SU506075A1 - Electromagnet with built-in rectifier - Google Patents

Description

one

The invention relates to electromagnetic technology and can be used as an AC drive for various electromagnetic mechanisms, such as relays, contactors.

Electromagnets are known, having two windings connected in parallel and according to, and two diodes connected in series with the windings of an electromagnet.

The main advantage of such an electromagnet is half the number of diodes than is necessary with a full-bridge rectifier bridge circuit.

However, the indicated electromagnet has a large: pulsation value, a smaller magnitude of the constant component of the magnetizing force, and hence the electromagnetic force compared with the electromagnet connected via the rectifier bridge circuit. This disadvantage with a low quality of the winding can lead to vibration of the core. In addition, the maximum reverse voltage across the diodes used in the electromagnet in question is approximately 30% greater than the amplitude value of the voltage of the power source.

The purpose of the invention is to reduce the pulsation of the electromagnetic force, increase its riero value and decrease the maximum reverse voltage applied to the diodes.

This is achieved by the fact that the windings of the proposed electromagnet with a built-in rectifier are interconnected in series and counter, and parallel to each winding a diode is connected so that the diode electrodes of the same name are connected to the common point of the windings

the end of the windings and the like electrodes of the diodes are connected to a power source.

The drawing shows the circuit of the proposed electromagnet. Two windings 1 and 2 of the electromagnet are connected in series and counter to each other and parallel to diodes 3 and 4. In this case, the cathodes of the diodes and the like ends of the windings are connected at one point. The two other like ends of the windings and the anodes of the diodes are connected to the poles of the power source.

In the established process, the currents in the windings flow during the entire period, and in each diode only during the half period of the power source. When diode 4 is locked by the voltage of the power supply, diode 3 is open and current flows through winding 2 and closes through the source; in the winding 1, at the same time, the current at the beginning of the half-period is maintained due to the ed. with. self-induction, and in con3

half of the period - due to ed with. mutual induction. During this semi-period, the current flowing through the winding 1 is closed through diode 3. In the next half-period of the power source, the processes are repeated and the roles of the diodes and the electromagnet winding change.

Since the current in each winding flows during the entire period of the voltage of the power source, this provides an increase in the constant component and a decrease in the ripple of the magnetizing force, and hence the electromagnetic force.

Maximum reverse voltage per diode. equal to the amplitude value of the power supply voltage. In an electromagnet with a built-in rectifier, shown in the drawing, the diodes are connected at the common point of the windings of the cathodes, however, the operation mode

the circuits are not replaced if the diodes are connected to the point of the windings by anodes.

Claims (1)

Invention Formula Electromagnet with a built-in rectifier containing two windings and two diodes, characterized in that, in order to reduce pulsation and increase constant component of the electromagnetic force, reducing the maximum reverse voltage on the diodes, its windings are interconnected consistently and counter, and a diode is connected parallel to each winding so that the diode electrodes of the same name are connected to the common point of the windings, while the other two winding electrodes of the same name and diode electrodes of the same name are connected to the electromagnet terminals of the electromagnet. 9 at