RU59916U1 - SELF-TESTING FOUR-BIT CODE CONTROL DEVICE - Google Patents

Abstract

The utility model relates to automation, namely to means of technical diagnostics and can be used to control and identify four-digit binary codes generated at the outputs of diagnostic objects. The objective of the utility model is to expand the functionality by controlling the “3 of 4” codes, as well as identifying all types of four-digit code. The technical result is achieved by the fact that in a self-checking device for controlling a four-bit code containing five AND elements and seven OR elements, the first input of the device connected to the first inputs of the first and second OR elements, the second input of the device connected to the first inputs of the third and fourth OR elements, third the input of the device is connected to the second input of the third and first input of the fifth OR element, the fourth input of the device is connected to the second input of the first and first input of the sixth OR element, the output of the first the OR element is connected to the second inputs of the fourth, fifth OR element and the first input of the first AND element, the second input of which is connected to the output of the third OR element and the second inputs of the second and sixth OR elements, and the output is connected to the first output of the device, the output of the second OR element is connected to the first input of the second AND element, the second input of which is connected to the output of the fifth OR element, and the output is connected to the second output of the device, the output of the fourth OR element is connected to the first input of the third AND element, the second input of which is single with the output of the sixth OR element, and the output is connected to the third output of the device, an AND-NOT element, four NOT elements and five OR elements are introduced, the first

the input of the device is connected to the input of the first element NOT, the output of which is connected to the first inputs of the seventh and eighth elements OR, the second input of the device is connected to the input of the second element NOT, the output of which is connected to the first inputs of the ninth and tenth elements OR, the third input of the device is connected to the input of the third NOT element, the output of which is connected to the second input of the ninth and first input of the eleventh OR element, the fourth input of the device is connected to the input of the fourth element NOT, the output of which is connected to the second input of the seventh the first and the first input of the twelfth OR element, the second input of which is connected to the second input of the eighth, the output of the ninth OR element and the first input of the AND element, the second input of which is connected to the second inputs of the tenth, eleventh and the output of the seventh OR element, and the output is connected to the fourth the output of the device, the output of the eighth OR element is connected to the first input of the fourth AND element, the second input of which is connected to the output of the eleventh OR element, and the output is connected to the fifth output of the device, the output of the tenth OR element ene to the first input of the fifth AND gate, a second input coupled to an output of the twelfth OR gate, and an output connected to a sixth output of the apparatus.

Description

The utility model relates to automation, namely to means of technical diagnostics and can be used to control and identify four-digit binary codes generated at the outputs of diagnostic objects.

Self-checking devices for controlling four-digit codes containing AND and OR elements are known (Parkhomenko P.P., Sogomonyan E.S. Fundamentals of technical diagnostics. - M .: Energy, p.180, Fig. 5-11). A disadvantage of the known devices is their limited functionality, since they do not control objects whose output code weight is different from the “2 of 4” code.

The closest in technical essence to the claimed one is a self-checking four-digit code control device containing five AND elements and seven OR elements, the first input of the device connected to the first inputs of the first and second OR elements, the second input of the device connected to the first inputs of the third and fourth OR elements, the third input of the device is connected to the second input of the third and the first input of the fifth element OR, the fourth input of the device is connected to the second input of the first and first input of the sixth element OR, the output of the first OR element is connected to the second inputs of the fourth, fifth OR elements and the first input of the first AND element, the second input of which is connected to the output of the third OR element and the outputs of the second and sixth OR elements, and the output is connected to the first output of the device, the output of the second element OR is connected to the first input of the second AND element, the second input of which is connected to the output of the fifth OR element, and the output is connected to the second output of the device, the output of the fourth OR element is connected to the first input of the third AND element, the second input q which is connected to the output

the sixth element OR, and the output is connected to the third output of the device. (SU No. 1305872, H 03 M 7/22, 1987).

This device allows with high reliability to control the presence on the four-digit outputs of the objects of diagnosis codes "2 of 4" and "1 of 4".

However, the known device has limited functionality, since it does not allow to control objects, other four-digit codes are generated at the outputs in good condition, for example, the code “3 of 4”, and also does not have the ability to identify the code received at its inputs from the outputs of the objects diagnosing.

The objective of the utility model is to expand the functionality by controlling the “3 of 4” codes, as well as identifying all types of four-digit code.

