DC offset detection and cancellation in a receiver
First Claim
1. A method for detecting and canceling DC offset in a receiver, comprising:
- downconverting a received signal to a baseband level signal;
providing the baseband level signal to a first filter system to generate a first filtered signal;
converting the first filtered signal to a digital signal at a first sampling rate to develop a DC estimate signal representative of any direct current (DC) component present on the downconverted received signal;
providing the digital signal to a second filter system to generate a second filtered signal and develop a second sampling rate, where the first sampling rate is significantly higher than the second sampling rate;
developing the DC estimate signal in the digital domain;
converting the DC estimate signal to an analog signal;
applying the analog DC estimate signal to cancel any DC component present on the downconverted received signal; and
applying the DC estimate signal in the digital domain to cancel any residual DC component present on the downconverted received signal.
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Accused Products
Abstract
A DC offset detection and cancellation system for a receiver is disclosed. The DC offset detection and cancellation system comprises a downconverter configured to downconvert a received signal to a baseband level signal, the downconverted signal having a first sampling rate, a filter system configured to filter the downconverted received signal at the first sampling rate, and estimator logic configured to sample the downconverted received signal at the first sampling rate to develop a DC estimate signal representative of any direct current (DC) component present on the downconverted received signal, the filter system configured to develop a second sampling rate, where the first sampling rate is significantly higher than the second sampling rate.
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Citations
12 Claims
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1. A method for detecting and canceling DC offset in a receiver, comprising:
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downconverting a received signal to a baseband level signal; providing the baseband level signal to a first filter system to generate a first filtered signal; converting the first filtered signal to a digital signal at a first sampling rate to develop a DC estimate signal representative of any direct current (DC) component present on the downconverted received signal; providing the digital signal to a second filter system to generate a second filtered signal and develop a second sampling rate, where the first sampling rate is significantly higher than the second sampling rate; developing the DC estimate signal in the digital domain; converting the DC estimate signal to an analog signal; applying the analog DC estimate signal to cancel any DC component present on the downconverted received signal; and applying the DC estimate signal in the digital domain to cancel any residual DC component present on the downconverted received signal. - View Dependent Claims (2, 3)
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4. A DC offset detection and cancellation system for a receiver, comprising:
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a downconverter configured to downconvert a received signal to a baseband level signal; a first filter system configured to filter the baseband level signal to generate a first filtered signal; an analog-to-digital converter system configured to convert the first filtered signal to a digital signal at a first sampling rate; a second filter system configured to generate a second filtered signal in response to the digital signal at a second sampling rate, where the first sampling rate is significantly higher than the second sampling rate; estimator logic coupled to the second filter system and configured to develop a DC estimate signal representative of any direct current (DC) component present on the downconverted received signal; logic configured to develop the DC estimate signal in the digital domain; a digital-to-analog converter configured to convert the DC estimate signal to an analog signal; a first subtractor configured to apply the analog DC estimate signal to cancel any DC component present on the downconverted received signal; and a second subtractor configured to apply the DC estimate signal in the digital domain to cancel any residual DC component present on the downconverted received signal. - View Dependent Claims (5, 6)
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7. A portable transceiver, comprising:
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a transmitter configured to modulate and transmit a data signal; a receiver configured to receive a received signal, the receiver comprising; a downconverter configured to downconvert a received signal to a baseband level signal; a first filter system configured to filter the baseband level signal to generate a first filtered signal; an analog-to-digital converter system configured to convert the first filtered signal to a digital signal at a first sampling rate; a second filter system configured to generate a second filtered signal in response to the digital signal at a second sampling rate, where the first sampling rate is significantly higher than the second sampling rate; estimator logic coupled to the second filter system and configured to develop a DC estimate signal representative of any direct current (DC) component present on the downconverted received signal; logic configured to develop the DC estimate signal in the digital domain; a digital-to-analog converter configured to convert the DC estimate signal to an analog signal; a first subtractor configured to apply the analog DC estimate signal to cancel any DC component present on the downconverted received signal; and a second subtractor configured to apply the DC estimate signal in the digital domain to cancel any residual DC component present on the downconverted received signal. - View Dependent Claims (8, 9)
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10. A portable transceiver, comprising:
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means for modulating and transmitting a data signal; means for downconverting a received signal to a baseband level signal; means for providing the baseband level signal to a first filter system to generate a first filtered signal; means for sampling the first filtered signal at the first sampling rate to develop a DC estimate signal representative of any direct current (DC) component present on the downconverted received signal; means for filtering the sampled first filter signal using a second filter system to develop a second sampling rate, where the first sampling rate is significantly higher than the second sampling rate; means for developing the DC estimate signal in the digital domain; means for convening the DC estimate signal to an analog signal; means for applying the analog DC estimate signal to cancel any DC component present on the downconverted received signal; and means for applying the DC estimate signal in the digital domain to cancel any residual DC component present on the downconverted received signal. - View Dependent Claims (11, 12)
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Specification