SU410314A1 - MEASURING SIGNAL TRANSMITTER - Google Patents

Description

one

The signal converter is designed to convert signals of up to 1 frequency to direct voltage in radar-based motion speed meters.

iB of radar-location speed meters containing an additional Doppler signal sensor. And a measuring transducer, an additional Doppler signal is observed due to interference and other reasons of a random nature. In cases where the rate of change of the frequency signal is insignificant, this deficiency can be eliminated to some extent by a significant increase in the constant (converter time. Otherwise, increasing the constant time of the converter leads to an unacceptably large error in the velocity measurement.

The purpose of the invention is to simplify the converter and increase the reliability of its operation.

This is achieved by connecting a converter to the Doppler frequency amplifier, in which a collector-emitter transition of the transistor is connected in series to the integrating capacitor circuit, the base of which is connected to a pulse shaper. The specified switching on of the transistor operating in the key mode ensures that the input signal disappears.

The output voltage of the converter is almost the same as before the input signal was lost.

The drawing shows a block diagram of a radar speed sensor, which represents a Doppler signal DDS sensor and an IMS measurement signal converter.

The measuring signal converter consists of an impulse formformer calibrated in amplitude and a Doppler frequency signal converter into a constant voltage proportional to the frequency.

The converter of the Doppler frequency pulses into a constant voltage consists of the transistor TI, the diode Dj through which the metering capacitance C of the transistor T2 is charged, through which the capacitance Cr of the integrating circuit RjCz is discharged; the Gz transistor, which provides the discharge of the integrating capacitance Cz at the required time points at the presence of the Dolpler signal. And opens the circuit of the discharge of the capacitance Cg in the absence of the Doppler signal; emitter follower transistor T.

Radiolocation speed sensor works as follows.

The Doppler frequency signal from the sensor output of the Doppler DDS signal is applied to the signal converter. The form shaper converts the Doppler frequency to rectangular impulses of constant amplitude. The transistors G and G3 in the initial state are in the locked state, and in the presence of pulses of the Doppler frequency they operate in the key mode. The contact of the relay relay PI during the measurement of the speed of movement is open. In the open state of the transistors Tj and Gz through the transistor TI and the diode D | Dosing capacity C is charged, the value of which is chosen from the condition T, 2Ci 1 / РДmax where Рд is the max-maximum sound of the pre-dipler frequency. And the capacitance Cz of the integrating circuit is discharged through the resistor RI and the transistor Gz. The value of the integrating capacitance C2 must be much larger than the value of C. In the closed state of the transistors G and Gz, the dosing bone C is discharged through the resistor Rz and transistor 72, and the capacitance € 2 of the integrating circuit is charged through the transistor T. iB The integrating capacitance C2 is set to a constant voltage, proportional to the speed of movement, which is fed to the measuring device through the emitter follower assembled on the transistor Tt. IB, when the Doppler signal is lost, the transistors Tj, TZ, T are closed and the capacitance Cz of the integrating circuit is slowly discharged to the large input resistance of the emitter follower, and the constant voltage accumulated by the capacitance C2, until the Doppler signal disappears, remains almost unchanged. time of absence of a doller signal. When the track circuit is released, the contact of the track relay PI closes, through which the unlocking potential of the transistor Gz is applied, the capacitance Cr is discharged to zero through the resistor RI and the transistor Gz and the radar speed sensor is ready for measurement. Object of the Invention A signal converter, for example, for a radar speed sensor, comprising a series-connected pulse generator, a dose capacitor, a diode and a transistor for charging an integrating circuit capacitor, characterized in that, in order to simplify the converter and increase its reliability, the collector-emitter junction of the transistor is connected to the discharge capacitor circuit, the base of which is connected to the pulse shaper.