DE1298558B - Circuit arrangement for a multistable transistor circuit in the form of an n-part number chain - Google Patents

Description

The invention relates to a circuit arrangement for a multistable Transistor circuit in the form of an n-part counting chain with one transistor each per chain link and n-stable states in which one transistor is blocked and all other n-1 transistors are turned on, with a common Switch-on pulse feed, via which when switching from a stable state in the next of the control electrodes of the h-transistors simultaneously an incremental pulse is supplied and only incremental pulses of a certain amplitude and duration are switched on cause the counting chain. Such circuits are advantageously used as counters, 1-bit shift registers, Clock distributors, teletype broadcast distributors, parallel serial converters, etc. are used.

With the previously known multistable counting chains, only one transistor conducts, while the other transistors have a diode network held locked depending on the operating current of the conductive transistor will. The switching through of such a counting chain from a stable state in the next it happens simultaneously supplied by all transistors Control impulses. The control pulses act in such a way that the conductive transistor in the non-conductive state is returned and the one occurring at the working resistance Voltage surge is used to open the transistor following in the chain. The following transistor is switched on via a capacitor, between the collector of the previously conductive transistor and the base of the als next transistor to be controlled in the conductive state is switched on.

Such counting chains tend to be self-contained; To fan vibrations, so that it is necessary to have a resistor in series with the coupling capacitor to put in order to dampen these vibrations. However, this reduces operational reliability switching on, as the sensitivity of the chain to the input pulses is essential is reduced.

To eliminate these disadvantages, counting chain circuits are also already known which contain voltage dividers between a voltage source blocking the transistor and a voltage source that unblocks it and furthermore have a diode network which biases the remaining transistors via the voltage divider depending on the operating current of the transistor that is currently conducting so that only the transistor following the conductive transistor in the chain changes from the blocked to the conductive state at the next stepping pulse (German Auslegeschriften 1138 103, 1077 704).

These circuits also do not work safely because of errors two transistors can also be switched to the conductive state. aside from that the circuit complexity in such circuits is very large.

There is also a device for counting or controlling by electrical signals mapped chronologically successive processes with each one transistor per counting stage, in which the collectors of the transistors each with the base of the transistor following in the counting direction via a resistor and a valve (diode) and connected to the base electrodes of all remaining transistors one resistor each are coupled (German Auslegeschrift 1101826). At this The arrangement is determined by the stepping pulse of the transistor that has just been blocked The following transistor is blocked, and only then is the previously blocked transistor controlled in the conductive state. This creates an ambiguity in the output signal, since two transistors are temporarily blocked with each step forward are. Two control inputs are required and control signals are required at both inputs different potentials. This condition is followed by a further upstream Circuit unit met. The coupling from the collector to the base of the subsequent Transistor consists of a resistor and a diode. All occurring at the entrance Interference pulses, including those that are inductively or capacitively coupled into the circuit control the counting chain one step further. The amplitude of the disturbance voltage only needs to exceed the low threshold voltage of the diode to be effective to become.

Another well-known electronic counting chain circuit (German Auslegeschrift 1148 264) has several switching stages, each with a controllable amplifier element have no tilting properties with a common control line and with a Directional lock chain. When switching, the outputs of the individual switching stages are each via a memory capacitor with the input circuit of the following in the cycle Switching stage connected, and by the pulse on the common control line all switching stages blocked. After the control impulse has subsided as a result of the different The memory capacitors are charged in the subsequent switching stage in the cycle the switching stage marked before the start of the pulse is reversed or switched through. With this arrangement, a single switching stage is in the conductive state, and all of them other switching stages are blocked via the diode network. Through the memory capacitor own vibrations can arise, or if errors occur, for example due to a defective transistor, several transistors can be switched on at the same time State. However, this ensures that the counting chain works reliably not guaranteed.

The object of the invention is to provide a circuit arrangement for a multistable Specify chain circuit, which compared to the known counting chains a greater security against unintentional switching due to interference pulses. The Effort compared to the known circuits is not increased and the switching pulses to be selected.

