Precision approach sensor system for aircraft
First Claim
1. A precision approach system for two aircraft comprising radar means on one of said aircraft for directing radio wave energy toward the other aircraft at a carrier frequency fx, means for modulating said carrier frequency with a range tone, transponder means on the other aircraft for receiving wave energy at frequency fx, said transponder means including a mixer for mixing wave energy received at frequency fx with a signal at frequency fo to produce a signal at frequency ft which is equal to fx ±
- fo, means in said transponder for modulating carrier wave energy at frequency ft with said range tone and for directing the modulated carrier wave energy at frequency ft back to said first aircraft, said transponder means operating in an active mode with signal gain at ranges beyond a predetermined range and operating in a passive mode with no gain at ranges less than said predetermined range, said active mode being effected by an oscillator which is coupled to said mixer in the transponder means and which oscillates at the frequency ft only when the transponder is operating in the active mode, and means incorporated into said radar means responsive to the signal received from said transponder means for determining the range of said other aircraft and its angular position with respect to said one aircraft.
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Accused Products
Abstract
A microwave interrogation-transponder system for controlling the airborne rendezvous and closure of two aircraft for aerial refueling and the like. The system of the invention includes a microwave interrogator mounted on the aft underfuselage of a tanker aircraft, for example, for interrogating and receiving a reply from a small microwave transponder mounted on the receiver aircraft near the aerial refueling receptacle. The angle of the received signal relative to the tanker is obtained from the angle sensing receiver portion of the microwave interrogator; whereas range is obtained from the phase of the returned modulation tone (i.e., a range tone) relative to that which was transmitted by the interrogator. The transponder sends back to the interrogator a signal which is shifted in frequency with respect to the transmitted signal and operates in an active mode with gain at long ranges and in a passive mode with no gain at shorter ranges to achieve extremely accurate guidance characteristics.
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Citations
4 Claims
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1. A precision approach system for two aircraft comprising radar means on one of said aircraft for directing radio wave energy toward the other aircraft at a carrier frequency fx, means for modulating said carrier frequency with a range tone, transponder means on the other aircraft for receiving wave energy at frequency fx, said transponder means including a mixer for mixing wave energy received at frequency fx with a signal at frequency fo to produce a signal at frequency ft which is equal to fx ±
- fo, means in said transponder for modulating carrier wave energy at frequency ft with said range tone and for directing the modulated carrier wave energy at frequency ft back to said first aircraft, said transponder means operating in an active mode with signal gain at ranges beyond a predetermined range and operating in a passive mode with no gain at ranges less than said predetermined range, said active mode being effected by an oscillator which is coupled to said mixer in the transponder means and which oscillates at the frequency ft only when the transponder is operating in the active mode, and means incorporated into said radar means responsive to the signal received from said transponder means for determining the range of said other aircraft and its angular position with respect to said one aircraft.
- View Dependent Claims (2, 3, 4)
Specification