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Home My WebLink About850 Ediz Hook Rd Technical - BuildingTECHNICAL Permit to 5Z6 Address '50 Ed lAooK c„A Project description Ronnove ar+erwas sakk c. £,n+e+n r a s Date the permit was finaled 6-10-16 Number of technical pages 59' CORNERS1FONE E N G I N E E R I N G I N C FILE C11 IL "IRI/CI! RAL 7 8111) Prepared By Tony V Le, E I T Checked By Mark W Olson, P E Prepared Date March 30, 2009 CEI Project No 09 -55130 Revision 1 May 5, 2010 16928 Woodinville- Redmond Rd NE, Suite 210 Woodinville, WA 98072 Email cei@cornerstone-engr.com Web www cornerstone -engr corn Structural Calculations For Telecommunications Antenna Mast Installations veriyonweress Site Name WA1 Ediz Hook 850 W Ediz Hook Rd Port Angeles, WA 98362 Clallam County EXPIRES: 02215// Comprehensive Design Solutions for Your Project Success! Phone. (425) 487 1732 (206) 250-7306 Fax. (425) 487 1734 Project WA1 Ediz Hook Date May 5 2010 Client Verizon Prepared By T Le CEI No 09 -55130 REV 1 Page U Q1 I. Scope of Work Provide structural design and analysis for Verizon Wireless telecommunication antennas replacement and installation on the project site located at 850 W Ediz Hook Rd in the City of Port Angeles Clallam County WA. The proposed loads of the antennas replacement and installation transfer through the rooftop antenna mount and /or directly into the load bearing walls of the building The proposed loads of the antenna sector frame transfers directly into the oioe mast and into the load bearing walls of the n buildina or000sed footina The proposed loads then transfer into the foundation and the soil The information in this report summarizes the requirements for construction of structural elements for the proposed design in conformance with the 2006 International Building Code (IBC) Unless noted otherwise all means and methods used shall be in keeping with good and generally accepted construction practices and all prescriptive design requirements of the 2006 IBC II. Analysis Results As requested we have evaluated the structural stability of the proposed additional loading for structural code compliance This analysis derives its applied loads from minimum 100 mph basic wind speed (3- second gust), Exposure D' Since soil properties are not available seismic site class D' was conservatively used for this analysis per 2006 IBC (Section 16) III. Conclusions and Recommendations The existina or000sed antenna masts. its connections and the loading bearing walls members are structurally adequate to safely support the proposed loads of the antennas replacement and installation Please refer to the following structural calculations and architectural drawings General Contractor shall verify all existing dimensions member sizes and conditions prior to commencing any work. All dimensions of existing condition shown on the calculation are intended as guidelines only and must be verified in field Any discrepancies shall be called to the attention of the architect or engineer and shall be resolved before proceeding with the work. Contractor shall provide temporary bracing for the structure and structural components until all final connections have been completed in accordance with the plans IV Loads /Design Criteria (2006 IBC ASCE 7 -05) Please refer to the following calculations 1 Seismic 2 Wind 16928 Woodinville- Redmond Rd NE, Suite 210 Woodinville, WA 98072 Email ceiCcornerstone -engr com Web• www cornerstone -engr corn per 2006 IBC SpS 0 783g I 1 5 Ss 1 114g S 0 463g Seismic design category D' per 2006 IBC Wind Speed 100 mph l 1 00 Exposure D' C CORNERSVONE Phone: (425) 487 1732 (206) 250-7306 Fax. (425) 487 1734 Project: WA1 Ediz Hook Date May 5 2010 Client. Verizon Prepared By T Le CEI No 09 -55130 REV 1 Page SEISMIC DESIGN PARAMETERS Conterminous 48 States 2006 International Building Code Latitude 48 141717 Longitude -123 435555 Spectral Response Accelerations Ss and S1 Ss and S1 Mapped Spectral Acceleration Values Site Class B Fa 1 0 Fv 1 0 Data are based on a 0 01 deg grid spacing Period Sa (sec) (g) 0.2 1.114 (Ss, Site Class B) 1.0 0.463 (S1, Site Class B) Conterminous 48 States 2006 International Building Code Latitude 48 141717 Longitude -123 435555 Spectral Response Accelerations SMs and SM1 SMs Fa x Ss and SM1 Fv x S1 Site Class D Fa 1 055 Fv 1 537 Period Sa (sec) (g) 0.2 1.175 (SMs, Site Class D) 1.0 0.711 (SM1. Site Class D) Conterminous 48 States 2006 International Building Code Latitude 48 141717 Longitude -123 435555 Design Spectral Response Accelerations SDs and SD1 SDs 2/3 x SMs and SD1 2/3 x SM1 Site Class D Fa 1 055 Fv 1 537 Period Sa (sec) (g) 0.2 0.783 (SDs, Site Class D) 1.0 0.474 (SD1, Site Class D) 16928 Woodinville Redmond Rd NE, Suite 210 Woodinville, WA 98072 Email cei n)cornerstone -engr coin Web• w\W cornerstone -engr com CORNERSVONE E N G I N E E R I N G INC. Phone: (425) 487 1732 (206) 250-7306 Fax. (425) 487 1734 (Reference Seismic Force. 0.2s Spectral Response Acceleration Site Class B S 1 Os Spectral Response Acceleration Site Class B S Site Class Seismic Use Group Standard Occupancy Buildings Site Coefficient per S Site Class F Site Coefficient per S Site Class F„ S F C CONEM.511 ONE E N G I N E E R N G, N C. S F„S, Sips 2/3 SMS Sp, 2/3 SM1 Seismic Design Category per SE's (Per ASCE 7 -05. ChaDter 13.0) Component amplification factor a Component Importance factor 1 Component operating weight, W Component response modification factor R Height in structure at point of attachment of component, z Average roof height of structure h 16928 Woodinville- Redmond Rd NE, #210 Woodinville, WA 98072 E -mail: cei @cornerstone engr.com Web: www cornerstone -engr com Site Name WA1 Ediz Hook Client: Verizon By T Le Subject: Lateral Load Design Calculation Seismic Load Calculation for Components and System IBC 2006 Section 1613 ASCE 7 -05 Chapter 13 0 ICBO Seismic Design Parameters 3 10) Seismic Design Force F Seismic Design Force F Min seismic design force F pmin Max seismic design force Fpmax Max. seismic design force Fpmax 1 6S Min seismic design force F pmjn 0.3Sp 1 (ASCE 7 -05 Table 13 6 -1) 1 5 (ASCE 7 -05 Section 13 1 3) W (lb) 2.5 (ASCE 7 -05 Table 13 6 -1) 102 (ft) 102 (ft) 0 4aDSDSWP (1 +2z /h) R (Eq 13 3 -1) Seismic Design Force F (ASD) 1 114 0 463 D 1.05 1.54 1 175 0.712 0 783 0.474 D 0.56 W 0.35 W 1.88 W 10EI No 09 -55130 1 Date 03/25/09 (IBC 06 Figure 1613 5(1)) (IBC 06 Figure 1613 5(2)) (IBC 06 Table 1613 5 2) (IBC 06 Table 1613 5 3(1)) (IBC 06 Table 1613 5 3(2)) (IBC 06 Eq 16 37) (IBC 06 Eq 16 38) (IBC 06 Eq 16 39) (IBC 06 Eq 16 -40) (Eq 13 3 -2) (Eq 13 3 -3) 0 40 W (No one third stress increase allowed) Tel: (206) 250 -7306 (425) 487 1732 Fax: (425) 487 1734 City of Port Angeles Community Economic Development Department Building Division 321 E 5 St. Port Angeles, WA 98362 360 -417 -4815 360- 417 -4711 Fax SNOW 25 psf minimum roof snow load drift not included WIND 100 mph category D within 1 500 ft of shoreline category C beyond that SEISMIC D 1 FROST 12 inches moderate STRUCTURAL DESIGN CRITERIA CODES IN EFFECT CITY GOVERNMENT 2006 International Building Code (IBC) 2006 International Residential Code (IRC) 2006 International Mechanical Code (IMC) 2006 International Fire Code (IFC) 2006 Uniform Plumbing Code (UPC) 2006 Washington State Energy Code (WSEC) 2006 Washington State Ventilation and Indoor Air Quality Code (VIAQ) 2006 International Property Maintenance Code (IMPC) 2008 National Electrical Code (NEC) 2003 American National Standards Institute (ANSI -117) 1997 Uniform Sign Code (USC) 1997 Uniform Code For Building Conservation (UCBC) First Edition Washington State Historic Building Code (WSHBC) For more information regarding Washington State Building Codes go to httD. /www.sbcc.wa.aov /sbccindx.html For more information regarding City of Port Angeles construction codes adopted and amendments to international codes, go to the Building Code Chapter 14 03 at httn.