Radio having a fast adapting direct conversion receiver
First Claim
1. A direct conversion receiver capable of recovering a filtered baseband signal from a radio signal modulated with a baseband signal representing a signaling protocol, comprising:
- a radio frequency mixer for converting the radio signal to the baseband signal;
a lowpass amplifier DC coupled to said radio frequency mixer, that amplifies the baseband signal and substantially attenuates components of the baseband signal above a high corner frequency; and
a DC offset compensation section DC coupled to said lowpass amplifier, that provides a DC offset compensation and a controlled highpass filtering of the baseband signal wherein a low corner frequency of said DC offset compensation section is smoothly varied from a predetermined maximum value to a predetermined minimum value during a low frequency, low energy period of the signaling protocol.
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Accused Products
Abstract
A direct conversion receiver (200) is capable of recovering a filtered baseband signal (295) from a radio signal (201) modulated with a baseband signal (202). The direct conversion receiver (200) comprises a radio frequency mixer (205) for converting the radio signal (201) to the baseband signal (202), a lowpass amplifier (210) DC coupled to the radio frequency mixer (205), that amplifies the baseband signal (202) and substantially attenuates components of the baseband signal above a high corner frequency, and a DC offset compensation section (225) DC coupled to the lowpass amplifier (210), that provides a DC offset compensation and a controlled highpass filtering of the baseband signal. A low corner frequency of the DC offset compensation section is smoothly varied from a predetermined maximum value to a predetermined minimum value during a low frequency, low energy portion of the signaling protocol.
52 Citations
9 Claims
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1. A direct conversion receiver capable of recovering a filtered baseband signal from a radio signal modulated with a baseband signal representing a signaling protocol, comprising:
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a radio frequency mixer for converting the radio signal to the baseband signal; a lowpass amplifier DC coupled to said radio frequency mixer, that amplifies the baseband signal and substantially attenuates components of the baseband signal above a high corner frequency; and a DC offset compensation section DC coupled to said lowpass amplifier, that provides a DC offset compensation and a controlled highpass filtering of the baseband signal wherein a low corner frequency of said DC offset compensation section is smoothly varied from a predetermined maximum value to a predetermined minimum value during a low frequency, low energy period of the signaling protocol. - View Dependent Claims (2, 3, 4, 5)
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6. A direct conversion receiver capable of recovering a filtered baseband signal from a radio signal modulated with a baseband signal representing a signaling protocol, comprising:
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a radio frequency mixer for converting the radio signal to the baseband signal; a lowpass amplifier DC coupled to said radio frequency mixer, that amplifies the baseband signal and substantially attenuates components of the baseband signal above a high corner frequency; and a DC offset compensation section DC coupled to said lowpass amplifier, that provides a DC offset compensation and a controlled highpass filtering of the baseband signal wherein a low corner frequency of said DC offset compensation section is smoothly varied from a predetermined maximum value to a predetermined minimum value during a low frequency, low energy period of the signaling protocol, wherein the low frequency, low energy period of the signaling protocol is a synchronization portion, and wherein a low frequency energy content of the synchronization portion is substantially less than a low frequency energy content of an information portion of the signaling protocol. - View Dependent Claims (7)
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8. A direct conversion receiver capable of recovering a filtered baseband signal from a radio signal modulated with a baseband signal representing a signaling protocol, comprising:
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a radio frequency mixer for converting the radio signal to the baseband signal; a lowpass amplifier DC coupled to said radio frequency mixer, that amplifies the baseband signal and substantially attenuates components of the baseband signal above a high corner frequency; and a DC offset compensation section DC coupled to said lowpass amplifier, that provides a DC offset compensation and a controlled highpass filtering of the baseband signal wherein a low corner frequency of said DC offset compensation section is smoothly varied from a predetermined maximum value to a predetermined minimum value during a low frequency, low energy portion of the signaling protocol, the DC offset compensation section comprising; a ramp circuit that generates a bandwidth ramp signal in response to a control signal that indicates the low frequency, low energy portion of the signaling-protocol; and a controlled DC offset compensation circuit coupled to the ramp circuit, that provides DC offset compensation and controlled highpass filtering of the baseband signal, wherein the controlled highpass filtering has the low corner frequency, and wherein the low corner frequency is proportional to the bandwidth ramp signal.
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9. A direct conversion receiver capable of recovering a filtered baseband signal from a radio signal modulated with a baseband signal representing a signaling protocol, comprising:
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a radio frequency mixer for converting the radio signal to the baseband signal; a lowpass amplifier DC coupled to said radio frequency mixer, that amplifies the baseband signal and substantially attenuates components of the baseband signal above a high corner frequency, wherein said lowpass amplifier comprises one or more gain stages; and a DC offset compensation section DC coupled to said lowpass amplifier, that provides a DC offset compensation and a controlled highpass filtering of the baseband signal wherein a low corner frequency of said DC offset compensation section is smoothly varied from a predetermined maximum value to a predetermined minimum value during a low frequency, low energy portion of the signaling protocol; and wherein said DC offset compensation section comprises one or more DC offset compensation stages, each coupled to an output of different ones of said one or more gain stages, and wherein each of said one or more DC offset compensation stages provides a portion of the DC offset compensation and provides a highpass filtering of the baseband signal at the low corner frequency.
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Specification