date of application and the code in effect as of that date: 5'" Edition (2014) Florida Building Code Rc%ised:June?9.2015 Pcrmit application . o;p,3O NOTICE: In addition to the requirements of this permit, there may be additional restrictions applicable to this property that may be found in the public records of this county, and there may be additional permits required from other governmental entities such as water management districts, state agencies, or federal agencies. Acceptance of permit is verification that I will notify the owner of the property of the requirements of Florida Lien Law, FS 713. The City of Sanford requires payment of a plan review fee at the time of permit submittal. A copy of the executed contract is required to order to calculate a plan review charge and will be considered the estimated construction value of the job at the time of submittal. The actual construction value will be figured based on the current ICC Valuation Table in effect at the time the permit is issued, in accordance with local ordinance. Should calculated charges figured off the executed contract exceed the actual construction value, credit will be applied to your pen -nit fees when the permit is issued. OWNER'S AFFIDAVIT: I certify that all of the foregoing information is accurate and that all work will be done in compliance with all applicable laws regulating construction and zoning. S 4. � ` $• tR• � V Signature of Owner/Agent Date Signature of Contractor/Agent Date W I L Y 14M F. P A4Q4G Print Owner/Agent's Name :0' °�e�•. CONSTANCE BULLINGTON Notary Public • Slate of Florida Commission N FF 977415 3. 2017 My Comm. Expires Dec W f L L I PCM rn PA72-I t_ Print Contractor/Agent's Name M CONSTANCE BULLINGTON Notary Public • State of Florida Commission N FF 977415 My Cir !Mm. Expires Dec 3, 2017 0%, IT Kmoltirto IvRFor Contrac o Produced ID Type of ID Produced ID Type of ID BELOW IS FOR OFFICE USE ONLY Permits Required: Building ❑ Electrical ❑ Mechanical ❑ Plumbing❑ Gas[] Roof ❑ Construction Type: Total Sq Ft of Bldg: Occupancy Use: Min. Occupancy Load: New Construction: Electric - # of Amps, Fire Sprinkler Permit: Yes ❑ No ❑ # of Heads APPROVALS: ZONING: UTILITIES: ENGINEERING: COMMENTS: FIRE: Flood Zone: # of Stories: Plumbing - # of Fixtures Fire Alarm Permit: Yes ❑ No ❑ WASTE WATER: or BUILDING: 4,4C G' l- lf� Revised: June 30, 2015 Permit Application "eii32+Wears Experience STATE LIC. #CVC056645 JOB LOCATION: Central Florida Solar, Inc. 524 Eden Park Road • Altamonte Springs, FL 32714 Office: 407-767-6527 • Fax: 407-767-6529 www.CFLSOLAR.com Central fIlorido SO�G1r NAME E01 % (� HOME A Cj PHONE b1 4%d ADDRESS � )7 0'5 j�� S ► ` 1 i/i PHONE CITY'56-"X0(d. ZIP GATE CODE: LEAD SOURCES EMAIL RE P /� S�EI'�1��0'1t } R e c- Gin SOLAR PHOTOVOLTAIC ELECTRIC LICENSE EC #13006341 # KW SYSTEM K W $ 0 MANUFACTURER whrra INVERTER Sc MOUNTING Rood or Ground UTILITIES COMPANY SOLAR HOT WATER - SOLAR ATTIC FAN - INSULATION HOT WATER HEATER 120/64 $ ; a�7 ATTIC FAN $ SOLAR POOL PUMP $ ATTIC BLOWN INSULATION $ SYSTEM SPECIFICATIONS TOTAL INVESTMENT DEPOSIT BALANCE UPON COMpt a"nu METHOD OF PAYMENT - Credit Card_ Cash S $ S Buyer has reviewed, acknowledged and agrees to the prices, speussicauons, and conditions above and to the Terms and Conditions on the reverse of this agreement. Central Florida Solar is authorized to do the work as specified and payment will be made as outlined above. Buyer BUYER may cancel this tranfaction, without any Penalty or Obligation, within THREE BUSINESS DAYS from the date below. Date Buyer Date BBB Rating: A� BBB- , ,- Central Florida Soleylnc. Representative Date if, t T. r rnis .onrr3ci represents the 3nnre agreement between ouver and seller and is oindmg when accepted by an officer of Central Flonda Solar Inc. or 30 days Over 32+ Years Experience STATE LIC. #CVC056645 JOB LOCATION: Cental Florida Sola, Inc. 524 Eden Park Road - Altamonte Springs, FL 32714 Office: 407-767-6527 - Fax: 407-767-6529 www.CFLSOLAR.com NAME EC/ CA (� 0 EC me I� CA 11 L4 HOME PHONE '4 0. 4 1�5 - 42'60 U, ADDRESS O OI S GS ► l ( v CELL PHONE CITY d ZIP GATE CODE: LEAD SOURCE EMAIL SALERb k G9 ec-n } Y 1 SOLAR PHOTOVOLTAIC ELECTRIC LICENSE EC #13006341 # KW SYSTEM &A W 911-1.5 1$ Q MANUFACTURER 50W, e ' INVERTER SG MOUNTING Roo or Ground CeCm \1 -Cog UTILITIES COMPANY SOLAR HOT WATER - SOLAR ATTIC FAN - INSULATION HOT WATER HEATER 120/64 $ 3Q15 j ATTIC FAN $ SOLAR POOL PUMP $ ATTIC BLOWN INSULATION $ SYSTEM SPECIFICATIONS TOTAL INVESTMENT DEPOSIT BALANCE UPON COMPI -"e%- METHOD OF PAYMENT - Credit Card_ Cash $ $ $ Buyer has reviewed, acknowledged and agrees to the prices, speusircaaons, and conditions above and to the Terms and Conditions on the reverse of this agreement. Central Florida Solar is authorized to do the work as specified and payment will be made as outlined above. BUYER may cancel this transaction. without anv Penaltv or Obligation. within THREE BUSINESS DAYS from the date below. Buyer Central Florida SoliVInc. Representative s- Z I ((- Date Date 5-ra-I Date � BBB Rating: A+ This contract represents the entire agreement between buyer and seller and is binding when accepted by an officer o/ Central Florida Solar, Inc. or 30 days. REQUIRED INSPECTION SEQUENCE BP# (L • iu(Al Address: LU S WASAawrewt A.Ir Buc mmG PeRmir Min Max Inspection IIDescri tion Footer / Setback StemwalI Foundation / Form Board Survey Slab / Mono Slab Pre our Lintel / Tie Beam / Fill / Down Cell Sheathing — Walls Sheathing— Roof Roof Dry In Frame Insulation Rough In Firewall Screw Pattern Drywall / Sheetrock Lath Inspection Final Solar Final Roof Final Stucco / Siding Insulation Final Final Utility Building Final Door Final Window - Final Screen Room Final Pool Screen Enclosure Mobile Home Biilding Final Pre -Demo Final Demo Final Single Family Residence Final Buildin Other REVISED: June 2014 IELEC MCAL IP`ERMiT Nun max Inspection Description Electric Underground Footer / Slab Steel Bond Electric Rough T.U.G. Pre -Power Final Electric Final l MECHANFCAL PERMT min Max- Inspection Description Mechanical Rough Mechanical Final min MaxIInns ectioen Description Gas Underground 7Gas Rough Gas Final M[in max Inspection Description Plumbin Underground Plumbing Sewer Plumbing Tub Set Plumbing Final MECHANFCAL PERMT min Max- Inspection Description Mechanical Rough Mechanical Final min MaxIInns ectioen Description Gas Underground 7Gas Rough Gas Final C'IVED City of Sanford MAY Q 42016 Solar Photovoltaic Permit Application Checklist All perm:.-SAV" ust*be complete prior to acceptance. You must check each * box to the left or indicate n/a on this submittal. A complete application package shall include the following: D Building Permit Application completed, signed and notarized. Application must include correct address and complete parcel I.D. number. Copy of a contract, signed by the contractor and the property owner, indicating the documented construction value of the project. %Ge F� Copy of applicable contractor's license issued by the State of Florida (if the contractor is the applicant). A site specific notarized power of attorney shall be required from the licensed contractor if he/she appoints an employee of his/her company to sign the permit application as the contractor. 0� F: Certificate of insurance indicating worker's compensation insurance coverage and naming the City of Sanford as certificate holder, or a copy of a worker's compensation exemption issued by the State of Florida (must be submitted with each application if contractor is the applicant). AIA Completed and signed Owner Builder Statement / Affidavit (if the owner is the applicant). Provide two copies of a complete basic roof layout indicating the proposed location and orientation of the solar panel array(s). Provide two copies of signed and sealed engineering for the attachment of the solar photovoltaic system the roof. Wind design data is required on the drawings per FBC 1603.1.4 to meet 139 mph ultimate design wind speed for risk category II buildings Provide the phase, voltage and amperage of the existing electrical service. Provide two complete copies of the support rail specifications and installation manual. Provide two complete copies of the power inverters specifications and installation manual. Provide two complete copies of the photovoltaic module specifications and installation manual. Provide two copies of an electrical schematic drawing that includes the complete circuitry from the solar panels through the power inverter to the electrical service panel for the building including conductor types and sizes, conduit types and sizes, junction box type and sizes, the size/rating and location of all of the over current protection devices (e.g. fuses, circuit breakers), the rating and location of all of the disconnects and all bonding/grounding compliant with NEC article 690. n p w, It Subr,,. L 6 �a n An electrical permit submitted by a licensed electrical contractor is required for the portion of the electrical circuit v / from the supply side of the power conditioning unit through to the building's electrical service as required by Florida Administrative code 61G4 -15.02](3)(d) which states "Solar photovoltaic systems. Solar contractors may install new or replace existing power and control wiring in photovoltaic (PV) source circuits, PV output circuits, battery storage system circuits, and power conditioning unit. In an interactive system that operates parallel with a primary source of electrical energy, this work is limited to the PV supply side of the power conditioning unit. In a stand- alone, or non -grid connected system, the work above -referenced shall be limited to the PV supply side of the power conditioning unit and shall not include wiring integral to the building premises. All work shall be done in accordance with the National Electric Code." Contact person information entered in Naviline? Application forms stamped received and initialed? Revised.• February 2015 POWER OF ATTORNEY KNOW ALL MEN BY THESE PRESENTS: I, Rick E. Cheek, the undersigned, hereby makes, constitutes and appoints WILLIAM F. PARK, PRESIDENT OFCENTRAL FLORIDA SOLAR, INC. and their designated permitting technician 1 \I � ,,,j`t'\\k Q)Zk� his true and lawful attorney for him and in his place and stead for use and benefit). L-0 a061-0-0 *--'E-: 2-2oS vJtvGtnN&Tbt-+ fiqF LOT 7- F%- P%- 32111 31 - %I - 31 - 952Z- 0= - 007-0 BUILDING AND ELECTRICAL PERMITTING WORK under License Number: EC13006341. To be my lawful attorney -in -fad to act for me to apply for, receipt for, sign for and do all things necessary to this appointment for the sole purposes of obtaining a building, electrical or any other required permit for the installation of solar photovoltaic system. Giving and granting unto his said attorney full power and/authority to do and perform all and every act and thing whatsoever requisite, necessary or appropriate to be done in and about the premises as fully to all interests and purposes as he might or could do if personally present. Hereby ratifying all authority that his said attorney shall lawfully do or cause to be done under the authority of this power of attorney. Wherever the context so requires, the masculine gender includes the feminine and/or neuter, and the singular number includes the plural herein. Dated: 05.19 ' ( to IQ A E, CLI, Rick E. Cheek STATE OF FLORIDA: COUNTY OF 'JIrMINOWE The foregoing instrument was acknowledged before me this 11 day of 2016, by Rick E. Cheek. �14- a 0�. - '4' Notary Public - State of Florida Name of Notary Ty �'qwDae CONSTANCE BULLINGTON Notary Public • State of Florida Commission I FF 97741S(NOTARY SEAL) IMp Comm. Expires Dec 3, 2017 Personally Known ✓ OR Type of Identification Produced FDL# LIlVIITED POWER OF ATTORNEY Date: 015. M, "I V I hereby name and appoint: an agent of: G �ty�PtV F L OCz-1 C7A SOL-Pv*En 1 r}G . (Name of Company) to be my lawful attorney-in-fact to act for me to apply for, receipt for, sign for and do all things necessary to this appointment for: The specific permit and application for work located at: Zo5 W Expiration Date for This Limited Power of Attorney:. SPas+arw,'G 3 X177 1 License Holder Name: W l L L I P --t''\ F- Ffcr-K- State License Number: Signature of License Holder: STATE OF FLORIDA COUNTY OF SEiM lP16U The foregoing instrument was acknowledged before me this I day of M , 200, by W I LL �M �� who is o personally known to me or o who has produced as identification and who did (did not) take an oath. 4 Signature (Notary Seal) V ,t`4n,,. CONSTANCE BULLINGTON f Notary Public •State of Florida • �d$ Commission N FF 977415 �pR,.