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10070171
CITY OF CUPERTINO BUILDING PERMIT BUILDING ADDRESS: 7503 TIPTOE LN CONTRACTOR:QUALITY FIRST HOME PERMIT NO: 10070171 IMPROVEMENTS ^WNER'S NAME: KOU-CHIN CHANG 6545 SUNRISE BLVD STE 202 DATE ISSUED:07/26/2010 .,WNER'S PHONE: 4085824708 CITRUS HEIGHTS,CA 95610 PHONE NO:(916)788-2921 0 LICENSED CONTRACTOR'S DECLARATION JOB DESCRIPTION: RESIDENTIAL 0 COMMERCIAL° License Class�,C'1 ')C59 Lic.# O�S' � a(-- INSTALL 2 PANELS TO EXISTING 20 PANEL SYSTEM Contractor • . �1� ` Date 7 I 2"/2.tx-D I hereby affirm that I am license 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 the performance of the work for which this permit is issued. Sq.Ft Floor Area: Valuation:$34000 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:35928008.00 Occupancy Type: permit is issued. APPLICANT CERTIFICATION I 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 city and county ordinances and state laws relatin; WITHIN 180 DAYS 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 DAYS FROM LAST 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 Issued by: L, /LJT"lI granting of thispermit. Additionally,the applicant understands and will comply Date: g g Y with all non-point source re , per the u rtino Municipal Code,Section 9.18. 110 1/2-(.17-01,0 RE-ROOFS: Cignature Date 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. 0 OWNER-BUILDER DECLARATION Signature of Applicant: Date: I hereby affirm that I am exempt from the Contractor's License Law for one i f 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 compensatio i, will do the work,and the structure is not intended or offered for sale(Sec.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 one of the following three maintain compliance with the Cupertino Municipal Code,Chapter 9.12 and the declarations: Health&Safety Code,Section 25532(a)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 the Labor Code,for the air contaminants as defined by the Bay Area Air Quality Management District I performance of the work for which this permit is issued. will maintain compliance with the Cupertino Municipal Code,Chapter 9.12 and I have and will maintain Worker's Compensation Insurance,as provided for by the Health&Safety Code,Secti i ns 2 05# 3, d 534. Section 3700 of the Labor Code,for the performance of the work for which this Owner or authorized agent: Date 1 0 permit is issued. 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 I 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 'on the above mentioned property for inspection purposes.(We)agree to save ARCHITECT'S DECLARATION amnify 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 2 ITEMS OF 2 PERMIT RECEIPT OPERATOR: SylviaM COPY # : 1 Sec: Twp: Rng: Sub: Bic: Lot : APN • 35928008 . 00 DATE ISSUED • 07/26/2010 RECEIPT # • BS000010961 REFERENCE ID # . . . : 10070171 SITE ADDRESS • 7503 TIPTOE LN SUBDIVISION CITY • CUPERTINO IMPACT AREA OWNER • KCU-CHIN CHANG ADDRESS • 7503 TIPTOE LN CITY/STATE/ZIP . . . : CUPERTINO, CA 95014 RECEIVED FROM • QUALITY FIRST HOME CONTRACTOR • GC ANDERSON LIC # 30398 COMPANY • QUALITY FIRST HOME IMPROVEMENT ADDRESS • 6545 SUNRISE BLVD STE 202 CITY/STATE/ZIP . . . : CITRUS HEIGHTS, CA 95610 TELEPHONE • (S16) 788-2921 FEE ID UNIT QUANTITY AMOUNT PD-TO-DT THIS REC NEW BAL 1BCBSC VALUATION 34, 000 . 00 2 . 00 0 . 00 2 . 00 0 . 00 1SOLARRES FLAT RATE 1 .00 207 . 00 0 . 00 207 . 00 0 . 00 TOTAL PERMIT : 209 . 00 0 . 00 209. 00 0 . 00 METHOD OF PAYMENT AMOUNT REFERENCE NUMBER CHECK 209. 00 1830 TOTAL RECEIPT : 209. 00 VOICE ID DESCRIPTION VOICE ID DESCRIPTION 301 ROUGH PLUMBING 303 ROUGH MECHANICAL 304 ROUGH ELECTRICAL 313 ROOF NAIL 505 FINAL ELECTRICAL 507 FINAL PLUMBING 508 FINAL MECHANICAL CITY OF CUPERTINO SOLAR PANEL CUPEkjINo PERMIT APPLICATION FORM /a / 7� APN # Date: /, /,ic,t O 35 9 22 00r-00 Building Address:---7 co e Owner's Name: q �') \ P1:_ f ' (T)itcrtNt omne# lb-2(6(6—o ff Contracrtor License se#: Fax #: 71 � Co : Phone #: i 3` �� Cupertino Business License#: \ s \\tac� e�� Fax#: Number of Panels/Units: Kilowatts (Commercial Only): Job Description: Y�S-�- � �y� ��5CS�� `7 Project Size: Expresyn Standard ❑ Large ❑ Major ❑ Residential Commercial ❑ Valuation (cost of project):- oV c..7 D Green Points: 1.2 KW`—6 Points ❑ 2.4 KW- 12 Points 0 3.6 KW- 18 Points 0 Quantity Fee ID Fee Description Fee Permit Type Group 1SOLARPANL Commercial Solar Panel E SOLAR-COMM 1PHOTOVCOM Photovoltaic System E Commercial/Multi-family 1BSEISMICO Seismic Conimercial E 1ELCPLNCK Plan Check Fee E 1BCBSC Cal Bldg Standards B ALL PERMIT TYPES Commissio:l Fee COMM & RESID 1 SOLARRES Residential Solar Panel E SOLAR-RES Revised 07/06/09 4.1 KW AC GRID-TIED PHOTOVOLTAIC SOLAR SYSTEM A RECEIVED U 6 2010 22' f BY: I' N APPROVED IN ACCORDANCE WITH THE CITY OF CUPERTINO CODES AND 1AANDORDINANCES 1.125 Amp Existing Main Service Panel DATE^''�"_ 1 O 2.PVPowered 5200 Inverter with SIGNED This s AC/DC Disconnect et of and specifications MUST unlawful kept job at all times and it is i awful to make any charges or alterations Z on same without written permission from AL. the Building mens,C arW adoeCcu�'npcearttirro. The 22 Module Array stamping plan ons SHALL NOT be held to permit or to be an approval of the violation of any provisions of any City Ordinance or State Law. S -------**--- .\\\ I,. 6 22' 0 o f c8. u. it.!5r v Quality First Home Improvements,Inc Licit 875772 SYSTEM INFORMATION SCOPE OF WORK Project Name Date-JULY 25,2010 4.5 KW AC SOLAR SYSTEM Install two additional panels to the existing 4.1 KW AC CHANG PREPARED BY: 22-Sharp NU-U240F1 Modules Photovoltaic Solar System.System is Roof-Mounted and Grid Tied 7503 TIPTOE LN Michael Kaholokula 1-PVP5200 Inverter There is an Existing array with 20 modules. CUPERTINO,CA 95014 PHONE-916 300 8479 ARRAY:COMPASS AZ-165 DEGREES/TILT-15 DEGREES A single PVPowered Inverter will be used in the system. COMP ROOF-1 LAYER Installed by Licensed C10 Electrician-Dan Reran INVERTER PHOTOVOLTAIC ARRAY consists of 22 NU-U240F1 Sharp Modules (NOTE 1) Approx.100 FT of 1"Conduit Run from Junction Box to Disconnect PVP5200 JUNCTION BOX CAUTION. EXISTING-String 1-11 NU-U240F1 Sharp Modules(STC)240 SOLAR ELECTRIC CIRCUIT (NOTES 2,3) #10 AWG USE-2 EXISTING-String 2-11 NU-U240F1 Sharp Modules(STC)240 #8 GND 411 (NOTE 8) WARNING,ELECTRICAL SHOCK HAZARD. AC/DC DISCONNECT DO NOT TOUCH TERMINALS. TERMINALS ON (NOTES 4,5,6) BOTH THE LINE AND LOAD SIDES MAY BE ENERGIZED IN THE OPEN POSITION 125 Amp Rated 2P 25A CB Existing Main Amp Breaker I (NOTE 9) DUAL POWER SUPPLY (NOTE 7) PHOTOVOLTAIC AC INVERTER-EACH STRING OPERATING CURRENT(Ipm) 7.98 A GENERAL NOTES OPERATING VOLTAGE(Vpm) 331 V 1.PV array