Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
14010076
CITY OF CUPERTINO BUILDING PERMIT BUILDING ADDRESS: 10430 PRUNE TREE LN CONTRACTOR:VERENGO SOLAR PERMIT NO: 14010076 OWNER'S NAME: MINDER RICHARD D AND VALERIE L 1211 N BATAVIA ST DATE ISSUED:01/17/2014 OWNER'S PHONE: 4082063700 ORANGE,CA 92867 PHONE NO:(714)744-6911 �.� LICENSED CONTRACTOR'S DECLARATION JOB DESCRIPTION:RESIDENTIAL COMMERCIAL ❑ INSTALL 25 ROOFTOP,FLUSH MOUNTED PV PANELS, License Class �� d Lic.# (6.25 Contractor 1 lGf �Qo j fes// KW)&DERATE MAIN SERVICE BREAKER FROM 125AMP T�— —� � Date TO I hereby affirm that I am licensed under the provisions of Chapter 9 100AMP (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:$25000 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:31633120.00 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.1 agree to comply with all city and county ordinances and state laws relating WITHIN 180 D ' SSUANCE 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 D ED 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 granting of this permit. Additionally,the applicant understands and will compl slued by: Date: with all non-point source regulations per the Cupertino Municipal Code,Section 9.18. RE-ROOFS: Signatur Date (aa All roofs shall be inspected prior to any roofing material being installed.if a roof is l 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) 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,Sectio 25533,and 25534. Section 3700 of the Labor Code,for the performance of the work for which this – Owner or authorized agent: Date: 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 1 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 upon the above mentioned property for inspection purposes.(We)agree to save indemnify and keep harmless the City of Cupertino against liabilities,judgments, ARCHITECT'S DECLARATION 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 ALTERNATIVE ENERGY PERMIT APPLICATION �O 12 COMMUNITY DEVELOPMENT DEPARTMENT• BUILDING DIVISION 10300 TORRE AVENUE• CUPERTINO, CA 95014-3255 CUPERTWO a (408) 777-3228• FAX(408)777-3333• building(,,cupertino.org PROJECT ADDRESS ��211 (v�f-e- APN a /� 3 OWNER NAME ff� �� 1 �� PHONE ��S_2� ���o� E-MAIL STREET ADDRESS j ITY, STATE, 1P FAX CONTACT NAME / E-MAIL PHONE v'I C� l2i✓�S 9, 5--.?54�/�32 STREET ADDRESS �Y.STATE, ZIP FAX 0 22 .S. wcs 0�. Ofka 6C ct4 q�T_o/ ❑ OWNER ❑ OWNER-BUILDER ❑ OWNER AGENT ,eL CONTRACTOR XCOMRACTOR AGENT ❑ ARCHITECT ❑ ENGINEER ❑ DEVELOPER ❑ TENANT CONTRACTOR N MLICENSE NUMBER �Z6 LICENSE TYPE BUS.LIC# COMPANY NAME E-MAIL FAX STREET ADDRESCITY,STA ZIP PHONE 6 radt�e c. `Q/ s3 ARCHITECT/ENGINEER NAME LICENSE NUMBER BUS.LIC N COMPANY NAME E-MAIL FAX STREET ADDRESS CITY,STATE,ZIP PHONE USE OF / SFD or Duplex ❑ Multi-Family PROJECT IN WILDLAND PROJECT IN STRUCTURE: ❑ Commercial URBAN INTERFACE AREA ❑ Yes ❑ No FLOOD ZONE ❑ Yes ❑ No SOLAR PANELS FEI ELECTRIC VEHICLE CHARGING STATION ❑ SOLAR WATER HEATING ❑ OTHER: FOR SOLAR PANE/S: NUMBER OF PANELSIUNITS: d KILOWATTS: (,,,, 75r �G TOTAL VALUATION 2 000 DESCRIPTION OF WORK 61 // W/ lJ�� DOT 1 &1ak,±t 2, Inodbe - R. D-BY. By my signature below,f certify to each of the folio he property owner or authorized agen to act on t perty owner s behalf. [have read this 'J application and the information I have provided is rr e r d e Description of Work and verify it is ccurate. I agree to comply with all applicable local ordinances and state laws relating to building co etio . iz epresentatives of Cupertino to enter the above-ident Ted prgoerly for inspection purposes. Signature of Applicant/,4gens Date: SUPPLEMENTAL INFORMATION REQUIRED OFFICE USE ONLY ❑ OVER-THE-COUNTER K.a r F EXPRESS 'l U 5 ❑ STANDARD U LARGE s, CJ: MAJOR PYApp_2012.doc revised 06/20/12 CITY OF CUPERTINO FEE ESTIMATOR- BUILDING DIVISION ADDRESS: 10430 PRLINE TREE LN DATE: 01/13/2014 REVIEWED BY: MELISSA AN: 316 33 120 BP#: _)i2 *VALUATION: 1$25,000 PERMIT TYPE: Building Permit PLAN CHECK TYPE: Alteration/ Repair PRIMARY SFD or DuplexT PENTAMATION SOLAR-RES USE: PERMIT TYPE: WORK INSTALL 25 ROOFTOP FLUSH MOUNTED PV PANELS 6.25 kW & DERATE MAIN SERVICE SCOPE BREAKER FROM 125AMP TO 100AMP 1 , ck 1'111rub- Ph, Elec. Plan Check 0.0 hrs $0.00 ivkech. Permit F&': Vl Permit Fee: Elec.Permit Fee: IEPERMIT Orher.Adech.Insp. Other Plumb Insp. Other Elec.Insp. E hrs $47.00 Alech.Insp. Fee: Phanh. Insp. Fee. Elee,Insp. Fee NOTE: This estimate does not include fees due to other Departments(Le.Planning,Public Works,Fire,Sanitary Sewer District,School District etc.). These ees are based on Ike prelinddh information available and are only an estimate. Contact the Dept/or addn'l info. FEE ITEMS (Fee Resolution 11-053 Ef. 7/1/13) FEE QTY/FEE MISC ITEMS Plan Check Fee: $0.00 1 # Alternative Energy System Suppl. PC Fee: Q Reg. Q OT 0.0 hrs $0.00 $229.00 IPHOTOVRES I Photovoltaic System PME Plan Check: $0.00 —, 1 Electrical Permit Fee: $0.00 $139.00 IBREMMISC Special Circuits Suppl. Insp. Fee-0 Reg. Q OT 0.0 1 hrs $0.00 PME Unit Fee: $0.00 PME Permit Fee: $47.00 Conslrcrction Tut: Administrative Fee: IADM N $44.00 Q Work Without Permit? © Yes E) No $0.00 Advanced Planning Fee: $0.00 Select a Non-Residential E) Travel Documentation Fee: ITRA VDOC $47.00 Building or Structure 0 i Strong Motion Fee: IBSEISMICR $2.50 Select an Administrative Item Bldg_Stds Commission Fee: IBCBSC $1.00 SUBTOTALS: $141.501 $368.00 TOTAL FEE: 1 $509.50 Revised: 01/01/2014 Verengo Load Calculation Worksheet Conditions:Single family dwelling,air-conditioning load is larger than heating load(Based on NEC 220.82) (Revised 06/22/12) Part 1-Customer input How many of the following are used in the home?(if any value is greater than two,load calcs to be performed by electrician) 0 Electric heaters used concurrently 1 Dishwashers 1 Sink disposal(sinkerators) 1 Central Air Units(Forced Air Units) Part 2-Breaker input Existing loads(less HVAC) 1534 sq.ft.