PL127490B2 - System for optoelectronically triggering thyristors being conneted serially and/or in parallel - Google Patents

Description

The subject of the invention is an optoelectronic thyristor triggering system with their serial and / or parallel connection, which allows to obtain the same switching delay times for each thyristor and to obtain high dynamic parameters of thyristors during switching on. In the present state of the art, transformer or optoelectronic thyristor triggering systems do not allow for obtaining the same moments of thyristor switching on and appropriate gate currents guaranteeing high dynamic parameters of thyristors when switching on. This is due to the unequal parameters of the elements used in the triggering systems resulting from the technological dispersion. In order to improve the thyristor triggering conditions in pc / series and / or parallel connection, an expensive selection of the trigger path elements and the used thyristors are used. The aim of the invention is to develop a triggering system that will enable At the same time, the thyristors are connected and the gate currents are properly formed. The essence of the circuit according to the invention consists in the fact that the photodiode output is connected with the input flip-flop transistor, with the emitters of the input transistor and the output transistor connected to a common regulating resistor and have They are separate load resistors in the collectors. The output transistor is connected to the power transistor, to the collector of which the auxiliary capacitor and gate resistance are connected. The emitter of this power transistor is connected to the thyristor gate and the stabilizing resistor. Each circuit is connected to the power supply circuit in which the capacitors as well as the sources are separated by diodes. These capacitors are connected via diodes with a stabilizing diode, resistance and a capacitor. The system allows to improve the conditions of cooperation of thyristors in series connection - no overvoltage or parallel - equal distribution of currents when switching on, and to use fully dynamic parameters of connected thyristors. An example of the solution according to the invention is shown on the drawing, in which Fig. 1 - shows a schematic diagram of the circuit mounted at each thyristor, and Fig. 2 - a schematic diagram of the power supply system.2 127490 The circuit according to the invention comprises a light transmitter cooperating with a control circuit, SW optics triggering circuits identical for each thyristor and power supply systems separate for each thyristor. From the light transmitter (through which the current is flowing) in the form of an LED light-emitting diode, the linearly increasing light signal 4 is distributed through the light guides SW to each of the triggering systems, where it controls the operation of the receiver in the form of a photodiode FD. The output from the FD photodiode is connected to the output transistor Ti of the flip-flop, the output of which directly controls the base of the input transistor T2 of this flip-flop. The emitters of the transistors are connected to a common adjustable resistor R5. The flip-flop in conjunction with the photodiode FD and the linearly increasing photodiode current in time is an element with an adjustable delay time of the output signal in relation to the control signal of the LED diode. The signal from the collector of the transistor T2 of the trigger controls the operation of the power transistor T5 through the amplifying circuits. The role of the current amplifier is performed by the system of two transistors T3 and T4. The following elements are connected to the T5 transistor collector: an additional capacitor Cz used to forcing the gate current and a gate resistor RG which determines the final gate current of the thyristor. The emitter of the power transistor T5 is connected to the gateG of thyristorT and to the stabilizing resistor R7. The power supply circuits of the thyristor T use the dynamic changes of the anode voltage of each of the thyristors. To the anode A of the thyristor, through series connected elements of resistance R and capacitor C, capacitors Ci and CZ2 separated by diodes D1 and D2 are connected, supplying individual parts of the triggering circuit. A Zener diode DZ is connected between the common point Dl and D2 and the cathode K of the thyristor T. Its task is to limit the maximum voltage in the power supply systems. Separation of power sources in the form of capacitors Ci and Cz2 is aimed at obtaining a constant voltage on the system built on the transistors Tl, T2 and T3, thanks to which the circuits have constant parameters. In the power supply circuit of the gate circuit, there may be greater voltage changes using a large range of energy of the capacitor Czi without affecting the work of the receiver circuit with the FD photodiode, the trigger circuit naTl and the T2 of the amplifier on the transistor T3. In order for each of the thyristors T to be switched on at the same time, in spite of the technological dispersion of the elements of the triggering paths, it makes it possible to eliminate the overvoltage on the thyristors and start at the same time the changes in the "resistance" of the switched thyristors. current, which allows to obtain the same time changes of thyristor resistance T and gives the possibility to use the maximum dynamic parameters of the connected thyristors T. Patent claim 1. Circuit for optoelectronic thyristor triggering in series and / or parallel connection, including light source and optical fiber with the fact that the light signal which increases linearly with time is controlled by a photodiode, characterized in that the photodiode output (FD) is connected to the input transistor (Tl) of the flip-flop, where the emitters of the transistors (Tl) and the output (T2) They are connected to a common regulating resistor (R5) and they have separate load resistors (R2, R3) in the collectors, and the output of the transistor (T2) is connected through the current amplifiers system to the power transistor (T5), to the collector of which is connected the Auxiliary densator (Cz) and gate resistance (Rg), and the emitter of this transistor (T5) is connected to the thyristor gate (T) and a stabilizing resistor (R7), whereby each circuit is connected to a power supply, which forms a diode (Dl) connected , D2) capacitors (Czi, CZ2), then connected to resistance (R) by a capacitor (C) and a stabilizing diode (Dz). 127 490 Fig. TR C ^. thyristor anode (A) Fig. 2. ^ cathode (K) thyristor PL

Claims (2)

Claim 1. Circuit for optoelectronic triggering of thyristors in series and / or parallel connection, comprising a light transmitter and a optical fiber, with the fact that the light signal which increases linearly over time is controlled by a photodiode, characterized in that the photodiode output (FD) is connected to the input transistor (T transistor) ) of the flip-flop, where the emitters of the transistors (Tl) and the output (T2) are connected to a common regulating resistor (R5) and they have separate load resistors (R2, R3) in the collectors, and the output of the transistor (T2) through the circuit of current amplifiers is connected to the power transistor (T5), to the collector of which the auxiliary capacitor (Cz) and the gate resistance (Rg) are connected, and the emitter of this transistor (T5) is connected to the thyristor gate (T) and a stabilizing resistor (R7) ) where each system is connected with a power supply, which creates capacitors (Czi, CZ2) connected via diodes (Dl, D2), then connected with resistance (R) by a capacitor (C) and a diode stabilizing (Dz) .127 490 Fig. bar R C ^. thyristor anode (A) Fig. 2. ^ cathode (K) of PL thyristor