contains two strings of 11,240 Watt Modules in series(22 Modules Total) MAX SYSTEM VOLTAGE(Voc) 411 V 2.PV array wiring to junction box is#10 AWG USE-2 with Factory-Installed MC connectors SHORT CIRCUIT CURRENT(Isc) 8.65 A 3.PV array junction box provides transition from array wiring to coduit wiring 4.Ground Fault Protection provided in Inverter Quality First Home Improvements, Inc 5.Inverter is PVP5200 model rated at 4.8 kW AC output and is rated to provide 6545 Sunrise Blvd 21.6 amps at 240-Volts at 40 C. Citrus Heights,CA 95610 6.Inverter is Listed to UL-1741"Utility-Interactive" License#875772 7.125 Amp Existing Main Service Panel with a 100 Amp circuit breaker with a 20-Amp Two-Pole Title: Single-Line Diagram for PV Solar System circuit breaker for point of connection(Not to exceed 120%of bulbar rating-CEC 690.64(B)(2)Drawn By: Michael Kaholokula Date: 6/25/2010 8.Equipment grounding conductors on AC and DC side sized according to CEC 250.122 Phone: 916-300-8479 Job Number: SJSOL012 9.Negative pole of PV array reference to ground at the inverter Checked By: Dan Haran-C10 Customer: CHANG Phone: 530-917-3031 Address: 7503 TIPTOE LN Scale: Not To Scale CUPERTINO,CA 95014 Utility: PG&E INSTALLATION �` INSTRUCTIONS 0 Qi 0 3 ,� (800) 998-6059 TOOLS NEEDED ,, ,,.. ,, Ioq, ,' Measuring tape, roofer's - -,4',.#_..,,',.;*, `' , f - �•. !�# t :<, u,,., 5. SLIDE flat bar, chalk line, stud -.. i ,. OUNT finder, caulking gun with : k QUICKMACE roofing sealant, drill with •-, -, � INTO PLACE 1/4" long bit, drill with 1/2" �, , 47.:,-;',A . .„:..,,,7,, � �` MA*," � Lift comp tile and r 0 deep socket. • slide QuickMount ` '° 0f into place. * �� �,� 1, LOCATE RAFTER € Using horizontal and vertical chalk lines to align hole for placement of each QuickMountk, K� `J 6. SET HANGER BOLT, 44c.e,,:e.;,,,,k, smaller WASHER (A) 2. DRILL PILOT HOLE ' & NUT „ , i ' —NUT r x Using drill with deep Using drill with /a �� .. d a,;n .,;� h„�„ -(B) WASHER ,.:.. , #, socket, set with washer through roof and rafter, BLACK GASKET (A) and then nut, ' ,* , , _—NUT t , tighten into lace. taking care to drill x i g p square to the roof. G, -'' --(A) WASHER cr n HANGER BOLT— ! , 7. ADD RUBBER , GASKET QUICKMOUNT r K .. mF,1,� �, �� `%� Push black gasket into . ; FLASHING AND BLOCK-- x �k place flush with top of a xa � ,, QuickMount block. k� p ,, " ry . iPi 3. LIFT TILE Lift composition roof tile with roofers flat bar, . 8. SET RA just above placement of .,5 PLACE largeCK � WASHER (B) & NUT QuickMount. r .-a, S'.. Using Using drill with 1/2" deep 4. SEAL HOLE Using caulking gun with roofing - . . socket, set up rack with sealant, squeeze a dab of washer (B) and then nut, ��-t.;_, tighten into place. roofing sealant into hole. PATENT PENDING Dead Weight Calculations Chang 7503 Tiptop Ln Cupertino, CA 95014 System #of Solar Panels 22 #of Points of Connection with the roof 88 Panel Weight Calculation Solar Panel Weight(lbs) 44.1 lbs Mounting System Weight(lbs) 155.232 lbs Total Panel Weight(# Panels x Panel Wt.)+ Mounting System Weight I 1125 Point Load Calculation Point Load (Total Panel Weight/# of Point! of Connection) 13 lbs Distributed Load Calculation Solar Panel Area(Length"x Width")/144 17.49 Sq. Ft. Total Solar Panel Area (# Panels)x Solar Panel Aria 384.67 Sq. Ft. Inter-Panel Spacing(Inches) 1 Inches Total Spacing Area(#Spaces Btw Panels x Inter-1 anel Space x Panel Length) 0.361 Sq. Ft. Total Panel Area (Total Solar Panel Area+Total 5 pacing Area) 385.03 Sq. Ft. Distributed Load (Total Panel Wt/Total Pa lel Area) ;'2:92 lbs./sf ¢ . :,.,, PoweredTM,.,..- - ,-,---, ::i. -kt--r't,'-,.,-. .,.. .. ..': 1 ,, Ne.„.„....:.,.. _,.„ ---- -...\:.‘k :14111::-},-7.11:''',1..'-4,*'-,-.;-, 1_.' PVP1100 to PVP5 00 String Inverters Proven Reliability Now With an Integrated AC and DC PV System Disconnect Listed to . the UL 98 Standard 2,, j .im,..n...t PV Powered, Inc. continues to deliver industry-leading reliability and technical innovations W a that lower the total ccst of PV systems installation. PV Powered is now the only manufacturer of a residential inverte--integrated AC/DC PV System Disconnect that is listed to the UL 4 98 Standard.The UL 98 Standard, called "Enclosed and Dead-front Switches" ensures the ,:; integrated PV Powered disconnect meets all installation and inspection requirements of a PV System Disconnect. Housed within an NEC Compliant wire raceway, PV Powered's innovative disconnect consists ;`, of one enclosure with generous working room for installation. In addition to providing for a _ �~ single point of connection from the utility service and PV array, the wire raceway's optimized Y knockout locations also provide options for side, bottom and back entry with minimized conduit bending.The Nire raceway enables flush side-by-side mounting, eliminating the need k for extra equipment a id resulting in a cleaner, less expensive installation. a '6, ,.--,s. PV Powered's string inverters are backed by the industry's first nation-wide ten year warranty and equipment replac 2ment program. Optional performance monitoring is available which includes low cost, secure web-based access to inverter status and performance history. s t. _ ''C\ONivt • pcI ', `.. a " o FEATURES -v_ .. R i;1t, 4RRnN. Industry-Leading Reliability • Endurance testod to 20 year operating life 16.00 • Lowest part counts and fewest interconnects eliminate common failure points ---- • Field-proven te(hnology with thousands of units installed nationwide • o i •r= Integrated AC and DC PV System Disconnect • Listed to UL 98 Standard for use with PV Powered UL 1741 Listed string inverters • Robust testing.)f switch mechanism to UL 98 Standard, called "Enclosed and Dead Front Switches' • Single AC/DC sNitch visible and lockable in the OFF position • NEC Compliant internal wire raceway enables flush side-by-side mounting • Direct-to-wall sirface enclosure design allows for easy access and installation u (Il, Easy Installation I • Factory integra ed inverter and PV System Disconnect eliminates the need for extra equipment • Interconnectior s reduced from 12 to 4 points,saving installation time and material costs Example of Side-by-side Flush • Field-configura)le inverter grounding schema with simple jumper selection Mounting on 16" Intervals • Optimally placEd knockouts for a variety of conduit routing options r 1 Installer-Focused Su Sport 3'�0 • No special purchase requirements to get the best technical support in the industry;„A ►f` PO Box 7348 t"ind OR 97708 • Live technical phone support ,`'1 • RMA program ncludes$400 purchase credit or$150 service reimbursement 1-541-312-3832 • Optional perfo'mance monitoring available WWW.PVPOWERED.COM ©2009 PV Powered f 1 H' 7.6:i.