SU556510A1 - Electrolytic capacitor anode - Google Patents

Description

one

The invention relates to electronic technology and can be used to produce electrolytic and oxide-semiconductor capacitors with stable electrolytic characteristics at higher frequencies.

Known anode electrolytic capacitor, equipped with a output, one end of which is placed in the body of the anode 1.

However, it is technically impossible to obtain, using the methods of pressing or rolling, very thin and large-sized special anodes with sufficient mechanical strength. With an increase in the capacitance of capacitors on the axis of flat anodes, their thickness increases and, as a result, the frequency stability of the characteristics deteriorates. In this case, a set of thin tablets is used to obtain large capacities and to preserve the frequency stability of the characteristics, but this solution complicates the design of the capacitor and reduces its specific charge.

The purpose of the invention is to increase the stability of the frequency characteristics of the capacitor.

This is achieved by the fact that in the anode of an electrolytic capacitor, equipped with an output, a part of the output of a disperser;

made flush with the body surface of the anode.

The flat sintered anode of an NC trap powder is used to make a capacitor according to the existing technology. Its dimensions are 5X5X1.6 mm, weight 320 mg. On the axis of such an anode, a nanoliuclear oxide capacitor is manufactured for a working voltage of 30 V and a capacity of 10 µF at a frequency of 50 Hz. At f 20 kHz capacitance drop

  -25%, tg6 60%, / 0.7 ohms, with /

ABOUT

 50KGTs - -45%, / 0.4 ohm.

ABOUT

In the drawing, the image of the electrolytic capacitor.

Example. The iodine is made of two tablets 1 with dimensions 5X5X0.8 mm, between which there is a metal tantalum

plate 2 is only 0.05 mm thick. A capacitor made of such an anode has the following characteristics: at / 50 Hz C

 10 microfarads,, 5%; with f 20 -8%; tgS 35%, / 0.3 ohm; with f

 -eight%; tgS 35%, / 0.3 ohm;

 50 KHZ - - 12%, tgfi 60%, R 0.2 ohm.

ABOUT

Due to the introduction of a metal plate inside the anode, which plays the role of a positive terminal, the distance between any point of the anode and its surface decreased and, accordingly, the capacitor resistance decreased by two times.

As a result, a capacitor made on the basis of the proposed design has a lower dielectric loss tangent at a high frequency and a smaller capacitance drop or, equivalently, to obtain the required capacitance in a given operating frequency range, the powder consumption for anode manufacturing can be reduced by the proposed design by 20% at / 20 KHz and by -35% at / 50 kHz.

A similar effect can be obtained on the anodes of another (not flat) form, in particular cylindrical.

Application of the proposed anode design allows to increase the specific charge of capacitors at high frequencies, i.e., reduce the consumption of tantalum powder, niobium for the manufacture of anodes without deteriorating their electrical parameters, simplify the design of capacitors with increased capacity, reduce the size, weight and cost of the product.

In addition, the joint use of this invention and a method based on the deposition of particles under the action of a field allows us to develop capacitors, the impedance of which at high frequencies is 5-7 times:

DS, Mr.P

less, and the drop in capacity -, 5-2 times

L

less than the analogous characteristics of tantalum capacitors present in production.

Claims (1)

1. US patent No. 3.686.535, cl. 3lt-230 ,. 1969.