US2277148A

US2277148A - Electrode for electron discharge devices

Info

Publication number: US2277148A
Application number: US376564A
Authority: US
Inventors: Victor L Ronci
Original assignee: Bell Telephone Laboratories Inc
Current assignee: AT&T Corp
Priority date: 1941-01-30
Filing date: 1941-01-30
Publication date: 1942-03-24
Anticipated expiration: 1959-03-24

Description

March 24, 1942. v. L. RoNcl.

ELECTRODE FOR ELECTRON DISCHARGE DEVICES Filed` Jan. 3 0, 1941 FIG.

FIG` 2 /NVENTOR By l/. L .RONC/ Mm a. l f ATTORNEY Patented Mar. 24, 1942 ELECTRODE FOR ELECTRON DISCHARGE DEVICES Victor L. Ronci, Brooklyn, N.-Y., assignor to Bell Telephone Laboratories, Incorporated, New York, N. Y., a corporation of New York Application January 30, 1941, Serial No. 376,564

(Cl. Z50-27.5)

6 Claims.

This invention relates to electrode for electron discharge devices and more particularly to grid electrodes for such devices of high power capacity and operable at ultra high frequencies.

In electron discharge devices suitable for eilicient operation at ultra high frequencies, the inter-electrode spacings, and particularly the spacing of the cathode and the grid or of several grids if more than one are employed, is very small and should be accurately maintained during the operation of the devices. devices are operated at relatively high power levels, the temperature of the grid or grids varies over a fairly wide range and, as a result, the grid undergoes expansion and contraction so that the interelectrode spacings may vary with consequent changes in the operating characteristics of the devices, and in some cases may vary so that the grid contacts with another electrode, such as the cathode, whereby the devices are rendered inoperative.

One object of this invention is to maintain the operating characteristics of an electron discharge device substantially constant. More specically, one object of this invention is to maintain exactly the desired spacing of electrodes of an electron discharge device during operation of the device.

In one illustrative embodiment of this invention, an electron discharge device comprises a cathode, an anode, and a grid encompassing the cathode and in close space relation therewith.

In accordance with one featureof this invention, the grid com-prises a plurality of parallel wires mounted in a cylindrical boundary and fixed at one end, means being provided defining a plurality of cantilever spring elements connected to alternate wires. In a specic form, this means is -a relatively wide pitch flexible helix wound about the parallel wires and having its turns aixed to alternate wires.

In -accordance with another feature of this invention, the grid constitutes a self-supporting structure, the end portions of the parallel wires remote from the xed ends thereof being bent inwardly and secured to a spacing member supported by the parallel wires.

The invention and the foregoing land other features thereof will be understood more clearly and fully from the following detailed description with reference to the accompanying drawing in which:

Fig. 1 is an elevational view mainly in section of an electron discharge device illustrative of one embodiment of this invention; and

When such Y Fig. 2 is an enlarged perspective view of one of the self-supporting grids included in the device illustrated in Fig. 1.

Referring now to the drawing, the electron discharge device shown in Fig. 1 comprises an evacuated enclosing vessel having a bulbous vitreous portion I0, a vitreous or ceramic dished base II, and a metallic, e. g., copper, portion including a wall I2 hermetically sealed to the bulbous portion I0. The metallic portion includes also an inwardly extending cylindrical wall I3 and a central cup-shaped member I4 which serves as the anode of the device and is positioned coaxial with the cylindrical Wall I3.

A metallic plate I5 having a plurality of apertures I6 and provided with an annular flange I'I, L-shaped in section, is secured, as by soldering,

to the metallic portion of the enclosing vesselv adjacent the junction of the Walls I2 and I3 thereof, the flange II having aixed thereto a .cylindrical metallic member I8 coaxial with the anode member I4 and spaced therefrom by raised portions I9 on the member Il. Mounted upon the plate I5 are a pair of couplers 20 and 2I by means of which connection may be made to` the inlet and outlet of a fluid circulating system for cooling the anode I4.

Disposed centrally within the anode I4 is a cathode which comprises a pair of self-supporting hairpin filaments 22, for example, of tungsten, mounted in parallel relation and connected in parallel electrically by rigid wires 23 which are joined to leading-in conductors 24 -by metallic sleeves 25, the leading-in conductor 24 beingvhermetically sealed to protuberances 26 on the dished base Il and terminating in terminal caps 21.

A control grid and a screen grid of a particular construction to be described hereinafter are mounted between the cathode and the anode and uniformly spaced therefrom, each of these grids including a foundation

member ory ring

28 and 29, respectively. The foundation ring 28 of the control grid is rigidly supported by a rigid wire 30 secured to one of. the leading-in conductors 24 by a coupler or sleeve 3l. The foundation ring 29 of the screen grid is mounted upon a solid walled metallic shield 32 Which is secured to a number, for example, three, of the leading-in conductors 24 by screws 33, only one of which is shown, the shield being provided with an lannular corrugation 34 which enables shifting of the screen grid with respect to the base II during the assembly of the device and thereby facilitates the mounting of the screen grid in exact peratures.

coaxiality with the other electrodes of the device. The shield 32, it will be noted, substantially encloses the leading-in conductors for the cathode and the control grid whereby these conductors are eiectively screened, electrically and thermally, from the anode I4.