// www .citvofna.us /muntcmalcode.htm T:Forms /Building Division /Structural Design Criteria Codes in Effect EI COFIJEFS1T.DNE ENGINEER NG, INC. Wind Velocity Pressure. Basic Wind Speed V (mph) Exposure Category Building Category Wind Load Importance Factor l Velocity pressure exposure coefficient, K Topographic Factor Kzt Wind Directionality Factor Kd Velocity Pressure q (Ib /ft Desian Wind Load (Open Buildings Other Structure) Gust effect factor G Net force coefficient, Cf Projected area normal to the wind Af, (ft Design Wind Loads F (lb /ft) 16928 Woodinville- Redmond Rd NE #210 Woodinville, WA 98072 E -mail: cei @cornerstone -engr com Web www.cornerstone engr.com Site Name WA1 Ediz Hook Client: Verizon JCEI No 09 -55130 By T Le 'Date 03/25/09 Subject: Lateral Load Design Calculation Wind Load Calculation for Other Structure (Reference IBC 2006 Section 1609 ASCE 7 -05 Chapter 6 0) 100 D I 1 00 See Table 1 00 0.85 (ASCE 7 -05 Figure 6 -1) (ASCE 7 -05 Section 6 5 6) (IBC 06 Table 1604 5) (ASCE 7 -05 Table 6 -1) (ASCE 7 -05 Table 6 -3) (ASCE 7 -05 Figure 6 -4) (ASCE 7 -05 Table 6 -4) 0.00256K (ASCE 7 -05 Eq 6 -15) 0.85 2.0 Af gzGCfAf 414 24.37 (ASCE 7 -05 Section 6 5 10) Ibs psf (A Height Exposure D Velocity Pressure (q Z, (ft) Case 1 1 Case 2 Case 1 Case 2 0 -15 1 03 1 03 22 41 22 41 20 1 08 1 08 23 50 23 50 25 1 12 1 12 24 37 24.37 30 116 116 25.24 25.24 40 1.22 1.22 26 55 26 55 50 1.27 1.27 27 64 27 64 60 1 31 1 31 28 51 28 51 70 134 134 2916 2916 80 1 38 1 38 30 03 30 03 90 1 40 1 40 30 46 30 46 100 143 143 3112 3112 120 148 148 32.20 32.20 140 1 52 1 52 33 08 1 33 08 160 1 55 1 55 33 73 33 73 200 1 61 1 61 35 03 35 03 500 189 189 4113 4113 (ASCE 7 -05, Section 6 5 8) (ASCE 7 -05 Figure 6- 20 -23) Tel: (206) 250 -7306 (425) 487 1732 Fax: (425) 487 1734 COrZNEr S'1rONE C E N G N E E R 1 N G NC. Wind Velocity Pressure. Basic Wind Speed V (mph) Exposure Category Building Category Wind Load Importance Factor I Velocity pressure exposure coefficient, K Topographic Factor KZt Wind Directionality Factor Kd Velocity Pressure q (Ib /ft Wind Load Calculation for Building Structure (Reference IBC 2006 Section 1609 ASCE 7 -05 Chapter 6 0) Design Wind Load (Open Buildings Other Structure) Gust effect factor G External Pressure Coefficient, GCp Gcpi Projected area normal to the wind Af, (ft Design Wind Loads F (lb/ft) Height Exposure D Z, (ft) Case 1 1 Case 2 0 -15 1 03 1 1 03 20 1 08 1 1 08 25 112 1 112 30 116 116 40 1.22 1.22 50 1.27 1.27 60 1 31 1 31 70 1 34 1 34 80 1 38 1 38 90 1 40 1 1 40 100 1 43 1 1 43 120 1 48 1 48 140 1 52 1 52 160 1 55 1 55 200 1 61 1 61 500 1 89 1 89 16928 Woodinville- Redmond Rd NE, #210 Woodinville, WA 98072 E -mail: cei @cornerstone engr.com Web: www.cornerstone -engr com Site Name WA1 Ediz Hook Client: Verizon By T Le Subject. Lateral Load Design Calculation 0 00256K 100 D 1 00 See Table 1 00 0.85 ICE! No 09 -55130 1 Date 03/25/09 (ASCE 7 -05 Figure 6 -1) (ASCE 7 -05 Section 6 5 6) (IBC 06 Table 1604 5) (ASCE 7 -05 Table 6 -1) (ASCE 7 -05 Table 6 -3) (ASCE 7 -05 Figure 6 -4) (ASCE 7 -05 Table 6 -4) (ASCE 7 -05 Eq 6 -15) 22.41 (ASCE 7 -05 Section 6 5 10) 0.85 (ASCE 7 -05 Section 6 5 8) 1 6 (ASCE 7 -05 Figure 6- 20 -23) Af g Gcpi)A lbs 1 psf (A Lr 06 Fro syup egwe Velocity Pressure (q Case 1 I Case 2 22 41 I 22.41 23 50 23.50 24 37 24 37 25.24 25.24 26 55 26 55 27 64 27 64 28 51 28 51 29 16 1 29 16 30 03 1 30 03 30 46 30 46 31 12 31 12 32.20 32.20 33 08 1 33 08 33 73 33 73 35 03 35 03 41 13 41 13 Tel: (206) 250 -7306 (425) 487 1732 Fax: (425) 487 1734 Project: WA1 Ediz Hook Date: May 5 2010 Client Verizon Prepared By T Le CEI No 09 -55130 REV 1 Page 16928 Woodinville- Redmond Rd NE, Suite 210 Woodinville, WA 98072 Email cei@cornerstone -engr corn Web www cornerstone -engr com Ana ysis of Rooftop Antenna Mount CORNERSVONE E N G I N E E R I N G NC. Phone: (425) 4$7 1732 (206) 250-7306 Fax. (425) 487 1734 Vertically Polarized, Log Periodic 80 13 did Mechanical specifications Length 1200 mm 47.2 in Width 130 mm 5 1 in Depth 375 mm 14.8 in 4) Weight 12 kg 26 5 Ibs Wind Area Fore /Aft 016 Side 0 41 m m 1 68 ft 4 46 ft 5 Rated Wind Velocity (Safety factor 2 0) >420 km /hr >261 mph Wind Load 100 mph (161 km /hr) Fore /Aft 240 N 54 Ibs Side 590 N 133 Ibs Antenna consisting of brass and covered by a fiberglass radome. Mounting and Downtilting Mounting brackets attach to a pipe diameter of 050 -160 mm (2.0 -6.3 in). 3) 1) 1) 2) 1) Mounting bracket kit #36110003 Downtilt bracket kit #36114002 Electrical specifications Frequency Range Impedance Connector(s) VSWR Polarization Gain Power Rating Half Power Angle H -Plane E -Plane Electrical Downtilt Null Fill Lightning Protection 806 -960 MHz 5052 NE or E -DIN 1 port center 1.25.1 Vertical 13 dBd 500 W 80° 14 1.25° 5% Direct Ground 1 Typical values. 2) Power rating limited by connector only 3 NE indicates an elongated N connector. E -DIN indicates an elongated DIN connector. 4 The antenna weight listed above does not include the bracket weight. Improvements to mechanical andlor electrical performance of the antenna may be made without notice. Radiation patterns) .1E0 -170 100 50 .130 -140 ovr 170\ 1 W 150 140 15p\ o i 50 110 a m 80 70 Horizontal 140 Vertical W 20 Radiation patterns for all antennas are measured with the antenna mounted on a fiberglass pole. Mounting on a metal pole will typically improve the Front -to -Back ratio v,02, w e-OP 806-960 INKIE Amphenol Antel, Inc. 1300 Capital Drive Rockford Illinois 61109 USA Toll -Free (888) 417 -9562 Fax. (815) 399 -0156 antel @antelinc.com Tel. (815) 399 -0001 www.antelinc.com LPD- 7907/4 When ordering replace with connector type. Amphenol Antel's Exclusive 3T (True Transmission Line Technology) Antenna Design True log- periodic design allows for superior front -to -side characteristics to minimize sector overlap Durable brass feedline design eliminates the need for conventional solder joints in the signal path. A non collinear system with access to every radiating element for broad band- width and superior performance. Air as insulation for virtually no internal signal loss. This Amphenol Antes antenna is under a five year limited warranty for repair or replacement. Antenna available with center -fed connector only. Amphenol Antel, Inc itx Arrerna technology Company Revision Date 7/5/07 Vertically Polarized, Log Periodic 40° 16 did Mechanical specifications Length Width Depth 4) Weight Wind Area Fore /Aft 0.38 Side 0 47 1200 mm 47.2 in 545 mm 21.3 350 mm 13.7 15.4 kg 34 0 m m 4 05 5 05 in in Ibs ft ft 5 Rated Wind Velocity (Safety factor 2.0) >443 km /hr >275 mph Wind Load 100 mph (161 km /hr) Fore /Aft 578 N 130 Ibs Side 694 N 156 Ibs Antenna consisting of brass and covered by a fiberglass radome. Aluminum reflector Mounting and Downtilting Mounting brackets attach to a pipe diameter of 050 -160 mm (2.0 -6.3 in). Electrical specifications 3) 1) 1) 2) 1) 1) 1) Mounting bracket kit #36110003 Downtilt bracket kit #36114002 Frequency Range Impedance Connector(s) VSWR Polarization Gain Power Rating Half Power Angle H -Plane E -Plane Electrical Downtilt Null Fill Lightning Protection 806 -941 MHz' 5052 NE or E -DIN 1 port center 1.25:1 Vertical 16 dBd 500 W 40° 14 3° 5% Direct Ground Also available up to 960 MHz. Consult your sales director for more information. 1 Typical values. 2 Power rating limited by connector only. 3 NE indicates an elongated N connector E -DIN indicates an elongated DIN connector 4 The antenna weight listed above does not include the bracket weight. Improvements to mechanical andlor electrical performance of the antenna may be made without notice. (0,137 LPD -4016 3° When ordering replace with connector type. Radiation patterns) Horizontal 110 A w Vertical Radiation patterns for all antennas are measured with the antenna mounted on a fiberglass pole. Mounting on a metal pole will typically improve the Front -to -Back ratio ENDS -96i ME=OR Amphenol Antel, Inc. 1300 Capital Drive Rockford Illinois 61109 USA Tel (815) 399 -0001 Toll -Free (888) 417 -9562 Fax. (815) 399 -0156 antel@antelinc.com www.antelinc.com Amphenol Antel's Exclusive 3T (True Transmission Line Technology) Antenna Design True log- periodic design allows for superior front -to -side characteristics to minimize sector overlap Durable brass feedline design eliminates the need for conventional solder joints in the signal path. A non collinear system with access to every radiating element for broad band- width and superior performance. Air as insulation for virtually no internal signal loss. This Amphenol Antes antenna is under a five year limited warranty for repair or replacement. Antenna available with center -fed connector only. t Amphenol Antes, Inc. ira Arcenna Technology Company Revision Date 7/5/07 EXISTING ANTENNA SPECIFICATIONS. ALP 9214 -N C am,* Appurtenance Section US Name ALP 91411 SI Name IALP 9214 -N Type Uerierr Flat F'arnel C Tnagonal FLED) :111- df;cal (nrrsruj Weight Ib Ca#a (Front) ft" 2 CaAa (Side) ft"2 WEIGHT 34.5 Ibs Height Width WIND AREA Side (102 4in x 11 4in)/144 Front (102 4in x 12 Sin)/144 1102.4 1114 Depth 1T2.6 in Weight 134.5 Ib in 8.11ft Mount in r' 2 Pipe C :1/2' C Pipe Length -1/2' Fir 1 —No Ice— —1/2' Ice— 1 Ice 2' Ice- 134.5 1122.92814 1219.74333 1439.31259 111 885037 112.535006 113.192382 114.529358 112.880592 113.537043 114.200901 15.594617 8.96ft .0K 'Cancel Help in -4' Ice 1987.65111 117.526617 118.783506 Slant ±45° Dual Polarized, Panel 63° 16 dBd 806 -900 MHz* Mechanical specifications Length Width 2405 mm 285 mm Depth 114 mm 4.5 in Depth with z- bracket 154 mm 6 1 in Weight 4) 10.9 kg 24 0 Ibs Wind Area Fore /Aft 0 69 m Wind Area Side 0.27 m Max Wind Survivability >201 km /hr Wind Load Fore /Aft Side 94 6 in 11.2 in ft ft >125 mph 74 30 100 mph (161 km /hr) 1038 N 233 lbf 502 N 113 Ibf Antenna consisting of aluminum alloy with brass feedlines covered by a gray UV safe fiberglass radome RoHS compliant. Mounting Downtilting Mounting hardware attaches to pipe diameter 050 -160 mm; 02.0 -6.3 in. Mechanical downtilt angle 0 -17° Mounting Bracket Kit 36210002 Downtilt Bracket Kit 36114003 Electrical specifications Frequency Range Impedance Connector 3) VSWR 1) Polarization Isolation Between Ports 1 Gain 1 1 Power Rating 2) Half Power Angle 1) Horizontal Beamwidth Vertical Beamwidth Electrical downtilt 5) Null fill 1 Lightning protection 806 -900 MHz* 500 NE or E -DIN Female 2 ports Center 5 _141 Slant ±45° 30 dB 16 dBd 500 W 63° 7° 0° 5% Direct ground Patented Dipole Design: U.S. Patent No. 6,608,600 B2 1) Typical values. 