SU995690A1 - Pulse power supply source for electromagnet - Google Patents

Abstract

SOURCE OF PULSED POWER OF ELECTROMAGNET, containing a controlled rectifier connected to the load through the secondary winding of the transformer, the primary winding of which is connected to the output of the low frequency amplifier, the input connected to the output of the voltage regulator, the first input of which is connected to the output of the voltage sensor, is connected parallel to the load. the second input of the voltage regulator is connected to the output of the current regulator, the first input of which is connected to the output of the load current sensor, the second input is connected to the output of the current magnitude setting device, and the third to the output of the correction unit whose input is connected to the output of the nonlinearity block with the dead zone The input of which is connected to the output of the rectifier control unit, connected to the control input of the rectifier, the first input of the control unit of the rectifier connected to the output of the voltage regulator, and the second to the output of the rectifier Ltora current, characterized in that, in order to simplify the design and increase efficiency, it introduced a module comparator and a key to set the initial conditions, the output of which is connected to the third input of the voltage regulator, the input - to the output xc of the modulator module, the input of which is connected to the output of the nonlinearity block with the dead zone.

Description

The invention relates to the technique of pulsed power supply of high power electrophotographic apparatus and can be used, for example, to power electromagnets of proton synchrotrons and solenoids.

Power sources are known that contain a controlled thyristor rectifier, to the output of which the load is connected through the secondary winding of a low-frequency amplifier transformer, to the input of which through a voltage regulator a negative feedback circuit is connected to the voltage on the load. The mitel through the current regulator is closed by a negative feedback circuit from the output of the load current sensor G13. Such sources have a low ripple rate of rectified voltage in a wide range of load current, but have an overshoot when the current reaches the site, which is their disadvantage.

The closest is the pulsed power source of an electromagnet containing a controlled rectifier connected to the load Kte. Through the secondary winding of the transformer, the primary winding of which is connected to the output of the low-frequency amplifier, the input is connected to the output of the voltage regulator, the first input of which is connected to the output a voltage sensor connected in parallel to the load; the second input of the regulator is connected to the output of the current regulator, the first input of which is connected to the output of the load current sensor, the second input is with the output of the setting device, the magnitude of the current, and the third with the output of the correction unit, the input of which is connected to the output of the nonlinearity unit with the dead zone, whose input is connected to the output of the rectifier control unit, connected to the rectifier control input, and the first input of the rectifier control unit The driver is connected to the output of the voltage regulator, and the second output of the current regulator 2.

The disadvantage of this device lies in the fact that in transient modes the low frequency accelerator is saturated with a DC signal, which requires an increase in its installation power and, therefore, a complication in the design of the device and a decrease in it.

The aim of the invention is to simplify the design and increase the efficiency of the device.

The goal is achieved by supplying an electromagnet with a pulsed power source containing a controlled rectifier connected to the load through the secondary winding of a transformer whose primary winding is connected to the Output of a low-frequency amplifier whose input is connected to the output of a voltage regulator whose first input is connected with the output of a voltage sensor connected in parallel with the load, the second input of the voltage regulator is connected to the output of the current controller, the first input of which is connected to the output of the current sensor loading, the second vhbd is connected

5 with the output of the unit current magnitude, and the third - with the output of the correction unit, the input of which is connected to the output of the nonlinearity unit with the dead zone, the input of which is connected

0 with the output of the control unit of the rectifier connected to the control input of the rectifier, the first input of the control unit being rectified is connected to the output of the regulator

5 voltage, and the second to the output of the current regulator, entered the module comparator and the key to set the initial conditions, the output of which is connected to the third input of the regulator

0 voltage, input - to the output of the comparator module, the input of which is connected to the output of the nonlinearity block with the deadband. The drawing shows the scheme

5 of the proposed device.

