SU1169138A1 - Digital discriminator of pulsed signal - Google Patents

Abstract

FREQUENCY DISCRIMINATOR: A PULSE SIGNAL, containing a monolithic body of piezoelectric material, on which a piezo transducer and electrodes are located, and an amplitude detector. characterized in that, in order to expand the range of operating frequencies, a three-arm circulator is inserted in it, the first arm of which is connected to the signal source, the second to the electrodes, and the third to the amplitude detector input, and a time selector, whose input is connected to the amplitude output the detector is the output of the frequency discriminator of the pulse signal, while the electrodes are located on one of the working surfaces of the monolithic case parallel to each other.

Description

oh o

her

00 The invention relates to radio engineering, namely, devices for converting frequency to voltage. The aim of the invention is to expand the operating frequency range. FIG. 1 shows a block diagram of the frequency discriminator of a pulse signal; in fig. 2 monolithic body of piezoelectric material; in fig. 3 characteristic of the frequency discriminator pulse signal. The frequency discriminator contains a three-shouldered circulator 1 with the first 2, second 3 and third 4 shoulders, a monolithic body 5 made of a piezoelectric material, an amplitude detector 6 and a temporary selector 7. The monolithic body 5 made of a piezoelectric material has two working surfaces 8 and 9 parallel to each other, Electrodes 10 and 11 are located on one of the pits, to which the second pavilion 40 3 of a three-arm circulator 1 is connected. The frequency discriminator of the pulse signal works as follows. The input high-frequency pulse signal from ne The main arm 2 of the triple arm circle 1 passes into its second arm 3 and goes to the electrode 10 located on the working surface 8 of the solid body 5 of piezoelectric material. The near-surface layer of the working surface 8 plays the role of a piezo transducer in such a way that longitudinal and shear acoustic waves are simultaneously excited in the monolithic body 1 of a piezoelectric material. These waves propagate to the working surface 9 and, repeatedly reflecting between the working surfaces 8 and 9, create a sequence of delayed pulses on the electrode 10. Since the length L of the monolithic body 5 of the piezoelectric material is fixed, and the ratio of the velocity Vg of the longitudinal acoustic wave to the velocity Vg of the shear acoustic wave is close to two, then. As can be seen from FIG. 2, where the longitudinal acoustic wave trajectory is conventionally represented by a solid line, and the shear wave trajectory is dotted, at the instants of time when 2nL -. these waves are simultaneously converted at the electrode 10 into electrical signals, which leads to the overlapping of even delayed pulses. Since the velocity ratio is not exactly equal to two, when the input signal frequency changes, the oscillations of the longitudinal and shear acoustic waves at the electrode 10 at the time of the even delayed pulses interfere with each other, which leads to a change in the amplitudes of the even video pulses at the output of the amplitude detector 6 at different input frequency values. At the same time, a continuous change in the frequency of the input signal leads to a periodic change in the amplitudes of even delayed pulses with a period T equal to T 2pb (1-- |), where n 1,2,3 ... is the number of even delayed pulse. After using the time selector 7 of one of the even delayed video pulses, the device as a whole performs the functions of the frequency discriminator of a pulse signal with a transmission coefficient equal to 2 ..., 4-- | . A 1 The characteristic of the frequency discriminator at high power intervals is periodic (Fig. 3), which allows the same discriminator to be used in automatic frequency control devices and Doppler frequency shift meters with different operating frequencies.

Claims (1)

FREQUENCY DISCRIMINATOR OF A PULSE SIGNAL, comprising a monolithic body of piezoelectric material on which the piezoelectric transducer and I electrodes, and an amplitude detector, characterized in that, in order to expand the operating frequency range, a three-arm circulator is introduced into it, the first arm of which is connected to the signal source, the second to the electrodes, and the third to the input of the amplitude detector, and a time selector the input of which is connected to the output of the amplitude detector and is the output of the frequency discriminator of the pulse signal, while the electrodes are located on one of the working surfaces parallel to each other of the monolithic housing. Figure 1 about ς © co