••' My Comm. Expires Doc 3.2017 (Rev. 3/27/07) Print or type name Notary Public - State of Commission No. My Commission Expires: r1E SCPA Parcel View: 31-19-31-522-0000-0020 AL RR e0 JAnw. CFA PAPP�� sce�g�o�c oDu�rrv, �.o�+a� Parcel Information Property, Record Card Parcel: 31-19-31-522-0000-0020 Owner: LUGO EDGARDO A H Property Address: 2205 WASHINGTON AVE SANFORD, FL 327714606 Parcel 31-19-31-522-0000-0020 Owner LUGO EDGARDO A H Property Address 2205 WASHINGTON AVE SANFORD, FL 327714606 Mailing 2205 WASHINGTON AVE SANFORD, FL 32771 - Subdivision Name GROVE MANORS AMENDED PLAT Tax District S1-SANFORD DOR Use Code 01 -SINGLE FAMILY Exemptions 00-HOMESTEAD(2015) _a r• �U t Semino a County GIS Legal Description ! LOT 2 & WLY 1/2 OF VACD ST ADJ ON E AMENDED PLAT OF GROVE MANORS PB 10 PG 53 Taxes Page 1 of 2 Value Summary Valuation Method Number of Buildings Depreciated Bldg Vali Depreciated EXFT Va Land Value (Market) Land Value Ag Just/Market Value " Portability Adj Save Our Homes Adj Amendment 1 Adj P&G Adj Assessed Value Tax Amou 2015 Save Our h Does NOT INCLUDE Taxing Authority Assessment Value Exempt Value County General Fund $136,658 Schools $136,658 City Sanford $136,658 SJWM(Saint Johns Water Management) $136,658 County Bonds $136,658 http://parceldetai 1. scpafl .or.JParcel Detail inf6.aspx?P1D=31 193152200000020 5/ 13/2016 RECORD COPY So l.AF- PV C1111 pAr"lrm-t-sl REVIEWED FOR CODE COMPLIANCE PLANS EXAMINER DATE 220!-5 WM7"19IK04 ME 5km Fpt7--0, FL 321"11 SANFORD BUILDING DIVISION # PERMIT 196UED SHALL BE CONSTRUED TO BE A "CENSE TO PROCEED WITH THE WORK AND N07 "S -UTHORITY TO VIOLATE, CANCEL, ALTER CR F? G.:iIDE ANY OF THE PROVISIONS OF THE TECHNICAL ,':;.tDES, NOR SHALL ISSUANCE OF A PERMIT PREVENT THE BUILDING OFFICIAL FROM THEREAFTER REQUIRING A CORRECTION OF ERRORS IN PLANS, CONSTRUCTION OR VIOLATIONS OF THIS CODE �VILDlNC SANFORD 6- 497 PHOTOVOLTAIC MODULE GENERAL NOTES: T APPLICABLE CODE: 2014 FLORIDA BUILDING CODE & ASCE 7-10 MINIMUM DESIGN LOADS FOR BUILDING AND OTHER STRUCTURES. 2. BOLT DIAMETER AND EMBEDMENT LENGTHS ARE DESIGNED PER 2014 FLORIDA BUILDING CODE REQUIREMENTS. ALL BOLT CAPACITIES ARE BASED ON A SOUTHER YELLOW PINE (SYP) RESIDENTIAL WOOD ROOF TRUSS AS EMBEDMENT MATERIAL 3. ALL WIND DESIGN CRITERIA AND PARAMETERS ARE FOR HIP AND GABLE RESIENTIAL ROOFS, CONSIDERING FROM A 7' TO A MAXIMUM 27' (2/12 TO A MAXIMUM 6/12 PITCH) ROOF IN SCHEDULE ALL RESIDENTIAL ROOFS SHALL NOT EXCEED 30'-0' MEAN ROOF HEIGHT. 4. ROOF SEALANTS SHALL CONFORM TO ASTM C920 AND ASTM 6511, AND IS THE RESPONSIBILITY OF THE CONTRACTOR TO PILOT FILL ALL HOLES. 5. THIS SHEET REFLECTS STRUCTURAL CONNECTIONS ONLY. REFER TO MANUFACTURER MANUAL FOR ALL ARCHITECTURAL, MECHANICAL, ELECTRICAL, AND SOLAR SPECS. 6. ALL ALUMINUM COMPONENTS SHALL BE ANODIZED ALUMINUM 6105-T5 UNLESS OTHERWISE NOTED. 7. LAG BOLTS SHALL BE ASTM A276 STAINLESS STEEL UNLESS OTHERWISE NOTED. 8. ALL 39" X 65" PV MODULES MAY BE INSTALLED PER THIS STRUCTURAL CONNECTION DRAWING. 9. ALL SOLAR RAILING AND MODULES SHALL BE INSTALLED PER MANUFACTURER INSTRUCTIONS. 10. CONTRACTOR SHALL ENSURE ALL ROOF PENETRATIONS TO BE INSTALLED AND SEALED PER 2014 FLORIDA BUILDING CODE OR LOCAL GOVERNING CODE. ULTIMATE WIND ZONE 1 MAX WIND ZONE 2 MAX WIND ZONE 3 MAX EMBED. WIND SPEED SPAN, MAX SPAN, MAX SPAN, MAX DEPTH V,& (MPH) CANTILEVER CANTILEVER CANTILEVER•• REQ. 140 4'-0' O.C. ,1'-7' O.C. X-0' O.C. ,1'-7' O.C. 2'-0' O.C. , 9" O.C.•• 3' • SCHEDULE REFLECTS COMPONENTS AND CLADDING (C&C) NOMINAL WIND PRESSURES WITH EXPOSURE 'C', RISK CATEGORY II , ENCLOSED BUILDING AND h < 60'.0' PER ASCE 7-10 'MINIMUM DESIGN LOADS FOR BUILDING AND OTHER STRUCTURES' AND 2014 F.B.C. ' LAG BOLT DEPTH REQUIRED IN WOOD MEMBER EXCLUDES ANY ROOF DECKING THICKNESS. •• WIND ZONE 3 PV MODULE LOCATION REQUIRES 3RD RAIL AS SHOWN. -DLNG SANFORD OFPAR�� #16-1497 -------------- ----------=--------� I ,- I O i� ' 1 GABLE END BUILDING 1 HIP END BUILDING ROOF ROOF WIND AREA ZONES WIND AREA ZONES 1 , � ----�/ / 2 2 �• I 1 ---------- 2--- 2- _-----L_— __ 7 — V2 R3) V1 TYPICAL PHOTOVOLTAIC -ARRAY PITCHED ROOF LAYOUT WIND ZONES SCHEDULE - PLAN SCALE: NONE 39" X 65" PHOTOVOLTAIC ALUM. SOLAR RAIL TYP 2 PLCS PER - MODULE TYP. ARRAY. SEE SCH FOR 3RD RAIL REQ. 3RD RAIL LOCATION TYP. SEE SCHEDULE. j_fRS I j TRS l\ j TRS I TRS I TR I TRS I T TRS i t I I i I I r a a 1 1 1 = 1 U 1 N 1 W I I _ LOW NPROFILE MO E i i i x 1 i i I I I i I Q p i I i I i I i I V �N I I 1 W kMAXQ MAX SPAN. SEE SCH."C; NT. SEE SCH. ASPHALT SHINGLES ALUM LFOOT -16" DIA STAGGERED EVERY OTHER TRUSS TYP. SEE SCH FOR MAX SPAN REQ. /METAL SV ROOF TYP. END -CLAMP W/ ;" TYPICAL PHOTOVOLTAIC MODULE ARRAY PLAN 2 PHOTOVOLTAIC - 20 HEX CAP ST STL MODULE TYP. r BOLT AND ST STI SCALE: ;�"=1'-0" G� ASPHALT SERRATED SHINGLES / FLANGE -NUT TYP. IRONRIDGE XR1000 l - METAL 5V END -CLAMP SIZE OR XR 100 ALUM. WOOD ROOFING TYP; VARIES. SOLAR RAIL TYP. �— SHEATHING 16' ST STL LAG BOLT. SEE WOOD ROOF SCH FOR EMBED DEPTH TRUSS TYP. REQ. TYP EACH L -FOOT TYPICAL PV SOLAR RAIL END CONNECTION DETAIL 3 SCALE: 1 '"=1'-0" VR3 REFER TO SCHEDULE FOR REQUIRED EMBEDMENT DEPTH LABELED "X" IN THIS DETAIL 12" ALUMINUM INTERNAL SPLICE BAR (USE WHEN SPLICE AT MID -SPAN W/ (4) #10-16Xg ST STL SELF TAPPING SCREWS TYP IRONRIDGE XR1000 OR V. #10-16x!" ST STL SELF TAPPING ALUM. SOLAR RAIL TYP SCREW TYP 4 PLCS PER BEAM SPLICE TYPICAL SOLAR RAIL BEAM SPLICE DETAIL SCALE: 1 I"=1'-0" TYP. 2 PLCS. PER SIDE OF MODULE AND BE CONNECTED < 25% OF MODULE LENGTH. FLANGE CONNECTIONS MUST BE STAGGERED ON EVERY OTHER TRUSS THRU-OUT RAIL SYSTEM LAYOUT REFER TO SCHEDULE FOR �lQ LABELED "XQUIRED EMBEDMENT DEPTH N THIS DETAIL ALUMINUM L -FOOT TYP L,15°I°M y EVERY ROOF PENETRATION 16 HEX CAP ST STL �J'A BOLT AND ST STL SERRATED FLANGE -NUT TYP. S.Y.P. 2X4 LOCATE BETWEEN TRUSSES AND NAIL WITH 2-16D NAIL PATTERN AT EACH END TO WOOD TRUSS ;.f i 2X PT S.Y.P. WOOD UNISTRUT CONT. AL 4�10 STEEL ALL-THRD OD W/ NUT - WASHERS - LOCTITE ALL NUTS TYP. ALL CONNECTIONS OPTIONAL SPANNER CONNECTION DETAILS SCALE: 1 I"=1'-0" ALUMINUM L -FOOT TYP EVERY ROOF PENETRATION " - 16 HEX CAP ST STL BOLT, AND ST STL SERRATED FLANGE NUT TYP, DATE;j 4.17-2014 DRAWN BY: I JAT CHKD BY: I EEC E g AS NOTED ASPHALT - SHINGLES/ METAL 5V 20 ROOFING TYP. %--1 �� STL BOlrAND V) STL MODULE TYP, �; i = 4�10 STEEL ALL-THRD OD W/ NUT - WASHERS - LOCTITE ALL NUTS TYP. ALL CONNECTIONS OPTIONAL SPANNER CONNECTION DETAILS SCALE: 1 I"=1'-0" ALUMINUM L -FOOT TYP EVERY ROOF PENETRATION " - 16 HEX CAP ST STL BOLT, AND ST STL SERRATED FLANGE NUT TYP, SCALE: 1 ?=1'-0" m coo o. to N m m � d N H J ovoF,0 V ..V1 - X W cn N u�0J J ' 6L V C'�mycm 5 9o.W00 Lu v V 04 Z Z 73 Lu 4n N cn C4 Q Luz O W = W PROJECT: J_ W Q o "O N 0 ac C7 Z o= ruN 00 pa Lu3 a ? N oc Z �yT uj 5 �O ONS za 1' I -.I \ �1•.. DATE;j 4.17-2014 DRAWN BY: I JAT CHKD BY: I EEC E g AS NOTED - CENTER- `IxP SG 20 PHOTOVOLTAIC %--1 �� STL BOlrAND V) STL MODULE TYP, �; i = FLANCtIA46 � IRONRIDGE XR1000 - ASPHALT SHINGLES FRONT jDE OR XR100 ALUM. METAL SV LOCATIC511 SEE T4 SOLAR RAIL TYP. �E WOOD ROOFING a" ST STL LAG BOLT4" WOOD ROOF TYP. EMBED. DEPTH R SHEATHING TRUSS TYP. EACH L -FOOT TYPICAL PV SOLAR RAIL MID CONNECTION DETAIL SCALE: 1 ?=1'-0" m coo o. to N m m � d N H J ovoF,0 V ..V1 - X W cn N u�0J J ' 6L V C'�mycm 5 9o.W00 Lu v V 04 Z Z 73 Lu 4n N cn C4 Q Luz O W = W PROJECT: J_ W Q o "O N 0 ac C7 Z o= ruN 00 pa Lu3 a ? N oc Z �yT uj 5 �O ONS za 1' I -.I \ �1•.. DATE;j 4.17-2014 DRAWN BY: I JAT CHKD BY: I EEC E g AS NOTED #,, 0 o 3. S90 SHEET 1 F I x �E • 4 _ B O U.� H ' T A A. E $y JO Z • Photovoltaic System Approval Certificate UM-14-0153A FSECT"Awarded to: LIMA Solar • 950 Sunshine Lane Altamonte Springs, FL 32714 For The Photovoltaic System Designated: SOLEDGE2 - SW280 - SE5000A-US PV Modules and Array Array Configuration l PV Module Manufacturer: SolarWorld Total Number of PV Modules: 15-22 PV Module Model Number: Sunmodule Plus SW280 Mono Series Strings/Branch Circuits: 2 f FSEC Module Registration Number: SW14-NT90-0415 Modules Per Series String/Branch Circuit: 8-14 Listing to UL 1703 Verified: Yes Array Nameplate Power Rating: 4,200 to 6,160 W .Power Conditioning Equipment (Inverter) Inverter DC Voltage Window: 250 V to 500 V Inverter Manufacturer: SolarEdge AC Power Rating: 5,000 W Inverter Model Number: SE5000A-US AC Nominal Voltage Output; 240 V Listing to UL 1741 Verified: Yes Max PV Array Power Per Inverter: 6,250 W Charge Controller and Batteries Battery Manufacturer: N/A Charge Controller Manufacturer: N/A Battery Model Number: N/A Charge Controller Model Number: N/A Battery Type: N/A Listing to UL 1741 Verified: N/A Battery Capacity (C/20 rate): N/A Battery Bank Configuration Total Number of Batteries: N/A Number in Each Series String: N/A Number of Series Strings: N/A (Comments (Electrical Design (Verity the following items for agreement between the installed components and the supplied electrical schematic.) o Size, type and location of all conductors in the PV system; o Conduit, raceways, junction boxes, and combiner boxes; p Size, current rating, voltage ratings, and location of all over -current protection devices; p Rating and location of all disconnects; p Point of connection to the utility; p PV module and equipment grounding system (including conductor size); o PV DC circuit and system grounding (including grounding electrode conductor size); o Ground fault detection & interrupter (GFDI) rating and location; o Battery wiring and cable sizes (if applicable). Inspection � Inspector Name (printed) Inspector Signature Dale Information and Certification ,Installer Company Name: Website: Address 1: Address 2. City: State: Zip: Phone Number: Fax Number: -- Florida Contractor License Number: Florida Contractor License Type: ( ) Solar ( ) Electrical ( ) Other, please specify: I hereby certify that this PV system has been installed in full accordance with the National Electrical Code. Installer Name (printed) Installer Signature Date I ,Note: FSEC approvals do not replace or exempt any requirements of electrical utilities or local junsdiction authorities In matters such as permitting, ,Inspections, or utility Interconnection agreements as required for PV system Installations. When referring to FSEC approvals In any documentation produced by the supplier, Including technical or marketing information, the following statement shall be Included: The pholovollaic system design described in this manual, when properly Installed and maintained, meets the mmmum recommended practices established by the Florida Solar ,Energycenter