SU754559A1 - Device for monitoring bridge converter power-diodes - Google Patents

Description

The invention relates to the field of protection and control of semiconductor converters.

A device for monitoring the state of the valves is known, which, for each valve, contains an individual indicator of its closed state, connected through a common decoupling unit to the output organ [ΐ].

The disadvantage of this device is the complexity of the circuit associated with the need for isolated power supplies.

The closest to the proposed device to the technical essence and the achieved result is a device for monitoring the status of the valves of the bridge converter, containing for each controlled valve an individual display unit, the input of which is connected to the power terminals of the valve through a voltage divider and a stabilized rectifier. galvanic isolation is connected to the ⁴ output body [2].

The disadvantage of this device is increased power loss and limited functional capabilities due to

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Data both with low accuracy of the display unit and with difficulties in monitoring the status of the valves of reversing converters.

The purpose of the invention is to reduce power consumption and enhance functionality.

To achieve this, in the proposed device for monitoring the status of the bridges of the converter converter, the display unit is made on four field-effect transistors: two input, one inverting and common output, the rectifier is made in the form of a three-phase bridge, the AC terminals of which and the input terminals of the display units are connected to the outputs of the dividers one group of valves of the converter bridge, the source of one input transistor directly, and the other through an inverting transistor connected to the gate of the output One transistor, and the outputs of the display unit are connected to the common input of the galvanic isolation unit.

The drawing shows a diagram of the device to control.

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The device consists of two identical control nodes 1 in bridges ¹ 'forward' and '' backward '' of the reversing converter. One node includes three identical thyristor state indication units 2, which are sufficient for controlling the valve bridge, since the absence of current in half of the bridge means its absence in the entire valve group.

Field effect transistors 3,4 are installed at the input of each display unit as threshold elements. Their closures through high-resistance resistors of voltage dividers 5.6 and 7.8 are connected to the thyristors of the power circuit and to the diodes 9.10 and 11, 12, which serve to protect the field-effect transistors from overvoltage and are simultaneously part of the three-phase power supply bridge 13. Field sources transistors 3,4 (one directly, the other through an inverter 14) are connected to each other and to the gate of an output switch 15 connected in parallel to the output switches 15 of two other display units 2, the total load of which is one of the output windings 16 transforms Ator 17 block 18 galvanic isolation.

The winding 16 is connected to the control unit through a rectifier 19 to ensure constant polarity on the output switches 15 when the transformer 17 is remagnetized by a pulse generator 20 from the control system side. From the output winding 21 of the transformer through the rectifier 22 and the threshold logic element 23 is removed, the resulting signal of the presence of current in the phase.

The power source 13 is made on three-phase bridges, the state of the diodes 9,10 and 11, 12, which are connected in parallel with the same diodes of the other two blocks 2 of node 1 and form two parallel three-phase ones. the bridge. One of the bridge outputs is taken as the zero potential of the circuit and is connected to the connection point of cathodes 0, or anodes 0 $ thyristors, and the second is the source, the voltage level of which is determined by the zener diode 24 and the capacitive filter 25.

The device works as follows.

In the interval of the presence of current in the valve group, the voltage level on the thyristor conducting the current is less than the installation of the display unit that is connected to the specified thyristor. The installation of the device is provided with a threshold of operation of field-effect transistors 3,4 and high-resistance resistor de ·; voltage of 5.6 and 7.8, it is limited only by the voltage drop on the open thyristor. With

zero voltage on the thyristor field-effect transistor 3 is closed by the bias voltage, we remove ^ with a divider 6 ,. and the field-effect transistor 4 is open by the bias voltage removed by the divider 8, which leads to the appearance of a logical 'Ί''signal at the gate of the output switch 15, since both field switches are closed. Thus, in the display unit, which is connected to the thyristor conducting current, the output switch 15 is open, bypassing the output switches 15 of the two other channels of the control unit and the input winding 16 of the transformer 17, which electrically separates the power and control circuits. From the output winding 21 of the transformer through the rectifier 22 and the threshold logic element 23 is removed the logical signal " ¹ The presence of current".

At the time of the disappearance of the current in the valve group, a voltage surge exceeding the set point of unit 2 occurs at the previously conducting valve. Then, in the case of a positive zero point voltage, the previously open negative bias voltage removed by divider 8 closes, field-effect transistor 4 is still closed, since a positive signal at the channel input opens diode 10 and at the gate of transistor 3 there is zero voltage. If the thyristor appears negative with respect to zero, the voltage higher than the set point, the previously closed field-effect transistor 3 opens, and the transistor 4 remains open. In both cases, the shutter of the output key 15 is connected to the zero point, which leads to the opening of the key. Two other blocks work similarly, registering the closed state of the other thyristors of the group. The input winding 16 of the transformer 17 is open, and the “No current” ¹ signal is transmitted to the subsequent circuit.

The node 1 for controlling the current of the bridge “backwards” works in the same way as described.

Claims (1)

Claim A device for monitoring the status of the bridge converter valves, containing for each monitored valve an individual display unit, the input of which is connected to the power terminals of the valve through a voltage divider and a stabilized rectifier, and the output through the galvanic decoupling unit is different in that reduce power consumption and enhance functionality, the display unit is made on four field transistors5 754559 6 : two output, one inverting and a common output, the rectifier is made in the form of a three-phase bridge, the AC terminals of which and input terminals No. 1 of the display units are connected to the outputs of the divisors of one group of converters bridge valves, and the source of one input transistor directly and the other through inverting transistor connected to the gate output transistor, and the outputs of the display units are connected to common input of the galvanic unit interchanges. five