RU2417498C1 - Device for monitoring of high-voltage valve converter switch condition - Google Patents

Abstract

FIELD: electricity. ^ SUBSTANCE: device for monitoring of high-voltage valve converter switch condition includes a unit of resistors, a unit of signals measurement, and power switches of the high-voltage valve are divided into two parts, forming a middle point joined to the common supply bus of the signals measurement unit. At one side from the middle point the current-limiting resistors are connected to the first outputs of the high-voltage valve power switches, and at the other side - to their second outputs. The first outputs of each resistor in the resistors unit are connected to the common supply bus of the signals measurement unit, and their second outputs are connected accordingly to the second outputs of the current-limiting resistors and inputs of the signals measurement unit, outputs of which are connected to the outputs of the optical transmitter. The device to monitor condition of the high-voltage valve converter switches comprises a temperature sensor, the body of which form a thermal contact with the power switch body. ^ EFFECT: reduction of consumed power and cost of device, simplification of design, expansion of functional capabilities. ^ 6 cl, 2 dwg

Description

The invention relates to the field of electrical engineering, namely, devices for monitoring and protecting converters, and can be used to monitor the status of power switches in high-voltage converters with a voltage of 3-15 kV, designed, for example, to start electric motors.

These converters contain high-voltage valves with series-connected semiconductor power switches.

A device is known for monitoring thyristors of a high-voltage valve (RU No. 1445501 with a priority of 03.30.1987), taken as an analogue, containing voltage sensors according to the number of thyristors in a high-voltage valve, connected by inputs to the corresponding thyristors, and outputs through optical fibers to the light signal conversion unit in electrical, connected to the outputs of the inputs of the information processing system and protections. In addition, each fiber is equipped with an optical transmitter and an optical receiver.

The disadvantages of this device are the design complexity and high cost of the device, caused by the need to use a large number of optical transmitters and optical receivers with optical fibers (optical fibers), as well as a large number of channels in the block for converting light signals into electric ones and a complex scheme for their further processing.

The closest analogue adopted for the prototype of the present invention is a device for monitoring the state of the keys of a high-voltage valve converter in a soft-start device of a high-voltage motor of the UBPVD-VM series (ABS Holdings catalog, Electric Drive Engineering, September 2007).

Figure 1 presents a schematic diagram of a prototype.

The device for monitoring the state of the keys of the high-voltage valve converter contains serially connected power switches 1 of the high-voltage valve converter, power monitoring units for the power keys of the high-voltage valve converter 12 according to the number of power keys, optical detectors 7 according to the number of power keys connected to the inputs of the control and protection device of the converter 8, each of the power control units of the power switches of the high-voltage valve Converter 12 contains a rectifier 10, connect enny inputs through a current limiting resistor 2 parallel high voltage MOSFET rectifier converter 1, and current stabilizer 11 optoperedatchik 5, interconnected in series and extreme terminals connected to the outputs of the rectifier 10. optoperedatchikov 5 outputs connected to inputs of an optical fiber 6 optopriemnikov 7.

The state of the power switches of other high-voltage valves in the soft starter is monitored by similar power switch control devices.

The UBPVD-VM device operates at a supply voltage of 6 or 10 kV. During operation, the voltage on the power switch varies from zero to about 2.5 kV, which significantly changes the current through the current-limiting resistor. In the prototype, the current of the optical transmitter is limited by a current stabilizer, which increases the life of the optical transmitter.

The disadvantages of this device are:

- large power consumption. This is due to the fact that the optical transmitters operate in a continuous mode and large power losses are allocated on current-limiting resistors (100 W resistors are used). Moreover, the magnitude of the current through the resistors is determined by the rated current of the optical transmitter;

- the complexity of the design and the high cost of the device, due to the use of a significant number of rectifiers, current stabilizers, expensive optical receivers, optical transmitters and optical fiber to transmit signals from the state control units of the power switches of the high-voltage valve to the control and protection device;

- limited functionality: does not have the ability to control key heating.

The technical result of the claimed device is to reduce power consumption and cost of the device, simplifying the design, expanding functionality.