This-approvar does not Impl2or warrantyof this product by the Florida Solar By: r Energy Center or the State of FloridaApproved ewmg Eng er 2015-01-13 Date � 4 /lam I RON RI DOE Solar Mounting Made Simple' Installation Manual Standard Raii(XRS) Roof Mounting System 2012 Edition v1.2 A complete Manual for the installation of lronRidge's Standard Rail system. r AML IRONRIDGE Installation Manual Table of Contents Solar Mounting Made Simple' This Installation Manual was created to help with the assembly of the IronRidge Standard Rail Mounting System. Standard Rail 1 Introduction Installer Responsibility Customer Support Tools Required For Assembly Torque Values For Dry Bolts 2 Grounding Setup Component List 3 Assembly: Step 1 r Assembly: Step 2 4 Assembly: Step 2 5 Assembly: Step 3 6 Assembly: Step 3 7 Warranty Information support@ I ironndge com 1 (800) 227-9523 Page 2 2012 v1 2 s IRONRIDGE Solar Mounting Made Simple' Installation Manual Standard Rail Introduction The IronRidge Standard Rail System is a flexible and straightforward roof mounting solution for a wide variety of solar photovoltaic (PV) needs. Due to its modular design, it can easily handle a wide variety of panel sizes and quantities. Installer Responsibility The installer is solely responsible for: i. Complying with all applicable local or national building codes, including any that may supersede this manual; ii. Ensuring that IronRidge and other products are appropriate for the particular installation and the installation environment; iii. Ensuring that all structural support members, including the roof, its rafters, and connections, can support the array under all code level loading conditions; iv. Using only IronRidge parts and installer -supplied parts as specified by IronRidge. Substitution parts may void the warranty; V. Ensuring that anchoring devices including lag screws have adequate pullout strength and shear capacities as installed; vi. Maintaining the waterproof integrity of the structural support or roof, including selection of appropriate flashing; vii. Ensuring safe installation of all electrical aspects of the PV array; and viii. Ensuring correct and appropriate design parameters are used in determining the design loading used for the specific installation. Parameters, such as snow loading, wind speed, exposure and topographic factor should be confirmed with the local building official or a licensed professional engineer. Customer Support IronRidge makes every effort to ensure your mounting kit is easy to install. If you need assistance at any point with your installation or have suggestions on how we can improve your experience, call IronRidge customer support: (707) 459-9523 Tools Required For Assembly Wrenches are required to assemble the IronRidge Standard Rail System. An open-end wrench, box -end wrench, or socket drive with sockets will suffice.The sockets will need to support the following size hex heads: Hex Head Size Component 5/16" #12 Self-drilling/tapping screws 7/16" 1/4 cap -end screws and bolts 9/16" 3/8 cap -end screws and bolts Torque Values For Dry Bolts Use the following torque values in this assembly. Bolt Size Required Torque Value 1/4-20 120 in -lbs. 3/8-16 236 in -lbs. support@ I ironndge.com 1 (800) 227-9523 Page 1 2012 v1 2 /lL IRONRIDGE Installation Manual Solar Mounting Made Simple' Standard Rail Grounding Setup All electrical installation and procedures should be conducted by skilled, licensed and bonded electricians. All work must comply with all national, state and local installation procedures, product and safety standards.These standards include but are not limited to applicable National Electrical Code (NEC*), National Electrical Installation Standards (NETS"), UL Standards, and OSHA Regulations. Note: For installations that utilize WEEBs, WEEB Lugs and WEEB Bonding Jumpers, please refer to Wiley/Burndy installation manual for IronRrdge Light and Standard Series Rail" for proper installation procedures. Component List The IronRidge Standard Rail System contains the following parts: L -Foot Attaches to the roof and is the anchor point for the rest of the panel assembly. 'i Standard Rail Attaches to the foot via foot clamp and provides support for the PV modules. Mid Clamp Clamps the insides edges of the �n�1 PV modules to the rails. Internal Splice Ties the extrusion rails together, extending their length. End Clamp Clamps the outside ends of the PV modules to the rails. End Cap Caps off the end of the rail and prevents the collection of debri inside rail. W support@ I ironndge.com 1 (500) 227-9523 Page 2 2012 v1 2 /%� IRONRIDGE Solar Mounting Made Simple' Assembly Step 1. Mounting the feet and the first piece of rail. A. Mount all of the feet to the roof in the desired locations. Note: Determine the maximum distance between feet according to engineering specifications. B. On the first piece of rail, slide 3/8-16" bolts into the side facing t -slot on the rail. Space the bolts out to match the foot spacing. C. On this same piece of rail, slide 1/4-20" bolts into the top facing t -slot on the rail. Space the bolts out to match the panel spacing. D. Attach this first piece of rail to the feet mounted on the roof. Mount the rail to each foot with a Flange nut and hex bolt. Hand tighten the nuts and check the level of the rail. Tighten 3/8-16 hardware to 236 in- Ibs. Step 2. Mounting the next pieces of rail. A. On the next piece of rail, slide 3/8-16" bolts into the side facing t -slot on the rail. Space the bolts out to match the foc spacing. B. On this same piece of rail, slide 1/4-20" bolts into the top facing t -slot on the rail. Space the bolts out to match the panel spacing. Installation Manual Standard Rail IL n 11 support@ I ironndge.com 1 (800) 227-9523 Page 3 2012 v1.2 /SRL IRONRIDGE Solar Mounting Made Simple' C. Lay the rail on its side, with the slotted side down as shown. D. Slide the internal splice half way into the internal cavity in the rail. It should extend approximately six (6) inches into the cavity. E. Using one (1) self -drilling, self - tapping screw, one (1") inch from the edge of the rail, secure the internal splice into the rail as shown on the right. Note., For installations that utilize WEEB Bonding Jumpers, please refer to Wiley/Burndy installation manual for "IronRidge Light and Standard Series Rails"for proper installation procedures. F. Loosely mount this piece of rail onto its footings. G. By moving this second rail along its footings, the internal splice should slip into the cavity on the first rail, with the rails butting tightly and evenly together. H. Maintain rail alignment while following the next steps. I. You should mark off approximately six (6) inches from the end of the first rail (where the internal splice should end). Drive one (1) self - tapping screws through the second rail, one (1") inch from the edge utilizing the same horizontal location as the first rail. J. Repeat this procedure for the remaining rails. Installation Manual f Standard Rail support@ I ironridge.com 1 (800) 227-9523 Page 4 2012 0.2 /�� IRONRIDGE Solar Mounting Made Simple' Step 3. Clamping the panels to the rails. A. Lay the first PV module in position on the rails. Note: For installations that utilize WEEBs, please refer to Wiley/Bumdy installation manual for "IronRidge Light and Standard Series Rails" for proper installation procedures. B. Then slip the end clamp over the bolt, making sure it is firmly hooked over the side of the module. C. Complete the clamp assembly with a flange nut as shown. Tighten to 60-65 in -lbs. D. Repeat with the other clamp. E. Working from the opposite side of the PV module. Assemble the mid clamps by putting a clamp on the bolt, followed by the flange nut. Installation Manual Standard Rail ,. :r4 4rj., y .1 y T support@ I ironridge.com 1 (800) 227-9523 Page 5 2012 0.2 IRONRIDGE Solar Mounting Made Simple' F. Place the second PV Module into position on the rails, sliding it against the first so the mid clamps are in contact with the edges of both panels. Note: For installations that utilize WEEBs, please refer to Wiley/8urndy installation manual for IronRidge Light and Standard Series Rails" for proper installation procedures. G. Tighten to 10 ft -lbs (120 in-ilbs). H. Repeat the procedure using mid clamps to secure each successive module. I. Secure the last module at the end of the rails using the other set of end clamps. Installation Manual Standard Rail supporta I ironrndge.com 1 (800) 227-9523 Page 6 2012 v1.2 //�IRONRIDGE Installation Manual Standard Rail Solar Mounting Made.Simple' Warranty Information Effective for IronRidge, Inc. ("IronRidge") mounting structure components ("Products") manufactured after April 1 st, 2012, IronRidge provides the following warranties, for Products installed properly and used for the purpose for which the Products are designed: • finishes shall be free of visible defects, peeling, or cracking, under normal atmospheric conditions, for a period of three (3) years from the earlier of (i) the date of complete installation of the Product or (ii) thirty days after the original purchaser's date of purchase of the Product ("Finish Warranty); • components shall be free of structurally -related defects in materials for a period of ten (10) years from the earlier of (i) the date of complete installation of the Product or (ii) thirty days after the original purchaser's date of purchase of the Product; • components shall be free of functionally -related manufacturing defects for a period of twenty (20) years from date of manufacture. The Finish Warranty does not apply to: (a) surface oxidation of the galvanized steel components or any foreign residue deposited on, Product finish; and (b) Products installed in corrosive atmospheric conditions, as defined solely by IronRidge; corrosive atmospheric conditions include, but are not limited to, conditions where Product is exposed to corrosive chemicals, fumes, cement dust, salt water marine environments or to continual spraying of either salt or fresh water. The Finish Warranty is VOID if (c) the practices specified by AAMA 609 & 610-02 -"Cleaning and Maintenance for Architecturally Finished Aluminum" (www.aamanet.org) are not followed by Purchaser for IronRidge's aluminum based components; and (d) if the practices specified by ASTM A780 / A780M - 09"Standard Practice for Repair of Damaged and Uncoated Areas of HotDip Galvanized Coatings"are not followed by Purchaser for IronRidge's galvanized steel -based components. The warranties above do not cover any parts or materials not manufactured by IronRidge, and exclude nonfunctionally-related defects, as defined solely by IronRidge. The warranties do not cover any defect that has not been reported to IronRidge in writing within twenty (20) days after discovery of such defect. In the event of breach of or non-compliance with the warranties set forth above, Iron Ridge's sole obligation and liability, and the sole and exclusive remedy for such breach or non-compliance, shall be correction of defects by repair, replacement, or credit, at IronRidge's sole discretion. Such repair, replacement or credit shall completely satisfy and discharge all of IronRidge's liability with respect to these warranties. Refurbished Product may be used to repair or replace the defective components. Transportation, installation, labor, or any other costs associated with Product replacement are not covered by these warranties and are not reimbursable. These warranties additionally do not cover (a) normal wear, or damage resulting from