DE1004741B - Electrolytic capacitor - Google Patents

Description

Electrolytic Capacitor Electrolytic capacitors are around two powers of ten smaller than paper capacitors and accordingly cheaper. -But they have the major disadvantage that they are only used for direct voltage and not for Continuous alternating voltage operation are suitable, so that the major advantages of the minor Dimensions of electrolytic capacitors not used in AC technology -could become. This major disadvantage is due to an inequality of the electrical Properties in the different polarity directions of the capacitor. When applied DC voltage. is the magnitude of the currents flowing through the capacitor, as the case may be whether the formed foil is polarized positively or negatively, very different. With positive - polarity of the formed film (reverse direction) flows a small current, the residual current, while with negative polarity (pass-through direction) a considerably larger current flows, which is essentially due to the internal resistance of the formed layer in the forward direction is limited. On the other hand, there is the electrical resistance of the impregnating electrolyte of minor importance. When AC voltage is applied, this causes electrical Resistance in the forward direction of the formed layer, the heating, the loss angle of the capacitor. A few percent of the current flows through the internal resistance the. Layer, while most of the current flows over the impregnating electrolyte, as if the layer were a good dielectric.

The object of the present invention is to remedy this inequality decrease in the different current directions, so that the electrical resistance increased in the conduction direction of the capacitor and the loss angle increased accordingly becomes lower, which increases the quality of the capacitor. This is what makes this job solved that according to the invention in the electrode barrier layer different types of dielectric Substances are stored. It is therefore a mixed dielectric that is used for Partly from a formed layer with valve effect and partly from such dielectric There are substances whose resistance is greater than that of the barrier layer in the forward direction. The different types of dielectric materials can be removed by changing from vapor-deposited Silicon in silicon dioxide or through precipitation of silicic acid or polysilicic acid from a water glass film or another organic silicon compound (silicon) be made with-the aluminum oxide The quality of an electrolytic capacitor, which can be increased significantly by the prescribed measures, but will also through its operational reliability, d. H. its sensitivity to Discharges determined so that it is within the meaning of the invention, also other, for To apply some known measures aimed in this direction. One already has proposed an automatic burnout of short circuits by using thinner Catholic occupancies. Despite this suggestion, the thin self-healing assignment not generally introduced, and the electrolytic capacitor continued to be responsible for a significant portion of all broadcast repairs. So there are still other conditions for an operationally reliable electrolytic capacitor necessary.

The electrolytic capacitors, which are removed from radio equipment often show a short circuit or they have no capacitance. If the residual current is too high, especially after a long period of storage, they heat up, which in turn - the residual current increases, gases are formed until the condenser breaks down and is short-circuited. So that the device is not destroyed by an explosion can be done, these capacitors have a valve. By inadequate Potting or even through the valve, moisture gradually penetrates into the condenser on, the boric acid ester is decomposed, with high-voltage capacitors the spark voltage is until the capacitor breaks down again or gradually dries out and loses capacity.

For this reason, it is necessary for excess currents to occur to be avoided under all circumstances, even with longer storage times. This can be done by can be achieved that the formed film is already in the aqueous forming bath small - has residual current. In addition, the properties of the impregnating electrolyte play a role an essential role. He = may - the forming layer. do not attack, do not loosen, under certain circumstances it should therefore be solid or at least highly viscous, with low ion mobility show, but on the other hand reform well, so the imperfections in the layer are good heal. There are electrolytic capacitors with a small residual current, but these often show greater aging, i.e. H. Residual current increase over time, or they have very different residual currents from one another, especially after the Storage or they get a short circuit when they break down with overvoltage. The acceptance conditions in the DIN regulations reflect these facts Calculation that one allows a high residual current of 0.5 [.A per #tF per volt at 20 ° C, which in turn only has to be complied with for a quarter of a year.

The residual flow increases are often due to the fact that the formed layer, especially at higher forming stresses, partly colloidal goes into solution.

All these disadvantages mentioned are in the case of the electrolytic capacitor, which is produced by the process according to the invention is eliminated in that the occupancy is formed in several voltage levels and each voltage level in two baths are run, between which the foil is heated by a heating device is dried that the well esterified impregnating electrolyte of high viscosity continues is completely saturated with ammonia, preferably contains a maximum of ammonia and finally the cathode consists of a thin, for example 5 #t thick metal layer consists.

In the context of the invention, it is here, possibly also the formed occupancy, a sprayed or vapor-deposited onto a surface Form metal layer.

Other metals and metal oxides can also be used as covering and barrier layer used as aluminum and aluminum oxide, which are also beneficial a pad has been sprayed on or vaporized. For example, are suitable as Output also silicon and silicon dioxide.

Before or during the impregnation of the capacitor winding are appropriate Moisture and gases are removed, after soaking the wrap is covered with a protective layer provided against penetrating moisture.

To prevent the impregnating electrolyte from escaping from the roll, if you provide it with a cover on the outside that contains a substance escaping electrolyte reacts with precipitation, e.g. B. water glass with excretion of silica.

The electrolytic capacitor produced by the method has a small residual current of about 10-8 amps per #tF and per volt. You can see it at Breakdown overvoltage with a barely perceptible noise without causing a short circuit occurs and without the residual current at the operating voltage being significant afterwards is increased. Especially when forming the film in three stages to 700 volts the formed layer is so stable that it will not be injured after a breakdown shows and therefore also has no increased residual current. When penetrating is burned a hole in each of the thin cathode. As in the devices of the low-voltage technology Usually only anode currents of up to 100 mA occur, this is the load on the capacitors not great when punching through. But it could also be determined that this Capacitors at high currents through their capacitors connected in parallel Operability not lost. Due to the complete formation of the crystalline The residual current is also not time-dependent, so that the The risk of a large residual current after storage is excluded.

The loss angle could be reduced by using a soaking electrolyte excess ammonia can be reduced to 1.4%, while previously around 2% as The minimum was valid. This is for the application of the capacitor for low continuous alternating voltage significant.

Claims (7)

PATENT CLAIMS: 1. Electrolytic capacitor of high quality, especially for continuous alternating voltage operation, characterized in that the resistance of the electrode barrier layer is increased in the forward direction by embedded dielectric substances of different types. 2. Electrolytic capacitor according to claim 1, characterized characterized in that the stored other types of substances consist of silicon dioxide. 3. Electrolytic capacitor according to claim 1 or 2, characterized in that that the cathodic power supply to the electrolyte is made of self-healing thin, for example 5 I, thick metal layers. 4. Electrolytic capacitor according to claim 1, 2 or 3, characterized in that also those with a barrier layer provided coverings made of thin, for example applied to a base, z. B. sprayed or vapor-deposited layers exist. 5. Electrolytic Capacitor according to Claims 1 to 4, characterized in that the well esterified The electrolyte is highly viscous and at least completely saturated with ammonia. 6th Method for producing a capacitor according to Claims 1 to 5, characterized in that that the barrier layer in several voltage levels down to the smallest forming current values is generated, each voltage level having two baths, between which the Electrode is dried by a heating device, that then the mixed dielectric is formed, for example, by evaporating silicon onto the barrier layer and is then converted into silicon dioxide, and that such electrodes too a capacitor body can be processed for which an impregnating electrolyte is used which is well esterified and highly viscous and at least completely saturated with ammonia is. 7. Electrolytic capacitor according to claim 6, characterized in that the finished capacitor body is provided with a cover that contains a substance contains, which reacts with the escaping electrolyte with precipitation, such as. B. Water glass with excretion of silica. Considered publications: U.S. Patent Nos. 2,019,994, 2,214,878, 2,299,228, 2,446,524.