SU408291A1 - DC STABILIZER - Google Patents

Description

one

The present invention relates to the field of stabilization of large dc currents and can be used in systems designed to provide direct current to large electromagnets and lenses.

The known DC stabilizers, which contain an adjustable DC source, a reference current source, a measuring element, and a semiconductor-capacitive control circuit, have a long time constant. Therefore, in a number of cases, the stabilization of the current stabilization system requires the use of a dual-circuit control circuit, which leads to a complication of the stabilizer circuit.

In the proposed stabilizer, in order to increase speed, a DC converter in the time interval between pulses is used as a measuring element, using a pulsed magnetic modulator, one input winding KOTOj) oro is connected to the load circuit, the other is connected to the reference current source, and the output winding connected to the error pulse shaper, B1 1 whose inputs are connected to a semiconductor-capacitive control circuit of an adjustable DC source. For the possibility of applying to the control circuit the error signals modulated

across the width, the sawtooth voltage capacitor is connected to a source of stabilized voltage with three voltage levels, including 1

three stabilizers, two of which are shifted by transistors, the bases of which are connected to the outputs of the misalignment pulse former. The drawing shows the functional

The scheme described stabilizer.

The regulated constant current source 1 is connected to the load resistor 2, in series with which the input winding 3 of the operating current of the dc converter is connected in the time interval between pulses. This converter consists of ferromagnetic cores 4, 5, the input winding 6 of the reference current, the output windings 7, 8 and the power windings 9, 10. The winding 6

connected to the current source 11, and the windings 9, 10 through the choke 12 to the alternating voltage source 13. The windings 7, 8 are connected to the driver of the misalignment 14, state n1;

15, 16 and the coincidence circuits 17, 18, the output of which is connected to the control circuit of the variable direct current source. The UnraVlepi circuit 19 includes a sawtooth generator 20, a pack capacitor 21 of which through a resistor

22 is connected to a stabilized voltage source consisting of zener diodes 23, 24, 25, two of which are bridged by transistors 26, 27. The outputs of the sawtooth voltage generator 20 and the source of the reference voltage 28 are connected to the control pulse driver 29 through the threshold element 30 .

With equal current turns in windings 3 and 6, the constant component of the magnetic flux in cores 4 and 5 is absent; therefore, positive and negative pulses from windings 7 and 8 to triggers 15, 16 arrive simultaneously. In this case, the negative signals from the outputs of the coincidence circuits 17, 18 are not transmitted to the transistors 26, 27, the last} im not opening. Consequently, the capacitor 21 will be charged all the time only from the voltage removed from the zener diodes 23, 24, 25. Namely, the value of the stabilized voltage determines the charge rate of the capacitor and, consequently, the moment when the formation of control pulses occurs in the control driver pulses 29 and the threshold element 30.

When the current in resistor 2 deviates from the specified value, the equality of the amperes in windings 3 and 6 is violated, a constant component of the magnetic current appears in the cores 4, 5, due to which the pulses induced in the windings 7, 8 shift relative to each other, and this shift proportional to the deviation of the load resistor current from the specified value.

At the same time, as the current increases, a positive pulse in the winding 7 appears earlier, and a negative one later than in the winding 8, and fpHrreg 15 will be switched over, more than the trigger & time. At the output of the connection circuit 17 to. $ A negative pulse, which for a time, proportional to the current deviation from a given value, opens the transistor 26, which leads to a decrease in the voltage of the NIN on the stabilized source, a slower charge of the capacitor 21, element

30 and, consequently, to a later supply of a control pulse to an adjustable DC source, which, in turn, leads to a decrease in the current in the load.

The circuit works similarly when the load current decreases from the specified value, but in this case the zener diode of the Zener diode 25 will be used, which contributes to a faster charging of the capacitor 21, an earlier supply

control pulse, increasing the current in the load.

Subject invention

Claims (2)

1. A DC stabilizer containing an adjustable DC source, a reference current source, a measuring element and a semiconductor-capacitive control circuit, characterized in that In order to increase speed, the measuring element is made in the form of a magnetic converter of direct current in the time interval between pulses, the output windings of which are connected to the driver of the error pulses, the outputs of which are connected to the semiconductor-intensive control circuit. 2. The stabilizer according to claim 1, characterized in that, in order to provide pulse-width regulation, it is equipped with a stabilized voltage source with three voltage levels, including three zener diodes, two of which are shunted by transistors, the bases of which are connected to the outputs of the misalignment pulse driver, the capacitor of the sawtooth voltage of the control circuit being connected to the output of the source. 7, Ji g 23 g 2 and 1 and I 2 /