misuse, overloading, abuse, improper installation (including failure to follow professional instruction and certification), negligence, or accident, or from force majeure acts including any natural disasters, war or criminal acts; and (b) Products that have been altered, modified or repaired without written authorization from IronRidge or its authorized representative, and (c) Products used in a manner or for a purpose other than that specified by IronRidge. A formal document proving the purchase and the purchase date of the Product is required with any warranty claim. Except as set forth above, IronRidge sells the Products on an "AS IS" basis, which may not be free of errors or defects, and ALL EXPRESS OR IMPLIED REPRESENTATIONS AND WARRANTIES, INCLUDING ANY WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUALITY, WORKMANLIKE EFFORT, CORRESPONDENCE TO DESCRIPTION, DESIGN, TITLE OR NON -INFRINGEMENT, OR ARISING FROM COURSE OF DEALING, COURSE OF PERFORMANCE ORTRADE PRACTICE, ARE HEREBY DISCLAIMED. supporta I ironndge.com 1 (800) 227-9523 Page 7 2012 0.2 POWER TABLE: a DC -SIDE A i� # PV MODULE 1 E AC -SIDE MANUF SOLAR WORLD P300 MODEL FW280 5,000 VA PEAK POWER POWER 280 W -dc 10A VOC 39.5 VDC 21 A (MAX) CURRENT ISC 9.71 A 15A VMP 31.2 VDC R g� IMP 9.07 AMP A SOLAREDGEDC/DC POWER OFTIMR:R P300 TYP. B & C 1 S (MIN.) 1 22 (MAX.) 4,200 W 1 6,160 W NOTE. MANUF RECOMMENDS MN STRING OF 8 / MAX. STRING OF 25 PV PANELS (OR 525OW-DC PER STRING, WHICHEVER GOVERNS) 3 PWR OPTIMIZERS FOR MUL i IPLE STRING INPUTS TO INVERTER. DC,/DC PWR OPTIMIZE MANUF MODEL MAX INPUT POWER MAX INPUT VOLTAGE MAX INPUT CURRENT MPPT RANGE MAX OUTPUT VOLTAC MAX OUTPUT CURREN INCE (7a 1000 W /M2 OBTAIN ALL PERMITS AND ` APPROVALS M GOVERNING AGENCIES PROVIDE WARNING 'ELECTRIC SHOCK I SNOT TOUCH PRIOR TO THE COMMENCEMENT OF WORKL16\\ TERMINALS BOTH DEMBETED THOPEN POSITION"HAZARD NECNK . EQUIPMENT SHALL BE INSTALLED PER THE NATIONAL ELECTRICAL CODE (NEC), ALL APPLICABLE OR GOVERNING CODES, MANUFACTURER LABEL DEVICE PER NEC 690.14(C)(2), 690.53 AND SECURE PER NK 690.7(D}. REQUIREMENTS OF AND PER THE GOVERNING UTILITY COMPANY. / ' A3LISTING AGENT NAME AND NUMBER SHALL BE INDICATED PER NEC 110.3(6). / 8 LABEL BREAKER PER NEC 690.54, 690.64(8)(5) AND 705.10. I TO PREVENT AN INCREASE IN AC VOLTAGE LEVEL AND AVOID ANYI PV BACKFEED CURRENT PLUS MAIN BREAKER RATING MUST BE LESS THAN ORI ANUISANCE FAULTS, IT IS RECOMMENDED TO SIZE CONDUCTOR FOR A EQUAL TO 120'/o OF MAIN SERVICE BUS RATING AND BREAKERS MUST BE 4 DROP OF 2%MOUNTED AT OPPOSITE END OF MAIN BREAKER PER NEC 690.64. IMETALLIC 3 CONDUIT SHALL BE USED WITHIN THE BUILDING FOOTPRINT PER 10 LABEL JUNCTION UNGROUNDED BOX, COERBNK 6 0X3aSCONNECTS, AND ENERGIZEDZ�L NEC I SOLAREDGE Xi X POWER OPTIMIZER MODEL F300 STRING OUTPUT ::10 PV WIRE {PER STRING; =6 AWG SOLD CU EQUIPMENT GROUND CONDUCTOR CONT RUN. TO WEEMLUG ON RAILS. MODULES AND POWER OPTIMIZERS GROUNDED TO RAILS WITH WEED WASHERS OR EQUIVALENT TYP. -------------------------------------------------------------- I A I 1 !*�+r .Q'^ •ti as„- aye. •!! r I . ��._F�'-p f: S'' �:.- 31`•""x' �� '_- ��4 I I SOIAREDGEDC/DC = /3\//5\ — I = _ I POWER OPTIMIZER == D P300 TYP. NOTE 2ND DC CIRCUIT SHOWN HERE IS OPTIONAL 1 I I I I I I I � I ^ I I I L ------------------------------------------------ JUNCTION BOX NEMA 3R ENCLOSURE 10 )UNCTION BOX NEMA 3R ENCLOSURE 10 GR AWG SOLDCUO RCONTT I GROUND CONDUCTOR COM RUN. � U TO WEEB4UG ON RAILS. MODULES j AND POWER WTIMRERS 11 I GROUNDED 10 RARS WITH WEED WASHERS OR EOUIVAIENT TYP. -------------------------J JLNCTION BOX OUTPUT CIRCUIT CABLE (PER STRING) 121 1; 10 AWG, INSULATION: 7hHN,THWN-2 111;10 AWG, GROUND CONDUCTOR CONDUIT SR_ ,2' MINIMUM F C) O SOtAREDG: SE5000A.U5 INVERTEII � �1•I�1�I� I ZL` 4 ------------------- ,L.l---- -------------- Li ------------------- L------------------ NVOTER OUT?UT CIRCUIT, CABLE (3: a 10 AWG, INSULATION: THHN; THW N-2 11: r- 10 AWG, GROUND CONDUCTOR CONDL.I: SRF 1 -MINIMUM a 016 — 1 497 ELECTRICAL SERVICE PANEL MAINI BREAKER I I Q i 30A/2PI I I -------------------------- I ------------------------; - 1 -----------a--------------------- I I EXISTING EARTH GROUND GROUNDING ELECTRODE PROJECT: Lu ec W tY W (��j> (7 i W NLu 0 O�Dc � � Q QQ3 `L d Xc 4 Lu !� `l U, 0 Z O Ln C> ' N 3 O C W voiCtn DATE 12.5.14 a DRAWN BY: )AT i� D RZ E AC -SIDE SOLAREDGE 1 INVERTER P300 SE -5000A -US 300 Wp-dc 5,000 VA PEAK POWER 48 VDC 5,450 VA (MAX) CONT. POWER 10A 240 VAC VOLTAGE 848 VDC 21 A (MAX) CURRENT 60 VDC 60 HZ FREQUENCY 15A OBTAIN ALL PERMITS AND ` APPROVALS M GOVERNING AGENCIES PROVIDE WARNING 'ELECTRIC SHOCK I SNOT TOUCH PRIOR TO THE COMMENCEMENT OF WORKL16\\ TERMINALS BOTH DEMBETED THOPEN POSITION"HAZARD NECNK . EQUIPMENT SHALL BE INSTALLED PER THE NATIONAL ELECTRICAL CODE (NEC), ALL APPLICABLE OR GOVERNING CODES, MANUFACTURER LABEL DEVICE PER NEC 690.14(C)(2), 690.53 AND SECURE PER NK 690.7(D}. REQUIREMENTS OF AND PER THE GOVERNING UTILITY COMPANY. / ' A3LISTING AGENT NAME AND NUMBER SHALL BE INDICATED PER NEC 110.3(6). / 8 LABEL BREAKER PER NEC 690.54, 690.64(8)(5) AND 705.10. I TO PREVENT AN INCREASE IN AC VOLTAGE LEVEL AND AVOID ANYI PV BACKFEED CURRENT PLUS MAIN BREAKER RATING MUST BE LESS THAN ORI ANUISANCE FAULTS, IT IS RECOMMENDED TO SIZE CONDUCTOR FOR A EQUAL TO 120'/o OF MAIN SERVICE BUS RATING AND BREAKERS MUST BE 4 DROP OF 2%MOUNTED AT OPPOSITE END OF MAIN BREAKER PER NEC 690.64. IMETALLIC 3 CONDUIT SHALL BE USED WITHIN THE BUILDING FOOTPRINT PER 10 LABEL JUNCTION UNGROUNDED BOX, COERBNK 6 0X3aSCONNECTS, AND ENERGIZEDZ�L NEC I SOLAREDGE Xi X POWER OPTIMIZER MODEL F300 STRING OUTPUT ::10 PV WIRE {PER STRING; =6 AWG SOLD CU EQUIPMENT GROUND CONDUCTOR CONT RUN. TO WEEMLUG ON RAILS. MODULES AND POWER OPTIMIZERS GROUNDED TO RAILS WITH WEED WASHERS OR EQUIVALENT TYP. -------------------------------------------------------------- I A I 1 !*�+r .Q'^ •ti as„- aye. •!! r I . ��._F�'-p f: S'' �:.- 31`•""x' �� '_- ��4 I I SOIAREDGEDC/DC = /3\//5\ — I = _ I POWER OPTIMIZER == D P300 TYP. NOTE 2ND DC CIRCUIT SHOWN HERE IS OPTIONAL 1 I I I I I I I � I ^ I I I L ------------------------------------------------ JUNCTION BOX NEMA 3R ENCLOSURE 10 )UNCTION BOX NEMA 3R ENCLOSURE 10 GR AWG SOLDCUO RCONTT I GROUND CONDUCTOR COM RUN. � U TO WEEB4UG ON RAILS. MODULES j AND POWER WTIMRERS 11 I GROUNDED 10 RARS WITH WEED WASHERS OR EOUIVAIENT TYP. -------------------------J JLNCTION BOX OUTPUT CIRCUIT CABLE (PER STRING) 121 1; 10 AWG, INSULATION: 7hHN,THWN-2 111;10 AWG, GROUND CONDUCTOR CONDUIT SR_ ,2' MINIMUM F C) O SOtAREDG: SE5000A.U5 INVERTEII � �1•I�1�I� I ZL` 4 ------------------- ,L.l---- -------------- Li ------------------- L------------------ NVOTER OUT?UT CIRCUIT, CABLE (3: a 10 AWG, INSULATION: THHN; THW N-2 11: r- 10 AWG, GROUND CONDUCTOR CONDL.I: SRF 1 -MINIMUM a 016 — 1 497 ELECTRICAL SERVICE PANEL MAINI BREAKER I I Q i 30A/2PI I I -------------------------- I ------------------------; - 1 -----------a--------------------- I I EXISTING EARTH GROUND GROUNDING ELECTRODE PROJECT: Lu ec W tY W (��j> (7 i W NLu 0 O�Dc � � Q QQ3 `L d Xc 4 Lu !� `l U, 0 Z O Ln C> ' N 3 O C W voiCtn DATE 12.5.14 a DRAWN BY: )AT i� CHKD BY: RZ = X REC. NO. # i SCALE I AS NOTED DRAWINGS »R SWSE02 aR b;? 3� R g� �?s �g ;? NEC 2011 LABELING REQUIREMENTS PHOTOVOLTAIC AC DISCONNECT MAXIMUM AC OPERATING CURRENT: 12.5 A MAXIMUM AC OPERATING VOLTAGE: 240 V (PER NEC 690.54- PROVIDE AT EXTERNAL AC DISCONNECT/MAIN SERVICE PANEL/NEW SERVICE PANEL FOR SOLAR PV IF APPLICABLE) PHOTOVOLTAIC (TYPE INFORMATION HERE) AC DISCONNECT PER NEC 690.14(C)(2) & 690.15 - PROVIDE AT EITHER EXTERNALAC DISCONNECT OR PV SYSTEM BREAKER IN SERVICE PANEL CENTRAL INVERTER S"STEMS RATED MAX POWER -POINT CURRENT: 17.9 Adc RATED MAX POWER -POINT VOLTAGE: 350.0 Vdc MAXIMUM SYSTEM VOLTAGE: 500.0 Vdc MAXIMUM SHORT CIRCUIT CURRENT: 19.1 Adc (PER VEC 690.52) - PROVIDE AT INVERTER INTEGRATED AC/DC DISCONNECT WARNING DUAL POWER SOURCE SECOND SOURCE IS PV SYSTEM LABEL PER NEC 705.12(D)(4) - PROVIDE AT MAIN SERVICE PANEL OR TAP 90X LOCATION CIRCUIT PANEL DIRECTORY NO. SIZE CIRCUITIDENTIFICATION NO. SIZE CIRCUIT IDENTIFICATION 1 20A SOLAR INVERTER 91 SPARE SPARE SPARE SPARE SPARE SPARE SPARE ISPARE SPARE SPARE CIRCUIT DIRECTOR) SUBJECT TO CHANGE BUT DIRECTORY REQUIRED PER NEC 705.10 PHOTOVOLTAIC (TYPE INFORMATION HERE) DC DISCONNECT PER NEC 690.14(C)(2) & 690.15 - PROVIDE AT EITHER INVERTER INTEGRATED AC/DC DISCONNECT OR EXTERNAL DC DISCONNECT WARNING ELECTRIC SHOCK HAZARD. DO NOTTOUCH TERMINALS. TERMINALS ON BOTH THE LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION LABEL PER `JEC -39017 • PROVIDE AT MAIN SERVICE PANEL WARNING INVERTER OUTPUT CONNECTION -DO NOT RELOCATE THIS OVERCURRENT DEVICE i ,-ABEL DER VEC 7CS-12IC1171--POVIDE AT MAIN EERVICE'4AEL E MAIN PV SYSTEM DISCONNECT PER NEC 690.14(2) - PROVIDE AT MAIN SERVICE PANEL OR NEW SERVICE PANEL FOR SOLAR PV FOR SUPPLY SIDE CONNECTION WARNING! ELECTRIC SHOCK HAZARD THE DC CONDUCTORS OF THIS PHOTOVOLTAIC SYSTEM ARE UNGROUNDED AND MAY BE ENERGIZED. DC VOLTAGE IS ALWAYS PRESENT WHEN SOLAR MODULES ARE EXPOSED TO SUNLIGHT (PER NEC 690.17(4) AND 69035) - PROVIDE AT INVERTER AND NET METER (IF NET METER IS APPLICABLE) - ONLY NEED FOR UNGROUNDED OV SYSTEMS a #16.149 PHOTOVOLTAIC POWER SOURCE NOTE: PROVIDE AT ALL DC CONDUIT, RACEWAY, ENCLOSURES, CABLE ASSEMBLIES AND JUNCTION BOXES PER NEC 690.31 (E)(3). 10 FT MAX SPACING PER NEC 690.31(E)(4). n .A ;, Sunmodule;-/Plus SW 280 MONO 1,100 1. O • FB -31 -0/.5 WP O FW__1 RANT, O Ani iRrlle AivrO foals iii TUV Power controlled. Lowest measuring tolerance In Industry Every component is tested to meet 3 times IEC requirements Designed to withstand heavy accumulations of snow and Ice Sunmodule Plus' Positive performance tolerance 25 -year linear performance warranty and 10 -year product warranty Glass with anti -reflective coating a #16-1497 World-class quality Fully automated production lines and seamless monitoring of the process and mate- rial ensure the quality that the company sets as its benchmark for its sites worldwide. Sola4cirld Plus -Sorting Plus -Sorting guarantees highest system efficiency. SolarWorld only delivers modules that have greater than or equal to the nameplate rated power. 