DE1958264A1 - DC voltage multiplier circuit for multi-electrode tubes - Google Patents

Description

"DC voltage multiplier circuit for multi-electrode tubes" Die The invention relates to an arrangement of one of several arranged one behind the other Multiplier stages existing DC voltage multiplier circuit for power supply of multi-electrode tubes, each single stage essentially having two capacitors and has two diodes, and the capacitors in two form a distance parallel rows with diodes located in between directly arranged on the Röh ren or housed in housings.

Those for the operation of image converter tubes or image intensifier tubes The required high DC voltage can usually be achieved with a DC voltage multiplier circuit are generated, as they are generally known under the designation "Greinscher circuit" is. In order not to exceed the dimensions of the image converter tube, it is desirable to apply the multiplier circuit as directly as possible to the tube. In In this context, it is known to use the DC voltage multiplier circuit to arrange a surface line of the tubular cylinder and it saddle-shaped around the tubular body to bend so that it is adapted approximately to the cylindrical shape of the tube.

A number of suggestions have been made to address the issue To meet the desire for the greatest possible exploitation of wealth. One of these Proposals are that essentially consist of two capacitors and two diodes composite individual stages of the multiplier circuit circular on the circumference to arrange the image converter tube and between image converter and multiplier circuit Provide a flexible layer of insulating material, which also serves as a soldering device for soldering together the prefabricated individual steps is used. As capacitors are for this purpose, conventional capacitors provided with external insulation are used been.

An isolation of each individual capacitor means, however, if the Call for a reduction in size Overall dimension of the circuit exists, an increase in the space required. Because of this, there is another suggestion been made, which goes there, the capacitors as unpotted plate capacitors, so-called chips to be used in the multiplier circuitry.

With this measure, with the appropriate arrangement, the remaining Elements of the multiplier circuit that can be inserted between the coupling rings of a multi-stage electrode tube is guaranteed. The ones in the Above-mentioned multiplier circuits used capacitors have a flat, round design and are contacted on their upper and lower sides.

It has already been proposed to build a circuit arrangement in the en their melting times contacted, rectangular or square capacitors used in two parallel rows with rectifier elements between them are arranged. The arrangement can now be either concentric or spiral housed in a small cartridge or in the form of a half-shell on the tube be put on.

To a DC voltage multiplier circuit described above To be able to arrange an image converter tube with a small diameter, it is already it has been proposed to put the capacitors in two parallel rows on the circumference the image converter tube to be arranged so that the distance between the two capacitor banks by bridges the diodes associated with the individual capacitors is. Here are two adjacent, separated by a space, Capacitors of a series connected together by a capacitor, this being Capacitors form parallel rows to the two capacitor rows, of the invention the underlying task is to create a DC voltage multiplier circuit, which can be produced with technically simple means.

The object is achieved according to the invention by the use of at least two strip-shaped multiple capacitors, which are connected via the diodes are connected to a structural unit. The advantages of the invention are once in the technically simple assembly, which is also time-saving, wd on the other hand leads to a mechanically stable multiplier circuit.

In the drawing, an embodiment according to the invention is shown.

Pig. 1 shows a circuit diagram and FIG. 2 shows a structural unit of a DC voltage multiplier circuit.

Each of the island mares 1 - 5 of the multiplier circuit shown in FIG consists of two capacitors 6-15 and two diodes 16-25. Stage 1 contains the Capacitors 6 and 7 as well as diodes 16 and 17, stages 2 - 5 contain the corresponding circuit elements (capacitors 8-15 and diodes 18-25).

With the aid of FIG. 2, an assembly 28 according to the invention of a multiplier circuit is shown shown. This unit consists mainly of two multiple condensers 26 and 27 which are arranged at a distance determined by the diodes 16 25 and lie parallel to each other. The multiple capacitor 26 includes the capacitors 6, 8, OK, 12 and 14 and the multiple capacitor 27, the capacitors 7, 9, 11, 13 and 15 * Between the two multiple capacitors 26 and 27 are the diodes 16 - 25 arranged. All components are from Pig according to the circuit diagram. 1 electric connected with each other.

In the exemplary embodiment listed above, the are multiple capacitors 26 and 27 are strip-shaped and straight. The rectangular shape of the multiple capacitors comes about because the capacitors 6, 8, 10, 12 and 14 or 7, .9, 11, 13 and 15 are each lined up and cast together. It is possible, the Nehrfsoh capacitors 26 and. 27 in this version as components for the Assembly 28 to be used. This unit can be in the longitudinal direction on the circumference be attached to a multi-electrode tube.

Another possible arrangement of a DC voltage multiplier circuit according to the invention can consist in placing the assembly around a multi-electrode tube. For this purpose, preformed, strip-shaped, adapted to the circumference of the multi-electrode tube Multiple capacitors 26 and 27 can be used.

Finally, it is possible to have one or more components 28 in one Cartridge which can be arranged in a multi-electrode tube and over lines is electrically connected to this, spirally or concentrically around the cartridge axis to arrange. For this purpose, the multiple capacitors 26 and 27 of the components can be heated 28 can be used in a straight design when the structural units 28 in the longitudinal direction the cartridge axis in the shape of an arc of a circle, placed side by side in the cartridge. With this arrangement, however, it is necessary to connect the connecting wires of the diodes 16 - 25 to bend in such a way that the structural units 28 have a corresponding circular arc Having adapted shape The units 28 can also circle in a cartridge or spirally wound around the cartridge axis by using Multiple capacitors 26 and 27 preformed to certain radii can be used 6 pages description 5 claims 1 sheet of drawing with 2 figures

Claims (5)

PATENT CLAIMS: 1. Arrangement of one of several one behind the other Multiplier stages existing DC expansion multiplier circuit for power supply of multi-electrode tubes, each individual stage essentially having two capacitors and having two diodes, and the capacitors in two forming a distance parallel rows with diodes in between directly on the tubes arranged or housed in housings, characterized by the use of at least two at-tire-shaped multiple capacitors (26,27), which are connected to a structural unit (28) via the diodes (16-25). 2. Arrangement according to claim 1, characterized in that the from Multiple capacitors (26, 27) and diodes (16-25) formed unit (28) dem The scope of the multi-electrode tubes is adapted. 3. Arrangement according to claims 1 and 2, characterized in that that the Nehrfaoh capacitors (26.2?) are straight. 4. arrangement nsoh claims 1 and 2, characterized in that that the strip-shaped multiple capacitors (26.2?) according to the scope of the Multi-electrode tube are preformed. 5. Arrangement according to claim 1, characterized in that several Structural units (28) housed spirally or concentrically in a cartridge are.