SU1649653A1 - Transistorized key - Google Patents

Abstract

The invention relates to a pulse technique and can be used in process equipment control devices. The purpose of the invention is to increase the reliability and noise immunity of a transistor switch - is achieved by eliminating short-term inclusions during overloads and spontaneous inclusions during the passage of interference along the load circuit. In the absence of a control signal on the bus 12, transistors 1 and 2 are closed. When the opening signal arrives at bus 12, transistor 2 opens with a current pulse generated by capacitor 9. Transistor 1 is turned on and positive feedback is closed through diode 3, which maintains the open state of the switch. 1 il.

Description

The invention relates to a pulse technique and can be used in process equipment control devices.

The purpose of the invention is to improve the reliability and noise immunity of the transistor switch by eliminating short-term inclusions during overloads and spontaneous inclusions when noise is transmitted along the load circuit.

The drawing shows a diagram of a transistor switch.

The transistor switch contains power and control transistors 1, 2 of different types of conductivity, threshold element 3 (e.g. diode), first, second and third resistors 4, 5 and 6, resistor divider voltage 7, first and second capacitors 8, 9, and the collector of the power transistor 1 is connected to the output bus 10 and the first output of the first resistor 4, the second output of which is connected to the base of the control transistor 2 through the threshold element 3, the emitter of which is connected to the first output of the resistor voltage divider 7, the power transistor emitter pa 1 is connected to the common bus 11 and the first output of the second resistor 5, the second output of which is connected to the base of the power transistor 1, the second output of the first resistor 4 through the first capacitor 8 is connected to the common bus 11, the first output of the second capacitor 9 and the second output of the resistor divider 7 voltage, midpoint of which is connected to the second output of the second capacitor 9 and the base of the control transistor 2, the collector of which is connected to the base of the power transistor 1, the emitter of the control transistor 2 through the third resistor 6 is connected to control bus 12.

The resistor divider voltage 7 contains the fourth and fifth resistors 13, 14. which are connected in series.

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Transistor key works as follows.

In the initial state, when the opening signal is not applied to the control bus VI, transistors 1 and 2 are closed. Consider the operation of the key in the absence of overcurrent or short circuit in the load. When the opening signal arrives at the control bus 12, the transistor 2 opens under the action of a trigger pulse, forming a capacitor 9. The current from the control bus 12 flows through the resistor 6, the emitter-collector junction of the transistor 2 and opens the transistor 1. At the same time the collector of transistor 1 is reduced and transistor 2 is held by the open current flowing through the emitter-base junction of transistor 2, diode 3, resistor 4 and emitter-collector junction of transistor 1.

When the collector current rises during overloads or during a short circuit in the load, the voltage on the collector of transistor 1 begins to increase. As soon as the potential at the output of diode 3 becomes greater than on the ornd, diode 3 is locked, then transistor 2 is closed, which causes closing transistor 1.

Capacitors 8, 9, resistors 13 and 4 protect the key from inadvertently turning on when noise is transmitted through the load circuit. Diode simultaneously serves to protect the base-emitter junction of transistor 2 from high voltage.

After elimination of the short circuit in the load circuit or overcurrent, the transistor switch remains in a stable closed state until the opening signal to the control bus 12 again.

The threshold for tripping over current overload depends on the ratio of the resistances of resistors 6 and 5.

The reliability and noise immunity of the proposed transistor switch is higher than that of the known ones, due to the elimination of short-term inclusions during overloads and spontaneous inclusions during the passage of interference along the load circuit.

Claims (1)

The invention includes a transistor switch containing power and control transistors of different conductivity types, a threshold element, first, second and third resistors, a resistor voltage divider, a collector of the power transistor connected to the output bus and the first output of the first resistor, the second output of which is through the threshold the element is connected to the base of the control transistor, the emitter of which is connected to the first output of the resistor voltage divider, the emitter of the power transistor is connected to the common bus and the first output of the second A resistor, the second output of which is connected to the base of the power transistor, characterized in that, in order to increase reliability and noise immunity, the first and second capacitors are inserted into it, the second output of the first resistor being connected via a first capacitor to the common busbar, the first output of the second capacitor and the second terminal of the resistor voltage divider, the midpoint of which is connected to the second terminal of the second capacitor and the base of the control transistor, the collector of which is connected to the base of the power transistor, emitte p of the control transistor through the third resistor is connected to the control bus.