CS204152B1 - Bistabil tilting circuit with the tyristor - Google Patents

Description

The invention relates to a bistable flip-flop with a thyristor controlled from one point by pulses of defined width.

The needs of developing supra v based on electronic components necessitated the design of a simple bistable flip-flop with thyristoTPm for the hinged circuits of these devices. At present we know bistable flip-flops with discrete components (2 transistors are used as an active element), bistable circuits in the form of integrated circuit and others, which are unsatisfactory for these purposes from both economical and technical point of view, requires additional electrical circuits. The circuit can also be used for a higher supply voltage, e.g. in the case of a flip-flop in the form of an integrated circuit is impossible.

These disadvantages are overcome by the bistable flip-flop with thyristor according to the invention. SUMMARY OF THE INVENTION The capacitor is one terminal connected to a thyristor cathode and one terminal of a first resistor, the other terminal connected to one terminal of a second resistor, one terminal of a control source and an anode of a diode whose cathode is connected to a thyristor control electrode whose anode is connected to the second terminal of the control source and the first power terminal, the second terminals of the first resistor and the second resistor being connected to the second power terminal.

Said wiring provides higher circuit stability, reliability and ease of operation compared to known wiring.

The attached drawing shows a schematic illustration of an embodiment of the invention.

The capacitor 40 is connected to the cathode of the thyristor 10 and one terminal of the first resistor 20 by one terminal, the second terminal connected to one terminal of the second resistor 21, one terminal of the control source 60 and anode dicdy 30. the second terminals of the first resistor 20 and the second resistor 21 are connected to the second power terminal 51.

The function of the bistable flip-flop with a thyristor is as follows: The bistable flip-flop is connected to the external supply voltage by the power terminals 50, 51. In the idle state, the thyristor 10 is closed. The bistable flip-flop is actuated by the control source 60, or by connecting the plus pole of the source to the anode of diode 30. Closing the circuit (source positive terminal - internal resistance of the control source 60 - diode 30 - semiconductor transition between the control elek204152 20 - minus the source] opens the tyrlstor 10.

After opening the thyristor 10, the capacitor 40 starts charging to the value of the supply voltage in the circuit: the positive pole of the source - the transition between the anode and the cathode of the thyristor 10 - the capacitor 40 - the second resistor 21 - minus the pole. The bistable flip-flop is actuated as normally by the pulse control source 60 or by connecting the plus pole of the source to the anode 30 of the diode, thereby discharging the capacitor 40 through the thyristor 10 in the opposite current to the holding current. the consequence of its restoration. Let T min be the minimum pulse width required to activate the bistable flip-flop. The time width Tmin is dependent on the charge time constant of the capacitor 40 and the switching properties of the diode 30 and the thyristor 10. In theory (by solving differential equations) it can be proved that when the bistable flip-flop is switched off T min plus Tv The width expressed in time Tv depends on the discharge constant of the capacitor 40. Therefore, the Pulse width Ti at which the bistable flip-flop circuit is switched on and off reliably must be in the interval, T min Ti · <T min + Tv

It follows that the bistable flip-flop can be controlled by a pulse width control source 60 or by its own power supply. If we use our own power supply for control, then it is necessary in series with the make contact, for example. a button connected to the anode of diode 30 plus the pole of the power supply to connect a parallel circuit requesting a capacitor and a resistor that limits the width of the control pulses to Ti.

Since the anode of the diode 30, when discharging the capacitor 40 at the minus pole of the source formed by the capacitor 40, disconnects the thyristor control electrode 10 from the other parts of the circuit, which would otherwise not be possible to return the flip-flop.

The described bistable flip-flop can be used for its simplicity and reliability wherever it is necessary to control two states from the barley site (on-off and off-state).

Claims (1)

204152 3 thyristor and cathode thyristor 10 - first off 20 - minus pole of the source] thyristor 10 is opened. After opening the thyristor 10, the condenser 40 starts charging to the supply voltage in the circuit: the positive pole of the source - the transition between the anode and the cathode of the thyristor 10 - the capacitor 40 - the second resistor 21 - the minus pole of the source. Also, in the rest state, the bi-stable flip-flop is also actuated by actuation of the pulse control source 60, or by connecting a source of the source to the anode of the diode 30, thereby discharging the capacitor 40 through a thyristor 10 in the opposite direction to the holding current, the result of returning it to rest. Let T min be the minimum pulse width that is needed to actuate the bistable flip-flop. The time width T min depends on the charging time constant of the capacitor 40 and the switching properties of the diode 30 and the thyristor 10. Theoretically, it is proven (by solving differential equations) that when the bistable flip-flop is switched off, the critical pulse width at which the circuit is reactivated , T minplus Tv The width, expressed in time Tv, depends on the discharge capacitor of the capacitor 40. Therefore, the pulse width Ti at which the bistable hinged circuit is switched on and off reliably must be in the interval, T min. This implies that the bistable flip-flop circuit can be controlled by a pulse width control source 60, or by its own power supply, and if the actual power supply is used, then a switch contact such as a button that is connected to the anodicodes 30 and plus the pole of the power supply is required. to connect a parallel circuit requesting a capacitor from the capacitor By limiting the width of the control pulses to a Ti value, the anode of the diode 30, when discharging the capacitor 40 to the minus pole of the source formed by the capacitor 40, disconnects the thyristor controller 10 from the rest of the circuit, otherwise returning circuit to a rest state would not be possible. The described bistable flip-flop circuit can be used for its simplicity and reliability wherever two states need to be controlled from one point (switch-off state). OBJECT Bistable flip-flop with thyristor, characterized in that the condenser (40) is connected to the thyristor (10) cathode by one lead and one lead of the first resistor (20), the other is connected to one of the terminals. waters of the second resistor (21), one control source terminal (60) and a diode anode (30), the cathode of which is connected to a thyristor control electrode (10) whose anode is coupled to a second control source terminal (60) and a first power terminal (50), the second terminals of the first resistor (20) and the second resistor (21) being connected to the type of power terminal (51). Must