ON CHIP MOS TRANSMIT / RECEIVE SWITCH
First Claim
1. An integrated circuit transceiver, comprising:
- baseband processor for generating outgoing data and for processing ingoing data;
analog front end for producing an outgoing RF signal from the outgoing data and for producing the ingoing data from a received ingoing RF signal;
a power amplifier operably coupled to receive the outgoing RF signal to produce a power amplified outgoing RF signal;
a radio frequency port for transmitting the power amplified outgoing RF signal and for receiving the ingoing RF signal;
an on chip CMOS transmit-receive module operably coupled between the power amplifier and antenna on a transmit path and between the RF front end and the radio frequency port on a receive path;
logic for producing a transmit-receive mode indication to the transmit-receive module to prompt the transmit-receive module to be configured in to a corresponding transmit or receive mode; and
wherein the transmit-receive module further comprises switching circuitry for;
during the transmit mode, closing a connection between the power amplifier and the antenna and for creating a high impedance circuit between the analog front end receive path and the radio frequency port; and
during the receive mode, opening the connection between the power amplifier and the radio frequency port and for creating a low impedance circuit between the analog front end receive path and the radio frequency port.
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Accused Products
Abstract
On-chip MOS circuitry couples a communication path between an output stage amplifier and an output port and disables a circuit path between an input amplifier and the output port by creating a high impedance circuit during transmit operations. Alternatively, the circuitry opens the transmit circuit path with an isolated MOSFET and enables the second circuit path by creating an impedance matched circuit. The switch is formed within an isolated region to allow it to float with a signal to avoid breakdown. This floating MOS switch can be used for a variety of other applications in addition to its use as a transmit/receive switch even though formed on the same die as the communication circuitry.
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Citations
28 Claims
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1. An integrated circuit transceiver, comprising:
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baseband processor for generating outgoing data and for processing ingoing data; analog front end for producing an outgoing RF signal from the outgoing data and for producing the ingoing data from a received ingoing RF signal; a power amplifier operably coupled to receive the outgoing RF signal to produce a power amplified outgoing RF signal; a radio frequency port for transmitting the power amplified outgoing RF signal and for receiving the ingoing RF signal; an on chip CMOS transmit-receive module operably coupled between the power amplifier and antenna on a transmit path and between the RF front end and the radio frequency port on a receive path; logic for producing a transmit-receive mode indication to the transmit-receive module to prompt the transmit-receive module to be configured in to a corresponding transmit or receive mode; and wherein the transmit-receive module further comprises switching circuitry for; during the transmit mode, closing a connection between the power amplifier and the antenna and for creating a high impedance circuit between the analog front end receive path and the radio frequency port; and during the receive mode, opening the connection between the power amplifier and the radio frequency port and for creating a low impedance circuit between the analog front end receive path and the radio frequency port. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An integrated circuit transceiver, comprising:
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baseband processor for generating outgoing data and for processing ingoing data; analog front end for producing an outgoing RF signal from the outgoing data and for producing the ingoing data from a received ingoing RF signal; a power amplifier operably coupled to receive the outgoing RF signal to produce a power amplified outgoing RF signal; an antenna for transmitting the power amplified outgoing RF signal and for receiving the ingoing RF signal; an on chip CMOS transmit-receive module operably coupled between the power amplifier and antenna on a transmit path and between the analog front end and the antenna on a receive path; logic for producing a transmit-receive mode indication to the transmit-receive module to prompt the transmit-receive module to be configured in to a corresponding transmit or receive mode; wherein the transmit-receive module further comprises; an impedance block including an inductive element disposed between parallel coupled capacitive elements wherein the impedance block is operably disposed between the antenna and the analog front end and the antenna; first switching circuitry operably disposed to short one of the parallel coupled capacitive elements based upon the transmit-receive mode indication; and second switching circuitry operably disposed to couple the power amplifier to the antenna based upon the transmit-receive mode indication; wherein the first switching circuitry shorts one of the capacitive elements to create a high impedance path between the antenna and the receive path of the analog front end and a wherein the second switching circuitry creates low impedance connection between the power amplifier and the antenna during a transmit mode of operation based upon the transmit-receive mode indication; and wherein the first switching circuitry operably disposed across the one of the capacitive elements is opened to create an impedance match between the antenna and the receive path of the analog front end and a wherein the second switching circuitry creates an open connection between the power amplifier and the antenna during a receive mode of operation based upon the transmit-receive mode indication. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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18. An integrated circuit transceiver, comprising:
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a first communication circuit; a second communication circuit; communication selection switch circuitry coupled to the first and second communication circuits, the communication selection switch circuitry comprising at least one isolated MOSFET device operable to perform specified switching and is further operable to isolate the first communication circuit from the second communication circuit; and wherein the communication selection switch circuitry and the first and second communication circuits are all formed on the same dielectric substrate. - View Dependent Claims (19, 20, 21, 22, 23)
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24. A method for delivering a power amplified outgoing radio frequency signal to an antenna during a transmit mode of operation and for delivering an in-going radio frequency signal to a receive path of an analog front end, comprising:
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generating first and second bias signals to first and second wells formed about a MOSFET switch to create reverse biased P-N junction across the boundary between the first and second wells and between the second well and one of a third well or substrate having a common boundary with the second well; generating a first of two control signals to create a high impedance circuit between an antenna and a first port of a transmit-receive module and a low impedance connection between the antenna and a second port of the transmit-receive module during a first mode of operation; generating the second of the two control signals to create a low impedance circuit between the antenna and the first port of a transmit-receive module and a high impedance connection between the antenna and the second port of the transmit-receive module during a second mode of operation; and generating an amplified outgoing RF signal to one of the first and second ports while the first control signal is being generated and receiving an ingoing RF signal from one of the first and second ports while the second control signal is being generated. - View Dependent Claims (25, 26, 27, 28)
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Specification