SU217720A1 - ENCODING DEVICE FOR RECEIVING PBCLED5VL = BINARY BINARY CODES - Google Patents

Description

Telemechanics systems Widely used are coding devices built on ring shift registers that implement code rings. Such encoders have the number of controls (keys) and shift register bits equal to the number of generated control commands, and require that the clock generator clock operation and the register reset operation be performed after each combination is generated.

The proposed encoder for obtaining consecutive binary codes by cyclic permutation of the elements of the code rings contains a ring shift register, two groups of control keys for selecting the code ring and code combination, the OR circuit and switching elements, and differs from the known ones in that it contains memory the shift register cells of the inhibit circuit, each memory cell and the inhibit circuit are connected to the power bus through the contacts of the control keys of the first group, the outputs of the The repeating cells are connected to the output bus by means of switching elements, the control inputs of which are connected to the OR circuits, the inputs of which are connected to the power bus through the contacts of the control keys of the second group.

The drawing is a structural diagram of the coding device of a sequential n-element binary code, which is formed by cyclic permutation of the elements of the code rings.

The device contains a logic circuit / prohibition, output bus 2, power supply bus 3, switching elements 4, logical assemblies "OR 5, control keys Ki-KS (first group) and / Se-Kp (second group), and memory cells iR ring shift register.

Let us number the code combinations in accordance with the binary number they express. Then, by cyclically rearranging the elements within each ring, we obtain (2-2) combinations, (combinations consisting only of zeros or only ones, are usually not used and discarded). Ring number 1 - 1-2-4-8-16 Ring number 2 - 3-6-12-24-17 Ring number 3 - 5-10-20-9-18 Ring number 4 - 7-14-28-25 -19 Ring No. 5-11-22-13-26-21 Ring No. 6-15-30-29-27-23 The keys of the first and second groups form a matrix, the columns of which form the selection keys of the corresponding combination, and the rows the selection keys of the ring (see tab.).

Table

In the INITIAL state, the keys of both groups are open, the register is cleared, the cell outputs are closed, and the inhibit / open circuits are open. The timing chains are not shown in the drawing.

Consider the operation of the circuit on the example of the formation of a combination of 25-11001. To do this, select the code ring - turn on the key Kei which ensures opening of the outputs of the cells 3) and turn on the key to K, - cell 4 is excited and a signal is sent to the inhibit circuit between the cells Kz and R, which provides for breaking the ring register.

Under the action of the clock signal, the information in the register begins to move in the following sequence:

and on the cell. The movement stops. The register is cleared, and a combination of 11001 has been issued from the cell outputs.

Thus, the use of a logical connection between register cells does not require the counting of clocks. Consequently, there is no need for a clock counter. The register with the end of the formation of the combination is cleared, which allows not performing a reset operation after the formation of each combination.

The use of switching the outputs of the shift register cells reduces the number of control keys and the number of register cells.

Subject invention

An encoder for obtaining consecutive binary codes by cyclic permutation of code ring elements, containing a ring shift register, two groups of control keys for selecting a code ring and code combination, an OR circuit, and switching elements, in order to simplify

device, the opo contains in the chain of communication the storage cells of the shift register of the inhibit circuit, each memory cell and the inhibit circuit connected to the bus through the contacts of the control keys of the first

the groups, the outputs of the storage cells are connected to the output bus by means of switching elements, the control inputs of which are connected to the circuits of the ILR1, the inputs of which are connected to the power bus through the contacts of the control keys of the second group.

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