SU142817A1 - Ferrite distributor - Google Patents

Description

Ferriter distributors using the impedance principle of the ferrite core are known.

The described distributor differs from the known ones in that the connections between the cores are made in such a way that when information is transferred to the cores, in which the state "1" is not written, the state "O" is forced to be recorded. This increases the reliability of the device.

The described ferrite distributor performs the distribution of current pulses, successively arriving at the m 2 inputs, at the N m-n (n 2) outputs. All outputs are grouped into w groups, by n outputs in each. The input current pulse is used to simultaneously remove the recording from the ferrites of the previous group and to prepare the ferrites of the subsequent group. When a significant number of outputs ferrite distributors include consistently.

A schematic diagram of a distributor for three inputs and nine outputs is shown in FIG. one; in fig. 2 shows a skeleton diagram of cascade switching of distributors.

The initial state of the distributor is set by applying a current pulse to the bus bar. The ferrite core 2 of the first group is re-magnetized to the state "1, and all other cores to the state" O. Clips 3, 4 and 5 sequentially receive input pulses. The first input pulse applied to terminal 3 passes through the control windings 6, and then along the windings 7 of the first group and along the windings 8 of the second group. Winding 7 is connected in parallel. The flowing current tends to remagnetize to state "1 all cores of the first group. However, the resistance of the winding 7 on the core 2 is significantly less than the resistance of the other windings 7 of the first group, because the core 2 is in the state "1. Therefore, the current pulse passes mainly through the winding with low resistance. Next, the impulse goes to the winding 8 of the core 2 of the second group № 142817 - 2 -

KOT opihSi heiJe rHH4HBaeTCfl to the state "1. The current pulse passes to output 9, groups. Thus, by the time the first fexoJtHofo impulse ends, the core 2 of the first group is in the range: 1, and the cores 10 and 11 are in an indefinite state. In the second group, core 2 is in the "1" state, and cores 10 and V / are in the same condition as "O." All cores of the third group are in the state of "O.

The second input impulse is fed to terminal 4. This impulse reversal across the windings 6 of all the cores of the first group to the “O” state. Passing through the winding 7 of the core 2 of the second group, the pulse does not change the state of the core. Then the pulse passes through the winding S of the core 2 of the third group, reversing the core into the state "1", and arrives at the output 9 of the second group. Similarly, the device operates when the third input pulse arrives at terminal 5. The following three input pulses, applied to terminals 3, 4 and 5, will cause the appearance of signals at outputs 12 of all three groups. A third series, consisting of three input pulses, will cause a signal at the terminals 13.

The described device works in the same way, if the number of inputs is increased to t, and the number of outputs is up to N. Accordingly, the number of groups increases. If a greater number of outputs is required, the valves are switched on in series (Fig. 2). The distributor 14 is provided with m inputs and n outputs. The outputs of the distributor 14 serve as inputs for the valves 15. The common outputs of the entire device and the outputs of the distributor 15 are the same.

Subject invention

Claims (2)

1. Ferrite distributor using the impedance principle of the ferrite core, characterized in that, in order to increase the reliability of the device and reduce the total amount of equipment, ferrites are combined into n groups of m ferrites in each group, the input of each i-th group is connected in series with windings reset ferrites of their group; control windings of the iXl-th group, record winding of the i + 2-nd group and one of the device outputs that corresponds to the specified input and cycle. 2. A device according to claim 1, characterized in that, in order to improve a large number of outputs, it consists of two series-connected ferrite distributors, the outputs of the first of which are connected to the inputs of the second, and the outputs of the second are outputs of the entire device. fS