DE2402122A1 - FIXED ELECTROLYTE CAPACITOR - Google Patents

Description

Fixed electric capacitor ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The invention relates to a solid electrolytic capacitor, its anode and cathode leads are made in a known manner from a metal strip.

In solid electrolytic capacitors, the anode is usually made from tantalum powder produced, which is sintered to a cylindrical body in which a tantalum lead is embedded to form the anaden electrode.

The anode body is electrically oxidized to form a dielectric layer to form, and it is then impregnated e.g. with manganese nitrate, which is pyrolytic is converted into manganese dioxide to form a semiconducting layer that passes through Application of a further layer of silver lacquer provided with a cathode electrode will.

A conventional method of making an anode lead is to weld a solderable lead to the tantalum lead while a cathode lead is produced in that with the silver lacquer of the cathode electrode an equally solderable lead welded or connected with conductive silver lacquer will. This method is simple and cheap, but has the disadvantage that the The contact surface between the cathode lead and the cathode electrode is small resulting in a high and possibly unstable series resistance. Attempts to enlarge the contact surface, e.g. by welding on an additional plate to the cathode lead complicate the process and increase the cost.

A cathode lead can also be produced by installation of the electrolytic capacitor in a metal housing with which an electrical contact is made by welding or by applying silver lacquer.

In this case, a solderable lead is welded to the metal housing.

This procedure is neither simple nor cheap and is similar to the previously described methods difficult to carry out by automats.

According to a later developed and disclosed U.S. Patent 3,646,404 The method described is the anode and cathode leads of the electrolytic capacitor made by stamping or etching a detachable metal strip. This method is especially intended for automatic production, but the contact surface between the cathode lead and the cathode electrode is small and therefore has a high series resistance. Furthermore, the stamping or etching of the metal strip must be carried out Can be adjusted to new dimensions when the size of the capacitor is changed becomes, which is a disadvantage for the fabrication.

The invention relates to a dry electrolytic capacitor that of the series resistance between the cathode lead and the cathode electrode is low and the anode and cathode leads formed from a metal strip without adjustment to new dimensions when the size of the capacitor will be changed. The characteristics of the invention emerge from the appended claim nervor, and the invention will now be described in greater detail in connection with of the accompanying drawing, in rigur 1 a perspective view of the Eiektralytkondensators according to the invention in a production phase directly prior to encapsulation, Figure 2 shows a schematic front view and figure 3 shows a side view of the electrolytic capacitor of FIG. 1 after encapsulation FIG. 4 shows a front view and FIG. 5 shows a plan view of the finished Show electrolytic capacitor.

Figure 1 shows a perspective view of the solid electrolytic capacitor according to the invention in a production phase immediately before encapsulation.

A capacitor element 1 has an anode electrode consisting of a Tantalum lead 2 is made, which is sintered in a rectangular anode body Tantalum powder is sintered. The surface of the anode body is known Way elektrolgrtisc-.with a dielectric layer of oxide covered, with a semiconducting layer of manganese dioxide is obtained pyrolytically from manganese nitrate, and over it is a conductive layer of silver lacquer, which is the cathode electrode forms.

One surface of the capacitor element 1 ", that is, a flat surface of the rectangular anode body, and the tantalum lead 2 are with the help of a silver lacquer drop on a plate 3 or by welding to a web 4 of a copper strip 5 attached, which is gradually advanced in the production process, wherein a new capacitor element 1 is attached to the copper strip 5 each time. The plate 3 is laterally displaced by bending, so that the web 4 on the tantalum supply line 2 is in the correct position for welding.

Figures 2 and 3 show a schematic front view and a Side view of the electrolytic capacitor of Figure 1 after encapsulation in a Plastic housing 6. The dashed lines of the copper strip 5 mark the Places where the strip will be punched out to separate the electrolytic capacitors and the leads 7 and 8 to the anode and the cathode of the capacitor element through to produce the plate 3 or the web 4.

It can be seen that a large contact area and thus a smaller one Series resistance between the cathode lead 7 and the cathode electrode because of the fact that the capacitor element 1 and the plate 3 are flat Have contact surfaces. Furthermore, the width and length dimensions of the Capacitor element 1 and thus the size of the capacitance within given limits can be changed without the punching of the copper strip 5 to the new dimensions should be set. A condition to be met in this case is that the Plate 3 has a surface that is at least as large as that opposite lying surface of the capacitor element 1.

Figures 4 and 5 show a front view and a plan view, respectively on a finished electrolytic capacitor, the leads 7 and 8 by punching of the copper strip 5 and the front surface of the plastic case 6 with information about the capacity and the size of the maximum operating voltage is provided. The upper part of the plastic housing 6 has a recess 9 the anode lead to allow easy identification when the electrolytic capacitor is installed.

Claims (1)

Patent claim Fixed electrolytic capacitor, its anode and cathode leads are made in a known manner from a metal strip, characterized in that that the electrolytic capacitor comprises a metallic anode body having a relatively Has large flat surface over which a dielectric layer and above again a cathode layer are arranged in a known manner, and that the cathode leads comprises a part formed from the metal strip and shaped as a plate is, the surface of which is at least as large as the flat surface of the anoo body and which is opposite to the cathode layer. L e e r, s e i t e