A spread-spectrum modem using constant envelope BPSK for a mobile satellite communications terminal
Abstract
This paper describes a 5-kilobit/s spread spectrum modem with a 1.275 mega-Hz chip rate for mobile satellite communications. We used a Viterbi decoder with a coding gain of 7.8 dB at a BER of 10(exp -5) to decrease the required receiver power. This reduces the cost of communication services. The spread spectrum technique makes the modem immune to terrestrial radio signals and keeps it from causing interference in terrestrial radio systems. A class C power amplifier reduces the modem's power consumption. To avoid nonlinear distortion caused by the amplifier, the envelope of the input signal is kept constant by adding quadrature channel signal to the BPSK signal. To simulate the worst case, we measured the modem's output spectrum using a limiting amplifier instead of the class C amplifier, and found that 99 percent of the spectral power was confined to the specified 2.55 mega-Hz bandwidth.
- Publication:
-
International Mobile Satellite Conference
- Pub Date:
- 1990
- Bibcode:
- 1990imsc.conf..267I
- Keywords:
-
- Binary Phase Shift Keying;
- Mobile Communication Systems;
- Modems;
- Satellite Communication;
- Spread Spectrum Transmission;
- Viterbi Decoders;
- Bandwidth;
- Computerized Simulation;
- Modulation;
- Power Amplifiers;
- Radio Signals;
- Receivers;
- Communications and Radar