DE1274189B - Multi-stable electronic pulse counter - Google Patents

Description

Multistable Electronic Pulse Counter The invention relates to a Multi-stable electronic pulse counter, each of which has counting levels from an amplifier element exist, in which there are at least two counting levels in an excellent and at least one is in poor condition, with links that are between the output of each stage and the input of a preceding and a subsequent stage, with voltage dividers to stabilize the Stages and optionally containing rectifiers, from the outputs of the respective steps accordingly prepared entrance gates, which are at a common Counting pulse line lie.

A well-known from Taschenbuch der Hochfrequenztechnik, 2nd edition, 1962 bistable counter consists of two stages, the output voltage of which depends on the Input of the other stage is coupled, and two coupling elements from a resistor for stabilization and a parallel coupling capacitor, which together form a differentiator form. One of the two levels is in excellent condition, which is recognizable by a certain value of the output voltage, the other is not drawn. A counting pulse hits the inputs of both stages, whereby the marked step flips into the non-drawn state. Because of the coupling link The step, which was not drawn at the beginning, then turns into the excellent state. The differentiator converts depending on the sign of a voltage jump the voltage jump into a pulse at the output of the stage marked at the beginning around. Another counting pulse causes the reverse tilting process. In order to improve of the tipping process, the output voltage of each stage can be an input voltage Control the entrance gate that is only open when the step is in an excellent state.

It. Is known from the German. Auslegeschrift 1153 418, for counting a large number of pulses to interconnect several counters to form counting circuits, with it is desirable to have one with the smallest possible number of stages counting large number of pulses. For this purpose, the German Auslegeschrift 1071130 a counter of the type mentioned at the beginning is known. In this known counter there is in each case one of the coupling elements emanating from the output of a stage Resistor and the other from a rectifier. The rectifiers block theirs Coupling elements in one direction also direct current and are polarized in such a way that the one located at the exit of the stages not shown in the drawing Rectifier is permeable and a counting pulse fed to the previous stage derives, whereas the other rectifiers are blocked, so that a counting pulse can only prevail at the level following the level not shown. Also located In the known counter, regardless of the number of stages, only one only stage not shown.

The object of the invention is now to provide a counter of the type mentioned at the beginning To create a way in which the counting pulse prevails at the level not shown can whose stability is independent of the rectifiers and which under more than three stages can also have more than one stage not shown.

The invention achieves this by a counter of those mentioned at the beginning Kind, which is characterized in that in the differentiator known per se a rectifier is provided in series with the capacitor, so that as a function of the sign of a voltage jump at the respective outputs of the stages Differentiation of this voltage jump caused depending on the intended method of counting or is prevented.

By a coupling member of the counter according to the invention can in a Direction only one impulse of a certain sign run, depending on in which direction the rectifier is permeable. It is called when tilting a step from the marked impulse occurring in the non-drawn state as a tilting impulse and that when tilting from the undrawn to the marked one State occurring as a blocking pulse, the coupling element is either for one Tilt or a blocking pulse permeable, as both differ in their sign. Here, the tilting pulse is essential to the function because it is the excellent state transmits to another level and the blocking pulse promotes function as long as it only meets steps that are not shown. By. the differentiators in the coupling elements having a rectifier is not only advantageous an increased counting speed of the counter according to the invention achieved because the Response time of a stage controlled by a pulse via a differentiating gate shortened compared to the response time of a stage triggered by a voltage jump is. Rather, these differentiators are for the function of the invention Absolutely necessary because a counter is in the counter while the counter is being tilted generated impulse at the entrance of a stage becomes effective more quickly and emphatically as a voltage jump that occurred in the meter during the tilting process.

In addition to functionally essential tilting pulses occur in the inventive Counter also function-enhancing locking pulses when it is next to coupling links that from each stage to a preceding one that blocks a differentiator Have rectifiers, also coupling elements, each from each stage to one subsequent one blocking a differentiator in the opposite direction Have rectifier owns.

