SU464836A1 - Device for controlling the magnetizing current of pulse transformers - Google Patents

Description

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The invention relates to the field of electrical measurements for monitoring the amplitude of the magnetizing current (no-load current) of pulsed transformers.

Devices are known for monitoring the amplitude value of the no-load current of nanosecond pulse transformers using an indicator, such as an oscilloscope or a pulse voltmeter. The control device in this case consists of a series-connected circuit consisting of a square pulse generator, a primary winding of the monitored transformer and a measuring resistor.

The performance of such a control during serial production of pulse transformers turns out to be very low and does not exclude subjective errors of the controller.

The purpose of the invention is to increase the productivity and accuracy of controlling the magnetizing current of pulsed transformers.

This is achieved by the fact that the device is equipped with a tunnel diode connected between the primary winding of the transformer and the measuring resistor, a counter, a frequency divider, an alarm circuit and an amplifier forming the input of which is connected to the measuring resistor, and the second input of the counter is connected via a frequency divider with the output of a square pulse generator, the counter output is connected to an alarm circuit.

FIG. 1 shows a block diagram of the proposed device; in fig. 2 - chart

the voltage of the pulse transformer (a), the diagrams of the magnetizing current pulses are less (b) and greater (c) of the peak current of the tunnel diode. The device consists of a square-wave generator 1, to the output of which is connected a chain of a series-connected monitored transformer 2, a tunnel diode 3, a measuring resistor 4 and a signaling unit of the amplifier-amplifier 5, a counter 6, a signaling circuit 7 and a frequency divider 8 .

One input of the counter 6 through the amplifier-shaper 5 is connected to the measuring

the resistor 4, and the second input (reset input) through the divider 8 to the output of the square pulse generator 1. The output of the counter 6 is connected to the input of the signaling circuit 7.

The device works as follows. The signal from the output of the square-wave generator I causes a current through the tunnel diode 3. When a current pulse passes through the tunnel diode 3, which exceeds the peak current of the tunnel diode, the resistance of the tunnel diode increases dramatically. The shape of the pulse, removed from the measuring resistor 4 and proportional to the no-load current, changes dramatically and takes the form shown in FIG. 2, c. The presence in the pulse removed from the resistor 4 of a deep dip with steep fronts is equivalent to the manifestation on it of a doubled frequency of the following idle current pulses. This frequency doubling is detected by the alarm unit, in which the electronic counter 6 is reset via divider 8 with the pulses of the master oscillator 1. When the number of magnetizing current pulses is doubled, the electronic counter 6 overflows and the alarm circuit detects that the magnetizing current has exceeded the limit level. 4b4 5 10 15 20 П The subject of the invention A device for controlling the magnetizing current of pulse transformers, consisting of a rectangular emulsion generator, to the output of which are connected the primary winding of the controlled pulse transformer and measuring resistor connected in series, and an indicator connected to the measuring resistor, characterized by in order to increase productivity and control accuracy, it is equipped with a tunnel diode-M connected between the primary winding of the transformer and the measuring p A resistor, a counter, a frequency divider, an alarm circuit and a driver amplifier, the input of which is connected to the measuring resistor and the output to the counter input, the second counter input is connected via a frequency divider to the output of the square pulse generator, the output of the counter is connected to the alarm circuit.