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HomeMy WebLinkAbout20191210_Structural Analysis_9-18-2019M SQUARft., WIRELESS Site Name Site ID Pole ID Proposed Carrier Site Location Structure Type STRUCTURAL ANALYSIS AT&T (N) CRAN/SMALL CELL September 18, 2019 HBNPB 042 188448 SLC4735 AT&T 606 [CS] AVOCADO A VENUE (SLC4735) CORONA DEL MAR, CA 92665 33.604239 NAD83 -117.877260 NAD83 Street Light Structural Usage Ratio 21.0% Foundation Usage 77.1% Ratio Overall Result Pass Note (N) Ameron CB04X08. 7SPL (N) 30" x 6.0' Foundation ~~CEIVE'o eJ,,,, ( COMMUNITY DEVELOPMENT DEC 1 0 2019 C/TYOF '21~ ~ 1>0Rr aE.~c, Upon reviewing the results of this analysis, it is our opinion that the structure does meet the specified IBC/ ASCE code requirements. The concrete pole and foundation are therefore deemed adequate to support the proposed loading as listed in this report. M SQUARfc., WIRELESS 1 397 CALLE AVANZADD SAN CLEMENTE, CA 92673 \ PA2019-108 M SQUARfi., WIRELESS Summary of Contents Introduction Opening Statement Project Description Criteria Conclusion Calculations Appendix A Design Tables & Resources Used Assumptions and Limitations Our structural calculations are completed assuming all information provided to M SQUARED WIRELESS is accurate and applicable to this site. For the purposes of calculations, we assume an overall structure condition of "like new" and all members and connections to be free of corrosion and/or structural defects. The structure owner and/or contractor shall verify the structure's condition prior to installation of any proposed equipment. If actual conditions differ from those described in this report M SQUARED WIRELESS should be notified immediately to complete a revised evaluation. Our evaluation is completed using standard TIA, AISC, ACI, and ASCE methods and procedures. Our structural results are proprietary and should not be used by others as their own. M SQUARED WIRELESS is not responsible for decisions made by others that are or are not based on our supplied assumptions and conclusions. Page 1 PA2019-108 M SQUAR{i-J WIRELESS INTRODUCTION At the request of AT&T, M SQUARED WIRELESS has performed a structural analysis for the proposed concrete pole. All supporting documents have been obtained from the client and are assumed to be accurate and applicable at this site. Supporting Documentation Antenna Loading M SQUARED WIRELESS, Construction Drawings, Dated: 09/16/19 Pole Data Ameron CB04X08.7SPL w/ Double 6' Max Arm, Spec Sheet Analysis Code Requirements Wind Speed 90 mph (Vasd) (City ofNewport Beach Banner Policy L-16) Wind Speed w/ ice 30 mph (3-Second Gust) w/ O" ice TIA Revision ANSI/TIA-222-G Adopted IBC 2015 IBC I 2016 CBC Adopted AASHTO 2015 AASHTO LRFD Specifications for Structural Supports for Highway Signs, Luminaires, and Traffic Signals Structure Class 2 Exposure Category C Topographic Category 1 Calculated Crest Height 0 CONCLUSION Upon reviewing the results of this analysis, it is our opinion that the structure does meet the specified IBC/ ASCE code requirements. The concrete pole and foundation are therefore deemed adequate to support the proposed loading as listed in this report. Page2 PA2019-108 M SQUARft., WIRELESS Proposed Loading Mount Qty. Appurtenance Height (ft) 1 Omni Antenna 1 Equipment Shroud 26.5 2 Micro Radio 2203 RRU 2 Micro Radio 2205 RRU 1 Raycap RSCAC-6533-P-120-D 