2) Power rating limited by connector only. 3) NE indicates an elongated N connector. E -DIN indicates an elongated DIN connector. 4) Antenna weight does not include brackets. 5) Add'I downtilts may be available. Check website for details. Impr ements to mecha ical and /or electn al performa of the me may be made without otice. Radiation pattern' 150/ -160/ ,70 80 -110 100_90 -80 -70 130! 40/ -40 170 160\ 150'\ 140 130 120 i 110 8 ;3 oo 60 70 90 Horizontal 50 50 -30 20 10 I, :o 10 20 /30 40 1` 100 '90 -80 70 -12(„3, 301 50 -1 -00 150/ 30 160 zo -1701 1 10 180' 0 no Ito 1501 20 150 30 140 /40 130 120 '110 �.�'70 6 0 100 gp 80 Vertical 50 Radiation patterns for all antennas are measured with the antenna mounted on a fiberglass pole Mounting on a metal pole will typi- cally improve the front -to -back ratio This antenna is also available for iDEN frequencies 806 -941 MHz. Specify when ordering. 80-6 90'0 MN 7 815.399 0001 antel @antelinc.com www.antelinc.com When ordering replace with connector type. BXA- 80063/8CF Revs :on Date. 0812 /C8 Featuring our Exclusive 3T TechnologyTM Antenna Design Watercut brass feedline assembly for consistent performance. Unique feedline design eliminates the need for conventional solder joints in the signal path. A non collinear system with access to every radiating element for broad band- width and superior performance Air as insulation for virtually no internal signal loss. Warranty This antenna is under a five -year limited warranty for repair or replacement. A T Amphenol Antel,Inc. 1 o f 1 he Antenna tnhndlogy Company Slant 45° Dual Polarized, Panel 63° 18.5 dBi Mechanical specifications Length Width Depth Depth with t- bracket 4) Weight Wind Area Fore /Aft Side 1238 mm 48.8 in 154 mm 6.1 in 80 mm 3.2 in 108 mm 4.3 in 4.5 kg 10.0 Ibs 019 m 21 ft 0 10 m 1 1 ft Rated Wind Velocity (Safety factor 2 0) >322 km /hr >200 mph Wind Load 100 mph (161 km /hr) Fore /Aft 288 N 65 Ibs Side 170 N 38 Ibs Antenna consisting of aluminum alloy with brass feedlines covered by a UV safe fiberglass radome. Mounting and Downtilting Mounting brackets attach to a pipe diameter of 050 -102 mm (2.0 -4.0 in). Mounting bracket kit #26799997 Downtilt bracket kit #26799999 The downtilt bracket kit includes the mounting bracket kit. Electrical specifications Frequency Range Impedance 3 Connector(s) 1) VSWR 1) 1) 2) 1) Polarization Isolation Between Ports Gain Power Rating Half Power Angle H -Plane E -Plane Electrical Downtilt Null Fill Lightning Protection 1850 -1990 MHz 5052 NE or E -DIN 2 ports center or bottom <_141 Slant 45° 30 dB 18.5 dBi 250 W 63° 7° 0° 5% Direct Ground Patented Dipole Design: U.S. Patent No. 6,597,324 B2 1 Typical values. 2 Power rating limited by connector only. 3 NE indicates an elongated N connector E -DIN indicates an elongated DIN connector. 4 The antenna weight listed above does not include the bracket weight. Improvements to mechanical and/or electrical performance of the antenna may be made without notice. Radiation patterns) 423 a, 110 %D 10 W Horizontal Vertical Radiation patterns for all antennas are measured with the antenna mounted on a fiberglass pole. Mounting on a metal pole will typically improve the Front -to -Back ratio CF Denotes a Center Fed Connector Toll -Free (888) 417 -9562 Fax. (815) 399 -0156 antel @antelinc.com {350-990 KME Amphenol Anter, Inc. 1300 Capital Drive Rockford Illinois 61109 USA Tel (815) 399 -0001 www.antelinc.com BXA- 185063/8CF When ordering replace with connector type. Amphenol Antel's Exclusive 3T (True Transmission Line Technology) Antenna Design a Watercut brass feedline assembly for consistent performance. Unique feedline design eliminates the need for conventional solder joints in the signal path. A non collinear system with access to every radiating element for broad band- width and superior performance. Air as insulation for virtually no internal signal loss. This Amphenol Antes antenna is under a five year limited warranty for repair or replacement. Antenna can be ordered with center -fed or bottom -fed connectors. Center -fed: BXA- 18506318CF (NE or E -DIN) Bottom -fed: BXA- 18506318BF (NE or E -DIN) Amphenol Antel, Inc. The luster Techrotogy Company Revision Date 7/11/07 Slant ±45° Dual Polarized FET Panel 63° 16 dBd 696 -900 MHz Mechanical specifications Length 2405 mm 94 6 in Width 285 mm 11.2 in Depth 114 mm 4 5 in Depth with z- bracket 154 mm 6 1 in Weight 4) 10 9 kg 24 0 Ibs Wind Area Fore /Aft 0 69 m 7 4 ft Wind Area Side 0.27 m 3 0 ft Max Wind Survivability >201 km /hr >125 mph Wind Load 100 mph (161 km /hr) Fore /Aft 1038 N 233 Ibf Side 502 N 113 Ibf Antenna consisting of aluminum alloy with brass feedlines covered by a UV safe fiber glass radome Mounting Downtilting Mounting hardware attaches to pipe diameter 050 -160 mm; 02.0 -6.3 in Mechanical downtilt angle 0 -17° Mounting Bracket Kit 36210002 Downtilt Bracket Kit 36114003 Electrical specifications Frequency Range Impedance Connector 3) VSWR 1 Polarization Isolation Between Ports 1) Gain 1 Power Rating 2) Half Power Angle 1 Horizontal Beamwidth Vertical Beamwidth Electrical downtilt 5) Null fill 1 Lightning protection 696 -900 MHz 500 NE or E -DIN Female 2 ports Center 5 1 35.1 Slant ±45° 30 dB 16 dBd 18 dBi 500 W 63° 7° 0 5% Direct ground Patented Dipole Design: U.S. Patent No. 6,608,600 B2 1) Typical values. 2) Power rating limited by connector only. 3) NE indicates an elongated N connector. E -DIN indicates an elongated DIN connector. 4) Antenna weight does not include brackets. 5) Add'I downtilts may be available. Check website for details. Impr ements to mechanical and /o electrical performa ce of the ntenna may be made without ottc Radiation pattern' 750 MHz 0 o/ 70 0/ 0/ 0/ 0/ o 60 850 MHz 60/ D ,00 Horizontal 3, Horizontal 00 .00 mo eo Vertical so 120 100 0p BO�� Vertical 0 .00 <0 eg( 90-0 MH7, 815.399.0001 antel @antelinc.com www.antelinc.com BXA- 70063/8CF When ordering replace with connector type. r l Rev■sio- Bate: C1 /08/09 1 t Featuring our Exclusive 3T TechnologyrM Antenna Design: Watercut brass feedline assembly for consistent performance Unique feedline design eliminates the need for conventional solder joints in the signal path. A non collinear system with access to every radiating element for broad band- width and superior performance Air as insulation for virtually no internal signal loss. Warranty' This antenna is under a five -year limited warranty for repair or replacement. A T Amphenol Antel,Inc. 1 of 1 he Ante Te0Anilogy 0uopnnl Slant 45° Dual Polarized, Panel 40° 18 did Mechanical specifications Length 2405 mm 94 7 in Width 600 mm 23.6 in Depth 200 mm 7.9 in Depth with z- bracket 240 mm 9.4 in 4) Weight 22.7 kg Mounting bracket kit #36210002 Downtilt bracket kit #36114003 Electrical specifications Frequency Range Impedance 3 Connector(s) 1) 1) 1) 2) 1) 1) 1) Wind Area Fore /Aft Side VSWR Polarization Isolation Between Ports Gain Power Rating Half Power Angle H -Plane E -Plane Electrical Downtilt 0° Null Fill 1 44 m 15.5 0 48 m 5.2 40° 7° 5% Lightning Protection Direct Ground Also available for 870 -960 MHz. Consult your sales director for more information. Patented Dipole Design: U.S. Patent No. 6,608,600 B2 1 Typical values. 2) Power rating limited by connector only. 3 NE indicates an elongated N connector E -DIN indicates an elongated DIN connector. 4 The antenna weight listed above does not include the bracket weight. Improvements to mechanical and/or electrical performance of the antenna may be made without notice. 50.0 Ibs ft ft Rated Wind Velocity (Safety factor 2.0) >206 km /hr >128 mph Wind Load 100 mph (161 km /hr) Fore /Aft 2059 N 463 0 Ibs Side 782 N 175 7 Ibs Antenna consisting of aluminum alloy with brass feedlines covered by a UV safe fiberglass radome. Mounting and Downtilting Mounting brackets attach to a pipe diameter of 050 -160 mm (2.0 -6.3 in). 