+4';' . ` .' ''k' ''''.0.. .', v t`I ti �$,c�� 5 ,r r��w . �, '"r 1 �= �s +,� � ��� k� '�1 r � . r,��rtwA �'�"l�'r f� a � �r �`' i n><�k roI a '}�i ,4:441K'';',a t> s ;�L ` >G i• �^t,,.�`£���"rtsst +" ,, .. .. .. , `r r'�,,p +s•+ r r 9 Y ? . rr V,' T-}4�y I R... A Y f i^�P -d Ia ',,,r 5`i,',,# 5 is '&4 r,, "..t , r ,°,„1 Y:;�;Y� t�*, . 4 4- 1 '14'' ,,N `,,v ,,&Tr:, a y a'^ , ��'att n }' ..'f e. °x' a ""+`{ k�Pu Z ";. s ... ✓°,e Pfi k 'y •': {Z ,,iRi?4, b' 4 `f .4 a' 15. i30.. DIMENSIONS IS ST PVP1100 to PVP3500 ``-- �A �_- - c� wi T11 KO. • ume- -® 1171140 O. Al ie r" 30 VC PORI r \. A '1" 1111,11M,_,,,...--DRAINAGE C1' 7/B' M � 11111 3. �� 31/B' r.-a..c 3/B" - 1/7 I C En 6 1/7 1111., BO71OM VIEW v...�.o no"�w" ,"r- T,-r KM .,,vw PVP4600, PVP4800, PVP5200 = i����I 1.- MINIMIS.illINIII1111111 iq I. IF/ �e® I/rKO „ == n �� 'T13'K.O. DRAINAGE PORI ,Al 7/61 �, a i= i 1.. v 1---. " w 7 - CME-H1- 1211 i 3/B' , r '.v..o3 I/171 III in 1111 ate i %kMat4 73/x" X1/7 eon.,VIEW ,". .r" r r VO .' v, 0 7 1 " 1111. __ 1111 ._ ..�,.,_ _11_11.. ._ 1111._.. .. ELECTRICAL SPECIFICATIONS 1 MODEL PVP1100 PVP2000 PVP2510 PVP2800 'PVP3000 PVP3500 PVP4600 PVP4800 PVP5200 Continuous Output Power(watts) 1100 2000 2500 2800 3000 3500 4600 4800 5200 Weighted CEC Efficiency(%) 90.5 92 94.5 92 93.5 95.5 95.5 96 96 Maximum DC Input Voltage(VOC) 500 500 500 500 500 500 500 500 500 DC Voltage Operating Range(V) 115-450 115-450` 140-451) ' 180-450 '170-4501 200-450 205-450 200-450 240-450 DC Minimum Start Voltage 130 130 155 195 185 215 220 215 255 DC Isc Maximum Current(A) 26 26 26 26 26 26 48 48 48 DC Imp Nominal Current(A) 10 18 20 18 18 18 25 26 25 AC Maximum ContinuousCurrent(Amps) 10 9• ' 11 13 13 15 23 21 23 AC Nominal Voltage(V) 120 240 240 208 240 240 208 240 240 AC Output Voltage Range(V) 105.6-132.5 211-264 211-26.1 183-229 211-264 1 211-264 183-229 211-264 211-264 AC Frequency Range(Hz) 59.3-60.5 59.3-60.5 59.3-60.5 59.3-60.5 59.3-60.5 59.3-60.5 59.3-60.5 59.3-60.5 59.3-60.5 MECHANICAL SPECIFICATIONS MODEL PVP1100 PVP2000 PVP25i0 PVP2800 PVP3000 PVP3500 PVP4600 PVP4800 PVP5200 Inverter with Factory-Integrate d AC and DC PV System Disconnect NEMA.3R Steel-Enclosure ' Wall Mounted with Bracket Included Weight(lbs) 55 65 70 80 80 85 135 135 135 Inverter with Disconnect Dimensions 30 3/8"H 30 3/8"H 30 3/8"I- 30 3/8"H 30 3/8"H !, 303/8"H 35"H 35"H 35"H x 15 5/8"W x 15 5/8"W x 15 5/8"W x 15 5/8"W x 15 5/8"W, x15 5/8"W x 18 1/8"W x 18 1/8"W x 181/8"W x 8 1/4"D x 8 1/4"D x81/4"C x 8 1/4"D x8 1/4"D x8 1/4"D x 8 5/8"D x 8 5/8"D x 8 5/8"D AGENCY APPROVALS VVIODEL PVP1100 PVP2000 PVP25i0 PVP2800 PVP3000 :PVP3500 PVP4600 PVP4800 PVP5200 UL 98 13th Edition, Enclosed and Dead-Front Switches, UI.1741 Nov 2005 Revision,IEEE 1547 Compliant,FCC Class A&B �,;;_: k y v. r rk !�a,;`: a i�'��• .�} :�,� �,5;�.x ,�,';�'-,^!° �;� �e �.. ''a,, w+v l ��.,•°1 p y i 4 ,},`y t r'1 : M+'3' , '%-,�E'v r+E '€y r r 1 F c�,, v�+,;.R a1> ,77'1 r t I 'J J �ac�l��"�"�F�J�i�`� ,f�aS�,P��,'K'h°`';5# 'fit � ��LdY.as �l� �r;'� T>:�.r, s�'..�k:14r�i. {'�'0;'i:. . '+G" yt•::i�'iw'�,Kr.�� r�i��i:'..K,v.��li�,c.�Y�.+. ,,,�"r 1111, •-.7'`�'P�; ,. 1,. 1111 1111. .�;�,1a.�, w c Jr•.xn a, �'.. :c d�+,1 t, .,.-r.ru't;a,.P_.c... � ._. . . „.. SHARP. ..„ ' . ,..,,,r .,.,..„.,:,.,_,.,:. , . s(--..)1 a.r EIeCc lc:ity 2L0 \ T . .. . , . MULTI-PURPOSE MODULE ENGINEERING EXCELLENCE ',,,,:;f 4,, , High module efficiency for an outstanding balance --- i ,., r of size and weight tc power and performance. I I I;, I 1---It , i + +i -1 .1 i- L-URAELE i i i 1 1 I ; 11 I I Tempered glass, EVA lamination and 1 I III i ±4 1 -t y ,f! - 4 1 eather pr aof t,ackskin provide long-life and enhanced cell performance. { RELIAE'LL ' I_ 4 -4,• ♦.;- + ♦ i 5yep.. looted war ranlv on ho>:�er o.r-,l:�ut. I + + 4 e ♦! i HIGH PERFORMANCE : 1 I This rncdrrle uses an advanced solar cell surface ; r I 4, .+ ♦ ♦ . 41.i to xtui inu process to inr rf-r_:_e iightabsorption 1. I ( anti improve E_fficte;,cy. I t H1 ♦- 4 I INNOVATIVE _.4 ' '..4, ♦ ♦. ♦, ,- 156 mm pseudo-square mohoc rvstali ne solar II I i s 1 , 1 � I r 0 a i cells provide hid,;r�o`,.�Ei output ideal for large r I_ 4; 4 I 4 ! co Im lc cal roof tors, J>here space is a premium.. 1 i , ! 7 , I it al . ill i a MULI i-PURPOSE 24-0 \VATT MODULE FROM THE VVORLD'S r ,-:. � , ._. 0t..7:-.' . TRUSTEE SOURCE FOR SOLA ?. ' , 744 ad 8 f- ,v - r� r' "{ Pl'ai'n s Using breakthrough technology, made possible • , by nearly 50 years of proprietary research = � ' 4, N, N V and de elobrnent. Sharp's ICU 1 =ciOFI solar iK . ' N. rl^iodule incorporates ari ad'�.�anced cell surface 4.. } g I_, c, d Tc'.NU t, f i offers - lrnr ...d cram,er hre co texturing process to Inti Case light absorption - srdcis; ;F:a�.n.y GE;toru:arCs ' van€tv o1 ,,icsrrc�,>. and Ill�pi�,�, efficiency. LCI"�i!�Ivil applications f:ra r include corninercial and residential g'-Id-tied SHARP:THE NAME TO TRUST roof systems as well as ground mounted anrays. When you choose e Sha p.you get more than Designed to withstand I IOUry in OIucratinCl c„01cr,crrearor products.t� You also get o harp'5. corrditIC.i Is. thIS module offers high po ve ". Jn reliability.,outstanding customer service<;r,d:; square S y the 'rssjrance of our 25 year limited lis a! ent';'On output per �����il'e `Oat �;1 solar array.o, - pov.,e^"output.A globalieader in s cla eirectricity, . hsw.:, , _rs more homes and businesses than' c-hr Sr sclar manufacturer -ld,,iIda. ' C-L C C M E POWERFUL 24 0 WATT • :,, ! „.. °rt a,.A.!! Ni)• S..1I 4 NEC 2008 Compliant Module output cables: 12 AWG with los{:ing connectors ELECTRICAL CHARACTERISTICSDEMENSiONS R • Mexirnum Power CPmSx)` 240 W BACK VIEW Tolerance of Pmax -,10%/-5% A SIDE VIEW Type of Cell hlonoctystalline silicon -- 1 Cell Configuration 60 in series- ct .10 I E i-_ Open Circuit Voltage(Voc) 37.4 V Miaximucn Power Voltage(Vpm) 30.1V — • — F I Short Circuit Current(Isc) 8.65 A. Maximum Power Current(Iprn) 7.98 A r Module Efficiency(%) 14.7% 1_ Maximum System(DC)Voltage 600 V —! (-) (4) — 8 Series Fuse Rating 15 A I':OCT 47.5°C Temperature Coefficient(Pmax) -0.485%/'C F Temperature Coefficient(Voc) 0.351%/`C Temperature Coefficient(lsc) 0.053%/`C ,y 00.17•14.3eee \T-E . I . 'Measured at(STC)Standard Test Conditions:25`C,1 kW/rn insolation,AIJ,1.5 I T MECHANICAL'CHARACTERISTICS A e C D E 59 t 994 r.rr.. a4 F'/t640 mm 1.8746 mm 7.9"/200 nm.' id 4"/36S Dimensions(A it S x C'below)- 39:1"x 64.6';x 1.P."/994 x 1540 z 4t n,m Cable Length(I) 43..,ir11OO mrn F G H I . .72_ ? ['mn-. 