DE2364920B2 - Voltage multiplier rectifier device in cascade connection to generate the high voltage for cathode ray tubes, especially in television - Google Patents

Description

The invention relates to a voltage multiplier rectifier device (Cascade generator), as specified in the preamble of claim 1,

Prior art includes voltage multiplier rectifier devices. also known as cascade generators. Such a known device with five times the voltage multiplication, as it is used for the high-voltage circuit of a color television and the like, gehl ι. B. from the Fig.) And out, Fig. 1 the known circuit diagram and the F i g. 2 show a structure of such a device in a perspective view. Five high-voltage ceramic capacitors are provided, each of these capacitors being constructed to have a dielectric body 1 made of a ceramic material having a high dielectric constant, on which electrodes 2, 2 are located on opposite sides. By soldering 3, .3 connecting wires 5, 5 are attached to the electrodes. Five diodes 6 are provided, the connecting wires of which are in addition to this

Ό extend longitudinally. At the solder points 4 these rectifiers are connected. This whole device is located in an electrically insulating, cast resin, not shown. Such a common voltage multiplier has under

ij has another disadvantage, namely that it is not a big one The integration packing density of its individual parts has * and therefore takes up a relatively large amount of space. Furthermore are its dielectric body of the ceramic capacitors is sensitive to thermal shock that occurs during the Soldering the lead wires 5 results, so that the greatest care must be taken in this soldering to the To protect the ceramic body from cracking.

From DE-AS i 1 14 580 and DF.-OS 21 20 452 are voltage multiplier rectifier devices known in cascade connection, consisting of two columnar capacitor blocks with disk-like Ceramic capacitors are made. Between the individual capacitors of the two blocks are Connection plates for connecting the rectifier

JO pinged. With tüesen voltage multiplier rectifier devices the mutual position between the capacitor blocks and the rectifiers is relatively complicated. Furthermore, DE-Gbm 19 58 842 discloses a rectifier equipped with a capacitor

J5 known, in which the condenser consists of a plate-shaped dielectric, on which a metal coating is vapor-deposited on both sides. No connecting wire can be attached to this metal cladding.

It is the object of the invention. a voltage multiplier rectifier indicate where the electrical breakdown b / w. Breakdown voltage is improved. without having to increase the thickness of their ceramic dielectric bodies. and at which the mutual position between the capacitor blocks and the rectifiers is simple. Furthermore should be possible with her to be able to provide the capacitors with a connecting wire.

This object is achieved by a voltage multiplier CJIeichrichtervorrichtung specified in the preamble of claim 1 solved the invention according to the in the characterizing part of claim 1 is constructed. Refinements and developments of the invention are based the subclaims.

The improvement in the dielectric breakdown voltage is achieved in that the capacitor mil a plate-shaped, dielectric ceramic body, the electrodes on opposite one another Surface sides has, according to a feature of the invention, a tarpaulin from one on each of these sides Has material of great electrical conductivity associated with this body. For the inside of the dielectric ceramic body can thus be a consistently uniform field strength when applied electrical voltage, thereby increasing the dielectric breakdown voltage of the dielectric Ceramic body can increase extremely, z. B. on

1.8 times as much in an embodiment yet to be described.

The invention is based on the idea that the edge portion of a as specified above electrically conductive plate as well as a capacitor connection as well as being used as a connecting terminal for other parts. An inventive idea according to the invention, a voltage multiplier rectifier device is achieved, which is to be assembled according to a method with a reduced number of method steps, this device has high reliability and small size.

In a preferred embodiment of the invention, there are several connection plates in each Capacitor block in the same angular relationship. '5 This has the advantage that the rectifiers between the two blocks run almost parallel to one another and can be distributed right and left. So the structure of the whole will be small and clear and also have small dimensions.

In another embodiment there are several Connection plates in different angular relationship to one another. This means that the preps of the Connection plate different angular positions, so that the rectifier on the circumference of the plates in can be distributed substantially evenly.

Further explanations of the invention can be found in the figures and the description of two preferred ones Embodiments according to the invention are vor. About the prior art shown in Figs shows out

Fig. 3 is a perspective view of one in this Embodiment used connection phme,

4 shows a perspective view of another preferred embodiment according to the invention and

Fig. 5 a within the scope of the invention compared to the Fig. I modified circuit diagram.

As shown in the figure ) , each of the connecting plates P _x , ... (denoted here by 7) has such a shape that a disk-shaped !. Part 8 with projecting lugs 10,10 is intended for connections. each of these lugs having a hole 9 or an incision or the like that can be used for attaching a connecting wire. The body of the terminal plate is made of ceramic with a plating or silver coating on the surface. The diameter of the disk-shaped part 8 of the connection plate 7 is dimensioned so that it is about 10% larger than the diameter of the disk-shaped ceramic body of the capacitor, which is a structural component of a device like the one according to the invention.

