DE1038659B - Antenna switch tubes - Google Patents

Description

The invention relates to antenna switching tubes, in which a discharge occurs between two main electrodes arranged on the same axis is introduced in an ionizable medium by means of an auxiliary electrode. Such tubes are used in the case of radar or radio measuring devices, to close the receiving device in front of the energy of the transmitter protect when the transmitter and receiver are connected to a common antenna system.

It is already known in such antenna switchover tubes to form the auxiliary electrode as a conductor, the shielded substantially completely from the other main electrode by one of the main electrodes is. You also have the auxiliary electrode through a covering made of a glass material that surrounds it shielded from the main electrode to which it is assigned. It is still with Antennenumschaltröhren known, the auxiliary electrode via a limiting resistor with the power source connect to. In this known tube, the resistor is arranged outside the tube.

The antenna tube according to the invention, which starts from the known tube described above, is characterized in that a resistor is built into the auxiliary electrode itself, which is known per se Way is connected in series with the auxiliary discharge path. By the arrangement according to the invention a resistor within the auxiliary electrode is not just the application of resistors dispensable outside the tube and thus simplifies the system, but it also becomes the effect the auxiliary electrode is advantageously supported.

The arrangement and design of the resistor can be made in various ways. Preferably, however, a central section of the conductor forming the auxiliary electrode is replaced by a high resistance rod, e.g. B. by a ceramic resistor. In order to make this possible, the greater part of the auxiliary electrode can be formed from a conductor made of a material on which glass can be melted easily, ζ. Β. made of an iron-nickel-cobalt alloy. The resistance stick is attached to the end of the conductor, and at the other end of the resistance rod is one small tip made of metal, e.g. B. of rhodium or copper, attached from the discharge to the Auxiliary electrode can be made; the whole arrangement is enclosed in a glass sleeve that extends up to the The tip of the electrode extends and with the conductor in the area of the junction between the conductor and the resistance rod is fused. The glass envelope thus surrounds the resistance rod, its connection with the conductor and the electrode tip, and it protects the resistor and its connections

Applicant:

The British Thomson-Houston Company
Limited, London

Representative: Dr.-Ing. F. Wuesthoff, Dipl.-Ing. G. Pulse

and Dipl.-Chem. Dr. rer. nat. E. Frhr. v. Bad luck man,

Patent Attorneys, Munich 9, Schweigerstr. 2

Claimed priority:
Great Britain 8 January 1954

William Joseph Scott,

Rugby, Warwickshire (Great Britain),

has been named as the inventor

against the glow discharge, because the glow discharge is caused by the shielding effect of the surrounding Glass envelope limited to the electrode tip.

The resistance rod and its connections with the adjacent parts of the auxiliary electrode protective sleeve can consist of an insulating material, whereby the insulating sleeve supports thereby is that it is connected or also with the glass sleeve that surrounds the conductor and is fused to it is fused.

The invention is illustrated by means of schematic drawings of several exemplary embodiments explained.

1 and 2 show a side and front view of an antenna switchover tube of known design, from which the invention is based.

3, 4 and 5 show exemplary embodiments of the auxiliary electrode according to the invention in longitudinal section.

Since the antenna switchover tube shown in FIGS. 1 and 2 is known, it does not need here in the to be described individually.

Between the inner edges of partitions 7 are on the lower and on the upper wall of the Waveguide the main electrodes 11 and 12 arranged coaxially. The lower electrode 11 is solid. The other main electrode 12, which is permanently built into the upper wall of the waveguide 1, is hollow, in order to be able to accommodate an auxiliary electrode 14, which is inserted into the support tube by means of a glass bead 21 20 is melted down.

809 637/382

Claims (3)

The main gap 18 between the tips of the main electrodes 11 and 12 is intended to be ionized under certain conditions, i. H. when high-frequency energy of a certain level is present in the antenna switchover tube, so that the gap can act as an attenuator with respect to this energy; on the other hand, if this energy is below this specific level, the gap is not ionized. For this purpose, a precisely controlled continuous triggering ionization is maintained between the hollow main electrode 12 and the auxiliary electrode 14 arranged therein. In order to stabilize the current flowing to the auxiliary electrode 14, which causes the ionization, a resistor is built into the auxiliary electrode according to the invention. The auxiliary electrode can then be designed according to FIGS. 3, 4 or 5. The auxiliary electrode of FIG. 3 comprises a conductor 24 made of a metal or an alloy onto which glass can be easily melted, and a resistor 25 is attached to this conductor. The resistor 25, which can consist of a ceramic material, is in turn connected to an extension wire 26 which ends in a tip 27 which is made of a metal that withstands the continuous ionization discharge in the direction of the auxiliary electrode. The extension wire 26 can be made of nickel, while the tip 27, which is welded to the electrode at 28. can consist of rhodium. The ceramic resistor 25 thus forms an intermediate section of the conductor constituting the auxiliary electrode, and it has end caps 29 which are fastened to the conductor 24 and to the extension wire 26, respectively. In order to shield the auxiliary electrode in such a way that the discharge extending to it remains restricted to the tip 27, an insulating sheath 30, which can consist of an insulating material, is provided for the end of the conductor 24, the resistor 25 and the extension wire 26. In order to fasten the sheath or sleeve 30 to a suitable part of the auxiliary electrode, a glass mass 31 is melted onto the conductor 24 and the adjacent end of the insulating sleeve 30. A glass bead 32 can be provided on the middle part of the insulating sleeve 30, which bead can act on the inner surface of the main electrode 12 in order to center the auxiliary electrode in it. In the modified arrangement according to FIG. 4, a similar construction is used, but in which the caps 29 at the ends of the resistor 25 are directly, el. H. are welded and / or soldered to the ends of the conductors 24 and 26 without using the sleeves provided in the arrangement according to FIG. Fig. 5 shows a further modification in which one end of the resistor 25 is connected to the end of the conductor 24 by a wire 33 which is wrapped around the end of the resistor 25 and has an axial extension, which at 34 to the end of the conductor 24 is welded. The other end of the resistor 25 is connected to the wire 26 by winding the end of this wire around the corresponding end of the resistor 25 directly. In order to ensure good electrical contact between the ends of the resistor and the wires to which it is connected, the contacting parts of the wires and the resistor can be provided with metal coatings, as indicated at 35. 5 shows an additional modification insofar as the glass sleeve 31 is extended so far that it surrounds the section of the auxiliary electrode comprising the resistor 25, which makes it possible to dispense with the use of a special insulating sleeve 30. If necessary, the glass jacket 31 can be heated where it surrounds the resistor 25, so that it collapses inwardly to the resistor, as indicated in FIG. 5 by dashed lines. Pa text λ N-SPH c r. π E: 1. Antenna switch-over tube, in which a discharge is arranged between two axially aligned to each other Main electrodes introduced into an ionizable medium by means of an auxiliary electrode and the mentioned auxiliary electrode in the form of a conductor through only the tip of the electrode sleeve made of insulating material that is left free opposite the main electrode that works with it and is shielded by this from the other main electrode, characterized in that that a resistor is built into the auxiliary electrode, which in a known manner with the auxiliary discharge path is connected in series. 2. Antennenumschaltröhre according to claim J. characterized in that the resistance through a ceramic rod is formed. 3. Antennenumschaltröhre according to claim 1, characterized in that the resistance durcli a coating of a high resistance applied to the tip of the auxiliary electrode having oxide is formed, the oxide with a layer of a more conductive Material from which the discharge takes place is coated. Considered publications:
British Patent Nos. 644 262, 698 896,
358 614, 573 550. 1 sheet of drawings © 809 657/382 9.58