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Dec 1st, 2015 at 6:10pm
Satellite beacons are provided in accordance with the specification by the customer. Typically the satellite radiated power (EIRP) might be in the order of +8 dBW, equivalent to 6 watts into an omni-directional satellite antenna. It could be different, as some beacons are transmitted via a directional antenna, such as a global beam horn or toroidal bicone. Some examples: satellite beacons
Whatever, the NOC will have details. Ask them for the beacon EIRP radiation pattern. You need to know the exact EIRP towards your location.
Many beacons are un-modulated, CW signals. Some beacons are modulated with telemetry and ranging data, in which case you will be interested in the power of the central carrier.
Note the polarisation of the beacon. Circular polarisation may be used to enable successful reception by linear polarisation earth stations, regardless of their operating polarisation adjustment angle. In such cases take off 3 dB.
Beacon receivers may have a frequency tracking capability to deal with doppler frequency changes. Such receivers may also have the ability to rapidly reacquire the signal following a severe rain outage.
A CW beacon has a very high power flux density per Hz, so it is possible, if the frequency stability of your LNB is good (PLL suggested), to measure beacon levels using very narrow receive filters (<100 Hz) and thus have C/N values in the order of 25-35 dB. This is good for antenna pattern measurements.
It would be interesting to hear from anyone measuring satellite beacons using FFT spectrum analyser software which can do waterfall displays with resolution bandwidths measured in milli-Hz! The leading CW preambles of TDMA bursts might similarly be detected.
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