US2840750A

US2840750A - High frequency corona shield

Info

Publication number: US2840750A
Application number: US375885A
Authority: US
Inventors: Richard A White
Original assignee: Westinghouse Electric Corp
Current assignee: CBS Corp
Priority date: 1953-08-24
Filing date: 1953-08-24
Publication date: 1958-06-24
Anticipated expiration: 1975-06-24

Description

June 24, 1958 R. A. WHITE HIGH FREQUENCY CORONA SHIELD Filed Aug. 24. 1953 INVENTOR Richard A.Whi"te. 2

WITNESSES: aw/247 ATTORNEY HIGH FREQUENCY CORONA SHIELD Richard A. White, Horseheads, N. Y 'assignor to Westinghouse Electric Corporation, East Pittsburgh, Pa., a corporation of Pennsylvania Application August 24,1953, Serial No. 375,885

4 Claims. (Cl. era-313 My invention relates to corona shields and, in particular, relates to corona shields for magnetrons and other electrical equipment operating at extremely high frequencies. 1 herein illustrate its principles by applying them to a magnetron which generates ultra-high-frequency currents and is powered by a source of the order of 100 thousand volts, so that corona shields are provided to avoid concentrated electric fields in the neighborhood of its input leads.

Figure 1 shows the structure and configuration of the corona shielding used in the prior art for the high potential leads into a magnetron of the type just mentioned. The cylindrical cathode 1 is supported on a pair of concentric in-leads 2 and 3 which extend through

suitable seals

4 and 5 along the axis of a tubular glass neck 6 extending from the vacuum-tight container 7 of the magnetron. The general structure of such magnetrons is too well known in the art to require detailed description here, but it may be said that the inner wall of the generally cylindrical container 7 constitutes the anode, so that the anode-to-cathode potential difference of around 100 thousand volts produces a strong electric field in the neighborhood of the in-leads 2 and 3. Cathode heating current is furnished to the inner cathode lead 3 by a line-wire 8, the other line-wire 9 being connected to the metal cylinder 10 which is part of the seal 5. Cylinder 10 connects through a metal collar 11 to metal sleeve 12 which is spaced from cathode-lead 2 by a metal ring 13. Since the potential difference between cathode leads 2 and 3 is only a few volts, all of the above-enumerated parts: which are connected to them are at a potential difference of around 100 thousand volts from the anode 7 to which the glass neck is sealed. An intense electric field thus exists between the above-enumerated

parts

1, 2, 3, 5, 8 to 13 and the parts connected to anode 7. The high vacuum inside the magnetron gives the gaps between parts of opposite polarity therein a high dielectric strength, but where the electric fields traverse space outside the tube concentrations of the field at corners and points would produce corona discharges were this not guarded against by providing corona shields such as 14 and 15 in Fig. 1.

Prior practice has been to form the shield 14 as a cuff of sheet metal with the end facing toward anode 7 curved inward forming a toroidal surface with a substantial radius of curvature, and its other end supported from the cylinder wall 10 by a solid annular collar 16.

Pulsed currents of ultra-high frequency from the modulator or other circuits external to the magnetron flow along the outer cathode-lead 2 to the line-wire 9, and by reason of the well-known skin effect, they are confined to a thin layer on the surface of the conductors which they traverse. The arrows 27 indicate the path of the high-frequency currents in the Fig. 1 structure and show that the current is forced by collar 16 to follow a long curved path over the surface and around the curved end of corona shield 14 as part of its journey.

Such a tortuous path oifers a substantial impedance to the pulsed currents from which magnetrons operate and States. Patent 7 f Patented June 24, 1958 "ice path approach each other.

One object of my invention is, accordingly, to provide an improved type of corona shield for high-frequency electric circuits. I

Another object is to provide a corona shield structure for components of high-frequency electric circuits which shall minimize the impedance in the path of such currents.

Another object is to provide a corona shield for highfrequency electrical conductors which shallminimize the danger of arc-over in the neighborhood of the shield due to impedance in the path of high-frequency currents along surfaces of the shield.

Still another object is to provide an improved structure for magnetron tubes carrying high-frequency currents.

Other objects of my invention will become apparent upon reading the following description taken in connection with the drawings, in which:

Figure l is a view, partly in longitudinal section, of a magnetron with corona shielding of the prior art type.

Fig. 2 is a section along lines lIlI of .Fig. 1.

Fig. 3 is a view, partly in longitudinal section, of a magnetron having corona shielding embodying my invention.

Fig. 4 is a section along lines IVlV of Fig. 3; and

Fig. 5 is a view in longitudinal section of a modified form of my invention.

In accordance with my invention as applied in Fig. 3, the corona shield 14 is supported from the cylindrical wall 10 by a spider 21 comprising rings 22, 23 connected by spokes 24. The high-frequency load currents are able to pass across the surface of ring 23 through the intervals between the spokes 24 and are no longer forced to follow the long re-entrant path along the surface and around the end of corona shield 14. The above-described impedance in the path of the load current is thus eliminated and failure of corona protection by the shield 14 is avoided. I have shown the spider as having six spokes, but for certain purposes any number from one up will do.

In order to more perfectly shield the tube structure at the end remote from anode 7, it may be desirable to extend the shield 14 to the right as shown in Fig. 5, giving its extended end the same curved rim as the left end has in Fig. 3. Fig. 5 shows such a shield.

While I have described an application of the principles of my invention to a magnetron, it will be recognized that they are equally applicable to supports for corona shields for other high-frequency devices; vacuumtype high-voltage capacitors may be pointed out as one example.

I claim as my invention:

1. A corona shield for linearly extending radio frequency conductors comprising a sheet of conductive material having an annular wall portion surrounding a radio frequency conductor, said wall portion having a diameter substantially greater than said conductor and a support therefor comprising an inner ring of conductive material engaging said conductor, and a plurality of conductive spoke members extending outwardly from said inner ring to support said annular wall portion.

2. A corona shield for linearly extending radio frequency conductors comprising a sheet of conductive material having an annular wall portion surrounding a radio frequency conductor, said wall portion having a diameter substantially greater than said conductor and a support therefor comprising an inner ring of conductive material engaging said conductor, and a plurality of radial conductive spokes extending outwardly from said inner ring to support said annular wall portion.

3. A corona shield for linearly extending radio fre quency conductors comprising a sheet of conductive material having an annular wall portion surrounding a radio frequency conductor, said wall portion having a diameter:substantially greater than said conductor and having an end bent over to form a toroidal surface of sub-I stantial radius of curvature, a support therefor comprising an inner ring of conductive material engaging said conductor, and a plurality of conductive spoke members extending outwardly from said inner ring to support said annular wall portion.

4. A corona shield for linearly extending radio frequency conductors comprising a sheet of conductive material having an annular wall portion surrounding a radio frequency conductor, said wall portion having a' diameter substantially greater than said conductor and having an end bent over to form a toroidal surface of sub- 4 stantial radius of curvature, a support therefor comprising an inner ring of conductive material engaging said conductor, and a pluralityv of radial conductive spokes extending outwardly from said inner ring to support said annular wall portion.

References Cited in the file of this patent UNITED STATES PATENTS