RU92268U1 - CODE CONVERTER "1 OF 3" TO CODE "1 OF 4" - Google Patents

Abstract

A code converter “1 of 3” into a code “1 of 4” containing four AND elements and five OR elements, in which the outputs of the first, second, third and fourth AND elements are connected to the first inputs of the same OR elements, the outputs of which are connected to the first inputs elements of the same name And, the second input of the first element And is combined with the second input of the second element And, the second input of the third element And is combined with the second input of the fourth element And, the outputs of the first and fourth elements And are respectively the first and second outputs of the transform atelier, the output of the fifth OR element is connected to the second input of the first AND element, the second input of the first OR element is connected to the output of the third AND element and is the third output of the converter, the second input of the second OR element is connected to the output of the fourth AND element, the second input of the third OR element is connected to the output of the second AND element is the fourth output of the converter, the second input of the fourth OR element is connected to the output of the first AND element, the first and second inputs of the fifth OR element are the first and second th inverter inputs, the second input of the third AND element is the third input of the inverter, wherein the outputs of the first, second, third and fourth OR elements are connected respectively to the fifth, eighth, seventh and sixth outputs of the converter.

Description

The utility model relates to automation devices and is intended for train control systems.

There is a known converter of the code “1 of 3” into the code “1 of 4” containing six triggers, each of which is executed on two AND and OR elements, and two additional OR elements, in which the output of each of the trigger elements is connected to the first input of another element , the first input of the converter is connected to the second inputs of the AND elements of the first and second triggers and OR elements of the fourth and sixth triggers, the second input of the converter is connected to the second inputs of the AND elements of the third and fourth triggers and OR elements of the second and fifth trigger c, the third input of the converter is connected to the second inputs of the AND elements of the fifth and sixth triggers and the OR elements of the first and third triggers, the inputs of the first additional OR element are connected respectively to the outputs of the And elements of the first and fourth triggers, the inputs of the second additional OR element are connected respectively to the outputs of AND elements the second and sixth triggers, the outputs of the AND elements of the third trigger, the first additional OR element, the And element of the fifth trigger and the second additional OR element are the outputs of the Converter (SU No. 1058051, H03K 13/24, publ. 11/30/83, bull. No. 44).

This converter has two drawbacks. Firstly, it is not reliable enough, so it has a complex circuit containing 14 logic elements. Secondly, it has limited functionality, as it converts the code “1 out of 3” into only one type of four-digit code with constant weight - “1 out of 4”.

The closest in technical essence to the claimed one is a code converter “1 of 3” into a code “1 of 4” containing four AND elements and five OR elements, in which the outputs of the first, second, third and fourth AND elements are connected to the first inputs of the same elements OR, the outputs of which are connected to the first inputs of the same elements AND, the second input of the first element And is combined with the second input of the second element And, the second input of the third element And is combined with the second input of the fourth element And, the outputs of the first and fourth element And are respectively the first and second outputs of the converter, the output of the fifth OR element is connected to the second input of the first AND element, the second input of the first OR element is connected to the output of the third AND element and is the third output of the converter, the second input of the second OR element is connected to the output of the fourth AND element , the second input of the third OR element is connected to the output of the second AND element and is the fourth output of the converter, the second input of the fourth OR element is connected to the output of the first AND element, the first and second th inputs of the fifth element OR are respectively the first and second inputs of the Converter, the second input of the third element And is the third input of the Converter (SU No. 1783620, H03M 7/22, publ. 05/08/1990, bull No. 47).

This “1 out of 3” code to “1 out of 4” code converter is more reliable, so it has a simpler circuit built on 9 logic elements. The disadvantage of this converter is limited functionality, since it converts the code “1 out of 3” into only one type of four-digit code - “1 out of 4”.

The objective of the utility model is to expand the functionality of the code converter “1 out of 3” to code “1 out of 4” by providing additional conversion of the code “1 out of 3” into a four-digit code with constant weight “2 out of 4”.

The technical result is achieved by the fact that in the code converter “1 of 3” to the code “1 of 4” containing four AND elements and five OR elements, in which the outputs of the first, second, third and fourth AND elements are connected to the first inputs of the OR elements of the same name the outputs of which are connected to the first inputs of the same elements And, the second input of the first element And is combined with the second input of the second element And, the second input of the third element And is combined with the second input of the fourth element And, the outputs of the first and fourth elements And are respectively essentially the first and second outputs of the converter, the output of the fifth OR element is connected to the second input of the first AND element, the second input of the first OR element is connected to the output of the third AND element and is the third output of the converter, the second input of the second OR element is connected to the output of the fourth AND element, the second input the third OR element is connected to the output of the second AND element and is the fourth output of the converter, the second input of the fourth OR element is connected to the output of the first AND element, the first and second inputs of the fifth This OR is the first and second inputs of the converter, the second input of the third AND element is the third input of the converter, the outputs of the first, second, third and fourth OR elements are connected respectively to the fifth, eighth, seventh and sixth outputs of the converter.

The functional diagram of the proposed Converter code "1 of 3" to the code "1 of 4" is shown in the drawing.