3.9 IOC mm 37,7 7958 mm 43 3"/1100 rnm Output Interconnect Cable"' 12 AWG vrith MC4 Locking Connector Weight 44.1 ll:'s j 20.0 kg Contact Sharp for tolerance specifications Max Load 50 psf(2400 Pascals) Operating Temperature(cele -40 to 194'F/-40 to 90"C r.safety lock clip(Multi Contact part number PV-55H4)may be required ir:, readily accessible locations per NEC 2006 690.33(C) k �< r sum i DUY AMERICAN" UL Listed UL 1703 Fire Rating Glass C- �=�°S Sharp solar modules are manufactured in the United States and Japan, and qualify as "American" goods under the "Buy American" clause of the American 25-year lirnitedwarranty on power output Recovery and Reinvestment Act (ARRA). Contact Sharpor corrlplete warranty information Design and specifications are subject to change without notice. Sharp is a registered trademark of Sharp Corporation.All other trademarksare property cf their respective owners.Contact Sharp to obtain the latest product n.E ovals before',inc. any Sharp device.Cover photo Solar Installation by SPG Solar. SHARP lsaE I S CORPORATION 5901 Bolsa Avenue.Huntinoton Beach,CA 42647 SHARP, i-800-SOLAR-06• Email:sharpsolar@sherpusa.corn v.rvarw.sharpuss.com/s afar ,-d 2010 Sharp Electronics Corporation.Ali rights reserved. 09L-0`,` FC-C C..10 tfrefiktfititv Albuquerque • &COMPANY Colorado ado Springs Fort Worth 4900 Lang Ave. NE Houstonas 6 Albuquerque, NM 87109 Lenexa y ' P.O. Box 94000, 87199-4000 Omaha 505-348-4000 Pasadena t 505-348-4055 Fax Phoenix Rio Rancho Salina San Bernardino San Diego Wilson&Company Latin America,LLC 27 February, 2008 Applications Engineering Department liniRac. Inc. 1411 Broadway Boulevard NE Albuquerque,New Mexico 87102-1545 Re: Engineering Certification for UniRac's SolarMount Flush, Code-Compliant Installation Manual 227 WCEA File: 08-100-204 00 To Whom It May Concern: I have reviewed the portions of the subject man ial pertaining to the structural calculation of applied loads and beam selection. Specifically, this consists of"Part 1. Procedure to Determine the Design Wind Load",and "Part II. Procedure•to Select Rail Span and Rail Type." The procedures guide the user through the calculation of design wind force, load combinations, and beam selection. All calculations associated with the procedures have been checked and found to be in compliance with the codes listed in the next paragraph. The procedures are based on and in compliance with the following codes/standards: 1. 2007 California Building Code(CBC),ba!;cd on the 2006 International Building Code.by International Code Council , Inc.,2006. 2. Aluminum Design Manual: Specifications and Guidelines for Aluminum Structures.by The Aluminum Association,Washington,D.C., 2000. Mechanical properties of the UNIRAC extruded rails and related components are based on data obtained from Walter Gerstle,P.F.,Departmen of Civil Engineering,University of New Mexico, Albuquerque,NM. WILSON 6 COMPANY,INC.,ENGINEERS 6 ARCHITECTS Mx Page 2 &COMPANY I certifythat the structural calculations in UniRac's SolarMount Flush, Code-Compliant P Installation Manual 227 arc in compliance wit'• the above codes. WILSON& COMPANY //1, J,V1A, It:_ , Steven J. Metro,Executive Vice President, P.E -gwk ,,.,,,n„,, cc: Gary Kinchen. P.E. Qo •' �N J. 4/..40,� : - P' • .!vtti ,�P,•: ,, �• o c .•off` . 11 .+• 2- Z?-0 P” • YM 4 k }j� fi+ C Code-Compliant Installatior--Manual 2SOILIIILIFt ' ' ' " ' '..: " . 2 . Z U.S.Des.Patent No.D496,248S,D496,249S. Other patents pending. l ll ..,,,,,,....:y.,..,.-..-,,z,,,,,1,41-74,-,,,,,,,,„7„-4,_;-,r-,;-",,„ § max ¢ - , n° ':`' "<b rr E. ;s � ‘ y, '� � -,,,,,,,ti,,,,,..: �ds'ywy�@: ..;-...5.,--y.7. e'txa z v .. - , ... _ _&". 4 + 0 O. fp 7...„.:::4.„7„.„,/,...„, 7 % yf ,. — y ! 4-,-----:-/// /,z_.-/-----7 / r fyI . a� /_y3 ,„,. ' sr � ` fffig ,.t „,, !` es/ --,/ , -<v.i, x: f i� r / �rte , � - , rl 0 , . • , .... ......,,- . / . . , -- ,.- .,_,,,,,:„..„ „...,.,. ,,,,... ...,,__,,.... , . . ..4, - 441;-,-4.47;-%/-,-,1:,/,,,,,,/,,/ . ; — - ,-,_,,,......„,, , , , - , ,, . _ , . ‘ , „,„,„,.. ,_,... , <, ,/ , A, . , ....f.,,,./- --, .- . .„-/-,,,,, / , ,,,, /f ,. ., :. .. f,. 3 fr : 13 r 4 ._,/ am ..,,i,-._.!' ,�„ ,T,.,..:.r-x. k �+ •,-4.-: .- f i ?t - .. • ''` V) • Table of Contents 0 Z i.Installer's Responsibilities 2 Part I.Procedure to Determine the Design Wind Load.. 3 Z Part II.Procedure to Select Rail Span and Rail Type 10 Part III.Installing SolarMount [3.1.]SolarMount rail components 14 [3.2.]Installing SolarMount with top mount ng clamps 15 [3.3.]Installing SolarMount with bottom me unting clips 21 [3.4.]Installing SolarMount with grounding :lips and lugs 25 0 8. Pub 090924-lee ::Iiii NI 1 RAC September 2009 Bright Thinking in Solar rc-20091,Unh .lii All Ii Unirac welcomes input concerning the accuracy and user-friendliness of this pi blication.Please write to publications@unirac.com. lits rest recd. :P U N I RAC Unirac Code-Compliant Installation Manual SolarMount i. Installer's Responsibilities Please review this manual thoroughly before installing your SolarMount is much more than a product. SolarMount system. It's a system of engineered components that can be assembled This manual provides(1)supporting documentation for into a wide variety of P\'mounting structures.With building permit applications relating to Unirac's SolarMount SolarMount you'll be able to solve virtually any PV module Universal PV Module Mounting system,and(2)planning and mounting challenge. assembly instructions for SolarMount It's also a system of technical support:complete installation SolarMount products,when installed in accordance with and code compliance documentation,an on-line SolarMount this bulletin,will be structurally adequate and will meet the Estimator,person-to-person customer service,and design structural requirements of the IBC 2006,IBC 2003,ASCE 7- assistance to help you solve the toughest challenges. 