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Home My WebLink AboutMCUP 09-04; T-MOBILE SD06915 POINSETTIA VILLAGE; RADIO FREQUENCY AND POWER DENSITY SPECIFICATIONS; 2007-08-30The maximum public RF exposure from this TM facility was calculated to be less than 7.2 µW/cm2 ( i.e., ~0.7% of the public safety standard at 1,850 MHz). Exposure details are shown in appendix A. A sign conforming to with ANSI C95.2 color, symbol and content, and other markings as appropriate, should be placed close to the antennas with appropriate contact information in order to alert maintenance or other workers approaching the antenna to the presence of RF transmissions and to take precautions to avoid exposures in excess of FCC limits. RF Safety Standards The two most widely recognized standards for protection against RF field exposure are those published by the American National Standards Institute (ANSI) C95. l and the National Council on Radiation Protection and measurement (NCRP) report #86. The NCRP is a private, congressionally chartered institution with the charge to provide expert analysis of a variety of issues ( especially health and safety recommendations) on radiations of all forms. The scientific analyses of the NCRP are held in high esteem in the scientific and regulatory community both nationally and internationally. In fact, the vast majority of the radiological health regulations currently in existence can trace their origin, in some way, to the recommendations of the NCRP. All RF exposure standards are frequency-specific, in recognition of the differential absorption of RF energy as a function of frequency. The most restrictive exposure levels in the standards are associated with those frequencies that are most readily absorbed in humans. Maximum absorption occurs at approximately 80 MHz in adults. The NCRP maximum allowable continuous occupational exposure at this frequency is 1,000 µW/cm2. This compares to 5,000 µW/cm2 at the most restrictive of the PCS frequencies (~1,800 MHz) that are absorbed much less efficiently than exposures in the VHF TV band. The traditional NCRP philosophy of providing a higher standard of protection for members of the general population compared to occupationally exposed individuals, prompted a two-tiered safety standard by which levels of allowable exposure were substantially reduced for "uncontrolled " ( e.g., public) and continuous exposures. This measure was taken to account for the fact that workers in an industrial environment are typically exposed no more than eight hours a day while members of the general population in proximity to a source of RF radiation may be exposed continuously. This additional protection factor also provides a greater margin of safety for children, the infirmed, aged, or others who might be more sensitive to RF exposure. After several years of evaluating the national and international scientific and biomedical literature, the members of the NCRP scientific committee selected 931 publications in the peer-reviewed scientific literature on which to base their recommendations. The current NCRP recommendations limit continuous public exposure at PCS frequencies to 1,000 µW/cm2 • The 1992 ANSI standard was developed by Scientific Coordinating Committee 28 (SCC 28) under the auspices of the Institute of Electrical and Electronic Engineers (IEEE). This standard, entitled "IEEE Standards for Safety Levels with Respect to Human Exposure to Radio Frequency Electromagnetic Fields, 3 kHz to 300 GHz" (IEEE C95.l-1991), was issued in April 1992 and subsequently adopted by ANSI. A revision of this standard (C95.l-2005) was completed in October 2005 by SCC 39 