Attachment RHS for SMN

This document pretains to SES-MOD-20091210-01568 for Modification on a Satellite Earth Station filing.

IBFS_SESMOD2009121001568_786922

                                           RADIATION HAZARD EVALUATION
                                                                       For
                                                                Suman 3.7M

1     Overview
      Determining the region around an antenna where radiation hazardous to human health is a consideration of many factors.
      With a parabolic dish antenna, the region is highly directional and the actual hazardous region is dependent on the
      antenna elevation angle. The following formulae are used to determine the near and far field regions. These regions are in
      the main beam of the radiation pattern, which we will assume consists of a conical angle extending +/- 3 degrees from the
      center axis of the antenna.

      The analysis contained herein predicts the radiation levels around the proposed antenna. The calculations contained in this
      report are in accordance with FCC guidelines as contained in CFR 47 Part 1.1310 and OET Bulletin 65. The maximum level
      of non-ionizing radiation to which the general public is exposed is defined for controlled and uncontrolled environments
      as follows:
                                                                                                                             Exposure Limit
      Environment                                                                                                      Power      Duration
      Controlled - (applicable to system operators and technicians in the service area of the antenna):                5 mW/cm
                                                                                                                              2
                                                                                                                                  6 Minutes

      Uncontrolled - (applicable to general public in proximity of the antenna):                                       1 mW/cm
                                                                                                                                 2
                                                                                                                                        30 Minutes



2.1   Earth Station Technical Parameters - Input Data

          1A        Antenna Diameter - Standard Parabola                        3.7         meters
          1B        Antenna Diameter - Elliptical Reflector                                 meters
            1B1       Major Axis Diameter                                                   meters
            1B2       Minor Axis Diameter                                                   meters
           2        G = Antenna Isotropic Gain                                 52.3         dBi
           3        h = Nominal Antenna Efficiency                              65          Percent
           4        Nominal Frequency                                         14.25         GHz
           5        Maximum Transmit Power Amplifier Size                      150          Watts
           6        Number of Carriers                                          1           each
           7        W/G Loss from Transmitter to Feed                          1.5          dB
           8        Multicarrier Fixed Backoff                                  3           dB
           9        Desired Object Clearance Height                             2           meters

2.2   Earth Station Technical Parameters - Calculated Data
          10        A = Antenna Surface Area                                        10.75   sq meters
           10A        Standard Parabolic Reflector                           10.75210086    sq meters
           10B        Elliptical Reflector                                           0.00   sq meters
          11        D = Effective Antenna Diameter                                    3.7   meters
          12        Total Transmit Power                                              150   Watts
          13        P = Total Feed Input Power (watts)                             53.22    Watts
          14        E = Maximum E/S EIRP - Calculated                               69.56   dBW
          15        λ = Wavelength (= c/f in m/GHz)                               0.0210    m/GHz
          16        p = Pi                                                       3.14159
          17        Rnf = Near Field Limit (D2/4λ)                                    163 meters                  535 feet
          18        Rff = Far Field Limit (Rff=0.6D2/λ )                              390 meters                 1280 feet
          19        Rnf to Rff = Transition Region                             163 to 390 meters          535 to 1280 feet



3     Power Density at the Antenna Surface
      The power density at the reflector surface is expected to exceed the safe limits. The reflector is not accessible to the public
      and will not present a hazard. Terminal operators and technicians receive training identifying the area as presenting high
      exposure levels. Procedures are incorporated requiring that transmitters are not operating when access to the reflector
      surface is required.

      The power density at the antenna reflector surface can be calculated by the expression:
                PDREFL = 4P/A =                                                                                                               2
                                                                                                                                 1.98 mW/cm
      Where:          P = Total power at the feed, milliwatts
                      A = Total area of reflector, sq cm
      Evaluation:
                    Controlled Environment (less than 5 mW/cm2 in 6 minutes):                                                        SAFE
                                                                   2
                    Uncontrolled environment (less than 1 mW/cm in 30 minutes):                                              Mitigation Required


4   On-Axis Power Density in the Near Field Region
    The Radiating Near Field Region for a parabolic, circular reflector, is defined as extending from the reflector to
    a distance equal to the diameter squared divided by twice the wavelength. This distance is referred to as the
    Rayleigh distance. In this region the power is nearly all contained within a cylinder of radius 0.5D. As a safety
    measure the highest possible power density is applied to the whole of this region.

