CS201271B1 - Control circuit for the phase control of tyristors or triacs with the integrated circuit maa436 - Google Patents

Description

The invention relates to the connection of a control circuit for phase control of thyristors or triacs with an integrated circuit MAA436. The wiring allows the use of a galvanic coupling of the controller output to the integrated circuit input of MAA436.

So far, complex control circuits with transformers and transistors have been used for phase control of thyristors or triacs. The perfect control circuit was complex. Efforts to integrate control circuits are represented by an integrated circuit, eg MAA436.

The stabilization circuit uses the MAA436 integrated circuit. The integrated circuit is connected to mains voltage via the power supply. The output of the integrated circuit is connected to the control electrode of the thyristors or triacs of the controller. A gating voltage is applied to the gating input. External passive elements are connected according to the manufacturer's recommendations. A first divider resistor is connected between the positive terminal of the internal stabilized IC source and the IC control input. A capacitor is connected between the negative terminal of the internal stabilized IC source and the IC control input. The control circuit of the integrated circuit is simultaneously connected via a second resistor of the splitter to a terminal of the program voltage source, which is connected to the negative terminal of the internal stabilized source. The program voltage supply must not be galvanically connected to the common network conductor. In conventional wiring, the MAA436 integrated circuit is not applicable to multiphase or parallel networks.

These disadvantages are completely eliminated by the control circuit for phase control of thyristors or triacs with the integrated circuit MAA436 according to the invention. The integrated circuit is connected to the mains voltage via the power connections. The output of the integrated circuit is connected to the control electrode of the thyristors or triacs of the controller. A gating voltage is applied to the gating input. External passive components are connected according to the manufacturer's recommendations. A first resistor of the divider is connected between the positive terminal of the internal stabilized IC source and the control input of the IC, and a capacitor is connected between the negative terminal of the internal stabilized IC source and the control input. The IC control input is simultaneously connected via a second resistor divider and diode to one terminal of the program voltage source, the other terminal of which is connected to a common line conductor.

The control circuit according to the invention allows the extension of the use of the MAA436 integrated circuit and similar integrated circuits to the stabilizer feedback circuit.

201 27 1 current, voltage and other non-electrical quantities. The control circuit is then usable also for multiphase and parallel systems, where it allows the construction of accurate and cheap controllers. The control circuit is applicable for both AC and 1-way or 2-way rectifiers.

The control circuit for phase control of thyristors or triacs with integrated circuit MAA436 is described by way of example and drawing of Fig. 2.

The MAA436 integrated circuit terminals are wired such that a first resistor of the divider 202 is connected between the positive terminal of the internal source 14 and the control input 12. A capacitor 201 is connected between the negative terminal of the internal source 10 and the control input 12. a splitter 203 and a diode 205 at a program voltage source terminal 206 of which the other terminal is connected to a common line conductor 103. The other terminals of the MAA436 integrated circuit are wired according to the manufacturer's recommendations. Inlet 5 is connected to one mains supply 100, inlet 6 is the second mains supply, inlet 9 is connected the control electrode 101 of thyristor or triac, inlet 3 is connected gating voltage 102 and in the other outlets the corresponding passive external circuit elements are connected. . The phase shift of the pulses at the output 9 of the integrated circuit MAA436 is dependent on the magnitude of the control voltage between terminals 10 and 12. In the control circuit according to the invention, this control voltage consists of the AC stabilized voltage of the internal IC and the program voltage proportional to The common component of the control voltage is substantially limited by the capacitor 201.

The control circuit according to the invention enables phase control of thyristors or triacs for DC current and voltage stabilizers with one-way, two-way and multi-way rectification for AC controllers, mainly for speed stabilizers of collector or asynchronous motors in single-phase and multiphase circuits. The advantage of the MAA436 integrated circuit in multiphase wiring is the accurate balanced control in all phases. For stabilizers requiring higher accuracy, a common differential amplifier can be used. The accuracy of the control then depends only on the amplification of the differential amplifier.

Claims (1)

A control circuit for phase control of thyristors or triacs with integrated circuit MAA 436, characterized in that a first resistor of the divider (202) is connected between the positive terminal (14) of the internal stabilized source of the integrated circuit and the integrated circuit control input (12), between the negative terminal ( 10) an internal stabilized integrated circuit power supply and an integrated circuit control input (12) is coupled to a capacitor (201), wherein the integrated circuit control input (12) is simultaneously connected via a second resistor divider (203) and a diode (205) to the terminal (104) a programmable voltage source, the other terminal of which is connected to a common network conductor (103).