In the diagram, the rectifier 1 on the DC side is connected to a circuit consisting of an electromagnet 2 winding connected in series

0 and the secondary winding of the transformer 3 low-frequency amplifier 4, to the input of which through a voltage regulator 5 is closed a negative feedback circuit from the output of sensor 6

with load voltage. To the second input of the regulator 1 5 through the current regulator 7 there is a closed negative feedback circuit from the output of the load current sensor 8. The other outputs of the current regulator 7 are connected to the outputs of the current setting device 9 and the negative feedback circuit through block 10 with the dead zone and the correction unit 11 from the output of the rectifier control unit 12, which

5 with its inputs connected to the outputs of the current regulator 7 and the voltage regulator 5, and the output to the control input of the rectifier 1 Output of the block with the dead zone 10

0 i. Through module comparator 13 connected

with the control input of the initial conditions setting key 14 connected to the voltage controller 5.

The operation of the device occurs.

5 follow the way.

The voltage from the output of the current setting device # 9, corresponding to the level of the current pulse terminal, is supplied to the input of the current regulator 7. Through the voltage regulator 5 and the control unit 12, the voltage from the output of the current regulator 7 is amplified and fed to the rectifier control input 1 .

In this case, the rectifier 1 supplies the voltage to the load (electromagnet) 2. Since the current cannot change in the inductive load abruptly, the voltage from the output of the atchik 8 during the Fock's rise process is less than the voltage of the setpoint 9, and the voltage at the input of the control unit 12 increases to the value determined by the dead zone of unit 10. Upon reaching this value, the negative feedback circuit from the output of control unit 12 is lowered to the corresponding input of current regulator 7, preventing its saturation. At the same time, a module 13 comparator is triggered, with a signal from the output of which key 14 sets zero conditions on voltage regulator 5 and breaks the signal transmission circuit to the input of low-frequency amplifier 4. The current communication circuit remains closed by direct voltage transmission the output of the current regulator 7 to the input of the correction unit 12. The correction unit ensures the stability of the nonlinear feedback loop. When the load current approaches the setpoint value of the supply unit at the output of the control unit 12, it becomes less than the dead zone unit 10, cc 4parator module 13 returns to its initial state and through the key 14 it locks the negative feedback circuit from the output of the voltage sensor b to the amplifier input low frequency 4 and the circuit from the output of current regulator 7 to the input of block 12 through regulator 5.

The transmission coefficient of the block 12 and the insensitivity zone of the block 10 are set so that the nonlinear feedback to the input of the controller 7 begins to function before the regulator 5 or 7 is saturated. The cutoff frequency of the linear part of this circuit is set high (about 10-15 kHz) corresponding implementation of the correction block 11.

This goal is achieved due to the fact that before setting zero conditions in the controller 5 its output voltage does not have time to reach the maximum value, and when the comparator 13 is triggered, it is set to zero. In this way, the speed and integral of the voltage applied to the input of the low-frequency amplifier 4 at 4found and the current pulse decay are reduced. Accordingly, the power dissipated in the amplifier 4 is reduced, which reduces its installed power.

Claims (1)

ELECTROMAGNET PULSE POWER SOURCE, containing a controlled rectifier connected to the load through the secondary winding of the transformer, the primary winding of which is connected to the output of the low-frequency amplifier, the input of which is connected to the output of the voltage regulator, the first input of which is connected to the output of the voltage sensor connected in parallel with the load, the second input of the regulator voltage is connected to the output of the current regulator, the first input of which is connected to the output of the load current sensor, the second input is connected to the output back a current magnitude sensor, and the third with the output of the correction unit, the input of which is connected to the output of the nonlinearity block with a dead zone, the input of which is connected to the output of the rectifier control unit, connected to the control input of the rectifier, and the first input of the rectifier control unit is connected to the output of the voltage regulator, and the second - to the output of the current regulator, characterized in that, in order to simplify the design and increase efficiency, a module comparator and an initial setting key are inserted into it, the output of which is connected the third input of the voltage regulator, input - to the output of the comparator module, whose input is connected to the output of the nonlinearity block dead zone.