SU575584A1 - Device for testing and conditioning large complex carthing gas-discharge pulse diodes - Google Patents

Description

one

The invention relates to radio engineering and can be used in the electrovacuum industry for training and testing the reliability of gas discharge solenoid diodes.

Devices for training and testing pulsed diodes — linear modulators on a thyratron — are known.

It is known that a device for testing and training gas-discharge pulsed diodes, comprising a linear modulator on the thyratron, terminals for connecting the anode, cathode and heater of the hydrogen generator and the anode resistor.

The known devices have a significant drawback — low quality of training and reliability, since training and testing in these devices is carried out at a constant nominal current amplitude.

The purpose of this invention is to improve the quality of training and the reliability of azo-impulse pulsed diodes.

This goal is achieved by connecting in series between the cathode of the thyratron and the anode resistor

a current sensor and a diode shunted by a zener diode, and the terminals of the test instrument of the generator are connected in series with an automatic voltage control system to a comparator, with the inputs of a comparator connected to the cathode of the thyratron, the current sensor and the reference voltage source.

The drawing shows a schematic diagram of the proposed device.

The device contains a switching cable 1, forming line 2, a generator load .3, and between the cathode of the thyratron 1 and the anode resistor 4 of the test lamp 5 is included a zener diode 6 and a series-connected diode 7 and a TV sensor, which in the simplest case can be a resistor 8 and the filament system of the device under test are connected in series with an automatic voltage control system 9 and a comparator 10, while the inputs of the comparator 10 are connected to the cathode of the thyratron 1 and to a common point of diode 7 and resistor 8 and with a source of nagging support 11. The device operates as follows When applying voltage pulses to the control electrode. the thyratron 1, the forming line 2 is discharged and in the battery (the cathode of the thyratron 1 - zener diode 6, the resistor 4 (the device under test 5) flows current. In the absence of a signal on the control electrodes of the thyratron 1, the forming line 2 is charged The thyratron period is closed and a reverse voltage is applied to the subject 5. A TSSHH (test tube 5 anode used - resistor 4, diode 7 - resistor 8 - cathode of the thyratron 1 cathode of the test lamp 5) flows a reverse current, creating a voltage drop across the resistor 8 , moreover, the magnitude of the drop on it is determined by Ratio voltage of the anode by the pressure of the filling gas. If the pressure of the filling gas in the device under test is less than a certain critical value, the voltage drop across the resistor 8 at this reverse current is less than the reference voltage of the source 11 and the comparator 10 co The automatic control circuit 9 works for an increase in the filament voltage of the tested instrument. This leads to an increase in the filling gas pressure, and consequently, to an increase in the reverse current, which the measuring device can detect, enny to the current sensor. As the reverse current rises above a certain critical value, the voltage drop across the resistor 8 exceeds the reference voltage Dopori. source 11, therefore, the comparator Yu and the automatic control circuit 9 work to lower the voltage of the hydrogen generator, reducing the pressure of the filling gas, and consequently, reducing the reverse current. In the case of highly accurate reverse breakdowns in the test lamp 5, the zener diode 6 protects the comparator 10 from overloads due to its conductivity. The presence of automatic control of the voltage of the test device and current sensor allows to maintain in diode. The maximum filling gas pressure is close, but less critical, which increases the efficiency of training and eligibility of products by 5%. Claims An apparatus for testing and treating gas-discharge pulsed diodes, comprising a linear modulator on the thyratron, terminals for connecting the anode, cathode and heater of a hydrogen generator and an anode resistor, characterized in order to improve the quality of tripping and reliability of the devices under test the cathode of the thyratron and the anode resistor are connected in series with a diode and a current sensor, connected by a zener diode, and connected to the glow terminals of the device under test are connected in series with the systems and the automatic control of the Hanpj and the comparator, while the inputs of the comparator are connected to the cathode of the radiation generator, the current sensor and the voltage directly.