DE2435986A1 - Control circuit for bistable circuits - has two transistors of opposite conduction types and third transistor of first conduction type - Google Patents

Abstract

An input pulse is applied to the control electrode of a first transistor, whose output electrode is connected to the collector of a second transistor, and it is also applied to the base of a third transistor which is of the same conduction type as the first; the base of the second transistor is connected to the third transistor collector; an output voltage can be collected from the main circuit of the interconnected transistors. A rectifier (D1, D2) is inserted into the first transistor emitter circuit, and a time constant element (R, C) into the third transistor emitter circuit.

Description

Circuit arrangement for controlling bistable circuits The invention refers to a circuit arrangement for controlling bistable circuits, wherein an input pulse of the control electrode of a first transistor of a first conductivity type is supplied, the output electrode of which is connected to the collector a second transistor of a second conductivity type and the base of a third Transistor from the first Conductivity type is connected, and where continue the. Base of the second transistor to the collector of the third transistor is connected and from the main circuit of the interconnected transistors one Output voltage can be derived.

Such a circuit arrangement is, for example, from the DT-AS 1 293 847 known.

In this known arrangement the initial state, e.g.

the operating position of a relay is only maintained as long as the input variable is present. Another holding relay is required for self-holding.

In many applications, e.g. so-called contactless switches, however, it is necessary to maintain an initial state even if there is no longer any input variable and change the output state u if again an input variable is supplied.

The present invention is therefore based on the object of providing a To improve the circuit arrangement of the type mentioned in that each the supply of an input variable is sufficient to change the output variable while this output variable is retained even if the input variable is absent.

This is done according to the invention in that the performance of the not main electrode connected to the coupled transistors of first transistor a rectifier polarized in the direction of current flow and into the line the main electrode of the third transistor not connected to the second transistor a timer is included.

Based on the drawing, an embodiment of the invention Circuit arrangement described.

An input pulse arrives at an input E, which is connected to the base a first transistor T1 of the npn type is connected.

The collector of this transistor is both with the collector of one second transistor T2 of the pnp type and also with the base of a third transistor T3 connected by the npn type. The base of the second transistor T2 is connected to the collector of the third transistor T3 connected.

Two diodes D1 are in the emitter line of the first traistor T1 and D2 switched on in the direction of current flow. In the emitter line of the second transistor T2 is a working resistance RA, ar can be a relay coil, for example or at which an output voltage UA can be tapped.

In addition, the emitter line of the third transistor T3 is from npn-type a timer switched on, which consists of the parallel connection of a resistor R and a capacitor C consists.

The mode of operation of the proposed circuit arrangement is the following: First, the transistors T2 and T3 are de-energized, the capacitor C is discharged. A current supplied to the input terminal E, since it is in the emitter of the transistor T1 finds the threshold formed by the diodes D1, D2 over the collector of transistor T1 flow to the base of transistor T3 and the bistable Switch on the arrangement consisting of the transistors T2 and T3. The threshold can can also be generated by dividing the operating voltage with the help of resistors.

Due to the emitter current of the transistor T3, the capacitor C is a Voltage has been built up which is greater than the voltage across diodes D1 and D2. If a new pulse is now fed to the input of the first transistor T1, so this transistor T1 works in the normal mode of operation. His collector sucks the base current of the transistor T3 and thereby switches the bistable arrangement the end.

The form of the control pulse is not critical. The impulse must however, be so short that it ends before the voltage on capacitor C rises the value of the voltage across the diodes D1, D2 has dropped.

It should be noted that the proposed circuit arrangement equally with transistors of opposite conductivity types can build up.

Claim:

Claims (1)

Circuit arrangement for controlling bistable circuits, wherein an input pulse of the control electrode of a first transistor of a first conductivity type is supplied, the output electrode of which is connected to the collector a second transistor of a second conductivity type and the base of a third Transistor of the first conductivity type is connected, and furthermore the Base of the second transistor connected to the collector of the third transistor and an output voltage from the main circuit of the interconnected transistors can be derived, characterized in that the line is not coupled to the Transistors (T2, T) connected to the main electrode of the first transistor (T1) rectifier (D1, D2) polarized in the direction of current flow and not in the line of the with the second transistor (T2) connected main electrode of the third transistor (T3) a timer (R, C) is added. L e r s e i t e