Each of the control and screen grids, as shown clearly in Fig. 2, comprises a plurality of equally spaced parallel wires 35 secured to the foundation ring at one end and having the other end thereof bent inwardly and afxed to an annular metallic member, such as a plate 36.Y The

foundation ring

28 or 29 and the plate 36,it will be noted, locate the grid vertlcals 35.111 parallel relation and in a cylindrical boundary. During operation of the device, however, because of variations in the temperature thereof, the grid verticals 35 expand and contract and, due to dif-V ferences in the temperature f the individual verticals and possible non-uniformities in the dimensions and composition thereof, certain of the verticals may .expand and contract non-uniformly. The effects of such non-uniform expansion and contraction of various oftheverticals are counteracted in part lbythe coaction of the inwardly bent end portions of the verticals and the plate 36 so that the desired uniform parallel relation is maintained to some degree. However, it has been found that, particularly in devices operated at high power levels, the dilerential expansion and contraction of the verticals is-so great that these verticals depart from linearity, whereby the desired relation thereof to one another andto other electrodes of the device is destroyed with consequent change in the operating characteristics of the device and, in some cases, the verticals contact with another electrode, such as the cathode or another grid, whereby the device is rendered inoperative.

The deleterious effects noted above are prevented in devices constructed in accordance with the invention. As shown inl Fig. 2, a pair of

flexible wire helices

31 and 38 are wound about the verticals 35, the helix Sil havingv its turns secured, as by spot welding, to one group ofV alternate verticals and the helix 38- having its turns'similarly secured to the other alternate verticals.Y The helices 3l and 38 are of a material, such as tantalum, which will retain its resilience'at high tem- They may be of Li-mil tantalum wire or strip and the verticals 35' maybe of l2-mil molybdenum.

This construction, it will benoted, provides', in elfect, a multiplicity of cantileverelements each having its ends xed to two alternate verticals of thegrid. The expansion and contraction of each vertical is limited by the flexibility of these cantilever elements. The latter are relatively long and flexible and the thermal strain on the verticals, tending to bow them, is correspondingly small. Substantially linear expansion and contraction is thus realized whereby the form of each gridis preserved and the requisite spacing of each grid wire with respect to the other grid wires and to the other electrodes is accurately maintained. It will bel appreciated, then, that not only are constant operating characteristics realized but also extremely close spacing of the electrodes may be utilized.

Although a specic embodiment of the invention has been shown and described, it will be understood that it is but illustrative and that various modifications may be made therein Without departing from the scope and'spirit of this invention as defined in the appended claims.

What is claimed is:

1. An electrode for electron discharge devices comprising a plurality of relatively rigid wires arranged in parallel relation, means mounting said wires to allow substantially free longitudinal expansion and contraction thereof with temperature variations and spacing said wires at one portion thereof, and means for maintaining said wires in parallel relation during expansion and contraction thereof including a, plurality of cantilever spring elements each having its ends fixed to one pairof said wires, said elements being secr tions of a resilient wire extending obliquely with respect to said parallel wires.

2. An electrode` for electron vdischarge devicesk comprising a plurality of substantially parallel wires mounted in a cylindrical boundary, means for supporting said wires, and means for maintaining said wires in parallel relation comprising a resilient helix having its turns securedto alternate wires.

3. An electrode for electron discharge devices comprising a plurality of substantially parallel wires mounted in a cylindrical boundary and having one end portion inwardly bent, a spacer member affixed to the inwardly bent portions-of said wires, a support member aflixed to'said wires at the other end thereof, and a flexible member having at least one portion secured to certain of said wires at points intermediate the ends thereof. y

4. An electrode for electron discharge devices comprising a plurality of substantially parallel wires mounted in a cylindrical boundary, means for supporting said wires, and a pair of flexible wires one of which is secured to alternate ones of said parallel wires and the other of which is secured to the other ofsaid parallel wires.

5. An electrode for electron discharge devices comprising a plurality of substantially parallel wires mounted in a cylindrical boundary, a flexible helix having its turns secured to alternate wires, and a secondiiexible helix having its turns secured to the remainder of said wires.

6. An electrode for electron discharge devices comprising a plurality of substantially parallel wires mounted in a cylindrical boundary and having inwardly bent portions at one end thereof, a spacer member engaging said inwardly bent portions, a support secured to said wires at the other end thereof, la liexible wire helix encompassing said parallel wires andsecured to alternate ones thereof, and a secondfl'exible wire helix encompassing said parallel wires and secured to the remainder thereof.

' VICTOR L. RO'NCI.`