78
Network Design and Engineering Guide
2010-10-26
Outdoor Unit and Satellite Link Design
Fundamentals of Link Budget Calculation
The required
Sky
WAN
®
IDU 7000 Eb/No levels for different carrier modulation and coding val-
ues are both contained in the TDMA calculation tool and the
Sky
WAN
®
link budget tool. For a
brief discussion we have a look at 3 different values for a satellite link with a bit error rate
< 10
-7
, gross container size > 200 Byte:
Table 3-1
Eb/No Values for different FEC Coding and Modulations
Let’s assume the result of the traffic estimation and TDMA calculation showed that a carrier
with a modem data rate = 1000 kbps is required. For a TDMA structure with a frame time of
100 ms, a container size of 417 Byte and a carrier spacing factor of 1.2 the resulting bandwidth
and power requirements to achieve the above stated Es/No levels are shown in table 3-2
Table 3-2
Carrier Power and Bandwidth for TDMA structure example
Going from QPSK - 1/3 to 8PSK - 6/7 for a satellite carrier
-
the bandwidth needed on the satellite transponder is reduced by 78%.
-
the required power on both the satellite and the transmitting earth station is increased by
316%.
One important result of a link budget calculation is the determination of the optimal channel
modulation and coding. The goal is to use the highest possible value for modulation and FEC
to save bandwidth costs without exceeding the maximum power available on both the satellite
transponder and the earth stations.
Power Equivalent Bandwidth
As already mentioned, the available power on a satellite transponder is limited. The available
power is determined by the transponder’s saturation EIRP reduced by the necessary output
back-off. This back-off is needed to prevent carrier interference which would occur if the ampli-
fier on the satellite is operated at saturation level. If a carrier uses not the full transponder band-
width but only a fraction, then the available power for this carrier is the same fraction of the
transponder power. Hence the carrier power may also be expressed as a bandwidth: This is
the definition of the “Power Equivalent Bandwidth” (PEB).
If the carrier PEB is higher than the carrier bandwidth, the PEB must be leased on the trans-
ponder. Since this increases the space segment cost without increasing the user bandwidth
that situation should be avoided by selecting an optimized carrier coding and modulation.
Note that within a network using multiple carriers, it is possible that for some carriers PEB is
larger than the carrier bandwidth whereas for other carriers PEB is smaller than the carrier
Modulation
FEC Rate
Eb/No
QPSK
1/3
2.4 dB
QPSK
6/7
5.6 dB
8PSK
6/7
8.8 dB
Modulation - FEC Rate
Carrier Bandwidth [kHz]
Relative Carrier Power
QPSK - 1/3
1904
100 %
QPSK - 6/7
758
208 %
8PSK - 6/7
428
416 %
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