@ 3 watts sq.ft(first 3,000 sq.ft./additional sq ft calculated at 1.05 watts sq.ft) 4602 watts 2 Small Appliance Circuits @ 1500 watts ea.(Minimum is 2) 3000 watts 1 Laundry Circuit(s)@ 1920 watts ea.(Minimum is 1) 1500 watts 1 Dishwasher Circuit @ 1920 watts(minimum 1) 1500 watts #of breakers(if 2 pole count as 2) Breaker Size(Main Not Included Here)- 0 225 0 watts 0 200 0 watts 0 125 0 watts 0 100 0 watts 0 90 0 watts 0 BO 0 watts 0 70 0 watts 0 60 0 watts 0 50 0 watts 2 40 7680 watts 4 30 11520 watts 0 25 0 watts 0 20 0 watts 01 15 exclude breakers labeled exclusively as"lighting" 0 watts Total Calculated Load(less HVAC) 29802 watts Service demand General Load: First 10kw of Total Calculated Load(less HVAC)@ 100% 10000 watts Remainder of Total Calculated Load(less HVAC)@ 40% 7920.8 watts Total General Load 17920.8 watts Part 3-HVAC input Total Amps of breakers Air Conditioning Load @ 100%(Volts X Amps=Watts) 60 7200 watts Furnace/Air Handler Load(Volts X Amps=Watts) 0 0 watts Total HVAC Load 7200 watts Total General Load + Total HVAC Load = Calculated Service Load 17920.8 watts + 7200 watts = 25120.8 watts Calcuated Service Load Service Voltage = Minimum Service Ampacity 25120.8 watts 240 volts = ob Number: SO-13-11-216 /eRar4c3o Name: Minder Y Address: 10430 PRUNE TREE LN,Cupertino,CA 95014 ' Notes: CUPERTINO Building Department ! JAN 15 2014 REVIEWED FOR CODE COMPLIANCE/ Reviewed By ���' A4-clll Mono Multi Solutions TSM = PCO5 TSM = PA05 THE UNIVERSAL SOLUTION 15.3% Q MAX EFFICIENCY a- Q 25OWModule can bear snow loads up to 5400Pa and MAX POWER OUTPUT wind loads up to 2400Pa Ci tPERTINC eTlt 10 YEAR ��at�dina,oApa� Guaranteed power ou pdu't PRODUCT WARRANTY 3% 0-+3% "'; �r6^ S 2U,4 25 YEAR LINEAR POWER WARRANTY �'; High performance under low highf`conditions Cloudy days, mornings and evenings Founded in 1997,Trina Solar(NYSE: TSL) has established itself as a leader Manufactured according to International Quality in the solar community with its ($o and Environment Management System Standards vertically integrated business model. Our modules and system solutions ISO9001, IS014001 provide clean solar power in on-grid and off-grid residential,commercial, _ industrial and utility-scale systems. With more than 22 ofi ca;worldwide MC4 photovoltaic connectors Increase system Trina Solar has partnerships with leading installers,distributors,utilities hereliability and developers in all major PV markets.Trina Solar is committed to driving smarter energy choices. LINEAR PERFORMANCE WARRANTY 10 Year Product warranty ® 25 Year Linear Powe, Warranty Trina Solar Limited www.trinosolar.com m1009 I o Aaaitionai pine Trofi Trina Spipr,s lin y 909 �y /°^�}' o eon WQnonty Trinasol+..Af 0 809 TSM-PC05 / TSM-PA05 THE UNIVERSAL SOLUTION DIMENSIONS OF PV MODULE tSM-PC/PA05 ELECTRICAL DATA @ STC FSM-235 TSM-240 TSM-245 TSM-250 941 mm PC/P,A05 ?C/PADS PC/PROS PC/pus ----- Peak Power Watts-PMnx(WP) 235 240 245 250 Power Output Tolerance-PMsx(%) 0/+3 0/+3 0/+3 0/+3 o �uiKJgN eox Maximum Power voltage-VMP(V) 29.3 29.7 30.2 30.3 I u Maximum Power Current-IMvv(A) 8.03 8.10 8.13 8.27 ,I o sry lac rn Open Circuit voltage-Voc(V) 37.2 37.3 37.5 37.6 Short Circuit Current-Isc(A) 8.55 8.62 8.68 8.85 a Module Efficiency qm(%) 14.4 14.7 15.0 15.3 E Values at Standard Test Conditions STC(Air MassAM1.5,Irradiance 1000W/m2,Cell Temperature 25°C). Power measurement tolerance:±3% 0 0 3 3 ELECTRICAL DATA @ NOCT TSM-235 TSM-240 TSM-245 TSM-250 ' ?C/PADS PC/PADS PC/PA05 PC/PADS Maximum Power-PM(Wp) 171 174 178 181 Maximum Power Voltage-VM,(V) 26.4 26.6 26.8 27.0 od"J GgWNpNG-ULr. % A A Maximum Power Current-IMPv(A) 6.48 6.55 6.64 6.70 WNA j� Open Circuit Voltage(V)-Voc(V) 34.0 34.1 34.2 34.3 Short Circuit Current(A)-Isc(A) 6.97 7.04 7.10 7.25 812mm 180 NOCT:Irradiance at 80OW/m',Ambient Temperature 20°C,Wind Speed lm/s. Power measurement tolerance:±3% Back View MECHANICAL DATA Solar cellsMulficrysfalline 156 x 156mm(6 inches) E Cell orlenfation 60 cells(6 x 10) Module dimensions 1650 x 992 x 35mm(64,95 x 39.05 x 1.37 Inches) Weight 18.6kg(41.0 lb) --i'm0-----� A-A Glass High transparency solar glass 3.2mm(0.13 Inches) Frame Anodized aluminium alloy J-Box IP 65 rated I-V CURVES OF PV MODULE TSM-245 PC/PA05 Cables Photovoltaic Technology cable 4.0mm2(0.006 inches'), I OOOmm(39.4 inches) 9.0 .100CwkM' Connector Original MC4 x�m-A�reo, 8.00 800 W/m0 I- 6.1 600w/m' c U 4^0 40OW11W •TEMPERATURE RATINGS MAXIMUM RATINGS 3.m 204. 200W/mr Nominal Operating Cell 45°C(±2°C) Operational Temperature -40-+85°C I mi �� Temperature(NOCT) Maximum System IOOOVOC(IEC)/ 0.� Temperature Coefficient of PNux 0.43%/"C Voltage 600V DC(UL) 0.00 to.- 20.. 30 m 40.- Voltage(V) 0 mVoltage(V) Temperature Coefficient of Voc -0.32%/"C Max Series Fuse Rating 15A Temperature Coefficient of kc 0.047%/°C Average efficiency reduction of 4.5%at 20OW/m2 according to EN 60904-1. WARRANTY 10 year Product Workmanship Warranty 25 year Linear Power Warranty (Please refer to productworronty fordetails) CERTIFICATION o PACKAGING CONFIGURATION o Cpp z c SPus Modules per box:29 pieces +! US PV-CYCLE_ Modules per 40'container:812 pieces 10 F E CUL I16TED 1W THinasolar CAUTION:READ SAFETY AND INSTALLATION INSTRUCTIONS BEFORE USING THE PRODUCT. Cmarr Fnorrn�Tnn for a 2012 Trina Solar Limited.All rights reserved.Specifications included in this datasheet are subject to change Powervw—@ vRe,78WOble Enefgy Solutions AURORA PVI-3.0-OUTD-US PVI-3.6-OUTD-US PVI-4.2-OUTD-US GENERAL SPECIFICATIONS OUTDOOR MODELS i �sdlaaSle The most common residential inverter is the ideal size for an average-sized family home. This family of single-phase string inverter complements the typical number of.rooftop solar panels, allowing home-owners to get the most efficient energy harve- sting for the size of the property.This rugged outdoor inverter � � � � has been designed as a completely sealed unit to withstand the harshest environmental conditions. One of the key benefits of the Uno family of single-phase inverters is the dual input section to