SU1135308A1 - Device for testing non-controlled dischargers - Google Patents

Description

This invention relates to the field of pulsed technology and can be used to train and test uncontrolled spark gaps, to power pulsed light sources, to pump lasers, etc.

A device for training and testing uncontrollable arresters is known. Contains a direct current source, a storage capacitor, a choke, included in the discharge circuit and the test discharge proper.

A disadvantage of this device is the difficulty in obtaining high-power current pulses with a steep front due to the direct discharge of a capacitive storage device for a low-resistance discharge gap. To obtain current pulses of such parameters required for testing uncontrollable arresters, it is necessary to significantly increase the value of the energy storage capacitance.

The closest of the known technical solutions to this proposal is a device for training and testing uncontrollable arresters, containing a DC source, to the terminals of which is connected the POSA) SL SO O 00 chain, hence the connected switchboard and the inductive energy storage device, which is parallel to The diode is connected to the test bit.

In parallel, the tested discharge card in this device includes a discharge ignition unit.

The disadvantages of this device are the presence of a powerful source of direct current and an ignition ignition unit that creates a powerful preliminary discharge with a low resistance, which complicates the device and, as a result, leads to a deterioration of its weight and size characteristics.

The purpose of the invention is to simplify the device.

The goal is achieved by the fact that a device for training and testing arresters, containing a DC source, to the terminals of which is connected a chain of series-connected controlled switch and an inductive energy storage device, in parallel with which the test arrester is connected via a separation diode, according to the invention is equipped with a capacitive energy storage connected to the terminals of the specified source of direct current, and between the common point of the separation diode and the test arrester and the common point of the capacitor An energy storage device and a switch are connected to a chain of additionally introduced capacitors and a resistor in series.

As a switchboard, an optional fully controlled key can be used, but a conventional thyristor or ignitron.

The drawing shows the electrical circuit of this device for training and testing uncontrolled arresters.

The device contains a source of direct current 1, to the terminals of which a capacitive energy storage device 2 is connected, in parallel to which a chain of serially connected control switch 3 and an inductive energy storage device 4 is connected, in parallel to which a test voltage switch 6 is connected The diode 6 and diode 5 and the common point of capacitive energy storage 2 and switch 3 are connected in series with the additional 1 capacitor 7 and the additional resistor 8.

The device works as follows.

In the initial state, the capacitive storage device 2 and the additional capacitor 7, whose capacity is much less than the capacity of the capacitive energy storage device 2, are charged to the voltage of the direct current source 1. The voltage on the discharge switch b, defined as the difference of the voltages on the capacitor 7 and the drive 2, is zero. The voltage of source 1 is chosen equal to the dynamic breakdown voltage of the discharge voltage of 6.

When the switch 3 triggers, the capacitive storage device 2 is discharged through inductive storage device 4, and the voltage on the capacitive terminal 2 decreases along a sinusoidal one.

law, and the current in inductive storage 4 increases. Due to the inclusion of an additional capacitor 7, pre-charged to the source voltage

direct current 1, the voltage on the electrodes of the discharger 6, defined as the difference of the voltages on the capacitor 7 and the drive 2, increases. Since the voltage of source 1 is chosen to be equal to the dynamic breakdown voltage of discharger 6, at the time when the voltage on capacitive storage device 2 decreases to zero and the current in inductive storage device 4 becomes maximum, the voltage at the electrodes

5 bit 6 will reach breakdown voltage and it will break through.

The main purpose of the additional capacitor is the formation of an accumulating voltage on the discharge electrodes and the formation of the pulse current front in the discharge switch 6 during the switching of the current of the inductive storage device 4 to the discharge switch 6.

The capacitance value of the capacitor 7 is 0.2-0.5% of the capacitance of the capacitive storage device 2. The parameters of the capacitor 7 and storage device 2 are selected based on the condition of providing the corresponding amplitude of the current pulse through the tested bit B

0 and providing the required pulse duration equal to the switching time of the current of the inductive storage device 4 from the circuit of the switch 3 to the circuit of the diode 5.

Front current pulse through the bit

5 b is formed by discharging capacitor 7 through resistor 8, discharger 6 and accumulator 2 After the breakdown of discharger 6 and when the inductive storage device 4 reaches a voltage equal to the voltage supporting the discharge in discharge 6, the accumulator 4 closes through diode 5 and test subject b. Since the active resistance of the inductive storage device 4 is very small, almost all stored

5, energy is pulsed in it on the test gaps b for 1-3 MCS time. After the switch 3 recovers the control properties, the charge from the direct current source and

0 capacitive drive 2 and additional capacitor 4 through a resistor 8, diode 5 and inductive drive 4, the device returns to its original state.

Thus, this invention

5 ensures the ignition of uncontrolled gaps and the formation of powerful long-duration current pulses with a steep front, while at the same time simplifying the device and improving its weight and size characteristics.

Claims (1)

(54X57) DEVICE FOR TRAINING AND TESTING OF UNMODEABLE DISCHARGERS, containing a direct current source, to the terminals of which a chain of series-connected switch and inductive energy storage device is connected, in parallel with which a test arrester is connected through a diode, characterized in that, for the sake of simplification, it is equipped a capacitive energy storage device connected to the terminals of the specified direct current source, and between the common point of the diode and the test arrester and the common point deleterious energy storage device and the controlled switch connected sequentially enabled chain additionally introduced capacitor and a resistor. This invention relates to the field of pulsed technology and can be used for training and testing uncontrolled spark gaps, power pulsed light sources, for pumping lasers, etc.