DE1092118B - Protection device for converter in rectifier bridge circuit with semiconductor valves - Google Patents

Description

GERMAN

The invention relates to a protective device for converters in a rectifier bridge circuit with semiconductor valves based on a semiconductor made of or in the manner of germanium or silicon those for controlling the output power or voltage supplied by the converter in between the bridge arms adjacent to the DC poles each have a controllable transductor choke (regulating choke) is in series with the valve arrangement and the control throttles of the adjacent bridge branches are adjacent to the AC power line of the bridge. With such systems, precautions must be taken that due to the large current change rate that occurs especially when the valves transition into the blocking phase As a result of the carrier jam effect on the individual valves, there are no inadmissibly high voltages that could pose a risk of the valves.

According to the invention, a novel circuit is proposed for these purposes, the essence of which is therein consists that between the connecting line of each control throttle and the associated main valve one Bridge branch as well as the direct current pole on which the adjacent one between the direct current poles Bridge branch is connected, an auxiliary valve is switched on, which with the same flow direction is polarized like the main valve connected to the connecting line, and that between the DC poles a capacitor is switched on in the converter.

An example execution for the application of the invention is illustrated by the drawing. The three-phase is connected to terminals 1, 2 and 3 of the circuit AC network. A three-phase bridge circuit is established from this via lines 4, 5 and 6 fed, the individual bridge branches with 7 to 12 are designated. In each of these bridge branches 7 up to 12 is in series with one of the valve arrangements 13 to 18 each one of the regulating throttles 19 to 24, of which only the work developments are shown for the sake of simplicity. The mentioned Bridge branches 7 to 12 are connected to the direct current poles 25 and 26 of the bridge circuit, so that from the terminals 27 and 28 a consumer 29 can be fed. Between the DC poles 25 and 26 of the rectifier, a capacitor 30 is switched on as part of the protective device which, if necessary, as indicated by dashed lines, an ohmic resistor 31 can be connected in series can. The auxiliary valves 32 to 37 are included in the circuit as further parts of the protective device. As can be seen, for example, the valve 32 is between the negative DC pole 26 or the connection of the valve 14 to this DC protection device for converters

in rectifier bridge circuit

with semiconductor valves

Applicant:

Siemens-Schuckertwerke

Corporation,

Berlin and Erlangen,

Erlangen, Werner-von-Siemens-Str. 50

Dipl.rlng. Helmut Lichtenberg, Berlin,
has been named as the inventor

strompol and the connecting line between the main valve 13 and the control throttle 19 switched on. Is z. B. assumes that the valve 13 is in the passage phase, for example the valve 16 are in the passage phase. With a subsequent commutation of the power supply from valve 16, for example to valve 18, can if no special protective device is provided, a voltage spike on the valve 16 as a result of the Carrier jam effect occur, which is greater than the voltage difference between the two DC poles. But since the connection line between the control throttle 22 and the valve 16 is the Valve 35 is connected, which on the other hand is connected to the positive pole 25 of the converter is the valve 35 when the potential of the connecting line between the control throttle 22 and the valve 16 is higher than the potential of the direct current pole 25, conductive in its forward direction, so that on this Way then the protective capacitor 30 is connected in parallel to the terminals of the valve 16. He does in this way that the maximum voltage peak occurring at the terminals of the valve 16 is approximately through the voltage difference is determined which exists between the direct current poles 25, 26 of the system. Here it is taken into account that the two DC poles belong to an oscillating circuit that is controlled by the upper terminal of the capacitor 30 via the valve 35, the regulating throttle 22, the line 5, the alternating current source or the leakage inductance of the supply transformer between connection points 2 and 3, the line 6, the throttle 24 and the in the passage

009 630/188

State valve 18 runs back to the lower layer of the condenser 30.

The same protective effect arises accordingly for the other converter valves in the circuit.

If consumers are fed by the converter, this has a negative effect with voltage peaks on the converter, and it is desirable for this reason is that the output capacitor of the converter circuit to the consumer directly, so under Avoidance of series resistance, connected in parallel is, according to a development of the invention, the structure can also be made such that in series with the individual auxiliary valves, a damping resistor in the form of an ohmic resistance is switched.

The application of the invention is not limited to those converter systems in which each bridge branch only a single rectifier element is used. There can also be one in each of the branches of the bridge Valve arrangement are used, which in turn consists of a series connection, a parallel connection or a series-parallel connection of rectifier elements with regard to the voltage to be controlled or the currents to be carried exist.

The invention can also be used in converter bridge circuits of any number of phases, ie even with single-phase bridge circuits, both when it comes to the regulating reactors symmetrically constructed bridge circuits as well as so-called incomplete bridge circuits acts, which is known in the latter case only in two adjacent between the DC poles A regulating throttle is provided for each branch of the bridge.

The elements of such a bridge circuit can for reasons of convenience, if z. B. a cooling should take place by a liquid coolant such as oil, be housed in a common boiler.

Claims (3)

PATENT CLAIMS: 1.Protective device for converters in rectifier bridge circuits with semiconductor valves based on or of the type of germanium or silicon, in which a controllable transducer choke (regulating choke) is used in each of the bridge branches between the DC poles to control the output power or voltage supplied by the converter. is in series with the valve arrangement and the control throttles of the adjacent bridge branches of the AC supply line of the bridge are adjacent, characterized in that between the connecting line of each control throttle and the associated main valve of a bridge branch and the direct current pole to which the bridge branch adjacent between the direct current poles is connected, a Auxiliary valve is switched on, which is polarized with the same forward direction as the main valve connected to the connecting line, and that a capacitor ei between the DC poles of the converter is switched on. 2. Protection device according to claim 1, characterized in that in series with the between an ohmic resistor is connected to the capacitor connected to the DC poles. 3. Protection device according to claim 1, characterized in that in connection with the directly capacitor connected in series with between the DC poles of the system an ohmic resistor is switched on for each of the auxiliary valves. 1 sheet of drawings > 009 630/188 10.60