As long as a counter according to the invention has only one step (not shown) the number of countable counting pulses is equal to the number of stages. An improvement The stages can be used if more than one state is not shown running around. It is advantageous to choose more than one from the number of all combinations excellent and unsigned connected to a counter according to the invention Stages to select the sequence of combinations that are relevant to utilization and sizing is cheap. A preferred embodiment of the invention The counter is thus characterized by a sequence of combinations of states with at least two combinations which are not shown in the drawing. Here everyone has Combination records the same number of undrawn states.

To ensure that the counting pulses arrive at the inputs of the stages control that only the next desired combination is created are stages provided with entrance gates controlled by other steps at the entrances. Advantageous it is here when the controlled gates of each step are of the same type. This from gates controlled by one or more other stages allow an incoming counting pulse through to the entrance of the stage only when the controlling stages are in a particular one State. With regard to the design of the goals, it is advantageous to use a Count sequence of combinations, each with any first combination by at least any first and any second distinguished level and a second combination is determined by either the first or the second and any third distinguished level is determined. To this episode of To achieve combinations that work with several excellent states, it is advantageous to use the i controlled gates in the manner of "and" or "or" circuits build up. It is also advantageous to use only one sequence of combinations to count, with the number of excellent conditions and the number of unsigned States are different from one another by at least 1.

In the counter according to the invention, the counting pulses cause a certain sequence of combinations is run through. To see if the initially existing combination is reached again, the outputs are more appropriate Levels controlled gates from other levels are switched through which then an impulse exits when the sequence has passed. The inventive counter is not only. can be used in counting circuits. It is advantageous for. B. as a pulse frequency scaler used. In a counter according to the invention with a single circulating, not As shown in the drawing, only the number of steps required increases with the gear ratio.

Preferred embodiments of the meter according to the invention are explained in more detail with reference to the drawing. In the drawing, F i g. 1 a coupling element with a differentiating element and rectifier, F i g. 2 a tristable counter made up of three stages with controlled gates, FIG. 3 shows a sequence of ten possible combinations for a counter made up of five levels, FIG. 4 shows the circuit diagram for the coupling elements of one with the sequence from FIG. 3 working counter, F i g. 5 shows the circuit diagram for controlling the gates of a counter according to FIG. 3 and 4, FIG. 6 shows a different sequence of the ten possible combinations of a counter of five stages, FIG. 7 shows the circuit diagram for the coupling elements in a sequence according to FIG. 6, fig. 8 shows the circuit diagram for controlling the gates of a counter according to FIG. 6 and 7, FIG. 9 shows the circuit diagram for the counter according to FIG. 6, 7 and 8, FIG. 10 a sequence of twelve possible combinations for a counter made up of six levels, and F i g. 11 shows the circuit diagram for the coupling elements of one with the sequence from FIG. 11 working counter. F i g. 2 shows a counter made up of three stages S 1, S 2 and S 3 formed by transistors with load resistors RL at the collector K1, K2 and K3 and base resistances Rb at the bases B l, B 2 and B3. Coupling elements KO 1 are formed by coupling capacitors CK with rectifiers DK in the form of series diodes and parallel coupling resistors Rk; Coupling elements KO 2 consist only of a coupling resistor Rk. Furthermore, each stage has a controlled input gate TI, T2 or T3, each of which consists of a control resistor Rs, a control diode DS and a control capacitor Cs. The three stages S1, S2, S 3 are connected in a ring, since the points P1, P1 'and P2, P2' and P3, P3 'are each identical.

The stages S 1 and S 2 are in an excellent state, which is determined by the fact that the associated transistors draw current, so that there is a weakly negative potential at the collectors K1 and K2. This means that the control diodes Ds of the stages S1 and S3, which are controlled via the control resistors Rs by the voltages at the collectors K2 and K1, are permeable to a positive counting pulse on the common counting pulse line Jp, while the control diode Ds of the stage S2 through the strongly negative potential at the collector K3 of stage S3 is blocked. A positive counting pulse Jp can therefore reach the input, the base, the steps S1 and S3. Since stage S3 is not shown, the counting pulse has no effect on it. The stage S1, on the other hand, is switched to the state not shown, that is, its transistor is blocked. The voltage jump occurring at its collector K1 after a strongly negative voltage goes as a negative tilting pulse via the coupling element KO 1 of the stage S 1 to the base B 3 of the stage S3 and tilts it into the excellent state. The marked state therefore runs in the direction of arrow 2 in the counter.

