Title :
Adaptive compensation for imbalance and offset losses in direct conversion transceivers
Author :
Cavers, James K. ; Liao, Maria W.
Author_Institution :
Sch. of Eng. Sci., Simon Fraser Univ., Burnaby, BC, Canada
fDate :
11/1/1993 12:00:00 AM
Abstract :
The current interest in linear modulation and multilevel signals has resulted in an emphasis on DSP implementations to achieve precision signal manipulation. However, most transceivers, and direct conversion designs in particular, rely on analog implementations of the quadrature modulator and demodulator, thereby sacrificing much of the precision gained through DSP. The present paper focuses on the three principal impairments of analog quadrature modulators and demodulators: gain imbalance, phase imbalance, and DC offset. The paper contains three main contributions. First is an analysis and quantitative assessment of the losses-primarily a degraded BER and out-of-band power in the transmitted signal-due to imbalances and offsets. The second contribution is an adaptive compensation technique for the quadrature modulator at the transmitter, and the third is a compensation technique for the quadrature demodulator at the receiver. Both compensation methods converge quickly and present only a modest computational load
Keywords :
adaptive filters; amplitude modulation; demodulators; error compensation; filtering and prediction theory; losses; mobile radio systems; modulators; transceivers; DC offset; DSP implementations; adaptive compensation technique; compensation methods; demodulators; direct conversion transceivers; gain imbalance; linear modulation; multilevel signals; offset losses; phase imbalance; precision signal manipulation; quadrature modulator; transmitted signal; Band pass filters; Bit error rate; Demodulation; Digital signal processing; Equalizers; Power system modeling; Propagation losses; Radio frequency; Transceivers; Transmitters;
Journal_Title :
Vehicular Technology, IEEE Transactions on