the IEEE International Committee on Electromagnetic Safety. Their recommendations are similar to the NCRP recommendation for the maximum permissible exposure (MPE) to the public PCS frequencies (950 µ W/cm2 for continuous exposure at 1,900 MHz) and incorporates the convention of providing for a greater margin of safety for 2 public as compared with occupational exposure. Higher whole body exposures are allowed for brief periods provided that no 30 minute time-weighted average exposure exceeds these aforementioned limits. On August 9, 1996, the Federal Communications Commission (FCC) established a RF exposure standard that is a hybrid of the current ANSI and NCRP standards. The maximum permissible exposure values used to assess environmental exposures are those of the NCRP (i.e., maximum public continuous exposure at PCS frequencies of 1,000 µ W /cm2 ). The FCC issued these standards in order to address its responsibilities under the National Environmental Policy Act (NEPA) to consider whether its actions will "significantly affect the quality of the human environment." In as far as there was no other standard issued by a federal agency such as the Environmental Protection Agency (EPA), the FCC utilized their rulemaking procedure to consider which standards should be adopted. The FCC received thousands of pages of comments over a three-year review period from a variety of sources including the public, academia, federal health and safety agencies ( e.g., EPA & FDA) and the telecommunications industry. The FCC gave special consideration to the recommendations by the federal health agencies because of their special responsibility for protecting the public health and safety. In fact, the maximum permissible exposure (MPE) values in the FCC standard are those recommended by EPA and FDA. The FCC standard incorporates various elements of the 1992 ANSI and NCRP standards which were chosen because they are widely accepted and technically supportable. There are a variety of other exposure guidelines and standards set by other national and international organizations and governments, most of which are similar to the current ANSI/IEEE or NCRP standard, figure one. The FCC standards "Guidelines for Evaluating the Environmental Effects of Radio frequency Radiation" (Report and Order FCC 96-326) adopted the ANSI/IEEE definitions for controlled and uncontrolled environments. In order to use the higher exposure levels associated with a controlled environment, RF exposures must be occupationally related ( e.g., PCS company RF technicians) and they must be aware of and have sufficient knowledge to control their exposure. All other environmental areas are considered uncontrolled (e.g., public) for which the stricter (i.e., lower) environmental exposure limits apply. All carriers were required to be in compliance with the new FCC RF exposure standards for new telecommunications facilities by October 15, 1997. These standards applied retroactively for existing telecommunications facilities on September 1, 2000. The task for the physical, biological, and medical scientists that evaluate health implications of the RF data base has been to identify those RF field conditions that can produce harmful biological effects. No panel of experts can guarantee safe levels of exposure because safety is a null concept, and negatives are not susceptible to proof. What a dispassionate scientific assessment can offer is the presumption of safety when RF-field conditions do not give rise to a demonstrable harmful effect. Summary & Conclusions This proposed PCS facility as specified above will be in full compliance with FCC RF public safety standards. PCS transmitters, by design and operation, are low-power devices. Even under maximal exposure conditions in which all the channels from all antennas are operating at full power (800 watts ERP per sector), the maximum exposure from this facility will not result in power densities in excess of 7.2 µW/cm2 (i.e., 0. 