With this counter, only functionally essential tilting pulses can arise and take effect. The coupling resistance Rk also fulfills both of the coupling elements K01 the function of a DC biasing resistor as well as that of a Differential resistance. F i g. 1, however, shows a coupling member that consists of a There is a coupling resistor Rk and a differentiating circuit CKJRO. The coupling link has a diode rectifier in series with the differentiating circuit DK.

F i g. 3 shows a sequence of combinations for a counter with five levels S1 to S5, where "1" denotes a marked level and "0" denotes a level which is not shown. The sequence comprises the ten combinations which, among all combinations, are determined by two marked and three not shown stages. In this sequence, a first and an adjacent second level are marked in each case in a first combination, while in a subsequent second combination the second and, as a third, the next but one level are marked. For example, in the first combination, levels S1 and S2 are excellent. In the second combination, the excellent state of stage S1 has passed over two stages to stage S4. The excellent state does not run from one level to the next, but rather skips certain levels.

In Fig. 4 is for the in F i g. The sequence of states shown in FIG. 3 shows the circuit diagram for the coupling elements which connect the stages S1 to S5. Straight lines AE mean that a coupling resistor is present between the two stages which they each connect. An arrow PAE points from the output of one stage to the input of the next. Rectifiers DKK show that between the output of one stage and the input of the other stage no passage is possible for breakover pulses, while rectifiers DKS indicate the same for blocking pulses. For example, the coupling element from step S2 to step S3 is impermeable to toggle pulses and the coupling element from step S3 to step S2 is impermeable to both toggle and blocking pulses.

Assuming that steps S1 and S2 are initially marked and a counting pulse brings step S 1 into the state not shown, the resulting tilting pulse can only reach step S4. A blocking pulse that occurs during this process can reach levels S5 and S1, but not S2 and S3. If stage S2 switches to the state not shown at the next counting pulse, the resulting tilting pulse can only reach stage S5 , since all other coupling elements are blocked by the rectifier DKK. The blocking pulse emanating from the stage S5 is prevented by a rectifier DKS from influencing the marked stage S4.

F i g. FIG. 5 shows the circuit diagram for the control of gates in front of the entrances of five stages, which according to the diagram in FIG. 4 are coupled and with those according to the in F i g. 3 is counted .. The gates U1 to U5 are all of the same type, are each controlled by the output voltages of two stages and work like an "and" circuit. A gate belonging to a stage is controlled by the previous and the third stage, e.g. B. belonging to the step S2 gate U 2 from the steps S 1 and S5.

A gate is then open for a counting pulse arriving on the counting pulse line J when the stages controlling it both z. B. are not drawn. Are z. B. the steps S1 and S2 are distinguished, so S1 blocks the gates U2 and U3 and S2 blocks the gates U3 and U4. The counting pulse can therefore reach the input of the stages S1 and S5 and tilt the stage S1 into the non-illustrated state, while the stage S5 remains in its previous non-illustrated state.

F i g. 6 shows a different sequence of the five stages. with two excellent states ten possible combinations. Here the two marked states alternate from one level to the next, e.g. For example, in combinations 4 and 5, the excellent state goes from level S2 to level S3, and in combinations 5 and 6, the excellent state from level S 4 to level S 5. In FIG. 7 is that of FIG. 6 associated circuit diagram for the coupling elements is shown, which shows that a toggle pulse from one stage can only ever reach the next next.

F i g. 8 gives this to FIG. 6 and 7 belonging circuit diagram for the control of the gates O 1 to O 5 in front of the inputs of the stages S1 to S5. Each gate is dependent on the previous and the second following level and works like an "or" circuit. A gate always lets an incoming counting pulse through if at least one of the two levels is not shown or marked. Are z. B. the steps S1 and S3 are marked, the gate O 1 is open, since although S5 is not shown, but S3 is marked, and the gate 03 is blocked, since both S2 and S5 are not shown.

