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Report he7 s v Version#65.2-TBD RF 4;74' ar 1 „ %(1� ®.FTI: E C PY February 2, 2017 t., ' Y TIGAJW A RE: CERTIFICATION LEI I ER 3 111 nI PiViSION Project/Job # 9723569 Abe De Digitally do—local,d-S Abe De u=SolarCity Users, Project Address: Henry Residence eu_"awthorr,e,on=Abe De Vera, 10065 SW Highland Dr Vera ma°=4017070708 dtyc08 Da[e:2017.W.W 013:2]:51-08'00' Tigard,OR 97224 to PR AHJ Tigard 4 45i SC Office Portland ti IOq Design Criteria: 8 PE -Applicable Codes = 2010 OSISC&2010 OSSC,ASCE 7-10, and 2012 NDS a► OREGON *t• cP- Risk Category = II 14?. .q c�, c,0 rp -Wind Speed = 95 mph, Exposure Category C, Partially/Fully Enclosed Method °� 12e 2 -Ground/Roof Snow Load = 25 psf(Unreduced) '"0ERGUtZA� - MP1: 2x4 @ 24"OC, Roof DL = 7 psf, Roof LL/SL = 25 psf EXPIRES:DEC 31, 2611 Per Section 1613.1,W-(PV)/W-(exist roof) = 8.9%, Increase Seismic Shear Load < 10%, -> [OK] To Whom It May Concern, A jobsite survey of the existing framing system of the address indicated above was performed by a site survey team from SolarCity. Structural evaluation was based on site observations and the design criteria listed above. Based on this evaluation, I certify that the existing structure directly supporting the PV system is adequate to withstand all loading indicated in the design criteria above based on the requirements of the applicable existing building and/or new building provisions adopted/referenced above. Additionally, I certify that the PV module assembly including all standoffs supporting it have been reviewed to be in accordance with the manufacturer's specifications and to meet and/or exceed all requirements set forth by the referenced codes for loading. The PV assembly hardware specifications are contained in the plans/docs submitted for approval. Sincerely, Abe De Vera,P.E.. Professional sneer Mains :..=,765.2489,x57526 emai: eiatilirci Version#65.2-TBD Solar ity , �. C. HARDWARE,DESIGN AND STRUCTURAL ANALYSIS RESULTS UM A ,Y TABLES Landscape Hardware-Landscape Modules"Standoff Specifications, Hardware X.Spacing X-X',Cantilever Y-Y Spacing Y-Y Cantilever Configuration Uplift DCR MP1 72" 24" 39" NA Staggered 24.2% Portrait Hardware-Portrait Modules.*Standoff Specifications Hardware X-X Spacing X-X Cantilever Y-Y Spacing Y-Y Cantilever Configuration Uplift DCR MP1 48" 20" 64" NA Staggered 26.5% Structure Mounting Plane Framing Qualification , ilts Type Spacing Pitch Member Evaluation Results MP1 Stick Frame 24"O.C. 190 Member Analysis OK Refer to the submitted drawings for details of information collected during a site survey. All member analysis and/or evaluation is based on framing information gathered on site.The existing gravity and lateral load carrying members were evaluated in accordance with the IBC and the IEBC. 3C.,7,rearview Way ;;an MSat cc,CA 9440; -,,,,550,838 - 10/8 1888)%O1, ,3 r` .,a50)4382-1029 solar.city corn SEISMIC CONI►ERATIONS Erb, Seismic Design -= _. Seismic Design Code ASCE 7-10 Latitude 454083 Longitude -122.7808 SRA at Short=Period Ss 0.944 _ USES SRA at is Period S1 0.338 USGS S<it Site Class D IBC 1613.5.2 Seismic Design Category SDC D USGS Seismic Check Required(Ss Yes IBC 1613.1 0.4g&SDC D)? ALTERATION LATERAL DESIGN 10% EXCEPTION CHECK Weigh-to PnIpoSed PY Sy, Area De "Load Weight PV System Weight 572 sf 3 psf 1,716 lbs Total Weight of PV System W(pv) 1,716 lbs