System and method for wireless communication in a frequency division duplexing region
First Claim
1. A wireless node, comprising:
- an antenna;
a radio frequency (“
RF”
) module in communication with the antenna and configured to alternate between down conversion of an incoming signal received by the antenna on a first radio frequency to an intermediate frequency and up conversion of an outgoing signal to a second radio frequency;
a first switch coupled to the RF module and configured to select between output of the incoming signal from the RF module and input of the outgoing signal to the RF module;
an intermediate frequency (“
IF”
) module coupled to the first switch and configured to alternate between down conversion of the incoming signal from the intermediate frequency to a base band frequency and up conversion of the outgoing signal from the base band frequency to the intermediate frequency;
a second switch coupled to the IF module and configured to select between output of the incoming signal from the IF module and input of the outgoing signal to the IF module; and
a modem in communication with the second switch and configured to alternate between demodulation of the incoming signal at the base band frequency and modulation of the outgoing signal at the base band frequency.
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Accused Products
Abstract
A method and system for using half-duplex base stations and half-duplex nodes in a Frequency Division Duplexing region to provide wireless connectivity between the half-duplex base stations and customers in multiple sectors of a cell. The method and system can use two physical channels to form two logical channels. Each logical channel shares both physical channels during alternating frames of time. The half-duplex nodes can include a millimeter-wave band frequency synthesizer configured to transmit and receive on different channels to and from the half-duplex base station. Re-use patterns of the physical channels are used for deployment of half-duplex base stations and half-duplex nodes in the FDD region to minimize co-channel interference and interference due to uncorrelated rain fade. Additional methods and systems utilize full-duplex base stations and smart antenna to communicate with the half-duplex nodes.
47 Citations
17 Claims
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1. A wireless node, comprising:
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an antenna; a radio frequency (“
RF”
) module in communication with the antenna and configured to alternate between down conversion of an incoming signal received by the antenna on a first radio frequency to an intermediate frequency and up conversion of an outgoing signal to a second radio frequency;a first switch coupled to the RF module and configured to select between output of the incoming signal from the RF module and input of the outgoing signal to the RF module; an intermediate frequency (“
IF”
) module coupled to the first switch and configured to alternate between down conversion of the incoming signal from the intermediate frequency to a base band frequency and up conversion of the outgoing signal from the base band frequency to the intermediate frequency;a second switch coupled to the IF module and configured to select between output of the incoming signal from the IF module and input of the outgoing signal to the IF module; and a modem in communication with the second switch and configured to alternate between demodulation of the incoming signal at the base band frequency and modulation of the outgoing signal at the base band frequency. - View Dependent Claims (2, 3, 4)
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5. A system, comprising:
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a half-duplex modem configured to modulate and demodulate data signals; an outdoor unit coupled to the half-duplex modem and an antenna, the outdoor unit being configured to receive an incoming modulated data signal from a base station in a first time frame and configured to cause the antenna to transmit an outgoing modulated data signal to the base station in a second time frame different from the first time frame; and a radio frequency (RF) synthesizer included in the outdoor unit and configured to maintain a frequency offset between the incoming modulated data signal and the outgoing modulated data signal; wherein the outdoor unit includes an RF module coupled to the antenna and configured to alternate between down-conversion of the incoming modulated data signal from a first frequency range to an intermediate frequency range and up-conversion of the outgoing modulated data signal to a second radio frequency range; wherein the RF module includes an RF down-conversion module configured to down-convert the incoming modulated data signal from the first radio frequency range to the intermediate frequency range, and an RF up-conversion module configured to up-convert the outgoing modulated data signal from the intermediate frequency range to the second radio frequency range; and wherein the RF module further includes the RF synthesizer, which is coupled to the RF down-conversion module and the RF up-conversion module, the RF synthesizer configured to provide a reference signal to the RF down-conversion module and to provide the reference signal plus the frequency offset to the RF up-conversion module, so as to respectively assist the RF down-conversion module to down-convert the incoming modulated data signal from the first radio frequency range to the intermediate frequency range and to assist the RF up-conversion module to up-convert the outgoing modulated data signal from the intermediate frequency range to the second radio frequency range, a frequency difference between the first radio frequency range and the second radio frequency range being determined by the frequency offset. - View Dependent Claims (6, 7, 8, 9, 10, 11)
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12. A method, comprising:
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receiving, by a half-duplex wireless node from a base station, an incoming modulated data signal on a first radio frequency range in a first time frame; transmitting, by the half-duplex node to the base station, an outgoing modulated data signal on a second radio frequency range in a second time frame different from the first time frame, wherein the half-duplex node maintains a frequency offset between the first and second radio frequency ranges; and alternatingly down-converting, by an outdoor unit of the half-duplex wireless node, the incoming modulated data signal from the first radio frequency range to a base band frequency range after said receiving the incoming modulated data signal; and up-converting, by the outdoor unit, the outgoing modulated data signal from the base band frequency range to the second radio frequency range; wherein said alternatingly up-converting and down-converting respectively corresponds to said transmitting in the first time frame and said receiving in the second time frame; wherein the frequency offset is maintained by providing, by a synthesizer of the outdoor unit, a reference signal to assist in the down-converting and up-converting, wherein a difference between the first and second radio frequency ranges is established by the frequency offset applied to the reference signal if either up-converting or if down-converting.
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13. An apparatus, comprising:
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means for receiving an incoming modulated data signal from a base station on a first radio frequency range in a first time frame; means for transmitting an outgoing modulated data signal to the base station on a second radio frequency range in a second time frame different from the first time frame; means for maintaining a frequency offset between the first and second radio frequency ranges; and means for alternatingly; down-converting the incoming modulated data signal from the first radio frequency range to a base band frequency range after receiving said incoming modulated data signal; and up-converting the outgoing modulated data signal from the base band frequency range to the second radio frequency range, wherein the means for alternatingly up-converting and down-converting respectively up-converts in the first time frame and down-converts in the second time frame, and wherein said means for maintaining includes means for providing a reference signal to assist the means for alternatingly down-converting and up-converting, wherein a difference between the first and second radio frequency ranges is established by the frequency offset.
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14. A wireless node, comprising:
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a half-duplex modem configured to alternate in demodulation of incoming data and modulation of outgoing data; and an outdoor unit coupled to the half-duplex modem, the outdoor unit including; an intermediate frequency module configured to alternate between up conversion of the outgoing data from the half-duplex modem and down conversion of the incoming data; a radio frequency module coupled to the intermediate frequency module and configured to alternate between us conversion of the outgoing data received from the intermediate frequency module and down conversion of the incoming data; a frequency synthesizer coupled to the radio frequency module and configured to alternate between transmission of the outgoing data over a first channel and reception of the incoming data over a second channel the frequency synthesizer further being configured to maintain a frequency offset between the first and second channels; a first switch coupled to the radio frequency module and configured to select between output of the incoming data from the radio frequency module and input of the outgoing data to the radio frequency module; and a second switch coupled to the intermediate frequency module and configured to select between output of the incoming data from the intermediate frequency module and input of the outgoing data to the intermediate frequency module. - View Dependent Claims (15, 16, 17)
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Specification