25 -year linear performance guarantee and extension of product warranty MCI years SolarWorld guarantees a maximum performance digression of 0 7% p.a in the course of 25 years, a significant added value compared to the two-phase warranties com- mon in the industry. In addition, SolarWorld is offering a product warranty. which has been extended to 10 years' 'in accordance with the applicable SorarWorid Limited War ranty at purchase www 5olarworld com/warranty solarwlorld com .T W- WC 01115 pyE S.I WC $ rA • I. Wk��•.rclb�� je VM, • 15bvn�q:.n0 »alWn 1;—! ' vyu.rGMC-0 ra✓1W n SEy r .v1 w•r urn `J UL 1703 JOE • 1 1 C Ld 11 11 MADEIN USA OF U5 1NDIMPORTEDPART' MI Sunmodule%Plus SW 280 MONO PERFORMANCE UNDER STANDARD TEST CONDITIONS (STC)' Maximum power Pm„ 280 Wp Open circuit voltage Vn 39 5 V Maximum power point voltage V.I. 312 V Short circuit current I,r 971 A Maximum power point current lT p 9 07A Module efficiency rlm 1670% 'STC 1000 W/rn , 25'C. AM 1.5 614 in x 614 in (156 mm x 156 mm) Front 1) MI asunng tolerance (P.,•) traceable to TUV Rheinland +/- 2%(TUV Power Controlled). THERMAL CHARACTERISTICS Weight 39 5 IDs (17 9 kg) NOCT 46 'C TC lu 0 04 %/'C TC„� -0 30 %/'C TC p, -0 41 %/'C Operating temperature -40'C to 85'C -A 65 V4 Module "Itage )V) V x 133 (288) Vernon 2 5 fiaine bottcm modntmg holes l Y1 2U 1107)1 All units pwvwed die imperial. SI units provraed in parentheses Solan World AC reserves the ngh; ,o make specification changes without notice I PERFORMANCE AT 800 W/m', NOCT, AM 1.S Maximum power P ,, 209 2 W p Open circuit voltage V. 361 V Maximum power point voltage V.I. 28 5V Short circuit current Iu 7 85 A Maximum power point current Imp, 7 33 A Minor reduction inefficiency under Partial load conditions at ZVC at Z00 W/m=, 100% (+/-Z%) of the STC efficiency (1000 W/m=) is achieved COMPONENT MATERIALS Cells per module 60 Cell type Mono crystalline Cell dimensions 614 in x 614 in (156 mm x 156 mm) Front Tempered glass (EN 12150) Frame Clear anodized aluminum Weight 39 5 IDs (17 9 kg) SYSTEM INTEGRATION PARAMETERS Maximum system voltage SC 11 /NEC 1000V Maximum reverse current 16A Number of bypass diodes 3 Design Loads' Two rail system 113 psf downward 64 psf upward Design Loads' Three roil system 170 psf downward 71 psf upward Design Loads' Edge mounting 30 psf downward 30 psf upward Please refer to the Sunmodule installation instructions for the details associated with these load cases ADDITIONAL DATA Powersorting' -0 Wp/+5 Wp 1 -Box Io65 Module leads PV wire per UL4703 with H4 connectors Module type (UL 1703) 1 Glass Low Iron tempered w th ARC VERSION 2.5 FRAME Compatible with both'Top-Down' and "Bottom- mounting i-nethod5 &Grounding Locations 4 corners of the frame 4locarionsalong The length of The modt,le In the extended flange SW-01-6006US 08-2014 solar- • • SolarEdge Single Phase Inverters For North America SE3000A-US / SE380OA-US / SE5000A-US / SE6000A-US / SE760OA-US / SE10000A-US / SE1140OA-US Mie ",. • rTYrvr r. r- �•�i`rl' r'i 3 d The best choice -for SolarEdge enabled systems Integrated arc fault protection (Type 1) for NEC 2011690.11, compliance Superior efficiency (98x0) Small, lightweight and easy to install on provided bracket' Built-in module -level monitoring Internet connection through Ethernet or Wireless Outdoor and indoor installation I Fi\ee&yoltage inverter, DC/AC conversion only �► Pre -assembled Safety Switch for faster installation ` Optional — revenue grade data, ANSI C12.1 USA - GERMANY - I FALY • FRANCE -JAPAN - CHINA - AUSTRALIA - THE NETHERLANDS - ISRAEL www.solaredge.us sWar Single Phase Inverters for North America SE3000A-US SE380OA-US / SE5000A-US / SE6000A-US SE760OA-US SE1000OA-US / SE1140OA-US SE3000A-US Fg3860A-jS SE5000A-U5 I SE6000A-US I SE760OA-US I SE10000A- US I SE114OWLIST OUTPUT Nominal AC Power Output 1 3000 3800 5000 6000 7600 9980 @ 208V 11400 VA . ......... . .. I ...... .... ............ ... ......... I ..... I I I 30.5 x 12 5 x 7.2 775 x 315 x 184 114_6 ............. 30.5 x 12.5 x 10.5 / 10000 240V .................. .............. .... "I .. .... ......... I ...................... ........... .......... T75.x � �� A 260 ....... I 1:9!1�1.... 51.2/23.2 54.7/24.7 �4 210 8. V. 88.4/40.1 lb / kg 10800 @ 208V Natural Max. AC Power Output 3300 4150 6000 8 350 and internal 12000 VA . ... ........ , .. ............... 5450.Q).240V ..... . . ..... . ...... .. ... ...... ..... ............ .... AC'6u't'p'ut'Vo'ltag'e''M'in'.-N'om.-*Max.11) ..i83:,20.8:.22.9.Vac ...... . .... I ....... .... .... ... .. I ..... ...... . I ....... I .. .... .... ....... ........ . . ...... I ....... ... . .................. ... AC Output Voltage Min. -Nom -Max."' 211 - 240 - 264 Vac ... ..... ... .. .... ... ...., .. ............... .. .. AC Min -Nom: Max!" ......... .............. ....... .... *'... .'""'.1i.'.*.'.'. 59.i 60605(with HI country setng '. , *..'..J. ................ ..57 - 60 . ... .�........ .. - 60.5) .... ..,., .*., .. ...Vrequency Hz *., , ". .. . . . I ........... ..*. . 24 @ 208V . ......... ..... 48 @268V ..., , Max Continuous Output Current 12.5 16 25 I 32 ' 47.5 A .... ....... .... ..........I... .... ......I...........................42@. ....... I GFDI Threshold ..... . 1 ......... ..... -1 ........ A ........... ... .1 ......... ............. . I ..... Utility Monitorinp, Islandine Protection, ........ Country ConfiPurable ....... I ...... ........................ Thresholds ... I Yes ..... .... I .......... .......... Yes Maximum PC. Power (STC) ..... 4050 ..... ...... 6750 8100 10250 . ......I .......... ...... Transformer -less, Ungrounded Ungrounded Yes .... .. ... ...... .... . I ... ... .. ... ........... Input Volt�&�. 500 ..... ..... . .. ... ........... . .... ...... * ... ..... * ...... .. ............................ Nom. DC Input Voltage 325 @ 208V / 350 @ 240V .....15350......1....W..... .... I 16.5 @ 216*9V*' 33 @ 268V 34 5 9.5 13 18 23 Max. input Currentlz) ........ I .......... ... ...... I 1 ..Max. .I.npu.t.Short .Circuit .Current. .. 4S ........................... Reverse -Polarity Protection ............ . I . ................... . ... .......... ..Yes .......... ....... Ground -Fault Isolation Detection 600ku Sensitivity ..... ... �j.c . . ..... .. ........ Vdc Adc Adc ,.Maximum Inverter Efficiency 97.7 98 2 98 3 98.3 98 ...... 68 % .......... .......... ... CEC Weighted Efficiency 97.5 98 .5 @ 208 975 97 @ 208V 975 % ........I ............................. ................ .... I ... ?� I ............... ...................I ........... NiRhtbme Power Consumption < 2 5 < 4 W ADDITIONAL FEATURES Supported Communication Interfaces R5485, RS232, Ethernet, ZigBee (optional) .................. I ...................... .. ... ......................... .... ..... ..... I .................... ... I .................................. ........... . ........... ,Revenue .Grade .Data, .ANSI C12 I Optional") .......... .... Fun*c'bo'nal'ity'en'a'bled'wh'en'Sol'a'r'Edg*era'pid'sh'utdo'w'n'k'it'i*stn's'ta'lled""'*'**'*, ............. Rapid Shutdown — NEC 2014 690.12 STANDARD COMPLIANCE Safety ......................... ........... ....... Grid......... ... ......... -Emissions INSTALLATION SPECIFICATIONS Atoutput...ccind.ui.t. size./. AW9.ra.nge DC input conduit size # of strings AWG .range, ........... ... ..... .. Dimensions with Safety Switch (1:xAxP) .. ............ * ... * ... * , Weight with Safety Switch . ........ Cooling UL1741, UL1699B, UL1998, CSA 22 2 IEEE547 FCC o art15 class B 3/4" minimum / 16-6 AWG1 .. . .. 3/4" minimum 8-3 AWG ... ...... .............. .......................................... 3/4" minimum / 1-2 strings / 16-6 AWG .... I 3/4" minimum 1-2 strings ...................... ........... .............. . ..................... ........... AWG I I I 30.5 x 12 5 x 7.2 775 x 315 x 184 114_6 ............. 30.5 x 12.5 x 10.5 / ..... in/ .............. .... "I .. .... ......... I ...................... ...... . .......... T75.x � �� A 260 ....... I 1:9!1�1.... 51.2/23.2 54.7/24.7 88.4/40.1 lb / kg Natural convection Natural Convection and internal Fans (user replaceable) ............. * .............. .. ... ... .. I an (user ' ..... .......... ............. . .. ............... ..... ........ 1. �fpl.a.cea.bl.e.)j ............ ....... . .. .... ...... I ........... Noise 25 dBA . ............... ..... .. ....... ........... .... ......... I ......... . ... ...... ... ............ . rylin,iVlax. Operating Temperature -13 to +140 / -25 to +60 (-40 to +60 version available"') F/.c Ran' ge ....... ... ........... ........... .. . . ......... . ...... ...... ...... I . ...... ... ...... I .... ........ ........... ........ ... .. ... ... Protection Rating NEMA 311 ..................................... ........... ...... I ............ ...... I .................... I .......... .......... tti For other regional settings please contact SolarEdge support :";A nigher current source may be used, the inverter wilt limaits input current to the values stated Revenue grade inverter P/N SExxx>A-U$000NNR2 (tor 760OW inverter $E7600A-VS002NNR2). Rapid shutdown kit P/N SE1000-M-Si -40versoon P/N- SExA-US000NNU4 Ifor 760OW inverter SE7600A-US002NNU4) solar - 0 SolarEdge Power Optimizer Module Add -On For North America P300 / P350 / P400 / P405 l,L 11 1-1 s r nr i w� � r r ril � r• F r b L PV power optimization at the module -level i - Up to 25% more energy — Superior efficiency (99.5%) - Mitigates all types of module mismatch losses, from manufacturing tolerance to partial shading — Flexible system design for maximum space utilization — Fast installation with a single bolt — Next gation maintenance with module -level monitoring VOLN — Module -level voltage shutdown for installer and firefighter safety USA - GERMANY ITALY - FRANCE JAPAN - CHINA - ISRAEL - AUSTRALIA, www.solaredge.us So I a r' ®o z SolarEdge Power Optimizer Module Add -On for North America P300 / P350 / P400 / P405 P300 P350 P400 P405 (for 60te11 modules) t (for 72 -cell modules) I (for 96 -cell modules) (for thin film modules) INPUT Rated Input DC Power") 300 350 400 405 W ........................................................................ ......................... ....... ....... Absolute . . . Maximum ....In.put Volta.ge.. (Voc at lowest temperature) 48 60 80 125 Vdc MPPT .. . 0 .. p..eratin g ..... Ran ge .......................................666................................. 48 8 60 8 1 . 2.5 4. 105 ... ............... 60...80....................... 6666. ....V..dc.... . 8 80 .......................................................................................................................................................................... Maximum Short Circuit Current (Isc)10 Adc ............................................................................................................................................................................... Maximum DC Input Current 12.5 Adc .................................................................................................................................................................. ...I......... Maximum Efficiency 99.5 % .............................................................................................................................................................................. Weighted Efficiency98.8 ............................ ...................... ..... ................................ ... ................................................. ........ I ......... ..... ..... ........ Overvoltage Category 1 II _ OUTPUT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING INVERTER) Maximum Output Current 15 Adc Maximum Output Voltage 60 I 85 Vdc OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM INVERTER OR INVERTER OFF) Safety Output Voltage per Power Optimizer 1 j Vdc STANDARD COMPLIANCE EMC FCC Part15 Class B, IEC61000-6-2, IEC61000-6-3 ............................................................................................................................................................................. SafetyIEC62109-1 (class II safety), UL1741 ............................................................................................................................................................................... RoHS Yes _ INSTALLATION SPECIFICATIONS Maximum Allowed System Voltage I 1000 ................................................................................................................................................................. Dimensions IN x L x H) 141 x 212 x 40.5 / 5.55 x 8.34 x 1.59 .............................................................................................................................................................. Weight (Including cables) 950 / 2.1 .............................................................................. Input Connector MC4 /Amphenol .Tyco MC4 Output Wire Type / Connector Double Insulated; Amphenol . ... . ................ .......... ............. ............ Output Wire Length 0:95 / 3.0 1.2 / 3.9 .......................... I.. ........... I .......... I.... ........................................................... I ................... ..... Operating Temperature Range -40 - +85 / -40 - +185 ............................................................................................................................................................... Protection RatingIP65 / NEMA4 ....M....o..d..u..l..e..o..r........................................... ................................... .............................................. Relative Humidity 0100 u.p.t.o.i.5.%.p.ow.e.r.to.lera.n.c.e.a.l.o.w.ed........................................................... PV SYSTEM DESIGN USING SINGLE PHASE THREE PHASE 208V THREE PHASE 480V A SOLAREDGE INVERTERIZ) IVI11III I IV I II J111116 LCI%kiI (Power6Opti..mizers...) 6 66 ........................... 6666.. Maximum String Length (Power Optimizers) ... . .. ......6.....6..6...6 .............. Maximum Power per String ....... ............... I ........................ ... Parallel Strings of Different Lengths or Orientations .................................................... '" It snot allowed to — P405 w1th P300/4350/P4U0/P6U0/P700 n 8 I 10 I 18 25 25 - I 50 ...................................................................................................... .............. 5250...........................6000 ...........................12 750... I....................................................................................................... Yes one Sb mg Vdc mm/in gr / Ib m•i•ft ... C/ .F .....%6666.. i :w solar- a e SolarEdge Quick Installation Guide - North America For full installation and safety details, you must refer to the SolarEdge Installation Guide. Make sure you read, fully understand and follow the detailed instructions in the SolarEdge Installation Guide prior to each installation. Failure to do so could result in injury or loss of life and damage or destruction of the equipment. The images contained in this document are for illustrative purposes only and may vary depending on product models. Connecting Power Optimizers to Modules I Mount the power optimizers in a shaded location near the PV modules, on the structure or racking to which the module is attached, using the mounting holes. If possible, avoid mounting power optimizers in locations where they will be exposed to direct sunlight. Make sure that each power optimizer is positioned within reach of each module's cables. To allow proper heat dissipation, maintain a 1" /2.5 cm clearance distance between the power optimizer and other surfaces. 2 Attach each power optimizer to the rack using the 5/16" or 1/4" bolts, nuts and washers. 3 Use the following methods to ground the power optimizer: • For mounting on a grounded metal rail: Use the provided 5/16" stainless steel grounding star washer between the railing and the flat side of the mounting bracket. The grounding washer should break through the anodize coating of the railing to ensure low resistive connection. Apply torque of 9.5 N*m / 7 Ib*ft. For mounting on rails with sliding nut fasteners, or an un -grounded structure (such as a wooden structure): Connect an equipment -grounding conductor to the grounding terminal according to the instructions supplied with the grounding terminals (grounding terminal kits are available from SolarEdge). The grounding terminal accepts a wire size of 6-14 AWG, and must be sized for equipment grounding per NEC 250.122 requirements. Tighten the screws connecting the power optimizer to the frame and the grounding terminal screw, Apply torque of 9.5 N*m / 7 Ib*ft. 4 To benefit from the physical mapping of the installation in the SolarEdge Monitoring Portal, record each power optimizers serial number and location: Peel off its removable barcode sticker and stick it on the mapping template, or scan the barcode with the SolarEdge Whone Site Mapper app. Upload the map to the SolarEdge website, using the site registration form. 5 Connect the Plus (+) output connector of the module to the Plus (+) input connector of the power optimizer. 6 Connect the Minus (-) output connector of the module to the Minus (-) input connector of the power optimizer. Connecting Power Optimizers in a String bracket 1449— Mounting bracket i� s� • a ir_ O Optional grounding terminal 0 I i Input _ II i Connect to module 1 1i + Output 4— Connect the power optimizer outputs in series: Connect the Minus (-) output connector of the string's first power optimizer to the Plus (+) output connector of the string's second power optimizer. Connect the rest of the optimizers in the string in the same way. II I i- • The minimum and maximum string length should be according to the power optimizer datasheet. • Strings DO NOT have to be of equal length. 2 Verify proper connection of power optimizers: Before the inverter is turned ON, each power optimizer produces IV safety -voltage. Use a voltmeterlWerify it for each string using a voltmeter. The voltage on a string is the number of modules multiplied by 1V, with a deviation of 10mV per module. Make sure the modules are exposed to sunlight during this process. • If several strings are connected In parallel, verify voltage for each string separately. ,W* solar- . a = ' Installing the Inverter 1 Make sure that the inverter ON/OFF switch at the bottom of the inverter is switched OFF before and during the installation, and that the AC circuit breaker is OFF. 2 Use a 5mm Allen key to open the Safety Switch cover screws and remove the cover. Loosen these screws 3 Open the required knockout pair (bottom, back or sides of the enclosure, sized %" or 1") according to the conduits used in the installation. 4 Make sure to leave clearance areas in order to cool the inverter: • 8" above • At least 4" below (leaving sufficient clearance for conduits entering from the bottom) • 4" on either side • When installing inverters one above of the other - at least 16" between inverters. • When installing inverters side by side, follow these clearance specifications: The inverter is supplied with one of the following two types of mounting brackets.The mounting steps in the next sections refer to these types. Type 1 Type 2 0 - ' For type 1: • Install the mounting bracket on the wall with the U-shaped Mounting bracket orientation indentations facing up, and the "UP" marking is correctly oriented. r Q n G • Hang the inverter on the bracket. •., • Secure the inverter to the bracket using the two Single phase example r 1 supplied screws. G ` G O Hang here Bracket screw i 0 V19;k (;I-- � Single Phase Inverters _ - ',Three Phase Inverters—`,7 ' Locations where the yearly average high 8" between inverters temperature is below 25'C/77'F 8" between inverters 16" between inverters Locations where the yearly average high temperature is above 25'C/77'F The inverter is supplied with one of the following two types of mounting brackets.The mounting steps in the next sections refer to these types. Type 1 Type 2 0 - ' For type 1: • Install the mounting bracket on the wall with the U-shaped Mounting bracket orientation indentations facing up, and the "UP" marking is correctly oriented. r Q n G • Hang the inverter on the bracket. •., • Secure the inverter to the bracket using the two Single phase example r 1 supplied screws. G ` G O Hang here Bracket screw i 0 V19;k (;I-- � �r solar - • • • For type 2: • Install the mounting bracket on the wall with the flat side of the bracket is at the bottom. • Hang the inverter on the bracket: Align the two indentations in the inverter enclosure with the two triangular mounting tabs of the bracket, and lower the inverter until it rests on the bracket evenly. • Secure the inverter to the bracket using the two supplied Smm screws. "aril Mount', tab f _r. I screw.a?! • _fS. •7 r'-,. ' •' _T rk _'+t.r, �.- When mounting an inverter with Type 2 bracket on an uneven surface, you may use spacers/washers behind the top mounting hole i" 2 • - h• ♦''vP , ..#, *. '; a ..•1 1 • .,, t ti• t- . ' , •.- . , y,. -a•- ,•- ofthe bracket. Depending on !tie angle, use the apprroropnate•slza and number of spacers so that the bracket is perpendicular to the gro6-nd..Recommended:'a stairdess;steel 3t/4" long screw, with a i14"socket button head, two jam nuts an�d•thre— washers. 3.r-'�a .�-�...=t, ,c �� '�'� F�� . � ,t •r+s�'e-�,!;ryyy`t i; "_' !"fir, ,r'.�' J UsespacersNrashershere_ IL . '•�� T _ �y'LX . u + ,, y ��t. J +' a j:. O.'+�•• . � )` yy � rib i• ' . '!` ^Y` - b. c,,. V Mfg i •�,y+s ,e•� V - y. `�'.aar- �1'"ri+;�'h._ ''$ "t �,� P ~. �� +• • ''Z i 1, ' i.• S - - ~ . ,�ai� . i3 •/� ri`6� w r+ r �.: � � ',�` S r" a Z � z.6'>. a ,1 � � yy'y' m Y ,r ;� •. `. � is i s t1 cA 1 . A"' •.-. y s L! •�{s�`..�, i- ,i>•yr r r ++�� µ_• t `►„.,. 3.' a ,yam b C - •Q = tt� "Fi.,•-�,i�'�J .-r+le. { wCh.w�Y�%a_JMhw.�iM�Jll�-elOWl.� rC—' "'.tIr1N,3!'i�AA \ .�•vw±<+�.iJ1.aw.6 __ _,n.”. d w+Xi- _ .IC i.r..�� 5 Optionally, secure the Safety Switch bracket to the wall: • Mark the location of the bracket screw for the Safety Switch and drill the hole. • Fasten the bracket using a standard bolt. Safety Switch !racket Connecting the Strings and the AC to the Safety Switch An example of the Safety Switch connections is shown below. For more information, refer to the note in the device and to the SolarEdge Installation Guide. DC side conduit DC connections 4C side ;ondud 4C ;onnechons Revenu Grade Meter (RGM) RGM plate Safety Switch for single phase inverter 10-11.4kW with built-in RGM solar —••= r Connecting the AC Grid If the Safety Switch has a pre -assembled RGM (in single phase inverters), flip the RGM plate downwards before making the connections. Connect the equipment groundirig before, connecting the AC wires to the, AC temninal bloc r AeK t(elA@Z,8 relies 1e,corniuctera de,PE Oa tette) ayarrt de corrneeter les f_►Is;CA au botrrier CA. r„- _ _ _ #!>~.! 1 Insert the AC conduit into the AC -side knockout that was opened. 2 Connect the wires, and check that they are fully inserted and cannot be pulled out easily: • Single phase 3-7.6kW inverter- Connect the wires to AC/DC Safety Switch DC Safety Switch the appropriate terminal blocks, according to the - labels on the terminal blocks. Connect the grounding w wire first. Use a standard straight -bladed screwdriver Press Here with a screwdriver i, ,;, • �? � •�� to connect the wires to the spring -clamp terminals. =Mk Insert the conductor Insert the . ►r I ' c wire 05,8' (15mm) deep'1 e _ - � Press and rotate ' Single phase 10-11.4 kW inverter- Conned the wires to the appropriate terminal blocks, with screwdriver e according to the label on the terminal blocks. Connect the grounding wire first. Use a latch l / 03/16" (5mm) straight flat -blade screwdriver to conned the wires to the terminals. Insert the conductor \ �/ ' Three phase inverter • For AC/DC Safety Switch: - Conned the Ground and Neutral wires to the terminal blocks in the AC side of the switch. Connect the line wires to the appropriate connectors according to the label located in the switch. • For DCSafetySwitch: Use a standard flat -blade screwdriver to connect Press here with a the wires to the spring -clamp terminals screwdriver %, Insert the L1 L2 L3 • Three phase inverters require neutral connection at all times (only WYE type grids with neutral connection are supported) 3 verify that there are no unconnected wires. Connecting the Strings 1 Insert the DC conduit into the DC -side knockout that was opened. 