7% of the FCC public safety exposure standard) at any publically accessible location. This maximum exposure is more than 138 times lower than the FCC public exposure standards for these frequencies. A chart of the electromagnetic spectrum and a comparison of RF power densities from various common sources is presented in figures two and three respectively in order to place exposures from PCS telecommunications systems in perspective. 3 Attachment 1 Site Specifications Attachment 2 Antenna Specifications Appendix A Andrew (Decibel) Model# TMBXX-6516-R2M Exposure Calculation 6.0 ft AGL Antenna RF Center 23.0 ft ERP 800 Watts (PCS) 0.00800 0.00700 0.00600 0.00500 N e ~ ~ 0.00400 e 0.00300 0.00200 0.00100 0.00000 0 200 400 RF Exposure Levels AGL= 6 feet Antenna Center 23.0 feet AGL 600 800 1000 Distance to base of antenna in feet Appendix A 1200 1400 1600 l!Maxgainl ARL L.!Z._J (dBd): ,____1_5._5___, Max exposure: I 0.007171521 mW/cm 2 Max ERP (W): 800 Ant type: Andrew TMBX-6516-R2M Feet to Depress Ant. base angle 0 90.000 1 86.634 2 83.290 3 79.992 4 76.759 5 73.610 6 70.560 7 67.620 8 64.799 9 62.103 10 59.534 11 57.095 12 54.782 13 52.595 14 50.528 15 48.576 16 46.736 17 45.000 18 43.363 19 41.820 20 40.365 21 38.991 22 37.694 23 36.469 24 35.311 25 34.216 26 33.179 27 32.196 28 31.264 29 30.379 30 29.539 31 28.740 32 27.979 33 27.255 34 26.565 35 25.907 Antenna gain -21.7 -20.5 -20.7 -24.5 -24.5 -24.5 -21.9 -18.2 -16.2 -16.1 -18 -20.7 -19.7 -17.7 -18 -24.2 -16.1 -11.8 -6.2 -3.1 -2.3 -1.9 -2.5 -3.7 -5.5 -8.6 -13.9 -24.5 -19 -13.3 -11.3 -11.3 -13.2 -13.2 -18.5 -24.5 RF Exposure Level dB from Prop dist Act ERP max ERP -37.2 -36 -36.2 -40 -40 -40 -37.4 -33.7 -31.7 -31.6 -33.5 -36.2 -35.2 -33.2 -33.5 -39.7 -31.6 -27.3 -21.7 -18.6 -17.8 -17.4 -18 -19.2 -21 -24.1 -29.4 -40 -34.5 -28.8 -26.8 -26.8 -28.7 -28.7 -34 -40 in cm in mW 518.16 152.4369 519.06 200.9509 521.73 191.9066 526.17 80.0000 532.31 80.0000 540.11 80.0000 549.49 145.5761 560.37 341.2636 572.67 540.8664 586.29 553.4648 601.16 357.3469 617.17 191.9066 634.25 241.5961 652.30 382.9041 671.25 357.3469 691.03 85.7215 711.56 553.4648 732.79 1489.6697 754.65 5408.6638 777.09 11043.0741 800.06 13276.6953 823.52 14557.6069 847.43 12679.1455 871.75 9618.1155 896.44 6354.6259 921.48 3112.3612 946.84 918.5229 972.50 80.0000 998.42 283.8507 1024.60 1054.6054 1051.01 1671.4369 1077.63 1671.4369 1104.45 1079.1703 1131.46 1079.1703 1158.64 318.4857 1185.98 80.0000 Apdx. A Page 1 TMBX-6516-R2M Feet from site: 21 Level mW/cm 2 0.00019 0.00025 0.00024 0.00010 0.00009 0.00009 0.00016 0.00036 0.00055 0.00054 0.00033 0.00017 0.00020 0.00030 0.00026 0.00006 0.00037 0.00093 0.00317 0.00611 0.00693 0.00717 0.00590 0.00423 0.00264 0.00122 0.00034 0.00003 0.00010 0.00034 0.00051 0.00048 0.00030 0.00028 0.00008 0.00002 Precent of FCC STD 0.01897 0.02492 0.02355 0.00965 0.00943 0.00916 0.01611 0.03631 0.05510 0.05379 0.03304 0.01683 0.02007 0.03007 0.02650 0.00600 0.03652 0.09268 0.31730 0.61097 0.69297 0.71715 0.58987 0.42284 0.26419 0.12246 0.03423 0.00283 0.00951 0.03356 0.05055 0.04809 0.02956 0.02816 0.00793 0.00190 I I Maxgain I ARL .__1_1 _ __._(dBd): . 