process two strings with independent MPPT especially useful for rooftop installations with two different orientations (ie East and West). The high speed MPPT offers real-time power tracking and improved - x energy harvesting. '��� "" PERTINO Rijildinq ()9partment The transformerless operation gives the highest efficiency of up to 97.0%. The wide input voltage range makes the inverter x ; � suitable to low power installations with reduced string size. 1,00E COMPLIANCE Features • Each inverter is set on specific grid codes which can be selected in the field • Single phase output • Dual input sections with independent MPP tracking, allows optimal energy harvesting from two sub-arrays oriented in different directions • Wide input range • High speed and precise MPPT algorithm for real time power tracking and improved energy harvesting Flat efficiency curves ensure high efficiency at all output levels ensuring consistent and stable performance across the entire input voltage and output power range • Outdoor enclosure for unrestricted use under any environmental conditions • Integrated DC disconnect switch in compliance with international Standards(-S Version) • RS-485 communication interface(for connection to laptop or datalogger) • compatible with PVI,-RADIOMODULE for wireless communication with Aurora PVI-DESKTOR + o • • r • • Ig Absolute Maximum DC Input Voltage(V.,.„,.,,) 600 V Start-up DC Input Voltage(V.,.,,) 200 V(ad].120,..350 V) Operating DC Input Voltage Range(Vd_,...•Vd_..) 0.7 xV..,..580V Rated DC Input Power(Pd.) 3120 W 3750 W 4380 W Number of independent MPPT 2 Maximum DC Input Power for each MPPT(PMPrn...) 2000 W 3000 W DC Input Voltage Range with Parallel Configuration of MPPT at P_ 160...530 V 120...530 V 140..530V DC Power Limitation with Parallel Configuration of MPPT Linear Derating From MAX to Null[530V5VMPPr5580V] 2000 W 1200V5V 5530V] DC Power Limitation for each MPPT with Independent SPT 3000 W [190V5VMPPr5530V] the other channel:P -2000W Configuration of MPPT at P..„max unbalance example (112V5VMthe other channel:Pdv 3000W[90V5VM,,5530V] PPr5530VJ Maximum DC Input Current(Ids...)/for each MPPT(IbYPTm..) 20.0 A/10.0 A 32.0 A/16.0 A Maximum Input Short Circuit Current for each MPPT 12.5 A 20.0 A Number of DC Inputs Pairs for each MPPT 2(1 on-S Version) DC ConnectionType Screw terminal biock,3 Knock-Outs:1'/2"or 1"(w/Ring Red.) Input Protection . Reverse Polarity protection Yes,from limited current source Input Over Voltage Protection for each MPPT-Varistor 2 Photovoltaic Array Isolation Control GFDI(for use with either Positive or Negative Grounded Arrays) DC Switch Rating for each MPPT(-S Version) 25 A/600 V Output Side 208 V 240 V 277V 208 V 240 V 277 V 208 V 240 V 277V AC Grid Connection Type Single phase/Split phase Rated AC Power A.) 3000 W3600 W 4200 W Maximum AC Output Power(P-) 3000 W 3300 W 3300 W 360OW 4000 W 4000 W 4200 W 4600 W 4600 W Rated AC Grid Voltage(V.,.,) 208 V 240 V 277 V 208 V 240 V 277 V 208 V 240 V 277V AC Voltage Range183-228 V 211-264 V 244-304V 183-228V 211-264 V 244-304V 183-228V 211-264V 244-304V Maximum At Output Current(I�. 14.5 A 14.5 A 12.0 A 17.2 A 16.0 A 16.0 A 20.0 A 20.0 A 20.0 A Rated Output Frequency(f,) 60 Hz Output Frequency Range(f,....f.,.,,) 59.3.-605 Hz Nominal Power Factor(Cosphi.u) >0.995 Total Current Harmonic Distortion <2% AC Connection Type Screw Terminal Block,3 Knock-Outs:1'h"or 1"(w/Ring Reducer) Output Protection 208 V 240 V 277V 208 V 240 V 277 V 208V 240 V 277V Anti-Islanding Protection According to UL 1741/IEE1547 Maximum AC Overcurrent Protection 20.0 A 20.0 A 15.0 A 25.0 A 2.0.0 A 20.0_A 25.0 A 25.0 A 25.0 A Output Overvoltage Protection-Varistor 2(L1-L2/L1-PE) Operating Performance 208 V 240 V 277V 208 V 240 V 277V 208 V 240 V 277V Maximum Efficiency(q,.n,) 96.9% 97.0% 97.0% Weighted Efficiency(EURO/CEC) -/96.0% -/96.0% -/96.0% -/96.0% -/96.0% -/96.0% -/96.0% /96.0% -/96.0% Feed In Power Threshold 20.6W Stand-by Consumption <8.0 W Communication Wired Local Monitoring PVI-USB-RS485 232(opt.),PVI-DESKTOP(opt.) Remote Monitoring PVI-AEC-EVO(opt.),AURORA-UNIVERSAL(opt.) Wireless Local Monitoring PVI-DESKTOP(opt.)with PVI-RADIOMODULE(opt.) User Interface 16 characters x 2lines LCD display Environmental Ambient Temperature Range -25...+60°C(-13...+140°F)with derating above 55°C(131°F) Relative Humidity_ 0...100%condensing Noise Emission <50 db(A)@ 1 m Maximum Operating Altitude without Derating 2000 m/6560 ft Physical Environmentaf Protection Rating NEMA 4X Cooling Natural Dimension(H x W x D) 617mm x 325mm x 222mm/243"x 12.8"x 8.7" 859mm x 325mm x 222mm/33.8"x 12.8"x 8.7'(-S Version) <17.5 kg/38,5 Ib Weight <21.3 kg/47.3 Ib(-S version) Mounting System Wall bracket Safety Isolation Level Transformerless Marking ...... cCSAus Safety and EMC Standard UL 1741,CSA-C22.2 N.107.1-01 Grid Standard IEEE 1547 i9idtPlltar�i�'• _ _ a ,. Standard PVI-3.0-OUTD-US PVI-3.6-OUT_D-US PVI-4.2-OUTD-US With DC Switch PVI-3.0-00TD-S-US PVI-3.6-OUTD-S-US PVI-4.2-OUTD-S-US P.O.Box 3300,Term."A" 4507 LeSaint Court London,Ont.Canada Fairfield,Ohio USA N6A 4K3 45014 (519)681-2140 (513)942-9910 1-800-265-1815 1-800-523-3539 Fax(519)681-2156 KRALOY I A DIVISION OF MULTIFITTINGS CORP. Fax(513)942-9914 'rf KRALOYO PVC ELECTRICAL CONDUIT FITTINGS LETTER OF COMPLIANCE Scope: This letter of compliance covers Multi Fittings requirements for PVC Electrical Conduit Fittings, Outlet Boxes, Covers and Bends for use with Schedule 40 and 80 PVC conduit. These products meet or exceed performance standards set by the American Society of Testing and Materials (ASTM), CSA International (CSA), the National Electrical Manufacturers Association (NEMA) and Underwriters Laboratories Inc. (ULI). Kraloy PVC Electrical Conduit Fittings, Outlet Boxes, Covers and Bends are typically used for industrial, commercial and residential applications. These applications include residential single and multi family dwellings, fish processing plants, bridges and tunnels, car