Multiband RF receiver and method for receiving multiband RF signal
First Claim
1. A receiver for receiving through at least one antenna a multiband radio frequency (RF) signal having first and second RF bands which are distinct,wherein the first RF band contains high and low frequency portions which are adjacent to each other on a frequency axis, and the second RF band contains high and low frequency portions which are adjacent to each other on a frequency axis, andthe first RF band contains a first existing service RF range in a selected one of the high and low frequency portions of the first RF band, and the second RF band contains a second existing service RF range in a selected one of the high and low frequency portions of the second RF band,the receiver comprising:
- a mixer for converting the RF signal into an intermediate frequency (IF) signal, using a single local oscillator frequency “
f”
produced from a single local oscillator, the single local oscillator frequency “
f”
being in common to the first and second RF bands;
an IF bandpass filter for canceling out frequencies of the IF signal outside of a predetermined passband of the IF bandpass filter; and
an analog-to-digital (A/D) converter for converting the IF signal which has passed through the IF bandpass filter, into a Low-IF signal produced by simultaneous sampling of the IF signal at a single sampling frequency,wherein the IF signal contains a first IF band corresponding to the first RF band, and a second IF band corresponding to the second RF band,the first IF band contains a first existing service IF range corresponding to the first existing service RF range,the second IF band contains a second existing service IF range corresponding to the second existing service RF range, andthe local oscillator frequency “
f”
is determined based on a center frequency and a bandwidth of the first RF band and a center frequency and a bandwidth of the second RF band, to allow the first and second existing service IF ranges to lie outside of the predetermined passband of the IF bandpass filter, and to allow a first unused frequency portion of the first IF band which is exclusive of the first existing service IF range and a second unused frequency portion of the second IF band which is exclusive of the second existing service IF range to lie within the predetermined passband of the IF bandpass filter, to thereby allow the IF passband filter to remove the first and second existing service IF bands from the first and second IF bands, respectively, to extract the first and second unused frequency portions from the first and second IF bands, respectively.
1 Assignment
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Accused Products
Abstract
A multiband receiver is disclosed for receiving a multiband RF signal having first and second RF bands. The first RF band contains a first service RF range, and the second RF band contains a second service RF range. The receiver includes a mixer for converting the RF signal into an IF signal, using a single local oscillator frequency “f,” and an IF bandpass filter for canceling out some of frequencies of the IF signal outside of a predetermined passband. The local oscillator frequency “f” is determined to allow the first and second service IF ranges to lie outside of the predetermined passband, and to allow a frequency portion of the first IF band exclusive of the first service IF range and a frequency portion of the second IF band exclusive of the second service IF range to lie within the predetermined passband.
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Citations
13 Claims
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1. A receiver for receiving through at least one antenna a multiband radio frequency (RF) signal having first and second RF bands which are distinct,
wherein the first RF band contains high and low frequency portions which are adjacent to each other on a frequency axis, and the second RF band contains high and low frequency portions which are adjacent to each other on a frequency axis, and the first RF band contains a first existing service RF range in a selected one of the high and low frequency portions of the first RF band, and the second RF band contains a second existing service RF range in a selected one of the high and low frequency portions of the second RF band, the receiver comprising: -
a mixer for converting the RF signal into an intermediate frequency (IF) signal, using a single local oscillator frequency “
f”
produced from a single local oscillator, the single local oscillator frequency “
f”
being in common to the first and second RF bands;an IF bandpass filter for canceling out frequencies of the IF signal outside of a predetermined passband of the IF bandpass filter; and an analog-to-digital (A/D) converter for converting the IF signal which has passed through the IF bandpass filter, into a Low-IF signal produced by simultaneous sampling of the IF signal at a single sampling frequency, wherein the IF signal contains a first IF band corresponding to the first RF band, and a second IF band corresponding to the second RF band, the first IF band contains a first existing service IF range corresponding to the first existing service RF range, the second IF band contains a second existing service IF range corresponding to the second existing service RF range, and the local oscillator frequency “
f”