The in F i g. 9 decistable counter shown consists of five stages S1 to S5 formed with transistors with load resistors RL on the collectors and base resistances Rb on the bases. The emitters are connected in common to a resistor RE and a capacitor CE. The outputs and inputs of the stages are coupled by connections AEmn, where m is the number of the input stage. Each connection includes a coupling resistor Rk. Each compound to the next successive stage comprises in parallel with the coupling resistor Rk a coupling capacitor Ck and a permeable Kippimpulse rectifier DKK and each connection to the second preceding parallel to the coupling resistor Rk a coupling capacitor Ck and a permeable barrier pulses rectifier DKS. Each of the parallel connections of a coupling resistor Rk and a coupling capacitor Ck is a differentiating element. There is also a control resistor Rs on each collector, from which two control connections STmit emanate, where m is the number of the controlling stage and h is the number of the controlled stage. The control connections STmn each end at the common point of control capacitors CS and control diodes DS.

If the stages S 1 ″ and S 2 are in an excellent state, which is determined by the fact that the transistors draw current, the output voltage of the transistors is weakly negative. The output voltage of the other stages is strongly negative. This means that Both control diodes DS of stage S1 are blocked, while the diode DS of stage S 2 controlled via the connection ST 42 is blocked and the diode DS controlled via ST 12 is not blocked DS of step S2 get to this and tilt it into the state not shown. In the following combinations, in which the steps S 1 and S 3 are distinguished, the ratios are corresponding.

The sequence in FIG. 10 for six levels S 1 to S 6 with two excellent States "1" are traversed in the same way as that in FIG. 6 shown. By adding a step, the number of countable counting pulses is compared to the Example in FIG. 6 increased by two. In the case of the one shown in FIG. 11 illustrated associated Circuit diagram in which AE direct current coupling of output and input of two Stages means and arrows PAE from the exit of one stage to the entrance of the next stage show, in contrast to previous examples, rectifiers DKD which coupling elements are permeable to tilting impulses.

Claims (5)

Claims: 1. Multistable electronic pulse counter, whose Counting stages each consist of an amplifier element in which at least two counting levels in an excellent and at least one in an unsigned State, with coupling elements located between the output of each stage and the entrance of a preceding and a subsequent stage, with voltage dividers to stabilize the stages and, if necessary, with a rectifier containing, prepared accordingly by the outputs of the respective stages Entrance gates that are on a common counting pulse line, d a d u r c h g e k e n n nz e i c h n e t that in the differentiating element known per se (RK, CK) a rectifier (DK) is provided in series with the capacitor (CK) so that depending on the sign of a voltage jump at the respective outputs (K 1, K 2, K 3) of the stages (S 1, S 2, S 3) a differentiation of this voltage jump is caused or prevented depending on the intended method of counting. 2. Pulse counter according to claim 1, characterized in that it has coupling members (AE), each from each stage (S1 to SS) to a preceding one a differentiator have in one direction blocking rectifier (DKK), and coupling elements that from each stage to a subsequent one a differentiator in the have opposite direction blocking rectifier (DKS) possesses. 3. Pulse counter according to Claim 1 or 2, characterized in that it has more than three and an odd number of stages (S1 to S5) that excel and levels not shown differ by just 1. 4. Pulse counter according to claim 1, 2 or 3, characterized in that the controlled gate for the Counting pulse at the input of a stage (e.g. S1) one from the output of at least two of the previous stages (S4, S5) controlled "and" circuit (U1). 5. Pulse counter according to claim 1, 2 or 3, characterized in that the controlled gate for the counting pulse at the input of a stage (e.g. S 1) one from the output of the preceding (S5) and at least the second following (S3) controlled » Or «circuit (01). Considered publications: German Auslegeschriften Nr. 1071130, 1153418.