washes, sewage treatment plants, pulp and paper, utilities, cable, food processing plants, agriculture, airports, marinas, water treatment plants, street and highway lighting, and communications. Material: Rigid Poly (Vinyl Chloride)(PVC) used in the manufacturing of Kraloy PVC Electrical Conduit Fittings, Outlet Boxes, Covers and Bends is compounded to give superior physical properties in the finished product. All products are grey in color. Molded Fittings,Boxes and Covers: CUPERTINO Molded Kraloy PVC Electrical Conduit Fittings, OutletInd Covegstit� at1�Il following standards when applicable: CSA C22.2 #18 "Outlet Boxes, Fittings and Associated Hardwa 15 22111 CSA C22.2 #40 "Cutout, Junction, and Pull Boxes" CSA C22.2 #42 "General Use Receptacles, Attachment Plugs, a r ar Wirin lMs&'0MPUANCb CSA C22.2 #85 "Rigid PVC Boxes and Fittings" ��V�EWEG CSA C22.2 #94 "Special Purpose Enclosures" reviewed BY � CSA C22.2 #211.0 "General Requirements and Methods of Testing Nonmetallic Conduit" CSA C22.2 #227.1 "Electrical Nonmetallic Tubing" CSA C22.2 #227.2 "Flexible Liquid-Tight Nonmetallic Conduit" NEMA TC3 "PVC Fittings for Use With Rigid PVC Conduit and Tubing" NEMA TC9 Fittings for ABS and PVC Plastic Utilities Duct for Underground Installation" NEMA 250 "Enclosures for Electrical Equipment(1000 Volts Maximum) UL50 "Enclosures for Electrical Equipment" UL514B "Fittings for Cable and Conduit" UL 514C "Nonmetallic Outlet Boxes, Flush-Device Boxes, and Covers" Note: Conduit Fittings and Boxes meet Federal specification WC-1095A and Corps of Engineers specification CE-3030:01. Kraloy Junction Boxes are UL approved for the following enclosure types; :�' KHALOY0 Page 2/... PVC Electrical Conduit Fittings, Outlet Boxes, and Covers Junction Boxes -4x4x2 &4x4x4 —Type 1, 2, 3, 3R, 3S, 4, 4X, 5 & 6P. Type 2 and 5 can be marked "drip tight" Type 3 or 3S can be marked "rain tight" or"dust tight" Type 3R can be marked "rainproof' Type 4, 4X or 6P can be marked"rain tight"or"water tight" Type 4X or 6P can be marked "corrosion resistant" Type 5 can be marked "dust tight" Junction and Pull Boxes — 4x4x4, 6x6x4, 6x6x6, 8x8x4, 8x8x7, 12xl2x4 & 12xl2x6 — Type 1, 2, 4, 4X, 5, 6& 6P. Type 2 & 5 can be marked "dripped tight" Type 4, 4X or 6P can be marked "water tight"or"rain tight" Extruded Conduit and Bends: Extruded Conduit used for Bends conforms to the following standards when applicable: Products sold in Canada: CSA C22.2 4211.0 "General Requirements and Methods of Testing Nonmetallic Conduit" CSA C22.2 4211.1 "Rigid Types EBI and DB2/ES2 PVC Conduit" CSA C22.2 4211.2 "Rigid PVC(Unplasticized) Conduit" Products sold in the United States of America: NEMA TC2 "Electrical Plastic Tubing(EPT)and Conduit(EPC-40 and EPC-80)" UL651 "Schedule 40 and 80 Rigid PVC Conduit" Marking: Kraloy PVC Electrical Conduit Fittings, Outlet Boxes, and Covers are marked in accordance with CSA requirements for sale in Canada and UL requirements for sale in the U.S.A. Yours truly, 71 ,11 Frank Yorio Senior Vice President, Operations Issue Date: 2010-07-14 CSA, UL1 ISSUE DATE: RIGID PVC CONDUIT FITTINGS - KRALOY DATE D'EMISSION: 2009 04 30 SUPERCEDES: 6X6 JUNCTION BOXES REM.PI_ACE: 2003 05 15 4 E B A O co no - - B D �...I cl® PRODUCT PART NOMINAL SIZE A B D E CODE NUMBER (in) (mm) (in) I (mm) (in) (mm) (in) (mm) (in) (mm) 078246 JB 664 6 155 6.000 152 6.375 162 4.187 106 4.000 102 078247 JB 666 6 155 6.000 152 6.375 162 6.187 157 6.000 152 178064 JB 664 6 155 6.000 152 6:375 162 4.187 106 4.000 102 PRODUCT PART NOMINAL SIZE GASKET INSERT SCREWVOLUME CODE NUMBE (in) (mm) CODE CODE CODE (cu.in) (cu.cm) R 078246 JB 664 6 155 072492 072539(8) 072513(8) 138.0 2263.2 078247 JB 666 6 155 072492 072539(8) 072513(8) 211.0 3460.4 178064 JB 664 6 155 072492 072539(8) 072513(8) 138.0 22-63.2 COMES WITH 4 SMALL MOUNTING FEET, 097747 Page: KRALOY-27.1 `CSA, OLI ISSUE DATE: RIGID PVC CONDUIT FITTINGS - KRALOY DATE D'EMISSION: 2009 04 30 SUPERCEDES: 6X6 JUNCTION BOXES REMPLACE: 2003 05 15 4 COVER DIMENSIONS F-! 6.375" 162mm 6.375" (162mm) 0.190" DIA 0. " 0.25 Small Mounting Feet 1.970" Product Code 097747 0.175" Page;KRALOY-27.2 y Luick mount PV Your Solution in Mounting Products Solar • H2O • Conduit • HVAC • Custom Composition Mount Specifications - 5116" - PV - Quick Mount PV®is an all-in-one waterproof flashing and mount to anchor photovoltaic racking systems, solar thermal panels, air conditioning units, satellite dishes, or anything you may need to secure to a new or existing roof. It is made in the USA of all aluminum and includes stainless steel hardware. It works with all standard racks, installs seamlessly and saves labor by not need- ing to cut away any roofing, will out live galvanized 2 to 1, and is a better low-profile mount. Split Lock Washer SS 5/16" (Not a theft- JCC prevention feature) Fender Washer SS 5/16" x 1" EPDM Rubber Washer 60 Durometer 5/16" e1 S ; Sealing Washer SS 5/16 - ESR-2835 Hanger Bolt SS 5/16" x 6" 1 1/4" Machine, 1 3/4" Spacer, 3" Lag (2) Hex Nuts SS 5116" Mount& Flashing Aluminum Mount 1 1/4"x 1 1/4" x 2 1/4" Beveled Block Flashing .05"thick For standard composition roofs: flashing is 12" x 12" mount is attached 3"off center RT!NO Building Department Lag pull-out (withdrawal) capacities (Ibs) in typical lumber: ''_ Ltig Solt Specifications Specific 5/16",shaft?�. FOR CODV14"(.SI Wt; IANQE gravity per'F r 1" �f thread ,QRjewed By tf -tteptha`7ffT Douglas Fir,Larch .50 798 266 Douglas Fir,South .46 705 235 Engelmann Spruce,Lodgepole Pine (MSR 1650 f&higher) .46 705 235 Hem,Fir .43 636 212 Hem, Fir.(North) .46 705 235 Southern Pine .55 921 307 Spruce,Pine,Fir .42 615 205 Spruce,Pine,Fir(E of 2 million psi and higher grades of MSR and MEL) ..50 798 266 Sources:Uniform Building Code;American Wood Council Notes:1)Thread must be embedded in a rafter or other structural roof member. 2)Pull-out values incorporate a 1.6 safety factor recommended by the American Wood Council. 3)See IBC for required edge distances. 