SU652500A1 - Arrangement for measuring frequency deviation and variation rate for pulse duration - Google Patents

Description

The invention relates to the field of radio measurement technology and can be used to measure the frequency deviation of linear-frequency-modulated (chirp) signals, as well as to measure the rate of change of frequency during a pulse. Devices for measuring the deviation and the rate of change of frequency during a pulse are known, comprising a controlled oscillator, a delay line and a mixer, the controlled oscillator being connected to the mixer directly and through delay line 1. The known devices have a low measurement accuracy. Of the known devices, the closest in technical essence and the achieved result is a device for measuring errors in the chirp oscillations from the delay line, which contains a modulator (sawtooth voltage generator), a controlled oscillator, a delay line, a mixer, an intermediate frequency amplifier, detector, reference oscillator, frequency divider and oscillographic indicator G2. The signal of a controlled oscillator modulated in frequency by a saw-tooth voltage from the generator output goes to the mixer directly and through the delay line. In the intermediate frequency amplifier, the differential frequency signal is amplified at a frequency. pr, fIMP. where D is the frequency deviation:, T, dd is the pulse duration; and nt, is the delay time, which is then compared in the phase detector with the reference one. The error signal goes to the oscillographic indicator. Thus, deviations from the linearity of the chirp signal are converted in the Bv-jeecT device first to the instability of the difference frequency, and then to the voltage variations proportional to this instability. The magnitude of the deviation from the linear chirp signal of the chirp signal is investigated by an oscillographic and indica mountain. Determining the magnitude of the deviation of the parachute using this device is possible only as a result of indirect measurement, which significantly reduces the measurement accuracy. In this case, the value of the intermediate frequency, the duration of the impulse cia, and the delay time, the frequency deviation {calculated by the formula — is measured. The measurement of the rate of frequency changes during the impulse using the electronic device can also be carried out only in indirect measurement. In addition, it is not the rate of change of frequency that is determined at various sites of the probe impedance, but the average rate of change of frequency during a pulse. : Therefore, the known device does not provide sufficient accuracy in measuring the deviation of the clock. The purpose of the enhancement is to improve the accuracy of the deviation and the rate of change of the frequency & techoyve impu; To do this in a device containing a modulator connected in series. a controlled oscillator, a delay line And a mixer, whose second input is under Suechen to the output of the controlled oscillator, a strobe pulse generator, an adjustable delay element and a successively connected wavelet, a frequency multiplier and a four-time pulse are introduced, and the first valve input is under. It is connected to the mixer output, and the second input is connected via a sequentially switched on generator of pulses and an adjustable delay element to the output of the mountain module a. The structure of the proposed device is shown. A device for measuring the frequency deviation contains a control oscillator 1, a delay line 2, a mixer 3, a valve 4, a multiplier of 5 frequencies, a counter of 6 pulses, mod) 71 tor 7, an adjustable delay element 8 igeneratoo 9 gates and 15 pts, cf. The proposed device, when measuring the frequency deviation, works by slaughtering, the signal of the difference frequency arrives at the input of multiplier 5 through valve 4, which is closed for the entire duration of the pulse under study. The use of a multiplier makes it possible to increase the accuracy of measurement of the frequency deviation in the absence of a ratio between the pulse duration and the oscillation period of the difference frequency. The frequency of the signal at the output of the multiplier 5 is equal, A ,, „where which number of pulses counted by counter 6 is numerically equal to the frequency deviation. When measuring the rate of change of frequency during a pulse, the gate 4 closes for a predetermined, based on the pulse duration, the time, for example, 1 or 10 of the MCS. The speed and frequency frequency is also determined by the readings of the counter b. The use of adjustable delay element 8 makes it possible to measure the rate of change of frequency in different parts of the duration of the pulse being studied. Photographic device for measuring devioiai and speedy changes of purity during a pulse. Completing a sequentially connected modulator, controlled generator, line. Eade {1 mixer and second input connected to the output of an adjustable generator, a generator of gating pulses, so that, in order to achieve the accuracy of measurement of the deviation and speed in the frequency change during the pulse, an adjustable delay element and sequentially connected valve multiplier frequency and pulse number counter, the first input of the valve is connected to the mixer output, and the second input is connected via sequentially switched generator / gate kmuls and an adjustable delay element with the modulator output. Sources of information,: accepted in the examination 1. US Patent No. 3528033, l, 331-178, O7.08.68. .Eeectronics Letters, 1966, .a NO 2, s, 5O-51,