15.5 Max exposure: I 0.007171521 mW/cm2 Max ERP (W): 800 Ant type: Andrew TMBX-6516-R2M Feet to Depress Antenna Ant. base angle gain 36 25.278 -24.5 37 24.677 -14.8 38 24.102 -14.8 39 23.552 -9.9 40 23.025 -9.9 41 22.521 -7.8 42 22.036 -7.8 43 21.571 -7.2 44 21.125 -7.2 45 20.695 -8.4 46 20.283 -8.4 47 19.885 -12.2 48 19.502 -12.2 49 19.134 -12.2 50 18.778 -20.3 51 18.435 -20.3 52 18.104 -20.3 53 17.784 -11.4 54 17.475 -11.4 55 17.176 -11.4 56 16.887 -5.6 57 16.607 -5.6 58 16.336 -5.6 59 16.074 -5.6 60 15.819 -2.6 61 15.573 -2.6 62 15.333 -2.6 63 15.101 -2.6 64 14.876 -1.2 65 14.657 -1.2 66 14.444 -1.2 67 14.237 -1.2 68 14.036 -1.2 69 13.841 -1.3 70 13.650 -1.3 71 13.465 -1.3 72 13.285 -1.3 73 13.109 -1.3 74 12.938 -3.4 75 12.771 -3.4 RF Exposure Level dB from Prop dist Act ERP max ERP -40 -30.3 -30.3 -25.4 -25.4 -23.3 -23.3 -22.7 -22.7 -23.9 -23.9 -27.7 -27.7 -27.7 -35.8 -35.8 -35.8 -26.9 -26.9 -26.9 -21.1 -21.1 -21.1 -21.1 -18.1 -18.1 -18.1 -18.1 -16.7 -16.7 -16.7 -16.7 -16.7 -16.8 -16.8 -16.8 -16.8 -16.8 -18.9 -18.9 in cm in mW 1213.47 80.0000 1241.10 746.6034 1268.86 746.6034 1296.74 2307.2252 1324.74 2307.2252 1352.85 3741.8811 1381.05 3741.8811 1409.35 4296.2544 1437.74 4296.2544 1466.21 3259.0422 1494.76 3259.0422 1523.39 1358.5949 1552.09 1358.5949 1580.85 1358.5949 1609.68 210.4214 1638.57 210.4214 1667.51 210.4214 1696.51 1633.3904 1725.56 1633.3904 1754.65 1633.3904 1783.80 6209.9769 1812.98 6209.9769 1842.21 6209.9769 1871.48 6209.9769 1900.79 12390.5330 1930.13 12390.5330 1959.51 12390.5330 1988.92 12390.5330 2018.37 17103.6967 2047.84 17103.6967 2077.34 17103.6967 2106.87 17103.6967 2136.43 17103.6967 2166.01 16714.3690 2195.62 16714.3690 2225.25 16714.3690 2254.90 16714.3690 2284.58 16714.3690 2314.27 10305.9964 2343.99 10305.9964 Apdx. A Page 2 TMBX-6516-R2M Feet from site: 21 Level mW/cm 2 0.00002 0.00016 0.00015 0.00046 0.00044 0.00068 0.00066 0.00072 0.00069 0.00051 0.00049 0.00020 0.00019 0.00018 0.00003 0.00003 0.00003 0.00019 0.00018 0.00018 0.00065 0.00063 0.00061 0.00059 0.00115 0.00111 0.00108 0.00105 0.00140 0.00136 0.00132 0.00129 0.00125 0.00119 0.00116 0.00113 0.00110 0.00107 0.00064 0.00063 Precent of FCC STD 0.00182 0.01619 0.01549 0.04584 0.04392 0.06831 0.06555 0.07226 0.06944 0.05065 0.04873 0.01956 0.01884 0.01816 0.00271 0.00262 0.00253 0.01896 0.01833 0.01772 0.06520 0.06312 0.06113 0.05924 0.11458 0.11112 0.10781 0.10465 0.14027 0.13626 0.13242 0.12873 0.12520 0.11903 0.11584 0.11277 0.10983 0.10699 0.06429 0.06267 I I Maxgain I ARL ,___1_7 _ _._(dBd): _ 15.5 Max exposure: I 0.007171521 mW/cm 2 Max ERP (W): 800 Ant type: Andrew TMBX-6516-R2M Feet to Depress Ant. base angle 76 12.609 77 12.450 78 12.295 79 12.144 80 11.997 81 11.853 82 11.712 83 11.575 84 11.441 85 11.310 86 11.182 87 11.056 88 10.934 89 10.814 90 10.697 91 10.582 92 10.469 93 10.359 94 10.251 95 10.146 96 10.042 97 9.941 98 9.841 99 9.744 100 9.648 101 9.554 102 9.462 103 9.372 104 9.284 105 9.197 106 9.111 107 9.028 108 8.945 109 8.865 110 8.785 111 8.707 112 8.631 113 8.556 114 8.482 115 8.409 Antenna gain -3.4 -3.4 -3.4 -3.4 -11 -11 -11 -11 -11 -11 -11 -11 -10.7 -10.7 -10.7 -10.7 -10.7 -10.7 -10.7 -10.7 -10.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 5.8 5.8 5.8 5.8 5.8 5.8 5.8 5.8 RF Exposure Level dB from Prop dist Act ERP max ERP -18.9 -18.9 -18.9 -18.9 -26.5 -26.5 -26.5 -26.5 -26.5 -26.5 -26.5 -26.5 -26.2 -26.2 -26.2 -26.2 -26.2 -26.2 -26.2 -26.2 -26.2 -14.8 -14.8 -14.8 -14.8 -14.8 -14.8 -14.8 -14.8 -14.8 -14.8 -14.8 -9.7 -9.7 -9.7 -9.7 -9.7 -9.7 -9.7 -9.7 in cm in mW 2373.72 10305.9964 2403.48 10305.9964 2433.25 10305.9964 2463.04 10305.9964 2492.85 1790.9769 2522.67 1790.9769 2552.51 1790.9769 2582.36 1790.9769 2612.23 1790.9769 2642.11 1790.9769 2672.00 1790.9769 2701.91 1790.9769 2731.83 1919.0663 2761.76 1919.0663 2791.71 1919.0663 2821.66 1919.0663 2851.63 1919.0663 2881.61 