SU1030741A1 - Uhf oscillation power measuring device - Google Patents

Abstract

DEVICE E) 1 MEASUREMENTS OF POWER OF UHT-HIGH-FREQUENCY VIBRATIONS, containing a detector head with a diode, the cathode of which is connected to an autocompensation peak converter with a feedback circuit and an indicator, characterized in that, in order to ensure the possibility of measuring the power of continuous oscillations, a generator is inserted into a generator, a generator is inserted into it, a generator is inserted. whose course is connected to the anode of the diode through the emitterNEL follower. C o

Description

The invention relates to radio metering technology and can be used in automated control systems for measuring the power of continuous and pulsed signals of ultrahigh frequencies.

A device for measuring the power of continuous and impulse X signals, containing a matched load resistance to which the lamp detector head is connected, is connected to the auto-compensation circuit and the readout device Cll. However, the known device has low accuracy due to the lack of accurate calibration of the measuring part of the pulse signals. by continuous oscillations, which are measured with exemplary instruments with higher accuracy than pulsed oscillations,

It is also known a device for measuring the power of microwave oscillations, comprising a detector head with a diode, the cathode of which is connected to an autocompensation peak converter with a feedback circuit and an indicator C 2.

However, this known device has an increased accuracy of measuring the power of pulse signals, and does not provide a measurement of the power of continuous oscillations.

The purpose of the invention is to make it possible to measure the power of continuous oscillations.

The goal is achieved in that a device for measuring the power of superhigh-frequency oscillations, containing a detector head with a diode, ka4: one of which is connected to an autocompensated peak current with a feedback circuit and an indicator, has a generator of video pulses, the output of which is connected to the anode of the diode through an emitter follower

The drawing shows a block diagram of the proposed device.

The device consists of a detector head 1 with a diode 2, the cathode of which is connected to an autocompensation peak converter 3 with a feedback circuit 4 and an indicator 5, and the anode is connected to a series-connected emitter follower 6 and a generator 7 of video pulses.

The proposed device works as follows.

The oscillations, the power of which must be measured, are fed from the input of the detector head 1 to diode 2. With a pulse input signal, as a result of detection, input pulses of the autocompensation peak converter 3 produce video pulses that, after amplification, convert the potential voltage. This voltage through circuit 4 goes to diode 2 and compensates for the voltage of the video pulses. In this case, the average value of the constant voltage, which in the steady state is close to the peak value of the input pulse signals, is measured by indicator 5, calibrated in units of power.

When measuring the power of continuous input signals, diode 2 is blocked by a negative voltage taken from a normally open emitter follower 6. Generator 7 generates video pulses that are applied to the emitter follower b and close it. As a result, the negative voltage on diode 2 becomes zero, it opens and video pulses appear at the input of the autocompensation peak converter 3, which are converted to direct current, as measured by the indicator 5, as in the case of pulsed input signals.

Thus, the introduction of a generator 7 connected through an emitter follower to the anode of diode 2 makes it possible to measure the power of single-emitter vibrations. In addition, it is possible to calibrate the proposed device in both modes of operation according to exemplary continuous signals, which allows for improved measurement accuracy. .

Claims (1)

A device for measuring the power of ultrahigh-frequency oscillations, comprising a detector head with a diode, the cathode of which is connected to a self-compensating peak converter with a feedback circuit and an indicator, characterized in that, in order to provide the possibility of measuring the power of continuous oscillations, a video pulse generator is inserted into it, the output of which is connected to the anode of the diode through an emitter follower.