Claims
- 1. A power limiter for generating an output RF signal of substantially constant power level in response to an input RF signal of varying power level, comprising:
- a field effect type transistor having first and second gate, drain and source electrodes, said first gate electrode being receptive of said input RF signal;
- means for biasing said second gate electrode of said transistor such that said transistor operates in a gain region characterized by a power curve having a slope whose change in output power is substantially equal to or greater than the change in input power, and a saturation region characterized by a power curve having a compression slope whose change in output power is substantially less than the change in input power, such that the final output power variation is small compared to the input power variation,
- said substantially constant output RF signal being generated over said saturation region.
- 2. A power limiter according to claim 1, further including a feedback circuit connected between said drain and said second gate electrodes to provide a predetermined voltage to said transistor to reduce said final output power variation.
- 3. A power limiter for generating an output RF signal of substantially constant power level in response to an input RF signal of varying power level, comprising:
- a first multistage amplifier responsive to said input RF signal for generating a first output RF signal;
- a second multistage amplifier responsive to said first output RF signal for generating a second output RF signal;
- each of said frist and second amplifiers including field effect type transistors each having first and second gate, drain and source electrodes in each stage, said transistors of each amplifier being connected in cascaded arrangement such that the first gate electrode of a succeeding transistor is connected to the drain electrode of a preceding transistor;
- means for biasing said second gate electrodes of said transistors of said first amplifier to produce a predetermined gain level of said first output RF signal; and
- means for biasing said second gate electrodes of said transistors of said second amplifier such that said second amplifier is operated in a saturated condition at the gain level of said first output RF signal, such that said second output RF signal is substantially constant with said varying input RF power and the final output power variation is small compared to the input power variation.
- 4. A power limiter according to claim 3, further including a feedback circuit between the second gate and drain electrodes of each transistor of said second amplifier to provide a predetermined voltage of each transistor to reduce said final output power variation.
- 5. A power limiter according to claim 3, further including a feedback circuit between the second gate electrode of a preceding transistor and the drain electrode of a succeeding transistor of said second amplifier to provide a predetermined voltage to said preceding transistor to reduce said final output power variation.
Government Interests
The Government has rights in this invention pursuant to Contract No. N00039-76-C-0280 awarded by the Department of the Navy.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
4079325 |
Mawhinney et al. |
Mar 1978 |
|
Non-Patent Literature Citations (3)
Entry |
Rosen et al., RCA Review (pub.), vol. 38, 6/1977; pp. 253-256. |
Int'l Microwave Symposium; Microwaves (pub.), pp. 9-10; 6/77. |
Fukuda et al., IEEE Microwave Theory and Techniques (MTT) Conf.; 6/1977. |