DE1088555B - Free selection circuit based on the principle of connecting several negative resistors connected in parallel - Google Patents

Description

The free choice at the individual levels of a telecommunication facility is generally timed by a successive checks carried out on the respective facilities. To avoid of the temporal one after the other are also known free selection circuits that operate according to the principle of Parallel connection of negative resistances work. With suitable dimensioning z. B. of several Always ignite glow tubes operated via a common series resistor. The known negative resistances are either not very reliable or require expensive components.

The invention aims to improve the known free selection circuits and a high level of operational reliability to achieve with the usual components, while at the same time a greater variety in the control options for such a free selection circuit results, as in the known Arrangements always only have a very specific control potential, for example the supply a positive pulse to the control electrodes of the various links, for example the glow lamps, is possible. This is achieved by the invention in that the negative resistances are each made up of one two transistors existing multivibrator are formed and that each one of the transistors similar electrodes of the transistors of the individual which conduct current in a certain switching state Multivibrators share a common resistance with the corresponding electrodes of the opposite Switching state current-conducting transistors of these multivibrators are connected, while in a common lead to all these identical electrodes of the individual transistors there is also a common resistance. This makes it possible to use both positive and negative control pulses can also be used, as a multivibrator depending on the point at which the control pulse is switched on can be reversed by positive as well as negative impulses. While at the above-mentioned known free selection circuits with negative resistances in the form of glow tubes the system in question into which such a free selection circuit is installed must always be designed in this way is that the control pulses have the polarity required to control the free selection circuit, if you do not want to insert additional inverter stages to convert these control pulses into the control of the Free selection circuit transfer suitable form, the free selection circuit according to the invention can without such means can be inserted into a particular system, since the multivibrator circuit by pulses any polarity can be controlled.

An embodiment of the invention is in

Free selection circuit according to the principle
the connection of several negative resistors connected in parallel

Applicant:

Telefonbau and Normalzeit GmbH,
Frankfurt / M., Mainzer Landstr. 134-146

Dipl.-Ing. Norbert Kleber, Munich,
has been named as the inventor

Drawing shown, which shows a circuit for free selection among three outputs.

In the diagram, Tl to T6 ordinary PNP junction transistors and D 1 to D 4 germanium diodes. The switches S1 to S5 are drawn as switching contacts only for the sake of simplicity to explain the mode of operation. In the actual implementation, electronic devices can be used in place of the switches, which are controlled by the outputs α, b and c, among other things.

By briefly closing 5 "5, the circuit is returned to its initial state, ie transistors Γ 4, T5 and Γ6 are energized.

If S 1 is briefly closed to initiate the free selection process , the transistors Tl, T 2 and T 3 come so far into the active area that the bistable circuits consisting of the transistor pairs Γ1-Γ 4, T2-T5 and Γ3-T'6 come into the actual switching state, ie in the area of negative resistance. This area is unstable. In the feedback loops of all circuits is a common resistor 20, which prevents that two or three of the transistors Tl, T 2 and 7'3 come simultaneously into the saturation region. Therefore, only one of the three transistors mentioned can become live, while the other two transistors return to the blocking state. It is assumed that the transistor T 1 is energized. As a result, the transistor T4 is blocked and sends a negative pulse to the output α. This pulse causes an actuation of the switch S2 via a bistable circuit, not shown, whereby the transistor Π is blocked again

009 590/83

and transistor T4 becomes conductive. S2 remains closed until a member which is occupied by the negative pulse from α and is not shown in detail is no longer required and is activated. So long as S 2 is closed, the bistable circuit Tl-T 4 is not longer involved in the hunt operation, so that only between the transistor circuits T2 and T3-T5-T6 takes place when a new selection momentary closing of Sl. If all switches S2, S3 and Si are closed, a negative pulse cannot be generated at any of the outputs a, b, c after pressing S1. When the devices of the relevant outputs become free, the associated contacts 5 * 2, S3 or 5 "4 are opened again and the connected bistable circuits are again involved in the further free selection processes.

In the case of a free selection circuit, only two or more than three bistable circuits can be arranged in parallel. It is also not necessary that the transistors are completely in the saturation or blocking range in the rest or working position. If, instead of a positive voltage, a negative voltage is available for the busy identification, then the lines leading from the switches S2, S3 and Si must be connected to the base connections of the transistors Ti, T5 and T 6. When using NPN transistors, the polarity of the diodes and voltage sources must be reversed. If monostable multivibrators are to be used instead of bistable multivibrators, the switches must be actuated within a certain time interval.

Claims (6)

Claims: 35 1. Free selection circuit based on the principle of connecting a plurality of negative resistors connected in parallel, characterized in that the negative resistors are each formed by a multivibrator consisting of two transistors (Tl, Ti; T2, T5; T3, T6) and that each one of the in all Transistors of the same type of electrodes (emitters) of the transistors (Tl, T2, T3) of the individual multivibrators that conduct current in a certain switching state via a common resistor (D 1) with the corresponding electrodes of the transistors (Ti, T5, T6) of these multivibrators that conduct electricity in the opposite switching state are connected, while a common resistor (20) is also located in a common lead to all these electrodes of the same type of the individual transistors. 2. Free selection circuit according to claim 1, characterized in that the electrodes of the same type in all transistors of the current-conducting transistors of the individual multivibrators with the corresponding electrodes of the current-conducting transistors of these multivibrators in the opposite switching state coupling common resistance by a diode (DT) behind which the voltage (+172) required to trigger the free selection process is applied. 3. Arrangement according to claim 2, characterized in that for the individual multivibrator circuits a common emitter resistor (20) is used. 4. Arrangement according to claim 2 and 3, characterized in that one of the collectors the identification potential that occurs during a separation process is tapped off in both transistor groups. 5. Arrangement according to claim 2 and 3, characterized in that the blocking and resetting is carried out by applying appropriate voltages to the base terminals of the individual transistors (T 1-T3) . 6. Arrangement according to claim 2 and 3, characterized in that to achieve one for the Special feature of the arrangement of favorable negative resistance curve of the collector resistance (1, 10; 2, 11; 3, 12) for the normally de-energized Transistors (Tl-T 3) for connecting the coupling resistor (15, 17, 19) as a voltage divider is trained. Considered publications:
German patent specifications No. 956 593, 1 004675. 1 sheet of drawings ® 009 590/83 8.