SU48848A1 - Multi-electrode ion lamp - Google Patents

Description

The present invention relates to ion multielectrode lamps with a glowing year and with a continuously adjustable anode current, which lamps can be used for all kinds of electrical transducers and relays.

As is well known, in an ionic device such as a thyratron, the anode current in the static mode cannot be smoothly controlled by the grid, since a simple charge is generated around it, neutralizing its field.

The invention consists in a specific method for solving the task of smoothly adjusting the anode current. According to the invention, in the proposed lamp, the part adjacent to the cathode is equipped with a refrigerator, and the other, adjacent to the anode, with a heater, which causes the conversion of the substance into a flask to create a gaseous medium. The electron flow controlled in the cooled part of the lamp by one of the known methods, due to the appropriate selection of thermal, geometrical and electrical conditions, produces ionization of the gas only in the space between the anode and the additional electrode immediately placed.

The drawing shows a schematic view of the proposed multi-electrode ion lamp.

The balloon encloses the anode 3, the cathode 1 and two. Or the more additional electrodes 2 and 4. The upper part of the balloon is cooled by the cooler 7, the lower is heated by the heater 6, resulting in evaporation of the substance 5 placed in the balloon in an amount sufficient creating the vapor pressure required for operation of the device. In particular cases, this substance may also be one of electrodes 4 and 3. /

The resulting vapors rise to the top of the lamp, where they condense on its cold walls. Thus, a certain difference in the densities of gas in the upper and lower parts of the lamp, and consequently, the difference in the free path of electrons in the gas, is maintained all the time.

When the lamp is exploited, a potential positive to the cathode is applied to the electrodes 3 and 4. A control voltage is applied between the electrode (grid) 2 and the cathode 1. Control does not necessarily have to be done by the net; for this may

to be used in any of the known ways.

The principle of the lamp is as follows. The electrons emitted by the cathode flow into a space with an increased gas density and produce no ionization in the latter. The potential difference between the electrodes 3 and 4 is established so that an independent gas discharge cannot occur in this space. Thus, the control of the electron flow in the vacuum space at the cathode entails a change in the electron flow falling into the space with a high gas density at the anode. A change in this flow is accompanied by a change in the intensity of the gas discharge, and consequently, in the magnitude of the anode current.

The thermal, geometric, and electrical conditions must be chosen in such a way that ionization, which occurs only in the anode space, cannot interfere with the control of the electron flow in the cathode space.

The subject matter of the invention.

A multi-electrode ion lamp with a heated cathode and main anodic current control, characterized in that one of its parts adjacent to the cathode is equipped with a refrigerator, and the other, adjacent to the anode, with a heater causing vaporization of the substance placed in the flask to create a gaseous medium The thermal, geometrical and electrical conditions are selected so that the electron flow controlled in the cooled part of the lamp by one of the known methods produces ionization of the gas in the space between the anode and the plate. there is also an additional electrode.