SU667915A1 - Method of measuring phase shift of high-frequency oscillation of radio pulse in four-pole network - Google Patents

Description

oscillations in the previous cycle.

The drawing shows a functional diagram of the device, explaining the proposed method.

Claims (2)

The device contains a quartz oscillator I, the switch 2 is connected to one of the inputs, and the control unit 3 is connected to the other. The output of the generator-amplifier 1 is connected to the electronic switch 4, the second input of which is connected to the control unit 5 3. The output of the electronic switch 4 is connected to the input of the delay line 6, its output is connected to the inputs of the test terminal of the polarizer 7 and the adjustable attenuator 8. The output of the quadrupole 7 and the attenuator 8 is connected to the switch The device also contains a generator 9, a reference frequency, its output is connected to one of the inputs of the adder 10 and a switch 11. Another input of the adder 10 is connected to the output of the electronic switch 4, and its output is connected to the oscilloscope 12, and the input X This oscilloscope is connected to the output of the generator 5 pulses and the switch I, to which the frequency meter 13 and the output of the generator-amplifier 1 are also connected. The device works as follows. Switch 2 sets the circus mode without a quadrupole. They start the circulation by switching on the generator 5. The first pulse cuts the radio pulse from the oscillations of the generator 1 and, with its falling front, puts it into the amplification mode. The radio pulse passing through the delay line 6 is amplified in the amplifier 1 and at the end of the radio pulse goes into the free oscillation mode. In this way, the oscillations of the generator 1 are synchronized with the oscillations of a radio pulse of the previous circulation cycle. Due to the fact that the transfer of phase changes of a radio pulse passing through the circulation cycle, is not carried out simultaneously, on the leading edge of the radio pulse, but throughout its duration, the subsequent circulation radio pulse obtained from oscillations of the generator 1 carries more complete information about occurring phase changes of the signal. From the free oscillations of the quartz resonator, switch 4 generates a subsequent radio pulse. By tamping down the cutout, the control unit 3 generates a brief time signal for bypassing the resonator, and its oscillations are disrupted. This process repeats with the pulse frequency of the generator 5, which is set so that the circulation period is longer than the total delay time of line 6 and the duration of the radio pulse. An interference pattern obtained from the summation of circulating radio pulses with oscillations of oscillator 9 is observed on the oscilloscope screen. By adjusting the frequency of these oscillations, which are close to the oscillation frequency of oscillator 1, the maximum stability of the total oscillations on the oscilloscope screen, i.e. the frequency of their repetition is equal to the frequency of the generator 5. After that, the frequency of the reference oscillations f,} and the frequency of the radio pulse are measured - the circulation frequency fj. Then switch 2 sets the circulation mode with the participation of a quadrupole and restarts the circulation with the same repetition period. If the interference pattern on the oscilloscope screen is unstable, the oscillator frequency 9 is adjusted to the next setting of the interference pattern stationary and the reference frequency fQ2, H frequency is again measured. circulation of radio pulses f. Next, the generator 5 is turned off and the frequency of continuous oscillations f of the generator 1 is measured. The desired phase shift f of the high-frequency filling of radio pulses that extinguish the quadrupole is determined by the formula.;. A negative sign (f indicates a lag, and a positive sign indicates an advance of the output oscillations of the quadrupole relative to the input. Formula of measurement radio pulses, and determining changes in the parameters of circulating radio pulses, characterized in that, in order to improve the accuracy, the accumulation of ph ovogo shifting each subsequent radio pulse circulation is effected by synchronization source RF pulse oscillation wobbles in the previous cycle circulation. exuding) 1nki information received into account when 1.Izmereni expertise in electronics ed. Dobrokhotova b. L., M .. Energia, vol. 2, p. 13, 34, 1965. 2.AnTopck-oc testimony USSR N 167544,. G 01 F 10 / () 4, 18.01.65.