DE1090305B - Protection circuit for silicon rectifier - Google Patents

Description

GERMAN

The invention relates to a protective circuit for silicon rectifiers in power supply parts with subsequent sieve chain.

Silicon rectifiers have a very small volume and a very small internal resistance. That's why it is desirable to use this type of rectifier instead of the common selenium rectifier. A The disadvantage of silicon rectifiers is that they are extremely sensitive to overvoltages and currents are. Even a brief overload can destroy the rectifier path.

In the rectifier circuits of power supply parts, e.g. B. communications engineering, follows Rectifier directly a charging capacitor. This circuit can be used with the least amount of effort achieve a very small ripple of the rectified voltage. However, it is used in place of the usual Rectifiers with a relatively high internal resistance can use a silicon rectifier this can be destroyed by the charging surge of the subsequent capacitor. It is therefore known to connect a resistor between the rectifier and the charging capacitor, which reduces the current to the permissible Limited value. The advantage of the low internal resistance of a silicon rectifier leaves then no longer exploit each other, and the efficiency of the rectifier is no better than that of others Rectifier types. It is also known to use a throttle input circuit for the sifting. In this way, an overcurrent can be avoided during switch-on. At the moment of switching off occurs but a high induction voltage in the choke, which can destroy the silicon rectifier.

The invention has for its object to provide a circuit for power supply parts, in which the advantages of the silicon rectifier can be fully exploited.

The invention is characterized in that in series with the charging capacitor at the entrance of the filter chain Resistance is switched by a contact of a relay, which is parallel to the filter capacitor on Output of the sieve chain is short-circuited as soon as the output terminals for the tightening of the Relay required voltage is reached.

The mode of operation of the protective circuit according to the invention is illustrated below with reference to the drawing explained in more detail.

The alternating voltage taken from the transformer 1 reaches the rectifier bridge 2, which is equipped with silicon rectifiers. The rectified ripple voltage is fed to a filter circuit, which consists of the charging capacitor 3, the filter choke 5 and the filter capacitor 4. In series with the charging capacitor 3 is a resistor

Protection circuit for silicon rectifier

Applicant:

Standard electrical system Lorenz

Corporation,

Stuttgart-Zuffenhausen,

Hellmuth-Hirth-Str. 42

Rudi oven, Pforzheim,
has been named as the inventor

switched, which prevents an excessive increase in the charging current. As soon as the voltage on the filter capacitor 4 has risen so far that the relay 7 can attract, the contact 8 of this relay is closed. After the resistor 6 is bridged by the contact 8, the power supply part works in known way as when using other types of rectifiers.

But there is the advantage that the efficiency of the arrangement as a result of the very low internal resistance the silicon rectifier is much better. Is the alternating voltage at the input of the arrangement switched off, then the contact 8 remains closed until the voltage on the capacitor 4 so has dropped far so that the relay 7 can drop out. The discharge current still flowing in the sieve chain is then so small that an induction shock of the filter choke 5, which is dangerous for the silicon rectifier, does not occur, when contact 8 is open.

With a suitable dimensioning of the pull-in and drop-out voltage of the relay 7, it can also be prevented that the rectifier will be damaged if the AC voltage is switched on again before the con-

capacitors 3 and 4 are completely discharged. The size of the resistor 6 is by measurement and Easy to determine invoice. It should be assumed that the current through the rectifier when the capacitor 3 is short-circuited is the permissible value does not exceed.

If there are several rectifier circuits in a power supply unit, they become one or more Transformers, a relay with several contacts, which are parallel to the series resistors, is sufficient.

009 610/184

levels of the individual charging capacitors. The resilience of the contacts does not need to be high, because the currents for recharging the capacitors are low.

Compared with the gain in volume, operational reliability as a result of the low level of heating and efficiency, the additional expense for the relay 7, which can be a simple clapper armature relay with one or more normally open contacts, is negligible.

The circuit shown in the drawing is only one embodiment of a protection circuit according to FIG the invention. It does not matter what type of rectification is used. Also can Resistor 6 and contact 8 at the connection of the capacitor 3 facing away from the filter throttle be connected.

Claims (2)

Patent claims: 1. Protection circuit for silicon rectifiers in power supply parts with a subsequent chain of filters, characterized in that in series with the charging capacitor at the entrance of the sieve chain Resistance is connected by a contact of a relay, which is parallel to the filter capacitor at the output of the sieve chain is short-circuited as soon as the output terminals for the The required voltage has been reached when the relay pulls in. 2. Protection circuit according to claim 1, characterized in that a relay with several Working contacts to protect several rectifier groups, which one or more transformers can be assigned is used. 1 sheet of drawings