HU177211B - Apparatus for controlling the operation of electronic circuits - Google Patents

Abstract

The invention relates to Kontrollmeßinstrumante. The aim and object of the invention are to provide a device for functional control of electronic circuits whose new circuitry solution of each storage and output unit for coded signal sequences allows to reduce the size of the electronic part of the equipment, to increase their reliability and speed of operation and the Expand functional capabilities. The electronic circuit functional control means includes, for each electronic circuit terminal to be controlled, a control signal and command value coded signal output and output unit comprising two shift registers, a three-position shift register, a memory circuit and an address register. The apparatus also includes a mode default setting unit common to all the terminals to be controlled, having a control circuit, a mode memory circuit and a start address register, an end address register, a clock register, a cycle register, a synchronization register, a comparison circuit and a write circuit. The invention can be evaluated in the manufacture and operation of large scale integrated semiconductor and hybrid circuits.

Description

Apparatus for checking the operation of electronic circuits

FIELD OF THE INVENTION The present invention relates, in the field of control measuring instruments, to apparatus for controlling the operation of electronic circuits, which is particularly useful in the manufacture and operation of highly integrated semiconductor and hybrid circuits. 5

Known apparatus for controlling the operation of electronic circuits comprising a unit for generating control signals and comparing the value of the control signals with their reference values for each connector of the electronic circuit to be controlled, wherein the output of the forming circuit and the comparator circuit are electrically connected to The input circuits are electrically connected to the output of a storage and output unit containing a shift register, which is arranged for the control and reference signal sequences. The apparatus further comprises a control and synchronization unit common to all said units and electrically connected thereto, a synchronization circuit whose outputs are connected to a properly disconnected input of the shaping circuits and the comparator circuits, each of which is controlled by a control result analyzer. connected to the separate outputs of the comparator of the shaping member and the comparator unit, and comprising information recording and transmission circuits electrically connected to the synchronization circuit, the control results analyzer circuit, and a program control unit.

The device includes a storage and output unit shift register 30 for each control connector of the circuit, which has a 1024-bit capacity to store the amount of information needed.

This type of multi-bit shift registers increases the size of the electronic part of the device and reduces the reliability and operating speed of the entire device for controlling operation.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apparatus for controlling the operation of large integrated circuits at operating cut-off frequencies, particularly electronic circuits comprising high-speed emitter logic and transistor-transistor logic.

The object of the present invention is to solve the problem of providing a new switching solution for a device for controlling the operation of electronic circuits for each storage and output unit, to reduce the size of the electronic part of the device, to increase reliability and operational speed. extends the capabilities of the device to all storage and output units by automatically generating a large number of different control sequences.

According to the present invention, the object of the present invention is to provide a unit for controlling the operation of the electronic circuits comprising generating control signals for each connector of the electronic circuits to be checked and comparing the values of the control signals with their reference signals, wherein the outputs of the connected to a contact of a contact group, and the inputs of these circuits are electrically connected to the output of a storage and output unit assigned to coded sequences of control and reference signals and having a step register, and the apparatus comprising a control and synchronizing unit common to and which is a synchronization circuit whose outputs are the forming circuits and the comparing circuits connected to a properly separated input, a control result analyzer circuit whose input is connected to the separate outputs of the forming member comparator circuits and the comparator unit, and an information recording and transmission circuit electrically coupled to the synchronization circuit, the control result analyzer circuit, and with a program control unit. According to the invention, the mode predetermining unit comprises a control circuit, a comparator circuit, a write circuit, a mode storage circuit, one of the inputs of which is connected to the first output of the control circuit and comprises a start address, end, cycle, cycle and synchronization pulse register. having a first input to the output of the mode storage circuit, a second input coupled to respective second outputs of the control circuit, and a third input coupled to corresponding third outputs of the control circuit, a first input of a control circuit to an output of a cycle register, a second input to a synchronization pulse output connected to one of the outputs of the analyzer circuit which is also connected to one of the inputs of the synchronization circuit, one of the outputs of the synchronization circuit to the fourth input of the registers. another output to the fourth input of the control circuit. and connected to another input of the analyzer circuit, one input of the comparator circuit to the output of the end register, one input of the writing circuit to the output of the stroke register and another input of the writing circuit and another input of the comparator circuit to the fourth output of the control circuit. connected to the output of the circuit and the first output of the writing circuit, and one output of the information recording and transmission circuit is connected to the second input of the mode storage circuit, the other output of the information recording and transmission circuit is connected to the sixth input of the control circuit. and connected to one of the inputs of the transmission circuit, each storage and output unit of the encoded sequences of true control and reference signals having a second shift register. a three-bit shift register having an output through the separate inputs of the control signal generating circuit or the circuit comparing the control signals to their reference signal and having an input through a AND-OR circuit to the output of the first shift register and a second AND-OR circuit to the second shift register output, a storage circuit whose output is coupled to a first input of the shift register and an address register whose output is coupled to a first input of the storage circuit and a third input of a comparator circuit, its first input to the output of the start address register, the second input of the address register; the second input of the circuit is always to a corresponding output of the information recording and transmission circuit, and the third input of the address register, as well as the storage circuit, the shift registers, and the The second input of the rhombic shift register AND circuits is connected to the discrete outputs of the writing circuit.