936 Detroit Ave Suite D, Concord, CA.94518 Phone: (925)687-6686 Fax: (925)687-6689 1 of 4 Email: info@quickmountpv.com www.quickmountpv.com 5116" SS Hex Nut 5116" Split Lock Washer (Not a theft-prevention feature) 5116"x 1" SS Fender Washer j Typical Block pivots on flashing 5116" 60 Durometer L-foot, with water-proof seal EPDM Rubber Washer .........I not included : A 5116" SS Sealing Washer 5116" SS Hex Nut e O Beveled Block 1 114"x 1 114" x 2114" \� 5116-18 x 6" SS Hanger Bolt: 1 114" 1 114" Machine ) w1 314" Spacer 12113" Lag I le Compostion/ Roofing 1 114" 61I 112" OSB or Plywood 12" 2114 Rafter 3" Scale 1:2 TITLE: QM-PV-Comp 5116" Scale 1:5 COMMENTS FILE NAME QMSC_EXP_3125 DATE 1107111u«k Mount REVISION 5 Yntir.5olotion in,Momming Products PROPERTY OFQUICK MOUNT PVALL RIGHTS OF DESIGN OR INVENTION ARE RESERVED DRAWN BY F.K. 501ar • llo • Conduit • #SVA • Custom SWH1110- SOLAR MOUNT PARTS DATASHEE w'iuurla L.-BRAC-KE j . L-Bracket material:6005-T5 Extruded aluminum alloys Part No.MR-SW-LB-90. M -:,\n-!_„-v0e . Maximum Tensile:38ksi, yield: 35ksi . Finish:clear or black anodized; RAIL . Bolt&nut material:304 stainless FLANGE NUT . L-bracket weight:0.24lbs Allowable and design loads are valid when components are assembled according to authorized SWH documents i . For the rail to L-Bracket connection: • Assemble with one STM F593 g/"-16 hex bolt and ASTM 3/" serrated Flange Nut Ressistance factors and safety factors are determined according to part 1 section 9 of the 2005 Aluminum Design J' J Manual and third-party test results from an IAS accredited HEX BOLT ' NOTE: Loads are given for the L-bracket to rail connection only; be sure to check load limits for standoff,lag screw,or L-BRACKE'"/ other attachment method f„ Applied Load Average Safety Design Resistance = Direction Ultimate Allowable Load Factor, Load Factor, ti lbs(N) lbs (N) FS lbs(N) M 3.00 Sliding,Z± 1766(7856) 755(3356) 2.34 1141 (5077) 0.646 XY(yfpj h[!R Y *wsbw ; Tension,Y+ 1859(8269) 707(3144) 2.63 1069(4755) 0.575 S 1 , Compression,Y- 3258 (14492) 1325(5893) 1 2.461 2004(8913) 1 0.615 ' - 2.00 - Traverse,X± 486(2162) 213(949) 2.28 323(1436) 0.664 Dimensions specified in inches unless noted SWH Solar Mount Splice Bar . Splice bar material:6005-T5 extruded aluminum alloys Part No NARSW-SB-01, fvlR SW-SB-01 B . Maximum tensile:38ksi, yield: 35ksi s, . Finish:clear or black anodized RAIL ,,, r • Self-tapping screw material:304 stainless . Splice bar weight:0.36 lbs Allowable and design loads are valid when components are assembled SPLICE . according to authorized SWH documents For the Splice bar to Rail connection: • Slide splice bar in groove on between two rails • Use 4-8 Y4"self-tapping screw to join Splice bar to both rails . Ressistance factors and safety factors are determined according to part 1 section 9 of the 2005 Aluminum Design Manual and third-party test results from an IAS accredited laboratory RAIL . A thermal break is required every 40 feet of continously connected rail. For additional concerns on thermal breaks in you specific project, please consult a licensed structural engineer. Expansion joints prevent buckling of rails due to thermal expansion. Splice bars may be used for thermal expansion joints.To create a thermal expansion joint, slide the splice bar into the 1/2" between the rail segments. Secure the splice bar with two screws on one side only. Foot- ings (such as L-brackets or standoffs) should be secured normally on both sides of the splice. No PV module or mounting hardware component SPLICE BAR SELF-TAPPING SCREW should straddle the expansion joint 5WH • + • ' 1 ' ' WARs : 9 Part,No MR.S%/V.SR.'C, MR-5,A/-SR �?, iy;y�-5�,��i- ?- IVIR-SV4-SR ''16 SLOT FOR T-BOLT OR 1/" HEX HEAD SCREW . Rail material:6063-T6 Extruded aluminum alloys SLOT FOR Finish:Anodized Clear or Black f3/8" HEX BOLT 2.25" Y SLOT FOR • ►X 3/g" HEX BOLT .750" SWH Solar Mount Rail Properties Units Solar Mount Beam Height in 2.25 Approximate Weight plf 0.700 Total Cross Sectional Area int 0.588 Area Momemnt of Inertia X-Axis in 0.446 Area Momemnt of Inertia Y-Axis in" 0.057 Tensile Strength kgf/mm2 19.4 Yield Stregth kgf/mm2 16.9 Elogation (G.L.=25mm) % 17.2 Hardness(HR15T) 71 Typical Composition Material %Si %Fe %Cu %.Mn %Mg %Zn % Ni %Cr % Pb % Sn %Ti %AI 6063 0.3972 0.2679 0.0469 0.0666 0.4936 0.0436 0.0056 0.0205 0.0010 0.0044 0.0188 98.6 RAIL L-BRACKET Ilk Solar Warehouse is a registered trademark and DBA of Calmonte Corporation. 9628 Valley Blvd., Rosemead CA 91770 (626) 579-3288 www.calmontecorp.com s w H OLAR MOUNTs' WARE; ! + SWH 4odar �1�.?�,�s�,:, rrar.! Clam-, . End clamp material:6005-T5 extruded aluminum alloys j . Maximum tensile: 38ksi, yield: 35ksi I � Part No MR-SW-EC-35, MR-SW-356, NIR-SW-EK-40,N1R-SW-EK-408, � Finish: Clear or Black Anodized MR-SY) EF-45,MR-SVV-EF-456, MR-SW-E&SO,MR-SW�EE-50B Bolt&nut material:304 stainless L BOLT - _ • End clamp weight: varies based on height: 0.09-0.10 lbs Allowable and design loads are valid when components are NUT-- _ assembled according to authorized SWH documents Values represent the allowable and design load capacity of a single mid clamp assembly when used with a SWH solar MODULE— mount rail to retain a module in the direction indicated . Assemble mid clamp with one '/4"-20 T-bolt and one '/4"-20"-20 ASTM F594 serrated flange nut . Use anti-seize and tight to 10ft-lbs of torque END CLAMP . Ressistance factors and saftey factors are determined according to part 1 section 9 of the 2005 Aluminum Design A.; Manual and third-party test results from an IAS accredited laboratory RAIL Modules must be installed at least 1.5 in from either end of a SWH solar mount rail Applied Load Average Allowable Safety Design Resistance Direction Ultimate Load Factor, Load Factor, lbs(N) lbs(N) FS Ibs(N) 4) WAS YP1H Tension, Y+ 2020(8987) 891 (3963) 2.27 1348(5994) 0.667 40CNIL� Y Transverse,Z± 1 520(2313) 229(1017) 1 2.27 346(1539) 0.665 j r 0-X Sliding,X± 1194(5312) 490(2179) 