Claims
- 1. In a radar receiver wherein the frequency of the first local oscillator corresponds with the resonant frequency of an Yttrium-Iron-Garnet (YIG) filter, circuitry for adjusting such resonant frequency to a frequency offset by a predetermined amount from the frequency of a control radar, such circuitry comprising:
- (a) a crystal oscillator for producing a pilot signal at a frequency approximating the frequency of the control radar and applying such pilot signal to the radar receiver;
- (b) means for detecting the pilot signal to form a control signal and for applying such control signal to a YIG filter to adjust the resonant frequency of the YIG filter to a frequency offset by a predetermined amount from the frequency of the pilot signal; and
- (c) means for forming a frequency adjusting signal having a value proportional to the difference between the frequencies of the crystal oscillator and the control radar and for applying such frequency adjusting signal to the YIG filter along with the control signal.
- 2. In a radar receiver as in claim 1, such radar receiver being installed in a guided missile and the control radar being installed in a mother aircraft, wherein the circuitry comprises, additionally:
- (a) means for actuating the crystal oscillator only for an interval of time immediately prior to launch of the guided missile; and
- (b) means for actuating the frequency adjusting signal forming means only when the guided missile is launched.
Government Interests
The invention herein described was made in the course of, or under a contract or subcontract thereunder, with the Department of the Navy.
US Referenced Citations (10)