The technical result is achieved by the fact that in a self-checking device for controlling a four-bit code containing five AND elements and seven OR elements, the first input of the device connected to the first inputs of the first and second OR elements, the second input of the device connected to the first inputs of the third and fourth OR elements, third the input of the device is connected to the second input of the third and first input of the fifth OR element, the fourth input of the device is connected to the second input of the first and first input of the sixth OR element, the output of the first the OR element is connected to the second inputs of the fourth, fifth OR element and the first input of the first AND element, the second input of which is connected to the output of the third OR element and the second inputs of the second and sixth OR elements, and the output is connected to the first output of the device, the output of the second OR element is connected to the first input of the second AND element, the second input of which is connected to the output of the fifth OR element, and the output is connected to the second output of the device, the output of the fourth OR element is connected to the first input of the third AND element, the second input of which is single with the output of the sixth OR element, and the output is connected to the third output of the device, introduced

the AND element, four NOT elements and five OR elements, the first input of the device being connected to the input of the first NOT element, the output of which is connected to the first inputs of the seventh and eighth OR elements, the second input of the device is connected to the input of the second element NOT, the output of which is connected to the first inputs of the ninth and tenth OR elements, the third input of the device is connected to the input of the third element NOT, the output of which is connected to the second input of the ninth and the first input of the eleventh OR, the fourth input of the device is connected to the input of of the second element NOT, the output of which is connected to the second input of the seventh and first input of the twelfth OR element, the second input of which is connected to the second input of the eighth, the output of the ninth OR element and the first input of the AND element, the second input of which is connected to the second inputs of the tenth, eleventh and the output of the seventh OR element, and the output is connected to the fourth output of the device, the output of the eighth OR element is connected to the first input of the fourth AND element, the second input of which is connected to the output of the eleventh OR element, and the output Inonii with the fifth output device, the output of the tenth OR gate coupled to the first input of the fifth AND gate, a second input coupled to an output of the twelfth OR gate, and an output connected to a sixth output of the apparatus.

The proposed device was not obtained by converting the prototype device using known methods, for example, minimizing or other transformations of the functions of the algebra of logic that describe its scheme.

The drawing shows a diagram of the inventive device. The device contains the first to twelfth elements 1-12 OR, the first to fifth elements 13-17 AND, the element 18 AND NOT, the first to fourth elements 19-22 NOT. In the drawing, the positions 23-26 respectively indicate the first to fourth inputs of the device, positions 27-32, respectively, the first to sixth outputs of the device.

The inventive self-checking device for controlling a four-digit code has the following connections. Its first input 23 is connected to the first inputs of the first and second elements OR 1, 2. The second input 24 of the device is connected to the first inputs of the third and fourth elements OR 3, 4. The third input of the device 25 is connected to the second input of the third and first input of the fifth elements OR 3 , 5. The fourth input 26 of the device is connected to the second input of the first and first input of the sixth element OR 1, 6. The input of the first element OR 1 is connected to the second inputs of the fourth, fifth element OR 4, 5 and the first input of the first element AND 13, the second input of which connected to the output of tr this element OR 3 and the inputs of the second and sixth elements OR 2, 6, and the output is connected to the first output 27 of the device. The output of the second element OR 2 is connected to the first input of the second element AND 14, the second input of which is connected to the output of the fifth element OR 5, and the output is connected to the second output 28 of the device. The output of the fourth element OR 4 is connected to the first input of the third element And 15, the second input of which is connected to the output of the sixth element OR 6, and the output is connected to the third output 29 of the device. In addition, the first input 23 of the device is connected to the input of the first element HE 19, the output of which is connected to the first inputs of the seventh and eighth elements OR 7, 8. The second input 24 of the device is connected to the input of the second element HE 20, the output of which is connected to the first inputs of the ninth and tenth OR elements 9, 10. The third input 25 of the device is connected to the input of the third element NOT 21, the output of which is connected to the second input of the ninth and first input of the eleventh element OR 9, 11. The fourth input 26 of the device is connected to the input of the fourth element NOT 22, output which is connected to the second input of the seventh and first input of the twelfth element OR 7, 12, the second input of which is connected to the second input of the eighth, the output of the ninth element OR 8, 9 and the first input of the element NOT 18, the second input of which is connected to the second inputs of the tenth, eleventh and the output of the seventh element OR 10, 11, 7, and the output is connected to the fourth output 30 of the device. Exit

the eighth element OR 8 is connected to the first input of the fourth element And 16, the second input of which is connected to the output of the eleventh element OR 11, and the output is connected to the fifth output 31 of the device. The output of the tenth element OR 10 is connected to the first input of the fifth element And 17, the second input of which is connected to the output of the twelfth element OR 12, and the output is connected to the sixth output 32 of the device.

