SU898619A1 - Device for performing "three-input conjunction" operation on ferrite-ferrite logic elements - Google Patents

Description

() DEVICE FOR PERFORMING THE OPERATION

CONJUNCTION ON THREE INPUTS ON FERRITFERRITE LOGICAL ELEMENTS

one

The invention relates to computing and can be used in the design of logical nodes of information systems on logic elements with pulse inputs and outputs.

A device is known for performing a conjunction operation on p inputs using n relays and a fl transformer.

A disadvantage of this device is the need for additional input matching with logic elements.

A device is known for performing a conjunction operation at two inputs on three two-bar ferrite elements of the prohibition G2.

The disadvantage of such a device is its limited functionality.

The purpose of the invention is to expand the logical possibilities of the conjunction scheme.

This goal is achieved by the fact that in the device for performing a conjunction operation on three inputs on ferrite-ferrite logic elements, containing two two-loop prohibition elements, the second inputs of which and the first input of the first are connected to the second and first input buses, respectively, a four-dimensional element is entered ban, which is connected to the first input to the third input bus and the first input and the second input to the output of the second element of the ban, respectively, and the third input to the output of the first element of the ban.

15

The drawing shows a diagram of an apparatus for performing a conjunction operation on three inputs.

3 device input buses 1-3 are connected respectively to the first

20 input 4 and the second input 5 of the double-sided prohibition element 6, to the second input 7 and the first input 8 of the two-sided prohibition element 9, input 3 bus 3 is connected to the first input 10 of the five-prohibition prohibition element 11, the output of the prohibition element 9 is connected to the second input 12, and the output element 6 of the ban - to the third input 13 of the four-sided element of the prohibition 11, the output of which is connected to the input of the receiving device 14. Tables 1, 1,2 and 3 show the work of the two-sided element of the prohibition, the four-sided element of the prohibition and the device for connecting The three inputs of the clock supply system are three phase, the first phase clock pulses read the information from the register that supplies signals to the input buses 1-3 of the second phase from elements 6 and 9, and the third phase from element 11. The receiver does not negative signals are received (a plurality of, + 1 of its input signals is used). Example 1. With a clock pulse of the first phase of the first clock cycle, a positive signal is transmitted via input bus 1 to the first input k of element 6 and, according to the logic of operation (see tab.1), a positive signal is recorded into the +1 second pulse from element 6 transmitted to the second (negative) input 13 of element 11 and, according to the logic of operation (see tab.2), zero information is written into it; the third phase pulse from element 11 transmits a zero signal to the input of the receiving device lit. Example 2. With a clock pulse of the first phase of the second clock cycle, a positive signal is transmitted over 94 input bus 2 to the second inputs 5 and 7 of elements 6 and 9 and recorded in them according to the operation logic (see Table 1); the second phase pulse negative signals from elements 6 and 9 are transmitted to the inputs 13 and 12 of element 11 and, according to the operation logic (see tab.2), a third phase pulse is recorded in the negative signal from the output of element 11 is transmitted to the input of receiver 14 which does not change (see table 3, first column of states of the receiving device). Example 3. With a clock pulse of the first phase of the third clock cycle, a positive signal is transmitted along the input bus 3 to the first inputs 8 and 10 of elements 9 and 11 and is recorded in them according to the operation logic (see Table 1 and 2); the second phase impulse positive signal is transmitted from element 9 to input 12 of element 6 and according to the operation logic (see tab.2) is recorded into it, and when the third phase impulse arrives by element 11, the prohibition on the third input is implemented and zero is transmitted to receiving device 14 signal. Similarly, in accordance with the scheme, the following examples are performed, shown in Table 3. The operation of a conjunction scheme on three inputs, when receiving device k does not receive positive signals (the set O, -1 of its input signals is used), is similar, and its state is corresponds to the second column of states of Table 3. Table 1

table 2

about

oh oh

oh oh

t1

about

± 1 o

about

about

eleven

± 1

about

about

eleven

eleven

about

about

eleven

tl

eleven

about

about

. tl

± 1

about

about

about

eleven

t1

± 1. about 11

eleven

about

eleven

± 1

about

eleven

± 1

eleven

t1

11 ± 1 o

about

about

Bx.l (t) Bx.Kt)

f

Out

BX.2U) Bx.311)

Bxl (i) BxACt)

Out, 8x7. U)

Bx3it)

Table 3

ABOUT

O -1

about

Claims (2)

1. USSR author's certificate No. 304699, cl. H 03 K 19/00, 10/6/69. 2. Ferrite logic elements and information systems nodes. Ed., T.N.Sokolova and F.A. Vasilyeva. Publishing House of the Leningrad Military Engineering Academy of the Red Banner them, AF Mozhaysky, L., 1970, p.92.