DE1020676B - Circuit with magnetic memory elements for the reception and evaluation of pulse combinations in the start-stop system - Google Patents

Description

GERMAN

The invention relates to a circuit for receiving and evaluating pulse combinations in the start-stop system. Such a circuit is based on so-called magnetic ones Storage units which can be implemented according to circuits known per se.

The inventive shaft does what with per se known magnetic memory elements is formed and for receiving and evaluating pulse combinations is determined in the start-stop system, consists of a magnetic pulse distributor, a set of magnetic coincidence memory elements and a magnetic switch.

The principle of the circuit according to the invention is that in series with the to be evaluated The line supplying impulses is a set of windings of the individual magnetic elements of the coincidence storage system is connected while having another set of windings of these elements in parallel is connected to the individual magnetic elements of the pulse distributor, the output of the pulse distributor is connected in series with a set of sensing windings on the magnetic elements the coincidence storage system while a set of transmission windings of these elements are connected in parallel the magnetic switch is connected.

At the output of the pulse distributor, an element is expediently connected, which through the last pulse from this distributor is controlled and a current surge to the series-connected sensing windings on all coincidence memory cores. The set of transmission windings on the coincidence memory cores is connected in parallel to elements controlling the magnetic switch.

The invention is explained in more detail with reference to the drawing, which schematically shows an exemplary embodiment described.

The three main components of the circuit according to the invention, namely the magnetic pulse distributor, the magnetic coincidence memory and the magnetic switch are known as such Way constructed from magnetic elements. The schematic figure shows a coincidence memory with four magnetic cores, but the number of these cores can also be considerably higher. the The number of magnetic elements in the pulse distributor is equal to the number of cores in the magnetic coincidence memory element.

The pulses to be transmitted, whose shape is shown in the drawing on the left are, via the line ν the series-connected windings V _1, V _2, z _'i, V ₁ of all the magnetic cores J _1, j. ₂ , j _v j _i supplied to the magnetic coincidence storage system. The circuit

with magnetic storage elements

for reception and evaluation

of impulse combinations

in the start-stop system

ίο applicant:

TESLA narodni podnik, Prague-Hloubetin (Czechoslovakia)

Representative: Dipl.-Ing. A. Spreer, patent attorney,

Göttingen, Groner Str. 37

Antonin Rokos, Prague,
has been named as the inventor

Cores J ₁ , J ₂ , j _s , / 4 are magnetized by a field Hc / 2 , which they do not move out of their normal state, e.g. B. - B% can be remagnetized into the state + B _R.

Current pulses are fed to the pulse distributor, as indicated on the right in the drawing. The coincidence current surges get in the time units from the pulse distributor into the windings V ₁ to νI of the individual cores J ₁ to J ₁ . To this end

these windings V ₁ to v [are connected in parallel to the pulse distributor. If there is agreement in a certain core of the magnetic coincidence storage system with the impulse arriving via the line ν , then this core is reversely magnetized and remains in this state.

The last pulse from the distributor sets the element a, e.g. B. a flip-flop, in action, which outputs a current pulse to all series-connected sampling windings V ₁ " to νI ' on the cores J ₁ to j _{i of} the magnetic coincidence storage system. The polarity of the pulses emitted is such that they Cores J ₁ to j _{i of} the magnetic coincidence system overturns in the initial position. As a result, in the transmission windings V ₁ " to νI" of those cores J ₁ to J ₄ , which were magnetized by the impulse from the distributor, impulses that are sent to the elements at the same time ^ to P ₁ , e.g. flip-flops, are transmitted, which the magnetic switch and therefore also the choice of

709 809/121

Control output. For this purpose, the transmission windings V ₁ " to νI" of all cores J ₁ to j _i and the corresponding control elements P ₁ to p _{i are connected} in a parallel circuit.

The elements through which the passage of impulses with undesired polarity is prevented, e.g. B. germanium diodes are not in the drawing shown.

The circuit according to the invention is suitable not only for teletype transmission, but also for Remote control.

Claims (3)

Patent claims: 1. Circuit with magnetic storage elements for the reception and evaluation of pulse combinations in the start-stop system, consisting of a magnetic pulse distributor, a magnetic coincidence - storage system and a magnetic switch, characterized in that a line feeding the pulses to be transmitted Set of windings (V ₁ to V ₄ ) of the individual magnetic elements (J ₁ to; ₄ ) of the coincidence storage system is connected in series that another set of windings (V ₁ to V ₁ ') of this storage system is connected to the individual magnetic elements of the pulse distributor is connected in parallel, and that the output of the pulse distributor is connected in series with the sensing windings (V ₁ " to V _t ") on the magnetic elements of the coincidence memory system, while the set of transmission windings (V ₁ " to V ₄₁ "') these elements are connected in parallel with the magnetic switch. 2. A circuit according to claim 1, characterized in that an element (a) is connected to the output of the pulse distributor, which element is controlled by the last pulse from the distributor and emits a current pulse to the sensing windings on all cores of the coincidence storage system. 3. A circuit according to claim 1 and 2, characterized in that the set of transmission windings on the cores of the coincidence storage system is connected in parallel to the elements controlling the magnetic switch (^ ₁ to p ₄ ) . Considered publications:
Proceedings of thel.RE, Feb. 1956, pp. 154-162. 1 sheet of drawings © 709 8097121 12.57