SU147331A1 - Cube Maker - Google Patents

Description

BACKGROUND OF THE INVENTION Known devices for cube construction are based on the use of the square dependence of the semiconductor resistance increment on the magnetic field strength. In the proposed device, in order to eliminate in the output signal a component proportional to the first degree of the input current, and to increase the stability of the circuit, the Gauss effect semiconductor sensor is included in the shoulder of a balanced bridge circuit and is located in the field of an electromagnet connected in diagonal of the bridge in series with the input current source. At the same time, the output voltage decreases from a different diagonal of the bridge.

FIG. 1 shows a diagram of the proposed device; in fig. 2 is a device whose circuit is supplemented with additional resistance in order to eliminate the input component of the frequency component and obtain a pure frequency multiplication of three times in a wide range of latitudes.

An important requirement for devices of this type is the requirement of "purity resulting from the dependency output:

where: - input current;

a - coefficient of proportionality.

The R radio equipment must operate in a wide range of frequencies, be insensitive to supply voltage fluctuations and have sufficient simplicity.

The device is based on the use of the quadratic dependence of the j, e and other resistance of a semiconductor on the strength of the magnetic field I;

where b is the proportionality coefficient.

, u --- ail.r,

  roy

No. 147331- 2 The operation of the proposed device is as follows.

In the absence of a magnetic field, the bridge of the resistances Ri, R, R, and ro (where po is the resistance of the semiconductor element of a bp in) is balanced, i.e.

 / L.

/, W,

The absolute value of the resistances R and W is chosen so that the ratio is

In this case, the entire current / d. flows through ppt. In the presence of current Jgj. there is an increase in resistance ppt. due to the appearance of the magnetic field I.

If H K1, where K - coefficient of proportionality,

vy.g - (a / iv,

where a -, i.e., the proposed device provides obtaining a cubic dependence of .r on / „. . Due to good performance, the circuit provides high-quality cubing and operation in the frequency range up to high frequencies (theoretically up to several tens of megahertz). The advantage of the circuit is that the current / output does not fall at any of its amplitudes.

The proposed device is of interest not only for computing and automation, but also for radio engineering. Its value for radio applications is that it can be used with a small addition of a circuit to "multiply the frequency by a factor of three over a wide range of input signals. If a

/ ,, - / osozog, then by the formula of trigonometry we have:

3I 3

/ ".VP n {3cosco - | -cos3cu /).

If the bridge is somewhat unbalanced due to the introduction of resistance r, then a voltage can be applied to the output of the circuit:

U CioCOS (i} t,

where c is the proportionality coefficient.

If you choose the value of r in such a way that with i obkpo (as

it is not difficult to show), for this pass. my, that the value of r is equal to 2

went to r -J- bkpoi, and enter into the appropriate shoulder of the bridge, then at the output of the circuit we get the voltage

vyg - t o pocos3 (o / rfcos3co, where d is the proportionality coefficient.;. i

.

Due to the practical independence of the quadratic effect of the frequency, multiplying the frequency by three times using the proposed device is possible in a wide frequency range of the input signal / d,., Starting with / 0.

Subject invention

A cube device based on using the quadratic dependence of the semiconductor resistance increment on the magnetic field strength, characterized in that, in order to eliminate a component proportional to the first power of the input current in the output signal and to increase the stability of the circuit, a semiconductor Gauss effect sensor is included in the shoulder of a balanced bridge circuit and is in the field of an electromagnet connected to the bridge diagonal in series with the input current source, the output voltage nimaets the other diagonal of the bridge.

FIG. f

and was

Fig 2