The invention will now be described in more detail with reference to an exemplary embodiment and a drawing. BRIEF DESCRIPTION OF THE DRAWINGS A block diagram of an apparatus for testing electronic circuitry according to the invention is shown.

The apparatus for controlling electronic circuits comprises a plurality of contacts 1 having a plurality of contacts 2. The contacts 2 establish a connection with one connector 3 of the electronic circuit 4 to be checked.

The apparatus includes a forming and comparing unit 5 for generating control signals and comparing the values of the control signals with their reference values for each contact 2, and a storage and output unit 6 for encoded sequences of control and reference signals.

The apparatus for controlling the operation of the electronic circuits comprises a mode determining unit 7, a control and synchronizing unit 8, and a program control unit 9 common to all contacts 2.

Each of the shaping and comparing units 5 has switching elements 10 and 11 and control circuits 12 and 13 for these switching elements 10 and 11, as well as a comparing circuit 15 comparing the values of the control signals with their reference values. and the output of the forming circuit 14 and the input of the comparing circuit 15 are connected to the contact 2 via the respective switching elements 10 and 11.

Each of the storage and output units 6 has a shift register 16 of encoded sequences of control and reference values, the output of which is connected to the outputs 17 and 18 of the forming and comparing circuits 14, and the AND and OR circuits 19 and 20 output to the information input 21 of the shift register 16. and includes shift registers 22 and 23, the outputs of which are connected to the inputs 24 of the AND circuit 19 and the information inputs 21 of the AND circuit 20.

The storage and output unit 6 has a storage circuit 26 whose output is connected to the information inputs 27 and 28 of the shift register 22 and 23 and an address register 29 whose output is connected to the input 30 of the storage circuit 26.

The mode determining unit 7 comprises a comparator circuit 31 having an input 32 connected to the output of the address register 29 and a write circuit 33 having separate outputs 34 to the input 35 of each address register 29, the input 36 of each storage circuit 26, the input 37 of the shift registers. connected to input 38 of shift registers 23, input 39 of AND circuits 19, input 40 of AND 20 circuits, and input 41 of three bit shift registers 16.

The mode determining unit 7 is provided with a start address register 42, an end address register 43, a cycle register 44, a cycle register 45 and a synchronization pulse register 46, a mode storage circuit 47, and a control circuit 48.

The start address register 42, the end address register 43, the beat register 44, the cycle register 45 and the synchronization pulse register 46 are connected to the outputs 49, 50, 51, 52 and 53 of the mode 47 storage circuit, while the same registers 54, 55, 56, 57 and Inputs 58 are connected to the disconnected outputs 59 of the control circuit 48, whose disconnected outputs 60 are connected to the respective inputs 61, 62, 63, 64 and 65 of the start address register 42, the end address register 43, the cycle register 44, the cycle register 45 and the synchronization pulse register 46. .

The output 66 of the start address register 42 for all of the address registers 29, the output 68 of the end register 43, the input 69 of the comparator 31, the output of the stroke register 44 to the input 71 of the recording circuit 33, the cycle register 45 and the synchronization pulse The outputs 73 are connected to the control circuit 48 inputs 74 and 75 respectively.