Self-checking device for controlling four-digit codes works as follows. Due to the fact that it will be implemented as a single integrated circuit, depending on the type of four-digit code generated at the outputs of the diagnostic object (“1 of 4”, “2 of 4” or “3 of 4”), as control the outputs of the claimed device corresponding to this code will be used. The status of the remaining outputs of the device is not analyzed.

When checking the code “1 of 4”, i.e. in the presence of one signal “1” at the inputs 23 ... 26 of the device, as well as the health of the device itself, in all four words of this code: “0001”, “0010”, “0100” and “1000” at outputs 28 and 29 device signals will have opposite values of “01” or “10” (self-test condition). If the specified input code is distorted, the signals at outputs 28 and 29 will be the same: “00” or “11”.

When checking the code “2 of 4”, i.e. if there are two signals at the inputs 23 ... 26 of the device, as well as the health of the device itself, in all six words of this code: “0110”, “0110”, “1010”, “1100”, “1001”, “0011” on the outputs 27 and 30 of the device, the signals will have opposite values of "01" or "10" (self-test condition). If the specified input code is distorted, the outputs 27 and 30 will be the same: “00” or “11”.

When checking the code “3 of 4”, i.e. when three signals “1” arrive at the inputs 23 ... 26 of the device, as well as the health of the device itself, in all four words of this code: “0111”, “1011”, “1101”, “1110” at the outputs 31 and 32 of the device signals will have opposite values of "01" or

"10" (self-test condition). If the specified input code is distorted, the signals at outputs 31 and 32 will be the same: “00” or “11”.

The operation of a serviceable device when monitoring codes “1 of 4”, “2 of 4” and “3 of 4” is illustrated in the table.

Table Dial number Input Signals Output Signals Type of identifiable input code Output Code Weight 23 24 25 26 27 28 29th thirty 31 32 one 0 0 0 0 0 0 0 0 one one "0 from 4" 2 out of 6 2 0 0 0 one 0 0 one 0 one one 21 of 4 " 3 out of 6 3 0 0 one 0 0 one 0 0 one one “1 from 4” 3 out of 6 four 0 0 one one one one one 0 one one 2 out of 4 5 from 6 5 0 one 0 0 0 0 one 0 one one “1 from 4” 3 out of 6 6 0 one 0 one one one one 0 one one 2 out of 4 5 from 6 7 0 one one 0 0 one one one one one 2 out of 4 5 from 6 8 0 one one one one one one one 0 one 3 out of 4 5 from 6 9 one 0 0 0 0 one 0 0 one one “1 from 4” 3 out of 6 10 one 0 0 one 0 one one one one one 2 out of 4 5 from 6 eleven one 0 one 0 one one one 0 one one 2 out of 4 5 from 6 12 one 0 one one one one one one one 0 3 out of 4 5 from 6 13 one one 0 0 one one one 0 one one 2 out of 4 5 from 6 fourteen one one 0 one one one one one 0 one 3 out of 4 5 from 6 fifteen one one one 0 one one one one one 0 3 out of 4 5 from 6 16 one one one one one one one one 0 0 4 out of 4 4 from 6

As can be seen from the table, the sets of the second, third, fifth and ninth (C ¹ ₄ = 4) correspond to the correct formation of the code “1 of 4”; sets the fourth, sixth, seventh, tenth, eleventh and thirteenth (C ² ₄ = 6) correspond to the correct formation of the code “2 of 4”; sets eighth, twelfth, fourteenth and fifteenth (C ³ ₄ = 4) correspond to the correct formation of the code "3 of 4". In the first case, at the outputs 28, 29, in the second - at the outputs 27, 30, in the third - at the outputs 31, 32 there are opposite values of the signals "01" or "10".

From the table it also follows that if the code is “1 out of 4”, i.e. when a different code arrives at inputs 23 ... 26 of the device, the outputs at the device outputs 28, 29 will have the same values: “00” or “11”. If the code is “2 out of 4”, i.e. when another four-digit code is received at the inputs 23 ... 26 of the device, at its outputs 27, 30 the signals will also have the same value “00” or “11”. If the code is “3 out of 4,” i.e. when another four-digit code is received at the inputs 23 ... 26 of the device, at its outputs 31, 32 the signals will also have the same value “00” or “11”.

In that case, if you need to determine the type of four-digit code generated at the outputs of the diagnostic object, i.e. to identify this code, all outputs 27 ... 32 of the claimed device should be used as control.

