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Home My WebLink About2011-09-06 Planning Board Supplemental Materials (63) TAB 7 ❑� AFUR MAXIMUM PERMISSIBLE communications EXPOSURE STUDY at&t Site Number: MA3469 Site Name: AWE-912008007 Latitude: 42.70776111 Longitude: -71.1143 Address: 723 Osgood Street, North Andover, MA 01845 Conclusion: AT&T's proposed antenna installation is calculated to be within the FCC Standard for Uncontrolled(General Public and Controlled(Occupational Maximum Permissible Exposure (MPE). Prepared by: SAI Communications 260 Cedar Hill Street Marlborough, MA 01752 508-573-5407 Date of Report: June 7, 2011 Table 0fContents Introduction.................................. ...................................................... .......................................................3 RFExposure Prediction Method.............. .......... ............................. ......................................................3 CaseSummary....................... ......................................... ............................................... .....................4 RIFDesign Specifications....................................... ..................... ........... ...............................................4 FCCGuidelines.......................-........................... ....... ..... ...................... ...... .....................S FCCRF ExposureLimits........ ......................................... .............................................. ........................6 CalculationResults~~~.— .............................. ............. ............................................... .......................7 StatementnfCertification........................................... .................................... ......... ...............................8 Introduction SAI Communications has conducted this theoretical analysis for AT&T, to ensure that the proposed radio facility complies with Federal Communications Commission (FCC) regulations. This report will show that, through the use of FCC suggested prediction methods, the radio facility in question will be in compliance with all appropriate Federal regulations in regards to Radio Frequency (RF) Exposure. RF Exposure Prediction Method Power Density is calculated in accordance with FCC OET Bulletin 65 formula (7): 2.56 * 1.64 a ERP,.ei S = z 4*n*R R V _�. Va ICalculation Point Vp H J Ground Level Where: S = Power Density ERP,ei= Effective Radiated Power relative to antenna pattern R = Radial distance =V—H2 + Vz H = Horizontal distance from antenna V =Vertical distance from antenna = Va—Vb Va =Antenna height above ground Vb = Calculation height above ground = 6ft Page 3 -- Case Summary The proposed radio facility will have a radiation center of 88ft located at the following geographic coordinates: Latitude: 42.70776111 Longitude: -71.1143 See sketch below for specific property location. o" R c a y 0 � p r q � v MA 3469-AWE-912006007 STEVENS ESTATE ay F 0{ 9 ^l. Y b . p J +fid `A MAao�ol RF Design Specifications AT&T Mobility is planning to install 1 panel antenna per sector, for LTE Technology, with azimuths of 70-190-310 for alpha-beta-gamma sectors. Table below shows the technical data used for the calculation. GSM1900 UMTS850 I UMTS1900 LTE700 LTE2100 Antenna Type: Kathrein Kathrein Kathrein 800-10121 800-10121 800-10766 Antenna Gain(dBd) 14.35 11.35 14.35 13.75 15.65 Rad Center, AGL(ft) 88 88 88 88 88 ERP(d8m) 55.35 56.35 59.35 58.75 60.65 No of Radios 3 1 2 1 1 — — Page 4 FCC Guidelines Table 1. MPE Limits for General Population/ Uncontrolled Exposure Magnetic Electric Field Power Averaging Time for Frequency Range Strength Density �Ej2, IHI2 , or S (MHz) (V/m) LStField rAl gth (mW<cm2) (Minutes) 0.3 - 1.34 614 1.63 100 * 30 1.34-30 824/f 2.19/f180/fZ * 30 30-300 27.5 0.073 0.2 30 300- 1500 — ff1500 30 1500— 100,000 1.0 30 f=frequency in MHz ` = Plane wave equivalent ower density General populationluncontrolled exposures apply in situations in which the general public may be exposed, or in which persons that are exposed as a consequence of their employment may not be fully aware of the potential for exposure or can't exercise control over their exposure. Table 2.MPE Limits for Occupational/Controlled Exposure Power Averaging Time Frequency Range Electric Field Magnetic Field z z (MHz) Strength (V/m) Strength (A/m) Densit z for JET , �H� or mW/cm S Minutes 0.3-3.0 614 1.63 (100 * 6 3.0-30 F 1842/f 4.89/f I900/f2)* 6 30-300 61.4 0.163 11 1.0 6 300—1500 11 11--noo 6 1500— 100,000 00L 5.0 6 f=frequency in MHz ' = Plane wave equivalent power density OCCOpational/controlled limits apply in situations in which persons are exposed as a consequence of their employment provided those persons are fully aware of the potential for exposure and can exercise control over their exposure. Limits for occupational/controlled exposure also apply in situations when an individual is transient through a location where such occupational/controlled limits apply provided he or she is made aware of the potential for exposure. Page 5 FCC RF Exposure Limits FCC MPE LIMITS (mW/cm') EXPOSURE ENVIRONMENT AT&T FREQUENCY BANDS `..�.,�"" Cellular PCS General Public Uncontrolled 0.59 1.0 Occupational Controlled 2.93 5.0 1,000 —OccupationaliControlletl Exposure -----General PopulatieniUncontrolled Exposure 100 --- ---- E \ E \ \ 10 --- %{ --- — --- N \ d { O \ 6 \ \ ' 0 0 1 10 100 1,000 10,000 100,000 Frequency, MHz Maximum Permissible Exposures. OccupationallControlled and General Population/Uncontrolled MPE's are functions of frequency. Page 6 Calculation Results (6ft AGL) The following charts show the graphical representation of the calculated AT&T contribution on power density levels and % MPE at 6ft above ground, as horizontal distance from antenna increases. The calculations take into account the vertical pattern of the antennas and represent the immediate direction of each sector azimuth within the antenna horizontal beamwidth. The calculations also assume line of site to the antennas and the result will be lower if measured indoor due to in-building penetration loss. Power Density and %MPE 10 I A 1 E v — 3 E 0.001 ---- -- —GsMtsoo 3 W —UMTs850 00001 —UMTs1900 L N —LTE700 m O —LTE21 0.00001 - 00 f 0 c i a 1E-C -- 1 10 100 1000 10000 Horizontal Distance from Antenna,ft 1000.0000% 1000000r - IPeak(Une ntrolled/General Public),36. 0875f,0 3782% 10.0000% - -- - -' LU Peak(Controlled/omuq� onal), 1 36.50875ft,0.0756/ 1.0000% -- -- o i —Unconimlled —Controlled R F 0.1000% i _Llmit peak 00100% -- 00010% -- 0.0001% 1 Ito l mo loon 10000 Horizontal Distance from Antenna,ft — Page 7 Statement of Certification I certify to the best of my knowledge that the statements contained in this report are true and accurate. The theoretical computations contained are based on FCC recommended methods, with industry standard assumptions&formulas, and complies with FCC mandated Maximum Permissible RF Exposure requirements. A comprehensive field survey was not performed prior to the generation of this report. If questions arise regarding the calculations herein, SAI Communications recommends that a comprehensive field survey be performed to resolve any disputes. June 7, 2011 Sanket Y Joshi Date SAI Communications Page 8