In satellite communication systems, there are two types of power calculations. Those are transmitting power and receiving power calculations. In general, these calculations are called as Link budget calculations. The unit of power is decibel.
First, let us discuss the basic terminology used in Link Budget and then we will move onto explain Link Budget calculations.
An isotropic radiator (antenna) radiates equally in all directions. But, it doesn’t exist practically. It is just a theoretical antenna. We can compare the performance of all real (practical) antennas with respect to this antenna.
Assume an isotropic radiator is situated at the center of the sphere having radius, r. We know that power flux density is the ratio of power flow and unit area.
Power flux density,ΨiΨi of an isotropic radiator is
Ψi=ps4πr2Ψi=ps4πr2
Where, PsPs is the power flow. In general, the power flux density of a practical antenna varies with direction. But, it’s maximum value will be in one particular direction only.
The gain of practical antenna is defined as the ratio of maximum power flux density of practical antenna and power flux density of isotropic antenna.
Therefore, the Gain of Antenna or Antenna gain, G is
G=ΨmΨiG=ΨmΨi
Where, ΨmΨm is the maximum power flux density of practical antenna. And, ΨiΨi is the power flux density of isotropic radiator (antenna).
Equivalent isotropic radiated power (EIRP) is the main parameter that is used in measurement of link budget. Mathematically, it can be written as
EIRP=GPsEIRP=GPs
We can represent EIRP in decibels as
[EIRP]=[G]+[Ps]dBW[EIRP]=[G]+[Ps]dBW
Where, G is the Gain of Transmitting antenna and PsPs is the power of transmitter.
The difference between the power sent at one end and received at the receiving station is known as Transmission losses. The losses can be categorized into 2 types.
The losses which are constant such as feeder losses are known as constant losses. No matter what precautions we might have taken, still these losses are bound to occur.
Another type of loses are variable loss. The sky and weather condition is an example of this type of loss. Means if the sky is not clear signal will not reach effectively to the satellite or vice versa.
Therefore, our procedure includes the calculation of losses due to clear weather or clear sky condition as 1st because these losses are constant. They will not change with time. Then in 2nd step, we can calculate the losses due to foul weather condition.
There are two types of link budget calculations since there are two links namely, uplink and downlink.
It is the process in which earth is transmitting the signal to the satellite and satellite is receiving it. Its mathematical equation can be written as
(CN0)U=[EIRP]U+(GT)U−[LOSSES]U−K(CN0)U=[EIRP]U+(GT)U−[LOSSES]U−K
Where,
Here, Losses represent the satellite receiver feeder losses. The losses which depend upon the frequency are all taken into the consideration.
The EIRP value should be as low as possible for effective UPLINK. And this is possible when we get a clear sky condition.
Here we have used the (subscript) notation “U”, which represents the uplink phenomena.
In this process, satellite sends the signal and the earth station receives it. The equation is same as the satellite uplink with a difference that we use the abbreviation “D” everywhere instead of “U” to denote the downlink phenomena.
Its mathematical equation can be written as;
[CN0]D=[EIRP]D+[GT]D−[LOSSES]D−K[CN0]D=[EIRP]D+[GT]D−[LOSSES]D−K
Where,
Here, all the losses that are present around earth stations.
In the above equation we have not included the signal bandwidth B. However, if we include that the equation will be modified as follows.
[CN0]D=[EIRP]D+[GT]D−[LOSSES]D−K−B[CN0]D=[EIRP]D+[GT]D−[LOSSES]D−K−B
If we are taking ground satellite in to consideration, then the free space spreading loss (FSP) should also be taken into consideration.
If antenna is not aligned properly then losses can occur. so we take AML (Antenna misalignment losses) into account. Similarly, when signal comes from the satellite towards earth it collides with earth surface and some of them get absorbed. These are taken care by atmospheric absorption loss given by “AA” and measured in db.
Now, we can write the loss equation for free sky as
Losses=FSL+RFL+AML+AA+PLLosses=FSL+RFL+AML+AA+PL
Where,
· RFL stands for received feeder loss and units are db.
· PL stands for polarization mismatch loss.
Now the decibel equation for received power can be written as
PR=EIRP+GR+LossesPR=EIRP+GR+Losses
Where,
The designing of down link is more critical than the designing of uplink. Because of limitations in power required for transmitting and gain of the antenna.