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1-16-14 resub materials.pdfs rn a t I'll, n k January 15, 2014 1 Mr. Michael Clugston Senior Planner City of Edmonds Development Services 1215th Avenue North Edmonds, WA 98020 RE: Letter of Incomplete Application Dear Mr. Clugston: REC.',tENVED JAN 16 2014 W,-'VEI-OPMENT SERVICES COUNTER Please see the enclosed, additional information as requested in your November 18, 2013 Letter of Incomplete Application. These include: 1. SENA Checklist 2. Photosimulations — before and after 3. Noise Report 4. RF coverage maps — before and after 5. FCC Emissions Report — NIER report fou have any questions regarding this additional information. George Johnston, Smartlink for Ami, 206.218.6549 Enclosures 100 VVA �' ;30() co : � � C w& 11"lly"I'll c"a CIA 15 Uj to killamm Lou CO a-oustics Stev,a,t •M B4O December 16, 20,13 Vickie Stenberg LDC, Inc. 14201 NE 200th St, Ste 100 Woodinville, WA 98072 Re: Acoustical Report — AT&T SN2886 Flaines Wharf Site: 6908174 1h Street SW, Edmonds, WA 98026 Dear Vickie, H1 CEIVED JAN 16 2014 L)EVELOOM ENT SL--JIVIUE,� COUNTER This report presents a noise survey performed in the immediate vicinity of the proposed A-r&,r telecommunications facility at 6908 174" Street SW in Edmonds, Washington. This noise Survey extends from the proposed equipment to the nearest properties. The purpose of this report is to document the existing conditions and the impacts of the acoustical changes due to the proposed equipment. This report contains data on the existing and predicted noise environments, impact criteria and an evaluation of the predicted sound levels as they relate to the criteria. Ambient Conditions Existing ambient sound levels of the site were measured on December 16, 2013 with a Larson -Davis 820 spectrum analyzer sound level meter. Measurements were conducted as close to the proposed location as possible and the property lines in accordance with the State of Washington code for Maximum Environmental Noise Levels WAC 173-60-020. The average ambient noise level was 54 dBA primarily due to noise from local vehicle traffic. The weather during the measurements was overcast with dry roads. I Code Requirements The site is located within the City of Edmonds Zoning jurisdiction on property designated with a Residential zoning, Al of the receiving properties are Residential. The proposed new equipment consists of equipment Support cabinets, which are expected to run 24 hours a day. Under Edmonds Municipal Code Chapter 5,30,040 noise from equipment on a Residential property is limited as follows: Residential Receiver: Noise is limited to 55 dBA during daytime hours. During nighttime hours, between the hours of 10 p.m. and 7 a.m., the maximum permissible sound level is decreased by 10 decibels, Since the support cabinets are expected to operate 24. hours a day, they rnUSt meet the 45 dBA nighttime limit, The equipment will be located within an equipment room. The room will be conditioned by a • system. The proposed condensing units will consist of (2) • PUY-A36NHA • units. According to the manufacturer, the units produce a Sound Pressure Level of 48 dBA at 3 ft. To predict equipment noise levels at the receiving properties, this survey used the methods established by AHRI Standard 2752010 and ASHRAE 2011 HVAC Applications Handbook. Application factors such as location, height, and reflective surfaces are accounted for in predicting the sound level at the nearest receivers. The equipment cabinets will to be located on a concrete pad at grade. The nearest receiving property is a residential property located west of the equipment cabinets. The predicted sound level at the nearest property is shown below in Table 2 below. Table I Application Factors and Predicted Noise Levels for the Proposed Equipment 1 Combined Sound Pressure Level at 3 ft (dBA), L 51 2 Distance Factor (DF) -13 Inverse -Square Law (Free Field): DF = 20*log (d1/d2) —OL fit 3 New Equipment Sound Pressure Level at Receiver, Lpr 38 (Add lines 1 and 3) Sincerely, SSA Acoustics, LLP ��Ian Burt, P.E. ASSOCIATE PARTNER WAS I -i N,53 NAL q 1111,11 