DE966944C - Process for the aftertreatment of electrode systems with asymmetrical conductivity, in particular dry rectifiers - Google Patents

Description

(WiGBl. P. 17S)

ISSUED SEPTEMBER 19, 1957

A 10975 VIII c 121g

has been named as the inventor

(Ges. Of July 15, 1951)

All electrode systems with asymmetrical conductivity, especially dry rectifiers, require after their purely chemical-technological production of an electrical one. Aftercare, which on the one hand their artificial aging, on the other hand the elimination of internal short circuits, which are either already present or due to electrical breakdown. the weakest points the barrier layer emerge anew during operation, thereby causing the current caused by the passage of current Heat burns out these short-circuit points. Use the previously known methods in addition either direct or alternating current with or without limiting resistance, however, have considerable Defects on.

When loaded with direct current without limiting resistor there is a risk that in the event of a serious short circuit the developed Heat becomes so great that the burn-out of this point takes place so violently that the counter-electrode ' melts in another area and the melt goes deep into the semiconductor below penetrates, whereby the short circuit only becomes more violent and the rectifier element finally spoils. With selenium rectifiers, externally visible craters develop on the counter electrode with slightly raised edges of molten metal.

When loading direct or alternating current through limiting resistors, there is a risk of

709 682/79

against in the fact that in dry rectifier plates with more serious internal short circuits on them If a current strength sufficient to burn out the short circuits cannot arise, so that such ■ dry rectifier plates as finally subject to short-circuit after the test in the Hike committee.

If, however, alternating current is used without a limiting resistor used, it is because of the tearing off of the resulting at the short-circuit points Arc damage the dry rectifier plate during each half cycle Combustion avoided, but in the half cycle of the flow direction of the dry rectifier plate there is such a strong current that its heat development causes the counter electrode to wholly or partially melts and thereby the dry rectifier plate is finally spoiled. Kick it In this case, externally visible bubbles on the counter electrode often appear on selenium rectifiers.

The invention relates to a method for Post-treatment of electrode systems with asymmetrical conductivity, especially dry rectifiers, in which the electrode systems are loaded with an alternating voltage, their largest instantaneous values in the barrier are significantly larger than in their flow direction, with according to the invention, an expediently controllable direct voltage in series with the alternating voltage is switched in such a way that the stress time in the reverse direction is substantially the same as in Direction of the river predominates. Alternating voltages can be used to carry out the method according to the invention use with a curve shape deviating from the sinusoidal shape, whereby in series with the alternating voltage an expediently controllable one DC voltage is switched to, for example, the duration of the positive and negative Define instantaneous values. Such from. alternating voltages deviating from the sinusoidal shape for example by means of a DC-biased transformer from a sinusoidal shape produce. With the method according to the invention it is achieved that the current and thus the The heat developed in the direction of the flow remains within moderate limits, while in the direction of the flow one so high a voltage is applied that any junction defects cause electrical breakdown and thus the resulting or already existing short-circuit caused by the heat burned out. The arc can be destructive as described above for direct current Consequences here because of the extinguishing of the arc at the end of each half cycle in the Do not have blocking direction. Destruction due to melting of the counter electrode, as it would when in use of alternating current without a limiting resistor is also avoided because in Direction of flow the instantaneous values of the alternating voltage are chosen so small that they are below the size occurring during actual operation in the flow direction. One use of Limiting resistors - nothing stands in the way of the circuit; however, this is not necessary since the instantaneous values can be chosen so that the desired currents in both Directions emerge.

The method according to the invention has in the first place Line meaning for dry rectifiers, but is also used for junction photocells or resistance cells applicable. It can also be connected to several one behind the other or in parallel at the same time Electrode systems are applied.

Claims (2)

Patent claims: 1. A method for the aftertreatment of electrode systems of asymmetrical conductivity, in particular dry rectifiers, in which the electrode systems are loaded with an alternating voltage, the largest instantaneous values in the reverse direction are much greater than in their flow direction, characterized in that in series with the alternating voltage an expediently controllable DC voltage ^S 5 is switched in such a way that the stress time in the reverse direction-substantially outweighs that in the flow direction. 2. Simultaneous application of the method according to claim 1 with several in a row or electrode systems connected in parallel. Considered publications: German Patent Specifications No. 527 790, 600157. © 709 682/79 9.57