2 Connect the DC equipment ground conductor to the equipment grounding terminal block. • Functional Electrical Earthing of DC -side negative or positive Is prohibited because the inverter has no transformer Earthing of module frames and mounting equipment (equlpotential bonding) is required per NEC. Solar' •• a 3 Connect the DC wires, and check that they are fully inserted and cannot be pulled out easily. If the Safety Switch has a pre -assembled RGM (in single phase inverters), flip the RGM plate before making the connections, and then return the plate: • Single phase 3-7.6kW inverter - Connect the DC wires from the PV installation to the DC+ and DC- terminal blocks, according to the labels on the terminals. Use a standard straight -bladed screwdriver to connect the wires to the spring -clamp terminals. Refer to the figures above. • Single phase 10-11.4kW inverter - Connect the DC wires from the PV installation to the DC+ and DC- terminal blocks, according to the labels on the terminals. Use standard flat -blade screwdriver to connect the wires to the spring -clamp terminals as shown in the figures above. • Three phase inverter • Safety switch version without terminal blocks on the DCside - Connect the DC wires from the PV installation to the DC+ and DC- terminals on the switch, according to the labels. • Safety switch version with terminal blocks on the DCside - Connect the DC wires from the PV installation to the DC+ and DC- terminal blocks. 'i � `,,.•,..�.r T -.a .'-7'�')i �t•.. ., 7. t r 4 ....•� r ., rT J�-s �w- .b.. yy '�.• ,., •.. .. `.l•••- t Ensure that the'Plus''(+) wire is,connected to•the Plus (+) i terminal and that the'Minus (,) wire s connected to, the Minus (-),tergnal. Veillei a ce q/eue cable Plus (+) Boit connectd, au femunal P, lus, (+) et que, fe cable, Minus (: j soft gonnectes au terntina/ Minus (-): 4 If more than two strings are required, they can be connected in parallel in an external combiner box before connecting to the switch. • .• JP � Z .! F. wyr..... T'!- -^ +"'F- .: �`.'� �. • k,... `.•" r ••-�y,� •. w .� S .e.,. � .r .. .... . -r� If more than,two strings are connected each should be properly,iused on botF%DC±'slid DC: according to NEC690.3-5(B).*� 3_ kS 5 If the Safety Switch has a pre -assembled RGM, flip the RGM plate upwards to its original position. 6 Close the switch cover. Inverter Interfaces The following figure shows the inverter connectors and components, located at the bottom of the inverter. The ON/OFF switch and the LCD light button may vary depending on the inverter model: uit entry el and LEDs switch t button dug ud entry kation glands Commissioning and Activating the Installation ON/OFF LCD light 1 Verify that the inverter ON/OFF switch is OFF. 2 Turn ON the AC breaker. 3 Move the Safety Switch to the ON position. 4 Remove the inverter cover: Open the inverter cover's six Allen screws and carefully pull the cover vertically before lowering it. ELECTRICAL SHOCK HAZARD. Do not touch unlnsulated wires when the inverter cover is removed. RISQUE DtLECTROCUTION. Ne touchez pas les fill non isoles lorsque le couvercle de Ponduleur est retire. 5 Activate the inverter according to the activation instructions supplied in the inverter package. mow'* 6 Verify that the inverter is configured to the proper country or grid setting: Press the LCD light button until reaching the ID status screen: I D tt It M N li N M N M N D s e 1 2: I 0 2 1 0/ 1. 0 0 3 4 C e v 0 0 0 2 0 1 1 1 C o u n t r y. U S A 2 solar- .. 7 If required, perform the following additional steps before closing the inverter cover: • Country settings or inverter configuration using the internal LCD user buttons, located just above the LCD and are numbered esc, 1, 2, 3/Enter from left to right. Enter the menus by pressing ENTER for five seconds and then inputting the password 12312312. To verify that the country code is set to USA, select Country from the main menu, press Enter and select USA+. In the next menu that appears, select the desired AC grid configuration. • Communication options connection — refer to Setting up Communication on page 7. S Close the inverter cover by tightening the screws with a torque of 9.0 N* m/ 6.6 Ib'ft. For proper sealing, first tighten the corner screws and then the two central screws. 9 Make sure the Safety Switch is ON. If an additional external DC switch is installed between the power optimizers and the inverter(s) then turn it ON. A message similar to the following appears on the inverter LCD panel; Vac [ V] V d c[ V] P a c[ W] 2 4 0. 7 1 4. 1 0 0 P O K: 0 0 0/ 0 0 0 < S O K> orr 10 Verify that the following information appears on the LCD panel: • Vac[VJ: Specifies the grid voltage. • Vdc[V]: The DC input voltage of the longest string connected to the inverter. There should be a safety voltage of 1V for each power optimizer in the string. • Pac[WJ: AC power production. At this stage, it should be Ow. • P_OK: Specifies the number of properly connected power optimizers. • 5_OK: Indicates the status of the connection to the SolarEdge monitoring portal (if connected). A!, _ .,. , _. '•'"S''+ Y '^• i TM: ,:►?'L w _ ,ra'o�� ..�. ' �... -r..r •r. 3"' _': 'r y .c . 7 ' C Before, proceeding-to,the next step, make sure that the cover is closed! High DC'Voftage will be present ih th`e inverter following the next step Avard d eritamei la prochaine 6tape. 6ssurez Yous•que /e couvercle estt femid ! Une tension D6rds haute sera ;lid-sentTdurar !'dtape ;•t sU1V8nt@ !.y,i,.1�a,,,.,,G,,:..�.t:��.. +►a ....._��ry..�..�.iL,..-_-.�►L .....v o; � � ^ . .... ..:s..,.. 4'S.. �r •��. K�x.ti.:s'-i.....r'�...�ai�....��.�..� Pairing Power Optimizers to the Inverter 1 Verify that the ON/OFF switch at the bottom of the inverter is OFF. 2 Press and hold down the inverter LCD button for about 10 seconds. The following message is displayed: K e e p h o 1 d i n q b u t t o n f o r p a i r i n g, r e l e a s e t o e n t e r m e n u... R e m a i a i n q: 3 s e c Keep holding for 5 seconds until the following is displayed: P a i r i n g T u r n S w i t c h T o O n 3 Turn the inverter ON within 5 seconds. If you wait longer than 5 seconds, the inverter exits the pairing mode. The following message is displayed indicating that the inverter is performing the pairing. P a i r i a q R e m a i n i n g [ s e c]: l e o 4 Wait for the completion of the pairing (remaining seconds is 0). If pairing fails, an error is displayed. In this case, repeat the pairing steps. 5 When pairing succeeds, the following message is displayed: P a i r i a q P a i r i a q C o m p l e t e d 6 At the end of the pairing process, the system will start producing power. Verify on the LCD screen that the number next to P_OK equals the number of installed power optimizers. It may take up to 20 minutes until all the power optimizers are indicated. 1 After you tum ON the inverter ON/OFF switch, the DC cables carry a high voltage and the power optimizers no longer output a safe 1 V output. Apres avoir mis I'interrupteur ON/OFF de 1'onduleur monophas6 sur ON. les cdbles DC portent une haute tension et les opdr?Vseurs de puissance ne generent plus la tension de s6curW de fV. y— .. tAfter you tum OFF the inverter ON/OFF switch, wait until the LCD indicates that the DC voltage is safe (<50V), or wait five minutes before opening the cover or disconnecting the strings. Apres avoir toum6 l'intenupteur ON/OFF sur OFF, attendre jusqu'i ce que 1'ecran LCD indique que la tension DC est s6curisde (<50V) ou attendre cmq minutes avant d'ouvrir le couvercle ou de deconnecter les strings • SOi'd'I''••a Setting up Communication Two communication glands are used for connection of the various inverter communication options. Each gland has three openings. The table below describes the functionality of each opening. Unused openings should remain sealed. 0[andR.".r Oen"" `.: 'cnl' 7• �,CibleSiie,:.%..'. ..> •. +"°.. a>� :t .. ,:..� . 4- . e).:- 1(PG 16) One small External antenna cable 2.4 mm 4 Two large Ethernet connection 4 5-7 mm White/Blue White/Blue (CAT5/6), ZigBee, CDMA Green 2 (PG 13 5) All three RS485, power reduction 2 5-5 mm Cable Specifications LLN0701 'ice v� %O O-0. • Ethernet: • Cable type — CAT5/CAT6 • Maximum distance between the inverter and the router —100 m/ 330 ft. • RS485: • Cable type: Min. 3 -wire shielded twisted pair (a 4 -wire cable may be used) • Wire cross-section area: 0.2- 1 mm2/ 24-18 AWG (a CATS cable may be used) • Maximum nodes: 32 • Maximum distance between first and last devices: 1 km /3300 ft. • If using a cable lodger than 10 m/33 ft In areas where there is a nsk of induced voltage surges by'lightning, k is recommend to iise' r.- .., 3 x - . r - • ' 'y �..r�r-►aa+ -n �...........� i•�.. 'w+....,..i.�lP.9T..+'r:. r.•Gr�r 7/ ,. ••.• external surge, protection devices.,F:or details refer to`. htto:/Mrwwsolared9e.us/files/ndfslliflhtninn surge- orotection.odf. tlf grounded metal conduit are,used fo`r routing ttie;wmmurncabon vurces, thi:re,is:no need fora lightning protectioh device., �+!�: Rte' _, �'; Creating an Ethernet (LAN) connection 1 Make sure that the ON/OFF switch at the bottom of the inverter is turned OFF, and the Safety Switch is turned OFF. 2 Remove the plastic seal from the large opening that has a cut in communication gland #1 and insert an Ethernet CAT5/6 cable through the opening. Mini USB RS232/RS485 - Ethernet (R)45) F J45 Pin # Color TSSW Standard T568A Standard 1 While/Orange White/Green 2 Orange Green 3 White/Green White/Orange 4 Blue Blue 5 White/Blue White/Blue 6 Green Orange 7 White/Brown White/Brown B Brown Brown T-5688 Standard T -568A Standard 12345678 12345678 Pin N1,\ RJ -45 Male Plug I I 3 Use a pre -crimped cable to connect via gland no.1 to the R145 plug on the inverter's communication board, or, If using a spool of cable, connect as follows: • Insert the cable through gland no.1. • Insert the eight wires into an RJ45 connector, as described in the figure above. • Use a crimping tool to crimp the connector. solar ' .. • Connect the Ethernet connector to the RJ45 port on the inverter's communication board. 4 For the switch/router side, use a pre -crimped cable or use a crimper to prepare an RJ45 communication connector: Insert the eight wires into the RJ45 connector, maintaining the same color coding and pinout on both sides of the Ethernet cable. 5 Connect the cable's RJ45 connector to the R)45 port of the Ethernet switch or router. 6 Inverters are configured by default to LAN. If reconfiguration is required: • Make sure the ON/OFF switch is OFF. • Turn ON the AC to the inverter by turning ON the circuit breaker on the main distribution panel. !sr•+: • � t - • r✓►r. r ,!r• r.+... -T �.+M.—,..y„_. � ....., �..ti.. Asir f•• steyFr ELECTRICAL SHOCK HAZARD. Do not touch uninsulate d wires when the")Averter cover,is removed., - v, RISQUE D tLECTROCU7ION. No touchez pas les fils non isoles lorsque le couvercle de Pondu/er(r„est-retiro, • Use the user buttons to configure the connection. Creating an RS485 connection If a revenue grade meter is connected to your inverter, it uses the RS485 port and therefore an RS485 communication bus cannot be created. 1 Make sure that the ON/OFF switch at the bottom of the inverter is turned OFF, and the Safety Switch is turned OFF. 2 Remove the seal from one of the openings in communication gland #2 and insert the wire through the opening. 3 Pull out the 9 -pin RS485/RS232 terminal block connector, and loosen the - screws of pins B, A and G on the left of the RS -485 terminal block. 