1919.0663 2911.60 1919.0663 2941.60 1919.0663 2971.60 1919.0663 3001.62 26490.4897 3031.65 26490.4897 3061.69 26490.4897 3091.73 26490.4897 3121.78 26490.4897 3151.84 26490.4897 3181.91 26490.4897 3211.99 26490.4897 3242.07 26490.4897 3272.17 26490.4897 3302.27 26490.4897 3332.37 85721.5444 3362.48 85721.5444 3392.60 85721.5444 3422.73 85721.5444 3452.86 85721.5444 3483.00 85721.5444 3513.14 85721.5444 3543.29 85721.5444 Apdx. A Page 3 TMBX-6516-R2M Feet from site: 21 Level mW/cm2 0.00061 0.00060 0.00058 0.00057 0.00010 0.00009 0.00009 0.00009 0.00009 0.00009 0.00008 0.00008 0.00009 0.00008 0.00008 0.00008 0.00008 0.00008 0.00008 0.00007 0.00007 0.00098 0.00096 0.00094 0.00093 0.00091 0.00089 0.00087 0.00086 0.00084 0.00083 0.00081 0.00258 0.00253 0.00249 0.00244 0.00240 0.00236 0.00232 0.00228 Precent of FCC STD 0.06111 0.05961 0.05816 0.05676 0.00963 0.00940 0.00918 0.00897 0.00877 0.00857 0.00838 0.00820 0.00859 0.00841 0.00823 0.00805 0.00788 0.00772 0.00756 0.00741 0.00726 0.09823 0.09630 0.09442 0.09259 0.09082 0.08909 0.08742 0.08579 0.08420 0.08266 0.08116 0.25790 0.25330 0.24883 0.24447 0.24022 0.23608 0.23205 0.22811 I /Max gain I ARL ..__1_7 _ __,_ (dBd): _ 15.5 Max exposure: I 0.007171521 mW/cm2 Max ERP (W): 800 Ant type: Andrew TMBX-6516-R2M Feet to Depress Antenna Ant. base angle gain 116 8.337 5.8 117 8.267 5.8 118 8.198 5.8 119 8.130 5.8 120 8.063 5.8 121 7.997 9.3 122 7.933 9.3 123 7.869 9.3 124 7.806 9.3 125 7.745 9.3 126 7.684 9.3 127 7.624 9.3 128 7.565 9.3 129 7.507 9.3 130 7.450 9.3 131 7.394 9.3 132 7.339 9.3 133 7.284 9.3 134 7.230 9.3 135 7.177 9.3 136 7.125 9.3 137 7.074 9.3 138 7.023 9.3 139 6.973 11.7 140 6.923 11.7 141 6.875 11.7 142 6.827 11.7 143 6.780 11.7 144 6.733 11.7 145 6.687 11.7 146 6.642 11.7 147 6.597 11.7 148 6.553 11.7 149 6.509 11.7 150 6.466 11.7 151 6.423 11.7 152 6.382 11.7 153 6.340 11.7 154 6.299 11.7 155 6.259 11.7 RF Exposure Level dB from Prop dist Act ERP max ERP -9.7 -9.7 -9.7 -9.7 -9.7 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -6.2 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 in cm in mW 3573.45 85721.5444 3603.61 85721.5444 3633.77 85721.5444 3663.94 85721.5444 3694.12 85721.5444 3724.30 191906.6335 3754.49 191906.6335 3784.68 191906.6335 3814.87 191906.6335 3845.07 191906.6335 3875.28 191906.6335 3905.49 191906.6335 3935.70 191906.6335 3965.92 191906.6335 3996.14 191906.6335 4026.36 191906.6335 4056.59 191906.6335 4086.82 191906.6335 4117.06 191906.6335 4147.30 191906.6335 4177.54 191906.6335 4207.79 191906.6335 4238.04 191906.6335 4268.29 333495.5068 4298.54 333495.5068 4328.80 333495.5068 4359.07 333495.5068 4389.33 333495.5068 4419.60 333495.5068 4449.87 333495.5068 4480.15 333495.5068 4510.42 333495.5068 4540.70 333495.5068 4570.98 333495.5068 4601.27 333495.5068 4631.56 333495.5068 4661.85 333495.5068 4692.14 333495.5068 4722.43 333495.5068 4752.73 333495.5068 Apdx. A Page 4 TMBX-6516-R2M Feet from site: 21 Level mW/cm 2 0.00224 0.00221 0.00217 0.00213 0.00210 0.00462 0.00455 0.00448 0.00441 0.00434 0.00427 0.00420 0.00414 0.00408 0.00401 0.00395 0.00390 0.00384 0.00378 0.00373 0.00367 0.00362 0.00357 0.00612 0.00603 0.00595 0.00586 0.00578 0.00570 0.00563 0.00555 0.00548 0.00540 0.00533 0.00526 0.00519 0.00513 0.00506 0.00500 0.00493 Precentof FCC STD 0.22428 0.22054 0.21689 0.21334 0.20987 0.46225 0.45484 0.44762 0.44056 0.43367 0.42693 0.42035 0.41392 0.40764 0.40150 0.39549 0.38962 0.38388 0.37826 0.37276 0.36739 0.36212 0.35697 0.61158 0.60301 0.59460 0.58638 0.57832 0.57042 0.56269 0.55511 0.54768 0.54040 0.53327 0.52627 0.51941 0.51268 0.50608 0.49961 0.49326 I ' Max gain I ARL .