SU376727A1 - DEVICE FOR SELECTIVE BY FREQUENCY MEASUREMENT OF PEAK VALUE OF UHF SIGNAL POWER - Google Patents

Description

one

The invention relates to devices for radio engineering measurements: SECs, in particular, for monitoring parameters of signals from radar stations, as an exemplary measure of impulse microwave signals, as well as for comparing amplitudes of microwave and continuous microwave signals.

Devices are known for selectively measuring the frequency of the peak power of microwave signals by measuring their average power, duration and repetition frequency. Thermal converters or crystal detectors are used in these devices. These devices are critical to overloads, are characterized by instability of the conversion coefficient, and require complex devices for signal processing. Exemplary measures for pulsed microwave signals are absent altogether.

The noted deficiencies are eliminated when using ferrite transducers in cross-multiplication mode. However, in this case, the conversion factor depends on the frequency, as a result of which calibration tabLIDES (graphs) are required, which increase the measurement time and partially reduce the error.

To increase the accuracy of power measurement in the proposed device, you must enter the automatic coefficient correction unit, amplify the path of the transformed signal, the input of which is connected to the sensor tuning unit in frequency, and the output to the signal of the red signal.

The block diagram of the proposed device is shown in the drawing.

The device consists of ferrite transducer-transducer, tel /, representing co6.00 magnetic detector., In the transmission line, modulator 2, connected to the detector coil, low pass filter 3, path ni of the formed signal containing high pass filter 4, attenuator 5, transformed signal amplifier 6, peak voltmeter 7, block 8 tuning of the Krax multiplier magnetic system, block 9 of automatic K0 | conversion of the transformed signal path gain, frequency indicator 10, potassium // // gain factor an act of the transformed signal block submodule tion 12, a power unit 13.

To measure the microwave power, the voltage of the second harmonic of the modulation frequency on the coil of a ferrite transducer sensor / at ferromagnetic resonance is used. The signal with the modulation frequency is supplied from the modulator 2 connected to the transducer transducer through

low pass filter 3, PABLE, higher harmonics of modulation frequency. The second harmonic signal from the transducer coil through a high-pass filter 4, which suppresses the modulation voltage, connects to the attenuator 5, and from there draws effort: the converted signal 6 to the peak voltmeter 7. Step attenuator 5 and transducer amplifier These signals 6 are used to interface the dynamic ranges of the sensor-converter R of a peak voltmeter.

Frequency adjustment of the ferrite sensor in the a-converter occurs when the current in the coils of the magnetic system 14 is varied with the aid of an AC unit 8. The current in the coils is recorded by the frequency indicator 10, scaled to the frequency of the measured microwave signal. The signal, proportional to the ion current in the coils of the electromagnetic system, with resistance R goes to the transformed signal path gain block 9, which compensates for the frequency unevenness of the sensor | Ka-converter that makes it possible to do power reading in the whole frequency range of the sensor - iraberazovatel and get rid of the correction graphs (tables). When periodically rebuilding the transducer sensor with the help of reorganization block 8 of the magnetic system of the entire frequency range, the device allows a panoramic view of the microwave signals and measuring any I13 of them while observing these x signals on the oscilloscope screen connected to the output of the peak voltmeter 7.

To facilitate tuning the transducer to the frequency of the measured signal, the device is equipped with a block, submodulation

12, which performs a slow periodic restructuring of the sensor near the ferromagnetic resonance so that for each period of restructuring the magnetic field passes through the resonance value. In this case, the peak voltmeter marks the maximum amplitude of the converted signal.

To periodically check the gain of the converted signal path, the device is equipped with an internal calibrator 11, which allows you to uniquely set the gain of the converted signal path. The peak voltmeter scale is calibrated at peak power values using an exemplary power calibrator with a non-modulated microwave signal. By virtue of the constancy of the transducer factor of the transducer for pulsed and continuous microwave signals, the calibration of the instrument remains unchanged for pulsed signals.

Subject invention

A device for selectively measuring the frequency of the peak flag. The power of the Hia microwave signals is based on the use of frequency multiplication in ferrites, which contains a ferrite sensor converter, a modulator associated with the transducer sensor coil, a submodulation unit, a frequency tuning unit, and. The path of the converted signal, characterized in that, in order to improve the accuracy of power measurement, it is additionally equipped with an automatic correction unit for the gain of the path of the converted signal, the input, which is connected to the sensor tuning unit in frequency, and the output is from Ktom converted signal-.