SU367482A1 - ELECTRONIC HIGH VALVE VALVE - Google Patents

Description

one

The invention can be used in modular conversion circuits, for example, in substations of a direct current transmission line.

In the known vacuum valves containing the cathode and the anode, when a large amount of current is passed through them, a high voltage is required, which leads to the release of considerable power | on the anode, and this, in turn, complicates the design and reduces the efficiency . devices. .

The proposed electronic high-vacuum valve does not have these disadvantages. In the forward half-period, it passes almost any large current with a small voltage drop; in the reverse period, such a valve can withstand any necessary voltage up to millions of volts.

In order to reduce losses, the valve is provided with a device for forming an electron beam in the form of a beam and an additional electrode between the cathode and the anode. An additional electrode can be made sectioned to increase the dielectric strength of the valve, and a control electrode is placed between the cathode and the opto-electrode to control the amount of rectified current. To increase the service life of the valve, as the cathode

better to use a plasma electron source. The anode can be made in the form of a hollow volume with an electron entry hole to reduce the number of reflected electrons.

The drawing shows the valve described: a - containing the cathode /, the anode 2 and the additional electrode 3; b - containing the same and control electrode 4; c - containing cathode 1, anode 2, additional electrode 3, and systems of accelerating electrodes 5 and braking electrodes 6, separated by insulating gaps; d - containing the same and controlling

electrode 4 located between the cathode and the system of accelerating electrodes.

During the operation of the valve (see drawing a), an additional positive potential is set in the cathode relative to the cathode, which is determined by the value required to select the required current value in accordance with the 3/2 ratio and the electrical strength of the cathode-additional electrode gap. At the anode, the potential is set significantly lower than the potential of the additional electrode relative to the cathode. At the same time, the voltage drop across the valve is much lower than the selection voltage. The minimum potential that can be

given by the anode, is determined by the magnitude of the electron scatter in the flow over the speeds and the conditions for the inadmissibility of formation in front of the anode due to the spatial charge of electrons of the cathode potential — the virtual cathode. The flow of electrons is formed in the form of a beam, which almost eliminates the electron falling onto an additional electrode. In order to minimize the fraction of electrodes reflected from the anode, the anode is best made in the form of a hollow volume with an opening for the entry of electrons. The valve shown in the drawing provides electrical resistance to the voltage of hundreds of kilovolts or more. The stresses between the additional electrode and the cathode are divided according to the electrical strength of the gaps, and the electrodes of the accelerating system are fed to successively increasing potentials. Similarly, the voltage is divided between the additional electrode and the anode, and successively lower potentials are applied to the electrodes of the braking system. The design shown in figure b allows the voltage to flow through the valve. For this, a control potential is applied to the control electrode 4. The current can also be controlled at the valves a, by changing the potential according to the required law on the additional electrode 5. To increase the service life of the valve, a plasma electron source can be used as the cathode. The subject matter of the invention is 1. An electronic high voltage valve comprising a cathode and an anode, characterized in that, in order to reduce losses, it is provided with a device for forming an electron beam in the form of a beam and an additional electrode installed between the cathode and anode. 2. Ventilator according to claim 1, characterized in that, in order to increase the electric strength, the additional electrode is made partitioned. 3. Ventilator according to claim 1. Or 2, characterized in that, in order to control the amount of rectified current, between A control electrode is installed in the cathode and an additional electrode. so that, in order to reduce the number of reflected electrons, the anode It executes a hollow volume with an opening for the entrance of electrons.