The output 76 of the control circuit 48 is connected to the input 77 of the mode storage circuit 47, the output 78 is connected to the inputs 79 and 80 of the comparator I and 33 writing circuits, and the input 81 is connected to the outputs 82 and 83 of the same reference circuit.

The control and synchronization unit 8 comprises a synchronization circuit 84, a control results analyzer circuit 85, and an information recording and transmission circuit 86.

The output 87 of the synchronization circuit 84 is connected to the inputs 88, 89,90,91 and 92 of the start address register 42, the end address register 43, the cycle register 44, the cycle register 45 and the synchronization pulse register 46, and the separated outputs 93 of the synchronization circuit 84. forming and comparing circuits 15 are connected to the inputs 94 and 95, and the outputs 96 of the comparing circuits 15 are connected to the separated 97 inputs of the analyzer circuit 85.

The output 98 of the analyzer circuit 85 is connected to the inputs 99 and 100 of the control circuit 48 and the synchronization circuit 84, and the output 101 of the latter is connected to the inputs 102 and 103 of the control circuit 48 and the analyzer circuit 85 respectively.

The output 104 of the analyzer circuit 85 is coupled to the input 105 of the information acquisition and transmission circuit 86 and the output 106 thereof is connected to the input 107 of the analyzer circuit 85.

The output 108 of the information acquisition and transmission circuit 86 is the input 109 of the control circuit 48, the output 110 is the input 111 of the information acquisition and transmission circuit 86, the latter 112 is the output 113 of the synchronization circuit 84 and the input 114 is circuit output 115.

Separate outputs 116 of information acquisition and transmission circuits 86 are connected to inputs 117 of address registers 29, inputs 118 of storage circuits 26 and inputs 119 and 120 of control circuits 12 and 13 of switching elements 10 and 11, respectively. The output 121 of the information acquisition and transmission circuit 86 is coupled to the input 122 of the mode storage circuit 47.

In addition, the information recording and transmission circuit 86 has a further input and output circuit connected to an input or an output of the program control unit 9.

The function of the electronic circuit test equipment is as follows:

The connectors 3 of the electronic circuit under test 4 are connected to the corresponding contacts 2 of the contact group 1.

Then, from the output of the program control unit 9 to the input of the information recording and transmission circuit 86, a sequence of words is decoded and the information recording and transmission circuit 86 decodes into specific instructions. These instructions take the form of a signal from the separated outputs 116 to the inputs 119 and 120 corresponding to the control circuits 12 and 13 of the switching elements 11 and 11 respectively.

If the connector 3 of the electronic circuit to be checked functions as an input, when these signals are received, the switching element 10 is energized and the corresponding connector 3 of the electronic circuit to be checked is connected to the output of the forming circuit 14 of the counter-monitoring signals.

If the respective connectors 3 are the outputs of the electronic circuit 4 to be checked, they are connected to the input of the respective comparator circuits comparing the control signal values with their reference signals 5 by means of the switching elements 11.

After said preparation of the switching elements 10 and 11 and the forming and comparing circuits 14, the required amount of information from the output of the program control unit 9 through the recording and transmission circuits 86 and its discrete outputs 116 is input into a control sequence 118 , which, in order to perform the function check task, must be connected to the be5 threads (terminals 3) of the electronic circuit under test. Simultaneously, information is received from the output 108 of the information recording and transmission circuit 86 to the control 109 48 about the operating modes of the electronic circuitry monitoring device. This information is output from the output 76 of the control circuit 48 to the input 77 of the mode storage circuit 47.

Upon completion of the input of information into the mode 47 storage circuit, the control of the apparatus for controlling the operation of the electronic circuits is taken over by the synchronization circuit 84 of the control and synchronization unit 8. For this purpose, a sequence of words is output from the output of the program control unit 9 to the input and output circuitry 86 which is decoded into specific instructions, which are output from the output 111 of the information storage circuit 86 to the input 114 of the synchronization circuit 84.