806 -900 MHz* 5052 NE or E -DIN 2 ports center or bottom <141 Slant 45° 27 dB 18 dBd 500 W Amphenol Antel, Inc. 1300 Capital Drive Radiation patterns) 1'u -10) 43 -M 20 Horizontal Vertical CF Denotes a Center -Fed Connector -2) Featuring upper side lobe suppression Radiation patterns for all antennas are measured with the antenna mounted on a fiberglass pole Mounting on a metal pole will typically improve the Front -to -Back ratio 806-900 WAR, Rockford, Illinois 61109 USA Tel (815) 399 -0001 Toll -Free (888) 417 9562 Fax. (815) 399 -0156 antel @antelinc.com www.antelinc.com BXA-80040/8C F When ordering replace with connector type. Amphenol Antel's Exclusive 3T (True Transmission Line Technology) Antenna Design Watercut brass feedline assembly for consistent performance. Unique feedline design eliminates the need for conventional solder joints in the signal path. A non collinear system with access to every radiating element for broad band- width and superior performance. Air as insulation for virtually no internal signal loss. This Amphenol Antel antenna is under a five year limited warranty for repair or replacement. Antenna can be ordered with center -fed or bottom -fed connectors. Center -fed: BXA- 8004018CF (NE or E -DIN) Bottom -fed: BXA- 8004018BF (NE or E -DIN) A mphenol Antel, Inc. The Amer technology Company Revision Date 7/3/07 Slant +1- 45° Dual Polarized, Panel 40° 19.5 dii Mechanical specifications Length Width 4) Weight Wind Area Fore /Aft Side Frequency Range Impedance 3) Connector(s) VSWR 1) 2) 1) Polarization Gain Power Rating Half Power Angle H -Plane E -Plane Electrical Downtilt Null Fill Lightning Protection 1240 mm 48 8 in 300 mm 11 8 in Depth 120 mm 4 7 in Depth with z- bracket 160 mm 6.3 in 5.9 kg 13 0 Ibs 0.37 0 15 m m Rated Wind Velocity (Safety factor 2.0) >233 km /hr >145 mph Wind Load 100 mph (161 km /hr) Fore /Aft 531 N 119 Ibs Side 234 N 53 Ibs Antenna consisting of aluminum alloy with brass feedlines covered by a UV safe fiberglass radome. Mounting and Downtilting Mounting brackets attach to a pipe diameter of 050 -102 mm (2.0 -4.0 in). If the lock -down brace is used, the maximum diameter is 088.9 mm (3.5 in). Mounting Bracket Downtilt Bracket Kit #21699999 Electrical specifications 1850 -1990 MHz 5052 NE or E -DIN 2 ports center <_141 Slant 45° 1) Isolation Between Ports 30 dB 19.5 dBi 40 1.6 40° 7° 0° 5% Direct Ground Patented Dipole Design: U.S. Patent No. 6,597,324 B2 1 Typical values. 2 Power rating limited by connector only 3 NE indicates an elongated N connector. E -DIN indicates an elongated DIN connector. 4 The antenna weight listed above does not include the bracket weight. Improvements to mechanical andlor electrical performance of the antenna may be made without notice. ft ft Radiation patterns) Horizontal 110 407 -60 -83 -A 123 83 10) go 8) Vertical BXA-1 85040/8C F CF Denotes a Center -Fed Connector Radiation patterns for all antennas are 250 W measured with the antenna mounted on a fiberglass pole. Mounting on a metal pole will typically improve the Front -to -Back ratio E350-4 990 MHE Amphenol Antel, Inc. 1300 Capital Drive Rockford Illinois 61109 USA Tel (815) 399 -0001 Toll -Free (888) 417 -9562 Fax. (815) 399 -0156 antel@antelinc.com www.antelinc.com When ordering replace with connector type. Amphenol Antel's Exclusive 3T (True Transmission Line Technology) Antenna Design Watercut brass feedline assembly for consistent performance. Unique feedline design eliminates the need for conventional solder joints in the signal path A non collinear system with access to every radiating element for broad band- width and superior performance Air as insulation for virtually no internal signal loss. This Amphenol Antel antenna is under a five year limited warranty for repair or replacement. Antenna available with center -fed connectors only. Amphenol Antel, Inc. The M:enna Technology Company Revision Date 7/11/07 Slant ±45° Dual Polarized Panel 40° 18.0 dBd 696 -900 MHz Mechanical specifications Length 2406 mm Width 606 mm Depth 198 Depth with z- bracket 238 Weight 22.7 Wind Area Fore /Aft 1 46 Wind Area Side 0 48 Max Wind Survivability >201 Wind Load 100 mph (161 km /hr) Fore /Aft 2082 N 468 Side 738 N 166 Antenna consisting of aluminum alloy with brass feedlines covered by a UV safe fiber glass radome Mounting Downtilting Mounting hardware attaches to pipe diameter 050 -160 mm; 02.0 -6.3 in. Mounting Bracket Kit 36210002 Downtilt Bracket Kit 36114003 Electrical specifications Frequency Range Impedance Connector 3) VSWR 1 Polarization Isolation Between Ports Gain l) Power Rating 2) Half Power Angie 1 1 Horizontal Beamwidth Vertical Beamwidth Electrical downtilt 5) Null fill 1 Lightning protection 1) 40° 7° 0° 5% 94.8 23 9 mm 7.8 mm 94 kg 50 m m km /hr >125 157 51 in in in in Ibs ft ft mph Ibf Ibf 696 -900 MHz 500 NE or E -DIN Female 2 ports Center 1.35.1 Slant ±45° -27 dB 180 dBd 20 0 dBi 500 W Direct ground Patented Dipole Design: U.S. Patent No. 6,608,600 B2 1) Typical values. 2) Power rating limited by connector only. 3) NE indicates an elongated N connector E -DIN indicates an elongated DIN connector. 4) Antenna weight does not include brackets. 5) Add'I downtilts may be available. Check website for details. Impr vements to mecha isal nd /o electn al performa of the ntenn may be made without otic Radiation pattern' 750 MHz ,50 60 30 0k 150 850 MHz 7o, 0\ 0 D0 .0 d0 70 .60 0- Horizontal r so X30 50 60 Vertical 20 Horizontal o i 60 100 Vertical so 50 (5; 900' Pi 815.399 0001 antel @antelinc.com www.antelinc.com When ordering replace with connector type. Rev.stor Date: /8/09 BXA-70040/8C F Featuring our Exclusive 3T TechnologyT"' Antenna Design: Watercut brass feedline assembly for consistent performance Unique feedline design eliminates the need for conventional solder Joints in the signal path. A non collinear system with access to every radiating element for broad band- width and superior performance Air as insulation for virtually no internal signal loss. Warranty This antenna is under a five -year limited warranty for repair or replacement. A Ampheno T l Antel, Inc. 1 of 2 M M0 60logy Company Slant ±45° Dual Polarized Panel 40° 18.0 dBd 696 -900 MHz 1) Typical values. 2) Power rating limited by connector only. 3) NE indicates an elongated N connector E -DIN indicates an elongated DIN connector. 4) Antenna weight does not include brackets. 5) Addl downtilts may be available. Check website for details. Impr ements to mecha anal nd /o electr al performa of the me may be made without notic From left to right: top view side view back view 198mrr [7.8 in] E 238 mm [9.4 in] (39-fi 900 MHz rJ D 815.399.0001 antel @antelinc.com www.antelinc.com BXA- 70040/8CF When ordering replace with connector type. Z- Bracket Connectors 117 mm [4.6 in] 244 mm [9.6 in] Z- Bracket 180 mm [7 1 in] 4 _606 mm [23.9 in] A o 3 AT Amphenol Antel, Inc. 2 of 2 he MI Technology Comm CORNERS1rONE E N G I N E E R N G. NC AN1ENNA F- P c M!El1ToAl (A cone NITT!WA M6w/r c //Eti (,'al1P41?b- TENNA Us ?ow) ANIDW,�4 L' 4pIN' ,5 /P /(ATA/✓s AGP 9zI4 -A/ 11o1 Y NEW gX4 VO4% fkr (0 BXA -ls /i4- (9 gbh mea /Sfr project INAI pm?: root of location fksas A L C wA client V MI d /v PMn LOAD CO/14 A v b i E R/ S fi5 I I 3.a Its DI-N WIND GOAD cPAtifoL AwE 3s o ,P4 z 3s A w, 01( by Ph !date 3 /Z !checked date W IND kW 1N9 RI Aw P- 35 0 421- aK (6 U6P71)P ,4N1,NNA WAIT is Apt ro 5wpor7' 71f' PRbP65E P WENN A um PS Nom' pt- AArm IA/ 4 711 gf; gEI4oVf! CEI job no. d9 55/3d Project: WA1 Edtz Hook Date. May 5 2010 Client: Verizon Prepared By T Le CEI No 09 -55130 REV 1 Page 19 16928 Woodinville Redmond Rd NE, Suite 210 Woodinville, WA 98072 Email. cei@ cornerstone -engr com Web www cornerstone -engr com Cantilevered Antenna Mast Check /Design (West Wa CORNERS1 ONE E N G N E E R I N G, NC. Phone: (425) 487 1732 (206) 250-7306 Fax. (425) 487 1734 E cDFRNEFISIr0NE E N O N E E R NG. I N C a -'0 p vvf U t1 ll_ Z NA I1isr cttEaa /DEf1hAl A--T wss-r w4LL _�NA Miff 6t1RAT/04 wEtG/Iir UP vl IND A &A 6 g sr9 urr P (0209 5-40 (1) BSA cXo3 /SGF 111 q g- MIS( r z U,1 =Ila lies &Jr-1i -ff i� _VTOL MAY project MI EP flooK location P 1— A- PME1ES, client VER i N Spl a i t„- P 4E 1, (aiQ 0 4-6W by TV L date 3 /2,14f checked date E I %Z as Eµ- a Ikt g4//pf-1 d) 3e GIs sheet no CEI job no. Ma Zy n 2551 il44- r 1,41z 7 1,0 6 D y 0 's7Z iffr PIPE Mau 31.W tiftCRIDE lE) MAIr "1+ _UY ?#0( rm I r PPE M s' PikoP®SEP 1f tik1 srwm Title block Line 1 You can changes this area using the "Settings' menu item and then using the "Printing Title Block' selection. Title Block Line 6 Steel Beam Design Lic. KW- 06006053 License Owner CORNERTSTONE ENGINEERING INC. Description 2" STD WT MAST CHECK /DFSICN Material Properties Analysis Method Allowable Stress Design Beam Bracing Completely Unbraced Bending Axis Major Axis Bending Load Combination 2006 IBC ASCE 7 -05 e2STD Span Applied Loads Load(s) for Span Number 2 Point Load W 0.30640 k 8.0 ft DESIGN SUMMARY Maximum Bending Stress Ratio Section used for this span Mu Applied Mn Omega Allowable Load Combination Location of maximum on span Span where maximum occurs Maximum Deflection Max Downward L +Lr +S Deflection Max Upward L +Lr +S Deflection Live Load Deflection Ratio Max Downward Total Deflection Max Upward Total Deflection Total Deflection Ratio Overall Maximum Deflections Unfactored Loads Load Combination Span Max. Defl 1 0.0000 W Only 2 8.8919 (t) z vii' w- p (PE )vo 60.8p M�•tT uP Dr Ti )1r xi> tArr PfPE Service loads entered Load Factors will be applied for calculations. 1.914 1 Maximum Shear Stress Ratio D X Section used for this span 2 451 k -ft Vu Applied 1.281 k -ft Vn /Omega Allowable +D +W +H Load Combination 2.000ft Location of maximum on span Span 1 Span where maximum occurs 0 000 in 0.000 in 0 <360 8.892 in -0.060 in 28 <180 Maximum Forces Stresses for Load Combinations Load Combination Max Stress Ratios Segment Length Span M V Mmax Overall MAXimum Envelope Dsgn. L 2.00 ft 1 1.914 0 190 Dsgn. L 10.50 ft 2 1.914 0.047 +D +L+H Dsgn. L 2.00 ft 1 0.000 Dsgn. L 10.50 ft 2 0.000 +D +Lr+H Dsgn. L 2.00 ft 1 0.000 Dsgn. L 10.50 ft 2 0 000 +D +W+H Dsgn. L 2.00 ft 1 1.914 0 190 Dsgn. L 10.50 ft 2 1.914 0.047 +D+0.750Lr+0.750L+0.750W +H Dsgn. L 2.00 ft 1 1 435 0.142 Dsgn. L 10.50 ft 2 1 435 0.036 +D+0.750L+0.750S+0 750W +H Dsgn. L 2.00 ft 1 1 435 0.142 Dsgn. L 10.50 ft 2 1 435 0.036 +0.60D +W +H Dsgn. L 2.00 ft 1 1.914 0 190 Dsgn. L 10.50 ft 2 1.914 0.047 Location in Span 0.000 10.500 Title WA1 Ediz Hook Dsgnr TVL Project Desc. Project Notes Printed: 30 MAR 2009. 