SU149257A1 - Push-pull shift register - Google Patents

Description

Known push-pull shift registers on ferrites using impedance printsin work is not reliable enough.

To eliminate this drawback in the present invention, each binary unit of information is stored on two primary ferrites, the winding of one of them is connected through a diode with successively connected regions of the record "unit of two auxiliary ferrites, and the winding of the second one is connected through a diode to the loop. The records are “zero of the same ferrites.

The drawing shows a diagram of two cells push-pull shift register.

Ferrites 01 and FCh are indicated in the diagram by vertical heavy lines, and chains 1 to 2 (connecting wires) connected to ferrites are indicated by horizontal thin lines. Sloping barrow at the intersection of the ferrite and the tire means that the tire passes through the ferrite. Oblique stroke 3, going from the bottom to the bottom - up to the right, shows that the positive current in the bus magnetizes the ferrite “up. If the slant bar 4 is directed from the top left to down to the right, then the ferrite is remagnetically "down" from the current pulse. In any case, the current pulse, reflected from the inclined line, as if from a mirror, indicates the direction in which the ferrite is magnetized.

Each cell of the first A and second B consists of two main ferrites Фь 02 and two auxiliary Фз, F. Information stored on the main ferrites Ф and Фг in each cell ("zero or" one), in the first cycle / shifted into auxiliary ferrites Фз and Ф4 of the same cells, and in the second one also // is shifted from the auxiliary ferrites of the previous cells to the main ferrites of the subsequent cells. Thus, in two cycles, information is shifted by one bit. Suppose that "the unit recorded in cell A corresponds to such a state of basic ferrites when they are both magnetized 149257. .-2, cheny "Bfetepb, - when they are both magnetized" down. When the pulse is given, the first clock / pulse is distributed by the windings Wi of the FT ferrites and Ф2 ": b is either on the circuit / if the cell contains" one; and ip circuit 2, if the cell has "zero. It turns out that when stored, the units of both ferrites are magnetized "up, and when" nol is "down.

 The current, the passage through the control windings of the Wz ferrites Fz and 04, records "unit or" zero in them, magnetizing them "up or" down, depending on the information previously recorded in the main ferrites of this cell. Thus, in the first cycle, information from the main ferrites is transmitted to auxiliary. The operation of the push-pull shift register in the second cycle // occurs similarly to the operation in the first cycle / and information is transmitted from auxiliary ferrites Фз and Ф4 cells L to main ferrites Ф1 and Ф) cells 5.

Subject invention

Push-pull shift register on ferrites using an impedance principle of operation, characterized in that, in order to increase the reliability of the device, each binary unit of information is stored on two main ferrites, the winding of one of them is connected through a diode with series-connected windings and the second is connected through a diode to the windings of the record of the same ferrites.