The signals output from the output 101 of the synchronization circuit 84 are converted by the control circuit 48 into signals for writing information into the start address register 42, the end address register 43, the cycle register 44, the cycle register 45 and the synchronization pulse register 46.

From the output 76 of the control circuit 48, a sequence of signals is input to the input 77 of the mode storage circuit 47 and then successively from the separate outputs 59 of the control circuit 48 to the start address register 42, end address register 43, cycle register 44, cycle register 45 and synchronization pulse 54. In synchronization with the inputs 55,56, 57 and 58, information about the operating mode of the units of the electronic circuit monitoring device is received from the output of the operating mode storage circuit 47 to said registers. Then, the start address register 42 receives the start address information and the end address register 43 receives information related to the end of the check sequence.

The start and end addresses define a block of information which is fed into the storage circuit 26 and used to formulate a control signal in whole or in part to check the operation of the electronic circuits 4.

Information on the number of strokes is entered into the stroke register 44, to which all information from the shift registers 22 and 23 is transmitted through the AND-OR circuits 19 and 20 and the shift register 16 to the inputs 17 or 18 of the shaping circuit 14 and the comparator circuit 15.

Information on the repetition number of the start and end control sequences is entered in the cycle register 45.

The synchronization pulse register 46 contains information on the number of cycles at which the shift registers 16, 22 and 23 must be interrupted in the process of checking the electronic circuits. Simultaneously, according to the monitoring program, signals are output from the separate outputs 93 of the synchronization circuit 84 to the input 94 of one or more forming circuits 14, which receive special pulse pulses at the respective connector (s) 3 of the electronic circuit under test.

After input of information into the start address register 42, the end address register 43, the session register 44, the cycle register 45 and the synchronization pulse register 46, a signal is output from the output 101 of the synchronization circuit 84 to the input 102 of the control circuit 48. is sent to the input 80 of the write circuit 33. The signal from the corresponding outputs 34 of the write circuit 33 to the inputs 35 of the address registers 29 allows the entry of a starting address from the outputs 66 of the initial address register 42 into the address register 29. After entering the address into the address registers 29, signals are received from the corresponding output 60 of the control circuit 48 to the input 63 of the cycle register 44 and from the output 78 of the control circuit 48 to the input 80 of the recording circuit 33. . Simultaneously, the signals from the respective outputs 34 of the writing circuit 33 to the inputs 19 AND OR circuits 39 switch the AND 19 circuits and the shift registers 22 receive input 37 pulses of information, the number of which is counted by the phase register 44. To the extent that the information is incremented in the shift registers 22, the AND-OR circuits 19 are successively input to each of the bits 24 and are fed to the input 21 of the three-bit shift registers 16. The stepping of information in the shift registers 16 is controlled by signals from the respective outputs 34 of the write circuit 33 to the input 41 of the three-bit shift registers 16.

Each of the three new information bits of the shift registers 16 is decoded and in the form of a control signal for input 17 of the control circuits forming circuits 14. and comparing the values of the control signals with the reference signals 15 to an input 18.

Depending on the type of connector 3 (input, output, or redundancy connector) of the electronic circuit 4 to be checked, the three information bits are decoded into a control signal (for the inputs) or a comparator signal (for the outputs) or disable operation of the comparator circuits (for the redundancy connector). The check signal is then transmitted from the outputs of the forming circuits 14 through the switching elements 10 to the corresponding terminals 3 of the electronic circuit under test. During the transfer of information from the shift registers 22, the signal from the corresponding output of the write circuit 33 to the inputs 35 of the address registers 29 adds an "1" and the signals from the storage circuit 26 to the input 36 and the shift registers 23 to the input 38 a second word is entered into the shift register 23. After entering "1", the comparison circuit 31 compares the information from the output 29 of the address register 29 of one of the storage and output units 6 with the information received at the input 69 and the terminals of the output 69.

The write circuit 33 continuously compares the number of steps performed by the shift registers 22 and 23 with the reference signal.

The moment these values are equal. signaling from the respective outputs 34 of the writing circuit 33 to the input 39 of the AND circuits 39 and of the shift registers 22 to 37, and signals are transmitted to the input 40 of the AND circuits 20 and the input registers 23 to 38.