    The power density in the Near Field Region of the antenna can be calculated by the expression:
              16*P*h/π*D2 =                                                                                                   1.29 mW/cm
                                                                                                                                        2

    Where:          P = Total power at the feed, milliwatts
                    h = Nominal antenna efficiency
                    D = Effective antenna diameter, meters

    Evaluation:
                  Controlled Environment (less than 5 mW/cm2 in 6 minutes):                                                         SAFE
                                                             2
                  Uncontrolled environment (less than 1 mW/cm in 30 minutes):                                             Mitigation Required



5   On-Axis Power Density in the Transition Region
    The transition region is located between the Near Field and Far Field regions. The power density begins to vary inversely
    with distance from the antenna in the transition region. The maximum power density in this region will not exceed the
    power density calculated for the Near Field region. Once again the power density figures are for the On-Axis and
    contained with a cylinder extending within +/- 1 degree of beam center. Where the antennas are normally operated at an
    elevation angle typically greater than 10°, the actual safe distance in front of the antenna may be found in paragraph 10.
    The formula for the calculation is used to evaluate the power density at any given distance in the transition as expressed
    below:

    The power density in the On-Axis Transition Region can be calculated by the expression:
              PDt=(PDnf)(Rnf)/R
    Where:          PDnf = The Near Field power density, mW/cm2
                    Rnf = Near Field maximum distance, meters
                    R = Distance to point of interest
    For:            163 < R < 390 meters

    Evaluation:
                  Controlled Environment Safe Operating Distance, meters:                                                          42 meters
                  Uncontrolled environment Safe Operating Distance, meters:                                                       210 meters



6   On-Axis Power Density in the Far Field Region
    The On-Axis power density in the far field region (PDff) varies inversely with the square of the distance. The calculation is
    performed below:

    The Power Density at the start of the Far Field region can be calculated by the expression:
                  E-10log(4pR2)                                                                                               6.75 dBW/m2
                  antilog((E-10log(4pR2)/10)/10
                                                                                                                                        2
                                                                                                                              0.47 mW/cm

    Evaluation:
                                                               2 in
                  Controlled Environment (less than 5 mW/cm           6 minutes):                                                   SAFE
                                                             2
                  Uncontrolled environment (less than 1 mW/cm in 30 minutes):                                                       SAFE



7   Off-Axis Power Density Levels at the Far Field Limit and Beyond
    In the far field region, the power is distributed in a pattern of 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)
    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 = PDffx 1585/G                                                                           0.0044 mW/cm²


     Evaluation:
     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, off axis gain reduction techniques may be used to further reduce the power
     density levels.



8    Off-Axis Power Density Levels at 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 near field main beam power density. This may be
     calculated as follows:
                   PDnf(off-axis) = PDnf/100 =                                                                            0.0129 mW/cm²



9    Region Between the Feed Horn and Reflector/Sub-Reflector
     Transmissions from the feed horn are directed toward the main reflector or the sub-reflector depending on the type of
     antenna (prime focus, Gregorian or Cassegrain). The transmission is confined within a conical shape defined by the feed
     horn. The energy between the feedhorn and the reflector/sub-reflector is assumed to be in excess of any limit for
     permissible exposure. This region is not accessible to the general public, and operators and technicians should be suitable
     trained and procedures in place to preclude access to this region during active transmission.



10   Evaluation of Safe Occupancy Area in Front of the Antenna
     The distance (L) from a vertical axis passing through the dish center to a safe off-axis point in front of the antenna can be
     determined based on the dish diameter. Assuming a flat terrain and a point on the horizontal plane with the center point of
     the antenna, the relationship is determined by the following formula:
                 L = (D/sin a) + (2h - D - 2)/(2 tan a)
       Where:    a = minimum elevation angle of antenna
                 D = Dish diameter in meters
                 h = Maximum height of object to be cleared, meters
     For distances equal to or greater than determined by the equation above, the radiation hazard will be below safe levels

        For:     D=                                                              3.7 meters
                 h=                                                                2 meters
     Safe distance for the following elevation angles (a):
                             a - Elevation Angle (degrees)                L - Safe Distance
                                           10                             16.49     meters
                                           15                             11.12     meters
                                           20                              8.48     meters
                                           25                              6.93     meters
                                           30                              5.93     meters
                                           40                              4.74     meters
                                           50                              4.12     meters



11   Mitigation Analysis
     Mitigation of accessibility to hazardous regions may take several forms depending on the antenna application and
     location. In instances such as mobile applications, the antenna may be located such that the hazardous region is not
     accessible during operation. An example may be in a mobile configuration where the antenna is located on top of a vehicle
     during operation. In other fixed installation instances the hazardous area may be fenced off to prevent access. In areas
     where only operators and technicians have access, training in safeguards and proper markings of hazardous areas may be
     sufficient. This analysis tool is designed to identify the hazardous exposure regions around an operating antenna system
     in accordance with the defined power density limits in CFR 47, part 1.1310 and OET bulletin 65.



     Note that for this application the antenna is mounted on a building rooftop and a controlled environment. This
     satisfies the mitigation requirement.



Document Created: 2009-12-10 09:05:17
Document Modified: 2009-12-10 09:05:17

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