SU736260A1 - Device for protecting pulse current generator from wave overvoltages - Google Patents

Description

However, the series connection of resistance introduces parasiticity into the device, it is sewn up and, by that, reduces its efficiency. The purpose of the invention is to increase its effectiveness. The goal is achieved by the fact that the surge protection device: overvoltage of the pulse current generator, consisting of a power source, a capacitor and a controlled discharge, the ignition electrode of which is connected to the ignition unit, and the cathode is connected via a cable no to the load, containing A resistor and a capacitor, connected in series with each other and intended to be connected in parallel with the load, were additionally introduced to control the arrester, the isolation transformer, the delay cable, the voltage divider and the over voltage a switch with an additional controlled spark switch connected between a resistor and a capacitor, an ignition electrode of an additional controlled spark switch through an isolating transformer, or op connected to a delay line whose input is connected to an ignition unit, and a capacitor connected to a divider voltage E; The input is connected to a power source. The drawing shows the circuit of the proposed protection device. The device contains a power source for capacitor 1 HIT, switch 2, capacitor 3 HIT, device for ignition of 4 HIT, isolation transformer 5, discharge 6 HIT, cable 7, connecting the discharge with the load, load 8, device resistance resistor 9 protection, terminator;} Ensorption 10 protection devices, voltage divider 11, delay cable 12, isolation transformer 13, range 14. The initial state of the proposed device is as follows. From the source of the gtani 1, through the switch 2 (in the initial position it is closed), the capacitor 3 GIT is charged. On the output of the ignition device 4 included dividing trance

(Yurmator 5, the secondary winding of which is connected to discharge 6. Discharger 6 is connected by cable line 7 to load 8, in parallel which are connected via 1: positively connected resistors 9, discharge 14 and capacitor 10. Condenser 10 through switch 2 and. spruce 11 charged from the power supply

resistances in the protection device.

Claims (2)

As a result of using the invention, the voltage applied to the resistances has decreased by 2 times. Therefore, the total number of resistances also decreases by 2 times, which leads to kx savings, and consequently, the cost of the device decreases. Due to the fact, 1 to naprzrkeni UR U, 5 C. From the ignition device 4, the delay dog 12 is connected to the primary winding of the isolation transformer 13. The secondary winding of the transformer 12 is connected to the control electrode and the cathode of the arrester 14. The device operates as follows. From the power source 1, a capacitor 3 is charged through the switch 2. At the same time, a capacitor 10 is charged through the divider 11 and the switch 2 to a voltage equal to half the charging voltage of the GIT U 0.5 C. After charging the capacitors 3 and 10 to eliminate the effect of the transition of the 1st process to the GIT to the power source 1, the latter is switched off by the switches 2. From the ignition device 4 through the isolation transformer to the discharge lamp 6, a firing pulse is applied. Discharge 6 is triggered, and a voltage wave Uj starts moving along cable 7, which through time i -k, where is the length of cable 7, and U is the voltage velocity of the voltage wave in cable 7, reaches load 8. At the moment of arrival of the wave A pulse of ignition is applied to the load on the surge current 14, and it triggers. The synchronization of the ignition pulse supply to discharge 1 and 14 with the moment of arrival of the wave to the load is carried out by the delay cable 12. After triggering of the surge arrester 14, the terminating resistance is under the voltage of C U O, 5. Thus, the voltage applied to the resistance decreases, resulting in a decrease in the number of series-connected resistances, i.e. the parasitic inductance decreases and thus the effectiveness of the protection device increases. The feasibility of a device is to increase the effectiveness of overvoltage protection. i.e. a decrease in the maximum voltage acting on the load, as well as a decrease in the total amount that the number of resistances decreased, the height of the resistor in the protection device decreases, and this, as is known, leads to a decrease in its inductance. A reduction in parasitic inductance leads to an increase in the effectiveness of overvoltage protection. The expected economic effect is to save resistance in the protection resistor, simplifying the design. By reducing the parasitic inductance, the maximum voltage across the load is reduced. Claims of the Invention A surge voltage surge protection device consisting of a power source, a capacitor, and a controlled arrester, the ignition electrode of which is connected to the ignition unit, and the cathode is connected via a cable to a load containing a resistor and a capacitor connected in series between each other and intended to be connected in parallel to the load, so that, in order to improve efficiency, a controllable arrester, an isolation transformer, is additionally introduced into it a delay cable, a voltage divider and a switch, with an additional controlled spark switch being connected between the resistor and a capacitor, the ignition electrode of the additional controlled spark discharge through an isolation transformer is connected to a delay line, the input of which is intended to be connected to the ignition unit, and The switch is connected to a voltage divider whose input is intended to be connected to a power source. Sources of information taken into account during the examination 1. High-voltage imp. pulse technique. Collection, issue. 2, Cheboksary) 19:75, p. 88-96. 2. P.N. Dashuk et al. Technique of high impulse currents and magnetic ODLs. M., Atomizdat, 1970, p.23 (prototype).