SU913528A1 - Two-cycle scaling device - Google Patents

Description

The invention relates to a converter technique and can be used in control systems for thyristor converters.

Known driver unipolar control pulses, made in. ⁵ forming a PC ^ line, and a transformer output device with several secondary windings, whose circuits include rectifying diodes, and it is made in the form of two transformers on separate cores with series-connected primary windings, and the switching node is connected to the common point of the primary windings of transformers, other outputs of which are connected to the thyristors of the driver [1].

A disadvantage of the device is the presence of two control channels tiristora- _m E shaper.

Closest to the proposed technical entity is a counting device containing g'enov2

clock torus with transformer – torus, the output windings of which through the forming elements are connected to control junctions of the thyristors of the cells, each of which includes the output transformer, one of the secondary windings of which through the delay element is connected to the control transition of the key of the neighboring cell that shunts the forming element G2].

However, the device is characterized by insufficient reliability due to the presence of a large number of cells.

The chain of the invention - increased reliability.

This goal is achieved by the fact that the conversion device is equipped with a primary charge unit, two charging diode circuits, as well as two capacitors and a switching line, which, together with the thyristors and output transformers, are connected according to the half-bridge inverter, * the initial charge unit is connected in parallel *

3 913528

but one charging diode circuit, each one of which is connected between the secondary winding of the output transformer on one side and the forming element and the cathode of the thyristor of this cell on the other.

The drawing shows a schematic diagram of a push-pull recalculating device.

The two-way counting device 10 contains a clock pulse generator 1 with a transformer 2, the output windings 3 of which, forming elements 4 and 5, are connected to control junctions of thyristors 6 and 7 of cells 15 8 and 9, each of which includes an output transformer 10 and a capacitor 11, included together with the switching line 12 according to the half-bridge inverter scheme. The secondary windings 20 13 of the transformers 10. through the delay elements 14 are connected to the control transitions of the keys 15 that shunt the forming elements 4 and 5. The secondary windings 16 of the transformers 10 are connected to the load 1.7 and are connected between the forming elements 4 through the charging diodes 18 and 19 and 5 and. thyristor cathodes 6 and 7, and parallel to the charging chain. 18 chen unit ₃₀ connected initial charge 20.

The device works as follows.

When the supply voltages are applied, the forming element 4 is charged with a large time constant up to the voltage value of block 20 along the circuit: plus block 20, forming element 4, the control electrode is the cathode of power thyristor 6, minus block 20, and the voltage value of block 20 is chosen greater than the amplitude of the clock pulses.

When applying clock pulses through the discharged element 5, the power thyristor 7 is switched on along the circuit: the beginning of the winding.

3, 5 forming element, the control electrode - cathode power thyristor 7, the end of winding 3. Thyristor 6 thus can not start up, because its control electrode circuit included pre-charged element 4 satisfiable ⁵⁰ yuschy clipping function.

When the thyristor circuit 7 through current begins to flow through the circuit: the capacitor 11 plus the cell 9, the anode-cathode of thyristor 7, the primary winding ⁵⁵ of the transformer 10 ka, resistance load 17, commutes line 12, minus the capacitor 11. In this case at

the secondary winding 16 is the voltage that charges the element 5 in the polarity shown in the diagram, to a voltage greater than the amplitude of the clock pulses along the circuit: the beginning of the winding 16, the diode of the charging chain 19, the element 5, the control electrode is the cathode. power thyristor 7, the end of the winding 16.

After the Overcharge of the commuting line 12, the thyristor 7 is closed. At this moment, a voltage pulse appears at the output of the delay device 14, which opens the discharge thyristor 15, forming element 4. As a result, element 4 is discharged. '

The circuit parameters are chosen so that the time of the open state of the thyristor 7 is longer than the duration of the clock pulse. Consequently, by the time of discharge of the element 4, the clock pulse is over, which eliminates the false triggering of the thyristor 6.

The next pulse of the clock generator will open the thyristor 6 along the circuit: the beginning of the winding 3, forming element 4, the controlling transition — the cathode of the power thyristor 6, the end of the winding 3 and further the work of the cell elements 8 of the scaler repeats.

Thus, due to the fact that the permission to turn on the power thyristors can be received only after locking the thyristor of the neighboring cell, the reliability of the device increases.

Claims (1)

Claim A push-pull scaler containing a clock pulse generator with a transformer, the output windings of which are connected to the control transitions of the thyristors of the cells through the forming elements, each of which includes an output transformer, one of the secondary windings of which is connected to the control switch of the adjacent cell forming element, characterized in that, in order to increase reliability, it is equipped with a initial charge unit, two charging diode circuits, as well as two capacitors and a switching line, which, together with the thyristors and output transformers, are connected according to the semi-bridge inverter circuit, with the initial charge unit 5 Yes, it is connected in parallel to one of the charging diode circuits, each of which is connected between the secondary winding of the output transformer on one side and the forming element and the cathode of the thyristor of this cell with the other. 913528 b