DE1026007B - Getter arranged within an electrical discharge tube - Google Patents

Description

GERMAN

The invention relates to a getter arranged within an electrical discharge tube, its carrier consists of a heatable by means of high frequency current, connected in parallel to the cathode heating element Getterhei'z eggs ent exist, especially for an electron tube to be operated in the range of very short waves.

It is known the getter of a tube with a glass bulb to heat from the outside by means of a high-frequency field and in this way to close the getter pill evaporate. This getter method is only applicable if the getter pill can be attached so that it is not shielded by any metal parts, i.e. mainly in the case of glass tubes.

It is also known to apply the getter pill in the vicinity of the cathode and then the cathode to overheat briefly, as a result of which the getter pill is vaporized. With this arrangement there is a risk of that the cathode heater burns out. In addition, part of the getter mirror will be on the electrodes knock down, which adversely affects the tube operation.

It is also known that in older, larger all-metal tubes, the getter pill is in the upper part of the tube to attach and to evaporate them from the outside by means of a burner. This method is with today's Tubes can no longer be carried out due to their small dimensions.

It is known waiter, the getter pill on a separate heating coil, which is parallel to the cathode heater is switched to attach. This arrangement has the disadvantage that over the entire lifetime of the The getter heater tube is also heated, even when the getter pill has long since evaporated. That means increased heating current consumption and thus a deterioration in efficiency.

It is also known to attach the getter pill to a separate heater from. at least a feed separately led out of the tube will. This arrangement has the disadvantage that the additional lead out of the getter heating connection a separate socket pin is required. Because with today's tubes of the smallest dimensions, there is hardly enough Has space available to accommodate the electrode connections, this arrangement brings manufacturing technology great trouble with yourself.

In order to avoid these disadvantages, one is arranged inside an electric discharge tube Getter, the carrier of which is made of a heatable by means of high-frequency current, parallel to the cathode element switched Getterheizalement is proposed according to the invention that to avoid a heating of the getar heating element by the heating current supplied to the cathode heating element in

Inside an electric
Getter arranged in a discharge tube

Applicant:

Telefunken GmbH,
Berlin NW 87, Sickingenstr. 71

Arno Müller, Ulm / Danube,
has been named as the inventor

the circuit containing the getter heating element, a capacitor is switched on.

This arrangement has significant advantages over all previously known arrangements. It will no separate feeds are required, so no space is consumed by additional socket pins. Furthermore, this arrangement does not require any additional power during operation. Also is through the arrangement according to the invention made it possible to shoot down the getter at any point in time.

The coil of the getter heating element is dimensioned with regard to its inductance in such a way that it is opposite the cathode heating coil has a lower inductance, so that the high-frequency current is almost exclusively flows through the getter heating circuit, while the cathode heating coil acts as a high-frequency choke. However, it is also sufficient to dimension such that the high-frequency current distribution to the two heating circuits takes place in such a way that the current consumption of the getter heating circuit is sufficient to shoot down the getter, without exceeding the permissible current consumption of the cathode heating coil. Also is one such dimensioning of the getter heating coil conceivable that this together with the capacitor forms a series resonance circuit for the supplied high frequency. One needs with this procedure no special feeds for the electricity to be sent by the getter carrier, but can be beer for use the tube's normal cathode filament supplies.

The invention is explained below using an exemplary embodiment.

709 909/325

In the drawing, in Fig. 1, the structure of a Decimeter wave tube shown, in which 1 the inner cathode coil feed, 2 the outer cathode sleeve, which at the same time forms the second cathode heating coil feed, 10 the outer cathode cylinder, 9 the inner cathode cylinder, 8 the cathode heating coil, 5 the getter heating element, 7 the inner one Capacitor coating, 6 the insulating intermediate layer, 3 the getter protection pane, 4 the grid cylinder with associated lattice girder, 11 the anode, 12 the pump stem.

Fig. 2 shows a view of the inner capacitor plate 7, which is made of nickel sheet 0.15 mm thick. This inner cylinder is, with a vacuum putty known insulating compound pasted, introduced into the outer cathode cylinder. The inner capacitor plate 7 and the outer cathode sleeve 2 form in connection with the insulating intermediate layer 6 the capacitor 13 shown in the circuit (Fig. 3). The vacuum cement hardens at temperatures from 150 to 200 ° C. The getter heating element consists of a tungsten coil with six turns, inner diameter 1.16 mm and 2 mm length, wire diameter 111 μ, helix pitch one wire thickness. the Before installation, the helix was coated with aluminum oxide and the getter substance was introduced into the interior. The capacitor capacity is about 20 to. 30 pF. The inductance of the cathode heating coil is 0.3 μΗ. It also serves as a high-frequency generator for heating the getter heating coil Test transmitter required for testing the tube, which has a high frequency of around 1800 MHz. generated. However, a different frequency can also be selected. The tube is now used for gettering with its cathode foot on a specially adapted Ausköppelstück of the test transmitter and the Siender matched. The progress of the gettering can be seen on the basis of the display of the high-frequency current check.

The specified dimensions are only a setting The embodiment of the getter arrangement, the condenser and the others mentioned parts depends on the respective type of tube, the structure, the inductivity of your cathode heating coil, the location of the feeds and the high frequency losses in the getter substance. So can z. B. the getter heating element also consist of a metal ribbon on which the getter substance is

is brought. The arrangement of the capacitor can also be changed as required.

Claims (6)

Patent claims: 1. Getter arranged within an electrical discharge tube, the carrier of which consists of a Getter heating element which can be heated by means of high-frequency current and is connected in parallel to the cathode heating element consists, characterized in that to avoid heating of the getter heating element (5) by the heating current supplied to the cathode heating element (8) into the getter heating element (5) circuit containing a capacitor (13) is switched on. 2. Getter according to claim 1, characterized in that the cathode heating element and the Getter heating element are designed such that the cathode heating element has a higher inductance than owns the getter heating element. 3. Getter according to claim 1, characterized in that the getter heating element and the capacitor are designed such that both together form a series resonant circuit for the supplied Represent high frequency current. 4. Getter according to claim 1 to 3, relating to an electron tube for very short waves, thereby characterized in that the getter is inside the cathode lead designed as a sleeve is housed. 5. Getter according to claim 1 to 4, characterized in that the capacitor from the cathode lead sleeve on the one hand and on the other hand a coaxial, insulated metal covering attached therein is formed. 6. Getter according to claim 5, characterized in that the inner metal coating of the capacitor with the interposition of an electrically insulating cement, in particular A ^ akuumkittes, in is attached to the cathode feed tube. Considered publications:
German Patent Nos. 551 532, 699 204, 940179; Getter materials and their application in high vacuum technology by Martin Littmann, Leipzig, 1938, pp. 43, 57, 61. 1 sheet of drawings © 709 909/325 3.58