The technical result is achieved by the fact that the device for monitoring the state of the keys of the high-voltage valve converter, which contains the power switches of the high-voltage valve in series, current-limiting resistors by the number of power switches, an optical transmitter connected by an optical fiber to the optical receiver, the output of which is connected to the input of the converter control and protection device, resistor unit, signal measuring unit, power switches of the high-voltage valve are divided into two parts, forming the average a point connected to the common power bus of the signal measuring unit, and on one side of the midpoint, the current-limiting resistors are connected to the first terminals of the power switches of the high-voltage valve, and on the other to their second terminals, the first conclusions of each of the resistors of the resistor block are connected to the common power bus the signal measuring unit, and their second terminals are connected respectively to the second terminals of the current-limiting resistors and the inputs of the signal measuring unit, the outputs of which are connected to the inputs of the optical transmitter. The power switches of the high-voltage valve are divided into at least two equal or unequal parts. A device for monitoring the state of the keys of a high-voltage valve converter includes a temperature sensor connected to a common power bus and the input of the signal measuring unit, the temperature sensor housing and the power switch housing forming a thermal contact. Current limiting resistors are made at least high resistance.

The essence of the claimed technical solution lies in the fact that by introducing into the device a signal measuring unit and a block of resistors and their original connection with current-limiting resistors, power losses are reduced due to the possibility of using current-limiting resistors with increased resistance and lower power in the device (approximately 7- 10 times compared with the prototype), simplifying the design and reducing the cost of the device by reducing the number of elements in the device (optop receivers and optical transmitters). The presence of a temperature sensor in the device expanded the functionality of the device, namely, it allowed to control the temperature of power switches and the ability to determine the amount of power loss in the power switches during the start of the electric motor, as well as the cooling time of the keys, and made it possible to predict the number of starts of a group of electric motors from one thyristor device soft start and the necessary time until the next start.

The presence of these essential features and the original connection diagram allowed simple means to monitor the status of the power switches of the converter, simplify the design of the device, reduce power consumption, reduce cost and expand the functionality of the device.

Figure 2 presents a schematic diagram of a device for monitoring the state of the keys of one high-voltage valve of the converter, where the designations are:

1 - power switches of the high voltage valve;

2 - current limiting resistors;

3 - block resistors;

4 - signal measurement unit;

5 - optical transmitter;

6 - optical fiber;

7 - optoelectronic receiver;

8 - control device and protection of the Converter;

9 - temperature sensor.

A device for monitoring the state of the keys of the high voltage valve Converter contains power keys of the high voltage valve 1; current limiting resistors 2; block of resistors 3; signal measuring unit 4; optical transmitter 5; fiber optic 6; optical receiver 7; control and protection device of the converter 8; temperature sensor 9.

In the device for monitoring the state of the keys of the high-voltage valve converter, the power switches of the high-voltage valve 1 are connected in series with current-limiting resistors 2 - by the number of power switches of the high-voltage valve 1 and are made at least high-impedance, an optical transmitter 5 connected by an optical fiber 6 to an optical receiver 7, the output of which is connected to the input of the control and protection device of the converter 8. The power switches of the high-voltage valve 1 are divided into two parts, at least equal or unequal, forming with the lowest point connected to the common power bus of the signal measuring unit 4, and on the one side of the midpoint, the current-limiting resistors 2 are connected to the first terminals of the power switches of the high-voltage valve 1, and on the other to their second terminals, the first terminals of each of the resistors of the resistor block 3 connected to the common power bus of the signal measuring unit 4, and their second terminals are connected respectively to the second terminals of the current-limiting resistors 2 and the inputs of the signal measuring unit 4, the outputs of which are connected to the inputs of the optoper sensor 5. A temperature sensor 9 is located between the common power bus and the input of the signal measuring unit 4. The body of the temperature sensor 9 and the power switch housing of the high-voltage valve 1 connected to the midpoint of the high-voltage valve form a thermal contact.

The device operates as follows.

