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14040001 CITY OF CUPERTINO BUILDING PERMIT BUILDING ADDRESS: 10238 WILL CT CONTRACTOR:PETERSEN-DEAN INC PERMIT NO: 14040001 OWNER'S NAME: ACKSON-KANIA KAREN L TRUSTEE 7980 ENTERPRISE DR DATE ISSUED:04101/2014 OWNER'S PHONE: 4082520561 NEWARK,CA 94560 PHONE NO:(510)494-9982 LICENSED CONTRACTOR'S DECLARATION TOB DESCRIPTION:RESIDENTIAL COMMERCIAL / 10238& 10236 DUPLEX-INSTALL PV SYSTEM ON Lic,# U(2111- ROOFTOP Contra Date L 24 PANELS 6KW I hereby of that 1 am licensed under the provisions of Chapter 9 REVISION#I-CHANGE INVERTER TO ARC FAULT-ISSD (commencing with Section 7000)of Division 3 of the Business&Professions OTC 5/6/20I4 Code and that my license is in full force and effect. 1 hereby affirm under penalty of perjury one of the following two declarations: I have and will maintain a certificate of consent to self-insure for Worker's kolg Compensation,as provided for by Section 3700 of the Labor Code,too performance of the work for which this permit is issued, Sq.Ft Floor Arca: Valuation:520000 I have and will maintain Worker's Compensation Insurance,as provided for by Section 3700 of the Labor Code,for the performance of the work for which this APN Number:31625021.10238 Occupancy Type: permit is issued. APPLICANT CERTIFICATION 1 certify that I have read this application and state that the above information is PERMIT EXPIRES IF WORK IS NOT STARTED correct.I agree to comply with all eily and county ordinances and state laws relating WITHIN 0 AYS OF PERMIT ISSUANCE OR to building construction,and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes. (We)agree to save 180 DAY OM LAST CALLED INSP CTION. indemnify and keep harmless the City of Cupertino against liabilities,judgments, costs,and expenses which may accrue against said City in consequence of the '. !� granting of this permit. Additionally,the applicant understands and will comply Issued by: Dat'. with n-point urce regulations per the Cupertino Munieipal Code,Section 9.18. I RE-ROOFS: Si nitrrc�- Date S All roofs shall be inspected prior to any roofing material being installed.if a roof is installed without first obtaining an inspection,1 agree to remove all new materials for inspection. ❑ OWNER-BUILDER DECLARATION Signature of Applicant: Date: I hereby affirm that I am exempt from the Contractor's License Law for one of the following two reasons: ALL ROOF COVERINGS TO BE CLASS"A"OR BETTER 1,as owner of the property,or my employees with wages as their sole compensation, will do the work,and the structure is not intended or offered for sale(See.7044, Business&Professions Code) I,as owner of the property,am exclusively contracting with licensed contractors to HAZARDOUS MATERIALS DISCLOSURE construct the project(Sec.7044,Business&Professions Code). I have read the hazardous materials requirements under Chapter 6.95 of the California health&Safety Code,Sections 25505,25533,and 25534. I will I hereby affirm under penalty of perjury otic of the following three maintain compliance with the Cupertino Municipal Code,Chapter 9.12 nod the declarations: Health&Safety Code,Section 25532(x)should I store or handle hazardous I have and will maintain a Certificate of Consent to self-insure for Worker's material. Additionally,should I use equipment or devices which emit hazardous Compensation,as provided for by Section 3700 of llic Labor Code,For the air contaminants as defy e ay Arca Air Quality Management District I performance of The work for which this permit is issued. will maintain complian a wit a upertino Municipal Code,Chapter 9.12 and I have and will maintain Worker's Compensal ion insurance,as provided for by the Health&Safety Code,Sec to s, 5505,25533,and 25534. Section 3700 of[he Labor Code,for the performance of the work for which this r ?] permit is issued. :nr .r nth 'zed a ent: Date: v/ I certify that in the performance of the work for which this permit is issued,I shall not employ any person in any manner so as to become subject to the Worker's Compensation laws of California. If,after making this certificate of exemption,I CONSTRUCTION LENDING AGENCY become subject to the Worker's Compensation provisions of the Labor Code,I must I hereby affirm that there is a construction lending agency for the perforniance of forthwith eomply with such provisions or this permit shall be deemed revoked. work's for which this permit is issued(Sec.3097,Civ C.) Leader's Name APPLICANT CERTIFICATION Lender's Address I certify that I have read this application and state that the above information is correct.I agree to comply with all city and eounty ordinances and state laws relating to building construction,and hereby authorize representatives of this eity to enter upon fire above mentioned property for inspection purposes.(We)agree to save ARCHTTECT'S DECLARATION indemnify and keep harmless the City of Cupertino against liabilities,judgments, costs,and expenses which may accrue against said City in consequence of the I understand my plans shall be used as publie records. granting of this permit.Additionally,the applicant understands and will comply with all non-point source regulations per the Cupertino Municipal Code,Section Licensed Professional 9.18. Signature Date CONSTRUCTION PERMIT APPLICATION COMMUNITY DEVELOPMENT DEPARTMENT•BUILDING DIVISION 10300 TORRE AVENUE • CUPERTINO, CA 95014-3255 - (408)777-3228• FAX(408)777-3333•building(okupertino.orq CUPERT[No 1 ❑NEW CONSTRUCTION ElADDITION ❑ ALTERATION 1 Tl RHVISIO /DEFERREDI ORIGINAL PERMIT# PROIECf ADDRESS I,``Vl-Srp ' ` G� APN� O'A'NER NAME �(tA �] C PHONE E-MAIL STREET ADDRESS Ii`O'L�l4 ICITY.STATE.ZIP A'`n n f FAX CONTACT NAME 1�M 1���I�+ PHONE 64/f)i1���1-{lr E-MAIL STREET ADDRESS I + [7 t1 CITY,STATE,ZIP17 FFAX ❑ OWNER ❑ OwNER.BUIL.DER ❑ OWNERAGENT CONTRACTOR ❑CONTR 111ACTORAGENT ElARCHrrEcT 13ENGtNEFR 1:1DEVELOPER ❑ TENANT CONTRACTOR TAME C I {� L]CENSE NUMBER LICENs HYPE BUS.LIC 0 COMPANY NAME 1 1W `J U E-MAIL C ly FAX STREET ADDRFSS ` � CITY,STATE.7SPt� PHONE ARCHIT£CT/ENGINEERNOAMEC G I/ LICENSENUMBER ii YY BUS.LICk COMPANY NAME E-MAIL FAX STREETADDRESS CITY,SPATE,ZIP PHONE DESCRIPTIONOFWORK EXISTING USE PROPOSED USE CONSTIL TYPE #STORIES USE TYPE OCC. SQ.FT. VALUATION(S) EXISTG NEW FLOOR DEMD TOTAL AREA AREA AREA NET AREA BATHROOM KITCHEN OTHER REMODEL AREA RFMODEL AREA REMODEL AREA PORCH AREA DECK AREA TOTAL DECK/PORCH AREA GARAGE AREA: E3 DETACH ❑ATTACH k DWELLING=S: IS A SECOND UNIT ❑YESSECOND STORY ❑YES BELNGADDED? 13 NO .ADDTIION? ❑NO PRE-APPLICATION ❑YES IF YES,PROVME COPY OF 1S THE B LDG AN ❑YESRECEIVEDFB - ""°'r �'.+;- TOTAL V N: PLANNINGAPPLN []NO PLANNING APPROVAL LETTER EICHLERHOMET LINO By my signature be Qw, ify to ac f the following: I am the property owner or authorize agen o act on the property owner's behalf. I have read this application and the infonZ!tion a pro ided is correct. I have read the Description of Work and verify it is accurate. I agree to comply with all applicable local ordinances and state Jaws relating t din construction. I authorize representatives of Cupertino to enter the b v -i ti red property for inspection purposcs. Signature of Applicant/Agent: Date: SUPPLEMENTA INFORMATI0�1 REQUIRED k, PLI+I3.CIIECK T]Ty $ ry �, �:R L a y� 'i New SFD or Multifamily dwellings: Apply for demolition permit for � x O VER TA]rCOUhTER t BUILDING PLAIS � ' "'7- 4existing building(s). Demolition permit is required prior to issuance of building 5 .Er rP a 4a� tod permit for new building. 14901-1-1OR �r� l*is t ®aPLAIV �NG�PLAN REQ_F�LVArf{<y47 'F�/ 1' _Commercial Bldgs: Provide a completed Hazardous Materials Disclosure ® rWn c}vRxs � IT farm if any Hazardous Materials are being used as part of this project. s -0t ' ' kDE `3` * �` LARGE s+ IA F �4 "ra �ti, la4 4. _Copy of Planning Approval Letter or Meeting with Planning prior to + 0r�pJo ') '�"'srialiYSE Drs'TRIcr�{ submittal of Building Permit application. _ � ,At 'ENV 01�fiiEh'T:�IiI3EAL'TH%a;3F'.,3. Ldoc revised 06111111 CITY OF CUPERTINO BUILDING PERMIT BUILDING ADDRESS: 10238 WILL CT CONTRACTOR:PETERSEN-DEAN INC PERMIT NO: 14040001 OWNER'S NAME: ACKSON-KANIA KAREN L TRUSTEE 7980 ENTERPRISE DR DATE ISSUED:04/01/2014 WNER'S PHONE: 4082520561 NEWARK,CA 94560 PHONE NO:(510)494-9982 LICENSED CONTRACTOR'S DECLARATION JOB DESCRIPTION:RESIDENTIAL COMMERCIAL lk 10238 & 10236 DUPLEX-INSTALL PV SYSTEM ON License Class''{\\ Lic.# t o ROOFTOP Contractor Date Ldl),v 24 PANELS 6KW I hereby affirm that I am licensed under the provisions of Chapter 9 (commencing with Section 7000)of Division 3 of the Business&Professions Code and that my license is in full force and effect. I hereby affirm under penalty of perjury one of the following two declarations: I have and will maintain a certificate of consent to self-insure for Worker's Compensation,as provided for by Section 3700 of the Labor Code,for[lie performance of the work for which this permit is issued. Sq.Ft Floor Area: Valuation:520000 1 have and will maintain Worker's Compensation Insurance,as provided for by Section 3700 of the Labor Code,for the performance of the work for which this APN Number:31625021.10238 Occupancy Type: permit is issued. APPLICANT CERTIFICATION I certify that 1 have read this application and state that the above information is PERMIT EXPIRES IF WORK IS NOT STARTED correct.1 agree to comply with all city and county ordinances and state laws relating WITHIN 1 F PERMIT ISSUANCE OR to building construction,and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes. (We)agree to save 180 DAYS OM LA T CALLED INSPECTION. indemnify and keep harmless the City of Cupertino against liabilities,judgments, costs,and expenses which may accrue against said City in consequence of the l , granting of this ermit. Additionally,the applicant understands and will comply Issued by: Date: ! with all non-p int ource regulations per the Cupertino Municipal Code,Section 9.18. j RE-ROOFS: iA Date f All roofs shall be inspected prior to any roofing material being installed.If a roof is installed without first obtaining an inspection,I agree to remove all new materials for inspection. ❑ OWNER-BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law For one of Signature of Applicant: Date: the following two reasons: ALL ROOF COVERINGS TO BE CLASS"A"OR BETTER I,as owner of the property,or my employees with wages as their sole compensation, will do the work,and the structure is not intended or offered for sale(Sec.7044, Business&Professions Code) 1,as owner of the property,am exclusively contracting with licensed eontractors to HAZARDOUS MATERIALS DISCLOSURE construct the project(See.7044,Business&Professions Code). I have read the hazardous materials requirements under Chapter 6.95 of the California Health&Safety Code,Sections 25505,25533,and 25534. I will I hereby affirm under penalty of perjury one of the following three maintain compliance with the Cupertino Municipal Code,Chapter 9.12 and the declarations: Health&Safety Code,Section 25532(x)should 1 store or handle hazardous I have and will maintain a Certificate of Consent to self-insure for Worker's material. Additionally,should 1 use equipment or devices which emit hazardous Compensation,as provided for by Section 3700 of the Labor Code,for the air contaminants as defined by the Bay Arca Air Quality Management District I performance of the work for which this permit is issued, will maintain compliant ith the Cupertino Municipal Code,Chapte 9.12 and I have and will maintain Worker's Compensation Insurance,as provided for by the Health&Safety Code 25505,25533,and 25534. Section 3700 of the Labor Code,for the performance of the work for which this 1 permit is issued. y1a,�,,.��rr—r11 agent: Date I certify that in the performance of the work for which this permit is issued,I shall not employ any person in any manner so as to become subject to the Worker's Compensation laws of California. If,after making this certificate of exemption,I CONSTRUCTION LENDING AGENCY become subject to the Worker's Compensation provisions of the Labor Code,I must I hereby affirm that there is a construction lending agency for the performance of forthwith comply with such provisions or this permit shall be deemed revoked, work's for which this permit is issued(Sec.3097,Civ C.) Lender's Name APPLICANT CERTIFICATION Lender's Address I certify that 1 have read this application and state that the above information is correct.I agree to comply with all city and county ordinances and state laws relating to building construction,and hereby authorize representatives of this city to enter upon the above mentioned property for inspection purposes.(We)agree to save ARCHITECT'S DECLARATION indemnify and keep harmless the City of Cupertino against liabilities,judgments, costs,and expenses which may accrue against said City in consequence of the I understand my plans shall be used as public records. granting of this permit.Additionally,the applicant understands and will comply with all non-point source regulations per the Cupertino Municipal Code,Section Licensed Professional 9.18. Signature Date CITY OF CUPERTINO FEE ESTIMATOR- BUILDING DIVISION W"PERMIT DDRESS: 10238 will ct DATE: 04101/2014 REVIEWED BY: Mendez PN: BP#: Q/ *VALUATION: $20,000 PE: Building Permit PLAN CHECK TYPE: Alteration 1 Repair PRIMARY SFD or Duplex PENTAMATION SOLAR-RE USE: PERMIT TYPE: WORK 10238 & 10236 Duplex- install pv system on rooftop 24 panels 6kw SCOPE ,Wech, 111un Check Phanh. Plan ChevA Elect,Plan OweJr ,1/1.1-11 Permit Fee Phrnrh.Penni!Fee: Dec Permit Fee- Other 11eih. Irra/, Other Plumb Irrs/r. Lj Outer Flee.Imp. 14,07 111sp F.xe Phrrub. hrsp. Fee: Elee.Pup. Fae, NOTE: This estimate does not include fees due to other Departments(i.e.Planning,Public Works,Fire,Sanitary Server District,School District,eta). Thesefees are based on the prefintina information available and are on an estimate. Contact the De t or addn'1 in o. FEE ITEMS (Fee Resohntion I1-053 Ell: 711113} FEE QTY/FEE MISC ITEMS Plan Check Fee: $0.00 # Altemative Energy System Suppl. PC Fee: Q Reg. Q OT 0.0 1 hrs $0.00 $229.00 IPHOTOYRES I Photovoltaic System PME Plan Check: $0.00 Permit Fee: $0.00 Suppl, lnsp. Fee:Q Reg. Q OT0 0 hrs $0.00 PME Unit Fee: $0.00 PME Permit Fee: $0.00 Construction Tux: ,ldininien•ative Tec: Q Work Without Permit? O Yes Q No $0.00 0 Advanced Planning Fee: $0.00 Select a Non-Residential (D `Prete!Docronewalion Fees: Building or Structure i Strong Motion Fee: 1BSEIS1vffCR $2.00 Select an Administrative Item Bldg Stds Commission Fee: IBCBSC $1.00 SUBTOTALS: $3.00 $229.00 TOTAL FEE: $232.00 Revised: 01/15/2014 ALTERNATIVE ENERGY PERMIT APPLICATION 1 COMMUNITY DEVELOPMENT DEPARTMENT•BUILDING DIVISION 10300 TORRE AVENUE•CUPERTINO, CA 950143255 / CUPERTINO (408)777-3228•FAX(408)777-3333•build ing(a)-cuper ino.orc] I PROJECT ADDRESS I O -�� WILL C 1 u— APN# U�J 01• 0 2 5ff OWNERNAME PHONE q-\q _O�tj E-MAIL STREETADDRESS WIL.L CTC` CITY, STATE,ZIP Ar J+� FAX CONTACT NAME l PHONE Y E-MAIL STREET ADDRESS CITY,STATE,ZIP FAX ❑OWNER ❑ OWNER-BUHDER ❑ OWNERAGFNT ❑ CONTRACTOR ACONTRACTORAGENT ❑ ARCHrrECT ❑ENGINEER ❑ DEVELOPER ❑ TENANT CONTRACTOR NAME ( LICENSE NUMBER I� LICENS� �E HUS.LIC# COMPANY NAME SAME `S t7r�LA�� EMAIL `�,J�` �fg 0 V ,0� FAX STREET ADDRESS 7 G Q0 R�_„�� qNs u A CITY,STATE,�ZIIP C PHONE ARCHITECTIENGINEERNAME �1 � !"' LICENSENUMBER BUS.LIC# COMPANY NAME E-MAIL FAX STREET ADDRESS CITY,STATE,ZIP PHONE USE OF 'k SFD or Duplex ❑ Multi-Family PROJECT IN WILDLAND PROJECT IN STRUCTURE: ❑ Commercial URBAN INTERFACE AREA ❑ Yes ❑ No FLOOD ZONE ❑ Yes ❑ No ❑SOLAR PANELS 1 ❑ ELECTRIC VEHICLE CHARGING STATION ❑ SOLAR WATER HEATING ❑ OTHER: FOR SOLAR PANELS: NUMBER OF PANELSIUNITS: KILOWATTS(COMMERCIAL ONLY): TOTAL VALUATION: DESCRIPTION OF WORK KooV ti ov two I REGE]VED Bly�- By my signature below, to each ofthe following; I am the property owner or authorized agent to act on the property owner's be I have rs application and the' orma'on a provided is correct 1 have read the Description of Work and verify it is accurate. I agree to a applicable local ordinances and state law 'ng to ing construction. I authorize representatives of Cupertino to enter the ab o a-id ntified property for inspection purposes. Signature of ApplicandAgent; Date: L SUPPLEMENTAL-INTORMATION REQUIRED OFFICE USE ONLY w El OVER-TIIE-COU14TER - -- F D EXPRESS . .a ..... ... � e❑, STANDARD - D LARrst a r of . PVApp_201 Ldoe revised 03/16/11 RJ r' r v � L! 4rd ;�le/s , I5 4255 polcak/Pro 5eres 3 4,.,, r .�fa ��r `3�:- �.� ,;,.� �_ .^.: �:m. gip"';✓ TUV Power controlled: � - TOVRhOnland Lowest measuring tolerance in industry °O06O8e II� Every component is tested to meet 3 times IEC requirements J Designed to withstand heavy accumulations of snow and ice J O' Sunmodule Plus: Positive performance tolerance ., 25-year linear performance warranty and 10-year product warranty J Glass with anti-reflective coating World-class quality O¢allfladlE°61215 a ..amaaa�asa� •5araq u.ae,lEc cfno a (.�o� a•I�a Fully-automated production lines and seamless monitoring of the process and material ;D&E ensure the quality that the company sets as its benchmark for its sites worldwide. SolarWorld Plus-Sorting Plus-Sorting guarantees highest system efficiency.SolarWorld onlydelivers modulesthat 5r Sl TMoKSr.o1 C LIS have greater than or equal to the nameplate rated power. U1.1703 25 years linear performance guarantee and extension of product warranty to 10 years '+ SolarWorld guarantees a maximum performance degression of 0.7%p.a.in the course ofCE • ' 'r 25 years,a significant added value compared to the two-phase warranties common in the industry.In addition,SolarWorld is offering a product warranty,which has been extended to 10 years' 'in accordance with the applicable SolarWorld Limited Warranty at purchase. www.solarworld.com/warranty 1 r r 1 1 SOLARIIV®RLD \11,1� solarworld.com We turn sunlight into power. - L i Sunmodule;,-/ SIN 245 - 255 poly black/Pro-Series PERFORMANCE UNDER STANDARD TEST CONDITIONS(STC)' SW 245 5W 250 5W255 Moximumpower P 245 Wp 250 Wp 255 Wp Open circuit voltage Von 37.3 V 37.6 V 38.0 V Maximum powerpoint voltoge VmPp 30.1 V 30.5V 30.9 V Short circuit current I�r 8.75 A 8.81 A 8.88 A Maximum powerpoint current ImpP 8.22 A 8.27A 8.32 A Measuring tolerance IP_JtraceabletoTUVRheinland:+/-2%(TUVPower controlled) 'STC:1000w/m�25'C,AM1.5 PERFORMANCE AT 800 W/M2,NOCT,AM 1.5 5W245 5W 250 SW255 Moximum power P- 182.3 Wp 185A Wp 188.7 Wp Open circuit voltage Va 34.0 V 34.2 V 34.5 V Maximum power point voltage VmPP 27.4 V 27.8 V 28.1 V Short circuit current I 7.19 A 7,24 A 7.30 A Maximum powerpoint current ImpP 6.64 A 6.69A 6.72 A Minor reduction 1n efficiency under partial load conditions at 25'C:at 200 w/m',100%(+/-2%)ofthe STC efficiency(1000w/m')is achieved. 