2.44 741 (3295) , 0.620 Dimensions specified in inches unless noted AMOLWA 5'v'Vri Solar Iviouroc (4 iU ;lamp Part No. MR-SW-NAC-20. MR-S\/\/-MC-20B Mid clamp material:6005-T5 extruded aluminum alloys • Maximum Tensile:38ksi, yield:35ksi BOLT . Finish: Clear or Black Anodized Bolt&nut material:304 stainless NUT • Mid clamp weight: 0.0096 lbs RAIL '—� • Alllowable and design loads are valid when components are assembled according to authorized SWH documents • Values represent the allowable and design load capacity of a single mid clamp assembly when used with a SWH solar mount rail to retain a module in the direction indicated % Assemble mid clamp with one '/4"-20 T-bolt and one '/4"-20 ASTM F594 serrated flange nut MID CLAMP / tj '` Use anti-seize and tight to 10ft-Ibs of torque • Ressistance factors and safety factors are determined according to part 1 section 9 of the 2005 Aluminum Design MODULES Manual and third-party test results from an IAS accredited laboratory Applied Load Average Allowable Safety Design Resistance Direction Ultimate Load Factor, Loads Factor, Ibs(N) lbs(N) FS lbs(N) 4) Tension, Y+ 1321 (5876) 529(2352) 2.50 800(3557) 0.605 Y Transverse,Z± 63(279) 14(61) 4.58 21 (92) 0.330 Sliding,X± 1 142(630) 52(231) 2.72 79(349) 0.555 r- Dimensions specified in inches unless noted SCREW: E1276 MATERIAL:COPPER,XOC7309 TOLERANCES-UNLESS OTHERWISE SPECIFIED DWG. NO. 2 PL.DEC.*.015 TRUE C.L.±1015 CAT. NO.: PLATING:SEE CHART 3 PL.DEC.*.010 ANGLES *1 60977 • MASS:.052 LBS. MARKING: pI GBL-4DB,4-14,CU, DB DRAWN BY:CLH I SCALE: 3:1 SHEET 1 OF 1 r, SURFACE AREA: 2.738 IN2 DATE:7/27/2007 SIZE: A STUFFER SHT: FORM 12 CELL:ABM REV.1 DESCRIPTION 1/4-28 UNF-26 x/.040 MAX X 45° Cat # : G B L_4 D B 56.218 THRU GBL-4 D BT \ .375±.015 E1276 � � -�- [9.53±.381 / \� SCALE 1 ; 1 - L .213 .190 [5.41] [4.84] CL: -�I .470 OPENING MUST l i [11.94] I 1 SLIP A 0.250 PIN .825 --I - [20.96] .185±.005 \ [4.70±.131 1.150 PART NUMBER PLATING MARKING [29.21] G0977AOOB BRIGHT DIP GBL-4DB,4-14, CU, DB G0977AOOT EL-TIN GBL-4DBT,4-14,CU, DB THE INFORMATION CONTAINED WITHIN THIS DOCUMENT IS PROPRIETARY TO ILSCO AND MAY NOT BE DISCLOSED WITHOUT PRIOR WRITTEN CONSENT �-A d — N210M DNIONMWOO 01 dolE1X3 (iX3) z n m m� �Jx '� ��� 80RId 3dnionMls 3004 JJIN3n Ol MR0 1lV1SNl MA .............. (N) 04 z m ► 'S21M3ANI SS3ld3Wd03SNVWa30NnOd9Nn r 2 m � -j 2103 SNnN OO NO 03sn 38 IItMS 381M Ad 9NLLSIX3 (3) � C_ 0 r ' i z -n m 9NLLV21 ssn8 30LM3S NIVW 3H1 30 IIVM 9NldV38 OVOI """"""" MEn 0 �., ; > 033.E NOVB 3l8VM011V 3H1 30 HOZ l 0330X3 ION Y m 0 --1 . s re:a.��s INRs 283M88 Ad 3H1 '(Z)(8) X9'069 '121V dad 9NI8nl onivi3W IVDIH10313 """"""" A3 v� m Tcn Asa{ "dYW OOb?M d3MOd WnWIXVW 1V 1N3ddnO dWl AB a dM SV S3MMW 9MQ" Ol XIM WlMd aw aWWd m 3HV q 'r-.!1'411 `'�.." .,� 9NMOT10d 3LL'S310N I'FIV Had HO SNVId NO Q3LON 3SIMH3F110 S5371fh .. 311S 1O3P021d ;3 ; d3MOd WnWIXVW 1V 30V110n dWn v F' N o - S310N NOI1VlltllSNl Ib"d3N3J 11nO211O N3d0 39V110/1 """"""" DOA mco m Z D Z 11N3aano 11nOaI0 18oHs ................ osl Y m O rty:1 ei� w T w ... 069'0'3`N • J 1N3n 211V OI�LV ❑ SNOUVIA32199V a S30Nt%NIa2�O.0 l0 llt/ • - u X N S(IHVGNViS AON3101333 o rn A!DH3N3 VINHO=IIIVO 80OZ • ' 1N3n SVD ® u 3400 ADH3N3 VINHOJIIVO£lOZ • 3400 JN18Wf)ld VINHOJI]VO£lOZ 0 AM 9NI8Wnld O 3400 IVOINVH03VY VINHO=IIIVO£lOZ • O 3400 JNIaiina VINHOJ11VO£lOZ • � 1NIOd 1N3WHOVllV • H11M S31ldW00103rOHd b v �. SNOLLVInOIVO IVOR 10313 D = _ ` 8 d3N18W0O/X08 NOLLONnf � Far] ,. C ° S3a00 t11N2J0JI IV0 N o o -s < _]- / S021VOVId 0NV 39MIS �.. in bSIO VOOI Ol p W WlLn O -Ad DQ 13NN40SV5Zl MMU 318V1mA • � � O201OnON0O (INV WDVI0 � W a y� 3NIl 3lDNIS '1.Sfl S1V12131VW TuautJ dap 6uipiir,N ON � 3N121Vd 3ONVNL� _� _:. SlIV130 m SAMHOV1IV 1NnOW NOIno e =3dkL 1N3WHOV1IV �o ��°a�5°,ay ��d ens 00 N0S310N NOLLOn2l1SNOO rn w p Z �\�, � , ❑ ONV NVId DNIWV2LA 30021 Ph G7 (3� �a o� . 5e �Q 1e w w m )WVdW0O ORLLO3l3 (INV SVD IO ��J� �,��?o \ � d En Cn 5; 30 y �c"Z �o�a !.z, 5�° yJ d31N3O OVOI 31 NOI1Vn313 1N3WdIn03 ONV (p _ z e° r° oe ,. ^moo• -o f NVId 3008 'OlOHd 3snOH x D m 2131213MII 0'F-Ind- 0- dam' /��,° .'eon .9OSN �o.��eae4 ^,�a,� Z-nd wsp o c S31n00W 80'SOVdOSZ- VN ' c Hca° s``��5��`oQo• ���r�4' l�OS10 OV ® NVId MIS 00 _ .� , ,° ,� 5� o m _u OO M169'9 = MOS'LZZ X 9Z Old}' `° O ~Q�,o�` =��`�� �� ,o``' �'�� VF_Ad I N) r M�ISZ'9 = MOO'09Z X 5Z :01 0 cN?�. e''�°ao�� �`� , iO3NNODS10 00 S310N rHV (INV MOM M C :3ZIS W31S,lS ®� �y_� .(> ' 30 3d0OS 'S310N 1V213N39 SASHy Oro1lOnOlOHd 1NnoW-3004 lYLUalS3S)2131213NVI 0 yr`�' ( MII N JOM d0 3dOOS GNA03.1 13S NVId X34N1 133HS :S310N fHV " mmJ �1 •C VAd ,.O-.� =.ZC/C :31VOs N b-1 d 31 l S Cf) cn m m — g � � 3 z m Y ig r � N Q CO auaulpi3deQ buip ing z ONIJ113dn11) Y mW 0 I dSIN i 0 o ❑ ❑ W D AVM 3NNa W s zQ m N 3 oO A C W C) � Fl CD 5 = m CD --j Q , CD w p ro D m o m 4 C) r Cl) z D � cn -< --- 0 Q- m good A r < C7 N w N m F1CO 0D 0) wO � z GJ C � C wz m C) m mz Cn nc) D0 x D < CD * 5>- 3snOH MO1s L o ; _-- 4 m oC z-Ad „air :31dOs Nb-ld =1002J L 'STNUMs NOIl`dA313 1N3Wdlf1o3 � Q m X9E a3213A0O % 9:S31f100W d0 'ON - -- /��/\// /�L�_ 3 3 _j �0e 99SO-V3av A"8V �0e CIMM v3av 40021 m ty�,r �r /_ ( paMaiAa� M:HJ.JIWIzv ),"N`d M:HJ.JIWIzv 40021 N A0NdlIdVl0JSOC"'? %:HOJJd ),"NV at :H011d 40021 --mil li-=----� r-1 I Y ' +� r ;s i I I z-Ad L ] luaut}redaa 6uipiin�s AN o run ri I Z , ----------- � I o r Y i m U) I r� I I I 3M N m o I I I I I I W �, w ` dSW �, AN AN 1 I I I $ 0 i er I I I u w N — — -- --------- wCo r I I I s m ❑ El N s o kmLm 01 kV'd V 01 3 c 0A 71 F-I W .0-,£ C a = I CL o I rn o I OlOHd 3snOH .99 _ - o No � � � N I ❑ rn D D 0 0 =rcn I ' ncn D co •1 r N < --� C) m N (O co • Wo Cn 0) Z N0 o 0 XZ6:a3213n0O G 8l S3�f1a0W d0 'ON �! w o m G) �06 :d32M J"dV 1=106 W9W:d321H 40021 f C" n m Ds:H1f1WIZv ),"N d DS:H1f1WIZv d0ON �? p Z JU:HOJJd ),"8`d A :H0_Ud 40021 x D m Z-�IV'ld E)PIJJfVf10W co ooC Nim "U � r w o NOLLVD01 kV8SV 0) w I 0 s �J ,.0-.