22.0 2 Street Light 15.0 1 Future Banner (2.5'x8') 10.75 1 Street Sign 5.0 1 Street Sign Structure Usages Concrete Pole .210 Foundation .771 l" Bolt .240 Rating= 77.1 % Pass Foundation is sufficient by rigorous structural analysis. New 30.0" x 6.0' Foundation: Required Embedment: 4.625' See Attached Enercalc Mount Carrier Type Pole Top AT&T 6' Arm - - - Page 3 PA2019-108 Street Light Concrete Pole Height Weight (lbs) Allowable G.L. Moment Site Name: Client: Carrier: Date: Light Mast Arm Moment Wind Load 20'-3" CP Mast Arm Appurtenance Name Street Light Mast Arm Appurtenance Name Galtronics GQ2410-06621 Antenna Commscope SCC-760236966 Equipment Shroud Ericsson Micro Radio 2203 RRU Ericsson Micro Radio 2205 RRU Raycap RSCAC-6533-P-120-D Street Sign Street Sign Future Banner (2.5'x8') Seismic 20'-3" CP Mast Arm Wind G.L. Moment Total Wind G.L. Moment Wind Base Shear Appurtenance Name Galtronics GQ2410-06621 Antenna Commscope SCC-760236966 Equipment Shroud Ericsson Micro Radio 2203 RRU Ericsson Micro Radio 2205 RRU Raycap RSCAC-6533-P-120-D Street Sign Street Sign Future Banner (2.5'x8') Seismic G.L. Moment Total Seismic G.L. Moment Seismic Base Shear Governing G.L. Moment Total G.L. Moment Allowable G.L. Moment % Capacity Shear= Weight= 20.3 .··1320 43600 HBNPB 042 ERICSSON AT&T 9/18/2019 Dist. From CL. (ft) 6.0 6;0 Elevation 20.3 20.0 26.5 26.5 26.S 26.5 26.S 10.8 5.0 18.8 Elevation 20.3 20.0 26.S 26.S 26.5 26.S 26.5 10.8 5.0 18.8 M SQUARl!f•"' WIRELESS Street Light Load Calculator vl.0 Design Wind Velocity: 85 Wind Centerline: 24.8 Exposure Category: C Weight Moment (lbs) (ft-lbs) 17.8 107.04 25.0 150.00 257.0 G.L. Quantity F-norm F-perp Moment (lbs) (lbs) (ft-lbs) 1 135.7 135.7 1377.06 2 0.4 8.4 336.75 1 12.3 12.3 324.83 1 26.1 26.1 692.26 2 7.4 3.7 390.97 2 7.4 4.5 390.97 1 10.7 9.3 283.32 1 20.3 0.1 218.07 1 20.3 0.1 101.43 1 327.2 327.2 6134.79 4014.2 4271.31 567.7 G.L. Quantity F-norm F-perp Moment (lbs) (lbs) (ft-lbs) 1 663.2 663.2 6731.99 2 11.8 11.8 473.25 1 10.3 10.3 273.58 1 31.S 31.5 835.14 2 5.4 5.4 285.68 2 4.8 4.8 254.00 1 1.2 1.2 32.40 1 0.8 0.8 9.13 1 0.8 0.8 4.25 1 6.8 6.8 127.97 8895.2 9152.21 736.8 Seismic Governs 9152 43600 21.0%1 737 1463 PA2019-108 SIMPSON ® Anchor Designer™ Software Version 2.8.7094.0 1.Project information Customer company: Customer contact name: Customer e-mail: Comment: 2. Input Data & Anchor Parameters General Design method:ACI 318-14 Units: Imperial units Anchor Information: Anchor type: Cast-in-place Material: F1554 Grade 55 Diameter (inch): 1.000 Effective Embedment depth, het (inch): 36.000 Anchor category: - Anchor ductility: Yes hmin (inch): 37.75 Cmin (inch): 1.44 Smin (inch): 4.00 Recommended Anchor Company: Engineer: Project: HBNPB_045 Address: Phone: E-mail: Project description: Location: Fastening description: Base Material Concrete: Normal-weight Concrete thickness, h (inch): 60.00 State: Uncracked Compressive strength, f c (psi): 3000 4-'c,v: 1.4 Reinforcement condition: A tension, A shear Supplemental reinforcement: No Reinforcement provided at corners: No Ignore concrete breakout in tension: No Ignore concrete breakout in shear: No Ignore 6do requirement: Yes Build-up grout pad: Yes Base Plate Date: 8/15/2019 Page: 1/6 Length x Width x Thickness (inch): 16.00 x 16.00 x 1.00 Yield stress: 34084 psi Profile type/size: HSS14X0.250 Anchor Name: Heavy Hex Bolt - 1 "0 Heavy Hex Bolt, F1554 Gr. 55 Input data and results must be checked for agreement with the existing circumstances, the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc. 5956 W. Las Positas Boulevard Pleasanton, CA 94588 Phone: 925.560.9000 Fax: 925.847.3871 www.strongtie.com PA2019-108 SIMPSON Load and Geometry Anchor Designer™ Software Version 2.8.7094.0 Load factor source: ACI 318 Section 5.3 Load combination: not set Seismic design: No Anchors subjected to sustained tension: Not applicable Apply entire shear load at front row: Yes Anchors only resisting wind and/or seismic loads: Yes Strength level loads: Nua [lb]: -1463 Vuax [lb]: 737 Vuay [lb]: 0 Mux [fl-lb]: 0 Muy [fl-lb]: 9152 Muz [fl-lb]: 0 <Figure 1> Company: Date: 8/15/2019 Engineer: Page: 2/6 Project: HBNPB_045 Address: Phone: E-mail: 14631b Olb 9152 ft-lb Input data and results must be checked for agreement with the existing circumstances, the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc_ 5956 W. Las Positas Boulevard Pleasanton, CA 94588 Phone: 925.560.9000 Fax: 925.847.3871 www.strongtie.com PA2019-108 SIMPSON ® <Figure 2> Anchor Designer™ Software Version 2.8.7094.0 10.77 Company: Engineer: Project: Address: Phone: E-mail: HBNPB_045 10.77 " t--0 ..... Date: 8/15/2019 Page: 3/6 Input data and results must be checked for agreement with the existing circumstances, the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc, 5956 W. Las Positas Boulevard Pleasanton, CA 94588 Phone: 925.560.9000 Fax: 925.847.3871 www.strongtie.com PA2019-108 SIMPSON ® Anchor Designer™ Software Version 2.8. 7094.0 3. Resulting Anchor Forces Company: Engineer: Project: Address: Phone: E-mail: Anchor Tension load, Shear load x, Nua (lb) 3955.7 2 3955.7 3 0.0 4 0.0 Sum 7911.5 Maximum concrete compression strain (0/oo): 0.07 Maximum concrete compression stress (psi): 288 Resultant tension force (lb): 7911 Resultant compression force (lb): 9373 Vuax (lb) 184.3 184.3 184.3 184.3 737.0 Eccentricity of resultant tension forces in x-axis, e'Nx (inch): 0.00 Eccentricity of resultant tension forces in y-axis, e'Ny (inch): 0.00 Eccentricity of resultant shear forces in x-axis, e'vx (inch): 0.00 Eccentricity of resultant shear forces in y-axis, e'vy (inch): 0.00 4. Steel Strength of Anchor in Tension {Sec. 17.4.1) Nsa (lb) <p <j)Nsa (lb) 45450 0.75 34088 5. Concrete Breakout Strength of Anchor in Tension {Sec. 17.4.2) Nb= kcAa✓f'chet1·5 (Eq. 17.4.2.2a) kc Aa fc (psi) her (in) Nb (lb) 24.0 1.00 3000 15.193 77849 <j}Ncbg =<j) (ANcl ANco) ':Pec,N 'f'ed,N 'Pc,N lf'cp,NNb (Sec. 17.3.1 & Eq. 17.4.2.1 b) ANc (in2) ANco (in2) Ca,min (in) 'Pec,N 'f'ed,N 'Pc,N 1126.27 2077.54 10.77 1.000 0.842 1.25 6. Pullout Strength of Anchor in Tension {Sec. 17.4.3) rpNpn = <p'Pc,PNp = r/J'Pc,P8Abrgfc (Sec. 17.3.1, Eq. 17.4.3.1 & 17.4.3.4) 'Pc,P Abrg (in2) fc (psi) r/J rpNpn (lb) 1.4 1.50 3000 0.70 35304 HBNPB_045 Shear load y, Vuay (lb) 0.0 0.0 0.0 0.0 0.0 <Figure 3> 'f'cp,N 1.000 Date: 8/15/2019 Page: 4/6 Shear load combined, ✓(Vuax)2+(Vuay)2 (lb) 184.3 184.3 184.3 184.3 737.0 01 02 Nb (lb) <j}Ncbg (lb) 77849 0.75 33305 Input data and results must be checked for agreement with the existing circumstances, the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Cornpany Inc. 5956 W. Las Positas Boulevard Pleasanton, CA 94588 Phone: 925.560.9000 Fax: 925.847.3871 www.strongtie.com PA2019-108 SIMPSON ® Anchor Designer™ Software Version 2.8. 