Attachment RF_Exposure

This document pretains to SES-MOD-20120910-00807 for Modification on a Satellite Earth Station filing.

IBFS_SESMOD2012091000807_965159

                               Engineering Statement
                     RADIOFREQUENCY EXPOSURE CALCULATIONS
                                                prepared for
                                    WYFF Hearst Television Inc.

        Hearst Properties Inc. (“WYFF”) is the applicant for a transportable “Ku Band” satellite uplink
vehicle. The following study was conducted to evaluate the proposed facility with respect to the potential
for human exposure to radiofrequency (“RF”) electromagnetic field. Specifically, the study determined
whether exposure to RF electromagnetic field would exceed FCC maximum permissible exposure limits
to the general public and to occupational workers at locations in the vicinity of the uplink antenna based
on data provided by the applicant and representatives of the equipment manufacturers.



Human Exposure to Radiofrequency Electromagnetic Field
        The WYFF proposed operation was evaluated using the procedures outlined in FCC OET Bulletin
No. 65 (“OET 65"). OET 65 describes a means of determining whether a proposed facility exceeds the
RF exposure guidelines specified in §1.1310 of the Rules. Under present Commission policy, a facility
may be presumed to comply with the limits in §1.1310 if it satisfies the exposure criteria set forth in
OET 65. Based upon that methodology, and as demonstrated in the following, the transmitting system
under study will comply with the cited adopted guidelines at publicly accessible locations when
procedures described herein are followed.



Public Exposure
        The mechanical design of the mounting equipment is optimized to orient the antenna toward
satellites that are located well above the horizon.      Prevention of public exposure to predicted RF
electromagnetic field in excess of the general population/uncontrolled limit1 depends on adherence to the
following operational guidelines by the WYFF technicians.


        As shown below, RF attributable to the WYFF uplink antenna at locations outside of the “main
beam” and 1.35 meters or more from the center of the main beam will not exceed the FCC general
population and uncontrolled RF exposure limits. According to representatives of WYFF, at its lowest
elevation, the center of the uplink antenna is 4.0 meters above the ground and thus more than one dish-
diameter above head level (2 meters) on level terrain.




1
  The general population/uncontrolled maximum permissible exposure (“MPE”) limit of 1 mW/cm² for 14,250 MHz
is specified in §1.1310 of the Rules.


                                      Cavell, Mertz & Associates, Inc.


                                               Engineering Statement
                                                       (page 2 of 4)

               To assure that no publicly accessible area is within the “main beam” of the uplink antenna, sites
       and satellites will be selected such that the elevation angle of the antenna will always exceed five degrees
       and 1.35 meters above the horizon, nearby buildings, and places accessible by the public. In unusual
       cases where this isolation cannot be achieved, WYFF will utilize crowd control stanchions, cones, and RF
       exposure warning signs to control access to areas that are known to exceed the FCC’s general population
       uncontrolled MPE limit. These areas will be defined either by measurements made by qualified, on-site,
       personnel or by the calculations described herein.


               Based on data provided by the applicant, the following parameters were used in the study:


                   Antenna Manufacturer                          General Dynamics
                   Antenna Model                                 C135M
                   Center Transmit Frequency                     14,250 MHz
                   Wavelength at Center Frequency                0.021 meters
                   Max Average Antenna Input Power               108.87 Watts
                   Antenna Diameter                              1.35 meters
                   Antenna Gain                                  44.3 dBi
                   Antenna Gain Ratio                            26915.3
                   Antenna Aperture Efficiency                   0.662


               The area in the immediate vicinity of the antenna is known as the “near field region.”         In this
       region (up to 21.7 meters in the case at hand), the antenna directional characteristics have not fully
       formed. Therefore, antenna manufacturer “off-axis” discrimination specifications cannot be utilized for
       the purpose of determining potential RF exposure. OET 65 provides a methodology (Equation 13) for
       calculating an absolute “worst case” exposure figure within this region. Additionally, OET 65 specifies
       that the “worst case” power density would be reduced by 20 dB at locations at least one antenna diameter
       (1.35 meters) off-axis from the “main beam” of the antenna. In this instance, the predicted off-axis, near
       field is 0.201 mW/cm², or 20.1 percent of the general population/uncontrolled limit. Off-axis predicted
       fields reduce commensurately at greater distances from the antenna in the antenna transition region.


               In the “far field” region of the antenna (in this case, starting at a distance of 52.0 meters from the
       antenna), the antenna directional characteristics have formed and the off-axis power density can be
       readily calculated using “off-axis” antenna discrimination specifications. At locations greater than five


                                             Cavell, Mertz & Associates, Inc.
2012099DGR


                                                    Engineering Statement
                                                            (page 3 of 4)

       degrees off-axis from the “main beam,” the manufacturer of the proposed antenna specifies a minimum
       side-lobe attenuation of 32.8 dB.2 Again using the methodology detailed in OET 65, this “off-axis”
       attenuation is predicted to result in a power density of 0.005 mW/cm², or 0.5 percent of the general
       population/uncontrolled limit.


       Controlled Access Area Exposure

                  Access to the vicinity of the antenna will be limited and restricted to authorized, trained
       personnel. Using data provided by the applicant, the potential for RF exposure to occupational workers
       was evaluated. As described previously, the maximum predicted off-axis, “near field” power density is
       0.201 mW/cm², which is 4.02 percent of the controlled limit. As the operator will generally be posted at
       locations at ground level or within the truck itself, it is anticipated that actual exposure will be
       substantially less than the above “worst case” prediction.



                  With respect to worker safety, it is believed that based on the preceding analysis, excessive
       exposure would not occur provided that adequate physical separation is established. As mentioned
       previously, detailed operator policy will be employed protecting workers from excessive exposure when
       work must be performed where high RF levels may be present. Such protective measures may include,
       but will not be limited to, restriction of access to areas where levels in excess of the guidelines may be
       expected, or the complete shutdown of facilities when work or inspections must be performed in areas
       where the exposure guidelines would otherwise be exceeded. On-site RF exposure measurements may
       also be undertaken to establish the bounds of safe working areas. The applicant will coordinate exposure
       procedures with all pertinent facilities.



       Conclusion

                  As demonstrated herein, excessive levels of RF energy will not be caused at publicly accessible
       areas by strictly following the policy detailed herein. Consequently, neither members of the general
       public nor occupational staff will be exposed to RF levels in excess of the Commission’s guidelines.
       Whenever necessary to assure compliance, access to the vicinity of the uplink antenna will be restricted
       and controlled through the use of crowd control stanchions, cones, and conspicuous RFR warning signs as
       part of an overall RF safety program. The above study presumes that the subject antenna is the sole



       2
           The antenna’s off-axis specification is based on FCC §25.209 or 29-25 Log(θ) dBi.


                                                  Cavell, Mertz & Associates, Inc.
2012099DGR


                                               Engineering Statement
                                                       (page 4 of 4)

       source of RF energy at the uplink site. In the case of multiple emitters, further analysis or measurement is
       necessary to assure compliance.



       Certification

               The undersigned hereby certifies that the foregoing statement was prepared by him or under his
       direction, and that it is true and correct to the best of his knowledge and belief. Mr. Ryson is a senior
       engineer in the firm of Cavell, Mertz & Associates, Inc.




                                                                       Daniel G. Ryson
                                                                       September 5, 2012


       Cavell, Mertz & Associates, Inc.
       7732 Donegan Dr.
       Manassas, VA 20109-2686
       (703) 392-9090




                                             Cavell, Mertz & Associates, Inc.
2012099DGR



Document Created: 2012-09-05 10:48:08
Document Modified: 2012-09-05 10:48:08

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