As a result, the shift register 22 ceases to function and the AND circuits 19 are closed and the AND 20 circuits open, and previously entered information from the shift registers 23 is input to the AND 20 or OR circuits 25 and the three-bit shift registers 16 are input. . The production of the control signal sequence continues.

As described above, the signal from the corresponding output 34 of the write circuit 33 adds an "Γ" to the contents of the address registers 29 and a third word is entered into the shift registers 22 from the storage circuits 26. The shift registers 22 start to operate as soon as the information from the shift registers 23 is stopped.

After adding "1" to the contents of the address registers 29. the comparison circuit 31 again compares the contents of one of the address registers 29 with the contents of the final address register 43.

After the contents of all address registers 29 are equal to the contents of the final address register 43, which indicates that the output cycle for an information block of storage circuits 26 has been completed, two modes are possible:

If it contains the "O" of the cycle register 45, this information is output from the output 72 to the input 74 of the control circuit 48, and if a separate position in the control word of the mode 47 storage circuit is also set to "0" means.

The control circuit 48 then supplies information exchange signals via the mode storage circuit 47 to the input of the start address register 42, the end address register 43, the cycle register 44, the cycle register 45 and the synchronization pulse register 46.

New information from the mode storage circuit 47, as described above, is provided to the start address register 42, the end address register 43, the beat register 44, the cycle register 45, and the synchronization pulse register 46 and trigger the generation of another check signal. Since the information exchange in the start address register 42, the end address register 43, the cycle register 44, the cycle register 45 and the synchronization pulse register 46, from the storage circuits 26 to the shift register 22, 23, the last word (after the final address) is entered, production continues without interruption.

However, if the cycle register 45 contains a number other than "0", a signal is output from the output 82 of the comparison circuit 31 to the input 81 of the control circuit 48 if the contents of the address register 29 and the end address register 43 are identical. and this signal is converted from the output 72 of the cycle register 45 to the corresponding instruction via the control circuits 48, along with the information provided to the input 74. This instruction is received from one of the outputs 60 of the control circuit 48 to the input 64 of the cycle register 45 in the form of a signal that the contents of the cycle register 45 will be one smaller and repeated by a control sequence delimited by the start and end addresses previously entered in the start address register 42 and the end address register is being released. This is repeated until the cycle register 45 is set to "0", whereby the output 72 of the cycle register 45 signals the input 74 of the control circuit 48.

If the control word of the mode 47 storage circuit is set to "0", the contents of the start address register 42, the end address register 43, the beat register 44, the cycle register 45 and the synchronization pulse register 46 are changed again and the duty cycle of the electronic circuitry control equipment is repeated.

However, if a separate "1" is placed at the control word of the mode storage circuit 47, a signal is sent from the output 110 of the control circuit 48 to the input 111 of the information recording and transmission circuit 86, hereinafter the program control unit 9. .

Having a "1" at a separate position in the control word of the mode 47 storage circuit also means that after completion of the ongoing duty cycle, the control of the electronic circuit 4 is completed.

Since some of the connectors 3 of the electronic circuit 4 to be tested function as outputs, the latter are connected to a special input by means of appropriate shaping and comparing units which compare the signal values with their reference signals.

The setpoints for these connectors 3 are also generated as control signals arriving to the input 18 of the comparator circuits 15. The generation of these control sequences proceeds in the same manner as described above.

The test results are output from the outputs 96 of the comparator circuits 96 to the analyzer circuit input 97, which inputs 103 and 107 also receive synchronization signals from the input 101 of the synchronization circuit 84 and information from the output 106 of the information acquisition and transmission circuit 86. The results of the analysis of the usability of the parameters to be checked are output from the outputs 98 and 104 to the inputs 100 and 102 of the synchronization circuit 84 and the control circuit 48 and to the input 105 of the information recording and transmission circuit 86 respectively. Said signals are transmitted from the information recording and transmission circuit 86 to the program control unit 9, where the further mode of operation of the apparatus (continuation or completion of the control cycle) can be definitively determined.

The application of the described apparatus enables the operation of high-speed and high-reliability electronic circuits to be controlled by means of a small number of high-speed circuits.

