RU1208995C - Device for control of thyristor converter - Google Patents

Description

 The invention relates to electrical engineering, in particular to a conversion technique, and can be used to control thyristor DC and AC converters.

 The aim of the invention is to increase the reliability of the device by increasing its noise immunity.

 In FIG. 1 shows a functional diagram of a device; in FIG. 2 is a diagram explaining the operation of the device.

 The device comprises a power rectifier unit 1, a pulse-phase control unit 2 with m-output channels, an OR 3 element, a delay element 4, AND 5-1 - 5-6 elements installed in the circuit of each of the m-outputs of the pulse-phase unit 2 management.

 The control circuit of the thyristors of block 1 through the elements And 5-1 - 5-6 are connected to the corresponding outputs of the block 2, forming the control pulses. Each of the m-outputs of block 2 is connected to the inputs of the OR element 3, the output of which is connected to the input of the delay element 4, the delay duration of which exceeds the duration of the false pulses generated at the output of the pulse-phase control unit 2. The output of the delay element 4 is connected to the second inputs of the logic elements 5-1 - 5-6. Block 1 power rectifier is made according to the scheme. Larionov and connected to the load.

 The proposed device operates as follows. The control pulses generated in two of the m-outputs of the pulse-phase control unit 2 are fed to the first inputs of the corresponding AND elements, for example, to the first inputs of the AND elements 5-1 and 5-2 (Fig. 2a), and through the OR element 3 and delay element 4 - to the second inputs of the elements And 5-1 and 5-2 (Fig. 2b). In this case, the duration of the control pulses in the pulse-phase control unit 2 is selected so that after a delay at the output of the logical elements AND their duration was sufficient for reliable switching on of the thyristors of block 1 in all operating modes of the converter.

 At the output of elements And 5-1 and 5-2 (Fig. 2c), control pulses are generated only when the signals coincide in time at the first and second inputs of these elements. Moreover, since, due to the delay, the pulses at the first and second inputs of the And 5 elements are shifted in time relative to each other by a value of τ, the control pulses generated at the output of the elements 5, and therefore also at the thyristors of block 1, will be shorter pulses generated at the output of block 2. Since the delay is single-channel, this will not lead to an increase in the asymmetry of the control pulses, and a decrease in their duration is taken into account by expanding the duration of the pulses in block 2. If, at the output of block 2, GSI false narrow pulse (FIG. 2a), then the delay of its delay element 4 will result in a mismatch in time of input signals on first and second inputs of AND gates 5-1 and 5-2. In this case, false pulses will not arrive at the outputs of the indicated elements And, and therefore, at the thyristors of the power rectifier.

 The application of the proposed device allows you to protect the thyristors of the power unit from false control pulses, which can be formed from the operation of contactor equipment and due to the operation of other converters, which increases the reliability of the converter and, as a result, reduces the downtime of electrical equipment.

Claims (1)

 A device for controlling a thyristor converter containing a pulse-phase control unit with m-outputs, characterized in that, in order to increase the reliability of the device by increasing its noise immunity, it is equipped with an OR element with m-inputs, m-elements And and a delay element, and the inputs of the OR element are connected to the m-outputs of the pulse-phase control unit and the first inputs of the AND elements, the outputs of which are designed to connect to the corresponding thyristors of the converter, the output of the OR element is connected through the ele the delay ment with the second inputs of the elements I.

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