10:20AM :1 Storage\ Cornerstone \Engineering \Verizonl 09 Jobs 09-55130 WA1 Ediz Hook LTE ModlCalcslwal ediz hook.ec6 ENERCALC. INC. 1983 -2008, Ver 6.0.21 Pipe2STD Span 10.50 ft W(0.064) Job 09 -55130 Calculations per IBC 2006, CBC 2007 13th AISC Fy Steel Yield 36.0 ksi E. Modulus 29 000 0 ksi 0.190} 2STD 1.2256 k 6.4671 k +D +W +H 0.000 ft Span 1 Summary of Moment Values Summary of Shear Values Mmax Ma Max Mnx Omega *Mnx Cb Rm Va Max Vnx Omega'Vnx -2.45 2.45 2.14 1.28 1.00 1.00 1.23 10.80 6.47 -2.45 2.45 2.14 1.28 1.00 1.00 0.31 10.80 6.47 2.14 1.28 1.00 1.00 -0.00 10.80 6.47 2.14 1.28 1.00 1.00 -0.00 10.80 6.47 2.14 1.28 1 00 1.00 -0.00 10.80 6.47 2.14 1.28 1.00 1.00 -0.00 10.80 6.47 -2.45 2.45 2.14 1.28 1.00 1.00 1.23 10.80 6 47 -2.45 2.45 2.14 1.28 1.00 1.00 0.31 10.80 6.47 1.84 1.84 2.14 1.28 1.00 1.00 0.92 10.80 6.47 1.84 1.84 2.14 1.28 1.00 1.00 0.23 10.80 6.47 1.84 1.84 2.14 1.28 1.00 1.00 0.92 10.80 6.47 1.84 1.84 2.14 1.28 1.00 1.00 0.23 10.80 6.47 -2,45 2.45 2.14 1.28 1.00 1.00 1.23 10.80 6.47 -2.45 2.45 2.14 1.28 1.00 1.00 0.31 10.80 6 47 Load Combination W Only Max. Defl 0.0604 0.0000 Location in Span 1 169 1 169 Title 'Block Line 1 You can changes this area using the "Settings' menu item and then using the Printing Title Block" selection. Title Block Line 6 L Steel Beam Design Lic. KW- 06006053 License Owner CORNERTSTONEENGINEERING Description 2' STD WT MAST CHECK/DESIGN Maximum Deflections for Load Combinations Unfactored Loads Load Combination Span Max. Downward Defl Location in Span 2 8.8919 10.500 W Only Vertical Reactions Unfactored Load Combination Support 1 Support 2 Support 3 Overall MAXimum 1.226 1.532 W Only 1.226 1.532 Steel Section Properties Pipe2STD Depth 2.375 in 1 xx S xx Diameter 2.375 in R xx Wall Thick 0 143 in Zx Area 1.000 inA2 I yy Weight 3.660 plf S yy R yy Ycg BEAM--» -0.6 2.5 0.3 BEAN -0.5 -0.9 13 1 188 in Title WA1 Ediz Hook Dsgnr TVL Project Desc. Project Notes Distance (ft) Overall MAXimum Envelope +D +L +H +D +Lr +H E +D +0.750Lr +0.750L +0.750W +H El +D +0.750L +0.7505 +0.750W +H +0.60D +W +H Distance (ft) Overall MAXimum Envelope +D +L +H +D +Lr +H EI +D +0.750Lr +0.750L +0.750W +H li +D +0.750L +0.7505 +0.750W +H O +0.60D +W +H Printed' 30 MAR 2009, 10.20AM 1Storage\ Cornerstone \EngineeringWerizon1 09 Jobs109 -55130 WA1 Ediz Hook LTE Mod\Calcslwat ediz hook.ec6 ENERCALC, INC. 1983 -2008. Ver 6.0.21 Suppor not on Far loft is 0.63 in ^4 0.53 in "3 0.791 in 0.713 in "3 0.627 in"4 0.528 in "3 0.791 in Max. Upward Defl Location in Span 0.0000 0.000 J 1.18 2.24 3.45 4.67 5.88 7.09 830 9.51 10.72 11.93 +D +W +H +D +W +H Job 09 -55130 1.250 in ^4 1.18 2.24 3.45 4.67 5.88 7.09 830 9.51 10.72 11.93 Title Block Line 1 You can changes this area using the "Settings" menu item and then using the 'Printing Title Block" selection. Title Block Line 6 Steel Beam Design Description BEAM 2.2 c -4.5 -6.8 -9.1 2" STD WT MAST CHECK/DESIGN Title WA1 Ediz Hook Dsgnr• TVL Project Desc. Project Notes Lic. KW- 06006053 License Owner CORNERTSTONE ENGINEERING INC.; 1.18 2.24 3.45 4.67 5.88 Distance (ft) Overall MAXimum Envelope W Only Printed 30 MAR 2009, 10:20AM 1 Storage\ Cornerstone \Engineering \Verizonl 09 Jobs109.55130 WA1 Ediz Hook LTE Mod \Calcslwal ediz hook.ec6 ENERCALC, INC. 1983 -2008, Ver 6.0.21 7.09 830 9.51 10.72 Job 09 -55130 11.93 Title Block Line 1 You can changes this area using the Settings' menu item and then using the "Printing Title Block" selection. Title Block Line 6 Steel Beam Design Lic. KW- 06006053 Description Material Properties 3" STD WT MAST DESIGN UPGRADE a. Analysis Method Allowable Stress Design Beam Bracing Completely Unbraced Bending Axis Major Axis Bending Load Combination 2006 IBC ASCE 7 -05 Applied Loads Load(s) for Span Number 2 Point Load W 0.30640 k 8.0 ft DESIGN SUMMARY Maximum Bending Stress Ratio Section used for this span Mu Applied Mn Omega Allowable Load Combination Location of maximum on span Span where maximum occurs Maximum Deflection Max Downward L +Lr +S Deflection Max Upward L +Lr +S Deflection Live Load Deflection Ratio Max Downward Total Deflection Max Upward Total Deflection Total Deflection Ratio Maximum Forces Stresses for Load Combinations Load Combination Max Stress Ratios Segment Length Span M V Overall MAXimum Envelope Dsgn. L 2.00 ft 1 0.623 0.091 Dsgn. L 10.50 ft 2 0.623 0.023 +D +L +H Dsgn. L 2.00 ft 1 0.000 Dsgn. L 10.50 ft 2 0 000 +D +Lr +H Dsgn. L 2.00 ft 1 0.000 Dsgn. L 10.50 ft 2 0.000 +D +W +H Dsgn. L 2.00 ft 1 0.623 0.091 Dsgn. L 10.50 ft 2 0.623 0 023 +D+0.750Lr+0.750L+0.750W +H Dsgn. L 2.00 ft 1 0 467 0 068 Dsgn. L 10.50 ft 2 0.467 0.017 +D+0.750L+0.750S+0.750W +H Dsgn. L 2.00 ft 1 0.467 0.068 Dsgn. L 10.50 ft 2 0.467 0.017 +0.60D +W +H Dsgn. L 2.00 fl 1 0.623 0.091 Dsgn. L 10.50 ft 2 0.623 0.023 Overall Maximum Deflections Unfactored Loads Load Combination Span Max. Defl 1 0.0000 W Only 2 1.9562 Pipe3STD iJ 23j1 f Pi pe3STD Z 2.451 k -ft 3.934 k -ft +D +W +H 2.000ft Span 1 0.000 in 0 000 in 0 <360 1.956 in -0 013 in 128 Mmax Title WA1 Ediz Hook Dsgnr TVL Project Desc. Project Notes Job 09 -55130 Pr flied' 30 MAR 2000. 10:50AM '1Storage\ Cornerstone \Engineering \Verizon1_09 Jobs109 -55130 WA1 Ediz Hook LTE Mod\Calcs \wa1 ediz hook.ec6 ENERCALC, INC. 1983 -2008, Ver: 6.0.21: License Owner CORNERTSTONE:ENGINEERINGINC.': Location in Span 0.000 10.500 Calculations per IBC 2006, CBC 2007 13th AISC Fy Steel Yield 36 0 ksi E. Modulus 29,000 0 ksi Span =1050 ft Maximum Shear Stress Ratio Section used for this span Vu Applied Vn /Omega Allowable Load Combination Location of maximum on span Span where maximum occurs W(0.3064) Service loads entered. Load Factors will be applied for calculations. Design OK 6091 Pipe T 1.2256 k 13.4515 k +D +W +H 0.000 ft Span 1 Summary of Moment Values Summary of Shear Values Mmax Ma Max Mnx Omega *Mnx Cb Rm Va Max Vnx Omega'Vnx -2.45 2.45 6.57 3.93 1.00 1.00 1.23 22.46 13.45 -2.45 2.45 6.57 3.93 1.00 1.00 0.31 22.46 13.45 6.57 3.93 1.00 1.00 -0 00 22.46 13.45 6.57 3.93 1.00 1.00 -0.00 22.46 13.45 6.57 3.93 1.00 1.00 -0.00 22.46 13.45 6.57 3.93 1.00 1.00 -0.00 22.46 13.45 -2.45 2.45 6.57 3.93 1.00 1.00 1.23 22.46 13.45 -2.45 2.45 6.57 3.93 1.00 1.00 0.31 22.46 13.45 1.84 1.84 6.57 3.93 1.00 1.00 0.92 22.46 13.45 1.84 1.84 6.57 3.93 1.00 1.00 0.23 22.46 13.45 1.84 1.84 6.57 3.93 1.00 1.00 0.92 22.46 13.45 1.84 1.84 6,57 3.93 1.00 1,00 0.23 22.46 13.45 -2.45 2.45 6.57 3.93 1.00 1.00 1.23 22.46 13.45 -2.45 2.45 6.57 3.93 1.00 1.00 0.31 22.46 13.45 Load Combination W Only Max. Defl 0.0133 0.0000 Location in Span 1 169 1 169 Title Block Line 1 You can changes this area using the 'Settings' menu item and then using the 'Printing Title Block" selection Title Block Line 6 Steel Beam Design Lic. KW- 06006053 License Owner CORNERTSTONE ENGINEERING INC. w Description 3" STD WT MAST DESIGN UPGRADE Maximum Deflections for Load Combinations Unfactored Loads Load Combination Span Max. Downward Defl Location in Span W Only 2 1,9562 10.500 Suoport notation Far left is Vertical Reactions Unfactored Load Combination Overall MAXimum W Only Steel Section Properties Pipe3STD Depth 3.500 in I xx S xx Diameter 3.500 in R xx Wall Thick 0.201 in Zx Area 2.080 inA2 lyy Weight 7.580 plf S yy R yy Ycg 2.5 03 BEAD -0.5 -0.9 13 1.18 Support 1 Support 2 Support 3 1.226 1.532 1.226 1.532 1.750 in 2.24 3.45 4.67 5.88 Title WA1 Ediz Hook Dsgnr TVL Project Desc. Project Notes 2.85 in^4 1.63 inA3 1 170 in 2.190 inA3 2.850 in^4 1.630 inA3 1 170 in 7.09 Distance (ft) Overall MAXimum Envelope +D +L +H +D +Lr +H ri +D +0.750Lr +0.750L +0.750W +H EI +D+0.750L+0.750S+0.750W+H +0.60D +W +H Pr iced: 30 MAR 2009, 10•50AM 1StoragelCornerstone \Engineering\Verizon1 09 Jobs109 -55130 WA1 Ediz Hook LTE Mod1Calcs1wa1 ediz hook.ec6 ENERCALC, INC. 1983 -2008, Ver: 6.0.21 Max. Upward Defl 0.0000 830 J 9.51 Location in Span 0.000 5.690 inA4 +D +W +H t Job 09 -55130 10.72 11.93 1.18 2.24 3.45 4.67 5.88 7.09 830 9.51 10.72 11.93 Distance (ft) Overall MAXimum Envelope +D +L +H +D +Lr +H +D +W +H +D +0.750Lr +0.750L +0.750W +H E3 +D +0.750L +0.7505 +0.750W +H +0.60D +W +H Title Block Line 1 You can changes this area using the "Settings' menu item and then using the 'Printing Title Block" selection. Title Block Line 6 Steel Beam Design Description BEAM -0.5 3' STD WT MAST DESIGN UPGRADE Title WA1 Ediz Hook Dsgnr TVL Project Desc. Project Notes Pr nted: 30 MAR 2009, 10.50AM 1StoragelCornerstonelEngineering \Verizonl 09 Jobs109 -55130 WA1 Ediz Hook LTE Mod \Cafcs \wa1 ediz hook.ec6 ENERCALC, INC. 1983 -2008, Ver 6.0.21 Lic. KW-06006053 License Owner CORNERTSTONE 'ENGINEERING iNC. 1.18 2.24 3.45 4.67 5.88 7.09 Distance (ft) r Overall MAXimum Envelope W Only 8.30 9.51 10.72 Job 09 55130 11.93 C E ENGINEER N 3 N C osit L' t (t 11Asr C6NN &:17W c,4(k /Pt376N (frier ja.t) 6+,f ,p, =los' v 6 project location client T�,.1, 1633.5 s V' 4 a,131--(73/0,0,.... FJ Fv loll/ x` l$ 6')f sµ(a y97. (5 ts0 46, F -F t ft( :tr,, -0 FB= Fr Fw tkf,f \J W Cv 