Method, system and apparatus for automatic gain control in direct-conversion receiver

We claim: 1 . A wireless receiver, comprising: a coarse amplification subsystem configured to receive a carrier-modulated signal from an antenna and amplify the carrier-modulated signal; a demodulator connected to the coarse amplification subsystem and configured to generate a baseband signal from the amplified carrier-modulated signal; a fine amplification subsystem connected to the demodulator and configured to amplify the baseband signal; an offset compensation subsystem including at least one digital-to-analog converter (DAC) connected to at least one of a demodulator output and a fine amplification subsystem output; a memory storing a set of feed-forward offset compensation control values; and a controller connected to the coarse amplification subsystem, the fine amplification subsystem, the offset compensation subsystem and the memory, the controller configured to: obtain a coarse gain value for controlling the coarse amplification subsystem, and a fine gain value for controlling the fine amplification subsystem; based on the coarse gain value, retrieve an offset control value from the set of feed-forward offset compensation control values in the memory; control the at least one DAC based on the retrieved offset control value; and control the coarse amplification subsystem and the fine amplification subsystem based on the coarse gain value and the fine gain value. 2 . The wireless receiver of claim 1 , the offset compensation subsystem including a plurality of DACs. 3 . The wireless receiver of claim 2 , the plurality of DACs comprising: a first DAC connected to the demodulator output to apply offset compensation to the baseband signal; and a second DAC connected to the fine amplification subsystem output. 4 . The wireless receiver of claim 3 , the fine amplification subsystem including a plurality of variable gain amplifiers (VGAs); the second DAC connected to an output of one of the VGAs. 5 . The wireless receiver of claim 4 , the plurality of DACs further comprising a third DAC connected to an output of a further one of the VGAs. 6 . The wireless received of claim 5 , the plurality of VGAs including four VGAs connected in series between the demodulator output and an output driver of the wireless receiver; the second DAC, the third DAC, and a fourth DAC connected, respectively, to the first, second and third VGAs following the demodulator. 7 . The wireless receiver of claim 2 , the set of feed-forward offset compensation control values comprising a record corresponding to each of a plurality of coarse gain values; each record including a control value for each of the DACs. 8 . The wireless receiver of claim 7 , the controller further configured to retrieve the offset control value by: selecting the record corresponding to the obtained coarse gain value; and retrieving the control values from the selected record. 9 . The wireless receiver of claim 8 , each offset control value defining one of an offset voltage and an offset current. 10 . The wireless receiver of claim 8 , each offset control value defining an index corresponding to one of an offset voltage and an offset current stored in the memory. 11 . The wireless receiver of claim 8 , the controller further configured to control the plurality of DACs by sending the control values to the plurality of DACs. 12 . The wireless receiver of claim 1 , the controller further configured to: responsive to start-up of the wireless receiver, perform a calibration process to update the set of feed-forward offset compensation control values. 13 . The wireless receiver of claim 12 , the controller further configured to perform the calibration process by: obtaining a measurement of offset from the demodulator output and the fine gain amplification subsystem output; and updating the set of feed-forward offset compensation control values based on the measurements. 14 . A method in a wireless receiver having a coarse amplification subsystem configured to receive a carrier-modulated signal from an antenna and amplify the carrier-modulated signal, a demodulator connected to the coarse amplification subsystem and configured to generate a baseband signal from the amplified carrier-modulated signal, a fine amplification subsystem connected to the demodulator and configured to amplify the baseband signal, an offset compensation subsystem including at least one digital-to-analog converter (DAC) connected to at least one of a demodulator output and a fine amplification subsystem output, and a controller, the method comprising: storing a set of feed-forward offset compensation control values; obtaining a coarse gain value for controlling the coarse amplification subsystem, and a fine gain value for controlling the fine amplification subsystem; based on the coarse gain value, retrieving an offset control value from the set of feed-forward offset compensation control values in the memory; controlling the at least one DAC based on the retrieved offset control value; and controlling the coarse amplification subsystem and the fine amplification subsystem based on the coarse gain value and the fine gain value. 15 . The method of claim 14 , wherein the offset compensation subsystem includes a plurality of DACs and the set of feed-forward offset compensation control values includes a record corresponding to each of a plurality of coarse gain values, each record including a control value for each of the DACs, the method further comprising retrieving the offset control value by: selecting the record corresponding to the obtained coarse gain value; and retrieving the control values from the selected record. 16 . The method of claim 15 , each offset control value defining one of an offset voltage and an offset current. 17 . The method of claim 15 , each offset control value defining an index corresponding to one of an offset voltage and an offset current stored in the memory. 18 . The method of claim 15 , further comprising: controlling the plurality of DACs by sending the control values to the plurality of DACs. 19 . The method of claim 14 , further comprising: responsive to start-up of the wireless receiver, performing a calibration process to update the set of feed-forward offset compensation control values. 20 . The method of claim 19 , wherein performing the calibration process comprises: obtaining a measurement of offset from the demodulator output and the fine gain amplification subsystem output; and updating the set of feed-forward offset compensation control values based on the measurements.