� =„94 :31VOS Ned JN I VY '?]d 40021 VZ-Ad X • MIV lNMHOVu � �I d dSZ-Ad 9H=J=1 J • cn z tea 0 m M GZj o 4ONVI-Idl,n00900: 8 ..fir_. . ,_: o duaurjedaQ buiplii,d ! I I I I MZ ONLU:i3dnO 5 o I Z fi------�sI - - M O — — -0.0 „-kZ 0 83LM 9XZ ' I I d I w -n- — — - — — r0—.02r E C) I I u w ;u _N —r— --s-- - --�--- w 4 m ---- ----- � it — cn I I a w I I I I 2 X ------a---- — (D =O I I CD - Q -� -�——• =j— a C) 0 o Oo - O C) c7 -rI n ro I cp o ---- �-ad -- o0 v cn C') cn Q m01 --- A I i PJ < C) Mrj -- - - -- - i CD CO s M - -- - - F1 K) w ° � Z -� - r I-- - w � m G) I I w m 0 co In z 'OO.ZZ• :S1NIOd 1N31NHOVi.LV nD O -- -- - -- -- - x - m 3Sd sb'Z = Avziw 30 mom 11Nn CO 3S ML L = ,90'62X„909 = SNOISN3W10 31f100W --——— — - ————— 0 o c S81 2* = M13M Moon I m 9O'SOVdOSZWS.L = 3dKL 31f100W — (NVdS) (NVdS) 0 C (n 3008 310NIHS 311SOdW00 TIVM .9—,L „0—,L :3dkL 3008 Z V L-3N`dld ONUNnovy 'STN -3IVOS -lIV13G OSI d00�1 Ol iin(INOO 9 .0-,L = .£ :3IVOS A-lovy3SSV dVVV-lO iin(INOO Z SZ-Ad 'S'I'N :3IIVOS .8/5 L 38 o D cn lnalslNn EIn OSI 9NUNno w3noed lnalslNn I- -m 8/S-L X 8/5-l y > M-j ? ��a��ainaU 8/5 L X S/S-1 MIN 11naN00 n r r, :3ONVI Id!N0' X00 ! c .�:.,M31,',7c 9 m m .a-- �tZ � t ;�rt 'PiM8 ;, r ONIiH3dn,,) p-= dwVlO llnaNOO drWlO 1n211SINn llnaNOO 11naNOO v 0 ln211SINn m Z 5 O v z 11naNOO m W � O m -n " 5 .0-J=.z/L :31VOS -IIVJ-3G on-i aNno0 jb -V 'STN �S -IIV13 7 NOI-LvaL3N3d llflaNOO J w � N w Oo s m dA1 3Ina0W wow r+ r aolonaNOO 3 cn 83ddOo p 3M anos � � CD � Q o (D o 31Vd WEN L 0 9NIHSVI3 213HSVM 2NJS 'S'S 13WW089 4j n 8388n21 0) 1JnaNOD • Q m 1nN X3H 'S'S 30021 p om aNno8o 311SOdW0O 83ddOO ODS-111 < 'STN --IMS -11VL=-JIa OSI 1Nnovi >IOlflo Z IlViDO dn-MOi81Nnovi >ioino i .o-,L=.L 3IVos -1IVl30 1Nnovy >ioino • o m CO VL X31-MIS/M a3lV3S NOLMUN3d c � fn .5'z 'NIW 1108 9V1 SS .9 LA ao � . �� . co � � m G) S1N3WHOVLLV VL X313V)IIS/M / IIV21 'NWnIV�z/l c � O 1NnOW NOInO Ad a3IV3S NOI1Vd13N3d .5Z w z m �j 3008 USOMOD C-) � � 'NIW 1108 DVI SS .9 L/5 �. g/ `p - z S1N3WHOVLLV x O � • ®i� D lNnowNoIn '°1 11ti OVINn 8 lVom _ 8z-Ad CD cn NWnIV .z/L-z D o c 1nN V 1108 SS ./M / z m Tcn 13NOV218 .I. 'NWnIV .� Nr o C r OVaINn A8 in O� \� NWnIV .z/L-z S1N3WHOV.UV 1Nnon Non 9NIHSVI3 3Ina0W Ad 1nN V 1108 SS .I/M 3008 13NMO .I. 'NWnIV 311SOdMOO 3Ina0W Ad A.J C-Ad o cn y--Z m > G) G) m - _ - - dZ d6 s M 9 S OL a r r .� r ------------ ------ Z m -- _ --- -----=-. -- ------------ ------- -- - ------- ----� r H1H;id:e ( SnOH HOM mI -. I L- -- -- ----- �00tl:Z 3 Y W9U4Jddo0 bulp,, b OO of S312i3s NI Ol 11nONOO 1NIVd) CnV1SN1 1V HOM 3000 1NMd) I ' I b II ❑ ON1 .2i1Ka��" ov s3� w unaoSdYM10 ON3 oz sdYr�l0 aro Sdmn3 aIIN av SdW3 a1W �- ------ --- ------r- ----- ----- ----- , z 1Md OVNINn ,oLL -lIv2i I o� 0 1 E s N f o °� v o C �/ Z Hlnmzv.O9L S1N3YIHOVllV 1Nn0YI >IOInO 8E S1N3WHOVllV g m I V s H�lld 9L cnO I r--- ad008.L D z L 9 \-El S31HEIS NI llnONOO 1YV3 .*/C ASL llnONOO I °�° l_- ---- ---------------- ----- --- -- -- i i S33naoIN 9 N El 0021 ONnOd9 9NLLSIX3 NOW )MV ,9 8 dSh 6 00 °� `-- -- -' NIM a30Vld 'a38YI3 ,8 1,01 X .8/S� L 0021 MONO, 0 6 > 9 b >� 1 Hlnwlzv 06 , , W N A H�11d.6L � �� 8s N W �008,z VOZ AOtiZ d3)IK3d8 Ad 3104-Z L OM110AOlOHd w E S3I2i3S NI I °' 83XV388 m 033 831N30 b Z S33naow 9 ❑ VOZ `AO*Z `d3HV3d8 Ad 3IOd-Z L bs N VSZ l 'OVA W '13NVd E OM110AOlOHd 3 I 131Ad3S NIVW 9NI1SIX3 3N l 831N30 OVOI ❑ A ALM, '3SVHd—L 'AW 'd31N3O aV01 2MlOS VSZ L 0 0 d313 4 Jl1nLLn SO1VO (1V01 dad Olin-30L 103NNOOSIO ❑ m 1VNOLLO3d10-18 d3NV3d8 310d Z `VOO L Utz 30V%83S NMW CD � o VO* 'AM 'N3MV3d8 Ad 310d-Z L Q 0213�V3d8 L a p CD o 0333 NOVO XVA V09 = 00 - 09L OIV110AOlOHd 3' r -j p 031sn In 'dl VYV3N 'V09 'OVA 009 103NNOOSI4 o c vosl = Z'L x 9z Z ❑9 CD n D BdnZZZ90 d3Y1WVH d311n0 / NOlV3 0d o � � n S133HS NOLLVOL�f03dS L 8313M 3dO ❑ D Q 33S 8313M LOL 31V91 M31SkS 9N10NnO89 9NLLSIX3 (L) 9 A '133HS NOIIVOLJ103dS Z 103NNOOSIO 04 ❑ 83ddOO NO M 32M8 8# S 33S 'd3ld3ANl H11M a31sn _r < 1P13 .*/£ NI N9 Z-NMHl - 9MV8# (L) %96 :AON31OL-U3 030 o m b VS't L :1N3ddn0 lndln0 OV xVY1 ^w N Z-NMHl - 9MV8# W CD CO � *9Z-LLZ :30NVN 30V110A OV A009 W o M cn � � cn m 1Y43 .*/C NI N9 Z-NMHl - 9MV8# (L) :39V110A lndNI 00 XVA AM-09L Z 2i312i3ANl E N o o Z O 39NVd 39V110A 1ddN1 (/�06Z) w o m ,n Z-NMHl - 9MV0 L# (F) E V-Sn-S-01n0-0'F-I/1d-3N0-2[3MOd w z m 0 1W3 j/E NI N9 Z-NMHl - 9MV8# (L) Tm Z � c-) D Z-NMHl 9MV0L# (Z)O S30811nd ❑ D m (INV NOLLONnP '1nO1no oil Z X08-P Z l M3 J/C NI N9 Z-NMHl - 9MV8# (L) Z'ZZO VSO 9X9X9 X08-P JlO1VdN D CJ, c Z-NMHl - 9MVOl# (t) Z O - gym M N r ONO nddOO 32M8 - 9MV8# (L) MS'LZZ 9NI1Vd Old MOSZ XVYVd A. 3dIM Ad - 9MVOl# (Z) d6 VLZ'8 =dYVI VS8'8 =OSI 3lna0W ONO d3ddOO 32M8 - 9MV8# (L) 0� =dKA �Z Ad 2iV l OS ❑ o 8VIOS VNI& 3dIM Ad - 9MVOl# (�) l NOLLVV480JNI doionaNOO JlLO NOUNOS34 mo 1N3MM03 t-/fid10,5 *39VI10A w31SAS XM V90'L L '1N321dnO 11nmlO-180HS ,L+ 1dL. ramal' �.F� oarraina; 1N3W3211n0321 SIH1 133W A�6£ 3OV110A ON11V213d0 s = ism SIV1131VW 3AIS3HOV 318V21n0) VLZ'8 =1N32k1nO 9NLLVd3d0 `- Z m a')hiH! I�u�+n') : (Q OI NQS ; ���I n 3 OVAOtiZ `V5'�l NUIO'£ Ind!!10 2131213MII XVVI IN3WN0211AN3 3H1 2103- 318VIinS s D 1V1131VW 1NV1SIS321 213H1V3M A£5Z39V110A W3JSAS XM G) `a ; d W q 0108-NON '1NO3 8VIMIS 80 IV18V . V90'L l :1N38anO uno2llD-ISOHS � S831131 1VlldV0 11V 90 Z _iau�,EUop 6uiplinj i •. 