SU680151A1 - Frequency-harmonic multistable element - Google Patents

Description

The invention relates to the field of automation and computing. The element can be used in devices for processing discrete information represented by a multi-valued code. A frequency-harmonic multi-stable element containing a series-controlled oscillator, a subtractive mixer, the other input of which is connected to the generator output, is known. reference voltage torus, filter and detector 1. The disadvantage of a known element is the dependence of the output frequency stability, by means of which the coherent state is stable, on the filter parameters, which does not allow combining such elements into complex: frequency-coding schemes. The aim of the invention is to improve the stability of the coding frequencies. This goal is achieved by introducing into the frequency-harmonic multistable element a circuit of a series-connected second subtractive mixer, a second filter, and a second detector, as well as a second reference voltage generator, the first and second summing mixers, an inverter, and a voltage addition unit in the limiter. Moreover, the first inputs of the second subtracter and the first summation of the mixers are connected to the output of a controlled generator, whose input is connected to the output of the limiter, the second input of the second subtractive mixer l through the second summing mixer. Connected to the outputs of the first and second generators through the inverter is connected to the first input of the voltage addition unit, the second input of which is connected to the output of the first detector, and the output to the input of the limiter, the second input of the first summing with The mixer is connected to the output of the first filter. FIG. 1 shows a frequency diagram of a no-harmonic multi-stable element; in fig. 2 shows time diagrams.

The element contains a controlled generator 1, subtractive mixers 2 and 3, filters 4 and 5, detector B and 7, reference voltage generators 8 and 9, summing mixers 10 and 11, inverter 12, voltage addition block 13 and limiter 14.

The output of the generator 1 is connected to the inputs of the subtractive mixers 2 and 3 and to the input of the summing mixer 10. The reference voltage UQ, whose spectrum is a cyMNty harmonics, equivalently located on the scale of frequencies and ingervol

where 1/5 the amplitude of the components of the spectrum

n is the number of frequencies in the spectrum supplied from generator 8 to the inputs of the subtractive mixer 2 and summing mixer 11, to the second input of which the generator voltage is supplied with a constant frequency

QSOSut ..

Output voltage cyi iMHpyiom.ePd mix

bodies 11, whose spectrum is shifted relative to the spectrum of the reference balance of the string by the value of G is fed to the second input of the subtractive mixer 3,

The voltages from the output of the subtractive mixers 2 and 3 are fed to the inputs of the corresponding filters 4 and 5, and from their outputs to the inputs of the detectors 6 and 7, respectively. The output of the filter 4 is connected to the second input of the summing mixer Yu. The output of the detector 6 is connected to the first input of block 13, which adds down the input voltages, and the output of the detector 7 is connected to the second input, block 13 via an inverter 12. From the output of the block. 13 the differential voltage is fed to the input of the limiter 14, which passes only the voltage of one polarity C output.The limiter voltage supply to the control input of the generator 1. The output signal of the multi-hand element that encodes steady states is the output voltage frequency from the output of the summing mixer 10.

The amplitude characteristic of a given frequency-harmonic multistable element is defined as the difference of the amplitude characteristics of two quadrupoles, each of which is formed by a controlled oscillator, subtracting

mixer, filter and detector. Due to the frequency shift of the voltage spectra applied to the subtractive mixers, the amplitude characteristics of these two-port networks are also shifted (Fig. 2).

As a result of subtracting the output voltages of the detectors 6 and 7 and the restrictive properties of the limiter 14, the total amplitude characteristic has the form shown in FIG. 2, and stable states are realized only for frequencies that satisfy the condition

. As a result, the output of the summing mixer 10 in a stable state of the element will be a voltage with a frequency equal to the sum of the frequencies of the generator and the output voltage of the filter f (; f, t. which is always equal to one of the frequencies of the harmonic components of the spectrum

, t.-I, f ,.

Thus, the stability of the frequencies encoding the stable states of the frequency-harmonic multi-stable element is not determined by the filter parameters, but by the stability of the spectral components of the reference voltage, which can be ensured at a sufficiently high value for a large number of elements simultaneously.

Claims (1)

1. Sigorkh: cue B, P. and others. Multistable elements of discrete technology. M Energie, 1966, p. 118 is a prototype. e ..