DE1253308B - Magnetic core reduction circuit - Google Patents

Description

Magnetic core reduction circuit The invention relates to a magnetic core reduction circuit in which three toroidal cores are provided, of which the first, to which an input transistor is assigned, is used for pulse shaping and the second for producing pulses of the same energy, while the third core is used in a fixed number is magnetized by steps into saturation, which in turn causes a reverse magnetization of this core and the emission of an output pulse through an output transistor, in the collector circuit of which there is a co-coupling winding of the third core. A circuit of this type is known from the German Auslegeschrift 1 164 486. In this known circuit, a diode is provided in the line between the second core, the so-called metering core, and the third core, the so-called counting core, which is gradually magnetized into saturation, which prevents an opposing pulse from the winding. of the dosing core, the counter core is magnetized back again. In other known circuits, which are described in the German Auslegeschriften 115-3 066 and 1069 189, a transistor or a tube is assigned to the metering core, so that the reverse magnetization of the counter core is prevented.

The invention is based on the object of the reverse magnetization of the counter core preventing components such as diodes, transistors and tubes and thus to achieve an even more compact structure of the circuit by removing the back magnetization of the counter core is avoided by other means. On the other hand, the Invention achieve that the counter core in an even greater number of stages than is magnetizable in the previous circuits, which means that in the same circuit a pulse scaler with compared to the previously known circuit Can realize an even greater reduction ratio.

Compared to other known pulse scanners that use electronic Counting chains work, the pulse divider offers a gradual saturation magnetizable magnetic core has the great advantage that the effort is significantly reduced is. For reasons of reliability, however, so far have mostly only been proportionate small coaster ratios chosen. With the circuit according to the invention can on the other hand, the reduction ratio increases.

The magnetic core step-down circuit according to the invention is distinguished characterized in that in the collector circuit of the input transistor a winding of the first Core (pulse shaper core) and a winding of the second core (dosing core), which are connected in series that in the base circuit of the input transistor one positive feedback effective winding of the first core is that in a known manner a winding of the second core with a winding of the third core (counter core) and a resistor, at which the base control voltage for the output transistor is tapped, in series lies and that a winding on the first core and a winding on the second core are attached, which are connected in series and flowed through by a direct current are that the first and the second core are magnetized back.

An embodiment of the invention is shown below with reference to the Drawing shown.

F i g. 1 shows the course of field strength and magnetization in one saturable magnetic core used in the circuits in question; F i g. 2 shows a magnetic core step-down circuit as an embodiment of the invention.

In Fig. 2, E denotes the input terminal to which pulses are supplied, the number of which is to be reduced in a certain ratio in the reduction circuit. The output terminal is labeled A. The transistor T; represents in connection with the magnetic core Ü1 a pulse shaper circuit, which is designated in the drawing with JS. Such circuits are known. The pulses delivered by the pulse shaping circuit JS to the windings g'21 and W22 of the metering core 1 = i2 cause the metering core U to be magnetized into saturation. In this way it is achieved that the winding W .., to the winding Jung W31 of the counter core Ü3, a pulse with a precisely fixed energy content is emitted. As a result, the counter core U3 is gradually magnetized to saturation, as shown in FIG. 1 is indicated by the magnetization values labeled 1, 2, 3. A pulse from the metering core directed in the opposite direction to the counting pulse was previously detected by a diode between the windings W33 and W31, which is shown in FIG. 2 is indicated with broken lines, cut off. However, this diode can be omitted in the circuit according to the invention, since a constant direct current flows through the winding W ″ of the metering core Ü2 via the resistor Ra . This is so dimensioned that the metering core Ü2 is magnetized back so slowly that the pulse remagnetizing the counter core Ü3 is weak and thus becomes ineffective.

By appropriately dimensioning the resistance Ra, one can also intentionally achieve that a certain slight reverse magnetization of the counter core Us occurs. This allows the number of magnetization levels to be increased.

In Fig. 1, two field strengths HA and HB are entered for clarity. HA represents the magnetization of the core! $, Which in turn causes a field strength'HB in the core Ü3. If the magnetization HB is greater than the coercive force, the circuit works in a kind of pilgrim step process, ie the counter core Ü3 is magnetized back a little, resulting in a greater number of stages for complete magnetization of the counter core Ü3. If the counter core Ü3 is magnetized to its saturation, then, triggered by the transistor T2, a reverse magnetization and the delivery of an output pulse to the output terminal A.

Claims (1)

Magnetic core reduction circuit, in which three toroidal cores are provided, of which the first, to which an input transistor is assigned, is used for pulse shaping and the second for producing pulses of the same energy, while the third core is magnetized into saturation in a fixed number of steps is, which in turn causes a reverse magnetization of this core and the delivery of an output pulse through an output transistor, in the collector circuit of which there is a co-coupling acting winding of the third core, characterized in that in the collector circuit of the input transistor (T1) a winding (W12) of the first Core (Ü,) and a winding (W22) of the second core (U,) are connected in series that a positive coupling acting winding (W, 3) of the first core (Ü1) is in the base circuit of the input transistor, that in in a manner known per se, a winding (W23) of the second core (VJ with a winding (W31) and a resistor (RB,), to de n the base control voltage for the output transistor (T2) is tapped, is in series and that on the first core (Ü1) a winding (Wlj and on the second core (Ü2) a winding (W, 1) are attached, which are connected in series and from a direct current flows through it in such a way that the first and second core (Ü1, l`f @ are magnetized back. Considered. Publications: German Auslegeschriften No. 1153 066, 1069 189, 1164486.