___1_7 __,_ (dBd): _ 15.5 Max exposure:/ 0.007171521 mW/cm2 Max ERP (W): 800 Ant type: Andrew TMBX-6516-R2M Feet to Depress Ant. base angle 156 6.219 157 6.180 158 6.141 159 6.103 160 6.065 161 6.028 162 5.991 163 5.954 164 5.918 165 5.882 166 5.847 167 5.812 168 5.778 169 5.744 170 5.711 171 5.677 172 5.645 173 5.612 174 5.580 175 5.548 176 5.517 177 5.486 178 5.456 179 5.425 180 5.395 181 5.366 182 5.336 183 5.307 184 5.279 185 5.250 186 5.222 187 5.194 188 5.167 189 5.140 190 5.113 191 5.086 201 4.834 211 4.606 221 4.399 231 4.209 Antenna gain 11.7 11.7 11.7 11.7 11.7 11.7 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 13.4 14.6 14.6 14.6 14.6 RF Exposure Level dB from Prop dist Act ERP max ERP -3.8 -3.8 -3.8 -3.8 -3.8 -3.8 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -2.1 -0.9 -0.9 -0.9 -0.9 in cm in mW 4783.03 333495.5068 4813.33 333495.5068 4843.64 333495.5068 4873.94 333495.5068 4904.25 333495.5068 4934.56 333495.5068 4964.87 493276. 0015 4995.19 493276.0015 5025.50 493276.0015 5055.82 493276.0015 5086.14 493276.0015 5116.47 493276.0015 5146.79 493276.0015 5177.12 493276.0015 5207.44 493276.0015 5237.77 493276.0015 5268.10 493276.0015 5298.44 493276.0015 5328.77 493276.0015 5359.11 493276.0015 5389.45 493276.0015 5419.79 493276.0015 5450.13 493276.0015 5480.47 493276.0015 5510.81 493276.0015 5541.16 493276.0015 5571.51 493276.0015 5601.86 493276. 0015 5632.21 493276.0015 5662.56 493276.0015 5692.91 493276.0015 5723.26 493276.0015 5753.62 493276. 0015 5783.98 493276.0015 5814.33 493276.0015 5844.69 493276.0015 6148.35 650264.4129 6452.12 650264.4129 6755.98 650264.4129 7059.92 650264.4129 Apdx. A Page 5 TMBX-6516-R2M Feet from site: 21 Level mW/cm 2 0.00487 0.00481 0.00475 0.00469 0.00463 0.00458 0.00669 0.00660 0.00653 0.00645 0.00637 0.00630 0.00622 0.00615 0.00608 0.00601 0.00594 0.00587 0.00580 0.00574 0.00567 0.00561 0.00555 0.00549 0.00543 0.00537 0.00531 0.00525 0.00520 0.00514 0.00509 0.00503 0.00498 0.00493 0.00487 0.00482 0.00575 0.00522 0.00476 0.00436 Precentof FCC STD 0.48703 0.48092 0.47492 0.46903 0.46325 0.45758 0.66857 0.66048 0.65254 0.64473 0.63707 0.62954 0.62214 0.61488 0.60774 0.60072 0.59382 0.58704 0.58038 0.57382 0.56738 0.56105 0.55482 0.54869 0.54267 0.53674 0.53091 0.52517 0.51953 0.51397 0.50851 0.50313 0.49783 0.49262 0.48749 0.48244 0.57471 0.52187 0.47598 0.43588 . J I ' Max gain I ARL .__1_7___,_(dBd): _ 15.5 Max exposure: I 0.007171521 mWlcm2 Max ERP (W): 800 Ant type: Andrew TMBX-6516-R2M Feet to Depress Ant. base angle 241 4.035 251 3.875 261 3.727 271 3.589 281 3.462 291 3.343 301 3.233 311 3.129 321 3.032 331 2.940 341 2.854 351 2.773 361 2.696 371 2.624 381 2.555 391 2.490 401 2.428 411 2.369 421 2.312 431 2.259 441 2.208 451 2.159 461 2.112 471 2.067 481 2.024 491 1.983 501 1.943 511 1.905 521 1.869 531 1.834 541 1.800 551 1.767 561 1.736 571 1.705 581 1.676 591 1.648 601 1.620 611 1.594 621 1.568 631 1.543 Antenna gain 14.6 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.5 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.3 15.3 RF Exposure Level dB from Prop dist Act ERP max ERP in cm in mW -0.9 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 7363.93 650264.4129 7668.01 763994.0688 7972.14 763994.0688 8276.32 763994.0688 8580.54 763994.0688 8884.80 763994.0688 9189.10 763994. 