1x4 37.44(951) DIMENSIONS COMPONENT MATERIALS Length 65.94 in(1675 mm) Cells per module 60 ti.53(788} Width 39.41 in(1001 mm) Cell type Polycrystalline Height 1.22 in(31 mm) Celldimensions 156 mm x 156 mm Frome Clear anodized aluminum Front Tempered glass(EN 12150) 41.30 paSa} Weight 46.7 lbs(21.2 kg) version 2.Sframe 65.94{1675) bottom mounting THERMAL CHARACTERISTICS ADDITIONAL DATA hales NOCT 46'C Powersorting -0 Wp/+5 Wp TCI�r 0,081%/'C 1-Box IP65 Tcil -0.37%/'C Module leads PV wire per Ut4703 with TCP�p -0.45%/-C' H4 connectors J-Y4 4.20(107)T 122(31) �35.a1{iooi)� PARAMETERS FOR OPTIMAL SYSTEM INTEGRATION Maximum system voltage SC It 1000V 1000 W/m' Maximum reverse current 16 A 800 w/m2 Load/dynamic load 5.4/2.4 kN/m2 Number of bypass diodes 3 a 600 W/m= Operating range -40'C to+85*C 400 W/m' b 200 w/m' 100 W/m= Module rohagt[<] V. _ 5claiworld USA reserves 1he right to make specification changes without notice,This data sheet complies with the requirements crf EN 50380. 'All unitsare Imperial.51 units provided in parenthesis. SW-01-6054U5 01-2014 r 2, 44 14 ! t ` � ■ FRONIUS IG GRID-TIED INVERTERS FOR PHOTOVOLTAIC SYSTEMS Light Weight At,26 lbs, the FRONIUS IG inverters are the lightest grid-connected inverters making them easy and cost effective to install. Flexible The wide voltage range of 150-500 V allows you to use different,types of modules and system configuration possibilities. Lower Cost Integrated UL approved DC &AC disconnects which reduce installation time and complexity - often eliminating the need for additional disconnects. LCD Display User-friendly and comes standard with every FRONIUS IG; tracks more than 20 critical system performance parameters. Plug,and-Play Expansion slots in the inverter allow you to easily upgrade the inverter with data communication options. Reliable Fronius has been in business for over 60 years and has more than 200,000 FRONIUS IG inverters installed worldwide. Warranty 10 year Premium Warranty. POWERING YOUR FUTURE 3' Ld DC Id"u�D'afa TRONIUS IGE2000 FRONWS IG 300D FRONIUS 1G 2vOfl-L w Recommended PV power 1500-2500 Wp 2500-3300 Wp 1800-3000 Wp Max.DC input voltage 500 V 500 V 500 V Operating DC voltage range 150-450 V 150--450 V 150-450 V Max.usable DC input current 13.6 A 18 A 16.9 A AC'OutputData:�"'r', .- aFRONIUS1G2000 =FRONIUS,IG�3000 �,= :,',FRONIU§7IG'250FLV� Maximum output power 040`C 2000 W 1 2700 W 2350 W Nominal AC output voltage 240 V 208 V Utility AC voltage range 212-264 V(240 V+10%/-12%) 183-229 V Maximum AC current 8.35 A 1 11.25 A 11.25 A Maximum utility back feed current O.O A 0.0 A 0.0 A Operating frequency range 59.3-60.5 Hz(60 Hz nom) - Total Harmonic Distortion THD <5% - Power Factor(cos phi) 1 G Genewal�bata ;?- »,F.RONIUS,IG`2000_,;: " FRONIUSIG300W`4 •,_''.FRONIUSIG2500-LVr" Max.efficiency 95.2% 95.2% 94.4% e Consumption in stand-by <0.15 W(night) s Consumption during operation 7 W Enclosure NEMA 3R Size (I x w x h) 18.5 x 16.5 x 8.8 inches (470 x 418 x 223 mm) Weight 26 lbs. 11.8 kg Ambient temperature range -5 to 122 OF (-20 to+50°C) - Cooling controlled forced ventilator Integrated AC and DC disconnects standard UL anroved DC&AC disconnects Protections;_ .", ,; +; ,:,5 e Ground fault protection Internal GFDI,in a - ccordance with UL 1741 E 5 DC reverse polarity protection Internal diode x Islanding protection Internal,in accordance with UL 1741,IEEE 1547 E Over temperature Output power derating Surge protection Internal DC&AC protection,Tested to 6 kV - - Compliance Safety UL 1741 - EMI FCC Part 15;Class A&B Anti-lslanding protection UL 1741,IEEE 1547 L Ground fault detector and interrupter Compliant with NEC Art.690 requirements,UL 1741 a� Miscellaneous. _ a Maximum AC over current protection _ Two-pole, 15/20 A circuit breaker AC wire sizing Use maximum AWG 6 194°F(90 PC)copper wire E DC wire sizing Use maximum AWG 8 194T(90°C)copper wire AC disconnect 16 A `s DC disconnect 25A Warranty 10 year Premium Warranty is Standard a P m 'p E Tn y Distributed by AV Fronius USA LLC Solar Electronic Division 10421 Citation Drive Suite 1100 Brighton, Mi 48116 Phone: 810-220-4414 Fax: 810-220-4424 E-Mail: pv-us@fronius.com www.frontus-usa.com M .r s 4% X a 1; us� . Fronius IG Plias PV Invertor I r The first complete solution. Reliable. Proven. Smart. i I An outstanding addition to the family:The next generation,Fronius IG Plus inverter builds on a . successful model with multiple enhancements, including maximum power harvest,a built-in six + 4 circuit string combiner,integrated,lockable DC S Disconnect,significantly improved efficiency, and unbeatable reliability. New,larger power stages i expand the proven Fronius IG family from 2 to 12 kW in a single inverter. ' ads I I I i I I rin, om.-V mi-o m.."-I t wt7y T&NOT-5 I 7,92,N114�0- 5174" I .- Recommended PV-Power(kWp) 2.50-3.45 3.20-4.40 4.25-5.75 5.10-6.90 1 6.35-8.60 18.50-11.50 19.70-13.1018.50-11.5019.70-13.10 10-20-13-80� MPPT-voltage range 230_500 V JDC startup voltage 245 V Max.input voltage(at i0oD w1w E 14T(-10T)in open circuit operalioN 600 V ------------ Nominai input current 8.3 A 10.5 A 13.8 A 16.5 A 20.7 A 27.6 A 31.4 A 27.6 A 31.4 A 33.1 A Imax.usable input current 14.0 A 17.8 A 23.4 A 2B.1 A 35.1 A 46.7 A 53.3 A 46.7 A 53.3 A 56.1 A lAdmissibie conductor siz6(DC) No.14-6 AWG lNumber of DC input terminals 6 Max.current per DC input terminal 20 A;Bus bar available for higher input currents .2' 5U_TQ�UTDA P 5 0-1 Nominal output power(P,,, 3000 W 3800 W 5000 W 6000 W 7500 W 9995 W 11400 W 9995 W 11400 W 12000 W Max.continuous output power IR c- 104 T(40*q 208 V/240 V 277 V 3000 W 3800 W 5000 W 6000 W 7500 W 9995 W 11400 W 9995 W 11400 W 12000 W ]Nominal AC output voltage 208 V 240 V/277 V 208 V 240 V 277 V Iff Operating AC voltage range 208 V 183-229 V(-12/+10%) (default) 240 V 211-264 V(-12/+10 0/6) 277 V 244-305 V(-12 +10%) 'E Max,continuous 208 V 14.4 A 18.3 A 24.0 A 28.8 A 36.1 A 48.1 A 54.8 A 27.7 A� 31.6 X n.a. output current 240 V 12.5 A 15.8 A 20.8 A 25.0 A 31.3 A 41.6 A 47.5 A 24.0 A* 27.4 A* n.a. 277 V 10.B A 13,7 A 18.1 A 21.7 A 27.1 A 36.1 A 41.2 A n.a n.a. 4.4 A� Number of phases 1 3 Admissible conductor size(AC) No.14-4 AWG Max.continuous utility back feed current 0 A ]Nominal output frequency 60 Hz Operating frequency range 59.3-80.5 Hz Total harmonic distortion <3% Power factor 1 (at nominal output power) EN j-=7 BIG _T I 1,,. 2 w4y'j 'ir� i Aw 0, -3 .z -o-3 1_0 ___E7RAC_ER_fA AS Max.efficiency 96.2% CEC efficiency 208 V 95.0% 95.0% 95.5% 95.5% 95.0 0/0 95.0% 95.0% 95.0% 95.0% n.a. 240 V 95.5% 95.5% 95.5% 96.0 OA 95.5% 95.5% 95.5 9/6 96.09/6- 96.0% n.a. 277 V 96.0 Vo 96.0 0/6 96.0% 96.0 9/6 96.0% 96.0% 96.0 D/a n.a n.a. 96.0% iConsumption in standby(night) <1.5 W lConsumption during operation 8 W 14 W 20W lCooiing Controlled forced ventilation.variable speed fan t7 Enclosure type NEMA3R Unit dimensions(W x H x D) 17.1 x 26.5 x 9.9 in. 17.1 x 3 .1 x 9.9 in. 17.1 X 49.7 x 9.9 in. Power stec k weight 31 lbs.(14 kg) 57 lbs.(26 kq) 84 lbs.(38 kg) FW I'ri�9_1:ompartment weight 24 lbs.(11 kg) 24 lbs.(11 kg) 26 lbs.(12 kg) jAdmissible ambient operating temperature -13'F_+131 F(-25*C +55'C) ]COMpliance U L 1741-2010.IEEE 1547-2003,IEEE 1547.1,ANSWEEE C62.41,FCC Part 15 A&13,N EC Articl a 690,C22.2 No.107,1-01(Se pt.2U01). California Solar Initiative-Program Handbook-Appendix C:Inverter Integral 5%Meter Pefformance Specification _7_7 U [77 '4'Lo, WS 3 PROTEQTJOi� 10.'0-3r"', .4' FFr.ni' U'N' D6 t." Ground fault protection Internal GFDI(Ground Fault Detector/Interrupter);inaccordance with UL 1741-2010 and NEC Art.690 DC reverse polarity protection Internal diode Z; Islanding protection Internal;in accordance with UL 1741-2010,IEEE 1547-2003 and NEC Over temperature Output power derating/active cooling perPhase preliminar y 7Z .Fronius USA,LLG 10421 Citation Drive,Suite 1100 Brighton,MI 48116 E-Mail:pv-Us@fronius.com www.fronlus-usa.c6nn e I .0 rt Magerack Technical Datasheet L-foot with Flashing Parts: Material: Extruded aluminum allay 6061-T6,aluminum - One(1) L-foot or Tall L-foot 3003-1-114 - One(1)rail nut Finish:Mill finish,clear or black anodized - One(1)5/16 X 1"stainless steel bolt/washer Ultimate Tensile:38 ksi - One(1)5/16 X 1/2"stainless steel bolt/washer Yield:35 ksi - One(1) L-foot flashing(12"x12") Installation:Use anti-seize and tighten to 12 ft-lbs of torque Load:Loads are given for the L-Foot to beam connection only;be sure to check load limits for L-foot,lag screw,or other attachment method. WFA Fait it Beserptasrt Finish Hei ht Unit 710011--oocc Weight(LB6-101 L-foot with flashing(L-foot, rail nut, 1" Clear 3.5"-4.2" 0.665 bolt/washer,flashing, 1/2"bolt/washer) (89-107 mm) 6-102 Tall L-foot with flashing(Tall L-foot, rail nut, 4.5"-5.2" 0.705 1"bolt/washer,flashing, 1/2" bolt/washer) (114-132 mm) 101-019-101 L-foot with flashing only(L-foot,flashing,1/2- 2.24"--2.87" 0.575 bolt/washer) (56.9-72.9 mm)** 101-019-102 Tall L-foot with flashing only(Tall L-foot, 3.24"—3.87" 0.615 flashing, 1/2" bolt/washer) (82.3—98.3 mm)** 101-006-201 L-foot with flashing(L-foot, rail nut,1" Black 3.5"-4.2" 0.665 bolt/washer,flashing, 1/2" bolt/washer) (89-107 mm) * 101-006-202 Tall L-foot with flashing(Tall L-foot,rail nut, 4.5"-5.2" 0.705 1"bolt/washer,flashing, 1/2" bolt/washer) (114-132 mm) * Height is the spacing between rail top and attachment bottom(the space clearance between bottom of PV module frame and attachment bottom). **The height is the spacing between bolt slot and attachment bottom. www.magerack.com -��nG CK sales@magerack.com `1�(!��TM�� 510-656-6661 ark . k k - Magerack Technical Datasheet Rails �I-Ar Material: Extruded aluminum alloy 6061-T6 Finish:Clear or black anodized Ultimate Tensile:38 ksi Yield:35 ksi Installation:Use anti-seize and tighten to 12 ft-lbs of torque Warranty:10-year limited warranty NMP_,ar_t1,,_#=Nafi Length i isfi Weight,(L6� 101-001-110 10.5'(126") Clear 9.13 101-001-112 12'(144") i 10.43 101-001-114 14'(168") ~ 12.17 101-001-117 17'(204") j 14.77 ' 101-001-120 20'(240") _ _17.38 101-001-210 10.5'(126") Black 9.13 101-001-212 12'(144") 10.43 101-001-214 14'(168") 12.17 101-001-217 17'(204") 14.77 101-001-220 20'(240") 17.38 w les@maack.co iVIAAGERAC sales@magerack.com .co m 510-656-6661 1 2 � 3 4 5 .66 t, 33.10 ±0.10 A B C D E A A U7 +1 � L N 8 38 1� Note Part No. Dimension Weight • Unit: mm . 9 `"� 1 inch = 25.4 mm A 101-001-110 101-001-210 3200 4:190kg B 101-001-112 3658 4.790kg 101-001-212 C 101-001-114 4267 5.588kg 101-001-214 C 0 101-001-117 5182 6.786kg C 101-001-217 E 101-001-120 6096 7.983kg 101-001-220 UNLESS OTHERWISE SPECIFIED: FINISH: DEBURAND DO NOT SCALE DRAWING REVISION A DIMENSIONS ARE IN MILLIMETERS BREACSHARP SURFACE FJN1SH: EDGES - TOLERANCES: LIN FAR! ANGULAR; NAME SIGNATURE DATE TITLE, DRAWN _ Magerack CHrDJ Part Number: • APPwa 101-OD1-110, 101-001-112,101-001-114, 101-001-117,101-001-120 101-DO1-210,101-001-212,101-001-214, 101-001-217,101-001-220 MFG O.A , � MATERIAL• DWG NO, ._...._ _ 6061 T6 Rail 1 2 wEIGHT: SC.4LE:1;1 � SHEET 1 OF I ERI StaMped Bonding Lug CommonFeatures hard- ware • attaching the . and securing the conductor to simplify installation • d_d with all hardware shown * Stainless steel I:RITECHO brand,of;-.solar;liondirig lugs ar-pAe gned'to'bond the.16mes hardwareand mounting structures of solar photovoltaic-systems,in.accordance., includes - . with.NEC� requirements: -These-lugs are corrosion-retl5tcint.ZYkl washers for galvanically compatible wi, - Copper.groundiingic_onducitbrs-and, •- . . aluminum photovoltaic module frames: to annodized aluminum The solar bonding lugs are supplied with the required mounting'hard- ware and are easy.tbInstall. The stamped I ''li s a lay-i.n feature' * Lay-in feature is that allows the positioning of ihe.ground-ing conductor=alorig.rngltiple ideal . frames prior to=Securing the wire.. In addition, the.sarne hex head tion underneath power driver can be u_sed:.to install'the lug to the tr rnk,arid secure;the ` ..ule frames wire into the lu,g. _ Accommodates 14 • • •j4 sal..-.6 S.. ELfiCS c ,stijipei'I#Il oy. • • • - . • • • conductors ' Appro��Ls:. 467 Listed -C �L` US LISTED. cuLto Is a registered trademark of,underwriters Laboratories,Inc NEG'is a registered trademark of,and National E]ecWcal Cade(NEC)standard Is a copyright of the National Fire Protection Assadatlom WARMNG ERiCO prpducis shall kie.lnBtafled and used only as Irsdkated In ERIOD's product Instruction sheets and training materials.Instruetlon sheets are available atwvmgrfoo.corn and from your ERlco customer service representailve.Improper installatlon,misuse,misap- pkimtion W other fallure to c�mpletely follow ERICO's Untructions and warnings may cause product rnalfuncdar4 property damage, serious bodily injury and death. ropyrightCioQ9,,26i0 6K6.International Corporatlom All rights reserved. -CADDY,CADVVELD,CRrrE4 ERKO,ERIFLM MUCH,and LENTON are registered trademarks of ERICO International Corporation www.erlco.com ��IC�® E ms�vwin E811L71WA N taMosio r SunmodulO/o User Instructions Mimi .1•.'h i; -•-F TOP QUALITY 07/2012 Sunmodule Plus SW xxx poly Sunmodule Plus SW xxx mono (black) SOLARIIVORLD �� www.solarworld-usa.com We turn sunlight into power. DANGER! ding connections in accordance with the instructions provided with the module.The QElectric shock electrical characteristics are within±10 percent of the indicated values of ISC,VOC,and The connection of two or more modules in series results in the accumulation of Pmax under standard test conditions(irradiance of 100 mW/cml,AM 1.5 spectrum,and voltage and Imposes danger.Do not insert electrically conductive parts into con- a cell temperature of 2S°C(T77)).Under normal conditions,a photovoltaic module is nectorsl Do not attach solar modules and wiring with wet connectors!Make sure likely to experience conditions that produce more current and/or voltage than reported to work with dry tools and under dry working conditions! at standard test conditions.The requirements of the National Electrical Code(NEC)in QWork on live parts Article 690-8 shall be followed to address these Increased outputs.In installations not When working on wiring,use and wear protective equipment(insulated tools, under the requirements of the NEC,the values of ISC and VOC marked on this module insulated gloves,etc.)[ should be multiplied by factorof1.25when determining component voltage ratings, conductor ampacities,overcurrent device ratings,and size of controls connected to the PV output.To reduce the operating temperature the module hasto be mounted on any WARNING] surface with a minimum distance of4 inches(10 cm). ®Arcing In Canada the installation shall be in accordance with CSA C22.1,Safety Standard for Modules generate direct current(DC)when exposed to light.When breaking a Electrical Installations,Canadian Electrical Code,Part 1. closed circuit,a dangerous arc may be generated.Do not cut any live wires. ©Safe installation Suitable ambient conditions Do not carry out installation work in strong winds.Secureyourself and other per- The module is intended for use in moderate climatic conditions-Artificially concentra- sons against failing,Secure work materials against dropping.Ensure a safe working ted sunlight shall not be directed on the module or panel.The module must neither be environment so as to prevent accidents, immersed in water nor be exposed to continuous wetting(e.g.by fountains).Exposure lA Fire protection/explosion protection to salt or sulfur(sulfur sources,volcanoes)implies a risk of corrosion.The module must &Modules must not be installed in the vicinity of highly flammable gases,vapors or not be used for maritime(e.g.boats)or automotive(vehicles)purposes.The module dusts(e,g.filling stations,gastanks,paint spraying equipment),The safety instruc- must not be exposed to extraordinary chemical loads(e.g.emissions from manufac- tions for other system components must also be followed.Make sure to comply turing plants).If the modules are installed on stables,a distance o(1 m to ventilation with local standards,building regulations and accident prevention regulations openings shall be ensured;apart from this,the modules shall not be used as a direct during installation.For roof installation,modules must be mounted on a fire-rest- roof panel on stables. stant base material. ATTENTION Appropriate installation situation Do not usedamaged modules.Do not dismantle modules Do not remove anyparts Make sure that the module meets the technical requirements of the overall system, or nameplates fitted by the manufacturer.Do not apply paint or adhesives to the Other system components should not exert any adverse mechanical or electrical Influ- module,nor work on it with sharp objects. ences on the module.Modules may bend under high loads.Forthis reason,sharp-edged fixing elements or other sharp objects(e-&cable ties on mounting sections must not Unpacking and intermediate storage be mounted near the module back side.For modules connected in series,only modu- Do not usethejunctlon box asa handle.Do not place modules roughlyon hard floor or les of the same amperage rating may be used together.For modures connected in on their corners.Do not place modules on top of each other.Do not step or stand on parallel,modules with the same voltage ranges must be used together.The modules modules.Do not place any objects on modules.Do not work on modules with sharp must not be operated at a higher voltage than the permissible system voltage.The objects;store modules in adry place. inside opening o(the frame corner element is Intended for water drainage and must not be blocked.For system documentation,please note the serial numbers. Grounding of module and frame We recommend ensuring the functional grounding of the module metal frame.If an Optimum installation exterior lightning protection system is already provided,the PV system has to be inte- In order to avoid performance losses° all modules connected in series should be grated Into the protection concept against direct lightning stroke.Local standards shall arranged with the same orientation and tilt angle.The modules should be Installed in be observed. an all-season shadow-free area.Even partial shadowing re suits in yield losses and is to be avoided.Ventilation o(the module back side will prevent heat build-up adversely Grounding in the US and Canada affecting performance. The modules can be connected to the grounding holes using a ray-in lug.The lug can befixed: Mounting A)at the module corner by using a socket head cap screw,or The modules must be securely fixed at a minimum of 4 locations on the substructu- B)at the hole provided in the flange by using a screw with a serrated washer,a washer re.Fixing is only allowed in designated areas or at the provided mounting holes.The- and a nut. se designated areas for fixing are located on the module long sides.They are located Any grounding method and components listed according to NEC requirements are also between 1/8 of the module length and 1/4 of the module length,measured from the acceptable inthe US and Canada, module corner.Fixing the module on its narrow sides is not sufficient.In regards to "Top-Down"mounting methods,the clamping area on the module frame must be Table.Recommended components for grounding in the US and Canada at least 130 mm2(0.20[n2)for each fixing point.The required clamping pressure is Item Manufacturer D scription. Tightening torque 100 N/mm7(14,5 Ibf/inr).For"Bottom—Up'mounting methods,use a stainless steel Lay-in lug(j) Ilsco GBL-4DB(E34440) 351b(-In,4-6 AWG str serrated lock nut and MB(5/16")bolt to secure the module to the mounting structure 251b(-in,8 AWG str with the provided mounting holes.The bolts must be tightened to 20 Nm(15 ft-lbs).Do not drill any holes into the module.Use corrosion-proof fixing material. 