DE1029934B - Ring-shaped bridging capacitor - Google Patents

Description

The invention relates to bypass capacitors, in particular those of an annular design that are used for the purpose of creating a bridging capacity for certain tube elements are attached to tube sockets.

It is common practice to be 'high frequency amplifiers for frequencies above 30 megahertz resanance bridging capacitors to use. Capacitors of this type are directly attached to the housing with the help of screws or other suitable Fastening means mounted, in such a way that a minimum of inductance in the Circuit is introduced. The size arrangement of the capacitance is chosen so that it matches the inductance the line leading to the electrode, which is to be short-circuited in terms of high frequency, as well as in resonance with other inductances that may be present in this part of the circuit stands. In many applications it is desirable that the effect of the amplifier extends over as much as possible broad frequency band extends. In such a case, a broadband bridging circuit is important. This is achieved by changing the value of the ratio of the inductance of the circuit to the Capacity of the oil supply capacitor so low as possible. This is done in a known manner by shortening the lead to the capacitor.

Arrangements have also already become known in which those located on the electron tube Plug pins partly directly with a single one that surrounds the tube socket in a ring shape Capacitor are connected, which does not require reliable contact. This requires In addition, complicated, special tube sockets. If capacitors for each electrode or each other element to be bridged must be installed individually, this increases the costs of such an amplifier is significantly increased.

These disadvantages are due to the design according to the invention Avoided construction in which several bypass capacitors in a single unit of low internal inductance and lowest lead inductance are combined and that with a minimum of work steps and thus also costs together with one any tube socket can be mounted on the chassis. The size of the individual partial capacitors can be different and adapted to the respective purpose. The unit itself Although it can include multiple capacitors, costs little more than a single capacitor.

The annular capacitor according to the invention consists of an annular disk made of electrical

Annular bypass capacitor

Applicant:

Raytheon Manufacturing Company,
Waltham, Mass. (V. St. A.)

Representative: Dipl.-Ing. R. Holzer, patent attorney,
Augsburg, Philippine-Welser-Str. 14th

Claimed priority:
V. St. v. America September 22, 1953

Howell Lloyd Carter Jr., Natick, Mass. (V. St. A.),
has been named as the inventor

Conductive material with bent inner and outer edges and a connecting strap attached to it and an insulating material arranged in the trough-shaped recess of the annular disk, on which there is a coating or the like made of electrically conductive material, which is the counter electrode of the Represents capacitor to which contact tabs are attached. The inner opening of the annular Disc is dimensioned so that a tube socket can be accommodated in it. The conductive, the counter electrode Forming coating od. The like. Can be divided into individual, separate segments from each segment is then provided with a contact tab.

The contact tabs of the conductive coating or the like are preferably arranged in the immediate vicinity of the tube socket contacts to be bridged.
Further details and features of the subject matter of the invention emerge from the following description of a preferred exemplary embodiment, which is shown in FIGS. 1 to 4 of the drawing. It shows

Fig. 1 is a plan view of a bypass capacitor according to the invention,

Fig. 2 shows a section through the capacitor along the line H-II in.

3 shows a section through the capacitor and part of the chassis and a view of a tube base and a tube attached to the chassis,

4 is a schematic circuit diagram of a circuit, in which a capacitor unit according to the invention is used.

809 510/390

As can be seen from FIGS. 1 and 2, the ring 10 has inside and outside bent over to one side Edges 11 and 12. On the inner edge 11 sits the tab 13, which connects to the ground potential is used to put parts of the circuit. In the annular housing 10, 11, 12 are with With the help of solder 14 or in some other way two semicircular layers 15 of a dielectric are attached, made of a ceramic material, such as. B. barium titanate. Individual from each other through gaps separate areas of the surface of each layer 15 of dielectric are coated with a coating 16 Provided conductive material, which is applied according to known methods for the production of capacitors has been. In the capacitor of FIG. 1, there are four such areas. On every conductive coating 16 is used to make the connection between the capacitor and the outer Circuit a tab 17 attached.

In the ring 10 there are openings 18 for the passage the condenser unit with the tube base 23 connecting fastening screws 25. Between the layers of the dielectric 15 lie in the housing 10, 11, 12 pad 20 with punched holes into which the screws 25 are screwed. It is also possible to choose any other appropriate type of fastening. The silver-plated ceramic parts are through a layer of insulating material 19 protected so that no moisture can penetrate into the housing.

The way in which the bridging condenser unit according to the invention and the associated tube socket are fastened together to the chassis can best be seen in FIG. That Chassis 21 is provided with an opening 22 for receiving the base 23. The lower part 29 of the Base body 23 protrudes from under the chassis 21 and fits into the opening of the ring 10. The openings 18 and the pad holes 20 are in the extension of the openings of the chassis 21. The base support 24 and the capacitor unit are through the Screws 25 connected to the chassis 21. The tabs 17 are each of the pin tabs 26 of the Socket 23, which with the by the respective capacitor unit Electrode to be bridged at Erpofential: the tube 27 connected, opposite.

The use of a bridging kotdenizer unit according to the invention is shown in Fig. 4 using the example of an amplifier arrangement on the basis of a principle image; the electron tube 28 is a pentode with a filament 30, a cathode 31, a control grid 32, a screen grid 33, a braking grid 34 and an anode 35. One end of the filament 30 is grounded and that other end connected to the terminal 36, which is connected to a Heizspaninungsquielle and through the capacitor 37, which is one of the parts dter bridging capacitor unit according to the invention represents, is bridged to earth in terms of high frequencies. The cathode 31 is grounded via a resistor 38 and through the capacitor 40, which consists of a second part of the capacitor unit according to the invention, High frequency connected to the earth. The control grid 32 is via an inductance 41 and the capacitor 42, which forms a third part of the inventive condensate purity, grounded. Furthermore, the grid 32 is connected through the capacitor 43 to the source of the input signals. That Screen grid 33 is connected to a positive voltage source represented by terminal 44 and hochfrequencies.ig bridged to ground potential by capacitor 45, which in turn is the fourth part represents the nominal capacitor unit. The anode 35 is connected to the terminal 44 via an inductance 46 and also through the Condensates! · 45 high-frequency bridged to earth; in addition, it is connected to the output of the amplifier stage through the capacitor 47. The lower plate 48 of each of the aforementioned capacitors 37, 40, 42 and 45 can be the circular ring 10 or be the capacitor unit shown in Figs. 1 and 2, while each of the upper plates 50, 51, and 53 of each of these capacitors the upper conductive covering 16 of one of the parts 15 of the dielectric can be.

Claims (4)

Patent claims: 1. Ring-shaped bridging condenser, marked by an annular disc made of electrically conductive material with bent over Inner and outer edge and a connecting strap attached to it, one in the trough-shaped one Insulation material arranged in the recess of the annular disk, on which a coating or the like is formed electrically conductive material, which is the counter electrode of the capacitor, on the Kontaktlasehen are attached, the inner opening of the annular disc so sized is that there is space in it for a tube socket. 2. Capacitor according to claim 1, characterized in that the conductive, the counter electrode Forming coating od. The like. Is divided into individual, separate segments, each of which single segment is provided with a contact tab. 3. Capacitor according to claim '1 or 2, characterized in that the contact tabs of the conductive coating or the like in the immediate vicinity of the tube socket contacts to be bridged are arranged. 4. Capacitor according to claims 1, 2 or 3, characterized in that it has openings for the passage of fastening means, preferably those that facilitate the fastening of the ■ Serve tube socket, are provided. References considered: British Patent No. 678 802. 1 sheet of drawings © 809 510/390 S.