8Psk Encoding/Modulation; 16Qam Encoding/Modulation - Comtech EF Data SDM-9000 Installation And Operation Manual

Theory of Operation

5.2.4.3 8PSK Encoding/Modulation

The modulator converts the transmit baseband data into a modulated 8PSK carrier by
trellis encoding at 2/3 or 5/6 rate. The 2/3 rate encoder generates 3 symbols for every
2 bits input, while the 5/6 rate encoder generates 6 symbols for every 5 bits input. Using
vector analysis of the constellation pattern generated by the modulator, 8 discrete phase
angles (0°, 45°, 90°, 135°, 180°, 225°, 270°, and 315°) represent 8 possible combinations
of 3 symbols generated by the encoder. The 2/3 and 5/6 rates encoded at the trellis
encoder provide the desired bit rates as follows:
Code Rate
In 8PSK operation, the hardware to perform Reed-Solomon block encoding is required to
achieve better performance. Refer to Appendix A for details on Reed-Solomon
operation.

5.2.4.4 16QAM Encoding/Modulation

The modulator converts the transmit baseband data into a modulated 16QAM carrier at
3/4 or 7/8 rate. The modulator punctures the data by using the industry standard k = 7,
1/2 rate convolutional code and 3/4 and 7/8 punctured patterns. The 3/4 rate
convolutional encoder generates 4 symbols for every 3 bits input, while the 7/8 rate
convolutional encoder generates 8 symbols for every 7 bits input.
Using vector analysis of the constellation pattern generated by the modulator, 16 discrete
phase angle/amplitude states represent the 16 possible combinations of 4 symbols
generated by the encoder. The bit rates for 16QAM 3/4 and 7/8 rate convolutional
encoding are as follows:
Code Rate
In 16QAM operation, the hardware to perform Reed-Solomon block encoding is required
to achieve the best operational characteristics and performance. Refer to Appendix A for
information on Reed-Solomon operation.
5–10
Symbols/Bit
2/3 1.5
5/6 1.2
Symbols/Bit
3/4 1.33
7/8 1.143
Bits/Hz
2
2.5
Bits/Hz
3
3.5
SDM-9000 Satellite Modem
Rev. 4