piq��Ipqiipi 11 RECENVED JAN 16 20111 Prepared for LDC Corp. 00JELOPMENT SERVICES COUNTER Prepared by Tom Manley ADCOMM Engineering Company Reviewed by Joe Blaschka, Jr. PE ADCOMM Engineering Company ADCOMM Engineering Company Bridging the Gap Between Operations and Technology(li) w Contents......................................................................................................................................... iii Acronyms and Abbreviations .................... a................................................................................... iv Summary......................................................................................................................................... 1 RegulatoryBackground.................................................................................................................. 1 SiteEvaluation................................................................................................................................ 4 ADCOMM ENGINEERING COMPANY I COMMUNICATIONS CONSULTING page di 111111111I�� 111111II1111111111� 111111II 11111111111111111I 11111�� ut, AGL above ground level ERP effective radiated power EIRP Equivalent Isotropically Radiated Power FCC Federal Communications Commission MPE maximum permissible exposure RF radio frequency ADCOMM ENGINEERING COMPANY I COMMUNICATIONS CONSULTING Page iv Calculations were done for the ATT SN2886 Haines Wharf site. The site address is 6908174th Street SW, Edmonds, WA. The project replaces an existing utility pole with one adaptable for wireless antennas. New UMTS 850 and LTE 700 services are being installed. There are no co - located carriers. Antenna model information and ERP levels are taken from the RF Data Sheet, WA_SN2886_NewBuild_3801627140_10576799_ 7192013_v1.1. Preliminary construction drawings, Rev. 3 dated 9/18/13 were also provided. The antennas and their patterns were known and used for the calculations. The maximum downtilt in any given sector was used in the calculations for each service as a worst-case. The calculations show that the maximum ground -level exposure is .537% of the MPE for General Population/ Uncontrolled Exposure occurring approximately 350 -ft from the site at ground level from the position of a sector. The site meets the FCC requirements for General Population Exposure. Regulatory Background The procedures for calculating the RF power densities are taken from "Evaluating Compliance with FCC Guidelines for Human Exposure to Radiofrequency Electromagnetic Fields, OET Bulletin 65, August 1997." FCC Rules and Regulations further describe requirements for compliance in CFR 47 §1.1310, "Radiofrequency Radiation Exposure Limits." The formula used for calculation is Equation 9 of OET65 on page 21: 33.4 ERP R Where: S= power density in µW/cm2 ERP= power in watts R= distance in meters Where this equation is applied in a spreadsheet, the vertical attenuation pattern of the antenna is taken into account. The FCC limits for maximum permissible exposure (MPE) are shown graphically in Figure 1 and in tabular form in Table 1. The exposure limit differs depending on frequency due to the variable rate of RF absorption of the human body at different frequencies. FCC Limits for Maximum Permissible Exposure (MPE) Plane -wave Equivalent Power Density OccupationaUContro1led— Exposure ®®m - General Population/Uncontrolled Exposure J 0.03 0.3 3 30 300 3,000 30,000 j 300,000 1.34 1,500 100,000 Frequency (MHz) Figure 1. FCC Limits for MPE Although the label "radiation' is often used in this situation, a distinction is made between ionizing radiation and non -ionizing radiation such as RF. Ionizing radiation is so energetic that it literally breaks electrons away from atoms creating an ion. Electromagnetic radiation is only capable of this at frequencies of 1015 Hz,106 GHz, or higher. TI -ds is the realm of some UV light, x rays, gamma rays, cosmic rays, and particles produced in radioactive decay. The frequencies of interest here are well below those of ionizing radiation, well within the RF spectrum, and universally recognized as non -ionizing