0 w �v 40ME.::POI y -2yFr =o q�x X593. l6 by date checked date fr w xE„± yfwt F VM* 133 S lb 3 %8 dolt t l /Df,Sid i1/, (K A 0,0 /AO fl a 4 o o f 'Aar* /3l af,L 0, ZS Fr (3) W0 A 6 BQ1Ts 4 E ADCl2L(ir fist TNt Mdp'JED ioADs A t TfIE War MU- 1 CEIjob no. Cantilever Mast Reactions (West Wall) Load Combination 1.0DL 0 7E> Wg 120 00 lbs 0 7Eh 3360 lbs 0 7Ev 13 44 lbs FT =I 204.03 Ilbs 1 FB I 170 43 Ilbs 1 V =I 13344 Ilbs 1 Load Combination <0 6DL +1 0 7E> 0 6Wg 72.00 lbs 0 7Eh 33 60 lbs 0 7Ev 13 44 Ibs FT I 194 09 Ilbs 1 FB I 160 49 Ilbs 1 V =I 85 44 Ilbs Wg 120.00 lbs -0 7Eh 33 60 Ibs 0 7Ev 13 44 lbs 0.6Wg 72 00 lbs -0 7Eh 33 60 lbs 07Ev= 1344 lbs *NOTE. FT I 148.77 Ilbs FB =I 115 17 Ilbs V =I 133 44 Ilbs FT I 158 71 Ilbs FB =1 125 11 Ilbs V=1 85 44 Ilbs Wg 120.00 lbs 0 7Eh 3360 lbs -0 7Ev 13 44 lbs FT =I 198 47 Ilbs 1 FB 1 164.87 Ilbs 1 V =1 106.56 IIbs 0 6Wg 72 00 lbs 0 7Eh 3360 lbs -0 7Ev 13 44 lbs If FT is postive tension If FT is negative compression If FB is negative, then tension If FB is positive, then compression FT I 188.53 Ilbs 1 FB I 154 93 Ilbs 1 V =I 58.56 Ilbs Job 09 -55130 Eng: TVL Client: VERIZON Wg 120 00 lbs -0 7Eh 3360 lbs -0 7Ev 13 44 lbs FT I 154 33 Ilbs FB I 120 73 Ilbs V =1 106.56 Ilbs 0 6Wg 72 00 lbs -0 7Eh 33 60 lbs -0 7Ev 13 44 lbs T. F =I 164.27 Ilbs FB I 130 67 Ilbs V 58.56 Ilbs `F T FB x= 497 in i 126 in d 24 in TMAX 204 03 VMAX 133 44 CMAX 170 43 Cantilever Mast Reactions (West Wall) Load Combination 1.0DL +1 1.OWL> Wg 120.00 lbs WL 306 40 lbs FT I 1633 45 Ilbs 1 FB =1 1327 05 11bs 1 V =1 120.00 Ilbs Load Combination <0 6DL 1.OWL> 0 6Wg 72 00 lbs 0 6Wg 72 00 Ibs WL 306 40 lbs WL 306 40 lbs FT I 1623.51 Ilbs 1 FB =I 1317 11 Ilbs 1 V =1 72 00 Ilbs 1 Wg 120.00 Ibs WL 306 40 lbs FT I 1583 7511bs FB I 1277 351lbs V =1 120 00 Ilbs *NOTE FT I 1593 691lbs )7= 4.97 in CMAX FB I 1287.291lbs 7= 126 in 1593 69 V=1 72 00 Ilbs d 24 in If FT is postive tension If FT is negative compression If FB is negative, then tension If FB is positive, then compression Job 09 -55130 Eng: TVL Client: VERIZON FT FB T MAX 1633 45 V MAX 120 C C ORNERS-TONE E N G N E E R N G, N C _CANTILPED MAST (0146IEc(77// D„ ;r Aft. 3"� sry I Cif it-- 1 4 I I 1 (E) 2 )(t STUP /Nt"CK p oky 3 3 project location client by date checked date 'be WODD (TVP) 0)3/6 A 3o 3' try 4kIi TyP oNo•ktrr C E M7Nt -20" tow rot' Stub g la. "o•G sa s nl'P►G rl (r)9 wilt= 3 /psl CEI job no. pe too poop /6,o es() (b4 teet) (!,1 ((2®X3)/3 (20 lbw 240.4 lJs 1v- /fN ®(n) L (2r pA) (.4(4 9/(2J ti's fir DC. t l L 74A,q Kr 4 l /b.4 ILJ VZU.0 60 40 ,1 0 ggND /NG f ,W, a,b lro afe- (t) lx' f'TL(PS Ortat in £Kppdiar PP.Pafe7' Title Block Line 1 You can changes this area using the 'Settings' menu item and then using the 'Printing Title Block' selection. Title Block Line 6 Wood Column Lic. KW- 06006053 License Owner CORNERTSTONE ENGINEERING INC. Description Load Combination D Only W Only General Information Analysis Method End Fixities Overall Column Height Used for non- slender calculations Wood Species Douglas Fir Larch Wood Grade No.2 Fb Tension 900.0 psi Fv Fb Compr 900.0 psi Ft Fc Prll 1,350.0 psi Density Fc Perp 625.0 psi E Modulus of Elasticity Basic Minimum Load Combination Results (E) 2x4 Stud Check #1 (WET tow Allowable Stress Design Top Bottom Pinned x -x Bending 1 600.0 580.0 Load Combination 2006 IBC ASCE 7 Bending Shear Check Results PASS Max. Axial +Bending Stress Ratio Load Combination Goveming NDS Formla Comp Mxx, Location of max.above base At maximum location values are Applied Axial Applied Mx Applied My Fc Allowable PASS Maximum Shear Stress Ratio Load Combination Location of max.above base Applied Design Shear Allowable Shear Load Combination +D +D +L +H +D +Lr +H +D +W +H +D+O 750Lr+0.750L+0.750W +H +0+0 750L+0 750S+0 750W +H +0.60D +W +H Maximum Reactions Unfactored 8.590 ft 180 0 psi 575 0 psi 32.210 pcf y -y Bending 1,600.0 580.0 Applied Loads Column self weight included 10 0874 Ibs Dead Load Factor AXIAL LOADS Axial Load at 8.590 ft, D 0 42340 k BENDING LOADS Lat. Uniform Load creating My -y W 0 04020 k/ft DESIGN SUMMARY 3.053185 3.053185 3.053185 0.67370 0.50555 0.50555 0.67299 8.590 ft 32.8874 psi 288.0 psi X -X Axis Reaction Base Top Printed 30 MAR 2009, 10:44AM .1 Storage\ CornerstonelEngineering \Verizonl 09 Jobs \09 -55130 WA1 Ediz Hook LTE ModlCalcslwa1 ediz hook.ec6 ENERCALC, INC. 1983 -2008, Ver 6.0.21 Axial 1,600 0 ksi 67370 1 ✓Maximum SERVICE Lateral Load Reactions Z Top along Y Y 0 17266 k Bottom along Y Y 0 17266 k NDS Eq. 3.9 -3 Top along X -X 0 0 k Bottom along X -X 0.0 k 4.2662 ft Maximum SERVICE Load Lateral Deflections Along Y Y 0.58051 in at 0 43349 k for load combination W Only 0.37077 k ft 0 0 k -ft Along X -X 0.0 in at 2,484.0 psi for load combination n/a lther Factors used to calculate allowable 4)-11410 +D +W +H T Cf or Cv Size based factors Wood Section Name Wood Grading /Manuf. Wood Member Type Exact Width Exact Depth Area Ix ly Maximum Axial Bendina Stress Ratios Stress Ratio Status Location PASS PASS PASS PASS PASS PASS PASS Ct Temperature Factor Cfu Flat Use Factor Kf Built -up columns Use Cr Repetitive Brace condition for deflection (buckling) along columns X -X (width) axis Fully braced against buckling along X -X Axis Y Y (depth) axis Fully braced against buckling along Y Y Axis OOft 0.0 ft 0.0 ft 4.2662 ft 4.2662 ft 4.2662 ft 4.2662 ft Title WA1 Ediz Hook Dsgnr TVL Project Desc. Project Notes 1.50 in 3.50 in 5.250 inA2 5.3594 inA4 0.98438 inA4 Service loads entered Load Factors will be applied for calculations. 0.0 0.0 0.0 0 11419 3.085644 3085644 0 11419 Y Y Axis Reaction Base Top 0.173 -0.173 Allowable Stress Modification Factors Cf or Cv for Bending 1.50 Cf or Cv for Compression 1 150 Cf or Cv for Tension 1.50 Cm Wet Use Factor 1 0 Code Ref 2006 IBC, ANSI AF &PA NDS -2005 2x4 Graded Lumber Sawn 4.3238 ft above base 0.0 ft above base Job 09 55130 stresses Bendina Compression Tension 1.500 1 150 Maximum Shear Ratios Stress Ratio Status Location PASS PASS PASS PASS PASS PASS PASS 8.590 ft 8.590 ft 8.590 ft 8.590 ft 8.590 ft 8.590 ft 8.590 ft Note: Only non -zero reactions are listed m 10 1 0 1 0 NDS 15. .2 No (ron- glbonly) Project: WA1 Ediz Hook Date: May 5 2010 Client Vertzon Prepared By T Le CEI No 09 -55130 REV 1 Page 32 16928 Woodinville Redmond Rd NE, Suite 210 Woodinville, WA 98072 Email eei@cornerstone-engr.com Web www cornerstone -engr coin Antenna Sector Frame Mast Design {Northeast Corner CORNERSVONE E N G I N E E R I N G NC. Phone: (425) 487 1732 (206) 250-7306 Fax. (425) 487 1734 project WAS ED 12. H otU E CORN ERE1rDN E location PORT ANR WA E N G N E E R I N G NE VAR 1 `O client VER N N>JTENNA SEe Tai FRAME MAST PESh5W ANTEA1N%1 CoA1 FIG ug iiW `I p Xx- sTRo,NG► PIPE (v S') (I) BXA -Soo b'/9f 4-NT (I) BXA /3540 3 /0eF ANT (0 bA J00k3 /BeF RItiy St:rTR /1UORl r MI sG MTERAL b011-PS S'e Uwe Ev 0,160J b No (qoo Ibr) 6.4 Id D,.{-0 (9Do Iif) WIND FA 1 1/ 4 1 /vi )94 949 Ib.9 f-19 r; 7-00 11r 1" t 1 x D 0/5 1,0 b K t, H 74 0, t Z I, 0 OTC �A1L wEl6HT 6,90 2`} to 29 /50 It W =900 161 Ib Tv (date 5/31/0 (checked 1 date WIND AREA 2,f 4,Y Aw_I` PAZ .Ev Nye 14, Eq 366 Ibi sheet no. i t (5 9" fx rrpo v 6 PIP- To (PPP�T A/4 AiTe S FRAME CEI job no. 01-^53.130 E CcRNELE r 1rONE ENGINEERING, INC. Lic. KW- 06006053 License Owner CORNERTSTONE ENGINEERING INC. Steel Beam Design Description REVISED 4' XX- STRONG PIPE MAST DESIGN (Northeast Corner) Material Properties Analysis Method Allowable Stress Design Beam Bracing Completely Unbraced Bending Axis Major Axis Bending Load Combination 2006 IBC ASCE 7 -05 Span 10.50 ft Pipe4 XX- Strong Applied Loads Load(s) for Span Number 2 Point Load W= 070k 100ft __DESIGN SUMMARY Maximum Bending Stress Ratio Section used for this span Mu Applied Mn Omega Allowable Load Combination Location of maximum on span Span where maximum occurs Maximum Deflection Max Downward L +Lr +S Deflection Max Upward L +Lr +S Deflection Max Downward Total Deflection Max Upward Total Deflection Maximum Forces.& Stresses for Load-Combinations Load Combination Max Stress Ratios Segment Length Span M V Mmax Overall MAXimum Envelope Dsgn. L 10.50 ft Dsgn. L 13.00 ft +D+L+H Dsgn. L 10.50 ft 1 Dsgn. L 13.00 ft 2 +D+Lr +H Dsgn. L 10.50 ft 1 Dsgn. L 13.00 ft 2 +D +W+H Dsgn. L 10.50 ft Dsgn. L 13.00 ft +D+0.750Lr+0.750L+0.750W+H Dsgn. L 10.50 ft Dsgn. L 13.00 ft +D+0 750L+0.750S+0.750W+H Dsgn. L 10.50 ft Dsgn. L 13.00 ft +0.60D +W+H Dsgn. L 10.50 ft Dsgn. L 13.00 ft Overall Maximum Deflections Unfactored Loads Load Combination W Only Span 1 2 Title WA1 Ediz Hook Dsgnr TVL Project Desc. Project Notes Pr nted. 5 MAY 2010. 