20 ibf-in.10-14 AWG sol/str Socket head cap screw© 10-24,5/8,SS la-a 62 lbf-in(7.0 Nm) Electrical connection Bolt© #6-32,SS 25 in-lbs(2.9 Nm) The modules are provided with factory-assembled cables and connectors.Do not open the junction box In any case.Connectors may only be connected under dry conditions. Serrated washer(D M5,55 Make sure to avoid gaps in a plugged connection.Only singlecore solar cables with an Washer(D ID9/64-,OD3/8`,SS adequate cross-section(4 mm'minimum)and appropriate connectors may be used Nut #6 32,SS for connecting the modules.Cables should be attached to the installation system by means of UV-resistant cable ties.Exposed cables should be protected against sunlight and damage by suitable precautions(e.g.conduits)In orderto limit voltages released by A) B) r indirect lightning shock,the area of all conductor loops must be reduced to a minimum, 1 5 Check that wiring Is correct(polarityl)prior to starting the generator. r 4 Cleaning In general,the modules do not need any cleaning if the tilt angle is sufficient(>15°;self- cleaning by rain).In case of heavy soiling,it is recommended to clean the modules with t plenty of water(low pressure hose)and without the use of cleaning agents.if necessa- ry,a soft cleaning device(sponge)maybe used.Never scrape or rub off dirt as this may result in micro-scratches. Underwriters Laboratories Information(U.S.and Canada) Maintenance For the electrical ratings please refer to the datasheet.The fire rating o(this modu- We recommend regular inspections of the system to ensure that, le is valid only when mounted in the manner specified in the mechanical mounting 1.Alf fixtures are securely tightened and corrosion-free; instructions.The module is considered to be in compliance with UL 1703 only when 2.Wring is securely connected,properly arranged and free of corrosion; the module is mounted in the manner specified bythe mounting instructions below. 3.Cables are free of damage; A module with exposed conductive parts is considered to be in compliance with UL Pleasealso observe applicable standards. 1703 only when it is electrically grounded in accordance with the instructions presented below and the requirements ofthe National Electrical Code.Where common grounding Disclaimerofliability hardware(nuts,bolts,star washers,spilt-ring lock washers,flat washers and the like) 5olarWorld AG does not guarantee the operational capability and functionality of is used to attach a listed grounding/bonding device,the attachment must be made in modules ifthe instructions contained in the present user information are not complied conformance with the grounding device manufacturer's instructions.Common hard- with.Since compliance with these instructions and the conditions and methods of ware items such as nuts,bolts,star washers,lock washers and the like have not been installation,operation,use and maintenance o(the modules are not checked or moni- evaluatedforelectricalconductivity or for use as grounding devices and should be used tored by Solarworld AG,SolarWorld AG accepts no liability for damage arising through only far maintaining mechanical connections and holding electrical grounding devices improper use or incorrect installation,operation,use or maintenance.Furthermore,lia- in the proper position far electrical conductivity.Such devices,where supplied with the bility for infringements of patent law or of other third party rights arising from the use ® module and evaluated through the requirements in UL 1703°may be used for groun- ofthe modules is excluded unless we are automatically liable by raw. r Bottom—Up mounting method Top-Down mounting method Fig.C Fig.D a b Fmin max Fmin max 4 a b ULdesignpressure IEC design pressure UL design pressure IFC design pressure at provided F ,,_-30 psf(-1,4 kN/mr) F.,.= -50 psf(-2,4 kN/ml) a=8.2 in(209 mm) Fes,=-64 psf(-3,1 kN/m2) F .__ -50 psf(-2,4 kN/mr) mounting holes F_=+113 psf(+5,4 kN/mi) F_=+113 psf+5,4 kN m� ( ) p ( / x) = p ( / i) m, p { / ) b=16.5 in 479 mm Fm��=+113 psf+5,4kN m FT„=+113 psf+5,4kN m Top-Down mounting method Top-Down mounting method Fig.E Fig.F a a F b in max Fmin max a b UL design pressure IEC design pressure UL design pressure IEC design pressure a=9.0 In(229 mm)' F,,--64 psf(-3,1 kN/mi) Fm _ -50 psf(-2,4 kN/ml) a=20,1 in(510 mm)' Fm�,_-50 psf(-2.4 kN/mr) F _ -50 psi(-2,4 kN/m=) b=33.0 in(838 mm)' Fm„=+170 psf(+8,1 kN/m=) F_=+113 psi(+5,4 kN/ml) b=8.8 in(223 mm)' F_.-+113 psf(+5,4 kN/m') Fm,w=+113 psf(+5,4 kN/mi) 'tolerance:+/-0.4 in(+/-10mm) tolerance:+/-0.4 in(+/-10mm) Revisions Version Changes Date __._._-..,_...,...M. -.._C_.We-n--,---.._-.--•,--__-._-.-___ --------------------- _..,-.-,-..------------- 1.0 New document 2012-07-12 SolarWorld Americas LLC. 4650 Adohr Lane I f ! Camarillo,CA 93012 f II USA Phone:+1 805 388 6200 SOLAR p/O`LD Fax: +1805 388 6395 OR LD www.solarworld-usa.com We turn sunlight into power. SUnmodule;-/ W m fl Grounding of module and frame in US and Canada Traditional Grounding Methods: The module can be grounded by connecting hardware and copper wire to the grounding holes using lay in lug,The lug can be fixed: A)At the module corner by using a socket head cap screw or '`_" B)At the hole provided in the flange by using a screw with a serrated washer,a washer and a nut. Lay-In lug(Module's corner key) Lay-in lug(Module's Flange) The module also can be grounded to the rail utilizing the following hardware: C)WEEB-DPF for SolarWorld Sunfix Ground Mount and Sunfix Plus mounting systems. D)WEEB-PMC for SolarWorld Sunfix Ground Mount and WEEB-DPF WEEB-PMC Professional Solar mounting systems. E F E)UGC-1 for Unirac Solar Mount mounting 5y5tem. 1 � F) Long Claw for Panel Claw mounting system. . Q Note: These grounding methods have been tested by Intertek UGC-1 Long claw Laboratory in accordance to UL 1703 using SolarWorld's modules. Recommended components and their appropriate tightening torque for grounding in US and Canada: ]tem Manufacturer/ .Tightening torque © Note: Description1. Use general purpose anti-seize compound on fastener 35lbf-in,4-6 AWG str threads when installing WEEBs, Lay-In lug Ilsco GBL-ADBT 251bf--in,BAWG str 2. The NEC section 690.43 states,,,Exposed non-current 20lbf-in,10_14AWG sol/str carrying metal parts of module frames,equipment, Socket head cap 10-24,5/8,SS18-g 621bf-in(7.0Nm) and conductor enclosures Shall begrounded inaccor- screw --- — — dance with 250.134 or 250.136(A)regardless of voltage.), Bolt #6-32,ss 3. WEEB5 are intended for SINGLE USE ONLY.Functionality Serrated washer M5,55 3B Ibf-in(4.3 Nm) will not be guaranteed if reused. Washer 0 9/64",OD 3/81,Ss Nut ----- #6-32,55 --..-- - Burndy WFEB-DPF 12lbFft(16.3 Nm) Grounding Clip Burndy WEEB-PMC 121bfft(163Nm) UniracUGC-1 101bf--ft(13.5 Nm) Grounding Claw Panel Claw Long Claw 18-20 Ibf--ft(24.4-27.1 Nm) solarWorld's modules required tightening torque for the mounting hardware is 15 Ibf-ft(20 Nm).Choose the higher required torque of the values specified bythe Installation guide for grounding and 5olarWorld's module torque requirement. I !I I SOLARWORL® www.solarworld.com We turn sunlight into power. 4 Sunfix Ground Mount: » Use WEEB-PMC at end clamp locations to bond solar Prwidetl Ball module frames to module mounting beam. Prodded Nut ° » Use WEEB-DPF at mid-clamp locations on outer-beamsto \ ' bond solar module framesto module mounting beams. I ranaaaw Sunfix plus: 111.Flange » Use WEEB-DPF at mid-clamp locations on outer-beams to bond solar module frames to module mounting beams. Professional Solar: » Use WE EB-PMC at mid-damp locations on outer-beams to lap SMo of Modals bond solar module frames to module mounting beams. ModuleGroundmg Holes {where applicable) Unirac SolarMountt Mvduk M_n.g Hoes » Use UGC1 at mid-clamp and end-clamp locations on outer-beams to bond solar module frames to module mounting beams. Panel Claw,Polar Bear: » This Claw is used for PV modules that are not compatible Module Flange Hems with flange clamp style Claws.The Long Claw attaches at the module mounting holes.Please seethe module Suppm Mounting Tabs manufacturer's installation guide for screw torque speci Haleouenlity and locations willvarp per rnoda:e. ficatlons. Panel Claw.Polar Bear MB seuaked _Ila er rld flangenut P •>> wrop ash c �,� W.,Wadd �,' y, MBserrated l.AB boll flanga nut SolartVwld �'+ Washes So vl dd �` Washer solarwodd WEED-DPF end clamp spacer WEEB-DPF WEEB-PMC Solarwodd _ channelnut 5oh,wo ld -- plastichalt 1187-bA guitle Sunfix Cround Mount Module Clamp Sunfix Ground Mount End Clamp Sunfix Plus Module Clamp Top Top mounting mounting clamp clamp T-bolts UGC-1 Y Middamp W EE84WC r� Do tail shdingnut Sol arMount'rail(any type) Unirac5orarMount Professional Solar Fronius IG Plus Installation Attaching the Important The cutout segment marked(')represents the placern ant of Wall Bracket the inverter display.Use this to ensure a comfortable display height for to a Concrete easy reading, or Brick Wall General Important depending on the surface,different dowels and screws may be required for installing the wall bracket.These dowels and screws are not part of the scope of delivery for the Fronlus IG Plus.The Installer Is + responsible for selecting the proper dowels and screws, 17 A.. NOTE The Fronius IG Plus should only be installed upright an the wall. Assembling Only for Fronius IG Plus 10.0-1111 A-1!11.4-3!12.0-3: �=.• � d'�• �; { the Wall Bra- ` n (1 cket ® Because of logistical limits,the wall bracket for these inverters Is divi- ded into two parts. ` Assemble wall bracket as per ® \ s � step 1 ,.�. �1- Recommen- In most rases,you should use 114 In,or 5116 in,stainless steal or alumink ded Screws um screws capable of supporting 31 lbs.(Fronlus IG Plus 3.0-113.8-1), for Wall Bra- 57 lbs.(Fronius IG Pius 5-0-116.0-117.5-1).or 82 lbs.(Fronius IG Plus Attaching the Important The cutout segment marked(*)represents the placemant of cket Assembly 10.0-1111.4-1111.4,3/12.0-3)of inverter weight, Wall Bracket the inverter display.Use this to ensure a comfortable display height for to a Wooden easy reading. Wall Attachingthe Important NEC raquiras that the DC disconnect be mounted batween ®\ ® \ Wall Bracket- 3 ft.and 6 1!2 ft.from the ground If it Is to be used as a code-compliant Mounting disconnect, height The DC disconnect is in the lower left part of the inverter.Also,the cut out segment marked(')in the following drawings represents the placement of the Inverter display.Use this to ensure a comfortable display height for ' easy reading. a 1 �� ``.t�•y, 25 25 Attaching the Important The cutout segment marked(')represents the placement of Fronlus IG Plus Danger of injury by Tailing equipment, r Wall Bracket the Inverter display,Use this to ensure a comfortable display height for Plus Installati- A Ariach the connection area of the inverter lodho wall bracket to a Metal easy reading, on q using the 2 screws removed from the wall bracket in step t. Carrier (continued) O NOTE When installing using a metal carrier,the © 0 ao Fronlus IG Plus should not t �- be exposed to rainwater or �� ■d.�.r water spray at ft back. `r rr W w N Ensure proper rainwater or O - • ���.. 0 spray wafer protection. n o 0 00 Fronlus IG Plus Installati- © Installatlon of Several inverters can be easily installed and connected next to each other on O Several Inver- using the side knockouts on the Fronius IG Plus,e.g.: ' tars 4 ✓ DC DATCOM DC DATCOM DC 1 © O AC AC DATCOM=data communication NOTE All electrical instelleboos must be made in accordance with the National Electrical Code,ANSIlNFPA 70,and any other carr p codes and regulations applicable to the installation site. 0° $ For installations in Canada the installations must be done in accordance with applicable Canadian standards. 21 20 Connectingthe Fronius IG Plus to the Public Overview of Public Grid Inverter Available Grid (AC) Power Grids 240 V:120 V Stinger Fronius IG Plus 3.0-1 (continued) u Fronius IG Plus 3.8-1 Fronius IG Prus 5.0-1 �� M1 Fronius IG Plus 6.0-1 I Fronius IG Plus 7.5-1 Overview of Fronius IG Plus inverters can be connected to the following power grids; Fronius IG Plus 10.0-1 Available Power Grids Public Grid Inverter u u "urs a Fronius]G Plus 11.4-1 208 V Della Fronius IG Plus 3.0-1 L, Fronius IG Plus 3.8-1 c Fronius IG Plus 5.0-1 Fronius IG Plus 6.0-1 Fronius IG Plus 7.5-1 Fronius IG Plus 10.0-1 240 V:120 V Split phase Fronius IG Plus 3.0-1 1 Fronius IG Plus 11.4-1 Fronius IG Plus 3.8-1 Fronius IG Plus 11.4-3 Fronius IG Plus 5.0-1 Fronius IG Plus 6,0-1 Fronius IG Plus 7.5-1 -_' U Fronius IG Plus 10.0-1 Fronius IG Plus 11.4-1 208 V Delta:120 V WYE Fronius IG Plus 3.0-1 Ll Fronius IG Plus 3.8-1 '�� Fronius IG Plus 5.0-1 s' Fionius IG Plus 6,0-1 Fronius IG Plus 7.5-1 Fronius IG Plus 10.0-1 480 V Della:277 V WYE Fronius IG Plus 3.0-1 Fronius IG Plus 11.4-1 u Fronlus IG Plus 3.8-1 u`�auv Fronius IG Plus 11.4-3 - Fronius IG Plus 5.0-1 �p Fronius IG Plus 6.0-1 Fronius IG Plus 7.5-1 Fronius IG Plus 10.0-1 Fronius IG Plus 11.4-1 L3 240 V Delta Fronius IG Plus 3.0-1 ` Fronius IG Plus 12.0-3 L, Fronius IG Pius 3.8-1 Fronius IG Pius 5,0-1 ,;.- ._ ^a� 1 FroniusIG Plus 6.0-1 Fronius IG Plus 7.5-1 _ Fronius IG Plus 10.0-1 Fronius IG Plus 11.4-1 � Fronius IG Plus 11.4-3 -z- 29 30 Overview of V Delta NOTE Do not connect AC-side and Available Grounding 1111 1-phase inverters 208 v!240 v Fronius IG Plus Inverters Power Gilds Ll to the 484 V Delta power Terminals (continued) , grid. p p ® L1 L2 N 1-phase inverters277V{ �{ a o e a L3111,NLL2 0 0 0 � O Q L1 N N.C. 3-phase invertersry�208 V 124D V 1277 V (1X2)(3) X171 0 11 0 11 0�0 fl 011 0 1 Q @ L1 L2 L3 N AC-side and Grounding Terminals The terminals are designed for the following lerrninal connections: Monitoring the NOTE For optimal functioning of grid monitoring the resistance Grid in the leads to the AC side connection terminals must be as low Grounding Terminals: as possible. (1)Grounding Electrode Terminal(GET) The AC conductor resistance between the Fronius IG Plus unit A grounding electrode conductor may be required by the Authority and the building's distribution panel should not exceed 0.5 Ohm. Having Jurisdiction(AHJ). (2)Equipment grounding(e.g.grounding of the soler module frame) The PV array(frame)ground should be connected to the Grounding Schemes with For larger photovoltaic schemes it is possible to connect several Fronius Terminal,The size for the conductor is usually based on the size of more than one IG Plus units in parallel without any problems, the largest conductor in the DC system. inverter To ensure symmetrical feeding,connect the inverters uniformly to all (3)Grid grounding 1 Grounding conductor phases. The Frunius IG Plus Inverter must be connected to the AC ground from the utility via the Ground Terminal. NOTE The Fronius IG Plus is designed to be connecled to three phase systems.Utilities generally allow up to 6 kVA of NOTE unbalance but check with your utility and try to balance the instal- Use topper wire for all grounding wires. lation.The connection to the grid shall be done in the following Use only solid or stranded wire.Do not use fine stranded way: wire. 208 V 1240 V. For appropriate grounding see NEC Section 250. - Connect Frunius IG Plus No.1,No.4,No.T....to L1 and L2 AC-sido Terminals: - Conned Fronius IG Plus No,2,No.5,No.8,...to L2 and L3 L1 = Phase conductor L1 - Connect Fronius IG Plus No.3,No.6,No.9,...to L1 and L3 L2 = Phase conductor L2 277 V: L3 = Phase conductor L3 - Connect Fronius IG Pius No.1,No.4,No.7,...to L1 end N - Connect Fronius IG Plus No.2,No.5,No.8,...to L2 and N N = Neutral conductor N - Conned Fronius IG Plus No.3,No.6,No.9,...to L3 and N *_ NOTE The neutral conductor is not bonded to ground internally. N.C.= Not connected max,wire cross section AWG 4 37 32 Cross SectionConnecting A W RNINGI is sh carr be fatal:�,lnadequately edx� Q Q of AC Wires !� � d � � � � the Frontus IG el ctncal coZvris � seoa5ia tt Kos IIns and damage fo o ]oss offroperty R Plus to the i Public Grid All eleetrt litstallattons3srruSt t nce wr a AC Natigllal Ele ical CodRN51lNFPA7f] and any otFrer 00 cede am lata ns a I cahte iths�allatio site O Ir�a@athedone in ucot°t�a Ce Frit pllcableCa f C%�tanctards. �c Use mmlmum AWG 4 f MaxW fmtrrrr G�4 rn . i6 F 0 0 a r. �S�,G Aper re for a1�4C w ringEoonneetli to the d0-, s altege R ,ptfi®r cons�g` tion •� $�­10118r517.E3Contluit Iy solid astran dedtifretaa riot use finatrdn - NOTE Only use water tight conduit fittings and conduits. Frontus IG Plus AC wire + AC wire AC wire Conduit fittings and conduits are not part of the scope of delivery• for the inverter 208 V 240 V 277 V 3.0-1 AWG 12 AWG 14 AWG 14 © 3.8-1 AWG 12 AWG 12 AWG 12 5,0-1 AWG8 AWG 10 AWG 12 E -till o RE RE a 6.0-1 AWG 8 AWG 8 AWG 10 0000 0000 0 0Coo 0 0000 7.5-1 AWG 6 AWG 6 _ AWG 8 10.0-1 AWG 4 AWG 4 AWG 6 11.4-1 AWG 4 AWG 4 AWG 4 0 uy 11.4~3 AWG 8 AWG 8 12.0-3 - AWG 12 +zq Minimum cross sac8an oFAC wires(air celculeficns based on ambient lemparafure of + 122°F/50'Q. Connect grid grounding 1 grounding conductor to the right terminal '* Tightening torque: Safety Only an authorized elecirician is permitted to connect this inverter to the stranded wires..............1.25 ft.Ib. public grid. - solid wires....................AM ft.Ib. �` 4YARNING!Ar}electcal"shock'can�bezfa 1 anger,from gnd Connect the AC wires to 1heAC-side terminals depending on the power voltage and DG voitag�fra solar mode as'� grid and phase quantity of the inverter: The cortne t[ n are1111111 s o ld; I be o tine by+a t1 used lgphase-�{2UB�{V!2ry40 V�{ I 1 phase-2771V ry 1 leotiician I�J LJ�I L _ 10 LJ WLILI ! I_I l� Thu seta,.,ra apn r sta a set area spuidk. only b11 e tscon- 0 0 @ @ @ @ @ @ @ 0 @ eo d tro 311 000 =(Dn aroa after first- eirig discon- ® ® (D L1 L2 N O ® (0 L7 N N.C. Never ork with live wirestlPrior to all con'ecti... "... ma eK_i 3 phases-208 V l 240 V!277 V sure thatHheA(7and DC wires,are not charged �.. GET -Grounding Electrode Terminal © ® © L1 L2 L5 N N.C. =Nolconnected NOTE - Form a min.4 in.wire loop using all wires. 