02,ASCE 7-05 and California Building Code 2007(collectively Which is why SolarMouht is PV's most widely used mounting referred to as"the Code").Unirac also provides a limited system. warranty on SolarMount products(page 26). C AThe installer is solely responsible for: • Complying with all applicable local or national building codes, including any that may supersede this manual; • Ensuring that Unirac and other products are appropriate for the particular installation and :he installation environment; • Ensuring that the roof, its rafters, connections, and other structural support members can support the array under all code level loading conditions (this total building assembly is referred to as the building stru_ture); • Using only Unirac parts and in$taller-supplied parts as specified by Unirac (substitutic n of parts may void the warranty and invalidate the letters of certification in all Unirac publications); • Ensuring that lag screws have idequate pullout strength and shear capacities as installed; • Verifying the strength of any alternate mounting used in lieu of the lag screws; • Maintaining the waterproof integrity of the roof, including selection of appropriate flashing; • Ensuring safe installation of all electrical aspects of the PV array; and • Ensuring correct and appropriz to design parameters are used in determining the design loading used for design of the specific installation. Parameters, such as snow loading,wind speed, exposure and topographic factor should be confirmed with the local building official or a licensed professional engineer. Pap 2 ff P UN I RAC Unirac Code-Compliant Installation Manual SolarMount Part III. Installing SolarMount The Unirac Code-Compliant Installation Instructions support applications for building permits for photovoltaic arrays using Unirac PV module mounting systems. This manual, SolarMount Planning and Assembly, governs installations using the SolarMount and SolarMount HD (Heavy Duty) systems. [3.1.] SolarMount® rail components .M...�---� ,�,__ r* e - - i '.,..---77-- R 3tit :c w,,, ;, ;, j,. 3` 2�; rrrool Nn ti• Figure 4.SolarMount standard rail components. ,:.‘;,;, .....( : , 0 Rail —Supports PV modules. Use two per row of lock washer for attaching L-foot. Flashings:Use one per modules. 6105-T5 aluminum extrusion,anodized. standoff. Unirac offers appropriate flashings for both standoff types. 0 Rail splice—Joins and aligns rail sections into single Note:There is also a flange type standoff that does not length of rail. It can form either a rigid or thermal require an L-foot. expansion joint,8 inches long,predrilled. 6105-T5 0 Aluminum two-peice standoff(optional)(4"and 7") aluminum extrusion,anodized. —Use one per L-foot. Two:,piece:6105-T5 aluminum extrusion.Includes 3/8"x3/4" serrated flang5 bolt with EPDM washer for attaching L-foot,and two /16"lag bolts. 0 Self-drilling screw—(No.10 x 3/4") -Use 4 per rigid splice or 2 per expansion joint. Galvanized steel. 0 Lag screw for L-foot(5/16")—Attaches standoff to rafter. 0 L-foot—Use to secure rails either through roofing material to building structure or standoffs. Refer to 0 Top Mounting Clamps loading tables for spacing.Note:Please contact Unirac for use and specification of double L-foot. al Top Mounting Grounding Clips and Lugs 0 L-foot bolt(3/8" x 3/4') -Use one per L-foot to secure rail to L-foot. 18-8A2 stainless steel. Installer supplied materials: • 0 Flange nit(3/8")—Use one per L-foot to secure rail to Lag screw for L-foot—Attaches L-foot or standoff to L-foot. 1$8A2 stainless steel. rafter.Determine the length and diameter based on pull- out values. If lag screw head is exposed to elements,use stainless steel. Under flashings,zinc plated hardware is 0 Flattop standoff(optional) (3/8") —Use standoffs to adequate. increase the height of the array above the surface of the roof or to allow for the use of flashings. Use one per • Waterproof roofing sealant—Use a sealant appropriate L-foot. One piece:Service Condition 4(very severe) zinc-plated-welded steel. Includes 3/8"x 1/4"bolt with to your roofing material.Consult with the company currently providing warranty of roofing. Page 14 SolarMount U:iirac Code-Compliant Installation Manual ;`UNI RAC [3.2.] Installing SolarMount with top mounting clamps This section covers SolarMount rack assembly where the in:taller has elected to use top mounting clamps to secure modules to the rails. It details the procedure for flush mounting SolarMour t systems to a pitched roof. I 4°+n b u� �•.-.- `+ `-i{k. � HHii:.rrN�h. ti ',--1:-.,"5-.,,,-- i' y,3 4-,. � t �•� ',":; ',..'..-:;:i;• °t t gR' 1,t' d , .r zs R3 t S 3t Y g a. vF .g,.:,,,„,z,'..-,_',4,-., �� � xl. e} M u 00 . ,.r,,,.''.7� ;'.. „„ �' ;‘,V,,., ''',..,.”. - / '-`:,:,":,,,,14. 1e.i.''. 'it,""Ii,'''' ,,',?,:',40. 4 r,i14.. \ ' Mid Clomp ,,, �. 4... tz K,• . '6r Nr "yet 42 + ^t r End Clamp pt'?ti,+,,r i `foot e �' st,�" ,; ..':, ,,,,.',,,.:„„,„,,,,...,14.;:,4*,,,', X+ t i ,, SolarMount Rail s a�; Ni:,-,.n :, xi • , �titj; ;>,ki. !r �. nt Rail Figure 5.Exploded view of a flushmount in:tallation mounted with L feet. Table 14.Clamp kit part quantities N End Mid 'A"module 1/4"x W 4"far ge All top down clamps must be installed with anti- Modules clamps clamps clomp bolts safety bolts nuts_ A seize to prevent galling and provide uniformity in clamp load. UniRac Inc recommends Silver 2 4 2 6 2 8 Grade LocTite Anti-Seize Item numbers:38181, 3 4 4 8 2 10 80209,76732,76759,76764,80206,and 76775,or 4 4 6 10 2 12 equivalent. 1/4"-20 hardware used in conjunction 5 4 8 12 2 14 with top down clamps must be installed to 5-10 ft-lbs 6 4 I 0 14 2 16 of torque. When using UGC-1,UGC-2,WEEB 9.5 and 7 4 12 16 2 18 WEEB 6.7,1/4"-20 hardware must be installed to 8 4 14 18 2 20 10 ft-lbs or torque. Additionally,when used with _ a top down clamp,the module frame cross section must be boxed shaped as opposed to a single,1-shaped member.Please refer to installation supplement 910: Table I5.Wrenches and torque Gallingar d its Prevention for more information on galling and anti-seize and installation manual Wrench Recommended 225: Top Mounting Unirac Grounding Clips size torque(ft-lbs) and WEEBLugs for more information on Grounding Clips." '/,"hardware '/e' 5- 10 Z. J Y8'. hardware '/16' Torques are not designated for use with wood connectors Pg. 15 If U N I RAC Unirac Code-Compliant Installation M znual SolarMount [3.2.1] Planning your SolarMount® installations The installation can be laid out with rails parallel to the rafters The width of the installation area equals the length of one or perpendicular to the rafters. Note that SolarMount rails module. make excellent straight edges for doing layouts. The length of the installation area is equal to: Center the installation area over the structural members as • the total width of the modules, much as possible. • plus 1 inch for each space between modules(for mid- Leave enough room to safely move around the array during clamp), installation.Some building codes require minimum clearances around such installations,and the-user should be directed to • plus 3 inches(1' inches for each pair of end clamps). also check'The Code'. Peak y _--�—i i e w w 3 Low-profile Li.' i w ' High-profile ' mode mode j ' II p A E rinill ____ I 1 Y < e o 4. Gutter Figure 6.Rails may be placed parallel or perpendici,lar to rafters. Page 16 SolarMount Unirac Code-Compliarit Installation Manual : UNI RAC E [3.2.2] Laying out L-feet L-feet(Fig.7)can be used for attachment through existing roofing material,such as asphalt shingles,sheathing or sheet metal to the building structure. Use Figure 8 or 9 below to locate and mark the position of the L-feet lag screw holes within the installation area. t`-, 1 ',. ,lw If multiple rows are to be installed adjacent to one another,it is not likely that each row will be centered above the rafter:;. Figure 7 Adjust as needed,following the guidelines in Figure 9 as closely as possible. Overhang 25%L max 25%of module Width Foot spacing/—,-; _.