Calibration techniques for sigma delta transceivers

What is claimed is: 1. A transceiver front-end circuit for a cellular radio, said transceiver circuit comprising: an antenna operable to transmit signals and receive signals; a switch module including a switching network that directs analog transmit signals to be transmitted to the antenna and receives receive signals from the antenna, said switch module further including a multiplexer module coupled to the switching network and including a plurality of signal paths, where each signal path includes a bandpass filter that passes a different frequency band than the other bandpass filters and a circulator that provides signal isolation between the transmit signals and the receive signals; a receiver module including a separate signal channel for each of the signal paths in the multiplexer module, where each signal channel in the receiver module includes a receiver delta-sigma modulator that converts analog receive signals to representative digital signals; a transmitter module including a transmitter delta-sigma modulator for converting digital signals to the transmit signals, said transmitter module including a tunable bandpass filter and a power amplifier for amplifying the transmit signals before transmitting; and a calibration feedback and switch module receiving the amplified transmit signals from the power amplifier, said calibration and switch module including a first switch that selectively directs the amplified transmit signals to the antenna or a calibration circuit that determines predistortion values in the transmit signals that are fed back as a calibration feedback signal to the transmitter module to compensate for distortions in the power amplifier. 2. The transceiver circuit according to claim 1 wherein the switching network directs the transmit signals from the power amplifier to the receiver module to provide transmit signal calibration. 3. The transceiver circuit according to claim 2 wherein the switch module includes a variable low/attenuator module for attenuating the transmit signals before being sent to the receiver module. 4. The transceiver circuit according to claim 3 wherein the switching network includes a second switch that selectively directs the transmit signals to the antenna or the variable low/attenuator module and a third switch that selectively directs the attenuated transmit signals from the variable low/attenuator module to the receiver module or the transmit signals from the multiplexer module to the receiver module. 5. The transceiver circuit according to claim 1 further comprising a compensation module that provides timing, phase, frequency and bias setting signals to the receiver module and the transmitter module. 6. The transceiver circuit according to claim 5 wherein the compensation module includes a surface acoustic wave (SAW) resonator clock source having low phase noise and jitter. 7. The transceiver circuit according to claim 5 wherein the compensation module includes a low noise phase locked loop (PLL) comparator that compensates for frequency errors in the receiver delta-sigma modulator and the transmitter delta-sigma modulator. 8. The transceiver circuit according to claim 5 wherein the compensation module includes a bias circuit for providing bias settings for the calibration feedback signal. 9. The transceiver circuit according to claim 1 further comprising a self-interference cancellation module that removes residual transmit signals that leak into the receiver module. 10. The transceiver circuit according to claim 9 wherein the receiver module includes a signal combiner and switch module that receives a cancellation signal from the cancellation module and operates to remove the residual signals generated by the transmitter module. 11. The transceiver circuit according to claim 1 wherein the multiplexer module is a triplexer module. 12. The transceiver circuit according to claim 1 wherein the cellular radio is a vehicle cellular radio. 13. A transceiver front-end circuit for a cellular radio, said transceiver circuit comprising: an antenna operable to transmit signals and receive signals; a switch module including a switching network that directs analog transmit signals to be transmitted to the antenna and receives receive signals from the antenna, said switch module further including a multiplexer module coupled to the switching network and including a plurality of signal paths, where each signal path includes a bandpass filter that passes a different frequency band than the other bandpass filters and a circulator that provides signal isolation between the transmit signals and the receive signals; a receiver module including a separate signal channel for each of the signal paths in the multiplexer module, each signal channel in the receiver module including a receiver delta-sigma modulator that converts analog receive signals to representative digital signals; a transmitter module including a transmitter delta-sigma modulator for converting digital signals to the transmit signals, said transmitter module including a tunable bandpass filter and a power amplifier for amplifying the transmit signals before transmitting; and a compensation module that provides timing, phase, frequency and bias setting signals to the receiver module and the transmitter module. 14. The transceiver circuit according to claim 13 wherein the compensation module includes a surface acoustic wave (SAW) resonator clock source having low phase noise and jitter. 15. The transceiver circuit according to claim 13 wherein the compensation module includes a low noise phase locked loop (PLL) comparator that compensates for frequency errors in the receiver delta-sigma modulator and the transmitter delta-sigma transmitter modulator. 16. The transceiver circuit according to claim 13 wherein the compensation module includes a bias circuit for providing bias settings for the calibration feedback signal. 17. A transceiver front-end circuit for a cellular radio, said transceiver circuit comprising: an antenna operable to transmit signals and receive signals; a switch module including a switching network that directs analog transmit signals to be transmitted to the antenna and receives receive signals from the antenna, said switch module further including a multiplexer module coupled to the switching network and including a plurality of signal paths, where each signal path includes a bandpass filter that passes a different frequency band than the other bandpass filters and a circulator that provides signal isolation between the transmit signals and the receive signals; a receiver module including a separate signal channel for each of the signal paths in the multiplexer module, each signal channel in the receiver module including a receiver delta-sigma modulator that converts analog receive signals to representative digital signals; and a transmitter module including a transmitter delta-sigma modulator for converting digital signals to the transmit signals, said transmitter module including a tunable bandpass filter and a power amplifier for amplifying the transmit signals before transmitting, wherein the switching network directs the transmit signals from the power amplifier to the receiver module to provide transmit signal calibration, said switch module further including a variable low/attenuator module for attenuating the transmit signals before being sent to the receiver module, wherein the switching network includes a second switch that selectively directs the transmit signals to the antenna or the variable low/attenuator module and a third switch that