SU517976A1 - Pulse generator to start thyristors - Google Patents

Description

The invention relates to converting technology and can be used in control devices for inverters, frequency converters, parapellant current rectifiers, etc.

Known formative impulses for starting thyristors, made on transistors. The drawbacks of these forms (the drivers are the long duration of the leading edge of the pulse, the greater control power and circuit complexity.

In the proposed i-shaper driver, to the common point of the capacitor, the charging resistor and the primary winding of the transformer are connected (the cathode of the diode, the anode of which is connected To the source of control voltage.

Such an implementation of the shaping machine allows to increase the steepness of the leading front of the K.VI-pully and simplify the scheme.

FIG. 1 is given the basic principle of the mover former; in fig. .2 - volt1mper characteristics of the transistor; in fig. 3 - pulse shape.

The driver contains an avalanche transistor I, a storage capacitor 2, a charging resistor 3, a power supply 4, a pulse transformer 5 with a primary b and a secondary 7 windings, a winding 8 and a diode 9 of a zanook circuit, a diode 10, a resistor M, the base

2

resistor 12, diode 13, protection transducer emitter-base of transistor 1 from breakdown, load resistance 14, diode 15 and voltage source 16 UnzForming can work in two modes - auto: oscillatory and waiting in dependence on the choice of the initial working voltage on the volt-voltage Characteristics | ST1IKike avalanche transistor.

In the self-oscillating mode, after turning on the power supply 4 of the Uni, the capacitor 2 begins to charge on the circuit: the capacitor 2 - resistor 3 - the power source f / ni. As soon as the voltage on the capacitor 2 reaches the turn-on voltage of the UBK transistor, the latter turns on. The operating point Ci (see Fig. 2) moves along the dynamic load line, rushing to the point C3. However, due to the positive feedback formed by the transformer 5, a regenerative node develops, as a result of which the operating point Ci, min Cr, passes to the Cz point on the current-voltage characteristic of transistor 1 in the saturation region (curve

B). At the same time, the load resistance 14 applies 1s to the voltage f / on. The transition time of the operating point of the avalanche transistor from state C to state Cz determines the rise time of the front-end impulse (see Fig. 3).

An impulse ejection is formed in the interval, the operating point of TpaiHSECTOpa moves along curve B (see Fig. 2). At point C4, diode 15 is opened (in Fig. 2, D14 is the dynamic resistance of diode 15). From this moment on, the formation of the pulse surge ends (ohm. Fig. 3). A load voltage t / n2 is applied to the load resistance and the top of the pulse is formed. The pulse formation ends at that moment when the transformer core begins to enter saturation. A reverse regenerative Praceos develops, as a result of which the transistor closes and the operating point C moves to the Cs position (ohm. Fig. 2). In this case, the resistance 11 and the diode 10 prevent the generation of parasiine generation in the circuit. After the transistor is closed, the capacitor 2 is charged from the power supply U-nz through diode 15 and from the power supply Un through resistor 3 and the operating point moves from the position S to the position Ce. At the operating point, the SAT diode 15 is closed. Starting from this moment, the capacitor 2 is charged through re3) the source 3 from the power source t / ni and as soon as the voltage across the capacitor reaches on. the transistor turns on. The processes in the scheme are repeated.

In standby mode, transistor 1 is locked, which is determined by the choice of the initial operating point. The unlocking of the transistor is carried out by positive-polarity pulses applied to the anode of diode 9. Next, the shaper operates in the same way as in the auto-oscillator mode.

F o r iM invented

A pulse shaper for triggering thyristors containing a storage capacitor, a charging resistor, an avalanche transistor with a series-connected load, and a pulse transformer, characterized in that, in order to increase the steepness of the leading edge of the pulse and simplify the circuit, to the common point of the capacitor, charging resistor and primary A transformer winding is connected to a cathode of a dyad, the anode of which is connected to a source of control voltage.

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