DE1194901B - Transistor Lock-Out Circuit - Google Patents

Description

Transistor Lock Circuit The invention relates to a circuit for a transistor blocking circuit that has a relatively high voltage switch has, e.g. B. for holding circuits of elevators.

Weak circuits, such as B. a transistor hold circuit comprise one or more switches, which are either also low-current or to For the sake of increased security, work with a relatively higher voltage. These Switches are known to have a hold circuit with at least two lines connected, one to the control pulse to the hold circuit, the other to the To convey output current from the hold circuit to the load.

The invention is based on the object of a switch arrangement create, with the help of which only one line instead of the two lines mentioned is needed. This is done according to the invention in that a resistor is connected between a high voltage power source and a collection point, from which two parallel branches proceed, one of which in the following Sequence and in series a switch, a resistor and a collection point and includes one load, while the other includes a capacitor, one single hold line from the assembly point with the hold circuit the switch from both switching pulses and output current.

The switch arrangement according to the invention is particularly advantageous for the hold circuit in elevators. In general, the holding circuits are housed in groups on the top floor of the house, so at a significant distance from the switches that operate them, which are located on the floors, including the loads that are also used for light or sound signals and also register the commands. In this way, instead of n (floors) -2-f-2 lines, only n (floors) -1 -2 lines are needed, which means significant savings when installing elevators, especially in high-rise buildings.

According to the invention, the load can be a collector load Be holding circuit and at the same time receive from this current when the switch is operated has been. This current will continue until the hold circuit is back in their starting position has been brought.

The invention is to be explained in more detail with reference to the drawing.

A transistor T 1 does not conduct, a transistor T 2 conducts in the starting position of the holding circuit. The switch S is interrupted and a capacitor C is charged with the sum of the high voltage V1 plus the low voltage V3 through a resistor R 2. Relative to a collection point E, a collection point A 2 is at the positive potential of V1. Since the transistor T1 does not conduct, a collecting point D must be negative, and the base of the transistor T2 receives current via a resistor R 7 and a load L in parallel therewith together with a resistor R5 connected in series with resistor R 7. This current keeps the transistor T2 in the conductive state so that a collecting point G is at the ground potential of a point E. Two resistors R 3, R 4 give the base of transistor T 1 a positive potential, since they share the potential between point G and a positive bias voltage V2.

When the switch S is actuated, the point A 3 immediately receives the potential of the high voltage V1, which with the help of a resistor R 1 reduces the point A 1 and reaches the load L. A point D is connected to a point A, so the collector of the transistor T 1 follows the point A, during which the voltage rises in a positive direction towards the point E. The base of the transistor T 2 now receives a positive potential because point D is grounded at point E, and the resistors R 5, R 6 share the voltage between point D and the positive potential V2. Transistor T2 does not conduct, transistor T1 conducts to load L. The base of transistor T 1 receives current through two resistors R 8, R 3 because point G has a negative potential. A diode D 0 conducts when point D is more positive than the ground potential in point E. This prevents an excess of positive potential from hitting the collector of transistor T1 when switch S is actuated. The capacitor C discharges through a resistor R 1 and the load L as long as the switch is closed. When the switch is interrupted, the capacitor C is recharged, and the switch arrangement can be operated again when the holding circuit is returned to its original position, which can be done, for. B. with a negative signal at the base of transistor T2 or in any other known manner. If the holding circuit is not brought into its initial position, the capacitor C is discharged via resistor R 1 and load L each time the switch S is actuated. The resistor R 7 is a dummy load which ensures that the switch arrangement works even if the load L fails. Batteries B 1, B2 and B3 are attached with a polarity that takes into account whether PNP or NPN transistors are used. There is therefore only one line IU to be provided between the holding circuit and the switch arrangement.

Claims (1)

Claim: Circuit for a transistor blocking circuit which has a relatively high-voltage switch, e.g. B. for stop circuits of elevators, characterized in that a resistor (R2) is connected between a current source (V1) of high voltage (more than about 100 volts) and a collecting point (A 2) from which two parallel branches extend from one of which contains in the following order and in series a switch (S), a resistor (R 1) and a collecting point (A 1) and a load (L), while the other contains a capacitor (C), with a single holding line (IU) from the collecting point (A 1) with the holding circuit provides the switching of both switching pulses and output current. Documents considered: German Patent No. 1085 572.