SU291607A1 - Electronic lamp - Google Patents

Description

This invention relates to the field of design of tube-type anode tubes.

Known electronic lamps with chamber

anode, such as tetrodes, containing a control and screen grids, combined with each other, an anode, on the inner surface of which are located the cam formed by the side walls of the ribs and the bottom between them. The narrow surfaces of the ribs facing the cathode form the end surfaces of the ribs of the cam.

It is known that in real lamellae, due to the distortion of the electric field due to physical inhomogeneities introduced in the field by grid electrodes, the deviation of the primary electrons from the direction normal to the anode is observed. In this connection, the electron flow of electrons bombards not only the bottom, but also the side walls of the chambers, as well as the end surfaces of the fins, causing the appearance of secondary emission from these surfaces. In addition, the bombardment takes place at different angles to the indicated surfaces of the chambers. This leads to an even greater increase in secondary emissions.

Cam pores working as mechanical catchers of secondary electrons are ineffective, since some of the secondary electrons being knocked out from the carats and adjacent along the bottom of the side walls of the chambers, another part of the secondary electrons escaping from the ends of the chambers and adjacent to the ends of the surface areas of the walls of the chambers is not caught by the camera and goes beyond it.

Therefore, the screen grid current increases, the residual voltage increases. This leads to the y oscillation power and kpts. lamps. This is a significant disadvantage of the known lamps.

The purpose of the present invention is to increase the vibrational power and efficiency. lambles by reducing the residual anode voltage.

These metal elements are provided, located in the metro station of the normal projection of each edge of the anode onto the control grid and used to direct the electron flow to the bottom of the chambers.

FIG. 1 shows a longitudinal section of an electron lam; in fig. 2 - electron-optical system lsl.py ..

The electron tube (see Fig. 1) includes a cathode assembly 1, a control grid 2, a screen grid 3 and an anode 4, the electrodes are arranged coaxially. The cathode assembly consists of a core of the cathode 5, covered with an oxide layer 6, and a preheater 7, located inside the cathode. The control grid is made in the form of squirrel-type mesh rods formed by rods 8. Metal ring elements 9 are provided on the control grid. The screen mesh is made of rods 10, also in the form of a squirrel-type mesh. The mesh of the screen grid is located in the shade of the control grid bars.

On the inner surface of the cylindrical anode there are annular chambers 11, which are formed by annular chambers, and ribs 12 A part of the inner surface of the anode, located m, between the annular chambers, and ribs, forms the center 13 of the chamber. The surfaces of the ribs facing the chamber form the side walls 14 of the chambers, ep. The narrow surface of the annular ribs facing the cathode forms an end surface 15 of the fin.

The annular elements on the control grid are introduced in the places of the normal projection onto the grid of each edge of the anode and serve to direct the primary electron flow to the bottom of the chamber. The width of the annular element is comparable with the thickness of the ribs.

FIG. Figure 2 shows the electron-optical system, where the dotted lines of the circuits, are atypically showing the primary electrons, the nd flow, partitioned into parts 16, which are directed to the bottom of the anode. The electron beam sectioning is created by introducing annular metallic elements located in the places of the normal projection of the anode fins onto the control grid. When the lamp operates in the region of negative values on the control grid, the ring elements prevent electrons leaving the cathode parts located underneath, to be directed to the anode edges because of the repulsive effect of the negative charge of the elements 9 on these electrons.

Electrons emerging from the indicated parts of the cathode are pressed on their way to the anode.

metallic ring elements, elements 9 by their electric field and focusing on the areas of the llamas, located in, m, between elements 9, form a sectioned electron flux.

As a result of the separation of electronic

The flux in the portion of the region that is under the anode ribs does not contain an electron flux. Thanks to this, bombs, barking of the end and side surfaces of the ribs are removed by means of electrons. Thus, almost all the electron flow is directed to the bottom of the chamber. This leads to a significant decrease in the secondary emission from the anode due to the exclusion of

 secondary emissions from the edges of the chambers, constituted a significant part of the secondary emissions by the bastards.

As a result, the residual voltage at the anode is reduced by about half. The proposed constructive solution allowed to increase the KP. d. lamps when working on a low-resistance device and a bandwidth of 2 times {from 30% to 55%). When lamps operate on a high-resistance narrow-band load, the efficiency is and oscillating, the magnitude increased by 20%.

This description presents one of the possible designs. It is possible to make the ribs and metal elements in the form of a spiral, as well as you, the filling of an electron tube with a flat electrode system, in which metal elements are provided on the control grid, are located in places of the normal projection of each edge of the anode onto the control grid and employees for directing electron flow to the bottom, ep.

Claims (1)

Invention Formula Electron lamp, containing cathode, d, combined control and screen grids, chamber, anode, whose chambers are formed by ribs, characterized in that, in order to increase the vibrational power and efficiency. the lamp, the control grid is equipped with metal elements located in the places of the normal projection of each edge of the anode on the control grid. T t