33 34 Connecting If the photovoltaic system requires a grounding electrode,it should be Connecting Solar Module Strings to-the Fronius Grounding connected as follows_ Electrode Wire IG Plus (DC) t'a General Infor- In order to select suitable solar modules and get the most efficient use out 0000 00000 mationAbout of the Fronius IG Plus,please note the following points: Solar Modules , The open circuit voltage Increases when temperature decreases A m nw (assuming constant Irradiance of 1000 Wlm').The Inverter open- c1rcuit voltage should never rise above 600 Volts. s ® Whenever tho open-circuit voltage of the solar modules oxceeds 600 Volts,the Fronius IG Plus unit may be damaged,and all warranty rights wjll become null and void. Moro oxact data for sizing the solar array for the particular location Tighreningtorque., can be obtained using calculation tools such as the Fronius Configure- stranded wires................1.25 ft.tb. tion Tool(availablo on htip://www.ftonius-usa,com). ' solid wires......................aar A tb. - See NEC table 690.7 for the appropriate code-related voltage adjust- NOTE 1. factor for crystalline silicon modules,or use the manufacturer's Form a min.4 in.wire loop with the wire. specified voltage coefficient. Safety W�1 1 t ale r' I�shopk n b�[# 1 D nge rgm',gn" Recommenda- NOTE To reduce the risk of fire,connect only to a circuit provi- ta tea, .,t F voltage antf 'voltege fro soier-modules j tion for the dad with branch circuli overcurrent protection in accordance with red sh y1d 0 yb flpe ed^ a lice. ad AC-side over the National Electrical Code,ANSI 1 NFPA 70,a1 a MAXIMUM or. teptr biatr. current pro- he separate power stage sef:area should only be.disco - tection Fronlus IG Plus Over Current Protection. n clad frhe nnect an area alta ust be ng discon, 208 V 240 V 277 V oleo from a gn ,power , 3.0-1 20 A 20 A 15 A he separate- owe tage set area blind onl be o d 3.8-1 25 A 20 A 20A by Fro aus t a1 eddss rvioe personnel: 5.0-1 30A 30A 25A Nevar work with li a wirest Pric. o a zconnection wor ,make 6.0-1 40A 35A 30A sure that I aAC and DC w res.am,no charga 7.5-1 45A 40 A 35 A 10.0-1 60A 60A 45A The i s.Witcrafs.anlyt¢sed to switc o po erto the _ Powe.: W,rse th 'C main itch st r ado ,the 11.4-1 70A 60A 60A oonnactton.ari$ is still energized 11.4-3 40 A 35 A 12.0-3 - - 20A Additional Depending on the Installation,an additional extemal AC andlor DC dis- External'AC connect may be required If the Inverter is installed in a location not easily andfor DC accessible to utility or fire personnel.Consult local authorities for additio- Disconnect nal information. DC-Terminars Connecting Solar Module Strings DC DC _ C) O O O_ IODO �pDDD Solar Module The Fronius IG Plus is designed for a solar module ground at the negative P e uDDO�I L10000 Ground pole,The solar module ground Is carried out via a fuse In the inverter. ® 0 Solar module Inverter RC+ �11 0 0 o DC main switch N -0 = Lt r1 String fuse �+ DC+and DC-terminals on the Fronius IG PlusL3 GFDI fuse OND Overview 'Connecting Solar Module Strings to the Fronius IG Plus(DC)'includes the following sections: Solar modufa ground of negative pole with fuse Connecting Solar Module Strings , A13NING!An e e IC� C rl be falali�orfhll roun ed Criteria for the Proper Selection of String Fuses a h ® G4ALtCt may ba tl rounded altatenia ednd Corinectin combined Solar Module Strings using a DC String Input faults tndiCatedtlgd-faujt s to xtait bofr]re; 9 9 9 9 Combiner �: o r2tron.lsrresu .e 3 > - Solar Module Ground at Positive Pole:Connecting Solar Module NOTE Do not connect the ground to the DC negalive at any Strings pointl This is already done within the Fronius IG Plus.If the DC Criteria for the Proper Selection of String Fuses negative is connected to ground at the DC terminal block or prior, this will circumvent the GFDI protection system,preventing your Solar Module Ground at Positive Pole:Connecting combined Solar Fronius IG Plus from properly detecting a fault current.Additional- Module Strings using a_DC String Input Combiner ly.turning the DC disconnect to the off/open-circuit condition will not disconnect the array from ground,as it only disconnects the DC positive. Wire Cross NTNG An electric slk ` "cad `ata] iadequately� etl: Section of � ���can I t�udin uri 9 is e so s Solar Module e�I Gtar pprten can Slri n s ani do" sto(dr io a property , : g AII-elaotnGdl inst � mustbe Sn,accorrfiri i the Nationa EIeC rfcai Ca e, f�SiINFPA 70 and any regula ions applicable. ' e t calla;Ian 8: Or"gta Ir)ninsCanelo theInS h rr5ttbe'doria . a"r7 a�lic�b)s Caned an stendarCls Use�capp�!"nio II "� drfl �ies '� ' Forappropnate;groGndin eeSertlpr 5R* A 37 39 Wire Cross Connecting NOTE Connecting the WARNINGI An,eiectric shock can be fetal.Inadequately sized Section of Solar Module DC wiring with the wrong elect hdal'compo.epts can Cause seri s injunes to ersoris, ; Solar Module �' Strings polarity may cause dama- and darrwru to(or cs8 afj p srpe�ty _ Strings (continued){ (continued) ge to the inverter. US min`ium AtN 14 to maximum AWG 6,min 167 F (continued) , +�+ Check both the polarity (7,,�,�� },capper wire for all DC wiring Connections tp the i=ro7aius fG Plus,Voltage drop and otfier const tions may- and the open circuit volta- ge. Use-only solid or straAde f S,Do rtct s : 4 53 i d W!g The DC Voltage must not exceed 600 V,regardless of temperature. Connecting ® C!dUoll Solar Module Strings ✓ _� ooit hi ig b �Wi • 4 °Golle o Tightening torque for solid and stranded Tightening torque for solid and stranded wires wires NOTE Only use water light conduit fittings and conduits. Conduit fittings and conduits are not part of the scope of delivery NOTE for the inverter. Form a min.4 in.wire loop using all wires. ® CAUTIONI Danger of damaging the inverter by overload, Connect a maximum of 20 A to one single'DC input terminal. Q r= r -SMON ® � ®EE�9 r a fF�1)flfl7� � Dona ooaa aeaeae aaoaea�gll seas ill CT-77 m DODO ' ------------ ________1 G ' Important cccSSS/// wire for solar module groundirg Set the jumper from the'SMoN'position to the'SMoFF'position for TghfeningPorque: correct measurement results stranded wires................1,25 R.m. - Check the polarity and voltage of the solar module strings:the DC- sdid wires......................e.e1R.ib. voltage must not exceed 600 V.the difference between the individual solar module strings should be less Than 10 V. ]9 90 Connecting o m Solar Module Criteria for the Proper Selection of String Fuses Strings (continued) SMaw l g 9 J DC disconnect NEC 690.15.18 allows the use of fuse holders as a suitable means of requirements disconnecting PV arrays for servicing.Additfonal DC disconnects external SMorF so 90 r to the inverter may be required by the lural authority having jurisdiction. aaesa gaeaaa�rgil aeeaea aseaaal�ll <9 LW qu General The use of string fuses in the inverter also adds fuse protection to the 0 0 0 0 D O D O LNE UNE solar modules. A crucial factor for the fuse protection of solar modules is the maximum short circuit current(ISG)of the respective solar module. Inserting Important The Fronius IG Plus is shipped with conductive slugs in the String fuses fusehDlders,Series fusing may be required depending on the type of PV Criteria for the The following criteria must be fulfilled for each solar module string when into the Front- module used in the system.See NEC 690.9. Proper Selec- using fuse protection: us IG Plus tion of String IN>1.56 x Isc® Select string fuses according to the information from the solar module Fuses IN<2.00 x Isc_ V.i/=600 V DC manufacturer or as per'Criteria for the Proper Selection of String Fuse dimensions:Diameter 10.3 x 35-38 mm Fuses'(max.20 A per single DC input terminal) Important IN.......Nominal current rating of fuse Follow ail solar module safety instructions ISG short circuit current for standard test conditions(STC)according to Follow all solar module manufacturer requirements solar module data sheet Vw.....NDminal voltage rating of fuse ARNINGtf,n electrical shoCK can'be fatal.Danger rrorirDG NOTE The string fuse size must not be greater than the maxi- zvoStage ft0 solar mules: mum ruse size rating of the PV module as provided on the PV Fuse Coyes.:are:fpriristaltatton purposes only.They offer no module manufacturers data sheet.If no maximum fuse size is _ rar j protec gEINt ;tact, indicated,please contact the PV module manufacturer. NOTE Insert fuses only with a fuse cover in the respective fuse holder Effects of In underrated fuses.the nominal current value is less than the short circuit Do not operate the Fronius IG Plus without fuse covers using underra- current of the solar-module. ted fuses Effect: The fuse may trip in intensive Irradiance conditions. ® K-M ig �¢ s A'a.u. 41 42 Fuse Recom- NOTE Connecting combined Solar Module Strings mendations- Only selocl fuses suitable for a voltage of 600 V DC. Application using a DC String Input Combiner Example Example: Maximum short circuit current(Is.)of the solar module=5,75A According to the criteria for selecting the correct fuse,the fuse must have General When more solar module strings are combined to one solar module string a nominal current greater than 1.5 limes the short circuit current: prior to the inverter,the solar module string current may exceed the per- 5.75 A x 1.56=8.97 A missable DC input terminal current rating of 20 A. The fuse that should be selected according to the'Fuses'table:KLK D 9 In this case the DC cables can be connected to the Fronius IG Plus using wilh 9,0 A and 600 VAC 1 DC a string input combiner as an option. Fuses Nominal Fuse Nominal Fuse Additional The following addilional components are required for connecting combi- current value current value Required ned solar module strings using a DG string input combiner: 1.0 A KLK D 1 6.0 A KLK D 6 Components - 2 string input combiners 1.5 A KLK D 1'1, 7.0 A KLK D 7 "','" available from Fronius as an '�?. 2.0A KLKD2 8.0A KLK D8 option) 2.5 A KLK D 2 r1, 9.0 A KLK D 9 cable lu9s 3.0 A KLK D 3 10.0 A KLK D 10 3.5 A KLK ID 3'!� 12.0 A KLK D 12 ® select cable lugs that match the 4.0 A KLK D 4 15.0 A KLavailable DC cables K D 15 1� � `�. 5.0 A KLK D 5 20.0 A KLK D 20 .`0 b hexagon screws Fuses'feble:Excerpt ol'sulfabfefuses.e.g.Litfelfusefuses ` (��JJ - hexagon nuts option matching the cable lugs Additional requiredcomponants Solar Module The Fronius IG Plus is designed for a solar module ground at the negative Ground pole.The solar module ground is carried out via a fuse in the inverter. Solar module Inverter Dc+ DC main switch N L1 St ng tune L2 L3 GFDI fuse GND DG- Solar module groundaf negative pole with fuse 43 44 Solar Module Connecting HW�Mti�NNG(An'eEactricshorlc can 6efatal.Ncrmallylgrounded Ground combinedrsmybe ung ended and erie gized when a ground(continued) Solar Module sndicate'd. aground Fault has to be re ': he oreStringsusing E9F3l3t13�on .'res resumed. a DC String ®f�H a 5 B Input Combl- ooao 0000 .C�NOTE Do not connect the ground to the DC negative at any �r ner poWl This is already done within the Fronius IG Plus.If the DC +� (continued) ® w p negative is connected to ground at the DC terminal block or prior, _ this will circumvent the GFDI protection system,preventing your Q--____—---__ - �— Fronius IG Plus-from property detecting a fault current.Additional- ly,turning the DC disconnect to the offlopen-circuit condition will not disconnect the array from ground,as it only disconnects the wlra for solar module grounding DC positive. 77ghlening(coque: stranded w1ras................1.25 R,A solid wires......................0.61 R_!h. Safetyz_ WARNkNGIrAn,eSe` 'sYCr,ck can be fatal 7nadequateky stied NOTE Connecting the efect[ical cam,.tie can rause serious in]urles.to persons• - DC wiring with the wrong a—da age•t r s d property. ` polarity may cause dama- Ail el"ectrlcalf nstailat onsmus be to accordance with the ge to the inverter. hEattonal Electrical Cada, . Si1NFPA 70 and!!!!!an other Check both the polarity codes and regulations applicable to tt,e installatta site. and the open circuit volla- or'nshaliation'~' sin Ca da the instaliatlans must be done in ge. accordance with applicable Canadian sta dards. , Use copper wire for all g ung wires The DC Voltage must not exceed For appropriate grounding sea NEC Sectio 250. 500 V,regardless of temperature. Use only,solid o stranded wi .Do not use a stranded *1t wire © 0 Connecting combined 0 ldy� © Conduit p Solar Module • . �� •• •'• • Strings using ••• •••.. a DC String ¢'. Input Comb l- ner O 9 ` � 0 °331L1b O NOTE Only use water tight conduit rittings and conduits. Conduit fittings and conduits are not part of the scope of delivery for the inverter. 45 46 1 Connecting o combEned p Solar Module Ground at Positive Pole: Connec- SolarModule Strings using .. so � � � �F ting Solar Module Strings " a DC string Input Combl- nor ` General The following steps are necessary when the solar module manufacturer a (continued) requires a solar module ground at the positive pole. Kk Solar Module Solar module DC+ Inverter Ground at Positive Pole DC main switch N NOTE �� Lt Form a min.4 in.wire loop using all wires. String Fuse L3 ACAUTIONI Danger of damaging the inverter by overload, rid Bevore starting up the invader make sure,that a conductive —GFD!fuse GND slug is inserted in each fuse holder for string fuses. _ — Insert conductive slugs only with a fuse cover in the respec-! DC- live fuse holder Sofarmodulegroundafposiliveporewifhfuse Do not operate the Fmnius IG Plus without fuse covers 11 ZWA_RNING1Amelectricshook cabe fatal.Nor r�lally,gnducto may ba ungro nu ded-ard ensrgized wHelt€s dicated.The ground•faull,has•tDbe repaierallon•is resumed. NOTE Do not conned the ground to the DC positive at any pointl This is already done within the Fronius IG Plus.If the DC positive is connected 10 ground at the DC terminal block or prior, this will circumvent the GFDI protection system,preventing your - Fronlus IG Plus from properly detecting a fault current.Additional- ly,turning the DC disconnect ED the Dfffopon-eircult condition will not disconnect the array from ground,as it only disconnects the DC negative. WireCross Sect I•Ar Section of ® trIfARNINGi: lectrtcshockscari•be falai.Inadequately sized SectelecirJcat componan can,cause serious njuries to persons Solar Module and damage..toorloss of I foperl. Strings ElectricalInstallations must be in accordance Ith the Nati- o al Ell t Ical Code,ANSIINFPA7Q,and an other codes and Mg u alto 5 app}icable lathe I staliat o site, For nsta ations m Canada the nstal atlons must be done in accordance i1h ap IicaDla Canad an standards. - - Use coppe ire fa all grou ing wires For ap ra rtale ground) gNEC Section 250" 47 48 Wire Cross Solar Module T Section of �AR�.N�MGA� lectrio s oc�c�n,be fa ���lhed� telyzd:, ® CAUTIONI Danger of damaging the inverter by overload. Ground at Solar Module ® e riica mpbrients cah:091 se seria drljuries to persons. I Connect a maximum of 20 A 10 one single DC input terminal. c� Positive Pole: $nd damagk tb(or losg �aperty Strings Connecting l Uimum AW14 to titaxl um WG.6,min se fyl F (continued) Solar Module d (75 C Capper wi far a'IID.0�rari Strings g t annectlo 51 he ` 1 - Ftb fus tCa Plu Utt ge°drop a other conslefatloris ma rgery, (continued) dictdie IaSl�z �vrCe b® sed � Et�g g w C a�a ® ✓' Use only solid ar s(randetlia not use hf�. > nAed off E - 4_� 0o`ou 0000 Solar Module Ground at ®' `..?e ®condor —-- Positive Pole: g a Connecting `Wire for solar module grounding Solar Module - -- � � Tightening torque; Strings r b strandedwires................1.25ft.lb. solid wires......................0.91 ft,lb. ® NOTE Connecting the r.. o UC wiring with the wrong :.�, � polarity may cause dama- ge to the inverter. Check both the polarity and the NOTE Only use watertight conduit fittings and conduits. open circuit voltage. Conduit fittings and conduits are not part of the scope of delivery for the inverter. TheVoltage must not exceed 600 V,,r regardless of temperature. ® =7 I u . fJ - A _ oA nq nw�A I �ao oiao�oo.��31 black si rod r red lack Cl O'...� After disconnecting the DC filter wire: - Connect the red DC+wire to the DC-filter terminal as per step 4 Tightening torque for solid and stranded Tightening torque for solid and stranded - Connect the black DC-wire to the DC+filter terminal as per step 4 1 wires wires NOTE Identify the reversed polarity accordingly with(+)and(-) NOTE at the DC input terminal blocks. Form a min.4 in.wire loop using all wires. 49 56 Solar Module Solar Module Ground at 0 Ground at RNJI Ari ele r cal shock can berfatal,Dange f(otas C -i r i I Val tage from eojar°irsodulq,�. Positive Pole; 4 a A o a a w i SMOG Positive Pole: a wVers eceforfnstallatlon purppaes3Cs(y,They o er Connecting Q� Inserting Solar Module o String fuses rotection aga Strings - _ Qf° into the Froni- (continued) - - SMoFr us IG Plus NOTE - (continued) Insert fuses only with a fuse cover in the respective fuse eaase6 easeee�1301i holder Do not operate the Fronius IG Plus without fuse covers LINA l o 0 0 0 fag g Important 8B - Set the Jumper from the'SMori position to the'SMoFF position for ...o oa correct measurement results - Check the polarity and voltage of the solar module strings;the DC• voltage must not exceed 600 V,the difference between the individual solar module strings should be fess than 10 V. abFt4l ® �igBBfi M c t�-. ica u sa sa SMoFr � �e.��eS E3 p � Caeea aeaea,w�ll aaeaas aeaeae�lgll 0000 0000 LM "LINE Solar Module Important The Fronius IG Plus is shipped with conductive slugs in the Ground at fuseholders.Series fusing may be required depending on the type of PV Positive Pole: module used in the system.See NEC 690.9. Inserting String fuses 0 Select string fuses according to the information from the solar module Into the Front- manufacturer or as per'Criteria for the Proper Selection of String us IG Plus Fuses'(max.20 A per single DC input terminal) Important Follow all solar module safety institutions Follow all solar module manufacturer requirements 51 52 Criteria for the Proper Selection of String Fuses Fuse Recom- NOTE mendations- Only select fuses suitable for a voltage of 600 V DC, Application Example Example: DC disconnect NEC 690.15-1 B allows the use of fuse holders as a suitable means of Maximum short circuit current(Ise)of the solar module=5.75 A requirements disconnecting PV arrays for-servlctng.Additional DC disconnects external to the inverter may be required by the local authority having Jurisdiction, According to the criteria for selecting the correct fuse,the fuse must have a nominal current greater than 1.5 times the short circuit current 5.75Ax1.56=B.97A General The use of string fuses in the inverter also adds fuse protection to the The fuse that should be selected according to the'Fuses'table:KLK D 9 solar modules. with 9.0 A and 600 V AC I DC A crucial factor for tho fuse protection of solar modules is the maximum short circuit current(Ij of the respective solar module. Fuses Nominal Fuse Nominal Fuse current value current value Crlterla for the The following criteria must be fulfilled for each solar module string when 1.0 A KLK D 1 6.0 A KLK D 6 Proper Selec- using fuse protection: Von of String - Iw>1.56 x I. 1.5 A KLK D 1 r/, 7.0 A KLK D 7 Fuses - IN c 2.00 x I-, 2.0 A KLK D 2 6.0 A KLK D 8 - V >1=b00 V DC - Fuse dimensions:Diameter 10.3 x35-38 mm 2.5 A KLK D 2 rl, 9.0 A KLK D 9 3.0 A KLK D 3 10.0 A KLK D 10 IH.......Nominal current rating of fuse 3.5 A KLK D 3'/, 12.0 A KLK D 12 Isc.....short circuit current for standard test conditions(STC)according to 4.0 A KLK D 4 15.0 A KLK D 15 solar module data sheet VX.....Nominal voltage rating of fuse 5.0 A KLK D 5 20.0 A KLK D 20 'Fusas'latNe:Excerpt 01 sulfahla/uses,e.g.L11(olfuse fuses NOTE The string fuse size must not be greater than the maxi- mum fuse size rating of the PV module as provided on the PV module manufacturers data sheet,If no maximum fuse size Is indicated,please contact the PV module manufacturer. Effects of In underrated fuses,the nominal current value is less than the short Circuit using underra• current of the solar module. ted fuses Effect: The fuse may trip in intensive Irradiance conditions. i7 54 Solar Module WARNING! nee shock cane faint.No all r Solar Module Ground at Positive Pole: Connec- ® y�g ounded Ground at cortductors ma be ungrounded and energized wt:an a ground ting combined Solar Module Strings using a DC Positive Pole faults i d'cat ed.7 a ground f�f MITha'Us to bo roppaared before (continued) 4perationns resumed, String Input Combiner NOTE Do not connect the ground to the DC positive at any pointe This is already done within the Fronlus IG Plus.If the DC General The fallowing work steps are only necessary when the solar module me- positive Is connected to ground at the DC terminal block or prior, nufacturer requires a solar module ground at the positive pole. this will circumvent the GFDI protection system,preventing your Fronius tG Plus from properly detecting a fault current.Additional- When more solar module strings are combined to one solar module string ly,fuming the DC disconnect to the ofllopen-circuit condition will prior to the Inverter,the solar module string current may exceed the per- not disconnect rho array from ground,as it only disconnects the missable DC input lerrninal current rating of 20 A. DC negative. In this case the DC cables can be connected to the Fronlus IG Plus using a sMng Input combiner as an option. Safety An WARNINGI electric shock can b fad Lnade*quately sized etectrlcal ponents cart ca se serious inlurles to parsons and damage Yo(or loss o property. Additional The following additional components are required for connecting combi- - Electrtcaf f stall' at'ns muustr!D" 'accordancewith he Nuh- Required nod solar module strings using a DC string input combiner. net EIeclf11caFCodeFAN5VNFPaA 0,�0nd_any 4lher codes Components and regula ons.a plicable,to the•.insta lation site. 2 string input combiners For installall- - ons)n Canada he installatlons ust be done in (available from Fronlus as an accordance with appllcab]a Canadian standards. option) Use capper wire For all go nda�ng wI e - For approp'ate grounding see NEG,Socdon 250, cable lugs Use o id oT;I dod wire,Do not use fine sUa dad select cable lugs that match the :.r available DC cables hexagon screws hexagon nuts Solar Module condua Ground at ��� Option matching the cable lugs Positive Pole: Connecting Additionalrequired components combined Solar Module 4 Strings using 0 Solar Module Solarmodule. Inverter a DC String Ground at DC- Input Combe- ® D Positive Pale Ernaln N ner L2L3 GND NOTE Only use water tight conduit fittings and conduits. pG Conduit fittings and conduits are not part of the scope of delivery Solarmodule ground at positive pole wflh fuse for,the inverter, ss 55 Solar(Nodule Solar Module Ground at © O .3 Ground at ® O Positive Pole: - Positive Pole: d Connecting ® Connecting . o•o .