SU110844A1 - Collector of electron beam lamps with a hr range - Google Patents

Description

The subject of the invention is a collector design for microwave cathode-ray lamps, which provides deceleration of "spent electrons", which makes it possible to increase the efficiency. lamps.

Known collectors that provide multiple electron braking are complex and do not allow a significant increase in efficiency. lamps due to losses due to the large number of secondary electrons and slow electrons returning from the collector to the flight space.

In the collector construction described below, these drawbacks are eliminated by the fact that the collector end electrode is made in the form of a hollow cup with a dazod neck needle located along its axis, which is at a potential close to the cathode potential.

Constructive implementation of the collector shown in the drawing.

The first electrode / collector has a socket and is under a high positive potential.

Vi equal to or close to the potential VG of the device resonator unit. The second electrode 2, which is at a low potential Vo, in particular the potential of the cathode, has a thin needle 3 in the middle of the socket, the tip of which is approximately at the edge of the low-voltage electrode. The collector system creates a radial field of such a configuration that, under its action, slow electrons (Ie) are deflected and fall on the electrode. The fast accelerated electrons (B. e.), Although deflected by the needle, still penetrate deep into the electrode 2 and enter its walls in areas where there is almost no accelerating electric field created by the electrode. The selected geometry of electrode 2, and also from the depth of field i to its depth, greatly hinders the output of secondary electrons (AD), making the work of the collector more efficient. The presence in the depth of the electrodes of thin radial ribs (not shown in the drawing)

additionally reduces the yield of secondary electrons. Both fast and slow electrons, depending on their speeds, are distributed more or less evenly over the large surface of the collector, which facilitates its thermal regime and cooling. The presence of a deflecting electric field created by a needle minimizes the return of secondary and slow primary electrons to the span of the device. Needle 3 in the optimal case is approximately equal to the length of the socket of electrode 2. With a shorter needle, a significant number of electrons return to the passage space, and with a longer needle it is difficult for the fast electrons to pass to the needle 2 connected to the needle. tubular electron fluxes, when it is excluded that at the end of the needle there are fast electrons that cause secondary emission. A similar reservoir design can be used for tape and radial beams.

The described collector can be used in traveling-wave tubes, return-wave tubes, flying klystrons, and other electron-beam devices designed for operation in the microwave range.

Subject invention

Electron-beam lamps of the microwave range, characterized in that, in order to increase the efficiency and to simplify the design, in order to reduce slow and secondary electrons returning from the collector to the transit space, the terminal electrode of the collector is made in the form of a hollow cup with a diverging needle located along its axis, which is at a potential close to the potential of the cathode.