4 Insert the ends of wires into the G, A and B pins. Use four- or six -wire twisted pair cable for this connection. You can use any color wire for each of the A, B and G connections, as long as the same color wire is used for all A pins, the same color for all B pins and the same color for all . �f!'I -r '' RS485-2 (not in use) G pins. 5 For creating an RS485 bus - connect all B, A and G pins in all inverters. y A (Data+) 6 Tighten the terminal block screws, and push it firmly all the way into the B (Data-) communication board. 7 Terminate the first and last inverters in the chain by switching a termination Dip -switch inside the inverter to ON (move the left switch to the top). The switch is located on the communication board and is marked SW7. 8 To connect to the SolarEdge monitoring portal, designate a single inverter as the connection point between the RS485 bus and the monitoring portal. This inverter will serve as the master inverter. Connect the master to the SolarEdge monitoring portal via one of the communication options. Using the optional Zig6ee communication option Refer to the ZigBee kit user manual. Refer to the SolarEdge Installation Guide for detailed installation and safety instructions. Support and Contact Information If you have technical problems concereiFUour products, please contact us USA and Canada: +1 (0) 877 360 5292 Worldwide: +972 (0) 73 240-3118 Fax: +1 (0) 530 273-2759 Email to su000rt(r3solaredae is • � Y THIS INSTRUMENT PREPARED BY: r1iahY(lM-11 HORSEY SE1111',101 ' C OUF11'i Name: CENTRAL FLORIDA SOLAR INC (.I..I:RI:. 01 CT.kC[lll C:[lUf� i 1_• L:[lllf'1'ftCll_[ ER Address: 524 EDEN PARK ROAD ALTMONTE SPRINGS FL EIC 6 74. F'3 t'_-1 j (LF'� ) 32714 CLERK'S T 2016054232 RECORDED Lt.`_r/2.5/'2016 t 1:11: 611 Ri.(:Of•. I:NG FLES 410.fW NOTICE OF COMMENCEMENT RECUR10) VY Ildevoi-o Permit Number: Parcel ID Number: I t c1 . '?y • S Z ' UU(;p , C>UZO The undersigned hereby gives notice that improvement will be made to certain real property, and in accordance with Chapter 713, Florida Statutes, the following information is provided in this Notice of Commencement 1. DESCRIPTION OF PROPERTY: (Legal description of the property and street address if available) L—UT 2 ,YJ L- J r / Z O (: `7 P• c D t— L` F (j (ZuJc '2.Z -ii cj wh aN tNC:'lLIV !'�"y� , SI°�N�rz�Y2..q, T"t. 3'lZ`i r 2. GENERAL DESCRIPTION OF IMPROVEMENT: INSTALL SOLAR 3. OWNER INFORMATION OR LESSEE INFORMATION IF THE LESSEE CONTRACTED FOR THE IMPROVEMENT: Name and address ED (� /�2 �G ('� t -t t_u[✓ p ZZoS� ``Jt -t-kl L CZty I�,1G sf'cNrc�D, Ft \ Interest to property Fee Simple Title Holder (if other than owner listed above) Name Address L+N/ fr'— 4. CONTRACTOR: Name- CENTRAL FLORIDA SOLAR INC Phone Number 407-767-6527 Address 524 EDEN PARK RD ALTAMONTE SPRINGS FL 32714 5. SURETY (If applicable, a copy of the payment bond is attached): Name Address- to /'r Amount of Bond. 6. LENDER: Name t-1 Phone Number - Address 7. Persons within the State of Florida Designated by Owner upon whom notice or other documents may be served as provided by Section 713.13(1)(a)7., Florida Statutes. Name. Phone Number. Address 8. In addition, Owner designates of to receive a copy of the Lienor's Notice as provided in Section 713.13(1)(b), Florida Statutes. Phone number 9. Expiration Date of Notice of Commencement (The expiration is 1 year from date of recording unless a different date is specified) WARNING TO OWNER: ANY PAYMENTS MADE BY THE OWNER AFTER THE EXPIRATION OF THE NOTICE OF COMMENCEMENT ARE CONSIDERED IMPROPER PAYMENTS UNDER CHAPTER 713, PART I, SECTION 71313, FLORIDA STATUTES, AND CAN RESULT IN YOUR PAYING TWICE FOR IMPROVEMENTS TO YOUR PROPERTY A NOTICE OF COMMENCEMENT MUST BE RECORDED AND POSTED ON THE JOB SITE BEFORE THE FIRST INSPECTION. IF YOU INTEND TO OBTAIN FINANCING, CONSULT WITH YOUR LENDER OR AN ATTORNEY BEFORE COMMENCING WORK OR RECORDING YOUR NOTICE OF COMMENCEMENT. (S(gndture of Owner or Lessee, or Owners or Lessee's (Print Name and Provide Signatory's Title/Office) Authontld OPocer/Director/Partner/Manager) State of VL.00-19 ' County of 50a" %t4o ue The foregoing instrument was acknowledged before me this 1 I day of E"� P. -q 20 1 tr by F i> � � a t-, ' "-e4z-rj Who is personally known to me O OR Name or person making statement who has produced identification O type of identification produced: CONSTANCE BULLINGTON Notary Public • State of Florida Commission N FF 977115 ��, r• My Comm. Etlpifes Dec 3.2017 MAY 262016: �wr v✓ r l.C� l � � � ,_ ,. Notary 5 e••«. CERTly IFIED MARYANNE MORSE ��; CLERK OF E CIR ITC ND y 6'•. COMPT LLER �� yo •. SEMIN LE COUNTY IDA ryh � V. 8Y DEPUTY CLERK Revision C/ Response to Comments O Permit # 1(,P- l y c ? Project Address: 2 Z n S7 G✓*'q 5^4^J Contact: f -V1/1 c r/ Q L City of Sanford Building & Fire Prevention Division Ph: 407.688.5150 Fax: 407.688.5152 Email: building@bsanfordfl.gov Submittal Date 6 - /§'- /4, Ph: 7. 74 -7. G S 2 7 Fax: Email: BELE (P CFL SoI-o94. 4, % Trades encompassed in revision: Building ❑ Plumbing ❑ Electrical ❑ Mechanical ❑ Life Safety ❑ Waste Water General description of revision: QV�TCwo lSi4 t C- 5tz+a. �—g� (a r- %j -ro -7.5 Km) ROUTING INFORMATION Department Approvals ❑ Utilities ❑ Waste Water ❑ Planning ❑ Engineering ❑ Fire Prevention 11 Building 5F7 a - (S- Vo Photovoltaic System Approval Certificate RECORD COPY UM-15-0158A CTM FSE Awarded to, UMA Solar 950 Sunshine Lane Altamonte Springs, FL 32714 For The Photovoltaic System Designated. SOLEDGE3 - SW285 - SE760OA-US PV Modules and Array Array Configuration PV Module Manufacturer: SolarWorld Total Number of PV Modules: 23-34 PV Module Model Number: Sunmodule Plus SW285 Mono Series Strings/Branch Circuits: 2 FSEC Module Registration Number: SW15-ACTL-0428 Modules Per Series String/Branch Circuit: 8-18 Listing to UL 1703 Verified: Yes Array Nameplate Power Rating: 6,555 to 9,690 W Power Conditioning Equipment (Inverter) Inverter DC Voltage Window: 350 V to 600 V Inverter Manufacturer: SolarEdge AC Power Rating: 7,600 W Inverter Model Number: SE760OA-US AC Nominal Voltage Output: 240•V Listing to UL 1741 Verified: Yes Max PV Array Power Per Inverter: 9,500 W Charge Controller and Batteries Battery Manufacturer: N/A Charge Controller Manufacturer: N/A Battery Model Number: N/A Charge Controller Model Number: N/A Battery Type: N/A Listing to UL 1741 Verified: N/A Battery Capacity (C/20 rate): N/A Battery Bank Configuration Total Number of Batteries: N/A Number in Each Series String: N/A Number of Series Strings: N/A Comments Electrical Design (verify the following items for agreement between the installed components and the supplied electrical schematic.) p Size, type and location of all conductors In the PV system; p Conduit, raceways, junction boxes, and combiner boxes; p Size, current rating, voltage ratings, and location of all over -current protection devices; p Rating and location of all disconnects; p Point of connection to the utility; pPV module and equipment grounding system (including conductor size); p PV DC circuit and system grounding (including grounding electrode conductor size); p Ground fault detection & interrupter (GFDI) rating and location; p Battery wiring and cable sizes (If applicable). Inspection Inspector Name (printed) Inspector Signature Date Installer Information and Certification Company Name: Website: 4 9 7 Address 1: 1 # 6 Address 2:I✓N(G City: State: Zip: Q' Phone Number: Fax Number: Florida Contractor License Number: O sA^`+1FOR��, �� '40! �(S' F►'AR Florida Contractor License Type: ( ) Solar ( ) Electrical ( ) Other, please specify: .1 hereby certify that this PV system has been installed in full accordance with the National Electrical Code. Installer Name (printed) Installer Signature Date Note: FSEC approvals do not replace or exempt any requirements of electrical utilities or local jurisdiction authorities in matters such as permitting, inspections, or utility interconnection agreements as required for PV system installations. When referring to FSEC approvals in any documentation produced by the supplier, including technical or marketing information, the following statement shall be included- -rhe photovoltaic system design described in this manual, when property installed and maintained, meets the minimum recommended practices established by the Flonda Solar Energy Center This approvat does not imply en cement or warranty of this product by the Florida Solar Energy Center or the State of Florida " Approved By: r 2015-02-24 Standard 203 Reviewing E Date POWER TABLE: DC -SIDE A # PV MODULE 1 MANUF SOLAR WORLD MODEL SW285 ' POWER 280 W -dc VOC 39.7 VDC ISC 9.84 A VMP 31.3 VDC IMP 19.20 AMP SOLAREDGEDC/DC POWER OPTIMIZER P300 TYP. SOLAREDGEDC/DC POWER OPTIMIZER P300 TYP. B C DC/DC PWR OPTIMIZE D DRAWN BY: I JAT E AC -SIDE 23 (MIN.) 34 (MAX.) MANUF SOLAREDGE 1 INVERTER SCALE I AS NOTED MODEL P300 SE-760OA-US DRAWING # MAX INPUT POWER 300 Wp-dc 8,350 VA PEAK POWER 6,555 W 9,690 W MAX INPUT VOLTAGE 48 VDC 7,600 VA (MAX) CONT. POWE NOTE MANUF RECOMMENDS MIN STRING OF 8 / MAX. STRING OF 25 PV PANELS (OR 5250W -DC PER STRING, WHICHEVER GOVERNS) S PWR OPTIMIZERS FOR MULTIPLE STRING INPUTS TO INVERTER. MAX INPUT CURRENT 10A 240 VAC VOLTAGE MPPT RANGE 8-48 VDC 32 A (MAX) CURRENT MAX OUTPUT VOLTAG 60 VDC 60 HZ FREQUENCY I MAX OUTPUT CURRENTI r v SOLAREDGE DC/DC POWER OPTIMIZER MODEL P300 STRING OUTPUT #10 PV WIRE (PER STRING) #6 AWG SOLID CU EQUIPMENT GROUND CONDUCTOR CONT RUN. TO WEED -LUG ON RAILS, MODULES AND POWER OPTIMIZERS GROUNDED TO RAILS WITH WEER WASHERS OR EQUIVALENT TYP. #6 AWG SOLID CU EQUIPMENT GROUND CONDUCTOR CONT RUN. TO WEEMLUIG ON RAILS. MODULES AND POWER OPTIMIZERS GROUNDED TO RAILS WITH Wff8 WASHERS OR EQUIVALENT TYP. JUNCTION Box NEMA 3R ENCLOSURE 10 JUNCTION BOX NEMA 3R ENCLOSURE A RECORD COPY IOBTAIN ALL PERMITS AND APPROVALS M GOVERNING AGENCIES PROVIDE WARNING "ELECTRIC SHOCK HAZARD I Q 6TOUCH NOT PRIOR TO THE COMMENCEMENT OF WORK-TON ENERGIZED EE OPEN R NECNK 90.17 I 2QEQUIPMENT SHALL BE INSTALLED PER THE NATIONAL ELECTRICAL CODE (NEC), All APPLICABLE OR GOVERNING CODES, MANUFACTURER Q LABEL DEVICE PER NEC 690.14(C)(2),690.53 AND SECURE PER NEC 690.7(D). REQUIREMENTS OF AND PER THE GOVERNING UTILITY COMPANY . A3 LISTING AGENT NAME AND NUMBER SHALL BE INDICATED PER NEC 110.3(8). QLABEL BREAKER PER NEC 690.54, 690.64(B)(5) AND 705.10. TO PREVENT AN INCREASE IN AC VOLTAGE LEVEL AND AVOID ANY PV BACKFEED CURRENT PLUS MAIN BREAKER RATING MUST BE LESS THAN OR qQNUISANCE FAULTS, IT IS RECOMMENDED TO SIZE CONDUCTOR FOR A Q EQUAL TO 1200/6 OF MAIN SERVICE BUS RATING AND BREAKERS MUST BE DROP OF 2°/a MOUNTED AT OPPOSITE END OF MAIN BREAKER PER NEC 690.64. 4TALLIC CONDUIT► UNGROUNDED C SHALL BE USED WITHIN THE BUILDING FOOTPRINT PER 10LABEL JUNCTION BOX, COMBINER NEC 6OX, DISCONNECTS, AND ENERGIZED NEC JUNCTION BOX OUTPUT CIRCUIT CABLE (PER STRING) (2) # 10 AWG, INSULATION. THHN/THWN-2 (1) # 10 AWG, GROUND CONDUCTOR CONDUIT SIZE: p MINIMUM F 0 0 SOLAREDGE SE760OA•US INVERTER 1OIL .� - •'_: lSit=T-� 0 2 ------------------- .LL------------------- Li------------------- L------------------- INVERTER OUTPUT CIRCUIT CABLE (3) # 8 AWG, INSULATION THHN/THWN-2 (1) # 8 AWG, GROUND CONDUCTOR CONDUIT SIZE 1' MINIMUM <0mCOINC SANvORD FPgR-(N` #16" 1497 ELECTRICAL SERVICE PANEL F - - FT - I I I '1 I Q I MAIN BREAKER I I J� I 40A/2P ----- i} ,----------------------� i --------------------------------� ------------ a --------------------- L A I I 1 EXISTING EARTH GROUND GROUNDING ELECTRODE PROJECT: M d W L) W DC d Z W3- V> LU 200,Lu 1= --0 P => . 0 W = Q X �CL W 3 �ZXg M N 2 Ln = 0 C? O W W Oz� DATE 12-5-14 i DRAWN BY: I JAT CHKD BY: RZ REC. NO. # SCALE I AS NOTED DRAWING # € SWSE03