electromagnetic radiation (VIER). The effects of NIER are thermal. The energy impinging on the human body causes heat to be generated in body tissue. The effect of this heating has biological effects above certain power levels. The curve above for general population/ uncontrolled exposure is typically 2 percent of the level at which thermal effects begin to be seen. The antennas typically used in the service found at this site are directional so that most of the RF energy emitted by the antennas is concentrated in a limited field of view. In particular, energy is usually directed toward the horizon with appreciable attenuation below the antenna. I (A) Limits for Occupational/Controlled Exposure Frequency Electric Field Magnetic Field Range Strength (E) Strength (H) (MHz) (V/m) (A/m) Power Density (S) (mW/cm z) Averaging Time JEJ2, IH 12 or S (minutes) 0.3-3.0 614 1.63 (100)* 6 3.0-30 1842/f 4.89/f (900/f2)* 6 30-300 61.4 0.163 1.0 6 300-1500 f/300 6 1500-100,000 5 6 (8) Limits for General Population/Uncontrolled Exposure Frequency Electric Field Magnetic Field Power Density Averaging Time Range Strength (E) Strength (H) (S) JEJ2, IHIz or S (MHz) (V/m) (A/m) (mW/cm2) (minutes) 0.3-1.34 614 1.63 (100)* 30 1.34-30 824/f 2.19/f (180/f2)* 30 30-300 27.5 0.073 0.2 30 300-1500 f/1500 30 1500-100,000 1.0 30 f = frequency in MHz �ZrTXI *Plane -wave equivalent power density NOTE 1: occupationa//contro/%d 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 occupational/controlled limits apply provided he or she is made aware of the potential for exposure. NOTE 2: Genera/popu/ation/uncontro/%dexposures 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 cannot exercise control over their exposure. N The antennas centers -of -radiation are reduced by 6 -ft to account for head height and are so adjusted from the centers -of -radiation shoyvn on the RF Data Sheet. The spreadsheets use the planned power per service, the actual radiation patterns for each service, and the maximum downtilt for each service. The resulting %MPE values for ground -level are collected on a composite spreadsheet. Calculation spreadsheets are included in the Attachment section. The site is described as a utility pole replacement so no other areas of exposure are characterized other than ground -level exposure. The maximum %MPE on the ground occurs at a distance of 350 -ft from the base of a sector (projected to ground level) with a level that is .537% of the FCC maximum exposure guidelines for an uncontrolled area. The site meets the FCC requirements for General Population/ Uncontrolled Exposure. M [iii ��� ��, ■��a���li■�l Calculation spreadsheets 4 -Dec -13 Site: Haines Wharf Freq(MHz): ADCOMM Engineering Company Non -Ionizing Electromagnetic Radiation Calculations XMT(dBm): N/A Ant. Gain: N/A Ant. Model: ---Composite ground XMT(Watts): N/A Ant. C.L. (ft): N/A MPE: NIA ERP(Watts): Client: N/A ATT ITrans Loss: NIA CenteMine distance from antenna (ft) UMTS 850 °%MPE 700 ° LTE /oMPE Composite On - ground %MPE 25 0.072 0.002 0.074 50 0.366 0.010 0.376 75 100 0.091 0,119 0,075 0.025 0,166 0.144 125 0.082 0.047 0.130 150 175 0.060 0.057 0.073 0,025 0.133 0.062 200 0.056 0.001 0.057 225 0.179 0.042 0.220 250 0.291 0,152 0.444 275 0.305 0.127 0.432 300 0.325 0,174 0.499 325 0.312 0.210 0.522 350 0.303 0.234 0.637 375 400 0.265 0.293 0.205 0.217 0.469 0.510 425 0.260 0.192 0.453 450 0.233 0.172 0.405 475 0.263 0.169 0.433 500 0.238 0.153 0.391 5250.216 550 0.248 0.139 0.133 0.355 0.381 575 0.227 0.122 0.349 600 0.209 0.112 0.320 625 0.192 0.103 0.295 650 0.178 0.095 0.273 675 0.131 0.086 0.218 700 0.122 0.080 0.202 725 750 775 0.114 0.106 0,100 0.075 0.070 0,066 0.189 0.176 0.165 800 0.094 0.062 0.155 825 850 0.088 0.083 0.058 0.055 0.146 0.137 875 0.062 0,047 0.109 900 0.059 0.044 0.103 925 0.056 0.042 0,098 950 0.053 0.040 0.093 975 1000 0.050 0.048 0.038 0.036 0.088 0.084 1025 1050 0.045 0.043 0.034 0.033 0.080 0.076 1075 1100 0.041 0.039 0.031 0.030 0.072 0.069 4-Dec-13 ADCOMM Engineering Company Non-Ionizing Electromagnetic Radiation Calculations Site: Haines Wharf Freq(MHz): UMTS 850 XMT(dBm): N/A Ant. Gain: N/A Ant. Model: - - OOT XMT(Watts): N/A Ant. C.L. (ft): 52 MPE: 485 uW/cm2 ERP(Watts): Client: 1020 Trans Loss: ATT N/A Comment: 50 electrical downtilt Center -line distance from antenna (ft) Path length (ft) Centerline signal level (mW/cm2) Pattern angle from antenna Pattern attenuation (dB) On-ground signal level (mW/cm2) On-ground %MPE (Uncontrolled area) 25 58 0.58752 64 25 0.000349 0.072 50 72 0.14688 46 16 0.001774 0.366 75 91 0.06528 35 20 0.000441 0.091 100 113 0,03672 27 17 0.000577 0.119 125 135 0.02350 23 17 0.000400 0.082 150 159 0.01632 19 17 0.000291 0.060 175 200 183 207 0.01199 0.00918 17 15 16 15 0.000277 0.000272 0.057 0.056 225 250 231 255 0.00725 0.00588 13 12 9 6 0.000867 0.001414 0.179 0,291 275 280 0.00486 11 5 0.001482 0.305 300 305 0.00408 10 4 0.001577 0.325 325 329 0.00348 9 3.5 0.001514 0.312 350 354 0.00300 8 3 0.001470 0.303 375 379 0.00261 8 3 0.001284 0.265 400 425 403 428 0,00230 0.00203 7 7 2 2 0,001424 0.001264 0.293 0.260 450 475 453 478 0.00181 0.00163 7 6 2 1 0.001129 0.001278 0.233 0.263 500 503 0.00147 6 1 0.001154 0.238 525 528 0.00133 6 1 0.001048 0.216 550 553 0.00121 5 0 0,001203 0.248 575 577 0.00111 5 0 0.001102 0.227 600 602 0.00102 5 0 0.001013 0,209 625 627 0.00094 5 0 0.000933 0.192 650 652 0.00087 5 0 0.000864 0,178 675 677 0.00081 4 1 0.000636 0.131 700 702 0.00075 4 1 0.000592 0.122 725 750 727 752 0.00070 0.00065 4 4 1 1 0.000552 0.000516 0.114 0.106 775 800 777 802 0.00061 0.00057 4 4 1 1 0.000483 0.000454 0.100 0.094 825 827 0.00054 4 1 0.000427 0,088 850 875 852 877 0.00051 0.00048 4 3 1 2 0.000402 0.000302 0.083 0,062 900 902 0.00045 3 2 0.000285 0.059 925 927 0,00043 3 2 0.000270 0.056 950 975 1000 1025 951 976 1001 1026 0.00041 0.00039 0.00037 0.00035 3 3 3 3 2 2 2 2 0.000256 0.000243 0.000231 0.000220 0.053 0,050 0.048 0.045 1050 1051 0.00033 3 2 0.000210 0.043 1075 1076 0.00032 3 2 0.000200 0.041 1100 1101 0.00030 3 2 0.000191 0,039 4 -Dec -13 ADCOMM Engineering Company Non -Ionizing Electromagnetic Radiation Calculations Site: Haines Wharf Freq(MHz): ILTE 700 XMT(dBm): N/A Ant. Gain: N/A Ant. Model: ALU 3JR52703AAM XMT(Watts): N/A Ant. C.L. (ft): 152 MPE: 486 uW/cm2 ERP(Watts): 547 Trans Loss: N/A Comment: 50 electrical downtilt Client: ATT Center -line Centerline Pattern Pattern On -ground On -ground %MPE distance from Path length (ft) signal level angle from attenuation signal level antenna (ft) (mW/cm2) antenna (dB) (mW/cm2) (Uncontrolled area) 25 58 0.31507 64 38.6 0.000008 0.002 50 72 0.07877 46 28.8 0.000050 0.010 75 91 0.03501 35 18.1 0.000366 0.075 100 1 113 0.01969 27 21.1 0.000120 0.025 125 135 0.01260 23 16.7 0.000230 0.047 150 159 0.00875 19 13.4 0.000357 0.073 175 183 0,00643 17 16.8 0.000123 0.025 200 207 0.00492 15 30.3 0.000004 0.001 225 231 0.00389 13 12.6 0.000203 0.042 250 1 255 0.00315 12 8.8 0.000741 0.152 275 280 0.00260 11 6.1 0.000617 0.127 300 305 0.00219 10 4 0.000846 0.174 325 329 0.00186 9 2.5 0.001022 0.210 350 354 0.00161 8 1.4 0.001140 0.234 375 379 0.00140 8 1.4 0.000995 0.205 400 403 0.00123 7 0,6 0.001054 0.217 425 428 0.00109 7 0.6 0.000935 0.192 450 453 0.00097 7 0.6 0.000836 0.172 475 478 0.00087 6 0.2 0.000824 0.169 500 503 0.00079 6 0.2 0.000744 0.153 525 528 0.00071 6 0.2 0.000676 0.139 550 553 0.00065 5 0 0.000645 0.133 575 577 0.00060 5 0 0.000591 0.122 600 602 0.00055 5 0 0.000543 0.112 625 627 0.00050 5 0 0.000501 0.103 650 652 0.00047 5 0 0.000463 0.095 675 677 0.00043 4 0.1 0.000420 0.086 700 702 0.00040 4 0.1 0.000391 0.080 725 727 0.00037 4 0.1 0.000364 0.075 750 752 0.00035 4 0.1 0.000340 0.070 775 777 0.00033 4 0.1 0.000319 0.066 800 802 0.00031 4 0.1 0.000299 1 0.062 825 827 0,00029 4 0.1 0.000282 0.058 850 852 0.00027 4 0.1 0.000265 0.055 875 877 0.00026 3 0.5 0.000228 0.047 900 902 0.00024 3 0.5 0.000216 0.044 925 927 0.00023 3 0.5 0.000204 0.042 950 951 0.00022 3 0.5 0.000194 0.040 975 976 0.00021 3 0.5 0.000184 0.038 1000 1001 0.00020 3 0.5 0.000175 0.036 1025 1026 0.00019 3 0.5 0.000167 0.034 1050 1051 0.00018 3 0.5 0.000159 0.033 1075 1076 0,000E7E�� 0.5 0.000152 0.031 1100 1101 0.000 0.5 0.000145 0.030 Printed on Recycled and Recyclable Paper