__1! Rail S an"L" .._'. Ji `� r^ 'I I 50%of module ....... 'r.. ', ►___ zz- ,. ' t width(TYP) L �� i Note:Modules must be Rafters centered symmetrically on the Lower roof edge (Building Structure) rails(+/-2*),If this is not the 1 case,call Unirac for assistance. i Figure 8.Layout with rails perpendicular to raf ers. Installing L-feet 25%of module width ___,.i �... 50%of module width Drill pilot holes through the roof into the f , 13/4° 1~ center of the rafter at each L-foot lag screw �; 1'1.,f J;.-i. hole location. 1 Squirt sealant into the hole,and on the shafts f-- ^ ---- - -' / t of the lag screws. Seal the underside of the L- ,.4. . [ i ____-.1 i feet with a suitable sealant.Consult with the 1 �l i I 1 k.- company providing the roofing warranty. ( ? `; �Ir; Foot spacing/ /i Securely fasten the L-feet to the roof with ;; I r =4... ___ ail Span, Lli' \N, / the lag screws. Ensure that the L-feet face as ,� ;fie,' ii, 1 shown in Figure 8 and 9. For greater ventila- \ / II;! 1 1 t. ii tion,the preferred method is to place the �- =. single-slotted square side of the L-foot against I ; 6:- Lower i ._ r i the roof with the double-slotted side perpen- roof edge 11 P P iy. Overhang 25%L max dicular to the roof. If the installer chooses to mount the L-foot with the long leg against the i .;' ii ^I roof,the bolt slot closest to the bend must be / Note:Modules must be used. Rafters(Building Structure) centered symmetrically on the rails(+/-2*).If this is not the case,call Unirac for assistance. Figure 9.layout with rails parallel to rafters. Page 17 :P UN I RAC Unirac Code-Compliant Installation M znual SolarMount [3.2.3] Laying out standoffs 1 ' Standoffs(Figure 10)are used to increase the height of the array above the surface of the roof. Pair each standoff with a flashing to seal the lag bolt penetrations to the roof. Use Figure 11 or 12 to locate and mark the location of the standoff lag screw holes within the installation area. - t � ` Remove the tile or shake underneath each standoff location, exposing the roofing underlayment. Ensure that the standoff Figure 10.Raised flange standoff(left) base lies flat on the underlayment,but remove no more mate- and fiat top standoff used in conjunction rial than required for the flashings to be installed properly. with an L-foot. The standoffs must be firmly attached to the building structure. If multiple high-profile rows are to be Overhang 25%L max-�I ' Foot spacing/ 25%n iodule width installed adjacent to each other,it may not �. — ii Rail Span, �i each end be possible for each row to be centered above moi— - - _ �,� i � 11 j; the rafters. Adjust as needed,following the / - il 1 guidelines of Fig.12 as closely as possible. 13/," - it i, ,---------\-,T-7--—I/ 50module FH•- h,i) J_ il_ �il �� f'vidth (TYP) \ IV[1 ;i it 1 1 Installing standoffs Lower roof edge ;i Drill 3/16 inch pilot holes through the ` Rafters---j underlayment into the center of the rafters at (Building Structure) each standoff location. Securely fasten each standoff to the rafters with the two 5/16"lag Note:Modules must be centered symmetrically on the rails screws. (+/-2").If this is not the case,call Unirac for assistance. Ensure that the standoffs face as shown in Figure 11. Layout with rails perpendicular to rafters.perpendicular to r afters. Figure 11 or 12. Unirac steel standoffs(1 5/8"O.D.)are designed for collared flashings available from Unirac. Aluminum two-piece standoffs 50%B typical _,-,,. (1 1/8"O.D.)take all-metal flashings,also Overhang 25%of-> i� 1available from Unirac. module width (TYP) 1. I ; 1 k ., Install and seal flashings and standoffs i, / ! using standard building practices or as the 7/16"-4-'-- • _1; h 4 0. company providing roofing warranty directs. j'- (y� ,� _l i 1 ! !fi l f i�J 1 i; Foot spacing/ -. - 7/16" ti/' 1 • `t-fitai'Span"L" \ 4 • Overhang 25%L max Lower roof edge i E r , r I `', ,;,„, i -----=-- Rafters(Building S1'ucture) Note:Modules must be centered symmetrically on the rails (+/-2").If this is not the case,call Unirac for assistance. Figure 12.Layout with rails parallel to rafters. Page 18 SolarMount Unirac Code-Compliant Installation Manual :P U N I RAC [3.2.4] Installing SolarMount rails ., Keep rail slots free of roofing grit or other debris. Foreign ratter will 1 `i� °"'' cause bolts to bind as they slide in the slots. ' ,f/ ! Installing Splices.If your installation uses SolarMount spl.ce bars,attach si , the rails together(Fig.13)before mounting the rails to the footings. Use te r,, ••,,, splice bars only with flush installations or those that use low-profile tilt ,✓� �f'„ f r,,A y legs. ''. . Although structural,the joint is not as strong as the rail itself.A rail should always be supported by more than one footing on both s des of the splice.(Reference installation manual 908,Splices/Expansion Joints.) Figure 13.Splice bars slide into the footing bolt If using more than one splice per rail,contact Unirac concerning slots of SolarMount rail sections. thermal expansion issues. Mounting Rails on Footings.Rails may be attached to either of two . mounting holes in the L-feet(Fig.14). Mount in the lower hole for a low fi'' Oltr` profile,more aesthetically pleasing installation. Mount in I he upper hole Clamping �, s�?4- .'' for a higher profile,which will maximize airflow under the modules. This bolt slot will cool them more and may enhance performance in host ar climates. e KW,#.. Slide the%inch mounting bolts into the footing bolt slots. Loosely attach !' ✓' /�: Mounting the rails to the footings with the flange nuts. y `�'i slots Ensure that the rails are oriented to the footings as shown in Figure 8,9, Footing l; e' 1_ 11,or 12,whichever is appropriate. bolt slot L!,< Aligning the Rail Ends.Align one pair of rail ends to the e ige of the installation area(Fig.15 or Fig.16). The opposite pair of rail ends will overhang the side of the nstallation Figure 14.Foot-to-rail splice attachment area.Do not trim them off until the installation is complete. If the rails are perpendicular to the rafters(Fig.15),either end of the rails can be aligned,but the first module must be installed at the aligned end. lithe rails are parallel to the rafters(Fig.16),the aligned end of the rails must face the lower edge of the roof. Securely tighten all l ardware after alignment is complete(20 ft lbs). Mount modules to the rails as soon as possible. Large temperature changes may bow the rails within a few hours if module placement is delayed. Edge of installation area —0- 1 fI 1 I _.......:.