SU859941A1 - Device for measuring frequency change rate - Google Patents

Description

(54) DEVICE FOR MEASURING THE RATE OF CHANGE OF FREQUENCY

The invention relates to a measurement technique and can be used in automatic control systems, radar, radio navigation and measurement and computing systems for performing a frequency differentiation operation.

Devices for measuring the rate of change of frequency are known, comprising drivers, generators, control units and measurement units 1.

A disadvantage of the known devices is low measurement nausea and low reliability.

Shch of known devices closest to that proposed by its technical essence is a device containing a pulse FORKER and a frequency meter-periodometer, as well as a system of concurrently connected counters 2.

A disadvantage of the known device is low reliability.

The purpose of the invention is to expand the reliability of the device.

The goal is achieved by the fact that in the device for measuring the rate of change

a frequency containing a pulse shaper and a frequency meter-periodometer, serially connected pair pulse generator, a forward counting counter, a code census circuit and a countdown counter, whose output is connected to the frequency counter-periodometer input, are entered, and the counting counter input is connected to the output of the pulse shaper.

FIG. 1 is a block diagram of a device for measuring the rate of change of frequency; in fig. 2 - timing diagrams illustrating the principle of its work.

The device contains a pulse former 1, the output of which is connected to the input of counter 2 of the reverse counting with a capacity of ml, and through it with a frequency meter periodometer 3, the generator of 4 paired pulses is connected to the input of the counter 5 of the forward counting, the outputs of the trigger through circuit 6 connection to the installation inputs of the counter20

ka 2 countdowns.

It must be remembered that in some cases of practice not all cascades of counter 2 of the counting account should be connected to code census circuit 5, some of them can perform a divider with a division factor. The generator of 4 paired pulses can be performed, for example in the form of two linear circuits connected in input and output, one of which includes a delay line. The device works as follows. Ifa nkhod device receives a signal frequency range. From the output of the imaging unit 1 and the pulses, the impulse is removed (Fig. 2a with the shape of the impulses and the moment of passing the signal through zero in the direction of direction 1), enters the countdown counter 2 input. Preload cJibFCO and counters 2 and 5, take 1 V1; variable diagrams of the state, i.e., the recorded numbers, respectively, in counters 2 and 5. Consider the case when it is necessary to start extracting pulses starting from the first, i.e. when Chapter 1. In this case, after passing the first a pulse on the gateway of crossbar 2, a pulse appears It passes through the input of the frequency-therapy period 3 and iin the input of the generator 4 paired impugs, n, the output of which appears is a pair of two pulses. Oops is fed to the input of counter 5, so the number 3 will now be written in it, which is rewritten through circuit 6 in counter 2 (Fig. 2c and d at the output of the screw 2 and the generator 4 paired pulses). Thus, the second pulse at the input of the frequency meter-periodometer 3 is sent to the 4th pulse of the input sequence (1 + 3 4 It will again start the generator 4 paired pulses, adding 5 more pulses to the counter 5, so that in it The number 5 was engraved, which is again copied to counter 2 via circuit 6 of the census code. Therefore, after the passage of euie 5 pulses, i.e. on the 9th pulse of the input sequence (4 + 5 9), at the input of the frequency of the pa-periodometer 3 there is a third pulse. The fourth pulse at the input of the frequency of the periodic mode 3 is on Wits on 9 + 5 + 2 16th and pulse of the input sequence, the fifth - on 16 + 7 + 2 - 25th, the sixth - on 25 +9 + f 2 36th and t .d The pn1, p. Of the work is based on the fact that the squares of the neighboring numbers differ by an odd number t - (I - 1) 21 - .1. This allows the next square to be obtained by simply adding the number 2 to the difference between the squares of the previous numbers. Obviously, to obtain a sequence of numbers of the form ml, it suffices to set the coefficient to make the first bits of the counter 2 equal to t. 4 The rate of change of the input frequency can be determined by the measured frequency or the duration of the output phase. Indeed, let the signal frequency be defined as f kt. The moments of the signal passing through the zero level (in one direction) are determined from the condition of the phase advance over time for a multiple of 27G. 4r fi; 21Cft --2ir, From here .. Here m is the sequence number of the moment when the signal passes through the zero level, counting from. moment of occurrence of the signal. Obviously, to obtain equally spaced pulses is sufficient. extract pulses, the sequence numbers of which correspond to the squares of integers multiplied by the number of the first selected pulse. In this case, the period of oscillation T - 4- -f. VMH-l -V- (-VF-WcTi H, where n is the number of the pulse to be extracted. Hence the rate of change in frequency is defined as --Yn | -t YP where T, F are the period and frequency of the selected sequence, respectively. For non-fixed If the signal frequency is described by the expression f kt + fo, i.e., has an initial component, then a mixer with an auxiliary local oscillator with frequency fp can be used for i time extraction. In this case, the moment the occurrence of the signal will be the moment of equality of the frequencies of the local oscillator and the input signal. Thus, the proposed device while maintaining high accuracy of measuring the rate of change of frequency is much simpler than known. , that is, the fact that, in order to increase the reliability of the device, a paired impulse generator, a direct count counter, a circuit B code counter and down counter whose output podaslyuchey to chastotomeragperiodomera input, and the input down-counter connected to the output of the pulse shaper. I 23 41171 a yun. Sources of information, appraisal into account during the examination 1. USSR author's certificate number, cl. G 01 R 23/12, 1967. 2. USSR author's certificate N 607162, cl. G 01 R 23/08, 1975 (protopsh). S in and Ai Pa

Claims (2)

Claim A device for measuring the rate of change of frequency, containing a pulse shaper and an hour-counter-periodometer, characterized in that, in order to increase the reliability of the device, a serial connection of a pair of pulse pulses, a direct counting counter, a code rewriting circuit and a counting down counter, the output of which is introduced connected to the input of the frequency meter? periodometer, and the input of the countdown counter is connected to the output of the pulse shaper. . Sources of information, take into account when examining 1. USSR Copyright Certificate No. 211660, cl. G 01 R 23/12, 1967. 2. Copyright certificate of the USSR N · 607162, cl. G 01 R 23/08, 1975 (prototype). t t