SU1045356A1 - Device for triggering controlled high-voltage switching device - Google Patents

Abstract

1. DEVICE FOR START-UP OF A CONTROLLED NUCLE-VOLTAGE SWITCHER containing a pulse voltage generator, made according to the Arkadyev-Marx scheme, a high-voltage switch and a controlled high-voltage switch, one of the main electrodes of which is connected to the common bus through the load, which is different from our high voltage switch with a common bus switch in order to increase the reliability of the start-up of the controlled high-voltage switch, a storage capacitor and a start-up unit are introduced into it, the input of which is connected via a high-voltage switch to the generator output and pulsed voltage, a first output connected to the start block ignitor controlled high-voltage switch, the other main electrode .kotorogo connected to the second output of the trigger block, connected to one electrode of a storage capacitor, whose other armature is connected to a common bus. 2. The device according to claim 1, characterized in that the start-up unit contains a resistor; in addition, the resistor, gaiter and capacitor, valve, adjustable resistor, auxiliary cone, capacitor, gaiter and resistor are connected, the resistor being connected between the input and the second output the start-up unit, in parallel to the resistor are connected in series an additional resistor and arrester, shunted by series-connected venpsesh and an additional capacitor, in parallel to which (serially connected reg resistor and auxiliary capacitor shunted by serially connected auxiliary gaps and a resistor, the input of the starting block is the junction of the resistor with the auxiliary resistor, its first output is, 4, the junction of the auxiliary gaps | O1 and the resistor, the second output is the point 00 connections of a resistor with additional ones: a discharge and a capacitor, and also 9) with an auxiliary capacitor and a resistor, and the gate is connected in the forward direction towards the pulse voltage at the output of the pulse voltage generator.

