SU862307A1 - Device for checking converter control system - Google Patents

Description

The invention relates to a conversion technique.

A device for monitoring the control system of the Converter, containing a control unit made on time elements, coincidence schemes and triggers [1].

The disadvantage of this device is its complexity.

The closest to the invention by achieved result is a device for controlling a converter control system powered by a three phase AC network, comprising a control unit, outputs koto- cerned · ³ are connected to the outputs of the control system and the power supply phases ^).

The disadvantage of this device is complexity. 2Q

The purpose of the invention is simplification.

This goal is achieved by the fact that the execution control unit on the transformer. whose primary winding is connected to the phases of the power source, and the secondary through rectifier bridges to the load, and transistors are included in the DC diagonal of the bridges, the bases of which are connected to the outputs of the control system. ’Θ

The drawing shows a schematic diagram of a device that contains a three-phase transformer 1, rectifier bridges 2, transistors 3, ^e pulse-phase control system 4 with outputs 5-7 and load 8. The elements of the device with the exception of control system 4 form a control block <Q .

^and 'If the pulses from the outputs 5-7 of the control system 4 are supplied to the' transistor switches symmetrically, then the average rectified voltage at the load 8 will be zero. With asymmetry of pulses, the voltage at the load is not equal to zero.

To check the asymmetry of the pulses, the outputs of the control system are alternately connected to the corresponding switch and the average rectified voltage across the load is measured. If it is equal to zero, then the control pulse is symmetric with respect to the transition of the corresponding phase voltage through zero. If the voltage at the load differs from zero by shifting the control pulse of the channel under test, a zero voltage at the load is achieved. Then, the output of the other channel is connected, and the previous one is turned off and, without changing the pulse position of the first channel, the pulse of the Other channel is adjusted so that the average rectified voltage in the load is zero. Similarly, the third channel is checked.

Claims (2)

The invention relates to a converter technique. A device for controlling a converter control system is known, which comprises a control unit, executed on elements of time, coincidence circuits and triggers l. The disadvantage of the device is its complexity. The closest to the invention in terms of the achieved result is a device for controlling a converter control system, an ac-phase three-phase ac power supply network containing a control unit whose inputs are connected to the outputs of the control system and the phases of the power supply 2j. The disadvantage of the device is complexity. The purpose of the invention is simplification. This goal is achieved by the implementation control unit on the transformer, the primary winding of which is connected to the phases of the power supply and is secondary through rectifier bridges to the load, with transistors connected to the outputs of the control systems in the DC diagonal of the bridges. . The drawing is a schematic diagram of a device that contains a three-phase transformer 1, rectifying bridges 2, transistors 3, a pulse-phase control system 4 with outputs 5-7 and a load 8. The elements of the device, with the exception of the control system 4, form a control unit. If pulses from outputs 5-7 of control system 4 are supplied to the transistor switches symmetrically, then the average rectified voltage at load 8 will be zero. With the asymmetry of the pulses, the voltage across the load is not zero. To check the asymmetry of the pulses, the outputs of the control system are connected alternately to the corresponding switch and the average rectified voltage across the load is measured. If it is zero, then the control pulse is symmetric with respect to the passage of the corresponding phase voltage across zero. If the voltage on the load differs from zero by displacing the control impulse of the tested channel, a zero voltage is obtained on the load. Then another channel is connected, and the previous one is disconnected and, not changing the position of the first channel pulse, adjusts the pulse of the Other channel so that the average rectified voltage in the load is equal to zero. Similarly, the third channel is checked. Claims of the invention A device for controlling a converter control system powered from a three-phase AC network, comprising an control unit, the outputs of which are connected to the outputs of the control system and the phases of the power source, characterized in that, for the purpose of simplification, the control unit is provided on the transformer, the primary winding It is connected to the phases of the power supply, and is secondary via rectifier bridges to the load, with the transistors in the DC diagonal of the bridges, the bases of which are connected to the outputs control system. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2554302, cl. H 02 H 7/10, 1977. 2. Handbook for electrical installation. Ed. A.S. Dorofeyuka. M., Energie, p. 509-51Q.