So, if there are words “0000” at the inputs 23 ... 26 of the device, i.e. code "0 out of 4", at the outputs 27 ... 32 of the device a word will be formed that is included in the set of words of the code having a weight of "2 out of 6". If the words “1111” are present at the same inputs of the inventive device, i.e. “4 out of 4” code, at the outputs 27 ... 32 of the device a word will be formed that is included in the set of words of the “4 out of 6” code (see table).

The inventive device also allows the weight of its output word to identify input words that belong to the codes "1 of 4", "2 of 4" or "3 of 4". In the first case, the “3 out of 6” code will be generated at the outputs 27 ... 32 of the device, in the second “5 out of 6” code, in the third also “5 out of 6”.

The inventive device when monitoring codes "1 of 4", "2 of 4" and "3 of 4" has the property of self-test, i.e. any single or unidirectional multiple fault in its circuit will be detected by the equality of the signals at its respective control outputs on one or more sets of codes "1 of 4", "2 of 4" or "3 of 4" coming from the outputs of a working diagnostic object or external tester (not shown in the figure). In this case, the outputs of the inventive device that are not used to control this code are not considered.

For example, a malfunction, “constant 0” of the first (upper) input of AND element 15 will be fixed on the set “0001” of the code “1 of 4”, since in this case the word “00” will be generated on the control outputs 28, 29 of the device. The malfunction “constant 1” of the same input of AND element 15 will be fixed on the set “0010” of the code “1 of 4”, since in this case the word “11” will be generated on the control outputs 28, 29 of the device.

The malfunction “constant 0” of the first (top) input of the And 13 element will be fixed on the set “0011” of the code “2 of 4”, since in this case the word “00” will be generated on the control outputs 27, 30 of the device. The malfunction “constant 1” of the same input of AND element 13 will be fixed on the set “0110” of the code “2 of 4”, since in this case the word “11” will be generated on the control outputs 27, 30 of the device.

The malfunction “constant 0” of the first (upper) input of AND element 17 will be fixed on the set “1101” of the code “3 of 4”, since in this case the word “00” will be generated on the control outputs 31, 32 of the device. The malfunction “constant 1” of the same input of AND element 17 will be fixed on the set “1110” of the code “3 of 4”, since in this case the word “11” will be generated on the control outputs 31, 32 of the device.

The advantages of the claimed device in comparison with the prototype lies in great functionality. Firstly, it allows you to control the correctness of the formation of not only the codes “1 of 4”, “2 of 4”, but also the words of the code “3 of 4”. Secondly, this device makes it possible to identify all types of four-digit codes, namely “0 of 4”, “1 of 4”, “2 of 4”, “3 of 4” and “4 of 4”.

Claims (1)

A self-checking four-digit code control device containing five AND elements and seven OR elements, the first input of the device connected to the first inputs of the first and second OR elements, the second input of the device connected to the first inputs of the third and fourth OR elements, the third input of the device connected to the second input of the third and the first input of the fifth OR element, the fourth input of the device is connected to the second input of the first and first input of the sixth OR element, the output of the first OR element is connected to the second inputs of the four of the fifth OR element and the first input of the first AND element, the second input of which is connected to the output of the third OR element and the second inputs of the second and sixth OR elements, and the output is connected to the first output of the device, the output of the second OR element is connected to the first input of the second AND element, the second input of which is connected to the output of the fifth OR element, and the output is connected to the second output of the device, the output of the fourth OR element is connected to the first input of the third AND element, the second input of which is connected to the output of the sixth OR element, and the output connected to the third output of the device, characterized in that an AND-NOT element, four NOT elements and five OR elements are inserted into it, the first input of the device being connected to the input of the first NOT element, the output of which is connected to the first inputs of the seventh and eighth OR elements, the second the input of the device is connected to the input of the second element NOT, the output of which is connected to the first inputs of the ninth and tenth elements OR, the third input of the device is connected to the input of the third element NOT, the output of which is connected to the second input of the ninth and first input of the eleventh OR element, the fourth input of the device is connected to the input of the fourth element NOT, the output of which is connected to the second input of the seventh and first input of the twelfth OR element, the second input of which is connected to the second input of the eighth, the output of the ninth OR element and the first input of the AND-NOT element, the second the input of which is connected to the second inputs of the tenth, eleventh and the output of the seventh OR element, and the output is connected to the fourth output of the device, the output of the eighth OR element is connected to the first input of the fourth AND element, whose swarm input is connected to the output of the eleventh OR element, and the output is connected to the fifth output of the device, the output of the tenth OR element is connected to the first input of the fifth AND element, the second input of which is connected to the output of the twelfth OR element, and the output is connected to the sixth output of the device.