7094.0 Company: Engineer: Project: Address: Phone: E-mail: 7. Side-Face Blowout Strength of Anchor in Tension (Sec. 17.4.4) Date: 8/15/2019 Page: 5/6 HBNPB_045 rpNsbg = ¢{(1+ca2ICa1)/4}(1+s/6cat)Nsb = ¢{(1+ca2/Cat)/4}(1+s/6Cat)(160Cat✓Abrg)A✓fc (Sec. 17.3.1, Eq. 17.4.4.1 & 17.4.4.2) S (in) Cat (in) Ca2 (in) Abrg (in2) Aa fc (psi) (V ¢Nsbg (lb) 12.02 10.77 10.77 1.50 1.00 3000 0.75 51429 8. Steel Strength of Anchor in Shear (Sec. 17.5.1) Vsa (lb) {Vgrout ¢ {Vgrout¢Vsa (lb) 27270 0.8 0.65 14180 9. Concrete Breakout Strength of Anchor in Shear (Sec. 17.5.2) Shear perpendicular to edge in x-direction: Vbx = minj7(le/da}°-2✓daAa✓f'cCat1·5; 9Aa✓fcCat1 ·51 (Eq. 17.5.2.2a & Eq. 17.5.2.2b) le (in) da (in) Aa fc (psi) Cat (in) Vbx (lb) 8.00 1.000 1.00 3000 10.77 17423 ¢Vcbgx =¢(Ave/ Avco)'Pec,V'Ped,V'Pc,V'Ph,VVbx (Sec. 17.3.1 & Eq. 17.5.2.1b) Avco (in2) 'Pee, V 'Ped,V 'Pc,v 542.16 521.97 1.000 0.900 1.400 1.000 Shear parallel to edge in x-direction: Vby = minl7(le/da)0·2✓dak✓fcCat1·5; 9-1a✓f'cCat1 ·51 (Eq. 17.5.2.2a & Eq. 17.5.2.2b) le (in) da (in) Aa fc (psi) Cat (in) Vby (lb) 8.00 1.000 1.00 3000 10.77 17423 ¢Vcbgx = ¢ (2)(Avcl Avco) 'Pec,v'Ped,V'-Pc,v'Ph,vVby (Sec. 17.3.1, 17.5.2.1(c) & Eq. 17.5.2.1 b) 'Pee, V '-Ped,V '-Pc,V 'Ph.v 542.16 521.97 1.000 1.000 1.400 1.000 10. Concrete Pryout Strength of Anchor in Shear (Sec. 17.5.3) ¢Vcpg = rpkcpNcbg = ¢kcp(ANcl ANco)'Pec,N'-Ped,N'Pc,N'Pcp,NNb(Sec. 17.3.1 & Eq. 17.5.3.1b) kcp ANc (in2) ANco (in2) 'Pec,N '-Ped,N 'Pc,N '-Pcp,N 2.0 1126.27 463.97 1.000 1.000 1.250 1.000 11. Results Interaction of Tensile and Shear Forces (Sec. 17.6.) Tension Factored Load, Nua (lb) Design Strength, 0Nn (lb) Ratio Steel 3956 34088 0.12 Concrete breakout 7911 33305 0.24 Pullout 3956 35304 0.11 Side-face blowout 7911 51429 0.15 Shear Factored Load, Vua (lb) Design Strength, 0Vn (lb) Ratio Steel 184 14180 0.01 T Concrete breakout x+ 737 17102 0.04 II Concrete breakout y+ 369 38004 0.01 Vbx (lb) ¢ ¢Vcbgx (lb) 17423 0.75 17102 Vby (lb) ¢ ¢Vcbgx (lb) 17423 0.75 38004 Nb (lb) ¢ ¢Vcpg (lb) 25291 0.70 107436 Status Pass Pass (Governs) Pass Pass Status Pass Pass (Governs) Pass (Governs) Input data and results must be checked for agreement with the existing circumstances, the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc. 5956 W. Las Positas Boulevard Pleasanton, CA 94588 Phone: 925.560.9000 Fax: 925.847.3871 www.strongtie.com PA2019-108 SIMPSON ® Pryout Interaction check Sec. 17.6 .. 1 Anchor Designer™ Software Version 2.8.7094.0 737 Nuafr/>Nn Vuafr/>Vn 0.24 0.00 Company: Engineer: Project: HBNPB_045 Address: Phone: E-mail: 107436 0.01 Combined Ratio Permissible 23.8% 1.0 1"0 Heavy Hex Bolt, F1554 Gr. 55 with hef = 36.000 inch meets the selected design criteria. Base Plate Thickness Required base plate thickness: 0.420 inch 12. Warnings Date: 8/15/2019 Page: 6/6 Pass Status Pass -Minimum spacing and edge distance requirement of 6da per ACI 318 Sections 17. 7 .1 and 17. 7 .2 for torqued cast-in-place anchor is waived per designer option. -Designer must exercise own judgement to determine if this design is suitable. Input data and results must be checked for agreement with the existing circumstances, the standards and guidelines must be checked for plausibility. Simpson Strong-Tie Company Inc. 5956 W. Las Positas Boulevard Pleasanton, CA 94588 Phone: 925.560.9000 Fax: 925.847.3871 www.strongtie.com PA2019-108 Title Block Line 1 You can change this area using the "Settings" menu item and then using the "Printing & Title Block" selection. Title Block Line 6 Project Title: Engineer: Project ID: Project Descr: Printed: 18 SEP 2019, 4:40PM • · FitE):=. D:\propbox (MLE)\¥2\2019\08 -Augus~Ericsson\Bat~h 1\HB~PB .... 