The code converter “1 of 3” to the code “1 of 4” has three inputs 1, 2, 3 and eight outputs 4-11, contains four AND 12-15 elements and five OR 16-20 elements.

The outputs of the first, second, third and fourth elements I12-I15 are connected to the first inputs of the same elements OR16-OR19, the outputs of which are connected to the first inputs of the same elements I12-I15. The second input of the first element And 12 is combined with the second input of the second element And 13. The second input of the third element And14 is combined with the second input of the fourth element And15. The outputs of the first and fourth elements I12 and I15 are respectively the first 4 and second 5 outputs of the Converter. The output of the fifth element OR20 is connected to the second input of the first element And12. The second input of the first element OR16 is connected to the output of the third element And14 and is the third output 6 of the Converter. The second input of the second element OR17 is connected to the output of the fourth element And15. The second input of the third element OR18 is connected to the output of the second element And13 and is the fourth output 7 of the Converter. The second input of the fourth element OR19 is connected to the output of the first element And12. The first and second inputs of the fifth element OR20 are respectively the first 1 and second 2 inputs of the Converter. The second input of the third element And is the third input 3 of the Converter. The output of the first element OR16 is connected to the fifth output 8 of the converter, the output of the second element OR17 is connected to the eighth output 11 of the converter, the output of the third element OR18 is connected to the seventh output 10 of the converter, the output of the fourth element OR19 is connected to the sixth output 9 of the converter.

The operation of the code converter “1 of 3” to code “1 of 4” is illustrated in the table, which shows the signals at its outputs 4-11 depending on the signals received at its inputs 1-3, and the internal states “1” - “4 »Converter.

Table Measure number Input Signals Signals at the outputs of the elements OR Output Signals Sustainability Number one 2 3 16 17 eighteen 19 four 5 6 7 8 9 10 eleven one. one 0 0 0 one one 0 0 0 0 one 0 0 one one "one" 2. 0 one 0 0 one one 0 0 0 0 one 0 0 one one "one" 3. 0 0 one one 0 one 0 0 0 one 0 one 0 0 one "2" four. one 0 0 one 0 0 one one 0 0 0 one one 0 0 "3" 5. 0 one 0 one 0 0 one one 0 0 0 one one 0 0 "3" 6. 0 0 one 0 one 0 one 0 one 0 0 0 one 0 one "four" 7. one 0 0 0 one one 0 0 0 0 one 0 0 one one "one" 8. 0 0 one one 0 one 0 0 0 one 0 one 0 0 one "2" 9. 0 one 0 one 0 0 one one 0 0 0 one one 0 0 "3" 10. 0 0 one 0 one 0 one 0 one 0 0 0 one 0 one "four" eleven. 0 one 0 0 one one 0 0 0 0 one 0 0 one one "one"

In the table, clock numbers 1-11 correspond to the operation of the converter in normal mode. When signals belonging to the code “1 of 3” and the operability of the converter itself are received at its inputs, words of four-digit codes “1 of 4” and “2 of 4”, respectively, are formed at its outputs 4-7 and 8-11.

The converter has the property of a self-test, that is, any single malfunction of its elements can be detected on one or more sets of code “1 out of 3” by violation of the code “1 out of 4” or “2 out of 4” at its outputs. For example, a malfunction “constant 0” of the first input of the fifth OR20 element will be fixed on any of clock cycles 1, 4 or 7 (see table), since in this case the word “0000” will be generated at its outputs 4–7, which does not belong to the code "1 out of 4." The malfunction “constant 1” of the same input of the same element will be recorded in ticks 3, 6, 8, or 10, since at the outputs 4–7 of the converter a word will be generated containing two signals “1” out of four, which also does not belong to the code “ 1 out of 4. " It can be shown that any other single malfunction of the converter elements will be detected by the distortion of the code “1 of 4” or “2 of 4” at the corresponding outputs of the converter on one or more input sets of the code “1 of 3”.

Thus, the inventive converter converts the code “1 of 3” to both the code “1 of 4” and the code “2 of 4”, that is, it has more functionality than similar known converters.

Claims (1)

A code converter “1 of 3” into a code “1 of 4” containing four AND elements and five OR elements, in which the outputs of the first, second, third and fourth AND elements are connected to the first inputs of the same OR elements, the outputs of which are connected to the first inputs elements of the same name And, the second input of the first element And is combined with the second input of the second element And, the second input of the third element And is combined with the second input of the fourth element And, the outputs of the first and fourth elements And are respectively the first and second outputs of the transform atelier, the output of the fifth OR element is connected to the second input of the first AND element, the second input of the first OR element is connected to the output of the third AND element and is the third output of the converter, the second input of the second OR element is connected to the output of the fourth AND element, the second input of the third OR element is connected to the output of the second AND element is the fourth output of the converter, the second input of the fourth OR element is connected to the output of the first AND element, the first and second inputs of the fifth OR element are the first and second th inverter inputs, the second input of the third AND element is the third input of the inverter, wherein the outputs of the first, second, third and fourth OR elements are connected respectively to the fifth, eighth, seventh and sixth outputs of the converter.