Integrated DSP/RF design for an MSAT transmitter
Abstract
In mobile radio systems, the relatively inefficient use of the spectrum by existing Frequency Modulation (FM) techniques is limiting the available channels. Linear modulation methods are thought to provide the necessary push into more efficient usage of the spectrum. The limitation, to date, of the linear modulation techniques is the fact that the nonlinear power amplifier tends to spread the spectrum and thus offset any spectrum efficiency advantage. Linearization techniques are presently being investigated, in the literature, in order to recover some of the lost spectrum, due to spreading. To this end, digital signal processing (DSP) techniques are thought to provide real time predistortion methods. Some of the complex modulation blocks, normally confined to analog circuitry, are being implemented using DSP circuitry. This paper will address the linearization techniques, for mobile satellite (MSAT) transceivers, that use an integrated DSP/radio frequency design.
- Publication:
-
International Mobile Satellite Conference
- Pub Date:
- 1990
- Bibcode:
- 1990imsc.conf..302S
- Keywords:
-
- Channels (Data Transmission);
- Digital Techniques;
- Frequency Modulation;
- Linearization;
- Msat;
- Power Amplifiers;
- Signal Processing;
- Transmitters;
- Nonlinearity;
- Radio Frequencies;
- Real Time Operation;
- Spread Spectrum Transmission;
- Transmitter Receivers;
- Communications and Radar