Attachment Attachment 5

This document pretains to SES-MOD-20100302-00285 for Modification on a Satellite Earth Station filing.

IBFS_SESMOD2010030200285_803179

                                                                 Prepared by X2nSat Inc




                                                   RADIATION HAZARD ANALYSIS



                       This analysis predicts the radiation levels around a proposed earth station complex, comprised of one or
                       more aperture (reflector) type antennas. This report is developed in accordance with the prediction
                       methods contained in OET Bulletin No. 65, "Evaluating Compliance with FCC Guidelines for Human
                       Exposure to Radio Frequency Electromagnetic Fields," Edition 97-01, pp 26-30. The maximum level of
                       non-ionizing radiation to which employees may be exposed is limited to a power density level of 5
                       milliwatts per square centimeter (5 mW/cm2) averaged over any 6 minute period in a controlled
                       environment and the maximum level of non-ionizing radiation to which the general public is exposed is
                                                                                                      2
                       limited to a power density level of 1 milliwatt per square centimeter (1 mW/cm) averaged over any 30
                       minute period in a uncontrolled environment. Note that the worse-case radiation hazards exist along the
                       beam axis. Under normal circumstances, it is highly unlikely that the antenna axis will be aligned with
                       any occupied area since that would represent a blockage to the desired signals, thus rendering the link
                       unuseable.

                       The parameters which determine the radiation levels for the proposed earth station antenna site follows:



                       Antenna Actual Diameter                                             5.60 meters
                       Antenna Surface Area                                               24.6 sq. meters
                       Antenna Isotropic Gain                                             57.0 dBi
                       No. of Identical Adjacent Antennas                                    0
                        Note: The Radiation Levels will be increased directly by the number of antennas
                       indicated, on the assumption that all antennas may illuminate the same area.
                       Nominal Antenna Efficiency (ε)                                    72%
                       Nominal Frequency                                                14250 MHz
                       Nominal Wavelength (λ)                                          0.0211 meters
                       Maximum Transmit Power / Carrier                                     12 Watts
                       Number of Carriers                                                    1
                       Total Transmit Power                                                 12 Watts
                       W/G Loss from Transmitter to Feed:                                  1.0 dB
                       Total Feed Input Power                                               10 Watts

                                                                   2
                       Near Field Limit=            Rnf =         D /4λ =                  372 meters
                                                                        2
                       Far-Field Limit =          Rff =        0.6 D /λ =                  894 meters
                       Transition Region =                 Rnf       to    Rff
                                    Earth Station Technical Parameter Table

                       In the following sections, the power density in the above regions, as well as other critically important
                       areas will be calculated and evaluated. The calculations are done in the order discussed in OET Bulletin
                       65. In addition to the input parameters above, input cells are provided below for the user to evaluate the
                       power density at specific distances or angles.




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                                                                  Prepared by X2nSat Inc

                       1. At the Antenna Surface:
                       The power density at the reflector surface can be calculated from the expression:

                                                                                           2
                                       PDrefl =      4P/A =             0.15      mW/cm                                  (1)
                                        where:       P = total power at feed, milliwatts
                                                     A = Total area of reflector, sq. cm

                       In the normal range of transmit powers for satellite antennas, the power densities at or around the
                       reflector surface is expected to exceed safe levels. This area will not be accessible to the general public.
                       Operators and technicians will receive training specifying this area as a high exposure area. Procedures
                       must be established that will assure that all transmitters are rerouted or turned off before access by
                       maintenance personnel to this area is possible.

                       2. On-Axis Near Field Region:
                       The geometrical limits of the radiated power in the near field approximate a cylindrical volume with a
                       diameter equal to that of the antenna. In the near field, the power density is neither uniform nor does its
                       value vary uniformly with distance from the antenna. For the purpose of considering radiation hazard it
                       is assumed that the on-axis flux density is at its maximum value throughout the length of this region. The
                       length of this region, i.e., the distance from the antenna to the end of the near field, is computed as Rnf
                       above.


                       The maximum power density in the near field is given by:

                                       PDnf =        (16 ε P)/(πD2) =                  0.00       mW/cm2                 (2)
                                                                                     from 0 to        372       meters

                                                      Evaluation in Near Field Region:
                                       Uncontrolled Environment:             Complies to FCC Limits

                                       Controlled Environment:                    Complies to FCC Limits

                       3. On-Axis Transition Region:
                       The transition region is located between the near and far field regions. As stated in Bulletin 65, the
                       power density begins to vary inversely with distance in the transition region. The maximum power
                       density in the transition region will not exceed that calculated for the near field region, and the transition
                       region begins at that value. The maximum value for a given distance within the transition region may be
                       computed for the point of interest according to:


                                       PDt =         (PDnf)(Rnf)/R =              dependent on R                         (3)
                                          where:     PDnf = near field power density
                                                     Rnf = near field distance
                                                     R = distance to point of interest
                                                              For:            372     < R <           894       meters

                       We use Eq (3) to determine the safe on-axis distances required for the two occupancy conditions:

                                                      Evaluation in Transistion Region:
                                       Uncontrolled Environment
                                        Safe Operating Distance,(meters), Rsafeu: In N-F region, See Section 2
                                       Controlled Environment
                                        Safe Operating Distance,(meters), Rsafeu: In N-F region, See Section 2




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                                                                      Prepared by X2nSat Inc

