DE2841856C3 - Circuit arrangement for recording the actual current value of converters in a three-phase bridge circuit - Google Patents

Description

20th

The invention relates to a circuit arrangement for detecting the actual current value of converters in Three-phase bridge circuit using a current transformer for each phase, the primary winding of which is in one of the AC feed lines of the converter and on its secondary winding via a rectifier containing at least one valve to the current transformers, common load resistor is connected

Such a circuit arrangement is known from DE-OS 23 46 957. Here is the one in Stern switched secondary windings of the current transformer via a rectifier in a three-bridge circuit a load resistor is connected to which a voltage that is proportional to the current / actual value drops However, this current transformer circuit does not provide perfect results because magnetization errors, which occur as a result of different current-time areas on the primary side of the current transformer, have a disruptive effect.

Under the name Anodenstromwandlerschai device is also an arrangement for determining the actual current value of converters in three-phase bridges. circuit known in which the primary winding of a current transformer is connected upstream of each valve of the bridge is. Due to the valve current flowing on the primary side, the anode current transformers are only activated in one Direction magnetized. The secondary windings connected in star, their star points in series are connected are connected to a DC bus via a diode each. To the DC bus and the load resistor is connected to a rail connected to the learning points. To the fast demagnetization of the current transformers, the secondary windings are each bridged by a varistor. Although this circuit provides an exact image of the current flowing in the converter, it is because of the special design required for the current transformer, the large number of components required and Busbars are very complex and expensive.

A circuit arrangement is used to detect the anode current of three-phase converters known, the two current transformers, each with two primary windings and one secondary winding contains (DE-PS 12 52 799). The second primary winding is / ur forced reverse magnetization of the current transformer required for the second phase in each case. Each secondary winding is connected through a rectifier a load resistor connected. One of the two rectifiers, each with a parallel resistor can be connected upstream is designed as a Graetz circuit by connecting the Load resistances are added to the voltages proportional to the anode currents Current transformer required in special design. \

Starting from the circuit arrangement described at the beginning the invention is based on the problem of correct detection of the actual current value of a converter, in particular the actual current value zero, without the use of current transformers in Special design and to enable the least possible effort. According to the invention this The object is achieved in that the secondary windings of the current transformers each have an additional high-resistance Load resistance are completed, each one of which is arranged in parallel, the Rectifier forming Graetz circuits is downstream

In this arrangement, each current transformer can be independent of the other two current transformers drive its actual value current over the common load resistance, so that magnetization errors in the Comparison to the simple circuit mentioned at the beginning with an actual current value rectifier in a three-phase bridge circuit largely avoided. In addition, the additional, high-ohmic load resistances make it possible inv case of a magnetization error, especially if the value proportional to the current actual value Voltage in the range of the diode threshold voltages of the burden circuit, a demagnetization of the associated current transformer. The time constant of the demagnetization corresponds to the ratio of the common load resistance des for additional load resistance. The zero current value in circuit-free Circuits can be with this current transformer in normal execution containing arrangement with the same Record accuracy as with the considerably more complex anode current converter circuit.

The drawing shows an example of a circuit arrangement according to the invention

As the schematic diagram shows, a current transformer 2 is arranged in each of the three-phase supply lines R, S, T of a converter 1 in a three-phase bridge circuit.A parallel circuit of an additional load resistor 3 and a rectifier 4 in Graetz circuit is connected to each of the secondary windings of the current transformers. The DC-side outputs of the rectifiers 4 are connected in parallel and connected to a burden resistor 5 common to all current converters, at which a voltage proportional to the actual current value drops.

summary

Circuit arrangement for recording the actual current value in converter circuits

For the regulation and protection of converter circuits, for example by converters powered drives, a correct determination of the actual current value is required. To achieve this The aim with the least possible effort is to the secondary winding of current transformers (2), their Primary winding are in the three-phase supply lines of the converter circuit (I), one parallel connection each

Claims (1)

1
Patent claim: Circuit arrangement for recording the actual current value of converters in a three-phase bridge circuit by means of a current transformer for each phase, the primary winding of which is in one of the alternating current supply lines of the converter and its secondary winding via at least one valve containing rectifier a burden resistor common to the current transformers is connected, characterized in that the secondary windings of the current transformers (2) each have one additional high-resistance load resistor (3) are completed, each of which is one of in Graetz circuits (4) which are arranged in parallel and form the rectifier are connected downstream