Frequency offset image rejection
First Claim
Patent Images
1. A phase shifter for providing a phase shift between a phase shifter input and a phase shifter output, the phase shifter comprising:
- a first resistor connected between the phase shifter input and a first node;
a first capacitor connected between the first node and a ground;
a second capacitor connected between the phase shifter input and a second node;
a second resistor connected between the second node and a ground; and
a difference amplifier having a first input, a second input, and an output that corresponds to a difference between the first and second input, the second input connected to the second node, the first input connected to the first node and the output connected to the phase shifter output.
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Abstract
An approach for providing image rejection during signal down conversion involves phase shifting quadrature signals at a frequency other than the down converted center frequency. One or more phase shifters coupled to a summer/subtractor provide forty five (45) degrees and one hundred thirty five (135) degrees of phase shift with respect to two quadrature input signals. The one or more phase shifters perform the phase shifts of the quadrature input signals at a frequency other than the center frequency of the down-converted signal.
118 Citations
15 Claims
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1. A phase shifter for providing a phase shift between a phase shifter input and a phase shifter output, the phase shifter comprising:
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a first resistor connected between the phase shifter input and a first node;
a first capacitor connected between the first node and a ground;
a second capacitor connected between the phase shifter input and a second node;
a second resistor connected between the second node and a ground; and
a difference amplifier having a first input, a second input, and an output that corresponds to a difference between the first and second input, the second input connected to the second node, the first input connected to the first node and the output connected to the phase shifter output. - View Dependent Claims (2, 3)
where “
R”
represents a value of the first and second resistors and fIF′
is the frequency at which the first and second input signals are phase shifted.
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3. The phase shifter as recited in claim 1, wherein values for the first and the second capacitors are determined by the following equation:
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where “
R”
represents a value of the first and second resistors and fIF′
is the frequency at which the first and second input signals are phase shifted.
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4. An image reject down converter which receives a filtered signal (s(t)1″
- ) from a filter, the filter receiving a signal (s(t)1′
) and having a roll-off frequency region in which the attenuation of the signal (s(t)1′
) varies with frequency, said down converter comprising;an input phase shifter module which receives the filtered signal (s(t)1″
) and outputs a first intermediate signal (Vi′
) and a second intermediate signal (Vq′
), the second intermediate signal (Vq′
) being 90 degrees out of phase with the first intermediate signal (Vi′
);
first and second phase shifters coupled to the phase shifter module, the first phase shifter phase shifting the first intermediate signal (Vi′
) to provide a first phase shifted signal (Vi) and the second phase shifter phase shifting the second intermediate signal (Vq′
) to provide a second phase shifted signal (Vq), the second phase shifted signal (Vq) being phase shifted 180 degrees relative to the first phase shifted signal (Vi); and
a device coupled to the first and second phase shifters and responsive to the first and second phase shifted signals (Vi, Vq) to generate a down converted signal (VIF) equal to at least one of (i) the sum and (ii) the difference of the first (Vi) and second (Vq) phase shifted signals, the down converted signal (VIF) having a center frequency and an image band (fIM), the image band being shifted from the center frequency and situated in the roll-off frequency region of the filter such that the filtered signal in the image band has asymmetric attenuation, wherein the first and second phase shifters phase shift the first and second intermediate signals at a center frequency shifted from the center frequency of the down converted signal so that the attenuation of the filtered signal (s(t)1″
) in the image band by the down converter is asymmetric and substantially opposite the image rejection of the signal (s(t)1′
) by the filter such that the attenuation of the image band (fIM) in the down converted signal (VIF) is at least substantially symmetric and greater than the attenuation of the signal (s(t)1′
) by the filter.- View Dependent Claims (5, 6, 7, 8, 9, 10)
a first resistor connected between the phase shifter input and a first node, a first capacitor connected between the first node and a ground, a second capacitor connected between the phase shifter input and a second node, a second resistor connected between the second node and the ground, and a buffer having a non-inverting input connected to the second node, an inverting input connected to the first node and an output connected to the phase shifter output.
- ) from a filter, the filter receiving a signal (s(t)1′
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7. The image reject down converter as recited in claim 6, wherein values for the first and the second capacitors are determined by the following equation:
-
where “
R”
represents a value of the first and second resistors and fIF is the frequency at which the first and second intermediate signals are phase shifted.
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8. The image reject down converter as recited in claim 6, wherein values for the first and the second capacitors are determined by the following equation:
-
where “
R”
represents a value of the first and second resistors and fIF′
is the frequency at which the first and second input signals are phase shifted.
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9. An image reject down converter according to claim 4, wherein said input phase shifter module comprises:
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first and second mixers each having a first signal input which receives the filtered input signal and a second input;
a local oscillator and an input phase shifter which together provide respective signals to the second inputs of the first and second mixers to generate the first and second intermediate signals.
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10. An image reject down converter according to claim 4, wherein said image reject down converter is embodied on an integrated circuit.
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11. An RF receiver, comprising:
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a filter which receives a modulated signal at a first center frequency and generates a filtered signal, the filter having a filter roll-off frequency region in which the attenuation of the filter varies with frequency;
an image reject down converter which receives the filtered signal and outputs a down converted signal having a center frequency substantially lower than the first center frequency of the modulated signal, the down converter defining an image band shifted from the center frequency and being within the roll-off frequency region of the filter, said down converter phase shifting the filtered input signal into first and second intermediate signals phase shifted with respect to each other by 90 degrees, said down converter further including first and second phase shifters each phase shifting a respective one of the first and second intermediate signals to generate first and second phase shifted signals, the first and second phase shifters phase shifting the first and second intermediate signals at a center frequency shifted from the center frequency of the down converted signal so that the image reject down converter asymmetrically attenuates the filtered signal in the image band in a manner substantially opposite the attenuation of the modulated signal by the filter so that the attenuation of the down converted signal in the image band is at least substantially symmetric and greater than the attenuation of the modulated signal by the filter in the image band. - View Dependent Claims (12, 13)
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14. A method of down converting a signal, which signal is asymmetrically attenuated in a first frequency region, to generate a down converted signal, said method comprising:
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receiving the signal;
phase shifting the received signal to generate first and second intermediate signals phase shifted with respect to each other by 90 degrees;
phase shifting the first and second intermediate signals to generate first and second phase shifted signals; and
combining the first and second phase shifted signals to generate the down-converted equal to at least one of (i) the sum and (ii) the difference of the first and second phase shifted signals, the down converted signal having a center frequency and an image band spaced from the center frequency and situated in the first frequency region, said phase shifting of the first and second intermediate signals being at a frequency different from the center frequency of the down converted signal to asymmetrically attenuate the received signal in the image band in a manner substantially opposite the attenuation of the modulated signal so that the attenuation of the down converted signal in the image band is at least substantially symmetric. - View Dependent Claims (15)
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Specification