The solution to the problem consists in the combination of the following per se well-known features that the previously blocked transistor by the stepping pulse controlled in the conductive state and the working resistance of the now conductive Transistors resulting voltage jump of the control electrode of the downstream in the chain Transistor is fed, which is thereby switched to the blocked state, that the collector electrode of each transistor via a coupling capacitor and in In addition, a resistor with the base electrode of the downstream transistor is connected in series that is connected between the common input line and the base of each Transistor is a resistor that the time constant of the incremental pulse input circuit and the time constant of the coupling circuit are fixed and only incremental pulses of a certain amplitude and duration switch the transistors one step further and that from the collector of each transistor through a diode to the base of the other transistors a resistor is arranged and the base currents of the conductive transistors over the collector resistance of the blocked transistor flow.

The circuit does not tend to fan itself into oscillations. The circuit has two criteria to prevent interference pulses from being unintentionally switched on cause. By choosing the capacitor and resistor in the input line the selection of a certain pulse amplitude, so that a further switching only occurs at a fixed pulse amplitude. interfering pulses underneath the bar stay unconsidered. However, since individual glitches reach the selected threshold voltage can exceed, the duration of the input pulses is also determined. The input time constant and coupling time constant are set so that only Input pulses of a certain period of time switch the chain one step further. From the offered control impulses, only the impulses control the chain by one Next stage, which have a certain amplitude and a certain period of time.

Details of the invention are based on the drawing, which shows an advantageous Embodiment of a three-part circuit with three stable states contains, explained.

The counting chain consists of the transistors T 1, T 2 and T 3, the emitters of which are grounded and the collectors of which are connected to a negative operating voltage source - U via the resistors R 5, R 10 and R 15. The collector of each transistor is connected to the base of the downstream transistor via a capacitor and a resistor (C 2-R 7, C 3-R 12, C 1-R 2). A diode is connected to each collector of the transistors and is connected to the base electrodes of the other transistors via a resistor (G 1-R8-R13, G2-R4-R14, G3-R9-R3). The incremental pulses are applied to the input terminal E and at the same time fed to the transistors T 1, T 2 and T 3 via the resistors R 1, R 6 and R 11. The blocking voltage -I- U is fed to the individual transistors via the resistor R 16 and the resistors R 1, R 6 and R 11.

The mode of operation of the circuit arrangement according to the invention is described below: It is assumed that the transistor T1 is blocked, while the other transistors T2 and T3 are turned on. The collector of transistor T 1 is close to the battery voltage - U, while the collectors of the other transistors are close to earth potential. The base currents of the conductive transistors T 2 and T 3 flow through the resistor R 8 and R 13, the diode G 1 and the collector resistor R 5 of the blocked transistor T1. The base resistors R3 and R4 of the transistor T 1 are connected to the collectors of the conductive transistors T 2 and T 3 via the diodes G 2 and G 3, so that no base current can flow and the transistor remains blocked. So the state is stable. The lock voltages of the diodes G1, G2 and G3 - in the case under consideration only the diodes G2 and G3 - generate voltage thresholds through which the emitter-collector voltage drops of the conducting transistors are rendered ineffective in order to reliably block the one to be blocked Transistor - in the case under consideration, the transistor T 1 - to ensure. The use of simple and inexpensive diodes, for example selenium rectifiers, is sufficient for this.

Via the resistor R 16 and the input resistors R 1, R 6 and R 11, reverse voltage is applied to the base electrodes of the transistors from the voltage source -I- U, which, however, remains ineffective for the transistors T 2 and T 3 , since the via the Resistors R 6 or R 11 only slightly reduce the base currents flowing currents, so that the transistors are fully turned on and thus remain in their conductive state.

