SU1221719A1 - Aperiodic indicator - Google Patents

Abstract

The invention relates to a pulse technique and can be used to build digital computing devices on potential logical elements of a redundant basis. The purpose of the invention, the simplification of an aperiodic indicator, is achieved by reducing the number of elements with more than two channels. The device has h channels, with 3TOMh- and. The channel contains four logical elements (LE) 3 - n, 4-n, 5-n, 6, the other channels - three LEs: 3-1 ... 3- (and- 1), 4-1 ... 4 -

Description

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The invention relates to a pulsed technique and can be used to build digital computing devices on potential logic elements of a non-redundant basis.

The purpose of the invention is to simplify the aperiodic indicator by reducing the number of elements with more than two channels.

The drawing shows an electrical schematic diagram of the device.

Aperiodic indicator contains n channels, each of which has one input 1-1, 1-2, ..., 1-n and one output 2-1, 2-2, ... 2-n, the n-th channel of which contains four logical elements 3-p, 4-p, 5-p, 6, and the remaining channels each contain three logical elements 3-1, 3-2, ..., 3- (p-1); 4-1, 4-2, ..., 4- (p-1); 5-1, 5-2, ..., 5- (p-1); the first, second and third logical elements 3-1, 3-2, ...,; 3- (p-1), 3-p; 4-1, 4-2, ..., 4- (p-1), 4-p; 5-1, 5-2, ... 5- (p-1), 5-p are included in the serial circuit, the first inputs of the first of them are 3-1, 3-2, ..., 3-p and the output of the latter 5-1, 5-2, ..., 5-p appears as inputs 1-1, 1-2, ..., 1-n and outputs 2-1, 2-2, respectively. .., 2-n channels, all logical elements built on AND-NOT elements or OR-NOT elements; two more logical elements 7 and 8 are introduced into the fifth channel, built on the same logical elements that and other logical elements, the fifth channel contains the fourth logical element 6 and the fifth and sixth elements that are closed in the ring; and 8, the inputs of the fourth logic elements 6 are connected to the first inputs of the first logic elements 3-1, 3-2, ..., 3-n, the inputs of the fifth logic element 7 are connected to the first inputs of logic elements 4-1, 4-2 , ..., 4-p, the inputs of the sixth logic element 8 are connected to the first inputs of the third logic elements 5-1, 5-2, ..., 5-p and the second inputs of the first logic elements 3-1, 3-2, ... 3-p, second logic elements 4-1, 4-2, ..., 4-n and third logic elements 5-1, 5-2, ..., 5-p are connected respectively to the output of the n (7) Shes

0

five

20

five

21

j

thirty

five

40

45

50

55

7192

addition (8) and fourth (6) logical elements.

The operation of an aperiodic indicator built on the NAND gate is explained in the table.

Let the initial state of the inputs of the aperiodic indicator signals of logical zero, then on the signals of the first elements 3-1, 3-2, ..., 3-p all channels and the fourth element 6 signals of the logical unit. At the exits

the second elements 4-1, 4-24-p

all channels, the fourth and fifth elements 6 and 7 in the previous cycle set the signals of the logical unit, and at the outputs of the third elements 5-1, 5-2 ... 5-n all channels and the sixth element 8 in the previous cycle set the signals logical zero. Upon reaching all the logical units at the outputs of the first elements 3-1, 3-2 ... 3-n and the fourth element, the sixth fifth element 7 switches to a logical zero (see the second line of the table), then, the sixth element 8 - to a logical one, and then the second elements 4-1, 4-2 ... 4-p simultaneously switch to a logical zero, and then the third elements 5-1, 5-2 ... 5-p. The signal of the logical unit at the output of each channel causes switching at the input of this channel, so after some time the signals of the logical unit are set to inputs 1-1, 1-2 ... 1-n of all channels, after which the fourth element 6 switches to logical zero. then the fifth element 7 switches to a logical unit, after which the first elements 3-1, 3-2, ..., 3-n of all channels simultaneously switch to a logical zero, and then the second elements 4-1 switch to a logical one, 4-2, ... 4-p. By installing all the logical units at the outputs of the second elements 4-1, 4-2, ... 4-n, the sixth element 8 will switch to a logical zero, and then the fourth element 6 will be set to a logical unit, which will cause parallel switching of the third elements 5 -1, 5-2, ... 5-p to logical zero, etc.

The aperiodic indicator works functionally reliably, since the switching of the output signal 2-1, 2-2, ..., 2-n (third element 5-1, 5,2, ..., 5-n) of each channel occurs only after termination of transients of all elements, except for the third elements of other channels. In this case, the state of the third elements of all channels is controlled by the indicator according to the input signals 1-1, 1-2, ... 1-p.

The functioning of the aperiodic indicator built on the logical formula of the invention

Aperiodic indicator containing q-channels, each of which has one input and one output, and the indicator channel contains four logical elements, and the remaining channels contain three logical elements, the first, second and third logical elements are included in the serial

221719. 4

OR elements NOT occur similarly.

Aperiodic indicator containing n channels contains Zp + 3 logical elements with a total number of inputs 9p + 3 instead of 4p logic elements with a total input 4p in a known device.

Thus, the proposed technical solution makes it possible to reduce the number of logic elements by n-3, and the number of inputs by 5n - 3.

the circuit, the first inputs of the first ones and the output of the last ones are, respectively, the inputs and outputs of the channels, all logical elements being built on AND-NOT elements or OR-NOT elements, characterized in that, in order to simplify the aperiodic indicator by reducing the number of elements with the number of channels more than two.

512217196

in the M-th channel two more logic-inputs are connected to the first inputs of the second logical-JcHx element built on the same logical elements, the inputs of the sixth logical elements as the rest of the logical element are connected to the primary elements, and the third input channels logical elements - contains fours closed in a ring, and the second inputs of the first, second logical elements and fifth and neck - and third logical elements of the substitute are additionally entered logical keys to the output of the fifth elements, inputs of the fourth lo of the logic element, the output of the sixth element are connected to the first logic element and the output to the inputs of the first logic elements, 10 fourth logic element, the inputs of the fifth, logical element

Claims (1)

about r m at l of invention An aperiodic indicator containing η-channels, each of which has one input and one output, and the ith channel of the indicator contains four logical elements, and the remaining channels contain three logical elements, the first, second and third logical elements are included in the serial circuit, the first inputs the first of them and the output of the last of them are channel inputs and outputs, respectively, and all logical elements are built on AND-NOT elements or on OR-NOT elements, characterized in that, in order to simplify the aperiodic indicator and by reducing the number of elements when the number of channels is more than two, two more logical elements are introduced into the Η, channel-based on the same logical elements as the cost logic elements, and the η channel contains the fourth logical element and the fifth logical sixth additionally introduced logic elements, inputs of the fourth logical element are connected to the first inputs of the first logical elements, inputs of the fifth, logical element are connected to the first inputs of the second logical elements, inputs are sixth lo cal element are connected to first inputs of third logical elements 5 comrade and second inputs of first, second and third logic gates are respectively connected to the output of NAND gate pyato, the output of the sixth AND gate 10 and the output of the fourth NAND gate.