Claims
- 1. A broadband solid state RF switch circuit for electrically coupling a common signal path alternately to a transmitter and to a receiver and having a high power handling capability while utilizing relatively low supply voltage, the RF switch circuit comprising in combination:
- first selective conducting means for electrically coupling a first signal energy path to said common signal path and controlled by a first biasing voltage;
- second selective conducting means for electrically coupling a second signal energy path to said common signal path in alternate fashion to said first selective conducting means and controlled by a second biasing voltage; and
- strong RF signal detecting means electrically coupled to said second selective conducting means for providing a reverse bias voltage electrically coupled back to said first selective conducting means,
- said strong RF signal detecting means adaptively tracking the magnitude of said strong RF signal at said second selective conducting means to supply adequate, variable, reverse bias voltage thereto, thereby ensuring that said first selective conducting means remains switched off to enhance the power handling capability thereof.
- 2. The RF switch circuit according to claim 1 wherein said common signal path comprises an antenna.
- 3. The RF switch circuit according to claim 1 wherein said first and second signal paths comprise a receiver signal path and a transmitter signal path respectively.
- 4. The RF switch circuit according to claim 1 wherein each of said first and second selective conducting means comprises:
- first and second PIN diodes having one similar lead of each coupled to a common point; and
- RF signal decoupling means for applying the biasing voltages to said first and second PIN diodes while remaining decoupled from the RF signals thereon.
- 5. The RF switch circuit according to claim 4 wherein said RF signal decoupling means includes a plurality of RF chokes and a resistor.
- 6. The RF switch circuit according to claim 1 wherein said strong RF signal detecting means comprises a detector such as an absolute value detector.
- 7. The RF switch circuit according to claim 1 wherein said strong RF signal detecting means comprises a detector such as a peak detector.
- 8. A solid state RF transmit receive switch suitable for use in a radio such as a land-mobile transceiver and capable of selectively coupling an antenna alternately to the receiver and transmitter therein, said RF transmit receive switch comprising in combination:
- a first PIN diode for electrically coupling the receiver to said antenna and controlled by a first biasing voltage;
- a second PIN diode for electrically coupling the transmitter to said antenna and controlled by a second biasing voltage; and
- transmit signal detecting means electrically coupled to said second PIN diode for providing a reverse bias voltage electrically coupled back to said first PIN diode,
- said transmit signal detecting means adaptively tracking the magnitude of the transmitted RF signal at said second PIN diode to supply adequate, variable, reverse bias to said first PIN diode, thereby ensuring that said first PIN diode remains switched off to enhance the power handling capability thereof.
- 9. The solid state RF transmit receive switch according to claim 8, wherein said transmit signal detecting means comprises a detector such as an absolute value detector.
- 10. The solid state RF transmit receive antenna switch according to claim 8 wherein said transmit signal detecting means comprises a detector such as a peak detector.
Parent Case Info
This is a continuation of application Ser. No. 607,531 filed May 7, 1984, now abandoned.
US Referenced Citations (5)
Foreign Referenced Citations (2)
Number |
Date |
Country |
157747 |
Dec 1982 |
DEX |
2097226 |
Oct 1982 |
GBX |
Continuations (1)
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Number |
Date |
Country |
Parent |
607531 |
May 1984 |
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