942\Calcs\F.?undation.ec6 . Software copylight ENERCALC; INC, .1963-2018, Build:10.1R12.30., Description : New Foundation Code References Calculations per IBC 2015 1807.3, CBC 2016, ASCE 7-10 Load Combinations Used: IBC 2015 Genera/Information Pole Footing Shape Pole Footing Width .......... , . , Rectangular 30.0 in Calculate Min. Depth for Allowable Pressures No Lateral Restraint at Ground Surface Allow Passive ............ , .... . Max Passive .................. , Controlling Values Governing Load Combination: +D+0.70E+H Lateral Load Moment NO Ground Surface Restraint Pressures at 1/3 Depth Actual Allowable Footing Base Area Maximum Soil Pressure Applied Loads 200.0 pcf psf 0.5159 k 6.397 k-ft 300.928 psf 302.137 psf 6.250 ft"2 0.2341 ksf Point Load Lateral Concentrated Load (k) Lateral Distributed Loads (kif) D: Dead Load Lr : Roof Live L: Live S: Snow W: Wind E : Earthquake H : Lateral Earth Load distance above ground surface +D+H +D+L+H +D+Lr+H +D+S+H +D+0.750Lr+0.750L +H +D+0.750L +0.750S+H +D+0.60W+H +D-0.60W+H +D+0.70E+H k k k k 0.5680 k 0.7370 k k 12.40 ft TOP of Load above ground surface BOTTOM of Load above ground surface 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.341 4.226 0.341 4.226 0.516 6.397 k/ft k/ft k/ft k/ft k/ft k/ft k/ft ft ft Soil Surface 0.13 0.13 0.13 0.13 0.13 0.13 4.00 4.00 4.63 0.0 0.0 0.0 0.0 0.0 0.0 259.4 259.4 300,9 No lateral restraint Vertical Load (k) 0.0 0,0 0.0 0.0 0,0 0.0 259.8 259.8 302.1 1.463 k k k k k k k 1.000 1,000 1.000 1.000 1,000 1.000 1.000 1.000 1.000 PA2019-108 TiM Block Line 1 You can change this area using the "Settings" menu item and then using the "Printing & Title Block" selection. Title Block Line 6 Pe>leFooti119.Em.bedded in Soil .; Description : New Foundation +D+0. 750Lr+O. 750L +0.450W+H +D+0. 750Lr+O. 750L-0.450W+H +D+0.750L +O. 750S+0.450W+H +D+0.750L+0.750S-0.450W+H +D+0.750L+0.750S+0.5250E+H +0.60D+0.60W+0.60H +0.60D-0.60W+0.60H +0.60D+0.70E+0.60H 0.256 0.256 0.256 0.256 0.387 0.341 0.341 0.516 Project Title: Engineer: Project ID: Project Descr: Printed: 18 SEP 2019, 4:40PM File~ D:\Dropbox(MLE)\M2\2019\08 -August\Ericsson\Batch•1\H.BNPB_042\Calcs\Foundation;ec6 . Software co ri ht ENERCALC; INC .. 1Q8~2018, Build:10.18.12.30 . 3.169 3.63 233.6 234.5 1.000 3.169 3.63 233.6 234.5 1.000 3.169 3.63 233.6 234.5 1.000 3.169 3.63 233.6 234.5 1.000 4.798 4.13 271.2 272.2 1.000 4.226 4.00 259.4 259.8 1.000 4.226 4.00 259.4 259.8 1.000 6.397 4.63 300.9 302.1 1.000 PA2019-108 M SQUARfi., WIRELESS APPENDIX A Design Tables & Resources Page4 PA2019-108 Seismic Loads Latitude and longitude were determined from existing as-builts, AT&T records, and confirmed using GoogleEarth. Design spectral acceleration parameters were optained using NSHMP Hazard, a program by USGS for determining seismic values within the continental US. Input data and program output are provided at the end of this report. Latitude: 33.604239 ° Longitude: -ll7.0653 ° S= s 1.698 Site Class: D F = a 1.00 Occupancy Category: II SMs= 