Transmitting and receiving unit
First Claim
1. A transmitting and receiving unit, comprising:
- first and second frequency generators each having a separate phase-locked loop with a local oscillator frequency set independently by a divider ratio, said phase-locked loop of said first frequency generator outputting a first local oscillator frequency and said phase-locked loop of said second frequency generator outputting a second local oscillator frequency;
a switch having switch positions including a first switch position and a second switch position;
a receiving branch with an in-phase component and a quadrature component, said receiving branch having a first frequency converter coupled to said first frequency generator;
a transmitting branch with an in-phase component and a quadrature component, said transmitting branch having a second frequency converter switchably coupled to one of said first and second frequency generators through said switch;
a control device coupled to said switch for selecting a transmitting mode of operation and a receiving mode of operation; and
a reference frequency source commonly connected to said first and second frequency generators;
in the first switch position, said first frequency converter receiving the first local oscillator frequency and said second frequency converter receiving the second local oscillator frequency;
in the second switch position, said first and second frequency converters receiving the first local oscillator frequency from said first frequency generator.
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Accused Products
Abstract
A transmitting and receiving unit includes a receiving branch and a transmitting branch that are in each case constructed for conducting complex signals, with a control device that drives a switch by which either a phase-locked loop is switched through to frequency converters provided at the transmitting and receiving end, for providing a common carrier frequency, or in each case an independently operating PLL is provided for the transmitting and receiving branch. Such a configuration enables the transmitter, for example, to operate with direct conversion whereas the receiver can operate, for example, on the low IF principle. The invention is suitable for OFDM multi-carrier systems.
61 Citations
15 Claims
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1. A transmitting and receiving unit, comprising:
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first and second frequency generators each having a separate phase-locked loop with a local oscillator frequency set independently by a divider ratio, said phase-locked loop of said first frequency generator outputting a first local oscillator frequency and said phase-locked loop of said second frequency generator outputting a second local oscillator frequency; a switch having switch positions including a first switch position and a second switch position; a receiving branch with an in-phase component and a quadrature component, said receiving branch having a first frequency converter coupled to said first frequency generator; a transmitting branch with an in-phase component and a quadrature component, said transmitting branch having a second frequency converter switchably coupled to one of said first and second frequency generators through said switch; a control device coupled to said switch for selecting a transmitting mode of operation and a receiving mode of operation; and a reference frequency source commonly connected to said first and second frequency generators; in the first switch position, said first frequency converter receiving the first local oscillator frequency and said second frequency converter receiving the second local oscillator frequency; in the second switch position, said first and second frequency converters receiving the first local oscillator frequency from said first frequency generator. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A transmitting and receiving unit, comprising:
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first and second frequency generators each having a separate phase-locked loop with a local oscillator frequency set independently by a divider ratio, said phase-locked loop of said first frequency generator outputting a first local oscillator frequency and said phase-locked loop of said second frequency generator outputting a second local oscillator frequency; a switch having a first switch position and a second switch position; a receiving branch with an in-phase component and a quadrature component, said receiving branch having a first frequency converter coupled to said first frequency generator; a transmitting branch with an in-phase component and a quadrature component, said transmitting branch having a second frequency converter switchably coupled to one of said first and second frequency generators through said switch; a control device coupled to said switch and being programmed to select at least one of a transmitting mode of operation and a receiving mode of operation; and a reference frequency source commonly connected to said first and second frequency generators; in the first switch position, said first frequency converter receiving the first local oscillator frequency and said second frequency converter receiving the second local oscillator frequency; in the second switch position, said first and second frequency converters receiving the first local oscillator frequency from said first frequency generator.
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14. A transmitting and receiving unit, comprising:
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first and second frequency generators each having a separate phase-locked loop with a local oscillator frequency set independently by a divider ratio; a first switch; a receiving branch with an in-phase component and a quadrature component, said receiving branch having a first frequency converter coupled to said first frequency generator, said receiving branch further having a RF input; a transmitting branch with an in-phase component and a quadrature component, said transmitting branch having a second frequency converter switchably coupled to one of said first and second frequency generators through said first switch; a second switch directly coupling said transmitting branch and said receiving branch and switching an RE signal through to said RF input of said receiving branch for providing an IQ calibration mode for reducing IQ impairments; a control device coupled to said first switch for selecting a transmitting mode of operation and a receiving mode of operation; and a reference frequency source commonly connected to said first and second frequency generators.
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15. A transmitting and receiving unit, comprising:
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first and second frequency generators each having a separate phase-locked loop with a local oscillator frequency set independently by a divider ratio; a first switch; a receiving branch with an in-phase component and a quadrature component, said receiving branch having a first frequency converter coupled to said first frequency generator, said receiving branch further having a RF input; a transmitting branch with an in-phase component and a quadrature component, said transmitting branch having a second frequency converter switchably coupled to one of said first and second frequency generators through said first switch; a second switch directly coupling said transmitting branch and said receiving branch and switching an RF signal through to said RF input of said receiving branch for providing an IQ calibration mode for reducing IQ impairments; a control device coupled to said first switch and being programmed to select at least one of a transmitting mode of operation and a receiving mode of operation; and a reference frequency source commonly connected to said first and second frequency generators.
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Specification