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LANVIN, Jean-baptiste, 12/15/2015 10:56 AM
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User Guide¶
For our implementation, we tried to be as user friendly as we could. Indeed, we tried to give to all of our VIs relevant names so that if the user wants more details (or would like to modify) some of our calculation it would be easy to look through our labview project. We tried to make the same effort with our variable names in order to make them relevant and clear. The units of those variables are as well given when it is relevant. We can point out that most of our calculation for the link budget is done in dB and therefore the units are dBs as well (dBW, dBHz..)
Configuration¶
The information the user needs to provide to our program in order to calculate the propagator and the link budget are:
- the latitude, the east longitude (in degrees) and the altitude (in km) of the ground station.
Ex: if the ground station is located on the ground in Philadelphia: latitude= 40° , east longitude= -75°, altitude=0 km - the EIRP of the ground station antenna (in dBW) and its G/T (in dBK-1)
- the latest TLE of the wanted satellite
- the EIRP of the satellite antenna (in dBW) and its G/T (in dBK-1)
- the bit rate (in bits/s)
- the modulation that is used (QPSK, BPSK and 2-FSK are available)
- the minimum margin (in DBHz) that can be accepted to consider the link budget closed
Results¶
What the user can observe in the front panel is :
- the required C/N0 of his link (in dBHz)
- the calculated C/N0 uplink and downlink (in dBHz as well)
- the total C/N0 (in dBHz)
- the margin of the link budget (in dBHz)
- the distance between the ground station and the satellite (in km)
- the coordinates of the satellite in the ECI coordinate system
- the elevation and the azimuth of the satellite for the ground station
If that elevation becomes too low (below 10 degrees) the link budget calculation stops and therefore the button goes back grey and the ratios are equal to zero.