DE1153066B - Forward-backward counter with at least two counter throttles - Google Patents

Description

Up / down counter with at least two counting chokes In the Circuit technology is often given the task, depending on the frequency of a task first or second event to trigger a first or second operation. These Task can be solved with an up-down counter. This counter will while z. B. for every first event to the next higher and every second Event switched to the next lower count value. As a rest position z. B. the mean count of the counter is set. If the counter reaches the highest or the lowest count, this can be used as a criterion for that the first or the second event predominates. Such up / down counters are known build using bistable multivibrators and gate circuits.

In addition, so-called counting chokes can be used as up / down counters operate. Structure and mode of operation of such counting chokes are z. B. from the essay "The counting choke, a magnetic circuit element", Siemens-Zeitschrift, 1952 Pp. 140 to 144, known. The setting of an average count, i.e. H. the starting position when used as an up-down counter, however, requires that the after complete Magnetization reversal quantized according to the reset pulse occurring in one direction must be, d. H. must have a certain pulse power, since the counting throttle should not be magnetized back completely, but only halfway.

The invention relates to such an optional forward or down counting counter and uses at least two counting chokes. According to of the invention are both counting chokes by the pulses of a first pulse train in one direction and through the pulses of a second pulse train in the other direction magnetizable, with a counting throttle after complete magnetization in the one direction and the other counter throttle after a complete magnetization reversal in the emits an output pulse in the other direction. This results in how still Hand of the drawings will be explained, a simpler structure compared to the above Circuits, as the one characterized by opposite remanence positions of the counting chokes Initial position of the counter (mean count value) without the use of quantized reset pulses can be brought about. There are also others to be explained later Differences and advantages.

Details of the invention are explained using an advantageous embodiment shown in the drawing. The two counting throttles are labeled K3 and K4, respectively. The upstream quantization magnetic cores K 1 and K 2 supply the counting pulses for the counting chokes K3 and K4. In the idle state, the magnetic cores K 1 and K 2 are held, for example in the negative remanence position, by a constant bias current through their windings 2 and the resistor R 7. If, for example, a pulse occurs at input E1, a pulse current flows through winding 1 of magnetic core K 1 and resistor R3 for the duration of this pulse, causing magnetic core K 1 to be reversed into positive saturation for the duration of this pulse. This creates a voltage in the output winding 3 of the magnetic core K1 which, via the resistor R 1, controls the emitter-base path of the transistor T 1 and thus the transistor T 1 to be permeable. A pulse occurs on line L 1 and is fed to windings 1 of counting chokes K 3 and K 4.

If a pulse occurs at input E2, flows in the same way via the winding 1 of the magnetic core K2 and the resistor R4 for the duration of this Pulse a pulse current that moves the magnetic core K 2 for the duration of this pulse controls the positive saturation and thereby in the winding 3 of the magnetic core K 2 a voltage is generated across the resistor R 2, the base-emitter path of the Transistor T 2 and thus also the emitter-collector path of transistor T2 permeable controls. In this case occurs on the line L 2 a Pulse on, which is fed to the windings 2 of the counter throttle InK3 and K4.

In the rest position, the counter throttle K4 is in the positive and the counter throttle K3 in the negative remanence position. The pulses appearing on line L 1 cause both counting chokes to gradually reverse magnetize in the negative direction. Since the counting choke K3 is already in the negative remanence position, the pulses occurring on the line L 1 do not change the state of this counting choke. In contrast, the counter throttle K4 is gradually remagnetized into the negative remanence position. If the counting choke K4 is also remagnetized down to the negative remanence position, for example as a result of a plurality of pulses occurring one after the other on the line L 1, the voltage drop across the resistor R 5 is greater than due to the now low inductive resistance of the windings 1 of the counting chokes K3 and K4 the emitter bias voltage Ue, and the transistor T 3 is controlled to be conductive. The pulse current flowing through the emitter-collector path of this transistor sets the magnetic core K4 back into the positive remanence position via the winding 3 and causes an output pulse at the output A 1.

If, on the other hand, a plurality of pulses occur one after the other on the line L 2 on, the magnet core K3 is gradually remagnetized up to the positive remanence position. When the positive remanence position of the magnetic core K 3 is reached, in an analogous manner the inductive resistance of the windings 2 of the magnetic cores K 3 and K 4 is very small, since the magnetic core K 4 is also in the positive remanence position. The voltage drop at the resistor R 6 the emitter bias voltage exceeds Ue, the transistor T4 becomes conductive, and the pulse current flowing through the winding 3 of the magnetic core K3 represents the Magnetic core K3 returns to the negative remanence position and causes an output pulse at output A 2.

As can be seen, the rest position (middle position) of the Counting chokes K3 and K4 automatically and without existing up / down counters Restored using quantized reset pulses.

Of course, the inputs at outputs A 1 and A 2 further, similarly developed up / down counters can be connected. In this case, an increase in the counting capacity is obtained.

Claims (2)

PATENT CLAIMS: 1. Up-down counters with at least two Counting chokes, characterized in that both counting chokes (K3, K4) through the Pulses of a first pulse train (via line L 1) in one and through the pulses a second pulse train (via line L 2) can be magnetized in the other direction and that the one counting choke (e.g. K3) after a complete reversal of magnetization in the one direction and the other counter throttle (K4) after complete magnetization in the other direction emits an output pulse (outputs A 1 or A 2), whereby the starting position of the up / down counter representing the mean count is characterized by opposite remanence layers. 2. Counter according to claim 1, characterized in that the counter throttle emitting an output pulse through this output pulse can be completely magnetized back.