SU1341594A1 - Radio locating speed meter for railway transport - Google Patents

Abstract

This invention relates to radar devices and improves measurement accuracy. The device contains a generator of 1 continuous microwave oscillations, a directional coupler 2, a circulator 3, a transceiver antenna 4, a mixer 5, a Doppler signal amplifier 6 (DC), a constant voltage source 8 and a pulse repetition rate meter 9. The strobe pulse shaping unit 7 was newly introduced at the moments of locking the DS and phase shifter (EF) 10 at 90 °. In the case of a DS disappearing, a strobe pulse is formed at the 2nd output of block 7, which is sent to the control input of the VF 10. For the duration of this pulse, the VF 10 rotates the phase of the local oscillator signal | Doppler signal. 1 il. cl, .5 5; 5 55й7х5; 5 5 00 4 JV CO 4 ::

Description

The invention relates to radar devices and can be used as a speed meter on a land mobile vehicle.

The purpose of the invention is to improve the measurement accuracy.

The drawing shows the structural electrical circuit of the proposed meter.

The radar speed meter contains a generator 1 of continuous microwave oscillations, a directional coupler 2, a circulator 3, a transceiver antenna 4, a mixer 5, a Doppler signal amplifier 6, a strobe pulse shaping unit 7 at the time of a fading Doppler signal, a constant source 8 pulse meter 9 and pulse repetition rate, phase shifter 10 to 90.

Radar speed meter works as follows. /

The signal from oscillator 1 of the SBCh oscillations enters through the directional coupler 2 and the circulator 3 to the transceiver antenna 4, directed at an angle of cd 45 to the underlying surface. The signal reflected from the underlying surface with a Doppler frequency addition proportional to the speed enters the same transmitting / receiving antenna 4 and passes through the other arm of the 1C1 switch of the mixer 5. To the other input of the mixer 5 from the branch output of the directional branch 2 through the phase shifter 10 receives the signal of the local oscillator generated by the same generator 1.

As a result of the beating of the heterdin signal and the reflected signal containing the Doppler component, a voltage with a Doppler frequency proportional to the speed of movement appears at the output of the mixer 5.

2V

- cosoi

where, V is the measured speed of movement, and Ti is the wavelength of the microwave oscillations. From the output of the mixer 5, the signal is fed to the amplifier 6 of the Doppler signal, then to block 7, Block 7 forms a sequence of signals by the reference voltage supplied from source 8

pulses with a repetition rate equal to the frequency of the incoming Doppler signal. From the first output of block 7, the pulse sequence is fed to the meter 9 of the pulse repetition frequency, which is a recording device that is calibrated in units of measurement.

speed proportional to the Doppler frequency.

In the case of the disappearance of the Doppler signal, at the second output of block 7 a strobe pulse is formed, which

enters the control input of the phase shifter 10 at 90 °. For the duration of this pulse, the phase shifter 10 rotates the phase of the local oscillator signal by an if / 2 angle, which ensures the appearance of the Doppler signal.

Claims (1)

Invention Formula Radar speed meter for railway transport, containing a series-connected generator of superhigh-frequency (UHF) oscillations, directional coupler, circulator and a transceiver antenna directed at an angle to the earth's surface — a mixer, a Doppler signal amplifier, and a pulse repetition rate meter, the third circulator body 40 being connected through a mixer to the input of a Doppler signal amplifier, characterized in that, in order to increase the measurement accuracy, phase shifter for 90, strobe pulse shaping unit at the moments of locking the Doppler signal, the first output of which is connected to the turn on input of the phase shifter by 90, and a constant voltage source The output of which is connected to the reference input of the strobe pulse formation unit at the moments of Doppler signal fading, the second arm of the directional coupler is connected via a phase shifter 90 to the second mixer input, and the output of the Doppler signal amplifier unit is connected to the gate of the strobe pulse shaping unit at fading moments Doppler signal, the second output of which is connected to the input of the pulse frequency repeater.