1.698 Importance Factor, I: 1.00 SDs = 1.132 Seismic Design Catagory D S1= 0.622 Amplification Factor, cJp: 1.0 F = V 1.50 Response Factor,~: 2;5 SM1= 0.933 z= 1.0 ft Sm= 0.622 h= 1.0 ft Telecommunication cabinets and radio equipment are non-structural components to be designed under the provisions of ASCE 7-10 chapter 13. (ASCE 7-10 13.3-3) F . = 0 3SDSI W p,mm • p p (ASCE 1-10 13.3-1) F, = 0·Tf-Jw, (1 + 2f J (ASCE 7-10 13.3-2) F = I 6SDSI W p,max • p p 0.340 w P 0.543 WP 1.811 Wp VseFP = 0.543 wP PA2019-108 , 8/19/2019 ATC Hazards by Location L\TC Hazards by Location Search Information Coordinates: 33.604239, -117.87726 Elevation: ft Timestamp: Hazard Type: Reference Document: Risk Category: 2019-08-19T07:27:11.902Z Seismic ASCE7-10 II Site Class: D Riverslde-o Tetrl~cula 0 i' -_mw, Vista,_, Na~jona jjMap data @:>Hepott:all)Bl? ertoe! MCER Horizontal Response Spectrum Design Horizontal Response Spectrum Sa{g) 1.50 1.00 0.50 0.00 0 2 Basic Parameters Name Value Ss 1.698 S1 0.622 SMs 1.698 SM1 0.933 Sos 1.132 So1 0.622 4 6 8 Period {s) Description MCER ground motion (period=0.2s) MCER ground motion (period=1.0s) Site-modified spectral acceleration value Sa{g) 1.00 0.80 0.60 0.40 0.20 0.00 Site-modified spectral acceleration value Numeric seismic design value at 0.2s SA Numeric seismic design value at 1.0s SA •Additional Information Name SDC CRs Value D 1.5 0.902 Description Seismic design category Site amplification factor at 0.2s Site amplification factor at 1.0s Coefficient of risk (0.2s) https://hazards.atcouncil.org/#/seismic?lat=33.604239 &lng=-117 .877260 &address= 0 2 4 6 8 Period {s) 1/2 PA2019-108 , 8/19/2019 CR1 PGA SsRT SsUH SsD S1RT S1UH S1D PGAd 0.92 0.697 0.697 8 1.698 1.883 3.261 0.622 0.676 1.101 1.195 ATC Hazards by Location Coefficient of risk (1.0s) MCE8 peak ground acceleration Site amplification factor at PGA Site modified peak ground acceleration Long-period transition period (s) Probabilistic risk-targeted ground motion (0.2s) Factored uniform-hazard spectral acceleration (2% probability of exceedance in 50 years) Factored deterministic acceleration value (0.2s) Probabilistic risk-targeted ground motion (1.0s) Factored uniform-hazard spectral acceleration (2% probability of exceedance in 50 years) Factored deterministic acceleration value (1.0s) Factored deterministic acceleration value (PGA) The results indicated here DO NOT reflect any state or local amendments to the values or any delineation lines made during the building code adoption process. Users should confirm any output obtained from this tool with the local Authority Having Jurisdiction before proceeding with design. Disclaimer Hazard loads are provided by the U.S. Geological Survey Seismic Design Web Services. While the information presented on this website is believed to be correct, ATC and its sponsors and contributors assume no responsibility or liability for its accuracy. The material presented in the report should not be used or relied upon for any specific application without competent examination and verification of its accuracy, suitability and applicability by engineers or other licensed professionals. ATC does not intend that the use of this information replace the sound judgment of such competent professionals, having experience and knowledge in the field of practice, nor to substitute for the standard of care required