+ combined combined y" Solar Module �> s� 8 's & Solar Modulo 4 Strings using ® Strings using _ k�`•' \ a DC String a DC String Input Combl- a f� 0 Q Input Comb[- nera nor 1� (continued) (continued) - � black r red r red fa After disconnecting the DC filter wire: 0 Connect the red DC+wire to the DC-filler terminal as per step 4 1 Connect the black DC.wire to the DC+filter terminal as per step 4 •o o '. n 00 F NOTE Identify the reversed polarity accordingly with(+)and(-) at the DC Input terminal blocks. _ 4 � c •a 1 +n u� R� Ef f9 t3 Et Pg M a 11 LCr�a.(�3b7 0000 0000 tt 11 dt9 aa000��� 4 4 NOTE Form a min.4 in,wire loop using all wires. ® CAUTION!Danger of damaging the inverter by overload. Kra for solar module grounding Bevore starting up the inverter make sure,that a conductive slug is inserted in each fuse holder for string fuses. Tighteningrorque: Insert conductive slugs only with a fuse cover in the respec- suandedw fus................1.25R.1b. - tive fuse holder sord wires......................0.81 R-!b. Do not operale the Fronius IG Plus without fuse covers NOTE Connecting the DC wiring with the wrong + polarity may cause dama- ge to the inverter. Check both the polarity and the open circuit volta- ge. i _ TheVoltage must not exceed 600 V,,r regardless of temperature. 57 SB Attaching Power Stage Sets and Closing the Fro- Start up Operation nius IG Plus Factory pre- Your Fronius IG Plus unit has been pre-configured In the factory and is set con(igura- ready for operation.lbu only have to set the available power grid for Preparation 0 © tlon starlup. To change your inverter settings,please see sectlon'The Setup Menu'In the chapter'Operation'. Requirements - Fronius IG Plus connected to the public grid(AC) Oo 4 40 for Starting up - Fronfus IG Plus connected to the solar modules(DC) o ' Operation - 3 plastic dividers set in p' - 2 metal covers mounted power stage set mounted NOTE Do not operate the Fronlus IG Plus without fuse covers. Attaching0 © Start up Ope- t: Tum on AC disconnect Power Stage ration ON 2. Flip DC main switch to position Sets And _ Closing the Fronius IG As soon as the photovoltaic Pius p AC modules produce sufficient power,the Operating Status I ® LED lights up orange. O 0+ a The orange LED indicates that 00 , the feed-In mode of the Fronius IG Plus will begin shortly. The_Fronius IG Plus is now operational. The screen displays the startup - phase Opening the Procedure for opening the Fronlus IG Plus for service or maintenances 1411:�iWL i���� - Segment lest All Fronlus IG display elements light up Plus for Ser- 1. Disconnect the AC and DC supply from the inverter 4Z-3110<;;;> for about one second - The Fronlus{G Plus unit vicelMalnten- 2. Open the connection area ante 3. Tum off DC main switch goes through a master 4. Allow the capacitors to discharge(5 minutes) check list for several se- S. Remove metal covers ponds 6. Remove the plastic dividers TEC_T 7. Remove string fuses LET The display shows'TEST 8. Disconnect DC wire and Indicates the respective 9. Disconnect AC wire 43m>®® component which Is being tested(for example'LED') 59 6P Start up Opea- The grid selection phase Selecting the L, tion begins:'SETUPsEL'is public grid r (continued) [- rUr` shown (continued) 3 "' s 77 3. Press the'Enter'key 55- ��� `tea f The first grid selection option Is Grid voltage 240 V Delta _ shown(e.g.:208 V) No neutral conductor in the system © Neutral conductor monitoring is deactivated it LI(lV a. Seleclingihepublicgrid 1 u N Selecting the Several grid selection options are displayed depending on the product public grid type(see also seclion'Connecting the Fronius tG Plus to the Public Grid'). -A- 1. Use Ihe'Up'and'Down'keys to select the desired grid �C%— �L3 Ll f ? J �7L4r /All! ° 1 M 4 Bme 1 I U Y J Y - I w l wr 1 .rr 1 I III\ ry D 1 L Lt V �+� _ Ci:><r Grid voltage 240 V.120 V Stinger r>� Neulral conductor available in the system 1- Grid voltage 208 V Delta Neutral conductor monitoring is activated No neutral conductor in the system M Neutral conductor monitoring is deactivated u _ _ c unova�xav U L LI�V !V ° �0L � N - RN �y V `v Grid voltage 240 V.120 V Split Phase �K Neutral conductor available in the system Grid voltage 208 V Delta:120 V WYE Neutral conductor monitoring is activated Neutral conductor available in the system — Neutral conductor monitoring is aclivaled 61 62 Selecting the a Startup Phase Next,the display shows Public grid at Startup 'SYNCAc',the grid icon blinks (continued) , Operation r�7 711 R 1 fir ° iY (continued) Grid voltage 480 V Delta;277 V WYE - Startup test Neutral conductor available' the system —. , , a _ _ Before the Fronius IG Plus unit Neutral conductor monitoringis activated T T ® ,farts feeding energy into the 1 ► �'}� grid,the conditions of the grid are tested in detail in accor- 2. Press the'Enter'key 2x to confirm your grid selection(or use the'Esc' �,� dance with regulations. Noy to return to grid selection) The display shows'STARTud The startup phase stalls again with the segment test. Operation of feeding energy into the grid After conclusion of the tests, Startup Phase Segment test C:XjUW the Fronius IG Plus unit starts at Startup __ _ _ All display elements light up for `� feeding energy into the grid. Operation "m' about one second The display shows the present The Fronius IG Plus unit goes power feeding into the grid. through a master check list for The Operating Status LED several seconds lights up green,and the Fronius IG Plus unit starts operating. The display shows'TEST'and Important For more information about the startup phase,please see indicates the respective compo- chapter'Operation',seclion'Producl Description Fronius IG Plus'(Startup _ Phase,Test Procedure). rent which is being tested(for 1 1 LEN ° example'LED') <Z><a>cza>� 'TESTcoV Is shown , Synchronization with grid 'WAITcs'is shown:The Fronius r f T IG Plus is waiting for all power supplies in the network to he on stand-by,This procedure takes place dependent on the DC- voltage. 53 sq i Inserting Option Cards Opening Fro- 0 nlus IG Plus (continued) Suitable Opti- There are several options and system upgrades available for the Fronlus on Cards IG Plus,e.g.: - Datalogger and modem interface,EthemeUintemet connection(for •r �o -8 using a PC to record and manage data from your photovoltaic system) rzi - Various large displays(Fronlus Public Display) - Sensors(temperature/irradlance/energy meter,wind speed) r3 t - Fronlus Personal Display d System upgrades are avellable as plug-In cards and as external boxes. The Fronlus IG Plus 12.0-3 WYE 277 is designed for three option cards, all other Fronlus IG Plus products are designed for two option cards. Important The plastic dividers are used to separate the data communk cation wires from the AC and DC wires: Data communication wires must be laid above the plastic dividers AC and DC wires are laid under the plastic dividers Safety *:yyARNINGI Ari-ell ec!(ical'sfiock tori be fatal:;Qanger from grid.,;. ' " " Make sure that the plastic dividers are present. voltage andQC�v�ge fro solarmodules. .- fn The connection areas s�uld'only:heDpanad Gy a Iice sed= electncl , - Never w°rk,wltli t}ve wrresl+Prlor to,all connectIn rk, eke K re that the C and DG-Vires,Lire of charged. .�a Inserting O Insert option cards into free slots. - A#I electrical Installations mus a fn accordance with the Nali°nal Electrical Code,ANSI/N — 70,and a'ny other Option Cards cfldes d regulations epplirzble to'theif fella on site;»S Fur i stallat, ns�-Canada th�a,in'st llatio1 ust-a one-in accordance with applicable Canadian s`ta'nda�r-'s. w ° ° u ` WARN INGIAnelectrical's oc ,ca betatal.Dan ge, Lj residual voltage from rapaci rs. 0 You must wait until the caparators have discharged D' charge takes'5 minutes. NOTE Follow general ESQ precautions when handling option cards. Connecting rA CAUTION!Danger of short circuit by loose metal parts from Opening the When adding optian cards to the Fronlus IG Prus,please follow all Inver- Option Cards, knockouts.Loose metal parts in the Inverter may cause short Fronlus IG ter safety Instructions and information. Laying Data rircuitswhen the inverter is powered up.When Plus CI removing knockouts,make sure that onn Wires cati-[res I - no loose metal parts fall into the inverter any metal pieces that do,fall Into the Inverter are removed Immediately 65 65 ConnectingNOTE The knockout for the data communication wire must be Closing the Important Secure newly-added option cards to the metal cover using Option Cards, above the plastic dividers so that the plastic dividers are always Fronlus IG the screws provided with the option cards. Laying Data under the data communication wire. Plus Communicati- on Wires 0 (conlinued) ,+ et� � U -� 0 Oo Qt O ' Position of '� Conduit plastic diiAders NOTE Only use water light conduit fittings end conduits. Conduit fittings and conduits are not part of the acopo of delivery Solar Net and Fronius developed Solar Net to make these add-on system components for the inverter. Hata Interface -flexible and capable of being used in a wide variety of different applications.Solar Net is a data network which enables several Fronlus © 0 IG Plus units to be linked with the system,upgrades. Solar Net is a bus system.A single wire is all that Is required for one or more Fronlus IG Plus units to communicate with all system upgrade �.� components. 0000 The core of the Solar Nat is the Datalogger,It coordinates data transmission and ensures quick and safe distribution and storage of large + volumes of data. 0 0 o The'Frvnius Com Card'is required to Integrate the Fronius IG Plus into 0� the Solar Net. 4T Important E=very Fronius IG Plus that is to be monitored using a Data- logger requires a'Fronfus Corn Card:In this case,the'Fronius Com Card' serves as a link between the internal network of the Fronius IG Plus and 3=one wire input for both data communication wires the Solar Net interface of the Datalogger. 4=separated wire inputs on opposite sides(e.g.when several inverters Important Each inverter can only have one'Fronlus Com Card.'A not- are Installed next to each other) work may only contain one Datalogger. The first Fronius IG Plus with a'Fronius Com Card'can be up to 3280 ft (1000 m)away from the last Fronlus IG Plus with a'fronius Corn Card'. Different system upgrades are detected automatically by Solar Net. In order to distinguish between several identical system upgrades,each one must be assigned a unique number. 4T 6B 0 Solar Net and In order to uniquely define each Fronius IG Plus in Solar Net, Data Interface each Fronius IG Plus must also be assigned an individual number. (continued) You can assign individual numbers as per'The Setup Menu'section in this manual. More detailed Information on the individual syslem upgrades can be found In the relevant operating instructions or on the Internet at hitp://www.fronius-usa.com. Example Logging and archiving data from the Inverter and sensor using a Datalog- ger and sensor box. Fmn'+us Fmnjw Fronius IG Plus a�- FG PZUs - IG,lus O Termination plug Dara network with 3Fior?Ns fG Plus units and one sensorbox: -all Fronius tG Plus units have one'Fronius Cam Card' -ons Fronius IG Plus has a'Dalelogger card'(no.2) -Dafalogger has two R5-232 interfaces for connecting to a PC and a modem Option cards communicate within the Fronius IG Plus via its internal net- work.External communication(Solar Net)takes place via the`Fronius Com Cards.'Each'Fronius Com Card'is equipped with two RS485 inter- faces-an input and an output.RJ45 plug connectors are used to connect to these cards. 59 a Copyright 0 2010-2073,Magerack Corporation All rights reserved Magerack products are patent pending and protected. CONTACT INFORMATION Magerack Corporation 4427 Enterprise Street Fremont,CA 94538 Telephone:510-656-6661 Fax:510-656.6664 - kh TECHNICAL SUPPORT www.rnagerack.com/support E-mail:support@mogerdck.mm Telephone:520-656-6667 Fag:520-656664 Code-Compliant Installation Manual MAGERACK +Kawmrs Chapter 1 Overview Table of Contents Magerack solar mounting system is designed to support solar photovoltaic modules on pitched roof tops.The system 11 designed to ensure It withstands severe weatherconciltlons and meet the fowl and Internatlonal building codes,and yet - ChapterlOverv[ew..................................................................................................................................3 enables solar contractors to Install solar PV systems easrly,and_reduce installation time and overall Installation cost, 1.1 Magerack Mounting System andComponents.................................. ...3 1.2 Installer Responsibility...:......................:.......................................................................................................5 The system Is designed to simplify the installation process with fewer part and easy access,and helps reduce Installation time. Chapter 2Preparation of installation.........................................................................................................6 2.1 Layout Design and Planning.........................................................................................................................6 1.1 Magerack Mounting System and Components 2.2 Select Attachment Type...............................................................................................................................6 2.3 Calculate Total Mounting Components Needed................... .,7 A mounting system ma lnly consists of three parts,attachments that secure the mounting system to the roof,rails that support Chapter 3Install Attachment.............. PV module and clamps that secure module to the rails.Except lag screws or through bolts that secure attachment to the roof,all ..................................................................................................10 3.1 L-foot.............. 10 parts Come with all necessary bolls and nuts.Ail major components are made with 6061-T6 structural aluminum alloy In clear """""""'"""""""""""""'""""'""""""""""""""""""""""......".."-"""."..... "'""""' and black anodised finish unless noted.All bots,washers and nuts are made with 304 stainless steel.L-foot flashing is made 3.2 Standoff....................................................................................................................................r........:.......11 with aluminum ma in mill or blackanodised finish, 33 Tile Hook.................... � .. . ..........:....................,............,12 Chapter 4Install Rat]and Rail Connector.................................................................................................14 The components are listed as follows, _ 4.1 Install Rall...........................................................................».......................................................................14 4.2 Install Rail Connector...................................:..............................................................................................14 Rails 4.3 Level and Tighten Rail.......................:..........................................................',.............................................14 Chapter 5 Install Wiring,Grounding and Accessories................................................................................15 Magerack provides rolls In five rengths, , 5.1 Install Mfcroinyerter Mounting Kit...............»..........-..........................:.......................................................15 - 5.2 Install Wiring,Grounding and Arresscries.....................................................................I............................15 126'(10'6`) Chapter 6 Install Solar Module..................... .....16 144'(17) �• 6.1 Setup End and Mld Clamps.............................................z...:...............................,..,.,................................16 168'(14'1 . _ 6.2 Mount Solar Modules.........................................................................................................»......:..............16 204'(17') �..p,. 