Multi-channel radio frequency front end circuit
First Claim
1. A front end circuit for coupling antennas to a multi-channel time domain duplex radio frequency (RF) transceiver, the front end circuit comprising:
- a first channel module selectively connecting a first transmit line, a first primary receive line, and a first secondary receive line of the transceiver to the antennas; and
a second channel module selectively connecting a second transmit line, a second primary receive line, and a second secondary receive line of the transceiver to the antennas, wherein the first channel module corresponds to a first predefined operating frequency of the transceiver and the second channel module corresponds to a second predefined operating frequency of the transceiver, the first predefined operating frequency being offset from the second predefined operating frequency, the first channel module and the second channel module operates simultaneously at different operational frequencies; and
independently controllable switching elements each part of and shared by both the first channel module and the second channel module.
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Accused Products
Abstract
A front end circuit for coupling a plurality of antennas to a multi-channel time domain duplex RF transceiver is disclosed. The front end circuit has a first transmit port, a first receive chain primary port, a first receive chain secondary ports, and a first antenna port connectible to a first one of the plurality of antennas. The front end circuit also has a second transmit port, a second receive chain primary port, and a second receive chain secondary port connectible to a second one of the plurality of antennas. A first switch has terminals connected to the first transmit port, the first receive chain primary port, and the second receive chain secondary port, as well as a common terminal that is connected to the first antenna port. Additionally, the front end circuit has a second switch that has terminals connected to the second transmit port, the second receive chain primary port and the first receive chain secondary port, and a common terminal connected to the second antenna port.
55 Citations
14 Claims
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1. A front end circuit for coupling antennas to a multi-channel time domain duplex radio frequency (RF) transceiver, the front end circuit comprising:
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a first channel module selectively connecting a first transmit line, a first primary receive line, and a first secondary receive line of the transceiver to the antennas; and a second channel module selectively connecting a second transmit line, a second primary receive line, and a second secondary receive line of the transceiver to the antennas, wherein the first channel module corresponds to a first predefined operating frequency of the transceiver and the second channel module corresponds to a second predefined operating frequency of the transceiver, the first predefined operating frequency being offset from the second predefined operating frequency, the first channel module and the second channel module operates simultaneously at different operational frequencies; and independently controllable switching elements each part of and shared by both the first channel module and the second channel module. - View Dependent Claims (2, 3, 4, 5)
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6. An RF front end circuit for coupling a pair of antennas to a transceiver having a first operational channel and a second operational channel, each operational channel including a corresponding transmit line, primary receive line, and secondary receive line, the front end circuit comprising:
a plurality of switching elements configured to operate in every one of the following modes; a first switching mode connecting a first one of the transmit lines to a first one of the antennas; a second switching mode connecting a second one of the transmit lines to a second one of the antennas; a third switching mode simultaneously connecting a first one of the primary receive lines to the first one of the antennas and a first one of the secondary receive lines to the second one of the antennas; a fourth switching mode simultaneously connecting a second one of the primary receive lines to the first one of the antennas and a second one of secondary receive lines to the second one of the antennas; fifth switch mode simultaneously connecting the second one of the primary receive lines to the second one of the antennas and the second one of secondary receive lines to the first one of the antennas; sixth switch mode simultaneously connecting the first one of the primary receive lines to the second one of the antennas and the first one of the secondary receive lines to the first one of the antennas. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14)
Specification