The terminal plates and the disk-shaped ceramic body of the capacitors, each of which Ceramic body has previously been provided with electrodes on its opposite surface sides, are placed one on top of the other in alternating sequence. Between adjacent construction pieces there is a silver solder or an electrically conductive adhesive. This compound Unit is gradually heated and cooled again, e.g. B. by passing them through a tunnel oven can run through. In this way, the individual structural parts are firmly connected to one another.

With different thermal expansion coefficients for the dielectric body of the ceramic capacitor and for di; During the high-temperature treatment for silver soldering or the like, the terminal plate can cause the dielectric ceramic body to crack or the capacitor electrode to be lifted off. For this reason, the connecting plate is preferably made of such a ceramic material having a linear thermal expansion coefficient of 6 to l5xlO- ⁶ / C, that is nearly equal to that of 6-10 χ 10 ^-6 / C of the dielectric ceramic body. But it can even do metal! be used if its linear expansion coefficient / C is less than 15 χ 10. ⁶

Provided the ceramic capacitors, which are located between the connection plates in (one) each capacitor block are, coated on their surface with glass mass and then exposed to a temperature which is higher than the melting point of the glass mass, or if the device according to the invention is encased in a glass melt (this glass is poured into a melt mold into which previously the device has been brought in) the electrical voltage, the di. according to the invention Device between the Einzeitei'n can withstand the same can be improved or increased. This has the effect that the inventive <? Device can be made small in size.

· A ¹ further embodiment of the invention is in F i g. 4 shown.

In this embodiment, the first and second rows of capacitor blocks are in a single one Axis arranged. This is achieved by figuring out FIG. 1 converts to FIG. 5 and FIG. 5 accordingly constructively builds up. With CO a dielectrically constant electrical insulator is referred to, the z. B. off a ceramic material, as is necessary for the electrical insulation between C2 and C3 is. The embodiment of FIG. 4 can be thought of as if instead of the inserted insulator CO a required air spacer would be provided at this point.

The volume of the external insulation melt in the case of a known voltage multiplier rectifier device according to FIG. B. 51.5 cm ¹ . In contrast, a device according to the invention according to FIG. 4 only 15.4 cm ^J.

According to the present invention, there is none of the capacitors placed one on top of the other Air gap necessary for an electrical connecting wire, as in the known embodiment according to Fig. 2 is required. No special connection wires are required between the capacitors and according to a further feature of the invention, the connecting wires are the rectifiers to the Aiischlußplatten connected so that the length of this wire? almost the same as that of the previously known Embodiment is. In this way, the device of the present invention becomes small. Accordingly is also when the device according to the invention is melted or melted with an insulating material. is surrounded or receives an Isolation housing, one achieved a lower amount of resin and a very small housing. There is a similar corresponding effect when the device is installed or melted down in an evacuated housing.

According to a feature of the invention, no connecting wires for the capacitors are provided, see above that there are no connection points at which to solder. This reduces difficulties or avoided and an automated production of a device according to the invention is außcrordent-

just borrowed. As the temperature control during the high temperature treatment as well can be carried out in a simple manner, the capacitor element can be prevented from cracking. the Yield is greatly improved and the invention is suitable for mass production.

For this purpose 2 sheets of drawings

Claims (6)

Claims; 1. Voltage multiplier rectifier device in cascade connection for generating the high voltage for cathode ray tubes, especially in television receivers, with first and second disc-shaped ceramic capacitors, each connected in series, each forming a column-like capacitor block, the electrode assignments of adjacent capacitors being electrically connected to one another and to rectifiers and the Rectifier capacitors of the first and the second series connection to one another, and in which connecting plates are inserted between the capacitors of the two blocks for connecting the rectifier, characterized in that the two capacitor blocks (A, B) in an axis one above the other leaving an electrically insulating Distance (D) are arranged and the Anschiuöpiatten (7) and the ceramic body of the capacitors have substantially the same linear expansion coefficient, and that each connection plate (7) at diametrically ge Opposite points in the plane of the plate each have a projection (9) or d ^ 'l. for connecting a connecting wire. 2. Apparatus according to claim I, characterized in that the distance (D) is an electrically insulating spacer which -st aligned with the ceramic bodies (C) of the capacitors in one axis. 3. Device according to claim 1, characterized in that that the connection? 'old (7) are made of metal. 4. Apparatus according to claim I, characterized in that that the connection plate (7) made of ceramic with an electrically conductive surface layer exist. 5. Apparatus according to claim I with capacitors having circular ceramic bodies, characterized in that the disc-shaped part (8) of the likewise circular connecting plates (7) is about 10% larger in diameter than the ceramic body (C) . 6. Apparatus according to claim 1 and 4, characterized in that the connection plates made of ceramic (7) and the ceramic body (C) of the capacitors have a linear expansion coefficient in the range of 6 to 15 χ 10 VC.