+.szcxc+�.-:,—_mss.:-..—_•--r_^^r+-•;...� \I j \ Edge of installation area L_ Figure 15.Rails perpendicular to the rafters. Figure 16.Rails parallel to the rafters. P+R. 19 :P U NI RAC Unirac Code-Compliant Installation A'anual SolarMount [3.2.5] Installing the modules Pre-wiring Modules.If modules are the Plug and Play type, no pre-wiring is required,and you can proceed directly to "Installing the First Module"below. e If modules have standard J-boxes,each module should be I pre-wired with one end of the intermodule cable for ease of I installation. For safety reasons,module pre-wiring should not be `` ' performed on the roof. -,..., 7 Leave covers off J-boxes. They will be installed when the i` "'.,_'~_-..,_ modules are installed on the rails. ,,,-/<-�- J-boxes Installing the First Module.In high-profile installations,the safety bolt and flange nut must be fastened to the module bolt Figure 17 slot at the aligned(lower)end of each rail. It will prevent the lower end clamps and clamping bolts from sliding out of the rail Module frame slot during installation. 1/2"minimum R If there is a return cable to the inverter,connect it to the first (>; '- module. Close the J-box cover. Secure the first module with ! {1/4" odule:bolt T-bolts and end clamps at the aligned end of each rail. Allow r- pnd flange nut half an inch between the rail ends and the end clamps(Fig.18). ' g �t _ ____ Finger tighten flange nuts,center and align the module as t P •f needed,and securely tighten the flange nuts(5-10 ft lbs). '' t , ' End clamp--- >'"- ti- Rail Installing the Other Modules.Lay the second module face Figure 18 down(glass to glass)on the first module. Connect intermodule cable to the second module and close the J-box cover. Turn the ,:;, second module face up(Fig.17). With T-bolts,mid-clamps and Module frames flange nuts,secure the adjacent sides of the first and second j modules. Align the second module and securely tighten the 4�. flange nuts(Fig.19). ` k -1/4module,bolt For a neat installation,fasten wire management devices to rails " 4 p"' and`fiange nut with self-drilling screws. ,,I IF —...,",,. -"," ;',—.,.., =- Repeat the procedure until all modules are installed. Attach the ,k;� ` \ ;Rall outside edge of the last module to the rail with end clamps. -= ` Trim off any excess rail,being careful not to cut into the roof. --Mid clamp F 4h Allow half an inch between the end clamp and the end of the rail (Fig.18). Figure 19 Check that all flange nuts on T-bolts are torqued to 5-10 ft lbs. Norm ■n" ENENsim a High lipped module 17Vff.-. Spccer "'" Low-lipped module Iimi (cross section) _ r - _ 171ie (cross section) �- MEIN , • e , I SolarMour rail" SolarMouht rail Figure 20.Mid clamps and end clamps for lipped frame modules are ide ntical. A spacer for the end clamps is necessary only if the lips are located high on the module frame. P.ge 20 SolarMount Inirac Code-Compliant Installation Manual :PUN{RAC [3.3] Installing SolarMount with bottom mounting clips This section covers SolarMount rack assembly where the i istaller has elected to use'bottom mounting clamps to secure modules to the rails. It details the procedure for flush mounting Solat Mount systems to a pitched roof. { ,i ''4 p"ki io` des I oc• ;10 ,- , >si,.... 1." F Solo:Mounl railk> r 4 " t"a�� 1..., ,, i�' ��j NP�y�ya`t f r �1'1:4'--cP n�� t. 1 K� 4 ...„...„,......,,,_.. 1 v'` roolinu^bell slot 1 1 " 4 a4.,:,,v - 3 ` ' koe!... ii,45 ' '''' '''' 44-44'10;;IN Bottom.n-iou,,Iiru clr Figure 21.SMR and CB components Table 16. Wrenches and torque , 1 Wrench Recommended Stainless steel hardware can seize up,a process size torque(ft-lbs) A called galling. To significantly reduce its likelihood, (1)apply lubricant to bolts,preferably %," hardware '/,6•• 5 an anti-seize lubricant,available at auto parts '/e"hardware °/6.. 20 stores,(2)shade hardware prior to installation, Note:Torque specifications do not apply to lag bolt and(3)avoid spinning on nuts at high speed. connections. See Installation Supplement 9I0,Galling and Its Prevention,at www.unirac.corn. J Pale 21 I:`U N I RAC Unirac Code-Compliant Installation Manual SolarMount [3.3.1] Planning the installation area Distance oetweer; L. - lac bolt centers - Decide on an arrangement for clips,rails,and L-feet(Fig.22). I-.— f•...... i--2"--• --Distance between---4,- Use Arrangement A if the full width of the rails contacts the module. mounting holes module. Otherwise use Arrangement B. -- --; ---- Caution:If you choose Arrangement B,either = IV module I I 0 (1)use the upper mounting holes of the L-feet or I (2)be certain that the L feet and clip positions don't .. ` 1 `t,,,odulo boli lir conflict. (� If rails must be parallel to the rafters,it is unlikely that they �rk1) eoi`—► 1,1 can be spaced to match rafters. In that case,add structural ! 1-foot--*-I. supports—either sleepers over the roof or mounting blocks ac belt beneath it. These additional members must meet code;if in _+^ _ doubt,consult a professional engineer. Distence between --lac bolt centers- Never secure the footings to the roof decking alone. Such an I/4'-- __ _,.- r.._;;.- arrangement will not meet code and leaves the installation -.—Dislonce between—• and the roof itself vulnerable to severe damage from wind. module mounting holes Leave enough room to safely move around the array during j 1- - installation. The width of a rail-module assembly equals the ! l_ _ . . length of one module. Note that L-feet may extend beyond '-.Ft.'-:-,' the width of the assembly by as much as 2 inches on each l i r, side. The length of the assembly equals the total width of the Ell}; 1 modules. I'- 1- Figure 22.CIip Arrangements A and B Page 22 SolarMount Jnirac Code-Compliant Installation Manual : UNI RAC [3.3.2] Laying out the installing L-fee t L-feet are used for installation through existing low profile roofing material,such as asphalt shingles or sheet metal. TheyI I I I P g --- -- -ii—I -- - - -----i- - - -- IL are also used for most ground mount installations. To ensure that the L-feet will I I Install(Second be easily accessible during flush installation: _ _ • Use the PV module mounting holes -----7/ nearest the ends of the modules. i i t, i 1 H " SolarMou It Rails ti I: • Situate the rails so that footing bolt I ,, I, I' slots face outward. It II it u The single slotted square side of the L-foot - `n`�= - - - - - must always lie against the roof with the Instal First double-slotted side perpendicular to the I I It roof. it I i I, Foot spacing(along the same rail)and