6.3 Connect Wiring and Grounding.......................... —..17 240°{2(') Chapter 7 Flnlsh instalratIon....................................................................................................................18 Attachments 7.1 Trim Rail...........................................................................................................................................:.......11.18 7.2 Check All Bolts.................................................................................................. .. ....... .....................18 . �. - L-footwith flashingand 7a[IL-foolwlthllashing APpendl:A.................:.................................................................._.................................................... .....19 Limited Warranty...................... ...... .... ..,.19 One(1)L-foot(or Tall L-foot) Oasis I One{3)Tall nut APPendlrr a..................................................................a...........................................:.............................20 One 1 5 ._. Engineering Certification Letter and Rail Span Tables.............. _ .. _...:20 I j /16%3"stainless steel bolt/washer One{1)5/16%1/2"stainless steel bolt/washer - ' one{I)L-foot flashing(12'x12') ti a ry Standoff Rall Splice One(1)5tandoff(3",4,6'or7'tall) ® One(1)raiz splice One(1)standoff L-foot ,One it)rail splice plate One(1)rail nut - Two(2)5/16 X 1'stainless steel bolts/washers Two(2)5/16 X r stainless steel bolts/washers Tile hook and LowTlle hook Mlcrolnverter mounting kit One(1)stainless the hook top{or low the hook top) I One{1)microlnverter mounting plate One(1)stainless the hook base(or low the hook base) One{1)mll nuts l~ One(1)rail nut One(1)5/16 X l-stainless steel bolt/washer One(1)5/16 X 1'stainless steel bolt/washer One(1)5/16X3/4'stainless steel carriage bolt One(1)5/16 stainless steel flange nut 1zSA �1 1.2 Installer Responsibility Mounting Components Installer will be responsible to MId damp . Compry with all local or national building codes;including any requirements may supersede this installation Instruction, • Ensure Magerack Solar PV Mounting System and other items of solar PV system are appropriate for this particular One(1)mid damp top installation,environment and structural load conditions. One(1)mid clamp bottom . Make sure the installation meets all local and national code requirements and the system doesn't exceed the design One(115/16 X 1'cry/16 X 11/2"stalnless steel bclt/washer parameters. . Use only Magerack parts and installer-supplied parts. . Make sure the lag screws or through bolts are to adequately secure attachments to the roof rafters or structural End clamp members. • Ensum appropriate waterproofing, one(1)end cla mp tap(various heights) One(1)end clamp bottom one(1)5/16 X 11/4-(or 5/16 x 1%,5/16 x 1 X,5/15 x 21 stainless steel bolt/washer Universal End clamp One(1)end clamp top One(])end damp bottom One(1)5/16 X 1.85'(or 5/16 X 1.61')stalnless steel flange bolt � s Chapter 2 Preparation of Installation Installer designs the solar system.With the design and selected solar panel,installer will deride what type of attachment will he 2.3 Calculate Total Mounting Components Needed used based on roof type,determine rail span and calculate rails and components needed. Portrait Layout 2.1 Layout Design and Planning The following table shows number of ralls and components needed per row,the table is based on the portrait layout and the width ofthe PV module is up to 395". Solar PV modules are supported by two rails in parallel.Rails can be laid out horizontally or vertically depending on the layout of solar .vv modules.Sofiar module can also be installed In portralt or landscape layout.See Illustration. Chart to calculate ralls and components needed per row Determine Rail Span =1,�o�fuie 4taiF-10x5' Rail-33`�R$7f ;�: .Red7F. ,Ara11�0' The tables from the Engineering Certification Letter in Appendix 264', "X4. ,_ darn dam $Ifoe illustrate the maximum tall span)spacingbetweenAlly 2 1' 2 4 attachments)under different conditions.When you design the 3 2 4 4 rail span,make sure to consider wind speed,snow load, topographic factors and other factors and your design should 4 2 6 4 be adequate to withstand the weather conditions[n the area. 5 2 a 4 6 4 10 4 2 1 2 2 12 4 2 8 4 14 4 2 9 2 2 16 4 2 10 4 18 4 2 2.2 Select Attachment Type 1l 4 2 20 4 4 Roof Type and Attachment Selection 12 2 2 2 22 4 4 Approprlate attachment should he used based on roof type.For asphalt shingles,l-fool Is the best choice.It Is easy and quick to Install.For tile,shake or high-profile composition roof or new roof,standoff may be the best choice due to height requirement. 'The rail needs to be cut In half. For high-profile tile,tele hook can be used as well, i r Landscape Layout The following table shows number of Determine Number of Attachments rails and components needed per row, the table Is based an the]a ndscape The module frame ends shall not overhang mounting rails Panel uverharq layout and the width of the PV module Rail overhang Y by more than 2545.The rail end cantilever length shall not _ Is up to 65.5.-_ exceed 30%of allowable rail span. Rag span Chart to calculate rails and components needed per row ModueB'al--Td.6' Rail—YY Rail—i4' 4iaT 11:+��A' En RaTf PS clam $]isQ . Based on the number of modules,calculate the total length of each now.Rememberto add the space for mid and clamps.Add 2 2 2 4 0.79'foreachmidclampand0.87'foreachendclamp.Thetotallengthwillbeasfollows, 3 2 4 4 4 2 2 6 4 2 Length afrow-module width-no.ofmodules+0.79'(no.of modules-1)+0.87'7 5 2 2 a 4' 2 ,E.g.,if a row has 6 modules and the module width Is 651,the total length will he as follows, 6 4 10 4 2 length afrow=65'64.0.79.54.0.87.2=395.69" 7 2 2 2 12 4 4 a 2 4 14 4 4 The number of attachment per row is as follows, 9 2 4 16 4 4 No.of attochmertt=round(length of row/span—0.67) 18 4 4 If the maximum raI is an s 6feet 72" the num bar of attachment p { �, per row is as follows, No.of atfachment=round(393.69/72—0.67)=round(4.831=5 5 attachments will he needed for each row, rt i 9 x.11 lanter 3 Install Attachment When it is necessary,flashing can be further secured to the roof with roofing nails.Lift or remove upper roofing materials,nail p .flashrng to the roof on the top portion aft he flashing and then return upper moflng materials to the original position and cover the top of flashing. Due to variety of roof types and conditions,all Masera ck roof attachments do not come with roof fasteners.Installer needs to . check the roof condition and building codes requirement to decide the appropriate lag screws or roof fasteners to make sure - the lag screws or roof fasteners are adequate to secure the attachment to roof structural elements.Please mler to the engineer letter In the Appendix about depth of penetration or consult with structural englneeror local building code for proper lag screw that should be used for L-foot,standoff and tile hook. 3.1 L-foot For composition roofs,L-foot Is the choice for simple,easy and quick Installation of roof attachment.When install L.foot,make -ni!I'N sure t-foot Is secured to the raker with adequate lag screws or through bolts.5/16 or3/8lag screws or through bolts should be used, Installer should decide what lag screws should be used to secure L-foot to the rafter.Make sure the fag screw Is penetrated Into the raker deep enough.See Appendix for minimum depth of penetration or consult with structural engineer or local building code for proper lag screw that should be used.When Install L-foot to the mot,follow building codes requirement to apply roofing sealant to the underside of L-foot base and Into boil holes. 3.2 Standoff Locate L-foot Attachment Position For tile,shake or stone-coated metal roofs,or solar panel need to be Installed higher,standoff can be used as attachment. When Install standoff base,make sure the standoff base i's secured to the raker with adequate lag screws or through bolts,5/16 or3/8lag screws or through bolts should be used. L-foot must be secured to mot raker.Please use appropriate rag screw or throug h bolts to secure L-foot to the raft.5/16 or3/8 lag screw orthrough bolts should bo Installer should decide what lag screws should be used to secure standoff base to the raker.Make sure the lag screw Is used. penetrated into the raker deep enough.Consul[with structural engineer or focal building code for the proper lag screw or roof Drill pilot holes to locate raker and avoid raker split. fastener that should be used.See Appendix for minimum depth of penetration or consult with structurel engineer or local - _ building codes for proper lag screw that should he used,When secure standoff to the mot,follow building code requirement to apply roofing sealant to the underside of standoff base and Into bolt holes. Secure L-foot Locate Standoff Attachment Position Standoffmust be secured to roof raker.Please use appropriate rag screw to secure standoff When securing L-foot to rafter,moflng sealant may be applied to the backside base to the raft.5/16 or3/8lag screw or through bolts should be used. of L-foot for additional waterproofing.Aker L-foot is secured with rag screw through the slot hole,do not tighten the lag screw so you can adjust the L-foot Drill pilot holes to locate raker and avoid raker split. position by moving L-toot vertically.Install all L-feet on the same row. _ Secure Standoff After all the L-feet on the same row are secured to the roof,adjust them to make sure all L-feet are properly aligned.After adjustment Is completed,tighten When securing standoff to rafter,roofing sealant must be applied to the backslda the lag screws. of standoff base.install all standoff on the same mw and make sure they are properly aligned horizontally,and then tighten all standoff bases on the same L-foot Flashing Four. For additional water proofing,the'L-foot flashing must be Installed.Slide the top of flashing under the upper roofing material _ Install the small L-foot forstandoff with provided 5/16 bolt.The slot hole Is ' and move flashing all the way up until the bottom of flashing Is right above L-foot base.Maya adjustment so that the flashing Is attached to the top of the standoff shaft.You can make adjust by moving the L- centered horizontally above L-fool. _ foot vertically to ensure all the standoffs In a row are aligned properly.Tighten all Make sure the roofing material must be overlapping over to 12 ft-lbs; the flashing top.Secure flashing to L-foot with provided 5/16 bolt, ' io n ,ti Flashing After all the Tile hooks on the same row are secured to the roof,adjust them to make sure all tile hooks are properly aligned. After adjustment is completed,tighten all fasteners. Use traditional cone-shaped flashing such as oatey flashing and follow manufacturers instruction to Install cone-shaped flashing properly.Secure flashing to the roof with fasteners or adhesive In compliance with local or International building code, Flashing or Instruction from roofing material manufacturer.Slide rubber rain collar through standoff shaft. Move the tiles back to the original location.If necessary,Installer may need to cut the tiles to fit around the hooks. 3.3 Tile Hook If double hashing is required,roofing paper oraluminumshee[coay be used to rover the tie hook base after It Is secured to roof For high-profile the or shake roofs,life hook can be used as attachment.When install t8e hook base,make sure the rile hook rafter. base is secured to the rafter with adequate lag screws or through bolts.5/I6 or 3/8 lag screws or through bolts should be used, Two 5/16 or 3/8 lag screws or through bolts should he rued to secure file hook base to the roof and they should be used vertically aligned through any twovertkally aligned holes on the tile hook base.Tile hook and tile hook base are attached with provided two(2)5/16 bolts and nuts with lock washers.Tile hook can be mounted to any two adjacent holes an the hook base, so there are three choices. Installer should decide what lag screws should be used to secure tie hook base to the rafter.Make sure the lag screw is Penetrated Into the rafter deep enough.Consult with structural engineer or local building codes for the proper lag screw orroof fastener that should be used.See Appendix:for minimum depth of Penetration or consult with structural engineer or local building codes for proper lag screw that should be used.When secure the the hook base to the roof,follow,local building code requirement to apply roaring sealant to the underside oftle hook base and Into bolt holes. Locate Tile kook Attachment Position Tile hook must be secured to roof rafter,Please use appropriate lag screw to secure the hook base to the - raft.5/16 or 3/8 lag screw or through bolts should be used. Remove dies where tile hook base will be attached.Try Lite hook and tile hook base at cillfe rent positions and find out the best location so that the tile hook can be secured to rafterand tile hook is above the middle valley of underlying tile. After poslllons for the hook and the hook base are determined,tighten the the hook and the hook base with provided two 5/16 bolts and nuts to 19 ft-lbs. Secure Tile Hook Base When securing tile hook to rafter,roofing searant must be applied to the backside of tele hook base.Install all the hooks on the same row and make sure they are properly aligned horizontally.Do not tighten the lag screw yet so you can adjust the tile hook position by moving the hook base vertically. u v Chapter 4 Install Rail and Rail Connector Chapter 5 Install Wiring,Grounding and Accessories 4.1 Install Rail After mounting rails are Installed,depending on the design,wiring and grounding may need to be prewired before Installing solar modules.In addition,other elements ofthe solar system such as junction box or micro-Inverters may need to be Rail Is mounted to the attachment through L-foot,the small L-foot on top praInstalled as well. of the standoff or the hook.For L-Tool,ra3 can be mounted on either side Follow the design and mare sure all elements under the solar modules are positioned or prernstalled, of the L-foot depending an your preference orconvenience.For the small L-foot on top of the standotf or the hook rail should be mounted as shown. 5.1 Install Microinverter Mounting Kit Rall Is Installed to roof attachments through rail nut.5lide rail nut Into rail Locate Attachment points channel from either end of the rail or push tall nut inside the rail channel. Mount rail to attachment with 5/16"bolt provided.Don't tighten the bolt For the convenience of Installing grounding wire or microl nverter,optional mlcroinverier mounting kit can be Installed.The yet.Install all rells along one row. mounting kit can be Installed anywhere along the rail.The mounting platform can be Installed either way as shown. 4.2 Install Rail Connector To connect two rails,insert the rail connector nut Into the rails and mount the rail connector with the rail connector nut using provided 5/16'bolt.For consideration of thermal expansion,leave a 114•gap between rails,lighten . all 5/16 bolts to 12 ft-lbs. 4.3 Level and Tighten Rail Before tightening ail bolts to the attachment,adjust the rail up and down by moving rails vertically along the attachment slots. Make sure all ralls in two rows where solar panel will be mounted are leveled and the top of rails are In the same surface. 5.2 Install Wiring,Grounding and Accessories Tighten all bolts to 12 ft4bs. Before mounting solar modules,It maybe convenient to Install all the wiring,grounding or other solar system elements.Please refer to the correspondirg Installation Instructions to install wirtng,grounding and accessories. u u 1 a Chapter 6 Install Solar Module 6.3 Connect Wiring and Grounding The solar module sbould be installed from one end to the other an each row. Connect wiring,grounding and other accessories per solar module manufacturer's specifications. For each solar module there should be lour clamps.If the module is the first or last module In a row,it Is secured with two mid clamps and two end clamps.If the module Is In the middle ofa row,it Is secured with four mid clamps.Each mid clamp secures two modules,one an each side.Each end clamp secures one module only. 6.1 Set up End and Mid Clamps Before installing solar panel,slide in the end clamps and connect end clamp top with bottom using provided bait.Make sure the end clamp site matches the solar panel thickness.Similarly,slide the mid clamps to the appropriate location and connect the mid clamp top with bottom vsfng appropriate provided bolt.The mid clamp can also be pressed Into the top of the raA,which is convenient when Installer forgets to slide the mid clamp in the rail before they Install solar panels. 0 4-0 4 VQ �Y 6.2 Mount Solar Modules After positioning the first solar module on the rails,line up the position and then secure It with two end clamps.After that, position the second module and secure the first and second module with mid clamps.Continue to Install all the models until the last module Is positioned,whlch wilt be secured with two mid clamps on one side and two end clamps on the other side.After one row of solar modules Is installed,tighten all the bolts to 12 ft-lbs. I rs tr Chapter? Finish Installation Appendix 7.1 Trim Rail Limited Warranty Trim excessive rail on both end.Make sura to leave half inch of rail space beyond and clamps, 10 Year Limned Product Warranty 7.2 Check All Bolts Magerack warrants to the original end-user c'Purchaser')of Magerack Solar Mounting System that Magerack manufactures ('Producel at the original installation site that the Product shall be free from defects In material and workmanship for a period Check and tighten all 5/16 bolts to 12 fl-lbs, of ten c10)years from the date the;rotalation of the Product Is completed or 30 days after the purchase of the Product by the originel Purchaser,whichever comes eadier. This Warranty does not cover damage to the Product that occurs during Its shipment,storage,or Installation.This Warranty does not apply to Installation that Is not performed in accordance with Megerack's written Installation instructions and design speciflcations,or installation Of which the Product has been altered,modified or repaired in a manner not authorized by Magerack In writing,or rnstaSlallon that the Product is installed In an environment for which it was not designed.The Warm ny does not apply to any Installations In corrosive atmospheric condltlons. Under no circumstances shall Magerack be liable for consequential,contingent,Incidental or punitive damages a rising d ue to the use of the Product by Purchaser under any circumstances.When the Product Is determined to be defective within Warranty Magri,Magerack not shall repair responsible septate the cost ora Y Product under Limped Warranty t e repair, r sale discretion and Magerack shall not be res onslble for the cost Oran labor and an cost associated with the repair,removal,installation and shipping or transportation of the Product.5uch repair or replacement shall discharge all of Magerack's liability with respect to this limited Warranty completely.Magerack's maximum liability is limited to the orfglnal purchase price of the Product due to a ny manufacturing or design dereets or under a ny theory Of rfability,whether expressed,Implied or statutory. For other components of the solar PV system,such as solar paners,inverters,electrical components and flashings,respective Manufacturers may provide written warranties of their own.MageracKs limited Warta my covers only its Product,and Is not responsible for any other components of the solar PV system. u ss y i Appendix B STRUCTURAL CALCULATIONS Engineering Certification Letter and Rail Span Tables PREPARED FOR: Ma erack Series SOS PV Mounting System