RU2022465C1 - Chord coder - Google Patents

Abstract

FIELD: automatic control and computer engineering. SUBSTANCE: chord coder is matrix of coding cells where each line has n cells series = connected through data outputs (n is number of encoding signals). Each cell 1 has key element 9, rectifying elements 10,11, and controlled key element 12. Two-unit signal applied to data input of coder makes cells 1 initiated by it yield values stored in key elements 9 through outputs 2 and 3. EFFECT: enlarged functional capability due to simultaneous coding of two input signals. 2 dwg

Description

 The invention relates to automation and computer technology and can be used in information processing systems when implementing technical means of digital computers and discrete automation.

 Various encoders are known that are made on different elemental bases (diodes, transistors, etc.) and with different constructive solutions, in the form of read-only memory, a programmable logic matrix with various structural solutions, for example, an encoder containing groups of complete and incomplete encoders connected in the form of a regular structure [1].

 The disadvantage of all these solutions is the ability to encrypt only one input signal.

 As a prototype, a full encoder was taken, which is a homogeneous network of cells in the form of a rectangle in which all polling lines form the encoder information input [2].

 The purpose of the invention is the expansion of the scope of use of the encoder by simultaneously encoding two signals.

 The goal is achieved in that in a chord encoder containing m columns and n rows of coding cells (m = 1, ..., N; n = 1, ..., N), each coding cell contains a managed key element, the first and second rectifier elements and a key element, the first terminal of which is connected to the first terminals of the first and second rectifier elements, the second terminals of which are connected to the same information terminals of the controlled key element, the control terminal of which is combined with the second terminal of the key element, the first information the outputs of the managed key elements of the coding cells of the first column are the first information outputs of the encoder, the second information outputs of the managed key elements of the coding cells of the i-th column (i = 1, ..., m), except the last, are connected to the first information outputs of the managed key elements of the coding cells of the (i + 1) -th column, the control outputs of the managed key elements of the coding cells of each column are connected to the corresponding polling lines, the second information outputs of the controlled key elements Comrade last column encoding cells are the second data outputs of the encoder, the survey lines are the data inputs of the encoder.

 In FIG. 1 and 2 are functional diagrams of the chord encoder and coding cell.

 The encoder consists of the same coding cells 1, arranged in the form of a rectangular matrix, each row of which contains n coding cells connected in series through information outputs 2 and 3. The control outputs 4 of each cell 1 in the ith column of the matrix are connected to the corresponding i -th survey line (i = 1, ..., m). The first information outputs 2 of the coding cells of the first column form the first information output 5 of the encoder, and the second information outputs 3 of the coding cells of the last (m-th) column form the second information output 6 of the encoder. The polling lines 7 form the information input 8 of the encoder. The coding cell 1 consists of the key element 9, the first 10 and the second 11 rectifier elements and the controlled key element 12. The first information output 2 of the cell is connected to the first information output of the managed key element 12 and the second output of the first rectifier element 10, the first output of which is connected to the first output of the key element 9 and the first output of the second rectifier element 11, the second output of which is connected to the second information output of the controlled key element and the second information output 3 of the coding cell. The control terminal of the managed key element 12 is connected to the second terminal of the key element 9 and with the control terminal 4 of the cell.

 The encoder works as follows.

 When applying to the information input 8 a chord encoder of an input signal containing two units initiated by them along the polling lines 7, through their control pins 4, the coding cells 1 output through the pins 2 and 3 the state values of the key elements 9, while the rectifier directed towards each other elements 10 and 11 impede the passage of an information signal external to a given coding cell between terminals 2 and 3 through a connection with the first output of key element 9, in addition, the control signal is normal but the closed managed key element breaks the information circuit through the managed key element. Thus, output 5 receives the code of the column initiated by the leftmost unit of the input code, and output 6 receives the code of the column initiated by the leftmost unit of the input code.

Claims (1)

CHORD ENCRYPTOR containing m columns and n rows of coding cells (m =

, n =

), characterized in that each coding cell contains a controllable key element, first and second rectifier elements and a key element, the first terminal of which is connected to the first terminals of the first and second rectifier elements, the second terminals of which are connected to the same information terminals of the controlled key element, the control terminal which is combined with the second output of the key element, the first information outputs of the managed key elements of the coding cells of the first column are the first inf encoding encoder outputs, second information outputs of the managed key elements of the coding cells of the i-th column (i =

), except for the latter, are connected to the first information outputs of the managed key elements of the coding cells of the (i + 1) th column, the control outputs of the managed key elements of the coding cells of each column are connected to the corresponding polling lines, the second information outputs of the managed key elements of the coding cells of the last column are second information outputs of the encoder, polling lines - information inputs of the encoder.

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