RU2003133355A - METHOD FOR BUILT-IN MONITORING ON-BOARD MONOPULSE RADAR AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (3)

1. A method of integrated monitoring of a monopulse airborne radar station of a rocket mounted on a carrier, which consists in installing the probe at a point whose azimuth angles and locations are known with great accuracy, irradiating the probe with microwave oscillations, receiving signals emitted by it, measuring azimuth angles and the position of the probe and determining measurement errors, characterized in that the probe is made in the form of a half-wave vibrator, the shoulders of which are connected to a nonlinear element, and set at the design point of the nose of a rocket or radome antenna, with the “Work-control” switch, the output of the transmitter of a monopulse airborne radar station generating microwave frequencies f _c , connect to the power detector, turn on the transmitter and evaluate its power, form microwave frequencies whose frequency f _o is n times less carrier frequency f _{c of the} oscillations generated by the transmitter, they are delayed relative to microwave oscillations of the transmitter, they irradiate the probe, receive the re-radiated probe high-frequency oscillations at a frequency f _c , using standard means of a monopulse airborne radar station, measure the delay time of the received signal, azimuth angles and the position of the probe, calculate the errors of their measurement and decide on the operability of the monopulse airborne radar station if the transmitter power is not lower than the specified and measurement errors range, azimuth and elevation are less than acceptable. 2. The device for integrated monitoring of a monopulse airborne radar station, containing a series-connected “Work-control” switch and a directional coupler, the input of the “Work-control” switch is connected to the output of the transmitter, and the second output is to the input of the receive-transmit switch of a monopulse airborne radar, characterized in that a power detector is introduced, a probe in the form of a half-wave vibrator, the shoulders of which are connected to a non-linear element, installed at the calculated point For a rocket or radome, a series-connected switch, a frequency divider, a bandpass filter, a solid-state delay line, a power amplifier, a low-pass filter and an auxiliary antenna irradiating the probe, the input of the power detector is connected to the first output of the directional coupler, and the output to the second input of the calculator -activator of a monopulse airborne radar station, the first input of the switch is connected to the second output of the directional coupler, and to the second inputs of the "Work-control" switch, breakers and power amplifier command is "control." 3. A device for integrated monitoring of a monopulse airborne radar station, comprising a directional coupler and a “Work-Control” switch, the input of which is connected to the output of the power amplifier of the transmitter channel, and the first output is to the input of the transmit-receive switch of the airborne monopulse radar station, characterized in that introduced a power detector, a probe in the form of a half-wave vibrator, the shoulders of which are connected to a nonlinear element, installed at the calculated point of the carrier or radome antenna, p sequentially connected circuit breaker, solid-state delay line, power amplifier, low-pass filter and auxiliary antenna, the input of the power detector is connected to the second output of the “Work-control” switch, and the output is connected to the second input of the exciter computer of a single-pulse radar station, the directional coupler input is connected to the output of the frequency synthesizer, the first output to the input of the frequency multiplier, the second output to the first input of the switch, and to the second inputs of the "Work-control" switch, turn off of the amplifier and power amplifier the command "Control" is given.