SU408466A1 - DEVICE FOR POWER SUPPLY OF PULSE DISCHARGE LAMPS - Google Patents

Description

one

The invention relates to pulsed power sources and, in particular, to devices for powering pulsed gas discharge lamps of optical quantum generators.

The known device for powering pulsed gas discharge lamps contains a controlled diode-thyristor rectifier, charge thyristor, charge LC-circuit, discharge inductance coil, discharge thyristor and control system.

However, reliable operation of the device is ensured only if the control pulses of the control system trigger charge-discharge thyristors at strictly defined points in time. A synchronization failure in the control system can lead to a failure of the phase of the control pulse of charge-discharge thyristors, which causes an emergency mode of operation of the power part of the device due to the failure of the switching of charge-discharge thyristors. During emergency operation of the device, the impulse gas discharge lamp switches to the stationary burning mode. Failure of the following control pulses occurs, for example, when external pulse interference from neighboring installations is affected by the control system.

The aim of the invention is to increase the reliability of the device under conditions of strong intrinsic and external interference.

For this purpose, an integrating Scenochka is connected to a storage capacitor of the LC circuit, the output of which is connected via an auxiliary thyristor to the input of a one-shot delay, to the output of which the rectifier thyristors are connected via an amplifier of power.

The invention is illustrated in the drawing.

The drawing shows a diagram of the device. A device for supplying pulsed gas-discharge lamps contains a three-phase alternating voltage power supply unit I, the alternating voltage of which is converted into a constant voltage by means of a diode-thyristor bridge 2, consisting of diodes 3, 4, 5, thyristors 6, 7, 8 and filtering condenser 9.

The device works as follows.

At the moment the trigger pulse is applied, the control thyristor 10 electrode starts the oscillatory charge of the storage capacitor 11 through the inductor 12. When the charge current passes through the zero, the charge thyristor 10 closes and the storage capacitor 11 becomes almost double power source At the moment the trigger pulse is applied to the control electrode of the discharge thyristor 13, the storage capacitor 11 is discharged through the discharge inductance coil 14 to the pulse lamp 15.

The device will reliably work only if the triggering pulses of the charged 10 and bit 13 thyristors come from the control system 16 at the times when the corresponding bit 13 and charge iU thyristors are in the locked state, since otherwise in the case of thyristors, they become uncontrollable, and the lamp 15 goes into stationary burning mode. The start of the discharge thyristor 13 can be carried out in the absence of charge current, and the start of charge thyristor 1U in the absence of discharge current. Violation of the last two conditions for launching thyristors, for example, under conditions of strong external or intrinsic interference, leads to emergency operation of the device.

The protection of the proposed device against emergency operation is as follows.

The output voltage of the storage capacitor 11 is fed to the input of an integrating C-chain, consisting of a resistor 1 / and a capacitor 18. From the output of this chain, the voltage flows through the auxiliary thyristor 19 to the input of the one-shot delay 20. To the control electrode of the auxiliary thyristor 19 from the system control 16 receives trigger pulses. In the operating mode of the device, at the time when the triggering pulses are applied to the auxiliary thyristor 19, the output / C-chain voltage is almost absent, therefore the thyristor is not unlocked, and the one-shot 20 does not start. The output of the one-shot 20 is loaded to the input of the power amplifier 21, which controls the rectifier thyristors.

In the operating mode, the power amplifier at each of its outputs produces a constant voltage necessary to keep the rectifier thyristors in a conductive state. If the phase of the control pulse of charge-discharge thyristors fails, the device goes into emergency mode. At this, a constant voltage is formed on the storage capacitor 11, which is monitored by the integrating / C-depochka. At the moment of arrival of the trigger pulse to the control electrode of the auxiliary thyristor 19, the integrating capacitor 18 is discharged, and a pulse is generated at the input of the single vibrator 20, which triggers this single vibrator for time, where T is the period of the supply voltage of the network. As a result of starting the one-shot at the output of the power amplifier 21, the constant voltage disappears for a while.

The disappearance of a constant voltage at the output of the power amplifier ensures the natural locking of the rectifier thyristors, which, in turn, restores the control properties of charge and discharge thyristors.

Thus, the proposed device electronically protects the pulsed gas discharge lamp from the stationary burning mode due to natural locking of the rectifier thyristors, which, in turn, provide natural locking of the charge and discharge thyristors.

Subject invention

A device for powering pulsed gas discharge lamps comprising a controlled diode-thyristor rectifier, charge thyristor, charge LC circuit, discharge inductance coil, discharge thyristor and control system, characterized in that, in order to increase the reliability of the device , an LC coupling is connected to the storage capacitor of the LC circuit, the output of which is connected via an auxiliary thyristor to the input of a one-shot delay, to the output of which, via a power amplifier, control electrodes are connected Ristori rectifier.