Selectivity system for a direct conversion receiver
First Claim
1. A selectivity system for a direct conversion receiver including a plurality of baseband signal channels, comprising:
- a plurality of low-pass LC filters one of which is installed on each of said signal channels which are cornered at frequency 10-100 times greater than the audio bandwidth of the receiver and are constructed so that these filters track well over said bandwidth, said filters being operative for suppressing RF mixer products and far off-channel signals;
a plurality of low-pass active filters one of which is installed on each of said signal channels following said LC filters which are cornered at a frequency 1.2-5 times greater than the audio bandwidth of the receiver and are constructed so that these filters track well over said bandwidth, said filters being operative for suppressing near off-channel signals and helping to preserve the dynamic range of the receiver; and
a plurality of low-pass switched-capacitor filters one of which is installed on each of said signal channels following said active filters which are cornered so as to define the audio bandwidth of the receiver and are constructed so that these filters track well over said bandwidth, said filters being operative for suppressing all off-channel signals including any signals proximate to the audio bandwidth of the receiver.
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Abstract
A direct conversion receiver having a tri-phase architecture including three separate baseband signal channels. RF communications signals which are being tuned by the receiver are split into three equal and in-phase components which are mixed with three equal but substantially out-of-phase injection signals on frequency with the communications signal. The resulting baseband component signals are independently filtered and amplified on the three signal channels. The baseband components are then directed to a signal processing unit which corrects the baseband components for gain or phase mismatch errors between the signal channels based on the information carried by the three components and thereafter demodulates the signals in order to acquire the information carried by the RF communications signal. An automatic gain control system and a signal filtering system adapted for use with direct conversion receivers are also disclosed.
83 Citations
12 Claims
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1. A selectivity system for a direct conversion receiver including a plurality of baseband signal channels, comprising:
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a plurality of low-pass LC filters one of which is installed on each of said signal channels which are cornered at frequency 10-100 times greater than the audio bandwidth of the receiver and are constructed so that these filters track well over said bandwidth, said filters being operative for suppressing RF mixer products and far off-channel signals; a plurality of low-pass active filters one of which is installed on each of said signal channels following said LC filters which are cornered at a frequency 1.2-5 times greater than the audio bandwidth of the receiver and are constructed so that these filters track well over said bandwidth, said filters being operative for suppressing near off-channel signals and helping to preserve the dynamic range of the receiver; and a plurality of low-pass switched-capacitor filters one of which is installed on each of said signal channels following said active filters which are cornered so as to define the audio bandwidth of the receiver and are constructed so that these filters track well over said bandwidth, said filters being operative for suppressing all off-channel signals including any signals proximate to the audio bandwidth of the receiver. - View Dependent Claims (2, 3, 4)
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5. In a direct conversion receiver including a plurality of baseband signal channels, the improvement comprising:
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a plurality of low-pass active filters one of which is installed on each of said signal channels and which are cornered at a frequency greater than the audio bandwidth of the receiver and are constructed so as to track each other closely over said bandwidth and suppress the greatest number of off-channel signals in order to help preserve the dynamic range of the receiver; and a plurality of low-pass switched-capacitor filters one of which is installed on each of said signal channels following said active filters and which are cornered so as to define the audio bandwidth of the receiver and suppress all off-channel signals including any signals proximate to the audio bandwidth of the receiver. - View Dependent Claims (6, 7, 8, 9)
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10. A process for filtering the baseband signals in a direct conversion receiver having a plurality of baseband signal channels, comprising the steps of:
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filtering said baseband signals using matched active low-pass filters cornered at a frequency 1.2-5 times the audio bandwidth of the receiver which are operational for substantially supressing off-channel signals and thereby helping to preserve the dynamic range of the receiver; filtering said baseband signals using matched quasi-digital or digital filters cornered so as to define the audio bandwidth of the receiver and which are operational for suppressing all off-channel signals including signals proximate to said bandwidth but which are characterized by limited dynamic range; and filtering said baseband signals using matched LC filters cornered at a frequency 10-100 times the audio bandwidth of the receiver which are operative for suppressing RF mixer products and off-channels signals; wherein said active filter is cornered at approximately 33 kHz and said quasi-digital or digital filter is cornered at approximately 10 kHz.
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11. In a direct conversion receiver having a plurality of baseband signal channels carrying separate baseband signal components, the improvements comprising:
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digital signal processing means controlled in accordance with a real time low-pass filtering software program characterized by sample weighting factors for processing said baseband components and defining the audio bandwidth of the receiver; means for varying said audio bandwidth by adjusting said weighting factors in accordance with the operational mode of the receiver; and a plurality of active low-pass filters one of which is installed on each of said signal channels prior to said digital signal processing means and which are cornered at a frequency greater than said audio bandwidth and are operational for suppressing near off-channel signals. - View Dependent Claims (12)
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Specification