Satellite/cellular phone using different channel spacings on forward and return links
First Claim
Patent Images
1. A communication device, comprising:
- a receiver that receives information over receive frequency channels separated by a first frequency spacing;
a first local oscillator frequency synthesizer programmable in frequency steps equal to the first frequency spacing to generate a first local oscillator signal that tunes the receiver to receive information during receive burst periods;
a transmitter that transmits information over transmit frequency channels separated by a second frequency spacing different from the first frequency spacing; and
a transmit offset frequency synthesizer programmable in frequency steps equal to said second frequency spacing to generate a transmit offset frequency signal, wherein the transmitter is tuned by said first local oscillator signal and said transmit offset frequency signal to transmit a modulated transmit frequency signal during transmit burst periods that are alternating relative to the receive burst periods for communicating the information in a time division duplex manner.
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Abstract
A wireless apparatus is described having a transmitter and a receiver controlled by a frequency synthesizer arrangement to operate on a transmit frequency channel and a receive frequency channel respectively. The transmit frequency channels are not spaced by the same amount in the transmit frequency band as the receive channels are spaced in the receive band, but by a sub-multiple of the receive channel spacing, for example.
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Citations
16 Claims
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1. A communication device, comprising:
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a receiver that receives information over receive frequency channels separated by a first frequency spacing; a first local oscillator frequency synthesizer programmable in frequency steps equal to the first frequency spacing to generate a first local oscillator signal that tunes the receiver to receive information during receive burst periods; a transmitter that transmits information over transmit frequency channels separated by a second frequency spacing different from the first frequency spacing; and a transmit offset frequency synthesizer programmable in frequency steps equal to said second frequency spacing to generate a transmit offset frequency signal, wherein the transmitter is tuned by said first local oscillator signal and said transmit offset frequency signal to transmit a modulated transmit frequency signal during transmit burst periods that are alternating relative to the receive burst periods for communicating the information in a time division duplex manner. - View Dependent Claims (2)
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3. A communication device, comprising:
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a receiver that receives information over receive frequency channels separated by a first frequency spacing; a first local oscillator frequency synthesizer programmable in frequency steps equal to the first frequency spacing to generate a first local oscillator signal that tunes the receiver to receive information during receive burst periods; a transmitter that transmits information over transmit frequency channels separated by a second frequency spacing different from the first frequency spacing; and a transmit offset frequency synthesizer programmable in frequency steps equal to a third frequency spacing different than said first and second frequency spacings to generate a transmit offset frequency signal, wherein the transmitter is tuned by said first local oscillator signal and said transmit offset frequency signal to transmit a modulated transmit frequency signal during transmit burst periods that are alternating relative to the receive burst periods for communicating the information in a time division duplex manner. - View Dependent Claims (4, 5, 6, 7)
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8. An improved radio transmitter-receiver for selecting receive frequency channels alternately with selecting transmit frequency channels, comprising:
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first local oscillator frequency synthesizer means programmable in first frequency steps equal to a first frequency spacing to generate a first local oscillator signal; first receiver downconvertor means using said first local oscillator signal in a first mixer to produce a first IF signal; quadrature oscillator means programmable in second frequency steps different than said first channel spacing to generate cosine and sine signals at a transmit offset frequency during a transmit portion of a communication cycle alternately with generating cosine and sine signals at a receive second local oscillator frequency during a receive portion of the communication cycle; image-rejection second downconvertor means employing said cosine and sine signals to heterodyne convert said first IF signal to a second IF signal; and transmit modulator means using said cosine and sine signals together with said first local oscillator signal to generate a modulated signal at a desired transmit channel frequency. - View Dependent Claims (9, 10, 11, 12)
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13. An improved radio transmitter-receiver for selecting receive frequency channels alternately with selecting transmit frequency channels, comprising:
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first local oscillator fractional-N frequency synthesizer means having a phase comparator operating a frequency equal to an integer multiple of a desired receive channel frequency spacing and programmable in steps equal said receive channel spacing to generate a first local oscillator signal; first receiver downconvertor means using said first local oscillator signal in a first mixer to produce a first IF signal; second local oscillator synthesizer means programmable in second frequency steps different than said receive channel spacing to generate a transmit offset frequency signal during a transmit portion of a communication cycle alternately with generating a receiver second local oscillator frequency signal during a receive portion of the communication cycle; second receiver downconvertor means employing said second local oscillator signal to heterodyne convert said first IF signal to a second IF signal; and transmit modulator means employing said transmit offset frequency signal together with said first local oscillator signal to generate a modulated signal at a desired transmit channel frequency.
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14. A dual-mode radiotelephone device for communicating alternatively with a land-based cellular network base station or via an orbiting satellite with a satellite ground station, comprising:
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first local oscillator frequency synthesizer means programmable in first frequency steps equal to a receive channel frequency spacing to generate a first local oscillator signal for receiving a signal from either a satellite or a cellular base station; first receiver downconvertor means using said first local oscillator signal in a first mixer to produce a first IF signal; second local oscillator synthesizer means programmable in second frequency steps different than said receive channel spacing to generate a transmit offset frequency signal during a transmit portion of a time-division-duplex cycle alternately with generating a second local oscillator frequency signal during a receive portion of a time division duplex cycle; and transmit modulator means employing said transmit offset frequency signal together with said first local oscillator signal to generate a modulated signal at a desired transmit channel frequency either in a frequency band for transmission via a satellite relay or in a frequency band for transmission to a land-based cellular station. - View Dependent Claims (15, 16)
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Specification