RU2008152014A - SCENE RADAR SIGNAL SIMULATOR - Google Patents

Abstract

 A device for simulating a radar signal of a scene, containing an anechoic chamber, at one end of which there is an antenna of the radar under test, and at the opposite end there are N spatially separated antennas of echo signals, each of which is connected to a microwave input-output of an echo signal simulator, the number of which is the same name echo signal antennas, control system, N + 2 input-output of which is connected via the control line to the first inputs / outputs of N echo signal simulators, through which control data about the required delay is entered, additional rovar shift and the amplitude of the simulated signals, characterized in that between the radar antenna and the echo antennas introduced fixed and movable flat mirrors installed in the near zone of the radar antenna, a moving mirror drive, while the fixed mirror reflects the plane wave of the signal radiated by the radar antenna, towards the moving mirror, the direction of the wave reflected by the moving mirror through the drive of the moving mirror is controlled by the angle of inclination of the moving mirror, an angle sensor mechanically connected to the moving mirror feces, N drives of the echo signal antennas, each of which is mechanically connected to the echo antenna and the displacement sensor, whose numbers are the same as the number of the drive of the echo signal, while the drive of each antenna shifts the corresponding echo antenna in an arc with a center coinciding with a radar antenna, the input of the drive of the moving mirror is connected to the N + 1 output of the control system, each of the outputs of the control system from the first to the Nth is connected to the input of the same name drive of the antenna of the echo signal, the output of each displacement sensor from the first to N-

Claims (1)

A device for simulating a radar signal of a scene, containing an anechoic chamber, at one end of which there is an antenna of the radar under test, and at the opposite end there are N spatially separated antennas of echo signals, each of which is connected to a microwave input-output of an echo signal simulator, the number of which is the same name echo signal antennas, control system, N + 2 input-output of which is connected via the control line to the first inputs / outputs of N echo signal simulators, through which control data about the required delay is entered, additional rovar shift and the amplitude of the simulated signals, characterized in that between the radar antenna and the echo antennas introduced fixed and movable flat mirrors installed in the near zone of the radar antenna, a moving mirror drive, while the fixed mirror reflects the plane wave of the signal radiated by the radar antenna, towards the moving mirror, the direction of the wave reflected by the moving mirror through the drive of the moving mirror is controlled by the angle of inclination of the moving mirror, an angle sensor mechanically connected to the moving mirror feces, N drives of the echo signal antennas, each of which is mechanically connected to the echo antenna and the displacement sensor, whose numbers are the same as the number of the drive of the echo signal, while the drive of each antenna shifts the corresponding echo antenna in an arc with a center coinciding with a radar antenna, the input of the drive of the moving mirror is connected to the N + 1 output of the control system, each of the outputs of the control system from the first to the Nth is connected to the input of the same name drive the antenna of the echo signal, the output of each displacement sensor from the first to the Nth connected to the control system input of the same name, the output of the angle sensor is connected to the N + 1 input of the control system, N + 3 input-output of which is the interface input-output of the scene simulator, which inputs the initial data on the coordinates, effective scattering area, and motion parameters of the simulated targets in range and angle, current data on the angular position of the radar antenna.