0688 9493.43 763994.0688 9797.79 763994.0688 10102.18 800000.0000 10406.59 800000.0000 10711.02 800000.0000 11015.47 800000.0000 11319.95 800000.0000 11624.43 800000.0000 11928.94 800000.0000 12233.46 800000.0000 12537.99 800000.0000 12842.54 800000.0000 13147.09 800000.0000 13451.66 800000.0000 13756.24 800000.0000 14060.83 800000.0000 14365.43 800000.0000 14670.03 800000.0000 14974.65 763994.0688 15279.27 763994.0688 15583.90 763994.0688 15888.53 763994.0688 16193.17 763994.0688 16497.82 763994.0688 16802.47 763994.0688 17107.13 763994.0688 17411.79 763994.0688 17716.46 763994.0688 18021.13 763994.0688 18325.81 763994.0688 18630.49 763994.0688 18935.17 763994.0688 19239.86 763994.0688 Apdx. A Page 6 TMBX-6516-R2M Feet from site: 21 Level mW/cm 2 0.00401 0.00434 0.00402 0.00373 0.00347 0.00323 0.00302 0.00283 0.00266 0.00262 0.00247 0.00233 0.00220 0.00209 0.00198 0.00188 0.00179 0.00170 0.00162 0.00155 0.00148 0.00141 0.00135 0.00130 0.00124 0.00114 0.00109 0.00105 0.00101 0.00097 0.00094 0.00090 0.00087 0.00084 0.00081 0.00079 0.00076 0.00074 0.00071 0.00069 Precent of FCC STD 0.40063 0.43411 0.40162 0.37264 0.34668 0.32335 0.30229 0.28322 0.26589 0.26190 0.24680 0.23297 0.22027 0.20858 0.19780 0.18783 0.17859 0.17002 0.16205 0.15463 0.14771 0.14124 0.13519 0.12952 0.12419 0.11383 0.10933 0.10510 0.10111 0.09734 0.09378 0.09041 0.08722 0.08419 0.08132 0.07860 0.07600 0.07354 0.07119 0.06895 r----7Max gain I ARLl_!z__j(dB~: ~-1_5._5__. Max exposure: I 0.007171521 mW/cm 2 Max ERP (W): Feet to Ant. base 641 651 661 671 681 691 701 711 721 731 741 751 761 771 781 791 801 811 821 831 841 851 861 871 881 891 901 911 921 931 941 951 961 971 981 991 1001 1011 1021 1031 800 Ant type: Andrew TMBX-6516-R2M Depress Antenna angle gain 1.519 15.3 1.496 15.3 1.473 15.3 1.451 15.3 1.430 15.3 1.409 15.3 1.389 15.3 1.370 15.3 1.351 15.3 1.332 15.3 1.314 15.3 1.297 15.3 1.280 15.3 1.263 15.3 1.247 15.3 1.231 15.3 1.216 15.3 1.201 15.3 1.186 15.3 1.172 15.3 1.158 15.3 1.144 15.3 1.131 15.3 1.118 15.3 1.105 15.3 1.093 15.3 1.081 15.3 1.069 15.3 1.057 15.3 1.046 15.3 1.035 15.3 1.024 15.3 1.013 15.3 1.003 15.3 0.993 14.6 0.983 14.6 0.973 14.6 0.963 14.6 0.954 14.6 0.945 14.6 RF Exposure Level dB from Prop dist Act ERP max ERP -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.2 -0.9 -0.9 -0.9 -0.9 -0.9 -0.9 incm in mW 19544.55 763994.0688 19849.24 763994.0688 20153.94 763994.0688 20458.64 763994.0688 20763.35 763994.0688 21068.05 763994.0688 21372.76 763994.0688 21677.47 763994.0688 21982.19 763994.0688 22286.90 763994.0688 22591.62 763994.0688 22896.34 763994.0688 23201.07 763994.0688 23505.79 763994.0688 23810.52 763994.0688 24115.25 763994.0688 24419.98 763994.0688 24724.71 763994.0688 25029.44 763994.0688 25334.18 763994.0688 25638.92 763994.0688 25943.65 763994.0688 26248.39 763994.0688 26553.14 763994.0688 26857.88 763994.0688 27162.62 763994.0688 27467.37 763994.0688 27772.11 763994.0688 28076.86 763994.0688 28381.61 763994.0688 28686.36 763994.0688 28991.11 763994.0688 29295.86 763994.0688 29600.62 763994.0688 29905.37 650264.4129 30210.12 650264.4129 30514.88 650264.4129 30819.64 650264.4129 31124.39 650264.4129 31429.15 650264.4129 Apdx. A Page 7 TMBX-6516-R2M Feet from site: 21 Level mW/cm 2 0.00067 0.00065 0.00063 0.00061 0.00059 0.00058 0.00056 0.00054 0.00053 0.00051 0.00050 0.00049 0.00047 0.00046 0.00045 0.00044 0.00043 0.00042 0.00041 0.00040 0.00039 0.00038 0.00037 0.00036 0.00035 0.00035 0.00034 0.00033 0.00032 0.00032 0.00031 0.00030 0.00030 0.00029 0.00024 0.00024 0.00023 0.00023 0.00022 0.00022 Precent of FCC STD 0.06682 0.06479 0.06284 0.06098 0.05921 0.05751 0.05588 0.05432 0.05282 0.05139 0.05001 0.04869 0.04742 0.04620 0.04502 0.04389 0.04280 0.04175 0.04074 0.03977 0.03883 0.03792 0.03705 0.03620 0.03539 0.03460 0.03383 0.03309 0.03238 0.03169 0.03102 0.03037 0.02974 0.02913 0.02429 0.02380 0.02333 0.02287 0.02243 0.02199 STATEMENT OF EXPERIENCE Jerrold Talmadge Bushberg, Ph.D., DABMP, DABSNM (800) 760-8414 jbushberg@hampc.com Dr. Jerrold Bushberg has performed health and safety