                       4. On-Axis Far-Field Region:
                        The on- axis power density in the far field region (PDff) varies inversely with the square of the distance
                       as follows:

                                                                 2
                                      PDff =             PG/(4πR ) =                   dependent on R                   (4)
                                        where:           P = total power at feed
                                                         G = Numeric Antenna gain in the direction of interest
                                                                relative to isotropic radiator
                                                         R = distance to the point of interest
                                                                                  For: R > Rff > 894           meters
                                                                                                           2
                                                                       PDff =              0.00     mW/cm at Rff

                       Equation (4) is used to determine the safe on-axis distances required for the two occupancy
                       conditions:

                                                      Evaluation in Far Field Region:
                                      Uncontrolled Environment
                                      Safe Operating Distance,(meters), Rsafeu: In N-F region, See Section 2
                                        Controlled Environment Safe Operating Distance,(meters), Rsafec :
                                      Safe Operating Distance,(meters), Rsafeu: In N-F region, See Section 2

                       5. Off-Axis Levels at the FarField Limit and Beyond

                       In the far field region, the power is distributed in a pattern of maxima and minima (sidelobes) as a
                       function of the off-axis angle between the antenna center line and the point of interest. Off-axis power
                       density in the far field can be estimated using the antenna radiation patterns prescribed for the antenna in
                       use. Usually this will correspond to the antenna gain pattern envelope defined by the FCC or the ITU,
                       which takes the form of:


                                                       Goff = 32 - 25log(Θ)
                                      for Θ from 1 to 48 degrees; -10 dBi from 48 to 180 degrees
                                      (Applicable for commonly used satellite transmit antennas)


                       Considering that satellite antenna beams are aimed skyward, power density in the far field will usually
                       not be a problem except at low look angles. In these cases, the off axis gain reduction may be used to
                       further reduce the power density levels.
                       For example: At one (1) degree off axis At the far-field limit, we can calculate the power density as:
                       Goff = 32 - 25log(1) = 32 - 0 dBi = 1585 numeric

                                      PD1 deg off-axis =             PDff x 1585/G =      0.0000    mW/cm2              (5)

                       6. Off-Axis power density in the Near Field and Transitional Regions
                       According to Bulletin 65, off-axis calculations in the near field may be performed as follows: assuming
                       that the point of interest is at least one antenna diameter removed from the center of the main beam, the
                       power density at that point is at least a factor of 100 (20 dB) less than the value calculated for the
                       equivalent on-axis power density in the main beam. Therefore, for regions at least D meters away from
                       the center line of the dish, whether behind, below, or in front under of the antenna's main beam, the
                       power density exposure is at least 20 dB below the main beam level as follows:


                                      PDnf(off-axis) =                   PDnf /100 =      0.000     mW/cm2 at D off axis (6)

                       See page 5 for the calculation of the distance vs elevation angle required to achieve this rule for a given
                       object height.




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                                                                  Prepared by X2nSat Inc


                       7. Region Between the Feed Horn and Sub-reflector
                       Transmissions from the feed horn are directed toward the subreflector surface, and are confined within a
                       conical shape defined by the feed horn. The energy between the feed horn and subreflector isconceded
                       to be in excess of any limits for maximum permissible exposure. This area will not be accessible to the
                       general public. Operators and technicians will receive training specifying this area as a high exposure
                       area. Procedures must be established that will assure that all transmitters are rerouted or turned off before
                       access by maintenance personnel to this area is possible.



                       Note:
                       Mitigation of the radiation level may take several forms. First, check the distance from the antenna to
                       the nearest potentially occupied area that the antenna could be pointed toward, and compare to the
                       distances appearing in Sections 2, 3 & 4. If those distances lie within the potentially hazardous regions,
                       then the most common solution would be to take steps to insure that the antenna(s) are not capable of
                       being pointed at those areas while RF is being transmitted. This may be accomplished by setting the
                       tracking system to not allow the antenna be pointed below certain elevation angles. Other techniques,
                       such as shielding may also be used effectively.




                       8. Evaluation of Safe Occupancy Area in Front of Antenna
                       The distance (S) from a vertical axis passing through the dish center to a safe off axis location in front of
                       the antenna can be determined based on the dish diameter rule (Item 6.0). Assuming a flat terrain in front
                       of the antenna, the relationship is:

                                      S = (D/sin α) + (2h - D - 2)/(2 tan α)                                            (7)
                                         where:     α = minimum elevation angle of antenna
                                                    D = dish diameter in meters
                                                    h = maximum height of object to be cleared, meters


                       For distances equal or greater than determined by equation (7), the radiation hazard will be below safe
                       levels for all but the most powerful stations (> 4 kilowatts RF at the feed).

                                           For D =        5.6      meters
                                               h=          2       meters         Enter clearance height required
                                       Then:
                                            α              S
                                           10            22.0      meters
                                           15            14.9      meters
                                           20            11.4      meters
                                           25            9.4       meters
                                           30            8.1       meters
                        Specific Elev:    41.5            6.4      meters         Enter minimum elevation angle required
                        Specific Elev:     45            6.1       meters         Enter minimum elevation angle required

                       Suitable fencing or other barrier should be provided to prevent casual occupancy of the area in front of
                       the antenna within the limits prescribed above at the lowest elevation angle required.




Rad Haz Report Rev 20090826.xls                                     8/26/2009 4:29 PM                                                  4



Document Created: 2009-08-31 10:15:25
Document Modified: 2009-08-31 10:15:25

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