Attachment RF radiation analysi

This document pretains to SES-LIC-20100420-00457 for License on a Satellite Earth Station filing.

IBFS_SESLIC2010042000457_811606

RF RADIATION ANALYSIS Exhibit A Antenna Dia. (D) = 2.4 Meters 7.8744 Feet Antenna Surface Area (SA) = 4.524 sq meters Subreflector Dia. (DS) = N/A (prime focus offset) Subreflector Surface Area (AS) = N/A ‘ KU Wavelength at 14.250 GHz (Lambda) = 0.0211 meters Power at output of HPA flange = 17.782 dB Path Loss to OMT (IL) 0.48 dB Power at OMT Flange (P) = 53.722 watts Antenna Gain at 14.250 GHz (G) = 49.2 dBi Antenna Gain given in Power Ratio (GES)= 8.318E+04 Antenna Aperture Efficiency (N)= 0.6484 Region Radiation Level Hazard Assessment Far Field (Rf) 163.791 m 537.4 ft 1.325 mW/cm sq Potential Hazard Near Field (WF) 68.246 m 223.917 ft 3.08 mW/cm sq Potential Hazard Transition Region (Rt) {equal to or less than Ru<Rt<Rf 3.08 mW/cm sq Potential Hazard Between Main Reflector N/A (no subreflector) and Subreflector (Ws) Main Reflector Region (Wm) 2.375 mW/icm sq Potential Hazard Power Density Between Reflector 1188 mW/cm sq Potential Hazard and Ground Far Field Off Axis (WF) 0.013 mW/cm sq Meets ANSI Requirements Near Field Off Axis (WN) 0.031 mW/cm sq Meets ANSI Requirements Conclusion: Based on the above analysis, harmful areas of radiation do exist in areas around the antenna and in the path of the antenna toward the satellite at which it is pointed. The area occupied by the general public will not exceed the ANSI limit of 1 mW cm sq. because the antenna is mounted on top of a mast, ( which does not have access by the general public. The areas on the ground and behind the antenna are 100 times less power (20 dB) when at a min. of the dia. of the reflector, this is reflected in the Off Axis figures as seen above (WF) & (WN). The antenna area will be marked with the standard radiation hazard warnings, and on the antenna itself. The warning signs will warn personnel to avoid the area around and in front of the reflector when the i transmitter is operating. To ensure compliance with safety limits, the earth station transmitter will be turned off and marked to remain off whenever maintenance and repair personnel are required to work in the areas of potential hazard as defined in the above study. Additionally, the earth station personnel will be trained to insure that the antenna path is clear at all times while the transmitter is in operation. See Exhibit B for how the calculations were rhade

ANALYSIS OF NON—IONIZING RADIATION Exhibit B Antenna Diameter (D) D= 2.4 meters 7.874 Feet Antenna Surface Area (Sa) Sa=x. 2P Sa= 4.524 sq meters *‘~4 Subreflector diameter (Ds) Ds=0 cm Ds = 0 inches Area of Subreflector (As) Ds — Ds As= x As= 0 sq cm 4 Center Frequency (Cf) CF = 14,250 GHz Wavelength at (Cf), (Lambda) Lambda = 0.0211 meters C band=0.049, Ku band=0.0211m Transmit Power at HPA or VPC Flange (P1) P1= 60 watts P2 =10g(P1)—10 P2= 17.782 db Path Loss from HPA or VPC to OMT (Loss) Loss= 0.48 db Power at OMT (P) P3=P2—Loss P3= 17.302 db Antenna Gain at (Cf), (Gain) Gain= 49.2 dBi Gain Antenna Gain Converted to Power Ratio, (Ges). Ges = 1070 Ges= 8.318E+04 Ratio Antenna Aperature Efficiency (n) 0.6484 Far Field (Rf) pj _ 26d—(P—D) Rf= 163.791 meters Lambda Far Field Pwr Density (WF) s Aany Wi= 1.325 mw sq cm 4—x—(RfRD , ___2D Near Field (Rn) Rn= 68.246 meters ~ 4 —Lambda n= 16—n—P Near Field Pwd Density (Wn) Wn= 3.08 mw sq cm _1.(D—D _ Transition Region (Rt) Rt= Wnn 1 Rt= 3.08 mw sq cm (equal to or less than) Pwr Density at Sub Reflector (Ws) (N/A — No subreflector) 2—P Main Reflector Region Pwr Density (Wm) Wm :=———0.1 Wm= 2.375 mw sq cm m Sa Pwr Density between main reflector and ground (Wg) «_ 2. Wo:= 53 0.1 Wo= 1.188 mw sq cm Far Field Off Axis (WF) WF= 0.013 mw sq cm WF := Wf—0.01 Near Field Off Axis (WN) WN= 0.031 mw sq cm WN:=Wn—0.01


Document Created: 2019-04-25 07:23:01
Document Modified: 2019-04-25 07:23:01
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