The power switches of the high-voltage valve 1 are closed and there is an alternating voltage, which is supplied to the inputs of the signal measuring unit 4 through current-limiting resistors 2, where it is limited by the resistors of the resistor block 3, which form the so-called voltage dividers with current-limiting resistors 2. With a “broken” power key of a high-voltage valve, the voltage is zero. If the power switch of the high-voltage valve is operational, the voltage value is non-zero. The signal measuring unit 4 measures the magnitude of the voltage at the power switches of the high voltage valve 1 connected directly to the midpoint of the high voltage valve. The voltage value on the remaining power switches of the high-voltage valve 1, the signal measuring unit 4 determines through the voltage difference between adjacent voltage dividers. The case of the temperature sensor 9 with the case of one of the power switches of the high-voltage valve 1 connected to the midpoint of the high-voltage valve creates a thermal contact, therefore its resistance and voltage drop at the temperature sensor 9 change depending on the temperature of the power switch of the high-voltage valve 1. The signal is in the form of a code comes from the output of the signal measuring unit 4 through an optical transmitter 5, an optical fiber 6 and an optical receiver 7 to the input of the control and protection device of the converter 8. The control and protection device of the converter The driver 8 informs the converter control system that all the power switches of the high-voltage valve 1 are operational and that the converter is allowed to operate. In case of detection of a damaged power key of the high-voltage valve, the signal measuring unit 4 reports its number, and the control and protection device of the converter 8, depending on the number of damaged power keys of the high-voltage valve, allows or prohibits the operation of the converter. The power supply of the signal measuring unit 4 and the optical transmitter 5 is provided from the high-voltage valve circuit.

Monitoring the state of the power switches of the high-voltage valve of the converter is performed under certain conditions: before and after operation of the converter, when the voltage is applied, but the power switches of the high-voltage valve are turned off (or during operation of the converter when the power switch is off). During operation of the converter, the power switches of the high-voltage valve are in the open state, therefore, the mode of monitoring their health and measuring their heating by the claimed device are blocked in this case.

Thyristors, triacs, IGCT, GTO and other devices can be used as a power switch of a high-voltage valve.

The signal measuring unit can be made in the form of a microcontroller.

The proposed technical solution is designed for devices with an even number of power switches of the high-voltage valve, and odd.

With an odd number of power switches for the high-voltage valve, the device’s common power bus is connected to a shifted midpoint, with respect to which there is an even number of switches in one direction and an odd one in the other.

Compared with the prototype, the introduction of a signal measuring unit and a resistor block forming voltage dividers with current-limiting resistors into the device for monitoring the state of the keys of the high-voltage valve converter made it possible to use current-limiting resistors, performing them with high resistance with increased resistance and 7-10 times lower power power, and also allowed to reduce the number of optical receivers and optical transmitters, thereby reducing the cost of the device. The transmission of information through a single fiber has greatly simplified the receiving part of the control and protection device of the converter.

Monitoring the temperature of the power switches allows you to increase reliability and optimize the operation of the converter, for example, determine the amount of power loss in the power switches of the high-voltage valve during the start-up of the electric motor, as well as the cooling time of the keys. This makes it possible to predict the number of starts of a group of electric motors from one thyristor soft starter and the necessary time before the next start. This will increase productivity at the main oil and gas pipelines, at industrial enterprises, i.e. where soft starters are used.

Tests of the claimed device, which showed positive results. It is planned to introduce the proposed technical solution in the soft starters of high-voltage electric motors and in thyristor devices for automatic input of the reserve.

Claims (6)

1. A device for monitoring the state of the keys of a high-voltage valve converter, comprising series-connected power switches of a high-voltage valve, current-limiting resistors according to the number of power switches, an optical transmitter connected by an optical fiber to an optical receiver, the output of which is connected to the input of the control and protection device of the converter, characterized in that the unit is introduced resistors, a signal measuring unit, the power switches of the high-voltage valve are divided into two parts, forming a midpoint connected to a power supply bus for the signal measuring unit, on the one hand from the midpoint, current-limiting resistors are connected to the first terminals of the power switches of the high-voltage valve, and on the other, with their second terminals, the first conclusions of each of the resistors of the resistor unit are connected to the common power bus of the signal measuring unit, and their second terminals are connected respectively to the second terminals of the current-limiting resistors and the inputs of the signal measuring unit, the outputs of which are connected to the inputs of the optical transmitter. 2. The device according to claim 1, characterized in that the power switches of the high voltage valve are divided at least into equal parts or into unequal parts. 3. The device according to claim 1, characterized in that it contains a temperature sensor. 4. The device according to claim 3, characterized in that the temperature sensor is connected to a common power bus and the input of the signal measuring unit. 5. The device according to claim 3, characterized in that the temperature sensor housing and the power switch housing form a thermal contact. 6. The device according to claim 3, characterized in that the current-limiting resistors are made at least high resistance.

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