摘要 |
841,449. Circuits employing bi-stable magnetic elements. PHILIPS' ELECTRICAL INDUSTRIES Ltd. June 27, 1958 [June 28, 1957], No. 20703/58. Class 40 (9). [Also in Groups XXXVIII and XL (c)] In a permanent code store comprising bistable magnetic cores arranged in c matrices each comprising b rows of m cores, m-bit code groups are stored in each row by means of wires A 1 . . . Aa which are each threaded through predetermined cores in all the rows of all the fields, and a particular code group is selected by selecting one of these wires together with one of row-selecting wires B 1 . . . B b and of matrix-selecting wires C 1 . . . C c , the code group being read out in parallel on wires S 1 . . . S m . In the arrangement described and illustrated in Fig. 4, a=16, b=12, c=90 and w=7. Fig. 1 shows the matrix corresponding to wire C 5 , only one wire A 9 of wires A 1 -A 16 being shown. Suppose, e.g., that the code group (9, 10, 5), i.e. the code group corresponding to wire A 9 in the 10th row of the 5th matrix, is required. The cores are initially set to " 0 " by passing a pulse through, e.g., all the wires B 1 - B 12 or a special restoring wire (not shown) threaded through all the cores. Half-write pulses are passed through wires A 9 , B 10 , thus setting up the 9th code group in the 10th row of each matrix, and a resetting pulse is then passed through wire C 5 . Those cores in the 10th row which were previously set to " 1 " will thus supply pulses to read-out wires S 1 -S 7 so that the code group is read out in parallel to gates and amplifiers (not shown). The wires A 1 -A 16 may be selected by opening one gate in each of the sets P 1 -P 4 and Q 1 -Q 4 , Fig. 2; the wires B 1 -B 12 and C 1 -C 90 may be similarly selected. The gates may each comprise a transistor rendered conductive by a negative control potential applied to the base, or a ferrite ring and transistor circuit (see Group XL (c)). The code store may be used, e.g. in an automatic telecommunication exchange, electronic computer or railway signalling system. |