SU748872A1 - Power switch - Google Patents

Description

5 4) POWER SWITCH

The invention relates to switching equipment and can be used in various automation systems, for example, in temperature controllers, control circuits for asynchronous motors. A power switch is known that contains the first and the second thyristors connected in parallel to the output of the bridge rectifier, directly and through a capacitor, to the control electrodes of which the control buttons are connected, and the control electrode of the second thyristor is connected to an additional rectifier. Also known is a power switch containing a thyristor, connected to the output of a bridge rectifier, a series-connected capacitor and a transistor switch, in parallel with which the zener diode is connected, and control terminals. Known devices have kebol shoy efficiency, as well as complex. The purpose of the invention is to increase the efficiency and simplify the power switch. The goal is achieved in that a power switch containing a thyristor connected to the output of a bridge rectifier, a series-connected capacitor and a transistor switch, in parallel with which the zener diode and control terminals are connected, have a transistor, a junction whose collector-emitter is connected between the cathode and the control the thyristor electrode and, connected to one control terminal, the base of the transistor is connected to the second control terminal and the junction point of the capacitor and the zener diode, while the control electrode tiris ora through a resistor connected to its anode. The drawing shows the principal. electrical ("1ka scheme of the proposed device. The power switch contains a bridge rectifier 1, thyristor 2, resistor 3, capacitor 4, transistor 5, zener diode 6, .transistor switch 7, zener diode 8 g resistor 9. The power switch works as follows. When turned on AC power supply and the absence of a signal at the control terminals of the power switch. The rectifier is applied to the common connection point of the thyristor 2 anode, the output of the resistor 3, through the bridge rectifier 1,

the capacitor plate 4 and the thyristor cathode 2.,

Under the influence of the flowing control current through the resistor 3, the thyristor 2 is turned on. When the thyristor 2 is turned on, the load circuit connected to the AC mains is closed, and the entire mains voltage is applied to the load, since the dip in the diodes of the bridge circuit of the cell and the thyristor 2 is about 1 V on each element. In such a state, the thyristor 2 remains until the signal arrives at the control terminals of the power switch. When there is a signal at the control terminals of the power switch, the signal voltage through the resistor 9 is applied to the base of transistor 5, the cathode of the Zener diode 8 and the capacitor plate 4. Under the influence of the voltage coming from the control terminals, the switching capacitor 4 through the resistor 9 and the open thyristor 2 starts charging press with the indicated polarity, the transistor 5 goes into the open state. When the voltage on the capacitor 4 reaches the value of the breakdown of the Zener diode 8, the transistor switch 7 goes into the open state and the voltage from the capacitor 4 is applied to the anode and cathode of the thyristor 2. Under the influence of the voltage from the capacitor 4, the capacitor 4 is recharged voltage back to polarity from bridge, rectifier 1. In this state, the thyristor 2 remains as long as there is a signal voltage on the control terminals.

Thus, in the presence of a signal at the control terminals, the thyristor 2 is closed (turned off), and in the absence of a signal, it is open (turned on). Since the resistance of the closed thyristor 2

and the resistor 3 is significantly greater than the load resistance, then the voltage drop in these circuits is the main part of the AC supply voltage. If there is no signal voltage at the control terminals, the transistors 5 and 7 go to the closed state and the control current flows through the resistor 3 in the control electrode of Psychistor 2. Thyristor 2 returns to the initial state.

By varying the switching time of the transistors 5 and 7, the average current in the load circuit 5 can be adjusted.

To prevent overvoltages at the junction of the collector-emitter of a closed transistor switch parallel to the latter, a protective zener diode was switched on. B.

Claims (1)

Invention Formula A power switch containing a thyristor connected to the output of a bridge capacitor, a series-connected capacitor and a transistor switch, in parallel with which a zener diode is connected, and a control terminal, characterized in that, in order to increase efficiency and simplify the power switch, a transistor is inserted into it, the collector-emitter of which is connected between the cathode and the control electrode of the thyristor I is connected to one control terminal, the base of the transistor is connected to the second control terminal and the connection point of the capacitor and a zener diode, while controlling. thyristor electrode through a resistor connected to its anode. v Ijf Sf fv th vflT Pg Hz Pg " ../-;:v. .