DE1222536B - Gate circuit for bistable multivibrators, counting decades and similar toggle circuits - Google Patents

Description

Gate circuit for bistable multivibrators, counting decades and similar multivibrators With bistable multivibrators, counting decades and similar multivibrators, regardless of whether they use tubes, transistors, controllable rectifiers or other devices as electronic switches, it is common to couple the trigger pulses via so-called gates. These gates, in each of which a diode, a resistor and a capacitor are connected together to form a T, ensure that the diodes via the resistors from the collectors of the transistors - for the sake of simplicity, only consider the transistor circuit of the multivibrator here - one Obtained certain bias, for the fact that a pulse is allowed to pass only at the open transistor, so the control pulse is not received by both transistors. In any case, however, the condition is that the control pulse has the opposite polarity to the operating voltage, i. In other words, with pnp transistors the control pulse must be positive, with npn transistors negative. If this is not the case, a pulse inverter must be used to convert the pulse accordingly.

The invention shows a gate circuit comprising a diode, resistor and capacitor for bistable multivibrators, counting decades and similar multivibrators that use Control pulses works which have the same polarity as the operating voltage own, which can therefore do without a pulse reverser stage. The inventive Circuit is characterized in that the control voltage of the gate instead of the Collector of the same transistor at whose base it is effective, from the collector of the respective other transistor is removed via the gate resistor, wherein the circuit of the diodes, resistors and capacitors is chosen so that the Trigger pulse for the transistors of the multivibrator first via the diode and then reaches the base of the respective transistor via the capacitor.

That in this way a control with pulses that are the same The polarity of the input voltage is possible, as shown below the drawing for two exemplary embodiments explained in more detail.

F i g. 1 shows the circuit of a transistorized bistable multivibrator, FIG . 2 the circuit of a counting decade with controllable rectifiers, so-called thyristors.

As already mentioned at the beginning, the circuits are also to be realized with tubes or similar switching devices.

In FIG. 1 is denoted by Dl, R7 and C, the gate of the transistor Tj, with D., R8 and C2das of the transistor T2. Assume that the transistor T is conductive and the transistor T2 is blocked. As a result, there is no voltage drop across the collector resistor R2 of the transistor T, so that the capacitor C, via the resistors Rp, and R, and via the base-emitter path of the transistor T, and the resistor R5 that is parallel to it, is shown in FIG Can charge polarity and voltage. The capacitor C2, on the other hand, can only be charged with the residual voltage of the conductive transistor T i. The diodes D, and D, prevent the current flowing through the resistors R, and R, from flowing into the input and thus destroying the charging of the capacitors C, and C ,.

If a positive pulse of 5 volts is applied to the input of the multivibrator , a reverse voltage of 5 volts remains for diode D. As long as the input pulse does not reach a value that goes beyond the charging voltage of the capacitor C, the diode D, remains blocked and there is no pulse output to the transistor Tj. The positive input pulse can, however , reach transistor T2 unhindered via diode D, and can therefore control it through so that the multivibrator tips over. With the next input pulse, the process is reversed.

The capacitors C, and C, seek to support this tipping process. Namely, while the transistor T i is turned on, the capacitor C i wants to discharge. The transistor T ,. As a result, it receives a negative pulse that accelerates the tilting process. On the other hand, because of the blocking of the transistor T, the capacitor C2 tends to charge itself. In addition to the positive input pulse, the transistor T receives the additional positive charge pulse from C2. The situation is very similar in the case of the counting decade according to FIG . 2, in which D, to D, R, to Rg and Q to C, the individual gates, the numbers 0 to 9 the indicator lamps and G, to G, the associated thyristors.

It is assumed that the indicator lamp 7 is on, the thyristor G is ignited, while all the other lamps are dark, ie. H. their thyristors. are locked. The next positive pulse applied to the input may only reach the starter of the thyristor G belonging to the indicator lamp 8 . All other thyristors must not receive the pulse so that they remain extinguished until it is their turn to count.

Looking at the gate D, RI, C, for the number 1, it can be seen that the capacitor C, since the thyristor G is extinguished, with the operating voltage via the lamp 0, the resistor R, and the stator bleeder resistor with the registered polarity can charge. If a positive pulse of 5 volts reaches the input, the result is a differential voltage at diode D of 5 volts. This voltage is in the reverse direction at diode D so that the pulse cannot reach the starter.

This applies analogously to all other numbers, with the exception of the number 8, which should be displayed after the number 7 - -. The capacitor Cs of this number cannot charge because the thyristor G, has ignited and only a small residual voltage - the arc or burning voltage - remains between its anode and cathode. When a positive pulse arrives, there is therefore no differential voltage in the reverse direction for diode D. - The input pulse can therefore freely across the diode D and the capacitor C8 to the stator of the thyristor G, reach and thereby bring the thyristor G8 to ignite, so that the lamp lights up. 8 At the same time, the number 7 is made to go out via the coupling capacitor between the anodes of the thyristors G, and G.

Claims (2)

Patent claim: 1. gate of the diode, resistor and capacitor for bistable multivibrators, counting decades and similar flip-flops, d a d u rch g c kc is used to mark, that the drive voltage of the gate instead of from the collector of the same transistor, at its base, it is effective from the collector of the respective other transistor is taken via the gate resistor, the circuit of the diodes, resistors and capacitors being chosen so that the trigger pulse for the transistors of the multivibrator first reaches the base of the respective transistor via the diode and then via the capacitor. 2. Gate circuit according to claim 1, characterized by the application to bistable Multfi vibrators, counting decades and similar flip-flops that work as electronic switches instead of transistors with tubes, controllable rectifiers or other organs. Documents considered. German Auslegeschriften No. 1136 373, 1153 796, 1179996.