8:03AM le: Z:1 Storage\ Cornerstone \Engineering\Verizon1 09109 -55130 WA1 Ediz Hook LTE Mod\Calcslwal ediz hook.ec6 ENERCALC, INC. 1983 -2009. Ver: 6.1.00 Span 13.0 ft Pipe4 XX- Strong Maximum Shear Stress Ratio Pipe4 XX- Strong 3 Section used for this span 7 000 k -ft 16.592 k -ft +D +W +H 10.500ft Span 1 0 000 in 0 000 in 2 655 in -0.203 in Ratio Ratio Ratio Ratio 0 <180 0 <180 116 621 Summary of Moment Values Calculations per IBC 2006, CBC 2007 13th AISC Fy Steel Yield 35 0 ksi E. Modulus 29 000 0 ksi Service loads entered. Load Factors will be applied for calculations. Vu Applied Vn /Omega Allowable Load Combination Location of maximum on span Span where maximum occurs 1 wrrl 71 Job 09 -55130 Pipe4 XX- Strong T 0 70 k 48 036 k +D +W +H 10.500 ft Span 1 Summary of Shear Values Mmax Ma Max Mnx Mnx /Omega Cb Rm Va Max Vnx Vnx /Omega 1 0.422 0.015 -7.00 7.00 27.71 16.59 1.00 1.00 0.70 80.22 48.04 2 0.422 0.015 -7.00 7.00 27.71 16.59 1.00 1.00 0 70 80.22 48.04 0.000 27 71 16.59 1.00 1.00 -0.00 80.22 48.04 0.000 27 71 16.59 1.00 1.00 -0.00 80.22 48.04 0.000 27 71 16.59 1.00 1.00 -0.00 80.22 48.04 0.000 27.71 16.59 1.00 1.00 -0.00 80.22 48.04 1 0 422 0.015 -7.00 7.00 27 71 16.59 1.00 1.00 0.70 80.22 48.04 2 0.422 0.015 -7.00 7.00 27 71 16.59 1.00 1.00 0.70 80.22 48.04 1 0.316 0.011 5.25 5.25 27.71 16.59 1.00 1.00 0.53 80.22 48.04 2 0.316 0.011 5.25 5.25 27.71 16.59 1.00 1.00 0.53 80.22 48.04 1 0.316 0.011 5.25 5.25 27 71 16.59 1.00 1.00 0.53 80.22 48.04 2 0.316 0.011 5.25 5.25 27 71 16.59 1.00 1.00 0.53 80.22 48.04 1 0.422 0.015 -7.00 7.00 27.71 16.59 1.00 1.00 0.70 80.22 48.04 2 0.422 0.015 -7.00 7.00 27 71 16.59 1.00 1.00 0.70 80.22 48.04 Max. Defl Location in Span Load Combination Max. Defl Location in Span 0.0000 0.000 W Only 0.2027 6.138 2.6553 13.000 0.0000 6.138 Lic. KW- 06006053 License Owner CORNERTSTONE ENGINEERING INC. Steel Beani Design Description REVISED 4' XX- STRONG PIPE MAST DESIGN (Northeast Corner) Maximum Deflections for Load Combinations Unfactored Loads Load Combination Span Max. Downward Defl Location in Span Vertical Reactions Unfactored Load Combination Support 1 Support 2 Support 3 Overall MAXimum -0.667 1.367 W Only -0.667 1.367 Steel Section Properties Depth Diameter Wall Thick Area Weight Ycg W Only BEAM- 0.7 0.4 BEAM- -0.3 -0.7 C al----- C0RN ERS Irct NE E N G I N E E R I N G I N C. B Ove •Il MA %:mum E. 2 2.6553 13.000 Pipe4 XX- Strong 4.500 in I xx S xx 4.500 in R xx 0.628 in Zx 7.640 inA2 Iyy 27.600 plf S yy R yy 2.250 in I I 1 I I I I 1 1 I I I 02 BEAM- -0.5 •1.3 -2.0 •2.7 Printed: 5 MAY 2010. 8 03AM :le: Z:1 Storage) Cornerstone ),En6ineering \Veriion \J0 9109- 55 1 30.WA1 Ediz Hook LTE ModlCalcs1wa1 ediz hook.ec6 ENERCALC, INC. 1983 -2009, Ver 6.1.00 Title WA1 Ediz Hook Dsgnr TVL Project Desc. Project Notes Support notation Far left is #1 14.70 inA4 6.53 inA3 1.390 in 9.500 inA3 14 700 inA4 6.530 inA3 1.390 in Distance (ft) Ov all MAX..... Ea W O•ly 1 1 Max. Upward Defl 0.0000 J Location in Span 0.000 Values in KIPS 29 400 inA4 Job 09 -55130 2.18 4,44 6.78 9.05 11.20 13.50 15.80 18.10 20.40 22.70 Distance (ft) +D +I +H It +D +l +H +D +W +H +0+0.751/L +D.75DW +H 8 +D +0.7501 +0.75DS+D.75DW +H +0.601)+W +M 2.18 4.44 6.78 9.05 11.20 13.50 15.80 18.10 20.40 22.70 Distance (ft) Ova II MA%:m.m E +D +L+0 +D +L +H +D +1 ♦M +D +0.75DL +15.750W +H 4 +D +13.7SDl +D.75135+0.750W•H +0.6DD+W +11 2.18 4.44 6.78 9.05 1120 13.50 15.80 18.10 20.40 22.70 CORNERS1rONE E N G I N E E R N G I N C project location client CANTILEVERED PI OT CONNEG Tl0A/ gs1014 E 4 v A x in l 1, Da 1 1=v ry /0.0 kr, z4 tit/9 k/T /OPIUM >r It ft 2 kJ/ 6004) (zy.,o12` /)f /2 ")f S® /a (600411 /0 42c/ 1lr0) 0,60 +FA=fr -f ±EN ±f TRy 1 2. l0 1f.47 Bel-Ts (11= 4= AM AO by date checked date Fr x lnl X Er Ent± /0, MAX KEA CVAIS x 41-A 0,37 1, v V- w ±Ev 9 as tool f OK Us E 1 12"0 A !M -Ts FDA A.1-1 'r1 EL- TD !'T"ECL COMM—GPO/01 Cantilever Mast Reactions (Northeast Corner) Load Combination 1.ODL 0.7E> Wg 900 00 Ibs 0 7Eh 252.00 Ibs 0 7Ev 100.80 Ibs FT I 549 19 Ilbs FB =1 297 19 Ilbs V =I 1000.80 IIbs Load Combination <0 6DL 4/ 0 7E> 0 6Wg 540 00 Ibs 0 7Eh 252 00 Ibs 0 7Ev 100.80 Ibs FT =I 528.62 Ilbs 1 FB =I 276 62 Ilbs 1 V =I 640.80 Ilbs 1 Wg 900.00 Ibs -0 7Eh 252.00 Ibs 0 7Ev 100.80 Ibs FT =I 434.81 Ilbs FB 1 182.81 Ilbs V =I 1000.80 Ilbs 0 6Wg 540 00 Ibs -0 7Eh 25200 Ibs 0 7Ev 100.80 Ibs NOTE FT =I 455.38 Ilbs FB I 203.38 Ilbs V =I 640.80 Ilbs Wg 900 00 Ibs 0 7Eh 252.00 Ibs -0 7Ev 100.80 Ibs If FT is postive tension If FT is negative compression If FB is negative, then tension If FB is positive, then compression FT =I 537 67 Ibs I FB I 285 67 Ibs I V =1 799.20 Ibs 1 Job 09 -55130 Eng. TVL Client: VERIZON Wg 900 00 lbs -0 7Eh 25200 lbs -0 7Ev 100.80 lbs 0 6Wg 540.00 lbs 0 6Wg 540 00 Ibs 0 7Eh 252 00 Ibs -0 7Eh 252 00 lbs -0 7Ev 100.80 lbs -0 7Ev 100.80 lbs FT =I 517 10 Ilbs 1 FT =I 466.90 Ilbs FB =I 265 10 Ilbs 1 FB =I 214 90 Ilbs V 439.20 Ilbs 1 V =1 439.20 Ilbs FT =1 446.33 Ilbs FB =1 194.33 Ilbs V =1 799.20 I Ibs FT FB x 0 6 in y 20.5 in d 10.5 in TMAX 549 19 VMAX 1000.80 CMAX 466 90 D Cantilever Mast Reactions (Northeast Corner) Load Combination 1.0DL 1 OWL> Wg 900 00 lbs WL 700.00 lbs FT I 1418 10 Ilbs 1 FB =1 718 10 Ilbs 1 V =1 900 00 Ilbs Load Combination <0 6DL +1 1.OWL> 0 6Wg 540 00 lbs 0 6Wg 540.00 lbs WL 700 00 lbs WL 700.00 lbs FT =I 1397.52 Ilbs 1 FB I 697 52 Ilbs 1 V =I 540.00 Ilbs 1 Wg 900 00 Ibs WL 700 00 lbs FT I 1315.2411bs FB 615.24 Ilbs V 900.00 Ilbs *NOTE FT =I 1335.81 I Ibs FB 635.81 Ilbs V 540.00 Ilbs If FT is postive tension If FT is negative compression If FB is negative, then tension If FB is positive, then compression X Y= d Job 09 -55130 Eng: TVL Client: VERIZON F T FB 0 6 in 20 5 in 10.5 in TMAX 1418.10 V MAX 900 CMAX 1335.81 Page 11 of 14 TABLE 9 -KB -T2 CARBON AND STAINLESS STEEL ALLOWABLE SEISMIC TENSION (ASD), NORMAL-WEIGHT CRACKED CONCRETE, CONDITION B (pounds)''' Concrete Compressive Strength' 1 f'c 3,000 psi f'c 6,000 psi Nominal Embedment N f'c 2,500 psi Anchor Depth Diameter (In.) Carbon Stainless steel steel 3/8 2 1006 1 1037 1/2 2 1,065 1 1,212 I 31/4 2,178 1 2,207 5/8 31/8 2,081 1 2,081 4 3,014 1 2,588 3/4 3 3/4 2,736 I 3,594 4 3/4 3,900 1 3,900 3/8 11 1/2 5/8 3/4 Carbon steel 1 102 1 167 2,386 2,280 3,301 2,997 4,272 999 2,839 4,678 6,313 Stainless steel 1 136 1,328 2,418 2,280 2,835 3,937 4,272 For SI: 1 Ibf 4 45 N 'Values are for single anchors with no edge distance or spacing reduction due to concrete failure. 1 f'c 4,000 psi Carbon steel 1,273 1,348 2 755 2,632 3,812 3,460 4,933 For SI: 1 Ibf 4 45 N, 1 psi 0.00689 MPa For pound -inch units: 1 mm 0.03937 inches 'Values are for single anchors with no edge distance or spacing reduction. For other cases, calculation of Rd as per ACI 318 -05 and conversion to ASD in accordance with Section 4.2.1 Eq. (5) is required. 2 Values are for normal weight concrete. For sand lightweight concrete, multiply values by 0.60. 'Condition B applies where supplementary reinforcement in conformance with ACJ 318 -05 Section D 4.4 is not provided, or where pullout or pryout strength governs. For cases where the presence of supplementary reinforcement can be verified, the strength reduction factors associated with Condition A may be used. TABLE 10 -KB -T2 CARBON AND STAINLESS STEEL ALLOWABLE SEISMIC SHEAR LOAD (ASD), (pounds)' Nominal Allowable Steel Capacity, Seismic Shear Anchor Diameter Carbon Steel Stainless Steel 1,252 3,049 5,245 6,477 Stainless steel 1,312 1,533 2,792 2,632 3,274 4,546 4,933 ESR -1917 Carbon steel 1,559 1,651 3,375 3,224 4,669 4,238 6,042 Stainless steel 1,607 1,878 3,419 3,224 4 010 5,568 6,042 ofA Page 10 of 14 ESR -1917 Nomina Embedment Anchor Depth h Diameter (in.) Carbon steel 3/8 1 2 1 1,054 1 2 1 1,116 31/4 2,282 31/8 2,180 4 I 3,157 3 3/4 2,866 4 3/4 1 4,085 1/2 5/8 3/4 TABLE 7 -KB -T2 CARBON AND STAINLESS STEEL ALLOWABLE STATIC TENSION (ASD), NORMAL WEIGHT CRACKED CONCRETE, CONDITION B (pounds) Concrete Compressive Strength' f'c 2,500 psi Stainless steel 1 086 1.476 j 2,312 2 180 2 711 3,765 4 085 p Carbon steel 1 155 1,223 2,500 2,388 3,458 3,139 4 475 1'c 3,000 psi Stainless steel 1190 1 617 2,533 2,388 2,970 4 125 4 475 Carbon steel 1,333 1 412 2,886 2,758 3,994 3,625 5 168 f'c 4,000 psi For SI: 1 Ibf 4.45 N 1 psi 0.00689 MPa For pound inch units: 1 mm 0.03937 inches 'Values are for single anchors with no edge distance or spacing reduction. For other cases, calculation of Rd as per ACI 318 05 and conversion to ASD in accordance with Section 4.2.1 Eq (5) is required. 2 Values are for normal weight concrete. For sand lightweight concrete, multiply values by 0.60. Condition B applies where supplementary reinforcement in conformance with ACI 318 -05 Section D.4.4 is not provided, or where pullout or pryout strength governs. For cases where the presence of supplementary reinforcement can be verified, the strength reduction factors associated with Condition A may be used. TABLE 8 -KB -T2 CARBON AND STAINLESS STEEL ALLOWABLE STATIC SHEAR LOAD (ASD), (pounds) Nominal Allowable Steel Capacity, Static Shear Anchor Dlameter Carbon Steel Stainless Steel 3/8 1 1,669 2,661 1/2 I 2.974 3,194 5/8 I 4,901 5 495 3/4 I 7,396 9,309 For SI: 1 lbf 4 45 N 'Values are for single anchors with no edge distance or spacing reduction due to concrete failure. Stainless steel 1,374 1,868 2,925 2,758 3,430 4 763 5 168 Carbon steel 1,633 1 729 3,535 3,377 4,891 4 440 6,329 l'c 6,000 psi Stainless steel 1,683 2,287 3,582 3,377 4,201 5,833 6,329 E TCOFrSJEFI1rDNE E N G N E E R N G N C project EDI 14- oak location PORT A-NO ALES WA client S rtR►nClughL LATED PANEL Ct1E6K S 6 3 go 0 206 in 3 1.3fisiox 2' 0, 62) I'x t A2. I x o k4S�n ,S in IbY TvL-- date g7?