Califomia DESIGNER OF RECORD Magerack 332 Leman Street Fremom,CA 94539 BY S E I S M I C Consulting Engineers ms B—a t A"..Sle.2fe F.U,- CA94S36 Td(510)717S773T Fm(510)M7737 Date:July 7,2011 `n x NO 071231 c w E.p. OG-30-13 x 4� �FraE Eee m "cne ck Series 101"Mounting System,Callfomla 7.7.201.1 S i S I Y I C Consulting Engineers 3M13 aonAve,Sre.zt9 RACKING CONNECTIONS TO THE EXISTING ROOF_ Fmrmnt CA 94W Tdisto)7957737 fdagerack•oomponents for transferring the rall fortes to roof framing consist of Standoff Shaft,L- Fal{57017987137 Foot,and Tile-Hoak.These components accommodate up to 318"diameter fasteners(lag screws or July 7,2011 through baits)to be used for attachments to roof framing.Appropriate depth of penetration for lag screws and material specifications of the Fasteners shall be determined In accordance to eppllcable 'INTRODUCTION codes by the project's Structural-Engineer-of-Record prior to the Installation of the photovoltaic and racking system. The purpose-of this report Is to summarize the results of.our structural calculations for the RAIL SPAN TABLES Nagerack Series 101 Haunting,System, dated'February 18, 2011. The calallations'are in accordance with the 2010 Callfomla Building Code(CBC)m4ulrements,which Is based on the 2009 Our structural evaluation of the rags and associated components Is based on analytical procedures International Sullding Code (IBC).The-support system has been designed to withstand code- only.The attached tables contain allowable spans of the rails and the maximum support reactionsprescribed forces due to the support system's own weight, the weight of the solar panels,snow loads,and wind fa for same ofthe most common building configurations with varying snow conditions and basic wind rces. speed of BO miles per hour.These tables can be used as a reference for selecting maximum tall RAIL SPANS spap lengths based on the height above grade,and lata(pitch of tie panels. The main mils which:support the solar panels shall he supported by Standoffs.at certain Irdervals. f=)ISTING BUILDING LIMIT TIONS AND EXCEPTIONS The Standoffs are attached to,the mol-framing.The maximum spacing of Standoffs (henco the The tables and Infarmatlompresented on the following pages are Intended as a guide,and only for maximmuspan•of the rails)are calculated for various loading condltlons and the results are shown the structural adequacy of the solar racking system Itself.The ability of the existing roofing or roof for B'-0•,6'-0',4'-0',and F-0'rail spares, framing to support the new loads Imposed upon them by the new system,as well as, the new Several factors that would produce multiple load cases and; load combinaLlans; have been localized forces between the rvafing and the roof framing that may be Imposed by the new standoff mresldered In our analysts.These factors iridude building height,pitch of the panels,wind exposure additional are not addressed in this report. Furthermore, this report does not address the region,wend speed,and snow loads. additional lateral farces that will be Imposed-upon the building due to added seismic mass by the new system.Prior to Installation of the photovoltaic and racking system,the user and/or project's SITESPECIFIC'ANALYS15 Structural-Engineer-of-Reoord shall determine structural adequacy of supports and the supporting structure and shall also determine compliance with applicable codes. There may be cerialn cases which will require a site-speciflc analysis to be performed In order to When installing the photovoltaic and racking systems, It Is the responsibility of the contractor or determine the allowable spans for the rails.Such rases Include,but are,oat'llmlted to,Installations professional talar Installerto'provlde waterproofing,roofing repairs,and properdralnage. over partially enclosed structures, structures having Hanoslape, Stepped, Hultispan Gable, Sawtooth,Hansard,Arched or Domed roofs,and building sites where a topogrephlc effect needs to DRAWING REFERENCES be corsidered(e.g.hills,mesas,seashore).A site-speclfic'analysLs Is required 11 It'Is found that the location of the solar panel installation corresponds to any of the following conditions; All sties,material specifications,and weights are based an'the Mageradt drawings listed below: • The solar panels are Installed at locations other.than Zone 1 of Gable or Hipped roof ORAINIHG7TTL$ DRAWING NUMBER GATE REVtSIOH conligurations'for enclosed structures pentable 1609.6.2(2)of IBC 20139 edition,For description of Zone I,see ASCB_7 Figures 6-118,6-11 C,and 6-110. pail 101-001-101/2/3 02/18/11 • Tributary width of applied loads from the photovoltaic module,Including module's'overhang, Rall Nut 101-001-201 02/18/11 to each calf exceeds 33-inches. Rall Connectar(splice) 101-001-301 02/18/11 • `The totaf slope of the solar panel(solar panel prtch•plus roof pitch)Is.gfeater than 45 Rall Connector Hut 101-001-202 02/18/11 degrees above the horizontal. Hid Clamp Top 301-002-101' 02/18/11 • 'rho-roofthe structure that the solar panels are to be.installed,owls greater than 50.feet, Hid Clamp Bottom 101-002-201„. 02/18/11 above,grade. End Clamp Top 101-003-101/2/3/4/5 02/18/11 • A combinatkin of loads and/or site canditions applies that is not addressed In the attached End Clamp Bottom. 101-003-201' 02/18/11 rall span chails. L-Foot 101-006-102 03/08/11 AS an additional smlco, Seismic Consulting Engineers can provide a standoff'spadng for a Standoff Shah 101=007-101/2/3/4 02/18/11 Particular site 1f artyof the'abovomnditloris apply to the project location. Base 101-007-201 03/08/11tlon. L-Foot fir Standoff 101-007-301 02/18/11 Tile-Hook 101-008-101-1- 03/09/11 Tile-Hoak Base 101-008-101-2 03/09/11 Page I of 3 Page 2 of 3 J• Magerack Series 101 Mounting System,callrernla 7-7-2011 MAXIMUM RAIL SPANS BETWEEN STANDOFF SHAFr OR L-FOOT 90-H&I Rafts and components of Magerack system are manufactured'from Aluminum alloy 6061-T6, 90 mph YAnd Speed(3 Second Guard,UPoauro G Magerack's nuts and bolts mounted to the Magerack rails and fittings shall,be tlghtened to 12 ft-lbs for 5/16'diameter and 19 ft-lbs For 3/8'diameter,Sliver Stainless Steel bolts. Building HL Is 30 rL or t.css Building Ht Is 31 tL to 6D 1ti Seismic Consulting Engineers assumes that the racking systems are Installed to the speclflcattons Co nditions Span Conditions Span presented In Magerack Installation manual and the requirements contained to this report- As an Ito ifq additional service,Seismic Consulting Engineers can be retained to provide structural observations 0 to 269egme Pira, 11.0 D to 26 DoWee Rich 6.0 services during Installation of racking system to confirm that site conditions are similar to that D psiGrwndSnow Lead D W Ground SrowLoad assumed In our calculations and whether the Installation 13 In accordance with MageraWS specrFicatiens.Please contact us If there are any questions. 0 to 19 Degree Rich 6.0 am 10 Dopruo Pilch 6.0 arta psr Gmutd Snow Load D-1 o psi Ground Snow Load Slocerely, 010 19 Degreeo6.0 0 19 Degree Pitch 6.0 .41-20 psi Ground Sro-Load 11-20 psi Ground Snow Load 0 to 19 Degree Pitch 0.0 0 m t9 Degree Pitch 6.0 Principal Pa R.MaJ lessl,P 2[a0 psi Ground Snow Load 21.30 psi Ground Snow Load - cipa l pa I Seismic Consulting Engineers 0 m 19 Dogma Pilch 40' ata 18 Degree Pilch 4.0 31.40 psi Ground Sturm Lead 31-40 psf Ground Snoir Load D to 19 Degree MO 4.0 0 t0 19 Dogree Pilch 4.0 41.60 pd Ground grow Load 41.6a psi Ground Snow Load 0 to 19 Degree Pitch 20 o to 19 Degree Pilch 2A 61-80 psl Ground Snow Load 6140 psi Ground Snow Load 0 to 19 Degree Pitch 2.0 0 t0 19 Degree Pinch 20 81.100 p5t Ground Snow Load 81-100 psi Ground Snow Load utdiding Ht-is 30 ft.or Less Building Hi.h 31 R to 50 R Conditions Span Conditions Span ( n 27 to 30 Degree Pitch 60 27 to 30 Degree PRch 6.0 0 psi Ground Snow Load 0 psi Ground Snow Lead w 20 to 30 Degree Pitch 6.0 20 to 30 Dogrel Pitch 6.0 0.10 psf Ground Snwr Load 040 psi Ground Snow Load 20 to 30 Degnee Pitch 4.0 20 to 30 Degree Pilch 4-0 11.20 psl Grand Snow Load 11.20 psi Ground Snow Load 2010 30 Degree Pitch 4.0 2D to 30 Degree Pilch 4.0 21-30 psI Ground Situw Load 21-30 psi Ground Snow Load 2010 30 Degmo Pitch ,4D 2010 30 Degree Pitch 4.0 31 as psl Growl Snmr Load 3t.40 psi Ground grow Load 20 to 30 Degras Pitch 2.0 20 to 30 Degree Pitch 2.0 a1.00 psi Gro rd Snow Load 41.60 psi Ground Sn Load 20 to 30 Degree Pilch _20 20 t0 30 Degree Pitch 2.0 61-W psi Groped Snow Load 61-eo psi Ground Sna%r Load 2D to 30 Degrae Pitch 20 2010 30 Degree Pitch 20 81.100 p5t Groud Sriow Load 81.100 psr Ground Snow Load Page 3013 FA8NmtjmRAI H BETWEE TAHD FF SHAFT—CSF?L 90H5-2 ,�y S+ I L+ `+ 00 no V111 d Speed(7 Eecortd RuW,Fspoeum C 1 Consultln`Q7Englneers 3715 Beacon Awe„Sta.3T5 C.&.NO,C71231 Frorvd,CA 84538 Td(510)705,M7 BulTdIng 11L to 30 R or Lees Builkling HL Is 31 TL to 50 R Fax(5 10)11 7737 DondQtona Span cooditlo" Span 3asm S.Xie fh3 Magerack Corporation p w Ground nd{naeSno Mitch, O.Q 31$Ground Dogleg Pilch 8.0 3270 Seldon Comm.92 Q psi Ground Snag Load 0 psi Gmaid Snow Load Fuemumt,CA 94539 31 10 45 D©pea Pilch &0 31 to 45 Dogree Pitch 6.0 040 psi Ground snow Load 0,10 psr Ground Snow Load REVIEW OF STRUCTURAL TESTING REU LTS FOR 31 to 45DagreePitch 4.0 311o45DegroePilch 4.0 AIEGARACKTTLE-HOOK BRACKET 11,20 pal Gr, Snow Load 11,26 psi Ground Scar load 3111045Degroo Pilch 4.0 31 to 45 Dogma Pitch 4.0 PROJECGu Tile-book Bracket PROJECT NO,: SCE-11002-2 2130 pal Ground Snow Load '21-30 psi Ground Snow Load Msgetuck Corporation 31 to 45 DW"Pitch 4.0 31 to 45 Dcgroo Pilch 4.0 3270 Seldon Court 92 31-46 par Grand Snow Load 31-40 psi Ground Srow Load FIrntcal,,CA 94539 31 10 45 D9gr&Pitch 29 3116 45Dowee Pilch 20 41-50 psi Ground Snow load 41-60 pst Grand Snoe Load We bate reviewed the results of lcadle Lad oomptessitc load tests for QTc assembled daidcls heel 19o-hook bracket consisting offt 3110 45()epee Pitch 20 31 to 45 00QM Pitch z0 Tdo-book Top and a Ttle4mk Base 01$0 pal Crowd Snor.Load 6MD pal Ground Sups Load TESTING RESULT—&Our review of the testing results is as fonon9: 31 to 45DQ"Q Pilch 2.0 31 to 45 DmgrOe Pilct z0 1. The rmv ll of tho testing shows that the Tilo•book bracket can uWpor1200 pounds wiLh 0.23 imbca of deflection,at the 81-100 st Ground Snow Load 81-1 11 I Grand Snow Load11 bracket,mil connection point,forbolh uplift and download c&u . WM 2. The 200 pounds load is the total land Qe Tde4mak bracket may support frith no firther inexc se for wind or earthquake 11 L%AA-harm ends LRaa na a whing Moosup rads by aaara don 2596 d tram cioAda baro Icnga lolling aSlontnd 2)lkoub ovintw9a Matt be symmr:r@d on 0oR elides. 31 Trb=ry wicth d applied leads,including nmdLW*gq eel.asp.10 sash muadrrg nal mho➢rocercred 33'.rdat 41 Rall and rsraner lv pdr s1u0 mt imcood 30%cl aft ublo mM afore 5)Wind load lnyorus neu('a5or 1..1 m - 6)Wird lapagaphic Factor Kw.1.00 7)Sraw load Irnpona cei tacky 6.1.00 6)Snowrrinu Jacor C,.09 9)Thenal Ieatr C6.11 L—M=' 10)L=Avid fwd irerelfbs wDaic d W anon Or03ard w+aalariiid now Wad3 tam cru been u>rmbuad The unnrecdon capxity 10 tae roof shall be dadpod by oil-ars for each specific roorconst uctio.and the install¢shall be uv pwmiblm TMaXEmtim Desifln Reactions at S19ndoffs forvaifying that dentition al the tested loaduill odbe detrimenml to the loafing ninleriaL Force Direction Reade (lb4 ` COPIESTO: Jason S.Xic,Vim Prraidmi MagemckCorontim., maibjrdeQmagerack.oem Upgh Porpon&ular to Module 446o — Dowrdace PerpandiLmlar t0 Module 478 Stem PeragaltoModula: 127 REPORT BY:KamranMajlussiREL w � 4 t DATE:July 2.2012 Iola K N0.C7t231 1)barlmuv daslgri'rmyisns am W-1 on anu ad a mel spmc'uvd incl ido,l9 baakggare sWa m?dt4w: o E rp,06-30-15 2)Am"maddme shag not eroaod dna vrlun Raped Ctv1L �r rCA Mervrk•Th:LwA Tm Repntdm 5,6 I) C. ,a z B &h. i+ e � vim; <•' w� .., 4 : d SLI'1�'ll'IO.C� 245' `2553 'alblack ` YPro.` SeYre �" i ,d.tuv.ac'i A _ TUV Power controlled: rOVaneiniald Lowest measuring tolerance in industry 'f0 0OLI of Every component is tested to meet 3 times IEC requirements Desi ned to withstand hea L � zj g v accumulations of snow and ice J XSunmodulePlus- Positive performance tolerance 25�. 25-year linear performance warranty and 10-year product warranty J • Glass with anti-reflective coating J World-class quality Fully-automated production lines and seamless monitoring of the process and material DVE ensure the quality that the company sets as its benchmark for its sites worldwide. SolarWorld Plus-Sorting Plus-Sorting guarantees highest system efficiency.SolarWorld only delivers modules thatTM_M, 6w�,aC m C us have greater than or equal to the nameplate rated power. UL 1703 25 years linear performance guarantee and extension of product warranty to 10 years Fi7:i 900 of ' SolarWorld guarantees a maximum performance degression of 0.7%p.a.in the course ' " 25 years,a significant added value compared to the two-phase warranties common in the industry.In addition,SolarWorld is offering a product warranty,which has been extended to 10 years' In accordance with the applicable SclarWorld Limited Warranty at purchase. JjJ11ii www.solarworld.com/warranty SOLARINORLD \1� solarworld.com We turn Sunlight into power. Sunmodule;,,/ SW 245 - 255 poly block j Pro-Series PERFORMANCE UNDER STANDARD TEST CONDITIONS(STC)' SW 245 SW 250 SW25S Maximum power p-, 245 Wp 250 Wp 255 Wp Open circuit voltage V 37.3 V 37.6 V 38.0 V Maximum power point voltage vwp 30.1 V 30.S V 30,9 V Short circuit current Irr 815 A 8.81 A 8.88 A Maximum power point current I-pp 8.22 A 8.27 A 8.32 A Measuring toleranre(P_,)traceable toTUV Rheinland:+/-2%(rU V Power controlled) 'STC:1000W/W.25'C,AM 15 PERFORMANCE AT 800 W/M2,NOCT,AM 1.S SW 245 SW 250 SW255 Maximum power p- 182.3 Wp 185.4 Wp 188.7 Wp Open circuit voltage V 34.0 V 34.2 V 34.5V Maximum power point voltage VmPo 27.4 V 27.8 V 28,1 V Short circuit current I 7.19 A 7.24 A 7.30 A Maximum power point current IMP 6.64A 6.68 A 6,72 A Minor reduction in efficiency under partial load conditions at 25'C--at 200 W/m',100%(+/-2%)of the STC efficiency(1000 W/m')is achieved. -x4 37.44(951) DIMENSIONS COMPONENT MATERIALS Length 65.94 in(1675 mm) Cells per module 60 11.33(288) Width 39.41 in(1001 mm) Cell type Polycrystalline Height 1.22 In(31 mm) Cell dimensions 156 mm x 156 mm Fame Clear anodized aluminum Front Tempered glass(EN 12150) 41.30(1050) weight 46.7Ibs(21.2 kg) Version 25 frame 6594(1675) bottom mounting THERMAL CHARACTERISTICS ADDITIONAL.DATA hales NOCT 46'C Powersorting -0 Wp/+5 Wp TCir 0.081%/'C 1-Box IP65 TCV -0.37%/'C Module leads PV wire per UL4703 with L TCP,, 0.45%/'C H4 connectors x4 LUI4.20(107)t 122(31) -39.a1(10o1)� PARAMETERS FOR OPTIMAL SYSTEM INTEGRATION Maximum system voltage SCil 1000 V K 1000 W/m2 Maximum reverse current 16A 804 W/m, Load/dynomlcload 5.4/2.4 kN/m2 Number of bypass diodes 3 600 W/m= Operating range -40'C to+85'C 4 C 400 W/m' a 200 W/m' 100W/M7 Module whose M V. SolarWaild USA reserves the right to make specification changes without notice.This data sheet complies with the requirements of EN 50380. 'All units are imperial.51 units provided in parenthesis. SW-01.6054US 01-2014 /Battery Charging Systems/Welding Technology/Solar Electronics SHIFTING THE LIMITS FRONIUS IG PLUS ADVANCED INVERTER WITH INTEGRATED AFCI 1, 11411!CrN T lijl nattzransforncEi] Y'.�I.AN f erlin Scrvr f Smatt G�'1 •�*�. � ,ing Tcclmnln '{Gordy � .,.a / The Fronius 1G Plus Advanced is the first complete inverter lineup of the NEC 2011 compliant AFC1 protected inverters in the United States. Power classes ranging from 3 to 12 kW in both single and true 3 phase applications with integrated Fronius MIX Technology and wide voltage windows are the perfect snatch for your system design. TECHNICAL DATA: FRONIUS IG PLUS ADVANCED (3.0-1UNI,3.8-10N1,5.0-1UNI,6.0-1UNl,7'5-1tJNd INPUT DATA � P �'�' 3.01;:p . r, r ;1�, > a3,8`14��4�ti• 'c`' �N. VIII�•'�'.� •µ VNi:1w• I Recommended PV•Pawer(kWp) 2.50-3.45 3.20-4.40 425-5.75 5.10-6.90 I 6.35-8.60 ' Nonrip;71 lr -u Gurrut!''-` 8.3A - IDSA •I• 5 Max,Usable Input Current 14.0 A 17.8 A 23.4 A 28.1 A I v 35.1 A % �` DCStarlup 260 v ' M. In In:Vo11`i c' -` _+ 1 n 6951 V - �r1�-t - ' Admismble Conductor Size(DC) No.14 to 6 AWG.For larger wire,use rronius connecting distributor. hla>.Cuir'entper DClnlimTerminal 2D Ara,a For Li her input current,IJ5VFrOniU54onnwin+dishbut 6UTPi1T DATA,{, •,r � - 301 387 5.01= -11 7421 *tr 1�k °7VNIgflNl' 6N1 a Norrlinal Output Power 31000 W 3,800 W 5,000 W 6,000 W 7,500 W hlax.Crnitinuous Oul el POWff: 3,000 W i 3,800 W t--, En W 6,oba W'�`<u AC Output Voltage 2081240 f 277 Number oLl'hass II 1 ,,,1 .. Admissible Condnetnr Size(AC) No.14-4 AWG M.rx,Cuntinuutati Utilil `7l,lel.fccil Corrects `;a OA � ' Nominal Output Frequency 601i? I O eraiin Frequency Ruu•c. ' , Yt. 9�•60,5 Hz-_• ei�( _ _ Total Hannouic Distortion -3 9. Corner+Factor - 485-um I Ca GENERALDATA�i'-". is°a I 3 0.1""'L' x13.8=1' 5.0 1 6.0 uxti- ,unl ,r ax, Max.Efficiency 96.2 96,2 Uuit D-inrcnsions W x H x 0'- 17,1 x 26,5 x 9,9 in,' 17.1 x 26j,'-,9.9 in. '-,17,1 c 313.1 x 9.9 in. ' g 1Z];x_3R,]ii 9:9 in: •,a7.1 x 38.1 z 4.y in. CEC Efficiency 208 V 95.0% 95,0% 95.5% 95.5% 95.0% _ 240 955% 95.5% 95.5% 9L,0 95 - 95,5% - 277 V 96,0% 96.0% 96.0% 96.0% 96.0% C`o5tsuni 11011 tri stautlb'Ni ht s g �g,r a't rw <LS W Cnnsopml inn During Opmal ion 8 W 8W 14 W 14W 14 W t:nnli.- - Coal rolled!'iircnrl vepl 11m ion,varGehlerr•d s . fin Enclasurc Type NEMA 311 Puwcr slack YWit;lri - 31 lbs. 14 k o 31 lbs. 14 1g) 57 1b5. 26 Lgj 57 4- 26 kg 57 lbs, 7G k Wiring Compartment Weight 24 lbs.(11 kg) Admissible Arnbiew O eratirt TeM erasure -1 °117,+131°E -25°C-,55g C Advanced Grid Features Active and reactive power control,loin voltage ride-through + UT,17�a-?lJ10,JEF,L• 15a72003;1L'LG754R3 U[,4P,' Il•2013,ANSIf1ESECfr�;a1 I('CPart 15 A'&)3; C1� n CnmplhriCe - Nn [07.1W(S1:pj'20111('alirorni.r S,dar iniuvrve PeQ-mrn Uajy( - Appendix C:]uvr+.rrrr�]A�tg[:i1 5`�S hlrlSl�Pr�otmipre Spucifwation TECHNICAL DATA: FRONIUS IG PLUS ADVANCED (3.0-1UNt,3.8-1UNi,5.0-1UNI,6.0-1UNI" .5-1UN) EFFICIENCY 3:D-1aa� 3.S-1�Ni 5.0-lout 6.0-1a,�, 7.5-due { Operating AC Voltage Range 209 VI 183-229V(12/+10°6) f _40 L 64 V 2 +10 ) 277 VI 1244-305 V(-121.10%)j 1 Max. nntitnt s(tut ur Curr m E 8 14.;A 18-3 A 4.UA A A 240 Vj 12.5 A 1 15.8 A 1 20.8 A 25.0 A 31.3 A 77 IQ&A 1'1.7A ]$.lA 21.7 27.]A PROTECTIVE EQUIPMENT 3.0 Zu�t 3.8-lYNt 5.0-1ya[ 6.0-10 7.5-1uH+ Ground Fault Protection Internal GFD](Ground Fault Detector/Interrupter)in accordance with UL 1741.2010 and NEC Art.690 tKI,K-VF-5 0.0lant $rotetuon lntenml D p e Islanding Protection Internal;in accordance with 1JL 1741-2010,IEEE 1547-2003 and NEC ();-e.tKTrm ra I ure Ptntectinn ut ul Merderann aei ve co Ln AraFaul[Circuit Protection Internal AFC[(Atc-Faalt Circuit Interrupter);in accordance with UL 1699 Outline of Investigation for Photovoltaic(PV)DC Arc-Fault Circuit Protection Qssue Number 2,January 14,2013) TECHNICAL DATA: FRONIUS IG PLUS ADVANCE D(10.0-1,N1, 11.4-1110.0-3uN1 DELTA, 11.4-3uNI DELTA, 12.0-3 WYE277) INPUT DATA 70.0-1Qpt 11.4-7ext 70.0 3uar DELTA 11.4-3dtil DELTA 12.0-3 WYE277 E lrecornmendcd PV-Power(kWp) 5.50-31.50 9.70-13.10 8,50-11.50 9.70-13,10 10.20-13,80 N m nal n uturreq A l,iA 1. A14 A .1 A ` Max.Usable.Input Current I 46.7 A 53.3 A 46.7 A 53.3 A 56.1 A jjjPI'T V AA 1C R n ry 30 50 V 1 DC Startup I 26D V i Admissal Conductor Size(DCS i No.14 to 6 AWG.For larger wire,use Fronius connecting distributor. 