Reducing LO leakage in a direct conversion receiver quadrature stage
First Claim
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1. A quadrature downconverter for a direct conversion receiver, said downconverter comprising:
- an RF input element configured to provide at least first and second RF inputs;
at least first and second quadrature splitters configured to receive said at least first and second RF inputs respectively, and to provide at least first and second in-phase RF outputs and at least first and second quadrature RF outputs;
a local oscillator operating to provide at least first and second reference signals, each reference signal having an in-phase reference output and a quadrature reference output; and
at least two sets of mixers, each set having at least first and second mixers, said first mixers of each mixer set modulating said first and said second in-phase RF output with said in-phase reference output respectively to produce in-phase baseband signals, and said second mixers of each mixer set modulating said first and said second quadrature RF output with said quadrature reference output respectively to produce quadrature baseband signals, where said at least first and second quadrature splitters and said reference outputs cooperate to substantially reduce any local oscillator leakage signal leaking into said RF input element.
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Abstract
An LO leakage canceller for a direct conversion receiver is disclosed. The canceller includes an RF input stage operating to provide at least two input signals, a local oscillator, an in-phase processor, and a quadrature processor. The local oscillator is configured to produce at least two reference signals for modulating the two input signals. Each of the in-phase and quadrature processors includes two consecutive quadrature splitters operating to substantially reduce leakage of the reference signal from the local oscillator to the RF input stage.
43 Citations
15 Claims
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1. A quadrature downconverter for a direct conversion receiver, said downconverter comprising:
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an RF input element configured to provide at least first and second RF inputs;
at least first and second quadrature splitters configured to receive said at least first and second RF inputs respectively, and to provide at least first and second in-phase RF outputs and at least first and second quadrature RF outputs;
a local oscillator operating to provide at least first and second reference signals, each reference signal having an in-phase reference output and a quadrature reference output; and
at least two sets of mixers, each set having at least first and second mixers, said first mixers of each mixer set modulating said first and said second in-phase RF output with said in-phase reference output respectively to produce in-phase baseband signals, and said second mixers of each mixer set modulating said first and said second quadrature RF output with said quadrature reference output respectively to produce quadrature baseband signals, where said at least first and second quadrature splitters and said reference outputs cooperate to substantially reduce any local oscillator leakage signal leaking into said RF input element. - View Dependent Claims (2, 3, 4, 5, 6)
at least two quadrature splitters coupled to said local oscillator, each of said at least two quadrature splitters operating to provide said in-phase and quadrature reference outputs for said each reference signal.
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3. The quadrature downconverter of claim 2, wherein said in- phase and quadrature reference outputs are phase shifted by 90 degrees.
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4. The quadrature downconverter of claim 2, wherein said at least first and second in-phase RF outputs and said in-phase reference output produce a first local oscillator leakage signal having 0°
- phase shift, and said at least first and second quadrature RF outputs and said quadrature reference output produce a second local oscillator leakage signal having 180°
phase shift, where said at least first and second quadrature splitters operate to sum said first and second local oscillator leakage signals, which substantially reduces said first and second local oscillator leakage signal.
- phase shift, and said at least first and second quadrature RF outputs and said quadrature reference output produce a second local oscillator leakage signal having 180°
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5. The quadrature downconverter of claim 1, wherein said in-phase RF outputs and said quadrature RF outputs are phase shifted by 90 degrees.
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6. The quadrature downconverter of claim 1, further comprising:
a power splitter coupled to said RF input element, said power splitter operating to provide said at least first and second RF inputs having substantially similar power.
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7. An LO leakage canceller for a direct conversion receiver, said canceller comprising:
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an RF input stage operating to provide at least two input signals;
a local oscillator configured to produce at least two reference signals for modulating said at least two input signals, said at least two reference signals representing an in-phase signal and a quadrature signal;
an in-phase processor configured to produce an in-phase baseband signal, said in-phase processor including two quadrature splitters cooperating to substantially reduce leakage of one of said at least two reference signals from said local oscillator to said RF input stage; and
a quadrature processor configured to produce a quadrature baseband signal, said quadrature processor including two quadrature splitters cooperating to substantially reduce leakage of another of said at least two reference signals from said local oscillator to said RF input stage. - View Dependent Claims (8, 9, 10, 11, 12)
an RF quadrature splitter configured to cancel said leakage by summing a leakage signal with no phase shift with a leakage signal with 180°
phase shift.
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12. The LO leakage canceller of claim 7, wherein said quadrature processor includes:
an RF quadrature splitter configured to cancel said leakage by summing a leakage signal with no phase shift with a leakage signal with 180°
phase shift.
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13. A direct conversion receiver, comprising:
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a duplexer configured to pass RF signal within a specified band of frequency;
a low-noise amplifier coupled to said duplexer, and operating to amplify said RF signal, said amplifier providing at least two input signals;
a local oscillator configured to produce at least two reference signals for modulating said at least two input signals, said at least two reference signals representing an in-phase signal and a quadrature signal;
an in-phase processor configured to produce an in-phase baseband signal, said in-phase processor including two quadrature splitters cooperating to substantially reduce leakage of one of said at least two reference signals from said local oscillator to said RF input stage; and
a quadrature processor configured to produce a quadrature baseband signal, said quadrature processor including two quadrature splitters cooperating to substantially reduce leakage of another of said at least two reference signals from said local oscillator to said RF input stage. - View Dependent Claims (14, 15)
an RF quadrature splitter configured to cancel said leakage by summing a leakage signal with no phase shift with a leakage signal with 180°
phase shift.
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15. The direct conversion receiver of claim 13, wherein said in-phase processor includes:
an RF quadrature splitter configured to cancel said leakage by summing a leakage signal with no phase shift with a leakage signal with 180°
phase shift.
Specification
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Current AssigneeKyocera Corporation
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Original AssigneeKyocera Wireless Corporation (Kyocera Corporation)
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InventorsKaufman, Ralph, Hunzeker, Darin
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Primary Examiner(s)Tran, Pablo N.
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Application NumberUS09/754,104Time in Patent Office1,294 DaysField of Search455/317, 455/313-316, 455/304, 455/318, 455/302, 455/323, 455/324, 455/296, 455/310, 455/232.1, 455/234.1, 455/334.2, 455/303, 375/324, 375/345, 375/316, 375/328, 375/329, 375/334, 375/335US Class Current455/317CPC Class CodesH03D 3/008 Compensating DC offsets