of such professionals in interpreting and applying the results of the report provided by this website. Users of the information from this website assume all liability arising from such use. Use of the output of this website does not imply approval by the governing building code bodies responsible for building code approval and interpretation for the building site described by latitude/longitude location in the report. https://hazards.atcouncil.org/#/seismic?lat=33.604239 &lng=-117 .877260 &address= 2/2 PA2019-108 , 8/19/2019 ATC Hazards by Location C\TC Hazards by Location Search Information Coordinates: 33.604239, -117.87726 Elevation: ft Timestamp: 2019-08-19T07 :27 :25 .4872 Hazard Type: Wind ASCE 7-16 ASCE 7-10 ASCE 7-05 MRI 10-Year 67 mph MRI 10-Year 72 mph ASCE 7-05 Wind Speed ----·----85 mph MRI 25-Year 72 mph MRI 25-Year 79 mph MRI 50-Year 77 mph MRI 50-Year ... 85 mph MRI 100-Year 82 mph MRI 100-Year 91 mph Risk Category I 89 mph Risk Category I 100 mph Risk Category 11 96 mph Risk Category 11 110 mph Risk Category 111 102 mph Risk Category III-IV 115 mph Risk Category IV 107 mph The results indicated here DO NOT reflect any state or local amendments to the values or any delineation lines made during the building code adoption process. Users should confirm any output obtained from this tool with the local Authority Having Jurisdiction before proceeding with design. Disclaimer Hazard loads are interpolated from data provided in ASCE 7 and rounded up to the nearest whole integer. Per ASCE 7, islands and coastal areas outside the last contour should use the last wind speed contour of the coastal area -in some cases, this website will extrapolate past the last wind speed contour and therefore, provide a wind speed that is slightly higher. NOTE: For queries near wind-borne debris region boundaries, the resulting determination is sensitive to rounding which may affect whether or not it is considered to be within a wind-borne debris region. Mountainous terrain, gorges, ocean promontories, and special wind regions shall be examined for unusual wind conditions. While the information presented on this website is believed to be correct, ATC and its sponsors and contributors assume no responsibility or liability for its accuracy. The material presented in the report should not be used or relied upon for any specific application without competent examination and verification of its accuracy, suitability and applicability by engineers or other licensed professionals. ATC does not intend that the use of this information replace the sound judgment of such competent professionals, having experience and knowledge in the field of practice, nor to substitute for the standard of care required of such professionals in interpreting and applying the results of the report provided by this website. Users of the information from this website assume all liability arising from such use. Use of the output of this website does not imolv aooroval bv the aovernina buildina code bodies resoonsible for buildina code aooroval and interoretation for the https://hazards.atcouncil.org/#/wind?lat=33.604239 &lng=-117 .877260 &address= 1 /2 PA2019-108 I 8/19/2.019 ATC Hazards by Location building site described by latitude/longitude location in the report. https://hazards.atcouncil.org/#/wind?lat=33.604239 &lng=-117.877260 &address= 2/2 PA2019-108