analysis for RF & ELF transmissions systems since 1978 and is an expert in both health physics and medical physics. In addition, Dr. Bushberg has extensive experience and lectures on several related topic including medical physics, radiation protection(ionizing and non-ionizing), radiation biology, the science of risk assessment and effective risk communication in the public sector. Dr. Bushberg's doctoral dissertation at Purdue University was on various aspects of the biological effects of microwave radiation. He has maintained a strong professional interest in this subject and has served as consultant or appeared as an expert witness on this subject to a wide variety of organizations/institutions including, local governments, school districts, city planning departments, telecommunications companies, the California Public Utilities Commission, ABC 20/20, and the U.S. Congress. In addition, his consultation services have included detailed computer based modeling of RF exposures as well as on-site safety inspections and RF & ELF field measurements of numerous transmission facilities in order to determine their compliance with FCC and other safety regulations. The consultation services provided by Dr. Bushberg are based on his professional judgement as an independent scientist, however they are not intended to necessarily represent the views of any other organization. Dr. Bushberg is a member of the main scientific body of International Committee on Electromagnetic Safety (ICES) which reviews and evaluates the scientific literature on the biological effects of non-ionizing electromagnetic radiation and establishes exposure standards. He also serves on the ICES Risk Assessment Working Group that is responsible for evaluating and characterizing the risks of non-ionizing electromagnetic radiation. Dr. Bushberg was appointed and is serving as a member of the main scientific council of the National Council on Radiation Protection and Measurement's (NCRP). He is also a Scientific Vice-President of the NCRP and chairs it's committee on Radiation Protection in Medicine and serves as a member of it's scientific advisory committee on Non-ionizing Radiation Safety. The NCRP is the nation's preeminent scientific radiation protection organization, chartered by Congress to evaluate and provide expert consultation on a wide variety of radiological health issues. Dr. Bushbergwas also elected to the International Engineering in Medicine and Biology Society Committee on Man and Radiation (COMAR) which has as its primary area of interest the biological effects of non-ionizing electromagnetic energy, examining and interpreting the biological effects, and presenting its findings in an authoritative and professional manner. Dr. Bushberg is also a member of a six person U.S. expert delegation to the international scientific community on Scientific and Technical Issues for Mobile Communication Systems established by the Federal Communications Commission. Dr. Bushberg received both a Masters of Science and Ph.D. from the Department of Bionucleonics at Purdue University. The scientific discipline of Health Physics is devoted to radiation protection, which, among other things, involves providing analysis of radiation exposure conditions, biological effects research, regulations and standards as well as recommendations regarding the use and safety of ionizing and non-ionizing radiation. Dr. Bushberg is certified by several national professional boards with specific sub-specialty certification in radiation protection and medical physics. Prior to coming to California, Dr. Bushberg was on the faculty of Yale University School of Medicine.