One with forty-eight connectors and 100

In order to control a circuit with an operating frequency of MHz and to generate a control signal comprising at least 2048 information bits, an apparatus is required in which the shift registers 22 and 23 must have an operating speed determined by the location of the storage circuits 26 and at least 100 MHz.

If 10-bit shift registers 22 and 23 are used, the storage circuits 26 shall have a capacity of not less than 48 x 2048 information bits and a maximum read frequency of 10-12 MHz, while 20-bit 22 and 23 may.

Claims (1)

Apparatus for checking the operation of electronic circuits, comprising, for each connector of the electronic circuit under test, a unit for generating control signals and comparing the values of control signals with their reference signals, wherein the outputs of the forming circuit and the comparator circuit are electrically connected to the output of a storage and output unit of a coded sequence of control and setpoints comprising a shift register and a control and synchronization unit common to and connected to each of said units, with a synchronization circuit whose outputs to the forming circuits and are connected with an analyzer circuit for the number of test results having an input connected to the separate outputs of the comparator circuits of the shaping circuit and the comparator unit and having an information recording and transmission circuit electrically connected to the synchronization circuit, the control results analyzer circuit, and a program control unit, comprising a mode determining unit (7) having a control circuit (48) and a comparing circuit (31). a write circuit (33), a mode storage circuit (47) having one of its inputs (77) connected to a first output (76) of the control circuit (48), and a starting address register (42). an end address register (43), a cycle register (44), a cycle register (45) and a synchronization pulse register (46) having a first input (49. 50, 51, 52. 53) for an output of a mode storage circuit (47), a second input (49). 54, 55, 56, 57, 58) connected to the respective second output (59) of the control circuit (48) and to the corresponding third input (60) of the control circuit (48) by the third input (61, 62, 63, 64, 65), a first input (74) of the control circuit (48) to an output (72) of the cycle register (45). a second input (75) connected to an output (73) of a synchronization pulse register (46) and a third input (99) connected to an output (98) of the analyzer circuit (85), which output (98) is one of the inputs of the synchronization circuit (84) (100) is also connected, one of the outputs (87) of the synchronization circuit (84) being the start address register (42) and the end address register (43). a clock register (44), a cycle register (45) and a synchronization pulse register (46) for a fourth input (88, 89. 90, 91, 92) and another output (101) for a fourth control circuit input (102) and an analyzer connected to the other input (103) of the circuit (85), one of the inputs (69) of the comparing circuit (31) to the output (68) of the end address register (43). one of the inputs (71) of the writing circuit (33) to the output (70) of the stroke register (44) and the other input (80) of the writing circuit (33) and the other input (79) of the comparing circuit (31); connected to the fourth output (78) of the control circuit, the fifth input (81) of the control circuit (48) is connected to the output (82) of the comparator circuit (31) and the first output (83) of the recording circuit (33); 86) one of its outputs (121) is connected to the second input (122) of the mode storage circuit (47), and the other output (108) of the information acquisition and transmission circuit (86) is connected to the sixth input (109) of the control circuit (48). the fifth output (110) of the circuit (48) is connected to one of the inputs (111) of the information acquisition and transmission circuit (86), while each of the storage and output units (6) of the encoded sequence of control and reference signals is a second step a register (23), a three-bit shift register (16) having an output on a separate input (17, 18) of the control signal generating circuit (14) and a circuit (15) comparing the values of the control signals to their reference signals, and an input on an AND-OR circuit (19) ) connected to the output of the first shift register (22) and to the output of the second shift register (23) via a second AND-OR circuit (20), a storage circuit (26) output to the first 5 inputs (27) of the shift registers (22, 23). , 28), and comprising an address register (29) having an output to the first input (30) of the storage circuit (26) and a third input (32) of the comparator circuit (31), and a first input (67) thereof of the starting address register (42). a second input (117) of the address register (29) and a second input (118) of the storage circuit (26) corresponding to the information recording and transmission circuit (86). output (116), and third input (35) of address register (29) and second input (36) of storage circuit (26), second input (37, 38) of shift registers (22, 23), and-OR circuits The second input (39, 40) of the (19, 20) and the second input (41) of the three-bit shift register (16) are connected to the separated outputs (34) of the writing circuit (33).