SU635511A1 - Matrix magnetic switch - Google Patents

Description

ferrite core 1: the tilt is right-handed, left-reverse. Combinations of winding directions of input tires

2 on each ferrite core 1 of one group are different.

Each output bus (3 or 4) is connected to one ferrite core of group 1, and the number of groups joined by output tires 3 or 4 can be any number from two to tons, which is determined by the need to be resolved, it has the ability of a switch, i.e. the ratio of the voltages on the selected output bus 3 or 4 to the voltage on any unselected one. The number of different cumulative combinations of directions of input and output tires is equal to N.

When the switch is in operation, input currents are simultaneously supplied to the currents, the polarities of which correspond to one of the possible L combinations, and the currents do not flow to the input buses 2 of those groups with which output bus 3 or 4 is selected. 3 and 4 are equipped with all the shown grooves, therefore the currents are supplied to all shown input windings 2. As a result, only on one ferrite core 1 of each group, the input currents coincide in the direction and excite the total mag itny stream irichem cores excited in groups need not be the same name. Combinations of selected cores in soil are provided by implementing a code structure having L rows and (n-m) columns, where N is much larger (n-m).

On all other cores, the magnetic fluxes from the effects of the input currents cancel each other out and the total current becomes equal to zero or takes a value that is safe for the correct operation of the switch. The combination of the directions of magnetization of excited cores coincides with the directions of winding onto them only one of all the associated cores, output busbars

3 or 4, the EMF induced on individual segments of the selected tire 3 or 4, is equivalent to the load, and the total operating voltage is applied to the load. On unselected output buses 3 and 4, noise appears, the amplitude of which can be reduced to any small value by increasing the number of grits of ferrite cores 1 and input buses 2. For example, to supply an operating voltage to Zi, load all the input tires 2 direct currents. Then the first cores from above are magnetized with the sum of the currents in the forward direction, on the selectable bus 3 there is an addition of the EMF induced from all the excited cores. On the remaining three output 3 shown, connected with the first cores 1, the total emf in the visible part is zero, since each output tire 3 has two winding directions — direct, and two winding windings. Simultaneously on the load S; interference voltage arises from the action of only one core. The matrix magnetic switch circuit shown in the drawing involves the use of two-line current formers, however, with an increase in the number of input buses 2, unipolar drivers can be used.

The proposed switch has many times more output windings but compared to the input windings, which is obsnechevatsya implementation of a new code structure.

Currently, for large volumes of newly developed storage devices, switches with the number of outputs of 256 or more are required. For a given switch, the 256-4096 outputs have an efficiency (the ratio of the number of output channels to the number of input) about 4, 5, 9, and 14 times, respectively, than the switches organized by the 1D n method.

The advantages of the proposed switch are not exhausted. The main practical importance is the possibility of its design in a form close to a square. The most

the elements of its electrical circuit are effectively used, since the simultaneous summation of currents from the input formers occurs when the cores are excited in groups and the voltages on the output windings from the effect of the excited cores. In addition, the shape, close to the square, provides the conditions for maximum speed of the switch, since all windings have a minimum

possible length.

The high efficiency of the proposed switch is achieved at the cost of interference in unselected channels, the amplitude of which by choosing the number of groups

cores can be brought to any level safe for the operation of the switch.

Claims (2)

1. USSR author's certificate number 255983, cl. G 11C 7/00, 1968. 2. USSR author's certificate number 254885, cl. G NA 7/00, 04/12/1968.