is determined based on a center frequency and a bandwidth of the first RF band and a center frequency and a bandwidth of the second RF band, to allow the first and second existing service IF ranges to lie outside of the predetermined passband of the IF bandpass filter, and to allow a first unused frequency portion of the first IF band which is exclusive of the first existing service IF range and a second unused frequency portion of the second IF band which is exclusive of the second existing service IF range to lie within the predetermined passband of the IF bandpass filter, to thereby allow the IF passband filter to remove the first and second existing service IF bands from the first and second IF bands, respectively, to extract the first and second unused frequency portions from the first and second IF bands, respectively. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for converting frequencies of a multiband radio frequency (RF) signal having first and second RF bands which are distinct, operable in a receiver for receiving the RF signal through at least one antenna,
wherein the first RF band contains high and low frequency portions which are adjacent to each other on a frequency axis, and the second RF band contains high and low frequency portions which are adjacent to each other on a frequency axis, and the first RF band contains a first existing service RF range in a selected one of the high and low frequency portions of the first RF band, and the second RF band contains a second existing service RF range in a selected one of the high and low frequency portions of the second RF band, the method comprising the steps of: -
converting the RF signal into an intermediate frequency (IF) signal, using a single local oscillator frequency “
f”
produced from a single local oscillator, the single local oscillator frequency “
f”
being in common to the first and second RF bands;canceling out frequencies of the IF signal outside of a predetermined passband of an IF bandpass filter; and converting the IF signal which has passed through the IF bandpass filter, into a Low-IF signal produced by simultaneous sampling of the IF signal at a single sampling frequency, wherein the IF signal contains a first IF band corresponding to the first RF band, and a second IF band corresponding to the second RF band, the first IF band contains a first existing service IF range corresponding to the first existing service RF range, the second IF band contains a second existing service IF range corresponding to the second existing service RF range, and the local oscillator frequency “
f”
is determined based on a center frequency and a bandwidth of the first RF band and a center frequency and a bandwidth of the second RF band, to allow the first and second existing service IF ranges to lie outside of the predetermined passband of the IF bandpass filter, and to allow a first unused frequency portion of the first IF band which is exclusive of the first existing service IF range and a second unused frequency portion of the second IF band which is exclusive of the second existing service IF range to lie within the predetermined passband of the IF bandpass filter, to thereby allow the IF passband filter to remove the first and second existing service IF bands from the first and second IF bands, respectively, to extract the first and second unused frequency portions from the first and second IF bands, respectively. - View Dependent Claims (9, 10)
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11. A non-transitory computer-readable medium having stored therein a program which, when executed by a computer, controls a receiver for receiving through at least one antenna a multiband radio frequency (RF) signal having first and second RF bands which are distinct,
wherein the first RF band contains high and low frequency portions which are adjacent to each other on a frequency axis, and the second RF band contains high and low frequency portions which are adjacent to each other on a frequency axis, and the first RF band contains a first existing service RF range in a selected one of the high and low frequency portions of the first RF band, and the second RF band contains a second existing service RF range in a selected one of the high and low frequency portions of the second RF band, the receiver comprising: -
a mixer for converting the RF signal into an intermediate frequency (IF) signal, using a single local oscillator frequency “
f”
produced from a single local oscillator, the single local oscillator frequency “
f”
being in common to the first and second RF bands;an IF bandpass filter for canceling out frequencies of the IF signal outside of a predetermined passband of the IF bandpass filter; and an analog-to-digital (A/D) converter for converting the IF signal which has passed through the IF bandpass filter, into a Low-IF signal produced by simultaneous sampling of the IF signal at a single sampling frequency, wherein the IF signal contains a first IF band corresponding to the first RF band, and a second IF band corresponding to the second RF band, the first IF band contains a first existing service IF range corresponding to the first existing service RF range, and the second IF band contains a second existing service IF range corresponding to the second existing service RF range, the program comprising; instructions for selecting an arbitrary point located between the first and second RF bands as an initial local-oscillator-frequency “
f0;
”instructions for moving the local oscillator frequency “
f”
from the initial local-oscillator-frequency “
f0”
by an amount Δ
f for allowing the first and second existing service IF ranges to lie outside of the predetermined passband of the IF bandpass filter, and for calculating the amount Δ
f based on a center frequency and a bandwidth of the first RF band and a center frequency and a bandwidth of the second RF band; andinstructions for indicating a final value of the local oscillator frequency “
f”
to the local oscillator.