isie,v4toReeion Existing Sum Area of MPs with PV 1023 sf r l eight Area ' mead STRUCTURE ANALYSIS - LOADING SUMMARY AND MEMBER CHECK- MPS. _ `_ er Pro t,- ,- Sl 1 ,, MP1 1_T. I -n z . ter Properties ,t, Overhang 2.16 ft Actual W 1.50" „RoofS7steM Proem Span 1 8.15 ft Actual D 3.50" Number of Spans(w/o Overhang) 3 Span 2 7.84 ft Nominal Yes Roofing"Material Comp Roof Span 3 " 7.80 ft A(iin^2) 3.25 Re-Roof No Span 4 Sx(in.A3) 3.06 Plywood Sheathing Yes Span 5Ix(inA4) 5.36 Board Sheathing None Total Rake Span 27.45 ft TL Defl'n Limit 120 Vaulted Ceiling No PV 1 Start 2.25 ft Wood Species DF Ceiling Finish 1/2"Gypsum Board PV 1 End 21.00 ft Wood Grade #2 Rader Slope 19° PV 2 Start Pb(psi) 900 Rafter Spacing 24"O.C. PV 2 End Fv(psi) 180 Top Lat Bracing Full PV 3 Start E(psi) 1,600,000 Bot Lat Bracing At Supports PV 3 End E-min(psi) 580,000 , Mem r L Summate., = hof Pitch 4/12 ``a Inial *-Adjust Non P1/Areas PV Are-as Roof Dead Load DL 7.0 psf x 1.06 7.4 psf 7.4 psf PV Dead Load PV-DL 3.0 psf x 1.06 "3.2 psf Roof Live Load RLL 20.0 psf x 1.00 20.0 psf Live/Snow Load L ../m.1,2 25.0 psf x 1 ix 1 25.0 psf 25.0 psf Total Load(Governing LC) TL _ 32.4 psf 35.6 psf Notes: 1. ps=Cs*pf;Cs-roof,Cs-pv per ASCE 7[Figure 7-2] 2. pf=0.7(Ce)(Ct)(Is)Pg; Ce=0.9,Ct=1.1,I5=1.0 „iMember ig Summa )' voi, -T, €`"Dealing Load Comb7,:,!-1- 1_ _ CD (+) a* �= 3.3",,,?Cr . D+5 , 1.15 1.00 0.91 1.5 1.15. ' ba Analysis ReSumIe;' EEEIE ma i , ; JV-:' Governinga `�` MaxMoment n LocationI amici _, €,,, DOC e:. ReZt.,.... (-) Bending Stress(psi) -1,656 17.7 ft -1,625 1.02 Pass ZEP HARDWARE DESIGN CALCULATIONS - MPI filoAafting Plane Information Roofing Material - Comp Roof Roof Slope 190 Rafter Spacing 24"O.C. Framing Type/Direction Y-Y Rafters PV System Type Solara},SieekMot tTt° Zep System Type ZS Comp Standoff(Attachment Hardware) Como Mount Type C Spanning Vents No Wind Design Criteria - _ Wind Design Code IBC 2012 ASCE 7-10 Wind Design Method Partially/Fully Enclosed Method Ultimate Wind Speed V-Ult 95 mph Fig. 1609A Exposure Category ' C Section 26.7 Roof Style Gable Roof Fig.30.4-2A/B/C-5A/B Mean Roof Height h 15 ft Section 26.2 1l t d Pressure=Cali kion oefficlent _ N, Wind Pressure Exposure KZ 0.85 Table 30.3-1 Topographic Factor KA 1.00 Section 26.8 Wind Directionality Factor ICd 0.85 Section 26.6-1 Importance Factor } NA qh = 0.00256(Kz)(Kzt)(Kd)(V^2) Velocity Pressure qh EquationEquation 30.3-1 16.7 psf Ext. Pressure Coefficient(Up) GCp(Up) -0.88 Fig.30.4-2A/B/C-5A/B Ext,Pressure Coefficient(Down) GCp(Down) _ 0.45' - Fig. 4- /B/C-gA/B'. Design Wind Pressure p p =qh (GCp) Equation 30.4-1 Wind Pressure Up plum -1,6.0 psf Wind Pressure Down " ihdowni 16.0 psf ALLOWABLE STANDOFF SPACINGS ) cti t -. i . Y-Dir 1pn Max Allowable Standoff Spacing Landscape 72" 39" lax,AllowableCantilaVer Landscape 24 Nle,.- �t- Standoff Configuration Landscape Staggered Max'Standoff Tributary Area TrIb _ 0 sf PV Assembly Dead Load 3.0 psf Net Wind Uplift-At_Standff 1-actual -154 lbs Uplift Capacity of Standoff T-allow 637 lbs Standoff Demand/Capacity DCR i 24.2% Max Allowable Standoff Spacing Portrait 48" 64" Max Allowable Cantilever Portrait 20" _ = NA Standoff Configuration Portrait Staggered Max'Standoff Tributary Area Trip 21 sf PV Assembly Dead Load W-PV 3.0 psf Net Wind Uplift at Standoff T-actual = -168 lbs Uplift Capacity of Standoff T-allow 637 lbs Standof:Denand/CaDacitY i:5°lo, = _