DE1635286U - CERAMIC TUBE CAPACITOR. - Google Patents

Description

Ceramic tube capacitor.

The development of VHF technology and generally high-frequency technology requires capacitors with a very low inductance, since even low inductances are perceived as disturbing at high frequencies. In the case of wound and electrolytic capacitors, this self-inductance is a result of the winding-like arrangement of the metal covers. This disturbing inductance is known to be reduced to a minimum. Reduced that, for example, in the case of wound capacitors, the metal documents are led out over the end faces of the reel and provided with end contacts. In the case of low-inductance electrolytic capacitors, on the other hand, it is common Anode foils at several equidistant points with contact Connect them and connect them to a common supply line Those with very high frequencies lead ogen theirs partly very good frequency-independent loss factor, preferably use ten ceramic level capacitorsep in particular ceramic tubular capacitors, however, have the disadvantage of the self-inductance mentioned at the beginning.

The invention relates to a low-inductance ceramic tubular capacitor. Its self-inductance is reduced to a minimum by the fact that the current connection elements the assignments are arranged in the vicinity of only one end face of the capacitor body are.

The equivalent circuit diagram of a tube capacitor is a four-pole chain with inductive longitudinal and capacitive cross links. Lie the st% 'omaneohluSelemente on different front sides, so are all of the series inductances' .. sam the capacitor possesses thus a relatively low resonance frequency and acts as a result as a purely inductive switching element when the operating frequency exceeds the resonance frequency. It is now easy to understand that the series inductances are largely ineffective in the capacitor according to the invention. The resonance frequency is thereby shifted into the area of very high frequency, while at the usual operating frequencies in the high and low frequencies Bõchet frequency technique the inductive Wideratanda component practical no role yet. The invention is for example to Pig. l explained in more detail in the drawing: 1 with the tubular ceramic body is referred to. 2 and 3 represent the electrode coatings, for example by brushing on. Spraying or dipping into a suspension of the covering material can be applied. With 4 and 5, the connection elements are referred to, which are attached to one end face of the capacitor in a manner known in calibration, for example by soldering.

Another exemplary embodiment of the invention is shown in FIG shown in the drawing. The Netall vouchers 2 and 3 can, for example, in one single immersion process are initially applied coherently. At 6 the Metal covering then sanded away. The grinding process can be done here can easily be carried out at the same time as the capacity leveling.

The connection elements 4 and 5 are arranged in the vicinity of an end face of the capacitor on the outer cylindrical surface of the capacitor. Another advantage of this arrangement is the reduction of the inevitable lead inductance to a minimum. Claims. 10 Ceramic tube capacitor with low intrinsic inductance and lead inductance, characterized in that the current . connecting elements of the assignments in the vicinity of only one end face of the capacitor body are arranged.

Claims (1)

2. Ceramic tube capacitor according to claim 1, characterized in that the current connection element of the inner electrode coating on the inner cylindrical surface of the capacitor and the Power connection element of the SuSerea sheet metal coverings aa the exterior Cylindrical surface of the capacitor is arranged. (Fig. L). '. ! 3. Ceramic Rohrchenkondeneator according to claim l, characterized in that it indicates that the power connection leaento both for the Ianen- lining as well as for the outer lining are arranged on the outer cylindrical surface of the capacitor. (Fig. 2).