DE1909282A1 - Glass housing for sealed tantalum capacitor - Google Patents

Abstract

The capacitor, consisting of sintered tantalum, a dielectric tantalum oxide, a semiconductor layer and a graphite or silver contacting layer, is housed in a glass sheel which is fused to connecting wires. The inside can be filled with a gas to improve the performance of the capacitor.

Description

An air-tight and moisture-tight electrical built into a housing Capacitor.

The present invention relates to an in a housing air- and moisture-proof built-in electrical condenser, consisting of a Sintered body made of valve metal, initially with a dielectric on the surface effective layer of a suitable oxide of the valve metal is provided, the with a semiconductor layer and a contacting layer located above it, such as graphite and possibly silver, is coated, the semiconductor being made of there is a connection which, if the underlying valve metal oxide layer is damaged this regenerates by releasing oxygen and thereby itself in a connection passes with isolator properties.

In such known capacitors, which mainly consist of Tantalum, a tantalum pentoxide layer and a pyrolytically deposited semiconductor layer as well as a graphite and silver layer, it is known to have this capacitor body to encapsulate with plastic or to cast in a plastic housing or this to dip in plastic. For special increased moisture and airtight closures these plastic casings are not usable. It is therefore already known insert the capacitor body in a metal housing and one pole with the To connect housing, while the other Eol led out through a glass bushing is. Such capacitors are vacuum- and moisture-tight and correspond the MIL borders.

For a whole range of applications, a moisture-proof and airtight design, as achieved with the metal cup, is required, however, the ketal cup itself is not required. On the other hand, one is sufficient Wrapping with the known plastic arrangements is not.

The present invention is therefore intended to solve the problem to find a way that allows air and moisture tightness in a simple manner To create a casing for this capacitor body that meets the high demands will. The aim here is to use simple wrapping as possible Funds and to be able to carry out in a cheap way.

According to the invention, this task is achieved in that the housing consists of glass, which is in the area of the connection elements of the capacitor with these is tightly connected by a melting process. This makes a wall-free airtight and moisture-tight sealing of the connecting wires and thus of the whole Capacitor reached.

It is already known for diodes to melt them in small glass tubes. In the case of tantalum capacitors of the type described above, however, this has not yet been suggested north, although there is a great need for such capacitors in the prescribed Moisture and air tightness is required. Glass such high demands therefore had to use the very expensive versions with metal beakers and glass ducts Find use. However, it has now been found.

that with the glass envelope as with diodes also with the ones described above Capacitors a sufficient seal on the.

Connecting wires is achieved (which also meets higher requirements.

Further advantageous details of the invention are given below described with reference to an embodiment illustrated in the drawing.

1 with a capacitor body is referred to, for example from a sintered framework made of tantalum, niobium, aluminum or zirconium or an alloy There are two or more of the same. The hatched part on the left is one in the immersion process Applied silver layer 2 and the hatched part remaining on the right shows the underlying graphite layer or the semiconductor layer 3.

The capacitor body 1 is with a in the capacitor body at Manufacture with pressed-in connecting wire 4 and one on the silver layer 2 soldered connection wire @ provided.

According to the invention, the capacitor body 1 is made in a housing 6 Glass melted down. Preferably in the area of the connections 4 and 5 by a Pressing process, the glass is pressed against the connections 50 while melting, that a intimate connection of the same with the glass is created. In itself this can be known a section of a glass tube can be used for the glass housing. Appropriate the glass consists of such a composition that at the connection points between these and the connecting wires 4 and 5, no voltages or no voltages that are too high can occur due to temperature changes.

A gas can advantageously be provided in the interior of the housing 6 be that can exert a beneficial effect on the capacitor body.

Claims (3)

Patent claims: t Electrical built-in airtight and moisture-tight in a housing Capacitor, consisting of a sintered body made of valve metal, on its surface first of all a layer made of a suitable oxide of the valve metal that acts as a dielectric is provided, which is provided with a semiconductor layer and a contacting layer located above it, such as graphite and optionally silver is coated, the semiconductor from a The connection exists if the valve metal oxide layer underneath is damaged this regenerates with the release of oxygen and thereby itself in a connection passes with isolator properties, characterized in that the housing from There is glass that is in the area of the connecting elements of the capacitor with these is tightly connected by a melting process. 2. Capacitor according to AnsFruch 1, characterized in that the Glass pressed on in the area of the connecting wires (4, 5) in the soft state of the glass is. 3. Konesaor according to claim 1 or 2, characterized in that the Inside is filled with a gas atmosphere, which has a beneficial influence on the Capacitor can exercise.