SU1008891A1 - High-voltage current pulse generator - Google Patents

Description

The invention relates to electrical engineering, namely, high voltage technology, high voltage pulse technology, and can be used to create electrophysical devices designed to study magnetic cumulation, to study the behavior of materials in a strong magnetic field, to test high current electrical circuit elements (cables, contacts , apparatus and tires), the fusion of the electron beam. The generator of high-voltage pulses is known, which contains a controlled rectifier with a capacitive filter, its input is connected to the power supply network, and the output through a current-limiting 1 choke is connected to a charging switch, which is connected to the working diagonal of the bone drive, in parallel to which is connected a circuit consisting of a serial connection of the primary winding of a transformer and a separate thyristor switch 1. The disadvantage of this generator is not protection of the discharge switch, both from the rate of increase of the discharge current / and from short-circuit currents arising in the circuit during a short circuit on the load. The closest to the present invention is a generator of high-voltage current pulses, containing a number of circuits operating on one load, each chain containing a capacitive energy storage connected through an inductance with an average output / and a thyristor switch with Load 2. A disadvantage of the known generator is the low degree of protection of the thyristor switches from short-circuit currents, which leads to the absence of a control circuit of discharging current. The purpose of the invention is to increase the degree of protection of thyristor komlutatoroz against short circuit currents. The goal is achieved by the fact that a high-voltage current pulse generator containing a number of circuits operating on a single load, each chain containing a capacitive energy storage connected through an inductance with an average output / and a thyristor switch with a load, a nonlinear resistor is additionally inserted into each generator chain and controlled solid-state arrester, which is connected between the average inductance and the input of the thyristor switch, while the nonlinear resistor is connected to the control their entrance solid surge arrestor and an average terminal inductance. The drawing shows the scheme of the proposed generator. The generator contains a series of circuits operating on the same load, each chain containing a capacitive energy store 1 connected through inductance 2 and a thyristor switch 3 with load 4, a nonlinear resistor 5 and a controllable solid-state discharge circuit 6 which is connected between the average inductance pin. 2 and the input of the thyristor switch 3, and the nonlinear resistor 5 is connected to the control input of the solid-state arrester 6 and the average inductance terminal 2. The generator operates as follows. In the normal mode, when a controlled pulse is applied to the thyristor cocmutator 3, the discharge of the precharged capacitive on-, kopiteld 1 to the load 4 occurs. In this case, the current in the circuit of the nonlinear resistor 5 is almost zero; Since the voltage drop across the second section of inductance 2 is less than the opening threshold of resistor 5, the initiation of the discharge in solid state discharge 6 is absent. In the load 4 current flows, determined by the main circuit parameters. The most unfavorable from the point of view of the operation of the thyristors is the mode in which at the moment of supplying the control pulse to the thyristor switch 3 there is a short circuit on the load 4. Since the thyristor switch 3 does not turn on immediately, but with a delay of the order of several tens of microseconds and the current in the circuit at the same time is small / the storage voltage is divided between inductance 2 and thyristor switch 3. By the time thy thyristor switch 3 is fully opened, its resistance The voltage is almost zero and the entire voltage is applied to the inductance 2. The magnitude of the inductance 2 is selected in order to ensure that the rate of rise of direct current is acceptable for a thyristor switch. As soon as the voltage on the second section of inductance 2 reaches a value equal to the threshold voltage of the corresponding nonlinear class, for example, zinc oxide / resistor 5, its resistance drops sharply and the nonlinear resistor - solid state discharger control input (exploding conductor) increases in the circuit, current. Upon reaching a current of a certain magnitude, an explosion of the conductor and. the discharge is initiated in a solid-state discharge circuit 6. discharge 6 begins to flow a current.

When selecting the appropriate elements of the circuit: the inductance value 2 ,. a class of nonlinear resistor that determines the magnitude of the threshold voltage, diameter, and material of the blasting conductor, which represents the solid state electrode of a solid-state discharge. 6, it is possible to ensure a high triggering rate of the arrester 6. Then, after the solid-state arrester triggers, the current will be divided between two circuits, the first of which — capacitive storage 1 — first inductance section 2 — solid-state discharge controller b — capacitive storage 1, and the second is a capacitive drive 1 - inductance 2 - thyristor switch 3 - load 4 - capacitive storage 1, inversely proportional to the inductance of the circuits.

In the proposed device, the protection of thyristor switches both from the rate of increase of currents and from

0 short circuit current significantly reduces the material costs associated with the elimination of accidents by the failure of the thyristor switch, the number of chains in the generator can be

5 is large and the cost of the thyristors is the main part of the cost of the generators.

Claims (1)

"331508, cl. H 03 K 3/53, 11.20.70. : HIGH VOLTAGE GENERATOR CURRENT PULSES, containing a series of circuits operating on a single load, each circuit containing a capacitive energy storage device connected via an inductance to the middle terminal, and a thyristor switch with a load, characterized in that, in order to increase the degree of protection of the thyristor switches from short circuit currents, In each generator circuit, a non-linear resistor and a controlled solid-state spark gap are additionally introduced, which is connected between the middle inductance output and the input of the thyristor switch, while a non-linear resistor is connected to the control input of the solid-state arrester and the middle. output inductance.