Description

110 The invention is fire retardant to a high voltage impulse switchgear and can be used in tests of electrical equipment, electrical switches, transformers, and g, high voltage pulses with a circular front. A device for launching a high-voltage switch with a laser i 1 is known. The main disadvantage of this device is the complexity of the design, due to the presence of a laser and an optical focusing system. It is also known to start a high-voltage switch with a pulse transformer and a L 2 J coupling capacitor. The disadvantages of this device are the large size due to the presence of a pulse transformer and a coupling capacitor designed for full operating voltage. The closest in technical essence to the present invention is a device for starting a controlled high-voltage switch, comprising a pulse voltage generator (GIN), wired out according to the Arkadyev-AAark circuit, a high-voltage switch and a controlled high-voltage switch, one of which main electrodes is connected via load to the common tire 3. The disadvantages of the known device are the complexity of the circuit, due to the presence of an additional step at the GIN and the delay line, and a decrease in the reliability of starting the controlled high-voltage switch with long delay times between the moment of the GIN triggering and the start of the controlled high-voltage switch, as well. when the magnitude of the charge voltage decreases, as in the delay line, the control voltage pulses are attenuated and their amplitude may be insufficient for triggering the control high voltage switch. In addition, in this device there is no possibility of adjusting the delay time between the moment of actuation of the power switch and the controlled high-voltage switch disconnector due to the invariance of the parameters of the delay line through which the control pulses arrive at the firing electrode of the controlled high-voltage commutator. The purpose of the invention is to increase the reliability of starting a controlled high voltage switch. This goal is achieved by the fact that the device for starting a controlled high-voltage switch containing a pulse voltage generator made according to the Arkad'ev-Marx scheme, a high-voltage switch and a controlled high-voltage switch, one of the main electrodes of which is connected via a load to the common bus, introduces a storage capacitor and the start-up unit, whose input is connected via a high-voltage switch to the output of the pulse voltage generator, the first output of the start-up unit is connected to the ignition element trodes controllable high-voltage switch, the other main electrode is connected to the second output of the start block which is connected to one electrode of a storage capacitor, the other plate kotorog connected to a common bus. In this case, the start-up unit contains a resistor, an additional resistor, a gaiter and a capacitor, a gate, an adjustable resistor, an auxiliary capacitor, a glitter and a resistor, and a resistor connected between the input and the second output of the trigger unit, and a series-connected additional resistor and gadget are connected in parallel shunted by a series-connected valve and an additional capacitor, in parallel with which are connected series-connected regulating resistor and auxiliary cond A sensor shunted by series-connected auxiliary arresters and a resistor, the input of the start-up unit is the junction point of the junction with an additional resistor, its first output is the junction point of the auxiliary bit and resistor, and the second output is the junction point of the resistor with the additional bit and capacitor and also with auxiliary capacitor and resistor, and the valve is connected in the forward direction with respect to the pulse voltage across the pulse voltage generator y. The device under consideration increases the reliability of starting a controlled high-voltage switch, which is ensured by the nocTOSTHCTBOM of the voltage of its starting, which in a certain range of voltage values practically 3104 does not depend on the charging voltage of the pulse voltage generator, and Allows to adjust the delay time between the time of operation GIN and running a controlled high-voltage switch with an adjustable resistor. The drawing shows a circuit diagram of a device for starting a controlled high-voltage switch. The T1 intermediate device contains a pulse voltage generator, built according to the Arkadyev-Marx scheme and consisting of charging resistors 1, between the branches of which include storage capacitors 2, the supply voltage to which is supplied from the power source 3 ((J-) I decelerating resistors 4 connected in series with the switches 5, the high-voltage switch 6, the start-up unit 7 consisting of a resistor 8 connected between the input and the second output of the start-up unit 7, series-connected additional resistors 9 and discharge Nickname 1O connected in parallel to the resistor 8, serially connected valve 11 and additional capacitor 12, shunting the additional terminal S, sequentially connected adjustable resistor 13 and auxiliary capacitor 14, connected in parallel to the additional capacitor 12, after the reliably connected subadapter 15 and a resistor 16, a shunt auxiliary capacitor 14, a storage capacitor 17, controlled by 1:. the high-switch switch 18 and the load 19, Moreover, the input of the starting block 7, which is the connection point of the resistor 8 with the additional resistor 9, is connected via the high-voltage switch 6 to the output of the power switch. The first output of the starting block 7, which is the connection point of the auxiliary arrester 15 and the resistor 16, is connected to the ignition electrode of the controlled high-voltage switch 8. To the second output of start-up unit 7, which is -1 connection point of resistor 9 with additional voltage 10 and co-capacitor 12, as well as with auxiliary capacitor 4 14 and resistor 16, one of the main electrodes of the controlled high-voltage switch 18, the main electrode, is connected which is connected via a load 19 to the common bus, and one ne of the plates 04 of the storage capacitor 17, the other liner of which is connected to the common bus. Valve 11 is connected in the forward direction with respect to the pulse voltage at the output of the power source. The device for starting a controlled high-voltage commutation switch operates as follows. The storage capacitors 2 GIN are charged through the charging resistors 1 before the voltage of the power supply source 3. ((K) After starting, the gaps of the starting impulses (GI) are triggered by the gaps. The storage capacitors 2 are connected: flow through the soothing resistors 4 in series and at the output PIW, a high voltage pulse arises, the magnitude of which is sufficient for the breakdown of the high-voltage commutator 6. After the breakdown of the high-voltage commom 6, a charge of the additional capacitor 12 takes place, auxiliary The capacitor 14 and the storage capacitor 17 are constant. At the same time, the charge time of the additional capacitor 12 is much less than the charging time constant of the storage capacitor 17, which is ensured by appropriately choosing the co-resistance values of the additional resistor 9 and the duration of the additional capacitor 12 for faster charging Solder the condenser 12 and the charge time constant of the auxiliary capacitor 14 is approximately equal to the charge time constant of the storage condenser. 17. When the voltage on the additional capacitor 12 reaches the value of the voltage of the additional discharger 1O, it is punched. Further charging of the auxiliary capacitor 14 occurs under the influence of the voltage on the auxiliary capacitor 12. When the voltage on the auxiliary capacitor 14 reaches the value of the voltage of the auxiliary 15, the voltage of the auxiliary capacitor 14 is applied to the ignition controlled high-voltage electrode. switch 18, causing it to fire. In this case, the voltage of the storage capacitor 17 is applied to the load 19, on which a high voltage pulse is generated. Compared with the known device, the predictable device allows to increase the reliability of the launch of a controlled high-power switch and also provides the ability to regulate

the delay time between the moment of actuation of the power-supply unit and the launch of the controlled high-voltage switch.

Claims (2)

1. START-UP DEVICE YOU CONTROLLED JOINT VOLUME SWITCH, containing a pulse voltage generator made according to the Arkadyev-Marx scheme, a high-voltage switch and a controlled high-voltage switch, one of the main electrodes of which is connected via a load to a common bus, it’s different in order to increase the reliability of starting controlled high-voltage switch, a storage capacitor and a start block are introduced into it, the input of which is connected through the high-voltage switch to the output of the pulse voltage generator, first The first output of the launch block is connected to the ignition electrode of the controlled high-voltage switch, the other main electrode - which is connected to the second output of the launch block connected to one of the plates of the storage capacitor, the other plate of which is connected to the common bus. 2. The device pop. 1 characterized in that the trigger unit contains a resistor, an additional resistor, a spark gap and a capacitor, a valve, an adjustable resistor, an auxiliary capacitor, a spark gap and a resistor, the resistor being connected between the input and the second output of the trigger block, additional resistor and spark gap connected in series to the resistor, shunted by a series-connected valve and an additional § capacitor, parallel to which an adjustable resistor and an auxiliary resistor are connected in series solid capacitor shunted by series-connected auxiliary !, arrester and resistor; and the input of the start-up block is the connection point of the resistor with an additional resistor, its first output is a ’-point,> connection of auxiliary arrester | and a resistor, the second output is the point! connection of the resistor with additional ί spark gap and capacitor, as well as with auxiliary capacitor and resistor, and the valve is turned on in the forward direction with respect to the pulse voltage at the output of the pulse voltage generator. SU „„ 1045356 10 4 '