| Abstract: | A combined 8-PSK modulation and rate 7/9 convolutional coding technique is proposed for 140 Mb/s information rate transmission over the 80 MHz INTELSAT transponders, thus achieving a bandwidth efficiency of 1.75 b/s/Hz of allocated bandwidth. The desired power efficiency is to achieve a bit error rate of 10?6 at an Eb/N0 of 11 dB, including modem and codec implementation losses. The proposed system employs an 8-PSK modem operating at a 60 MHz symbol rate (or 180 Mb/s bit rate), as well as a rate 7/9 convolutional encoder and a 16-state Viterbi algorithm decoder operating at 60 MHz. The rate 7/9 code is periodically time varying and is designed to maximize the Euclidean distance between the modulated codeword sequences, thereby achieving a 3 dB asymptotic coding gain relative to the conventional QPSK system over an AWGN channel. This code is also designed to reduce decoder complexity for high-speed operations. The performance of the proposed system over INTELSAT V and VI non-linear transponders was evaluated by Monte Carlo computer simulation. The 180 Mb/s 8 PSK modem, including the automatic frequency control, automatic gain control, carrier recovery and clock recovery circuits, has been implemented and tested. The complete Viterbi decoder is being implemented on five boards, and the critical add-compare-select (ACS) circuit of the high-speed Viterbi algorithm decoder is being implemented with hybrid technology employing 100-K series emitter-coupled logic dies on specially designed ceramic substrates. The ACS circuit operates at a speed exceeding 120 MHz, well over the design goal of 60 MHz. Construction of this codec is almost complete. |
