SU1005271A1 - Storage-type magnetic amplifier - Google Patents

Description

The invention relates to electrical engineering and can be used in devices for monitoring and measuring weak electrical signals.

Known magnetic semiconductor low threshold amplifiers with even harmonic modulators £ 1).

These devices have satisfactory operating characteristics, but they do not allow measuring the required infrared-frequency signal with the required degree of accuracy, commensurate with external noise in the input signal of the amplifier.

The closest to the invention in technical essence of the achieved effect is a storage magnetic amplifier containing on the common magnetic circuit input and output windings and excitation and read windings, respectively connected to excitation and read pulse generators, the inputs of which are connected to the output of the control unit; the input connected to the corresponding output of the excitation pulse generator [2J.

The disadvantage of this device is also low noise immunity.

The aim of the invention is to increase the noise immunity.

This goal is achieved by the fact that the device is equipped with a short-circuited winding and an integrator, and the information inputs of the integrator are connected to the output winding, and its control input is connected to the jq output of the control unit, the short-circuited winding is installed on a common magnetic circuit.

The drawing shows a diagram of a storage magnetic amplifier,., Which contains the pulse generators of excitation 1 and read 2, inputs connected to the output of the control unit 3, magnetic circuits 4 with windings of the input 5 and excitation 2Q 6 connected to the outputs of the excitation pulse generator 1, a read winding 7 connected to the outputs of the read pulse generator 2. In addition, the storage magnetic amplifier contains an output25. winding 8 connected to the information inputs of the integrator 9, the control input of which is connected. to the output of the control unit 3 and a short-circuited winding 10 located 30 on the common magnetic circuit 4. The input of the control unit 3 is connected to the corresponding output of the excitation pulse generator 1.

Works, magnetic storage amplifier as follows.

The signal from the control unit 3 5 starts the excitation pulse generator 1.

As a result of simultaneous exposure to the magnetic circuit 4 of the input direct current and the periods of the emf of the excitation, its induction receives the resulting increment B. After the excitation is completed, the control unit 3 stops the excitation pulse generator 1, performs reset 15 of the integrator 9, and starts the read pulse generator 2 with some delay , puts integrator 9 into integration mode.

AC interference on the magnetic circuit due to the occurrence of a demagnetizing current in it.

Thus, the introduction of a short-circuited winding reduces variable interference to the level of the coercive force of the core, at which the storage magnetic amplifier provides sufficiently good noise immunity due to averaging of the input signal, and the introduction of a controlled integrator allows you to obtain output information in the presence of a short-circuited winding.

The application of the invention allows for noise-immune control and measurement of weak electrical signals.

The read pulse generated by the read pulse generator 2, magnetizes the core of the magnetic circuit 4 to its original state.

The short-circuited winding 10 significantly slows down the process of establishing induction, which necessitates a corresponding increase in the duration of the read pulse and the connection to the output winding of the integrator. The EMF pulse induced during reading on the output winding 8 is integrated by the integrator 9. As a result, the voltage at its output becomes proportional to the increment of induction obtained by the core in the excitation interval, i.e. algebraic sum of samples of the input signal. At the end of the reading, the control unit 3 starts the excitation pulse generator 1 and puts the integrator 9 in the storage mode of the information obtained in the previous excitation cycle. Next, the cycle of operation of the storage magnetic amplifier is repeated.

The presence of a short-circuited winding reduces the impact

Claims (2)

Claim A storage magnetic amplifier containing input and output windings and excitation and read windings on a common magnetic circuit, connected respectively to excitation and read pulse generators, the inputs of which are connected to the output of the control unit, the input connected to the corresponding output of the excitation pulse generator, which is that, in order to increase the noise immunity, it is equipped with a short-circuited winding and an integrator, moreover, the information inputs of the integrator are connected to the output winding, and its control input is connected to the output of the control unit, a short-circuited winding is installed on a common magnetic circuit. 40 Sources of information taken into account in the examination 1. Rosenblatt M. A. Magnetic element, automation and computer technology. M., Science, 1974. 2. Neuimin Ya. G. magnetic amplifiers 1971, p. 15-19. Cumulative L., Energy,. · VNIIIPI Zach 1923/75 Circulation 934 Subscription Branch of PPP Patent, Uzhgorod, Project 4,