DE1167939B - Arrangement for interrupting DC circuits - Google Patents

Description

Arrangement for interrupting DC circuits For interrupting From DC circuits it is known to put a charged capacitor across the switch to unload. The discharge current of the capacitor has the opposite in the switch Direction as the current driven by the DC power source through the switch, so that with a corresponding size of the discharge current, the resulting current in the switch has a zero crossing. The connection must be made so that the contacts of the switch at least in the zero crossing of the resulting current have reached the extinguishing distance, so that an interruption of the circuit by the switch can take place.

After the interruption, the current flowing through the switch flows now through the capacitor. As a result of the inevitable inductance of the circuit a vibration is created. If the inductance of the circuit, e.g. B. for long Transmission lines, being very large, the capacitor needs considerable energy save. One must therefore use a capacitor that is much larger as a capacitor that is only rated for supplying the current through the switch is. The ohmic resistance, which is generally in series with the capacitor one cannot be sufficiently large to effectively dampen the oscillation that occurs make because the discharge current of the capacitor is greater than the instantaneous value of the current to be interrupted must be.

According to the invention is at least in the time when the switch has deleted, the series connection of an ohmic resistor in parallel with the capacitor and another capacitor. This dampens the oscillation circuit significantly increased, since the frequency of the oscillation circuit is reduced and Ohmic resistance is increased. Although two capacitors are used, it is the product of capacitance and half the square of the voltage for both capacitors, as a calculation shows, smaller than the same product for a capacitor, which is used alone. One also achieves the advantage that the circuit thus formed can be interrupted by a simple switch because at the end of the oscillation or the aperiodic process the current is zero.

The mentioned series connection can also be parallel to the first mentioned Capacitor and an ohmic resistor lying in series with it.

Two exemplary embodiments of the invention are shown in the drawing. In the embodiment of FIG. 1 , 1 denotes the direct current source, for example a high-voltage rectifier. The inevitable inductance in the DC circuit, e.g. B. that of a transmission line, bears the reference number 2. With 3 , the switch is referred to. In a known manner, a charged capacitor 4 is connected in parallel to it in series with an ohnic resistor 5 and a switch 6. According to the invention, the series circuit of a capacitor 7 and an ohmic resistor 8 is parallel to the capacitor 4.

The dimensioning is made so that when the switch 6 is closed, the capacitor 4 sends a current via the switch 3 which is at least as large as the instantaneous value of the current supplied by the DC voltage source when the switching contacts have reached the extinguishing distance. The switch 3 then interrupts the circuit at this point. The capacitor 7 is selected to be larger than the capacitor 4, for example five times as large. The ohmic resistor 8 is also selected to be larger than the ohmic resistor 5 , for example it can be ten times as large as this. The proportion that the capacitor 7 makes for commutation is consequently small. The size of the two capacitors 4 and 7 in Wsee is smaller than the size of the capacitor 4 if this is used alone, since the damping of the oscillating circuit is now greater. After the oscillation has subsided or at the end of the aperiodic process, no current flows through the switch 6 , so that no special extinguishing device needs to be provided for the switch 6.

Another embodiment is shown in FIG. 2 shown. As far as the parts with those of the F i g. 1 match, the same reference numerals have been chosen. Instead of switch 6, a two-pole switch 9 has been used, which not only serves to initiate the discharge of capacitor 4 via switch 3, but also to connect the series connection of capacitor 7 and ohmic resistor 8 in parallel to capacitor 4. The mode of operation corresponds to that of FIG. 1. However, the arrangement has the advantage that the initial voltages of the capacitors 4 and 7 can be chosen differently.

As already mentioned at the beginning, the ohmic resistor 5 can also be arranged in the circuit in such a way that the series connection of capacitor 7 and resistor 8 is parallel to the series connection of capacitor 4 and resistor 5 .

Claims (2)

Patent applica # claims: 1. An arrangement for interrupting DC circuits with the aid of a lying parallel to the switch-charged capacitor is discharged via the switch, d a d u rch g e -kennze ichnet that at least in the time in which the Abschaltlichtbogen is deleted , parallel to the capacitor or parallel to the capacitor and a resistor in series with it, the series connection of an ohmic resistor and a capacitor is located. 2. Arrangement according to claim 1, characterized in that this series connection is constantly in parallel with the first-mentioned capacitor.