DE613731C - Electric capacitor with solid, pre-formed dielectric - Google Patents

Description

Electrical capacitor with solid, pre-formed dielectric Bei the manufacture of electrical capacitors with solid dielectric, for example With plate, roll and film capacitors, you are looking for a dielectric of as much as possible to use a small layer thickness so as not to reduce the dimensions of the capacitors to grow big. But they are also materials with very good dielectric properties Properties are known which cannot be produced in any desired thin layers. .Capacitors equipped with them for larger capacitance values are then obtained too large dimensions.

Capacitors have also been made to avoid them those disadvantages in a multi-hole body with holes that do not go through the whole Body go through, strip-shaped electrodes are embedded. Multi-hole body however, these types are difficult to manufacture and those that cement the electrodes firmly Mass may decrease. the electrical properties of the capacitor. In addition, the interconnection of the electrodes requires cumbersome wiring, if electrodes ending at different end faces of the multi-hole body with one another should be connected to assignments.

According to the invention all these disadvantages are avoided in that the dielectric of a capacitor with solid, pre-formed dielectric the shape has a multi-hole body, which penetrates its entire length by holes whose inner surfaces are covered with conductive material in groups with or without In addition, in this case also coated with a conductive layer Outer surface are connected as capacitor assignments. Such capacitors are with considerable capacity to manufacture in very small dimensions and quite handy to use because the ends of the holes are open on both ends in the simplest way the interconnection of the conductive layers to form assignments allow. Various modifications are conceivable within this design, in particular in the type of group interconnection of the individual assignments as well as the Formation of the multi-hole body in cross section and external shape. The fabrication Such capacitors is also simpler than having about several with conductive ones Layered tubes would interconnect to form larger capacitors.

The multi-hole body can be made of any insulating material. The result is a capacitor that has grown under severe thermal stresses, when using an inorganic breakdown-proof dielectric. In this Particular considerations are certain ceramic masses for the manufacture of the capacitor according to the invention ton meaning because from them in the simplest Way also complicated multi-hole bodies can be produced. Also made of quartz or quartz glass, multi-hole bodies can be manufactured using the methods of these industries will. The good mechanical strength of those made from ceramic masses Multi-hole body provides a guarantee that the capacitor will not break. she is particularly large when using magnesium silicate compounds, for example steatite compounds, because these are: among ceramic bodies due to their good mechanical properties distinguish. Since ceramic alkali-free masses are generally particularly small show dielectric loss, they are excellent for the present application suitable. Alkali-free magnesium silicates therefore have a large mechanical Strength also has a particularly small loss angle, so that with this material excellent capacitors, especially for high frequency purposes, are produced can.

Depending on the requirements that are placed on the capacitor, one will also make its executive assignments. If you want to make them out of metal they can be used, for example, using the Schoop spray method or on the Create ways of chemical precipitation. In other cases one becomes conductive carbon layers, Prefer oxide layers or other conductive layers.

The figure shows a schematic example of an embodiment reproduced the capacitor according to the invention.

In Fig. I is a longitudinal section through a cylindrical multi-hole body i shown. The lateral surfaces of its holes and its outer surface are with the conductive layers 2 coated. 3 and 4 are contacts for the power supply lines 6 and 7.

In Fig.2, a cross-section through the multi-hole cylinder is corresponding Fig.i placed. i is the multi-hole body itself, while 5 are the holes.

Claims (7)

PATENT CLAIMS: i. Electric capacitor. with, solid, preformed dielectric, characterized in that its dielectric has the shape of a multi-hole body, which is penetrated along its entire length by bores, the inner surfaces of which are covered with conductive material in groups with or without the inclusion of a conductive material in this case covered outer surface of the multi-hole body are connected as capacitor assignments. 2. Electrical capacitor according to claim i, characterized in that the dielectric consists of a plastically malleable mass is made. 3. Electrical capacitor according to claim i and 2, characterized in that that the dielectric consists of an inorganic mass. 4. Electrical capacitor according to claims i to 3, characterized in that the dielectric is made of a ceramic Substance is made. 5. Electrical capacitor according to claim i to 4, characterized in that that a dielectric rich in magnesium silicate mass, steatite z. B. used will. 6. Electrical capacitor according to claim i to 4, characterized in that that an alkali-free material is used as the dielectric. 7. Electrical capacitor according to claims 1 to 6, characterized in that the dielectric is an alkali-free Magnesium silicate is used. B. Electrical capacitor according to claim i to 7, characterized in that the conductive capacitor coatings are made of metal. G. Electrical capacitor according to Claims i to 7, characterized in that the conductive capacitor coatings are made of carbon.