1HO13H 2131131 „9/£ YVnVIINIVI AM :39VIlOA ONLLV83dO V09 :1N38wo ONLLVd3dO Y �l��dn I ON183MI 311HM 9VA06Z W*1 VO'£ lAMO NIL83MI XV11 ONnOd9XOV8 038 m i"803 0NV 1N31NOO ONIAM *9*069 V £5'069 03N 83d 83183ANI s 1V 4311V1SNl 38 01 3O21nOS O ' 83MOd ONI,OAOlOHd 1N38am-1032110 0 ® S W c EB m o m 03ZI90N3 38 AVW (INV O30NnO80Nn Y D z ,, -1 38V W31SAS ONIIOAOIOHd m o m SIHi 30 S2101OnON0O OO 3H1 83I213ANI �' O2IVZVH XOOHS 011103-0 w �, cw 103NN0OSIO OO zt C') i33NNOOSIO OV 9NIN21VM $ � k 3OIAd3S NNW (INV 8313W N 0 rn ®:1V WW'06903N 213d 30IA213S ON11nO u m NMOHS SV O31VOOl S103NNOOSIG O3SOdX3 38 AM S11nO211O 030NnO89Nn N H11M S3O8nOS 9NIMOT103 3Hi hOW '03ZI983N3 3d3HM MAX (INV '103NNOOSIG 031lddnS OSIV SI 9NI011ne SIHI 01 d3MOd 'X08 213NI8WOO 'X08 NOLLONnf HOV3 3 0N011n�� 1V ONIN2IVM 9NIM01103 3H1 UM 0313M O 38 TNHS 3O21nOS d3MOd ONIIOAOIOHd _ 'NOWSOd N3dO 3H1 NI C OV90L SOOZ 03N CD --1Q- o� 83d 13NVd 8313W 3OIAN3S 03ZI9d3N3 38 AVW 301S OVOI A ° (D o 3H1 30 30V3 3H1 NO O3TIVISNI 38 Ol O OMI 3NIl 3H1 H108 NO SIVNIW2131 o 'SIVNIW213I HOn01 ION 00 01110313 (IR33NNOO W31SAS OIM313 mos OdVZVH 9 IN8VM C. C-)cn :NOLLnVO C. w LL'069 9002 33N N3d Q � SNV3W 9Nli33NN09S14 1V '13NVd 33IAN3S NNW 1V 031VOOI 38 Ol O 0311V1SNl 38 01 •NOWSOd N3dO 3H1 O A NI 03ZI983N3 38 AM SNV3W ONLL03NNOOSIG 11nOd1O 21VIOS :NOLLnVO 5.r � CD < 103NNOOSIG OO MOS C, K) m IM831VW 1NV1SIS38 W ch o w X 83HMM 3AI1O313321 38 -nVHS - N o --i cn Z 'S3X08 NOLLONnf ONV 213NI8WOO Ad TIV 103NNOOSIG OV MOS 0) w X ONV SNOL1V2EN3d M0138 210/OMI 3A08V C'' o �° m Cl) ONV SNdnl 1V '1333 01 AN3A3 'S3118W3SSV w Z m 318VO (INV 'S38nSOIDN3 'SkVM33Vd (Z)(0)i,V069 90OZ 03N dad Jk13A1193dS38 cp m z (/) '11nON0O Ad 801831)(3 (INV 210113INI O S193NN09SI0 90 (INV :DV llV 1V O T (-) > O IIV NO 03OVld 38 OInOHS 9NINM 0311V1SN1 38 Ol `SNV3W NOLL03NNOOSIG " Dmr IS D 0 0GRIMM (INV 030NnO89Nn 38 AVW MAX3OIA30 1N32121nO213A0 SIHl S2101OnON00 03ONn0219 J,MMON m 31VOO1321 lON OO 'O3IVOIONI SI 11nV3 ONn0219 V 31 N r NOLL03NNOD indinO 831N3ANl A o C ONIN2IVM (12NZVH XOOHS OI21LO313 0) (n 9NIN8VM r (L)(8) *9'069 90OZ 03N dad (0) 5'069 90OZ 03N 13NVd 3DIA83S NIVW 1V 0311V1SNlO � 83d 83183ANI 1V 4311V1SNl 38 01 O 38 01 NO1133NNOO lndln0 2131d3ANl •NOlidnaaam ONV N01133130 llnV3-ONn0219 �J 5-Ad 0 m cn V OZTZ = 0t X I X 89'0 V 99'81 = 0t X 8'0 X 85'0 D r- _ pars nay, = kU3VdNIV a010nallo0 11n0a10 = JJ omw 8oionallo0 11n0a10 n n X (o)(Z)(8)S l'O[C 03N -aid '212100 11L1 11naN00 X (o)(Z)(8)S l'O LC 03N aid '212100 11L1 11naN00 s C 'JRIHI1 Wn ) ��I n'! �9 r', X 9 VO LC 31EX 03N Ed '8800 MR X 91'01£ 318V1 03N Ed *8800 dN131 s 9VOLC 318V1 03N aid 2lolonaNOO lJno2110 3o kUOVdNN a31VEa 9VO1C 318V1 03N aid NolonaNOO lJno2110 3o aDVdVW a31VEa 9 m KOZ S I NVl _ V COT 1 = 58'8 X 5z'1 X 5z'1 V CST[ = 58'8 X 9z'1 X 9z*[ � Z r SSI X 5Z'1 X 5Z'l OSI X 5Z'1 X 5Z'L Y cn juau.[�ecjGC1 bulpjin� i :(G*V)8'069 03N aid koOVdvw NolonaNOo lJno2110 Minom :(G*V)8'069 03N aid koovdNIV NolonaN00 iino2110 a381nO38 V of uovdNIV 2101onaN00 lJno2110 V of uovdNIV 2101onaN00 11no2110 OMV O1 :3ZIS NolonaN00 lJno2110 OMV O1 :3ZIS 2lolonaNOO lin0w g I :(�)(Z)(8)S l'O[C 03N aid N011038800 11L1 11naN00 8'0 :(o)(Z)(8)S l'O[C 03N aid NOLL038800 11L1 11naN00 o m Z :S2lolonaNOO ONMWO 1N388no 30 t :swionaN00 ONUl W 1MNNno 30 m Z 89'0 :9 VO LC 318V1 aid NOLL038800 dN131 85'0 :9 VO l£ 318V1 aid N011038800 dN131 ° .ZZ + At :(0.) dN131 381M a3103dX3 .ZZ + At :(0) drat 381M a3103dX3 Y W (n V 58'b, = 55 X l X L8'O .ZZ + :(�)(Z)(8)5L'Ol� 03N aid .ZZ + :(�)(Z)(8)5l'Ol£ 03N dad N m o = JJJOVdNN aol0naN00 11n0a10 11nalloo a3SOdX3 803 1N3YlLSnPaV 38lLVd3dV431 1N318NIV 11naN00 a3SOdX3 ao3 1 nisnM 38niVa3dn31 1N318M w X (o)(Z)(8)5l'OLC 03N aid moo 11L1 11naN00 0 X 9VOW 03N aid *8800 del (VZ) - �:131�:13nN1 Ol X08 NOliONn nmij (Z) - 2JDi2JDANl Ol X08 NOliONn W02i3 4 W > :9101C 318V1 03N god saolXOM lJn0ap do J1110VdWV a31Va3a :SNOIldlf bleb AilOddWd 2Joib (]NOO O0 :SN011dlf olvb AilOddWd 2Jbio GNOO O0 z °' m V 5Z'9c _ (05't+L + 05't l) X 5Z'L N 831N30 aVol 30 1N388no indlno X 5Z'l :(8)8'069 03N aid Jl1Jmm 2lolonaN00 iinow a3a1nom 3 cn V0TK = Ot X l X L8'0 Vt8'LZ = Ot X 8'0 X L8'O 0 l :(o)(Z)(8)5l'Ol� 03N aid 11L1 11naN00 = koovdNIV NoionaN00 lJnow = kOOVdVW wionaN00 lJnom c :SaolonaN00 ONUl W 1N3aano 30 # X (�)(Z)(8)5l'Ol� 03N aid 'aaoo llLl 11nallo0 X (�)(Z)(8)5l'Ol£ 03N aid 'aaoo 1lLi 11nallo0 V55 :KuovdNIV wionaN00 lJnow X 91'OLC 318V1 03N aid '8800 dN131 X 9VOl£ 318V1 03N aid '8800 MR CD CD Q o OMV 8 :3ZIS 86lonaN00 lJnow 9L'OLC 318V1 03N aid aolonaN00 lJnoalo 3o JJOVdNIV a31Va3a 91'O1C 318V1 03N aid wionaN00 lJnow 3o kOOVdVW a31VEa � A CD (p o L8'0 :9 VO LC 31EK 03N aid NOLL038800 dVOi � o Al 0) dN131 381M a3103dX3 VEST[ = 58'8 X 5Z'l X 5Z'l V£8'£l = 58'8 X 5Z'l X 5Z'l C S D O S na 0 = OSI X 5Z'1 X 5Z'l = OSI X 5Z'1 X 5Z'l :(8W)8'069 03N aid JJJOVdNN aol0naN00 lJn0al0 a3aln03a :(OW)8'069 03N aid JJJOVdNN aol0naN00 11n0a10 a3aln03a -4 - 50 0 0 =r cn W -< V 08'W = Ot X L X L8'0 V of :KuovdNIV wionaN00 lJnow V of :Kuovdvw wionaN00 lJnow D Q � = KUOVdrlV a0lonaN00 lJnow OMV O1 3ZIS NoionaN00 lJnow OMV O1 :3ZIS 8olonON00 llnow X (o)(Z)(8)5l'OLC 03N aid 'aaoo 11L1 11naN00 l :(o)(Z)(8)5l'Ol� 03N aid NOLL038NOD 11L1 11naN00 8'0 :(o)(Z)(8)5l'Ol� 03N aid NOLL038800 11L1 11naN00 A X 9 VO1C 03N aid '8800 0431 Z :Sa0lonaN00 ONLJ WO 1N388no 30 :SaolonaN00 ONLJl W 1N388no 30 � :9l'Ol� 318V1 03N Ed S801,OMN00 MOND 30 kLMdVW a31Va30 L8'O :9 VO W 318V1 aid NOLL038800 A31 L8'0 :91'01£ 31EX aid NOLL038800 dN131 Al :(0.) dN131 381M a3103dX3 Al :(0.) Ma 38IM a3103dX3 V C 1'8 L = 051,L X 5Z'l W N rn =1N3aano 1ndlno a31a3ANl XM X 9Z'1 NO X08 N O I lO N n f Ol Ay` : jy ( 1) - X08 N O I lO N n f Ol Jy� j 2jy CD CD :(a)e'oss 03N aid u10VdWV aolonalloo 11noaI0 a3a1no3a rn :SN011t�lnoivo kiioddWd 2joio ON0O O0 :SNoiivinoivo k1.IOddWd 2joio ON0O O0 --A N p 0 z w a m (,7 n In 0 I W z m 0V90'l l = 58'8 X 5z'L V90'11 = 58'8 X 5z'l m z 1 :( o)(Z)(8)5l'O LC 03N aid 1111 11nallo0 OSI X 5Z'l OSI X 5Z'l C :83183M11 aid Sa0lonaN00 ONMWO 1N388no 30 # :(l)(V)8'069 03N aid 1N388no Ad XVW :(l)(V)8'069 03N aid 1N3aano Ad XVW D 0 x D m r V of :u10VdNIV aoionaNOO 11n0a10 cD ' D OMV O l :3ZIS aolonaN00 lJnow Z# A9VL*5 = CL X 091C X Z V l AL979Z = 9 X 09'L£ X Z V l cn 0 0 V Ot uoVdNN aolonaN00 lJnow S3183S NI S31naon # X om X uolloa-uom S3183S NI S31nam I X DOA X uo1}oa-uoDA 4 m OMV OL :3ZIS wionaN00 lJnow l# :(L'069 03N aid) 3OV110A W31aS Ad XVW :(L'069 03N aid) 3OV110A YV31SJlS Ad XVW cn N r L8'O :9 VO L C 318V1 03N aid NOLL038800 A31 A g C .l� :(0) dN131 3aIM a3103dX3 Z l'l :L'069 03N aid NOLL038800 3OV110A Z V L :L'069 03N aid NOLL038800 3OV110A rn (n Z :Sa310MI 30 # .5- :(0.) 'dn31 Mol a8003a .5- :(0) 'dn31 Mol aao038 :SNoiivinowo)QOddv Join GNOO OV :S,OIVO 1NaNno '8 Jevi-lOn/fid xvN :SDIVO 1N32Nno *Q Jovi-lOn Ad xviN AAN 0'S lAd -Z 2AEWADANI MSI 0'S Ad 2AEM: ANI