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12. A receiver for receiving through at least one antenna a multiband radio frequency (RF) signal having first and second RF bands which are distinct,
wherein the first RF band contains high and low frequency portions, and the second RF band contains high and low frequency portions, and the first RF band contains a first existing service RF range in a selected one of the high and low frequency portions of the first RF band, and the second RF band contains a second existing service RF range in a selected one of the high and low frequency portions of the second RF band, the receiver comprising: -
a mixer for converting the RF signal into an intermediate frequency (IF) signal, using a single local oscillator frequency “
f”
produced from a single local oscillator;an IF bandpass filter for canceling out frequencies of the IF signal outside of a predetermined passband of the IF bandpass filter; and an analog-to-digital (A/D) converter for converting the IF signal which has passed through the IF bandpass filter, into a Low-IF signal produced by simultaneous sampling of the IF signal at a single sampling frequency, wherein the IF signal contains a first IF band corresponding to the first RF band, and a second IF band corresponding to the second RF band, the first IF band contains a first existing service IF range corresponding to the first existing service RF range, the second IF band contains a second existing service IF range corresponding to the second existing service RF range, the local oscillator frequency “
f”
is determined to allow the first and second existing service IF ranges to lie outside of the predetermined passband of the IF bandpass filter, and to allow a frequency portion of the first IF band exclusive of the first existing service IF range and a frequency portion of the second IF band exclusive of the second existing service IF range to lie within the predetermined passband of the IF bandpass filter,the IF bandpass filter is a single IF bandpass filter common to the first and second IF bands, the predetermined passband of the single IF bandpass filter is common to the first and second IF bands, and the local oscillator frequency “
f”
is determined to prevent interference, on a frequency axis, between a frequency portion of the first IF band exclusive of the first existing service IF range, and a frequency portion of the second IF band exclusive of the second existing service IF range, within the predetermined passband of the IF bandpass filter.
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13. A receiver for receiving through at least one antenna a multiband radio frequency (RF) signal having first and second RF bands which are distinct,
wherein the first RF band contains high and low frequency portions, and the second RF band contains high and low frequency portions, and the first RF band contains a first existing service RF range in a selected one of the high and low frequency portions of the first RF band, and the second RF band contains a second existing service RF range in a selected one of the high and low frequency portions of the second RF band, the receiver comprising: -
a mixer for converting the RF signal into an intermediate frequency (IF) signal, using a single local oscillator frequency “
f”
produced from a single local oscillator;an IF bandpass filter for canceling out frequencies of the IF signal outside of a predetermined passband of the IF bandpass filter; and an analog-to-digital (A/D) converter for converting the IF signal which has passed through the IF bandpass filter, into a Low-IF signal produced by simultaneous sampling of the IF signal at a single sampling frequency, wherein the IF signal contains a first IF band corresponding to the first RF band, and a second IF band corresponding to the second RF band, the first IF band contains a first existing service IF range corresponding to the first existing service RF range, the second IF band contains a second existing service IF range corresponding to the second existing service RF range, the local oscillator frequency “
f”
is determined to allow the first and second existing service IF ranges to lie outside of the predetermined passband of the IF bandpass filter, and to allow a frequency portion of the first IF band exclusive of the first existing service IF range and a frequency portion of the second IF band exclusive of the second existing service IF range to lie within the predetermined passband of the IF bandpass filter,the IF signal includes two orthogonal signal components, the mixer includes first and second mixers for the two orthogonal signal components, respectively, the IF bandpass filter includes first and second IF bandpass filters for the two orthogonal signal components, respectively, the A/D converter includes first and second A/D converters for the two orthogonal signal components, respectively, the first and second IF bandpass filters share a common passband, and the local oscillator frequency “
f”
is determined to allow a frequency portion of the first IF band exclusive of the first existing service IF range and a frequency portion of the second IF band exclusive of the second existing service IF range to overlap with each other on a frequency axis, within the predetermined passbands of the first and second IF bandpass filters, respectively.
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Specification