DE1110312B - Electrode for an electrolytic capacitor - Google Patents

Description

Electrode for an electrolytic capacitor The invention relates to a Electrode made of valve metal wire, in particular tantalum wire, for an electrolytic capacitor.

It is known to helically shape these wire electrodes over a mandrel to wind up. This mandrel takes the electrical power while the wire is being wound Supply line to the wire helix in a bore. The diameter of the mandrel and therefore the diameter of the wire helix cannot be arbitrary because of this hole can be kept small. It is also known to have several coils on different thorns Winding diameter and concentric by arranging the helix of smaller diameter to produce a capacitor electrode within the larger diameter filament.

Furthermore, electrolytic capacitors have also become known, in which at least one electrode is wound by winding a wire made of valve metal was made in several layers on a tubular core, this as The core serving for the winding mandrel remains in the capacitor.

The invention is based on the object of providing an electrode made of valve metal wire for an electrolytic capacitor to indicate the particularly small linear dimensions and in particular in cylindrical electrolytic capacitors with outside diameters less than 3 mm is to be installed. The previously known helical electrodes are unsuitable for this because, on the one hand, they cannot be produced in such small dimensions and on the other hand, even if the dimensions are not yet so small, an insufficient one have mechanical strength.

This object is posed in the case of the valve metal wire according to the invention existing electrode solved in that part of the wire is elongated and a part of the wire adjoining the elongated part as a helix is wound around the elongated part as a winding mandrel. The elongated part of the wire thus takes on the role of the winding mandrel and also serves as a Electrode part.

Details of an advantageous development of the invention result from the description of exemplary embodiments on the basis of FIGS. 1 and 2.

1 shows an electrode made of valve metal wire according to the invention again, in which the wire is wound in a single layer; Fig. 2 gives a corresponding one Electrode again in which the wire is wound in two layers.

The same reference symbols in the figures denote similar components. Part 1 of the wire that makes up the electrode is elongated, and a to this elongated part l adjoining part 2 is as a helix around the Elongated part 1 is wound, namely in one layer in FIG. 1 and in FIG. 2 in two layers. In both cases, that is around the elongated part 1 of the wire wrapped part 2 wrapped around the elongated part 1 to its end.

An electrode lead 4 is connected to the free end 3 of the elongated part of the wire. This electrode lead 4 consists approximately of a solderable non-valve metal, e.g. B. nickel, and is welded to the end 3 of the valve metal wire.

The coil of valve metal wire according to Fig.1 or 2 is under one wound such tension that when this tension is released, the surfaces Do not touch neighboring parts in the helix. This achieves that the entire surface of the wire coil is accessible to the electrolyte.

The electrode according to the invention can be used to create electrolytic capacitors Manufactured in cylindrical cups with an outside diameter of 1.5 mm.

It resulted from the favorable winding shape and when using Tantalum wire has an operating space charge density of 480 #t Coul./cms. This density lies by a factor of 3 above the operating space charge density of the tantalum electrolytic capacitors with the known electrodes mentioned at the beginning.

Claims (4)

PATENT CLAIMS: 1. Electrode made of valve metal wire, in particular made of tantalum wire, for an electrolytic capacitor, characterized in that a Part of the wire is elongated and attached to the elongated Part (1) adjoining part (2) of the wire as a helix around the elongated part is wound as a winding mandrel. 2. Capacitor according to claim 1, characterized in that that the coil (2) consists of several layers (Fig. 2). 3. Capacitor according to claim 1 and 2, characterized in that at the free end of the elongated part (1) of the wire an electrode lead (4) is connected. 4. Capacitor after Claim 1 to 3, characterized in that the surfaces of adjacent wire parts in the coil from each other and across from the elongated wire part touch. References considered: British Patent Specification No. 382 886, 384 559; U.S. Patents Nos. 2,042,044, 2,066,912, 2,299,228, 2,461,410, 2 504178.