If a negative voltage pulse on to the input terminal E, the previously cut-off transistor T is controlled conductively 1 via the resistor R. 1 The positive voltage jump occurring at its collector controls the transistor T2 following in the chain via the capacitor C2 and the resistor R 7 into the blocking state. The blocked state is transferred from one chain link to the next by every stepping pulse applied to input E. The coupling capacitor and the resistor in series between the collector of one transistor and the base of the transistor following in the chain are decisive for the safe switching from one chain link to the other. In the present case, the transistor T 2 only remains blocked if the time constant for the positive blocking pulse, which occurs at the collector of the transistor T 1 and is primarily determined by the capacitor C 2 and the resistor R 7, is greater than the time constant of the negative voltage jump at the connections of the resistors R 1, R 6 and R 11 remote from the base the time constant of the control element and thus that of the control pulse can be selected as desired. If a suitable negative pulse of limited duration is available at input terminal E - it must be shorter than the above-mentioned positive blocking pulse via C 2 and R 7 or must be reduced by selecting C2 accordingly - this negative pulse can be used without interposing from C 4 are fed directly.

This measure ensures that only a certain pulse The counting chain continues from one stable state to the next while Interference pulses whose duration is longer cannot advance the counting chain and thus remain ineffective.

In the case under consideration, instead of the transistor T1, the transistor T 2 is blocked in a corresponding manner, and the transistors T 1 and T 3 are conductive. With the next step-up pulse at the input terminal E, the transistor T 3 is blocked, with the next again the transistor T1 etc., since the circuit of the circuit example described is fed back in a ring shape and thus represents a ring counter. However, other variants can easily be ten, e.g. B. without this feedback, or so, de Jus of any length back to its starting position can be reset, etc., build up. By the use of transistors of the npn type 4p Instead of the pnp type used is the continuation switching of the counting cells to the input terminal E applied positive voltage pulses possible.

Claims (5)

Claims: 1. Circuit arrangement for a multistable trap transistor circuit in the form of 4 of an n-link counting chain with one transistor per link and n-stable states, in which one transistor is blocked and all other n-I surge resistors are conductively controlled, with a common one Through-pulse supply via which, when switching from a stable state to the next, an incremental pulse is simultaneously fed to the control electrodes of the n-transistors and only switching pulses of a certain amplitude and duration cause the counting chain to advance, characterized by the combination of the following features known per se, that by the switching pulse of the previously blocked transistor is controlled into the conductive state and the voltage jump resulting from the load resistance of the now conductive transistor is fed to the control electrode: of the transistor connected downstream in the chain, which is switched to the blocked state by d The collector electrode of each transistor is connected to the base electrode of the downstream transistor via a coupling capacitor (C2) and a resistor (1Z7) in series with it, that between the common input line (E) and the base of each transistor there is a resistor (R 1) that the time constant (C4, R't of the progressive pulse input circuit and the time constant (C2, R7) of the coupling circuit are fixed and only progressive pulses of a certain amplitude and duration switch the transistors by one step and that from the collector of each transistor via 'a diode to the base the other transistors a resistor is arranged and the base currents of the conductive transistors flow through the collector resistance of the blocked transistor. 2. Circuit arrangement according to claim 1, characterized characterized in that between the input cycle (E) and the common connection point of the control resistors (R 1, R 6, R 1I) a capacitor (C 4) is switched on. 3. Circuit arrangement according to claim 2, characterized in that the reverse voltage (-I- ü) together to all transistors in the chain via the for switching pulse supply required resistors (R 1, .1Z 6, R 11) is applied. 4. Circuit arrangement according to claim 37, characterized in that between the input terminal (E) and the common connection point of the control resistors (R 1, R 6, R 11) is a capacitor (C 4) is switched on. 5. Schaltungsanärdnung according to claim 4, characterized in that ' that the time constant of the coupling capacitor (C2) and the one in series with it Resistance (R7) is chosen so that when switching through the preceding one Transistor by a Förtschaltungimpuls the downstream transistor safe Is blocked. @. Circuit arrangement according to Claim S, characterized in that the reverse voltage (-1-U) jointly to all transistors in the chain via the stepping pulse feed required resistors (R 1, R 6, R14) is applied.