SU1018184A1 - High-speed protection device for klystron - Google Patents

Description

The invention relates to converter technology and can be used for high-speed protection systems for high-power electrovacuum devices, such as klystrons, having an isolated collector and resonators.

A known device is a high-speed protection against breakdowns in a load containing a power source, an ignition circuit thyratron, resistors, and a vacuum tube 13.

The disadvantages of the known devices are their low reliability and speed.

Closest to the proposed device is a klystron high-speed protection device containing a protective resistor connected between the terminal for connecting the klystron cathode and the terminal for connecting the negative terminal of the anode rectifier, the terminal for connecting the positive terminal of which is connected to the terminal for connecting the klystron collector, a three-winding transformer, controllable discharge, whose control electrode is connected to the first terminal of the limiting resistor, double-wound pulse transformer mater, capacitor and electronic reactive element t ..

The disadvantages of the known device are low reliability and speed.

The purpose of the invention is to increase the reliability and speed of the device D.PN of klystron protection.

This goal is achieved by having a protective resistor connected by a terminal for connecting the klystron cathode and a terminal for connecting the negative terminal of the anode rectifier, a terminal for connecting the klystron collector, a three-winding transformer, a controlled spark, whose control electrode is connected to the first the output of a limiting resistor, a two-winding pulse transformer, a capacitor and an electronic reaction element, is equipped with a relay with a separate contact, the winding of which is protected tied with an additional capacitor, and a relay disconnecting unit, the open contact of which is connected by one output to the terminal for connecting the controlled input of the anode rectifier and the other through a relay contact to the terminal for connecting the network, and the input of the relay disconnecting unit is connected to the E-response output of the electronic an element connected by its inputs to the output winding terminals (a three-winding transformer, -first and second input windings of which, iiro are connected by their first terminals to the terminal for connecting the positive terminal of the anode rectifier, the second terminal of the second input winding of the three-winding transformer is connected via an additional capacitor to the terminal for connecting the klystron resonators and to the first terminal of the input winding of the pulse transformer, the second terminal of which is connected to the terminal of the klystron cathode through the main capacitor, and the second output of the first input winding of the three-winding transformer is connected to the anode of the arrester, the cathode of which is connected to the terminal for connecting With the minus output of the anode rectifier and with the first output of the output winding of a pulsed two-winding transformer, the second output of which is connected to the second output of the programmable 1 resistor.

The drawing shows the functional diagram of the device for high-speed klystron protection.

The device contains a terminal for connecting an anode rectifier 1, terminals for connecting a klystron 2, a protective resistor 3, sending a voltage to the receiver 4, a three-winding transformer 5, a probe B, consisting of a condensate 7 and a pulse transformer 8 with an input 9 and an output 10 windings, a limiting resistor 11, a relay 12, an additional capacitor 13, an electronic reaction element 14 and a relay disconnecting unit 15 with an openable contact

The device for the protection of the klystron works as follows.

During normal operation of the klystron, the surge is under a hollow anodic voltage. The capacitor 7 of the probe breakdown b charges. A constant current of resonators flows through the windings of the relay 12, not reaching the relay trigger threshold.

In the event of an accidental breakdown in the klystron, a significant current of the anode rectifier arises, which flows through the circuit: capacitor 13 - first input: to the transformer winding 5. The current | of the second input winding induces a voltage on the output winding, which triggers the electron-reacting element, which forms command to switch off 15 anode rectifier.

At the same time, the sensor capacitor 7 is broken down through the input winding 9 of the pulse transformer 8, the output winding 10 of which induces a voltage that ignites the discharge day to 4. Discharger 4 shunts the anode rectifier 1 and thus de-energizes the klystron 2 until how the relay relay 15 triggers on the electronic response command of the elec- tion 14.

In case of malfunction of the surge unit 4, the anode rectifier 1 is disconnected and the klystron 2 is de-energized due to the response of the electronic reactive element 14 and the disconnecting unit 15 "Disconnecting the anode rectifier 1 in this case occurs much / faster than it would have happened due to the relay 12 in the current circuit of the resonators, where the breakdown current of the klystron 2 flows. An additional deceleration in the operation of relay 12 is created by the capacitor 13 shui winding the eHogo relay. Until the capacitor 13 is charged with current. breakdown of klystron 2, relay 12 will not work.

The formation of the command for disconnecting the anode rectifier 1 from the transformer 5 and the electronic reacting element 14 occurs without any delay, regardless of operation and state. Chart 4.. J

Thus, in case of malfunctioning of the surgeon 4, the de-energization is klystro-; On 2 it occurs much faster than this would occur due to the triggering of relay 12 in the current circuit of the resonators of the klystron 2 or current relays in the anode rectifier 1. The first input winding of the transformer 5 serves to accelerate the formation; off signal

0 anode rectifier 1 with false. (. Spontaneous) triggering pasj $ 4. The presence in the klystron circuit 2 of the second input winding of the transformer 5, included according to the first input winding of the transformer, provides an increase, reliability of quenching of the sample in the klystron 2 by creating anti-electromotive force, which prevents current flow through the breakdown.

0 The use of this invention provides an increase in the speed and reliability of the device for the protection of the klystron, which helps to prevent the destruction of the electrodes.

5 dov, cathode poisoning failure of the kliotron.

Claims (1)

2. USSR author's certificate No. 760416, cl. AND 03 K 3/53, 1978. 454) (57) A KLYSTRON FAST-PROTECTING DEVICE containing a protective resistor connected between the terminal for connecting the klystron cathode and the terminal for connecting the negative output of the anode rectifier, the terminal for connecting the positive terminal of which is connected to the terminal for connecting the klystron collector, a three-winding transformer, a controlled arrester, the control electrode of which is connected to the first output of the limiting resistor, a two-winding pulse transformer, a capacitor and an electronic A reacting element, distinguished by the fact that, in order to increase reliability and speed, it is equipped with a relay with an open contact, the winding of which * is shunted by an additional capacitor, and a relay disconnect unit, the open contact of which is connected by one output to the terminal for connecting the ynpaBlocked input of the anode rectifier 'and others through the closable relay contact - to the terminal for connecting the network, and the input of the relay relay block is connected to the output of the electronic reacting element', 'connected to its input to the terminals of the output winding of the three-winding transformer, the first and second input ^ windings of which are connected by their first leads to the terminal for connecting the positive terminal of the anode rectifier, the second terminal of the second input winding of the three-winding transformer connected via an additional capacitor to the terminal for connecting the klystron resonators and to the first terminal the input winding of a pulse transformer, the second output of which is connected through the main capacitor to the terminal for connecting the cathode on, and the second output of the first input winding of the three-winding transformer is connected to the anode of the arrester, the cathode of which is connected to the terminal for connecting the negative output of the anode rectifier and with per “. output terminal of the pulse winding of a double-winding transformer, the second terminal of which is connected to the second terminal of the limiting resistor 4