_,/ 1 cherked 1 date kei M N x y rekki 17 Piy wodp sl8" PlvWaop t CEI job no. 09-53 M 13 CORNERSTONE C E N G I N E E R N G, NC Ak/i, l)I FT 5UGT74V OF WALL P 7 5 ,L PANEL BtIJP /A/6 C HEeK 1339!0 /b ,fro 26 06 in PANEL, SN ,4R Ci/E k project location client pp YMAX A-ra Al +At 6`10 it, h,s s;na fv 1 by 1 date 'checked 1 date sheet no. CEI job no. P fr /3 /9/1 4✓ h ftf 3 /if ww� 0110/1-0(e) 'l V fir VMA wWL /z P)(4 /.1 h 0`l,9 ')(n s') /2 (0 c °r I I bs Mr -x w4L. x /8 P4 1 (Mg p4c)(11-0 /8 1- (P3100)lo ®.r) //is /I/ T /6 14 13 41'6 (b ,n 4 i99 f F d Ft- oK (F) $1RU TURAE IN.suI PANEL is ApCO(.∎ TO St(ppIRT PRoQasell tv7tNN4 5Ctyag f ,14r 2.2 Trial Section Since in many cases the core thickness will be determined by requirements for insulation rather than for strength, the suggested design method is to select a given construction and to check it for all possible modes of failure under the design loads. Also see the note in Section 2 1 2.2.1 Plywood Faces Figure Approximate Plywood Area Required. Having the design loads w and P the required parallel -grain plywood area is determined by A� A 2 Fc 2.2.2 Core Determine Core Thickness. 2.3 Neutral Axis Find Neutral Axis A1(h- 2) A2(2) Y A A -.s A, Neutral Axis A 2.4 I and S For simply supported end conditions, the maximum bending Find Moment of Inertia and Section Modulus. moment (in. -lb per foot of panel width) is A c) 128E 2 1 5wL 1 M 4(A� A To obtain the approximate core thickness required assume that A A2 A. Then the section modulus 21 A(h c) S h 4h This equation can be most easily solved by assuming values of c. The value of c thus obtained usually will be too low for insu- lation and deflection purposes. A minimum c of 3 -1/2 is suggested for load bearing wall panels subjected to wind loads. With trial values of c, A A2 and h, the panel may be checked for all possible modes of failure. 6 1 1 S1= h -y S 2= 2.5 Column Buckling Determine Column Buckling Load. n 2 EI Pcr n2EI (12L) 1 (12L) x 6(h c)G t, t c h C 1993 APA The Engineered Wood Association ALLOV%J BLE STRESSES FOR PLYWOOD TABLE 3 ALLOWABLE STRESSES FOR PLYWOOD (psi) conforming to Voluntary Product Standard PS 1 -95 for Construction and Industrial Plywood. Stresses are based on normal duration of Toad, and on common structural applications where panels are 24" or greater in width. For other use conditions, see Section 3.3 for modifications. Type of Stress EXTREME FIBER STRESS IN BENDING (F TENSION IN PLANE OF PLIES (F Face Grain Parallel or Perpendicular to Span (At 45 to Face Grain Use 1/6 F COMPRESSION IN PLANE OF PLIES 1 F 2 Parallel or Perpendicular to Face Grain 3 (At 45 to Face Grain Use 1/3 F 4 SHEAR THROUGH THE THICKNESS( 1 Parallel or Perpendicular to Face Grain F 2. 3 (At 45 to Face Grain Use 2 F„) 4 ROLLING SHEAR (IN THE PLANE OF PLIES) Marine F Structural) Parallel or Perpendicular to Face Grain 5 (At 45° to Face Grain Use 1 1/3 F MODULUS OF RIGIDITY (OR SHEAR MODULUS) Shear in Plane Perpendicular to Plies (through the thickness) (At 45 to Face Grain Use 4G) BEARING (ON FACE) Perpendicular to Plane of Plies 1 210 340 210 340 340 Fc1 2, 3 135 210 135 210 210 4 105 160 105 160 160 1 1 500,000 1 800 000 1 500,000 1 800 000 1 800,000 2 1 300 000 1 500,000 1 300,000 1 500,000 1 500,000 3 1 100,000 1 200 000 1 100,000 1 200,000 1 200,000 Face Grain Parallel or Perpendicular to Span 4 900,000 1 000 000 900,000 1 000 000 1 000 000 (1) See pages 12 and 13 for Guide. To qualify for stress level S -1 gluelines must be exterior and only veneer grades N. A, and C (natural, not repaired) are allowed in either face or back. For stress level S -2. gluelines must be exterior and veneer grade B, C- Plugged and D are allowed on the face or back. Stress level S -3 includes all panels with interior or intermediate (IMG) gluelines. (2) Reduce stresses 25% for 3 -layer (4 or 5 -ply) panels over 5/8' thick. Such layups are possible under PS 1 -95 for APA RATED SHEATHING, APA RATED STURD -I- FLOOR, UNDERLAYMENT, C -C Plugged and C -D Plugged grades over 5/8" through 3/4 thick. (3) Shear- through the thickness stresses for MARINE and SPECIAL EXTERIOR grades may be increased 33% See Section 3.8.1 for conditions under which stresses for other grades may be increased. MODULUS OF ELASTICITY IN BENDING IN PLANE OF PLIES 1 1430 2000 1190 1650 1650 Fb 2,3 980 1400 820 1200 1200 F t 1 70,000 90 000 70,000 90 000 82 000 2 60,000 75 000 60,000 75 000 68,000 G 3 50,000 60,000. 50,000 60,000 55 000 4 45 000 50 000 45,000 50,000 45 000 E Grade Stress Level( Species 5-1 S -2 S -3 Group of Dry Face Ply Wet Dry Wet Dry Only 4 r 940 1330 780 1110 1110! All Other( 16 970 1640 900 1540 1540 730 1200 680 1100 1 610 1060 580 990 990 610 1000 580 950 954 155 190 155 190 160 120 140 120 4' 140 120 110 130 110 130 1151 63 75 63 75. 44 53 44 53 48 1998 APA The Engineered Wood Association Fr o RNERSIrONE N E R I N G, N C. l "O A361 14-5OLT( TRY (`t) yz" (vALL 3oy9 16 m Ax l� /Dol J. o f 1.0 fV VYU- 3oaf9 /ir 6 USE (1) Vi", HILT/ To GoNNEGT MAsT UPPER MAST ON/JE 7)'OAJ DETAIL project location client fP4M A e 3" M1t1 LuWER MAST (AAfNE6T10R! 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CEI job no. f 55/1 11 Pit= lb, b 4 03 21oO /3s) sf'77oA /s comp/VT EcDRNEFRs1roNE E N G I N E E R I N G N C project location client Coal a FIN PES► f s TRy /t "Q A30? 60ofs TAW F W toe f(, �v 03010, w� 0 36 D D, K /0,19j1 is 2 Ft 20 0 /€r, 0,19 1 1 by 1 date 'checked date 0K OK USE Z'' f STD 01 7 .PIPE Fig Au_ MwTs i Z& rArl4f 4ND 112.#9e A30 BOLT' fdK CoaaEevaivs Prolett: WA1 Ediz Hook Date May 5 2010 Client: Verizon Prepared By T. CE1 No 09 -55130 REV 1 Page 5 1) Minimum Design Loads for Buildings and Other Structures, American Society of Civil Engineering (ASCE 7 -05) 2006 2) International Building Code (IBC 2006) International Code Council 2006 3) Manual of Steel Construction (ASD) American Institute of Steel Construction Inc, 9 Ed 1989 4) Structural Engineering Library Ver 6.0 EnerCalc Engineering Software 2008 5) Supplement Design Values for Wood Construction (NDS), American Wood Council 2005 Ed 6) For Wood Construction (NDS) American Wood Council 2005 Ed 16928 Woodinville- Redmond Rd NE, Suite 210 Woodinville, WA 98072 Email ceiCicornerstone -engr com Web• www cornerstone -engr corn References CORNERS1rONE E N G I N E E R I N G NC. Phone: (425) 487 1732 (206) 250-7306 Fax (425) 487 1734 V b M4-5r ;PLANS PREPARED BY CORNERS1PONE 111111 ENGINEERING INC 16928 WOODINVILLE REDMOND RD NE, SUITE 210 WOODINVILLE, WA 98072 PHONE. (425) 487 1732 FAX. (425) 487 1734 IIIIIIIIIIII ar (E) VERIZON SHELTER H _LJ AWINGS PREPARED FOR: veriLn wireless We newer ttap working for Ku. 350 ,n, 0uE 0008 MOTE' Mo o t F-( ►tea 12e4e-- As P -E ANT Na MAsr (E) CHAIN LINK FENCE WITH BARBED WIRE INC DFtK fill I IIIIIIIIfi `IK -2i 1-' (E) SHELTER 11 1111 11111+ MWO DRA :I (E) SELF SUPPORT TOWER ,DRAWING FILE NAME. DWG SCALE. WA1 EDIZ HOOK LTE 1/4".1-0 SITE PLAN ;APVD BY DRAWN BY :DWG NO: SK -1 PLANS PREPARED BY CORNERSVONE ENGINEERING INC 16928 WOODINVILLE- REDMOND RD NE, SUITE 210 WOODINVILLE, WA 98072 PHONE: (425) 487 1732 FAX. (425) 487 1734 t1/4107 e- WAD C5E4c Ho SE}oi„ i4 Foe. CLA Ty 7 _DRAWINGS PREPARED FOR: veri gp wireless Wo new stop waking keyvu. 9350 B VUE, A 1180 0 I MWO DRA PROPOSED ANTENNAS PROPOSED ANTENNA FRAME SK-4 4 "0 XX- STRONG PIPE MAST (SG Ft 120) PROPOSED UPPER ANTENNA MAST CONNECTION (E) WIRELESS SHELTER PROPOSED LOWER ANTENNA MAST CONNECTION PROPOSED CONCRETE FOOTING 18 "x18 "x12" DEEP _DRAWING FILE NAME DWG SCALE. WA1 EDIZ HOOK LTE PARTIAL EAST ELEVATION 1/4 -1 -0" APVD BY DRAWN BY DWG NO SK-2 1/2 "0 HILTI KB -TZ ANCHORS (TYP OF 4) PROPOSED FOOTING (18 "x18 "x12" DEEP) a 1/2 "0 A -307 U -BOLTS 3/16 V 1 E c ORN E R S1 r ON E I R I N G INEERING INC I 0 16928 WOODINVILLE REDMOND RD NE, SUITE 210 WOODINVILLE, WA 98072 PHONE. (425) 487 1732 FAX. (425) 487 1734 0 W N uJ 111 z 2 0 0 0 UPPER MAST CONNECTION 3' MIN ;PLANS PREPARED BY ,DRAWINGS PREPARED FOR: verizLn wireless 4 "0 XX- STRONG PIPE MAST (E) STRUCTURAL INSULATED PANEL L 3x3x1/4x36' LONG (TYP OF 3) L 3x3x1/4x36' LONG (BACKER) 1/2 "0 A307 BOLTS (TYP OF 3) 4 "0 XX- STRONG (E) STRUCTURAL PIPE MAST INSULATED PANEL II. a e d D D a o 4 Z 0 0 a 1. 6 6 a LOWER MAST CONNECTION I We new sev...k017 tar You. 3351 .n+ MWO DRA V., nvm (E) CONCRETE SLAB 0 G #4 DOWELS (12' LONG) W/ EPDXY (TYP OF 2) 49-our _DRAWING FILE NAME. ,uWG SCALE. WA1 EDIZ HOOK LTE CONNECTION DETAILS 3' =1' -0" ;APVD BY „DRAWN BY „DWG NO: SK-3 ;PLANS PREPARED BY Si�E� -IeiZ. 0 w c2 z 0 O N w W O cc 0 0 0 0 w h CORNERSTONE ENGINEERING INC 16928 WOODINVILLE REDMOND RD NE, SUITE 210 WOODINVILLE, WA 98072 PHONE. (425) 487 1732 FAX. (425) 487 1734 I A 3' -0" 3' C We ntner stay ...WOW Y. 33.50 913008 A -A veriQjn wireless 5 1/4" 1 1/2 ANTENNA SECTOR FRAME 1' -6" CONCRETE FOOTING 10 1/2" 3' -0' r #4 DOWEL (12" LONG) EPDXY (TYP OF2) 2' 3' BASE PLATE CONNECTION DETAIL 1/2 "0 U -BOLT (TYP) ,DRAWINGS PREPARED FOR: --DRAWING FILE NAME. WA1 EDIZ HOOK LTE CONNECTION DETAIL AND ANTENNA FRAME ;APVD BY ,DRAWN BY PIPE TRANSFER KIT VALMONT MICROFLECT #B2511 (TYP) MWO DRA PIPE TRANSFER KIT VALMONT MICROFLECT #B2508 (TYP) 2 "0 STD WT PIPE MAST (TYP) 4 1/2" O.D. PIPE MAST SCALE. 1/7=1 SCALE. 1 1 /2 =1' -0' DWG SCALE. VARIES :DWG NO: SK-4