1\t -r r 1 r Il l m Ien real ,0 n ,for L1 Ler lr urre•nt u trou s calutesillu it OUTPUT DATA 10.0-7aat 17,4-1s�1 10.0-3yut DELTA 71.4-3�Kt DELTA 72.0-3 WYE277 Nominal Oulpnt Power 9,995 W 11,400 W 9,995W 11.400 W t 12,000 W � M r trnY us ul tot wt..r 9 9h W 1 00' 7 95 W 11 4 O W 32, W AC Output Voltage 208 1240 J 277 208/240 1277 208/240 ? 208/240 I 480/277 WYE ronbT 1 1115.. I ufil�ll` 3 Admissible Conductor Size(AC) No.14-4 AWG Mux du tiln 87eed Curren[ OA Nominal Output Frequency 60lfZ rRl t r r Ren Ron � 6 .`1l! Total Harmonic Distortion �3 45 Pwr tr 0.85 lnkl. GENERAL DATA li 7D:0 lupi 17.4-�uul 70:0-3uN1 DELTA 71.4 3ury1 DELTA 72.0•3 WYE277 ` Max.Efficiency t 96.2 Umt fur nss t x'li.x1D 171�x 11 .7 .9 rn. CEC Efficiency 208 V 95.0% 95.0% 95.5?s 95.0% n.a. + M41 9F :5EMENEWT6., n 277V 96.0% 96.0% n.a. n.a. 96.0°b 1 n1 tr n rn t d Ni 1 &M-1 WY Consusnptlon During Operation 20W I Co 1u antral) d forced vutilauon,variables eed�an Enclosure Type I NEMA 3R Ill 71 Wiring Compartment Weigbt 1 26 Ihs.(12 kg) I t rnitis� Am 07nt v77, T7m is Advanced Grid Features Active and reactive power Control,law voltage ride-tbrougb ' Vj 1741 l0,I 151 S,]EIT 1 d7...i1 l6'J 1 l0l ,AN IJICL'L'46 .41, r 1 A&ll,NEt°+An 1r1e 69 ,L[ 1 of 1 7 1 0 _ 11} Ir Drum Solar Pmu1 ProR Ir audbaq Append x G s rl r lute 15 Met I'r ornra t anon i a , TECHNICAL DATA: FRONIUS IG PLUS ADVANCED(10,0-111NI, 11.4-1UNI,10.0-3UNi DELTA, 11.4-3 UNI DELTA, 12.0-3 WYE277) EFFICIENCY 10.0-1aN 1,1.4-1NM 10.0-3�w DELTA 11,4 3Nv DELTA i2.0-3 WYE277 I Operating AC Vohage Range 208 V ,183 229 V(.12/+10%) ' 277 V 244•305 V(•12 f f10%/ Lix sr ut uuPn 4 l 4 A A" J [ � i 240 V 41,7 A 47.5 A 24,0 A' 27.4 A' n.a. ,t A a I n,� n :,%I= PROTECTIVE EQUIPMENT 10.0 INNh ii.4-lgNt 10.0 3[Nt DELTA ir. -3UNI DELTA 12.0-3 WYE277 Ground Fault Protection Internal GM(Ground Fault Detector/Interrupler)in accordance with UL 1741-2010 and NEC All.690 D rt t r n0000F. rMMt [standing Protection Internal;in accordance with UL 1741.2010,IEEE 1547.2003 and NEC 1 O r cru rata[ Yrol c[ioa i t a r l o m ' Internal AFCI(Art-Faul[Circuit lnterrupterl;in accordance with UL 1699 Outline of Investigation for Photovoltaic(PV)DC I r Aco•Faolt Cireu4 Protection Arc-Fault Circuil Protect ton(Issue Number 2,lanuwy 14,2013 y E n e €, a— �v w � a Q y E `o Battery Charging Systems/Welding Technology Solar Electronics WE HAVE THREE DIVISIONS AND ONE PASSION: SHIFTING TH LIMITS. I � Whether Battery Charging Systems,Welding Technology or Solar Electronics-our goal is clearly defined:to be the technology and quality leader. j With more than 3,000 employees worldwide,we shift the limits of what's possible-our 737 active patents are testimony to this.While others progress g ? step by step,we innovate in leaps and bounds.Further information about all Fronius products and our global sales partners and representatives can be found at wwwfronius.com F Fronius USA LLC 6797 Fronius Drive Portage,IN 46368 USA pv-usa@fronius.com _ www.fronius-usa.com f Battery Charging Systems J Welding Technology/Solar Electronics r SHIFTING THE LIMITS FRONIUS GALVO J The first and only WI-FiO*enabled lightweight residential inverter. .. : t t 7 ,= ! 72 c 1-C� 'c tion _- Rcgd , f The.Fronius Galva, is a residential inverter that disrupts the industry while providing a super wide voltage window i allowing for the most flexible string sizing opportunities. Paired with the revolutionary Fronius SnapINverter hinge mounting system which allows for single person install times of less than 15 minutes,With power categories ranging from 1,5 to 3.1 kW,the Fronius Calvo is perfect for small residential systems. TECHNICAL DATA FRONIUS GALVO j ROW , INPUT'DATA , c t 'GALVO,1.5 5 1 . tiALVQ 2 0 1 's GALVW2 5 1'� ' GALVQ 3 1 1 t_� g_s n n,fi ! DC maximum power 1,600 W 2,140 W 2,650 W 3,310W in to.�'urrl-nt i' 1 - '1;33 A" ,r 17,AA A _-MSE= z=: 20,7"A h a Max.array short circa it current 20.0 A 26.A A 24.8 A 31.0A .AffF�ut u'-'olY'a •,i- -`-L ,V"` Fwdinstart voltage 120 v 165 V Nommahru"ut vGlCu e °»€ -"" aG ,1 13 . Max.inpul voltage 420V 550 V I6 AU Vx. , Number or DC connections 3 MIMI OUTPUT;DA�TA i� ;a GAEV0�5 1 �1GA1V0 2 0 1 s�` GALVU'2 5 GALV 3 1 1 et + .ly AC nominal output I,500 W 2,000 W 2,500 W 3,700 W I ,htnxPnu ut'- �r�' , .> 1500Yp."z',' v ,..-° Aa ,'00-VA-•� :... ,.---'�-. ;100 V.A.^.� . Max.output current 7.2 A 9.7 A 121 A 15.0 A ` rc,"n ctinocfltt� AP: V> t � i Number of Phases I .. ° ,.,� - FiCd�encg' °3,.e _ - 6011A Is , Operating FrcquencyRange 59.3 60.5I1z "ot fharn' tl- 'atortiotxs Power factor 0.85-I ind, cap. GENERAL DATA ® ( s a, GALVO 1 5 GALVO 2,00,' ,4) 1 GAEV0;2. T 6AEVOP3 T T a aDitnensinns(height x-idth x depth) 24.7 x 169 x 8,1 in Enclosure rating NEMA 3R Elevation f- •. - -G,7 fl !. _h'_ L Overvollage category(DC f AC) 2/3 .. o -. nil ,- Inverter lerhneogy High frequency transformer € (lnnling Installadon = Indoor and ouldnor installation �m 1 r.nt tcmucrdturG rmgc-� '", � - 1"- 29- +50'°C,, :F: Permitted humidity 0 to 100% DG tonYue4li na'„' -�-K7iieejcrrw!civou9l'c�' to ho in IN(y 3;5'``wG G:.a AC cunnection Screw termin,d connection AWG 14-AWG 6 Y"t7+2010,1fL1998,IEEE 7547 2Qga IEEE 1547,1,ANSI�lYr�06'2.4:1 rCC.[°sKE 15 A Rr R,ta>:C`.A['t,"6aq ,Nu,107.1 Oli �t:rr!6r t and t nm]rh n F .ith 1nnt71 ts_( � _ 3 �_:iPmher 2gf1] OCl 9113."SN .2 •I'he term Wi-Fids a mgtslercd trademark of rhe Wi.Fi Alliance-_ FRONIUS GALVO 3.1-1 EFFICIENCY CURVE FRONIUS GALVO 3.1-1 TEMPERATURE DERATING 98 . v 96-Z ...................:.........:... .._...i... s,ao-o- LLw 94 i......... .. ......—i........ .... .... ....a 2,500 ...............r...- ....... 90•tE--.. c ... ?.. ........ .......-.. 92 2,000,: ..._ ...... ...... _ ..... ... ....... ..... 88 ...................i.........i,.._....._.... .- 1 ...............5.. t 86'.,.... ... .....::.... .i-„.,.., ......i . ..._;....... ._.- __. ...., 1,OOO.i-...............5............ ..<........_.....<..............;................ ............... i.. 0 10 20 30 40 50 60 70 80 90 100 20 25 30 35 40 45 50 STANDARDIZED OUTPUT POWER ■165 V ■3.70 V r 410 V AMBIENT TEMPERATURE j'Q ■365V ■330 V P 440V TECHNICAL DATA FRONIUS GALVO EFFI[IENCY � !, ', GALV[3 1,51 GA VO 2,0.1 GALVO 2.5-1 G�IVO 3.1@1 I 'e Max,efficiency 95.9% j 96.0% 96.1% 96.1-A 9.55.010 , f _MPPT efficiency ---99.9% PROYECTION DEVICES GALVO 1.5 1 G1#LVO 2.0-1 GALVO 2.5 1 GL1LV0 3.1st DC operation modes Ungrounded/neg.grounding/pos.grounding -G IL Fain. nlc n LIni.rn;il 7] (:cn'tiaA`Ci,Yill� ei: nr IrUrrreamr;n- ed,•rn wi h,17 1741 Ol N JO , DC isolation measurement integrated Ph vu i Ar rLw l'-pr Ui:nan [nt-nTal AFCI:T•""1'Ar'F;iuh'�i uiliin[L"rrti L r-iii;icc an xv t L7 94�- ”tui_ l0'1 nd CSA M vru ?:1 0 9 DC reverse polarity protection Yes '�.11:1andi mL tti a �°"- atlienial;"iu acinrdari-'withUL 174 EO,.Itkk 1 47.<2003'and•N8 Over temperalure Output power deraling/active cooling J IP P! 11 coli 1111TEHFACES �! r t III ��11 1 GALVO i 5`1t' GALVO 2.0.1 GALVO 2.5.i GALVO 3.ie1 Wi-Fid"/Ethernet LAN Fronius 5olirweb/Tronius 9blarweb,J50N e .c '4,1i la glut a, � Enc m�n3aN[net(i"_ irs -[ _ USB For USB sticks 1 a ry i 2x x 4 2•k a5 oeketa FrbnN Solar 41 rn al Damlogger lnd WcI server lududed - � �L I =_ 9 /Battery Charging Systems/Welding Technology/Solar Electronics - WE HAVE THREE DIVISIONS AND ONE PASSION: SHIFTING HE LIMITS. , t w /Whether Battery Charging Systems,Welding Technology or Solar Electronics-our goal is clearly defined:to be the technology and quality leader. c With around 3,000 employees worldwide,we shift the limits of what's possible•our more than 850 active patents are testimony to this.While others progress step by step,we innovate in leaps and bounds.Further information about all Fronius products and our global sales partners and representatives x can be found at www.fronius.com - - Fronius USA,LLC 6797 Fronius Drive Portage,IN 46368 USA pv-usa@frorlius.com www.fronius-tisa.com y .y F• b Magerack Technical Datasheet L-foot with Flashing Parts: Material: Extruded aluminum alloy 6061-T6, aluminum - One(1)L-foot or Tall L-foot 3003-H14 - One(1)rail nut Finish:Mill finish,clear or black anodized - One(1)5/16 X 1"stainless steel bolt/washer Ultimate Tensile:38 ksi - One(1)5/16 X 1/2"stainless steel bolt/washer Yield:35 ksi - One(1)L-foot flashing(12"x12") Installation:Use anti-seize and tighten to 12 ft-lbs of torque Load:Loads are given for the L-Foot to beam connection + only;be sure to check load limits for L-foot, lag screw,or �- other attachment method. Part-# Description Finish W ht(LB} 101-006-101 L-foot with flashing(L-foot,rail nut, 1" Clear 3.5"-4.2" 0.665 bolt/washer,flashing,1/2" bolt/washer) (89-107 mm) 101-006-102 Tall L-foot with flashing(Tall L-foot,rail nut, 4.5"-5.2" 0.705 1"bolt/washer,flashing,1/2"bolt/washer) (114-132 mm) 101-019-101 L-foot with flashing only(L-foot,flashing, 1/2" 2.24"—2.87" 0.575 bolt/washer) (56.9--72.9 mm)** 101-019-102 Tall L-foot with flashing only(Tall L-foot, 3.24"—3.87" 0.615 flashing,1/2"bolt/washer) (82.3-98.3 mm)w* 101-006-201 L-foot with flashing(L-foot,rail nut, 1" Black 3.5"-4.2" 0.665 bolt/washer,flashing,1/2"bolt/washer) (89-107 mm) * 101-006-202 Tall L-foot with flashing(Tall L-foot, rail nut, 4.5"-5.2" 0.705 1" bolt/washer,flashing, 1/2" bolt/washer) (114-132 mm) Height is the spacing between rail top and attachment bottom(the space clearance between bottom of PV module frame and attachment bottom). **The height is the spacing between bolt slot and attachment bottom. sales@magerak.com .-- n 510-656-6661 Mageracic Technical Datasheet Rails Material: Extruded aluminum alloy 6061-T6 Finish:Clear or black anodized Ultimate Tensile:38 ksi Yield:35 ksi Installation:Use anti-seize and tighten to 12 ft-lbs of torque Warranty: 10-year limited warranty Part# length Finis WeightB) 101-001-110 10.5'(126") Clear 9.13 101-001-112 12'(144") 10.43 101-001-114 14'(168") 12.17 101-001-117 17'(204") 14.77 101-001-120 20'(240") 17.38 101-001-210 10.5' (126") Black 9.13 101-001-212 12'(144") 10.43 101-001-214 14'(168") 12.17 101-001-217 17'(204") 14.77 101-001-220 20'(240") 17.38 wles@maerack..co nnAG C�( sales@magerack.com 'rte n 514-656-6661 milli!i i •Irl ERITECHO Stamped Bonding Lug Features . . war- e used for attaching the 1 • and:securing the conclucto installationto simplify Provided with all hardware shown Stainless steel ERITECH® brand of solar bonding lugs are designed to'bond_the frames hardwareand mounting structures of solar photovoltaic systems in accordance include'include's serrated with NEC® requirements. These lugs are corrosion-resistant and galvanically compatible with copper grounding conductors and superior . .nd aluminum photovoltaic module frames. to annodized aluminum The solar bonding lugs are supplied with.the required mounting hard- ware and are easy to install_ The stamped lug has a fay-in feature Lay-in feature is that allows the positioning of the grounding conductor along multiple ideal for installa- frames prior to securing the wire. In'addition, the same hex head underneathpower driver can be used to install the lug to the frame and secure-the module frames wire into the lug. Accommodates 14SolAWG ' EL60 14 155 1- str C°FFer Alloy • • • - grounding conductors Approvals. LJL11 4 • - • C' VI. us LISTED cULus Is a registered trademark of Underwriters Laboratories,Int. N EtO Isa regliteied trademark of,and National Electrical Code(NEC')standard Is a eopyrfghtof the National Fire Protection Assodatlon. WARNING ERICA pro %as shall te'IruWlled and used only as Indicated In ERICO's product Instruction sheets and training materials.Instruction arc avaRable at wvwr erled.com and from your ERICO customer service representative.Improper Installation,misuse,rnkap- pllration or other failure to completely follow ERICO's Instructions and warnings may cause product malfunctlom property damage. serious bodily Injury and death. Copyright 02069,20i 0 ERICO International Corporation.All rights reserved. CADDY,CADWELD,CRITEC,ERICO,ERIFLK ERRECN,and LENTON are registered trademarks of ERICO International Corporation. www.erico.corn 1=13® 1974ir.1inx ®IILT1aAWDl IOLO IG 1 2 3 4 5 - 6 33.10 ±0.10 ABCDE A A U FI LO u7 h B 8 38 Unit: mm Note Part No. Dimension Weight �` 1 inch = 25.4 mm A 101-001-110 3200 4.190kg 101-001-210 ' 101-001-112 B 3658 4.790kg �•. 101-001-212 0 101-001-114 4267 5.588kg 101-001-214 C 0 101-001-117 5182 6.786kg C 101-001-217 E 101-001-120 6096 7.983kg 101-001-220 UNLESS OTHERWISE SPECIFIED: FINISH: DEBURAND DO NOT SCALE DRAWING REVISION A DIMENSIONS ARE IN MILLMEIERS BREAK SHARP SURFACE HN6H: EDGES TOLERANCES: LINEAR: pNGUTAR; NAME - SIGNATURE DATE TIME: M a g e ra c k DRAWN D CF1KD Part Number: APrrD 101-001-110,101-001-112,101-001-114, 101-031-117, 101-001-120 101-001-210, 101-001-211101-001-214,101-001-217, 101-001-220 MFG GA MATERIAL: DWG NO. 6061-T6 Rai 1 2 WEIGHT: SG.LE:1:] SHEET 1 OF 1 t= tu Maximum roof toad 298lbsffl iviax[mum point load: 22.38lbs,attachment (Y- El 10j"ETER" � �� �'AN MAGERACK Model: Solafflorid Poly SW 250 MA&E N6 O I A N L A SYSTEMS Weight: 46.7 Lbs Width: 39.41 inches ^ Length_ 65.94 inches MOUNTING CLIP V}7! MA&E-RACK ALUM. IIIIII 7C180 ENTERPR15E DRIVE SUPPORT RAIL Q NEMARK, CA C-14560 SOLAR PANEL. F: (51 Q) 4<14-'�`�82 � COMPI-IINGLE : (510) 116-1541 SIN&LEN � �vww.rleedar®of.c®m --- CA L I CENSE NO.# 468! I-I 160 2x(o RAF'T'ER � 3 e 16" OG TYP 0) PROJECT: 12 W/ PLYWOOD SHEATHING INTO RAFTR(S)2 BOLcn MIN. ! W PENETRATION A/ROOF U{ SEALANT,TYP. 0 tu � DRl VEWAY -' (D.ATT1�1 SIT STA I L LE Zxa RIDGE ({�} / / y COLLAR p 4 i-!171 �}1-17I IJ! Yj ii I y�ii 4e Ix6 4dWLLAi� �l @ 48" OG, TYP. tL LL I (5a) QTY ATTACHMENTT 2 / 10238 L CT POINTS 72" OG _ ! �i Poor- ! 2X6 c� 24 OG, , TVP. W/ PLYWOOD 4 CA dy *VAULTED CEILING I �. JOB 20126.00/20127M _� . _ "isoL IOTY o uL CITY C>F C U P lE RT i 1�.1I tom► . �� 50 A 6.00 kW Dc 6x12 BEAM - ROOF VENT, TYP. 0 0 0 2xb PURLIN WI PURLIN BRACE LABELS a 0 ° a 12" OG [NEC,&W.l r �, At,juunctlon and combiner boxes, on DG 4 AG discnects ° ° ° ! e OILING JOIST, TYP. 'WARNING ELECTRIC SHOCK HAZARD. EMT ON ROOF VAULTED CEILING DO NOT TOUGH TERMINALS. 0 0 0 2x6 a 24" OG TERMINALS ON BOTH LINE AND LOAD SIDES 0 0 0 C o BEARING MAY BE ENERGIZED IN OPEN POSITION" 0 0 a 0 WALL, TVP. dt o 0 0 ° t .�`�, } FT I AT MAIN IRVIGE PAIL 0 � � THIS ELECTRICAL SYSTEM 15 ALSO SERVICED �_. . BY A PHOTOVOLTAIC SYSTEM LL SHRUB, TYP. O [NEC 640.14(C}(1}] WINDOW, TYP. tX If DC disconnect is located other than at main panel. .TINCTION SOX (!6"x16"xbit I25A LOAD CENTER B UNDER EAVECONDUIT ®DG Disconnect Is located at. . .0 BELOW MAIN PANELI INVERTER S 125A LG'st4D CENTER A [NEG 6qOa&{B},690.1�KDX4},?05.10 MAIN PANEL INVERTER A � METER ,.. >" z If mals service cid PV inverter are not in the soma location. w ...., ti.l _ _ Solafl+Vorfd PolySW 250 Solarworld Fol SW 254 N ILF,�INCti 3p`l#�GT UL1703 UL1703 u� � Q/ Main Serviced is located at. . . EXISTIN& SHRUB TO 5E GAS MAIN Power 250 YV Poor 250 i1! :: REMOVED BY CUSTOMER. COMBINER BOX �� PY'Disconnect 1 at:., � 37.6 Voc,34.5 Vmp,24 Vnom 37.6 Voc 3D.5 Vmp,20 Vnom �' ,� . � W DG Disc t I at. _.� GATE (LOGKEP) 8.81 Isc,8.27 Imp 8 81 Ise 8 27Im UL EXISTING DOWNSPOUT [NEC bz10.14{GJ(2}] 640 V,UL E42728,NE10A 1,2 3 4 4x,6,12,13 600 V UL E42728 NEMA # 2 3,4 4x 612 13 i!1 On AC Disconnect. PE OAC PHOTOVOLTAIC D15CONNEGTA Fronius-IG PlusA 5.0-240V 1,' ,� ., Fronius Galvo 1.5 1.240V ~ [NEG 6�10.14{G 2)lUL 1741.,NEMA 3R,IEEE 1547 UL 1741,NEMA 3R„IEEE 1547 � On DG Disconnect. AZIMUTH I80` Nom Voltage 240V Drequired conductorampacity Nom Voltage 240V DCrequiredconductorarnpadty Q OVO PHOTOVOLTAIC DISCONNECTA FROM NORTH Max Current 20.SA [NEC694.8(B)(1)]: Max Current 7.2A [NEC69€'4.8(B)(1)]: (8.81)(2)[1.56)=27.4 A _ (8.81)0) S.�a€zJ=13.74A � [NEC 640.59] iviodutes per Strin �9 Modules per String 6 On DG Disconnect. � � Strings per Imerter 2 AWG#14;derated ampacity: Strings per Inverter 1 AWG#14,de rated ampacity: -1 COPERATIN6 CURRENT: Number of Inverters 1 (40)(4.82)(1)=32.8A Number of Inverters 1 (40)(476)(1)=30.4A `� �- � OPERATING VOLTAGE: Record low tem 19'F Record low tem ITF MAXIMUM SYSTEM VOLTA&E: k i I Temp Coefficient -0 37/ 32.8A>27.49A,therefore DC wire size s valid. Temp Coefficient -4 37% 30.4A>13.74A,therefore DC wire size IsvaIid. SHORT G{RGU1T GU � SCALE I/a I Operating Current 16.54A AC required conductor arnpacity Operating Current 8.27A ACrequiredconductor ampacity [NEC,6405(C)] Operating Voltage 274.5 V (20.8)(1.25)=26A Operating Voltage 183 V (7,2)(1.25)=9A Q At the Inverter eidlor ground fault Indicator location(and all Voc(Temp. Coefficient) 378 74 V Voc(Temp Coefficient) 252 5 V � Short-Circuit Current 2243A AWG#10,de ratedampacity: ShortCircutCurrent 1141A A # deratedampacity: I battery locations). :. (40)(0.96)(1)=AZIA ,�. . •�;' .. (44)(0.96)(1)=38.4A CAARNIN6 Max AC Output Current 20.8 A Max AC Output Current 7.2 A ELECTRIC SHOCK HAZARD Operating AC Voltage 240 V 38.4A>26A,therefore AC wire size is valid. Operating AC Voltage 244 V 38.4A>9A,therefore AC wire size is valid. IF A G FART 15 INDICATED, PHOTOVOLTAiC ARRAY A NORMALLY CONDUCTORS MAY� 1ZED AND UNG EDA [NEC bt10.55(F)] � At Is junction box,combiner box,disconnect and device rihere I ... 4 DSOA EWS f the ung-ounded circuits may be a lN6 d during service. COMBINER Box INVERTER A 3 INTEGRATED '�*IOOA DPB � E1�GTRlG SHOCK HAZARD. {X THE DIRECT CURRENT CIRCUIT CONDUCTORS OF THIS STMNS I DC DISCONNECT D HOMZI00 G PHOTOVOLTAIC POWER SYSTEM ARE ¢ W/Ira OFD1 d AFG1 �' UNGROUNDED BUT MAY S ENERGIZED ( {1J IOOA DPS WITH RESPECT TO GROUND DUE TO I 2 T.-I � (�sl-l2lf�ECTIOrIAL UTILITY METERS A c I PHASE 240V STRiRIG '� 10236 MODULES: (24) SOLARWOR.LD SW 250 P 4 I I- 1 a IRO,FREE AIR THIA -2 IN � THINN 2 IN �Q (� POS= BLACK 5/4"EMT S/4"EMT LINE INVERTER (1) FRONIUS GALVO 1.5-1 NEG=WHITE Ryan,#10 1 AW6#IO (� IOOA DPe l AW6#6 POS z BLACK Ll -BLACK (1) FRONIUS 16 PLUS A 5.0-1 G=BARE CU EGG L2=REO EXISTiN6 NE6=WHITE J �#6 N -MITE#8 INSTALL NEW ® 1025, 6REENLOAD CENTER A 200 A RATE37FEVEIZAL lPlC � NOTES D I25A 0- RfiAIN SERVICE 7, ISA DPs i -I2 P ALL SUPPLIEL7 EQUIPMENT 15 UL LISTED. I 48 D 10 HOM2�0 _ 2013 CALIFORNIA $UILVIN6 COPE PHOTOVOLTAIC ARRAY H XIRIGTtON INVERTER S iNTE-GRATED '° IOOA DFiS "RELOCATE(2) 100A � 2013 CALIFORNIA ELECTRICAL CODE ` a Box DG DISCONNECT THM-2 IN CIRCUITS TO NEW LOA1? � 200 `+ ENERGY COMPLIANCE �T-24 SQ A HOM2100 r W/IN'T'ERNAL&rVI d AMI 2.5'EMT NEW.IF NO CENTERS TO MAKE ROOM <.` L,iI BLACK EXIOTr� r-c�SOLAR I 2011 NATIONAL ELECTRIC GODS r r .� I 2 •.. b - ELECTRODE tL �. :x...::,... _ G ° c • AY1G#4 STRING I N� '� �'`�" � 0 PERMITTING , ,l�rl ORE 03/25/14 1 INVERTER CHANGE ORE 05/01/14 U! AYSIS#10THM-2 IN IN K AIR gT1� 1 1 �.t .RTINO AY49#10 NEG= MITE POS A0119#IO LI =BLACK AW6#h POS= BLACK LZ=RED G fi 6 s BARE Cl)EGG AM yrs ITE N s WHkTE INSTALL RAW lS11C1111C4f C1TPC?E 6 x GREEN 6 #� LOAD CENTERS ' PLAN PM: GN l,1ARE D 125A HOM12LI25RS PLOT FLANF.. t7a _}ori#tii l l/1 l ' FOR�.ODF-- /-� SCALE 11° k .. Vii / 011 ? lE3 ��= r zr�_� i- 20!4 PETERSENDEAN ROOFING 4 SOLAR SYSTEMS, INC. ALL RGHTS RESERVED