rail10er I I I I I overhang depend on design wind loads. toot #I Rafters Install half the L-feet: eoae • If rails are perpendicular to rafters (Fig.23),install the feet closest to Figure 2 3.Layout with rails perpendicular to rafters. the lower edge of the roof. • If rails are parallel to rafters(Fig 24),install the feet for one of the rails,but not both. For the L-feet being installed now,drill pilot holes through the roofing into the center of RaftersN, i Install L-Feet the rafter at each lag screw hole location. { First Squirt sealant into the hole and onto the ...j shafts of the lag screws. Seal the underside I of the L-feet with a sealant. Securely fasten the L-feet to the building structure with the lag screws. Ensure that the L feet face as " shown in Figure 23 or Figure 24. -f- ' lit I Hold the rest of the L-feet and fasteners aside until the panels are ready for the installation. I I 1 I I 1I 1, Blocks 1---Install L-Feet Second Figure 24.Layout with rails parallel to rafters. o.ae 23 :P U N I RAC Unirac Code-Compliant Installation Manual SolarMount [3.3.3] Attaching modules to the rails Lay the modules for a given panel face down on a surface that will not damage the module glass. Align the edges of the modules and snug them together (Fig.21,page22). Trim the rails to the total width of the modules to be mounted. Place a rail adjacent to the outer mounting holes. Orient the footing bolt slot outward. Place a clip slot adjacent to the mounting holes,following the arrangement you selected earlier. Assemble the clips,mounting bolts,and flange nuts. Torque the flange nuts to 5 foot-pounds. Wire the modules as needed. For safety reasons,module wiring should not be performed on a roof. For a neat installation,fasten cable clamps to rails with self-tapping screws. [3.3.4] Installing the module-rail assembly Bring the module-rail assembly to the installation site. Keep rail slots free of debris that might cause bolts to bind in the C liP slots. Consider the weight of a fully assembled panel. Unirac recom- W oun l i no mends safety lines whenever lifting one to a roof. slots Align the panel with the previously installed L-feet. Slide 3/8 flange inch L-foot mounting bolts onto the rail and align them with FOCIing s-, nue the L-feet mounting holes. Attach the panel to the L-feet and boll !Jot �� `� / finger tighten the flange nuts. Rails may be attached to either of two mounting holes in the footings(Fig.25). • Mount in the lower hole for a low,more aethetically Figure 25.Leg-to-rail attachment pleasing installation. • Or mount in the upper hole to maximize a cooling airflow under the modules. This may enhance perfor- mance in hotter climates. Adjust the position of the panel as needed to fit the installa- tion area. Slide the remaining L-feet bolts onto the other rail, attach L-feet,and finger tighten with flange nuts. Align L-feet with mounting holes previously drilled into the roof. Install lag bolts into remaining L-feet as described in"Laying out and installing L-feet"above. Torque all footing flange nuts to 20 foot-pounds. Verify that all lag bolts are securely fastened. Page 24 SolarMount Jnirac Code-Compliant Installation Manual ::'UN I RAC [3.4] Installing SolarMount with grounding clips and lugs Clips and lugs are sold separately. 1. UGC- To .` mou p I4 clampsing ar pi , i i l I Module I P..-.-"" : iX d I i i y � 4 T-bolt I .:A Nibyc v uaQ eu l' Figure 26 Stine UGC 1 grounding r'---`x UGC-1 r' i-�>e clip mtotdp mouniing slbt ofrail. Us Torque modules in place on top of Conforms w clip.Nibs will penetrate rail anod- VL Standard 467 tuition and create gro unding path through rail(see Fig.3,reverse side). 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''X W3 ,F 5 f,y xt'}5 p h•� i0 "�� a n of Sh 'S y rP 4 Y � � " �€ r x Figure 28.Place grounding clips, --1 1 AM1lugs,and copper wire(6-10 AWG). ---,-, .,. `.,. .: Place a loop in the wire around i , I splices to prevent tension.Be sure I I wiring between rails is not taut. ; I 1 ,________ ,k KEY ' �. i ?-' 1 PV module I y^— r ` --- -- 1_l I I SolarMount rail(any type) i tr- = l .. --' T A Rail splice I I I I i { X Grounding lug t I__1 l I -- I 1 6 Grounding clip i — , Copper wire Single tirounding L__, Alternate wiring t_.. wire foi entire array for in-One splices _ Paye 25 • ;;•U N I RAC Unirac Code-Compliant Installation Manual SolarMount 10 year limited Product Warranty, 5 year limited Finish Warranty Unirac,Inc.,warrants to the original purchaser specified by AAMA 609&610-02—"Cleaning If within the specified Warranty periods the ("Purchaser")of product(s)that it manufactures and Maintenance for Arch tecturally Finished Product shall be reasonably proven to be ("Product")at the original installation site that Aluminum"(www.aamanec.org)are not followed defective,then Unirac shall repair or replace the the Product shall be free from defects in material by Purchaser.This Warran y does not cover defective Product,or any part thereof,in Unirac's and workmanship for a period of ten(10)years, damage to the Product th,t occurs during its sole discretion.Such repair or replacement shall except for the anodized finish,which finish shipment,storage,or instz Ilation. completely satisfy and discharge all of Unirac's shall be free from visible peeling,or cracking or liability with respect to this limited Warranty. This Warranty shall be VOID if installation of the chalking under normal atmospheric conditions Product is not performed in accordance with Under no circumstances shall Unirac be liable for a period of five(5)years,from the earlierUnirac's written installaticn instructions,or if the for special,indirect or consequential damages of I)the date the installation of the Product is Product has been modified,repaired,or reworked arising out of or related to use by Purchaser of completed,or 2)30 days after the purchase of in a manner not previousl; authorized by Unirac the Product. the Product by the original Purchaser("Finish IN WRITING,or if the Pr,duct is installed in Manufacturers of related items,such as PV Warranty"). an environment for which it was not designed. modules and flashings,may provide written The Finish Warranty does not apply to any foreign Unirac shall not be liable hr consequential, warranties of their own.Unirac's limited Warranty residue deposited on the finish.All installations contingent or incidental d mages arising out of covers only its Product,and not any related items. in corrosive atmospheric conditions are excluded. the use of the Product by'urchaser under any The Finish Warranty is VOID if the practices circumstances. BEI 1411 Broadway Boulevard NE N I RAC Pa$r Albuquerque NM 87102-154.5 USA 26