UA72058C2 - Method for adjusting and testing the unit for analyzing and processing signals of a radio control station and a device for the realization of the method - Google Patents

Abstract

The proposed method for adjusting and testing the unit for analyzing and processing signals of a radio control station and a device for the realization of the method relate to auxiliary facilities used for adjustment and diagnostics of radio equipment. The unit for analyzing and processing signals is connected, via an interface unit, to a control stand coupled with a computer. To test the parameters of the unit, a diagnostic program is used that is stored in the memory of the computer. In the testing process, input test signals are supplied to the input of the unit, and the output signals of the unit are entered into the computer and compared with reference signals in correspondence with the diagnostic program. When the signals are mismatched, an error message is displayed on the screen of the computer display, together with the data that indicate the fault element of the unit, causes of the fault, and the measures for removing the fault. To generate the said input control signals of the unit, a test signal generator and a programmed delay line in the control stand are used. The present invention provides the possibility to automate the adjustment and testing process for the unit for analyzing and processing signals, enhance the reliability of the test results, carry out the adjustment and testing process with the aid of personnel of a medium professional skill level, and reduce the time of the adjustment and testing.

Description

Description of the invention

The invention relates to special-purpose radar equipment that provides reception and processing of various types of radio signals to determine their main characteristics, in particular, to auxiliary means of regulation and testing of radio engineering equipment.

At present, regulation of radar equipment and verification of its compliance with technical requirements is carried out with the help of both standardized measuring equipment (ZVT) and auxiliary technical means (specialized control and measuring stands), which ensure the generation of test signals, 710 measurement of controlled parameters, registration measurement results, etc.

Available methods of regulation and verification of digital blocks and nodes using standardized measuring equipment (digital sequence generators, digital sequence analyzers, etc.).

But such methods are used in cases where the structure and signal processing algorithms of digital units and nodes are simple enough, and the number of test (input) and controlled (output) digital signals is 712 less than the bit rate of standardized FTAs (usually 16, less often 32 bits), which significantly narrows the possibilities of using the method. In addition, the programming of standardized FTAs for the creation of test sequences is a very long-term process, which leads to a significant increase in costs for the creation of a methodology for regulation and verification of digital blocks and nodes.

There is a well-known method of adjusting and checking digital units and nodes using a UTK-type test control installation (see "UTK-3 test control installation. Instructions for use. ГГМ2.718.008І37, according to which a multi-frame table of correspondence of potential reliefs of signals at the inputs and outputs of the controlled digital block or node, the data of the multi-frame correspondence table are stored on long-term storage media (punched tapes, magnetic tapes, magnetic disks, etc.), in the first frames of the multi-frame correspondence table, data on the physical distribution of input and output signals on the 22 connectors of the controlled digital block or node, during loading from the medium of long-term storage) based on these data, bidirectional inputs/outputs of the test control unit of the UTK type are programmed, sequentially according to the data of the following information frames at the inputs of the controlled digital block or node, a variable is formed depending on the number of the information frame, then the potential relief of logic signals, the obtained potential relief of logic signals at the outputs of a digital block or node is compared with the corresponding potential relief of a given frame of the multi-frame correspondence table, which concerns the outputs of the controlled digital block or node, in the case of complete coincidence of the real and reference potential reliefs at the outputs of the digital block or nodes proceed to the verification of potential reliefs according to the data of the next frame of the multi-frame correspondence table, otherwise they generate a signal of non-compliance Ha of the digital block or node with the standardized requirements, after the end of the verification of the digital block or node according to the 39 data of the last information frame of the multi-frame correspondence table and a positive result of this in the verification, a signal of compliance of the digital block or node with the standardized requirements is produced and the results of positive testing of the digital block or node are printed out using a UTK type printer built into the test control unit. "

This method significantly reduces the time spent on checking the parameters of the adjusted digital block or Z 70 node, but the time spent during its application on adjustment (in most cases, it is the finding of non-compliance of the digital block or node with the design documentation), as well as on creating a multi-frame

Of" the correspondence table, which would ensure sufficiently high reliability of the complete verification of a digital block or node, remained significant. In addition, the adjustment and verification of the parameters of the digital block or node according to this method does not take place in real-time, as during the operation of the digital block or node, but at a speed determined by the speed of the data loading equipment of the multi-frame table. compliance, which may differ from the real one by several orders of magnitude, and therefore the reliability of the test results is rather low.

The closest in terms of its technical essence to the proposed technical solution is the method implemented in the automated system for diagnosing digital devices (pat. KO Mo2097827, class ЗО6Е11/00, 501К31/28). The 20th part of this system includes a personal computer (PC), which includes a processor, a keyboard, a display (monitor), memory, a printer, and a first decoder connected to the system bus and a programmable parallel I/O port, the inputs of which are connected to the corresponding lines of the system bus, a connection device (specialized control and measurement stand), which includes a block of bus formers with the corresponding inputs of which the outputs of the programmable parallel port 52 input/output channels of the personal computer, address and data buses are connected and control, connected to the outputs of the block of tire formers, the second

HF) decoder, selector, three groups of multi-channel (number of channels M) programmable input/output ports, M buffer elements with three states, as well as a contacting device to which a controlled digital device is connected.

According to this method, the controlled digital device is connected by means of a contacting device to a connecting device 60, which in turn is connected to a personal computer, at the beginning of the diagnostic program stored in the memory of the personal computer, the automated system for diagnosing digital devices is initialized, which carries out consists of programming all programmable input / output ports as part of a personal computer, as part of a communication device, and the first two programmable input / output ports of the communication device are programmed for information output, and the third - for information input, using the first decoder in the personal computer select a programmable input/output port as part of a personal computer, select one of its three programmable input/output ports, select the required bus shaper of the block of bus shapers, the direction of its transmission, select a second decoder as part of the connection device with the help of the second decoder as part of the connection device carried out with the help of a selector, for with the help of a diagnostic program, the PC processor produces input test influences, which through the system bus, the programmable I/O port of the PC, connecting and contacting devices are sent to the controlled digital device, the output signals of the controlled digital device, as its reaction to the input test influences, are sent through the contacting device to the connection device, from where they are read at the appropriate moments of time with the help of a PC processor and processed in accordance with the given algorithm, after submitting to the 70 controlled digital device a complete set of input test influences and processing the corresponding feedback reactions, a decision is made about the technical condition of the controlled digital device, which is printed using a printer.

As can be seen from the above, this method does not fundamentally differ from the method of adjusting and checking digital blocks and nodes using a test control unit of the UTK type, therefore it is characterized, albeit to a lesser extent, since the speed of the PC is much higher than that of UTK reading devices, the same Disadvantages - significant time spent during adjustment of the digital device, as well as for the creation of a diagnostic program that would ensure high reliability of a full check of the digital device, inconsistency of the time parameters of the input test effects with the parameters of the real signals processed by the controlled digital device.

In addition, since the algorithm of the analysis and signal processing unit of the radio technical control station has its own specific nuances, for example, the presence in the parameters of its input signals of features related to the Doppler effect (the case when the radio equipment detected by the radio technical control station is located on a moving object), reproduction of input test effects with such features is impossible in a device that implements the method - the closest prototype. with

The purpose of the invention is to reduce the time spent in adjusting and checking the parameters of the unit of analysis and processing of signals of the radio technical control station and to increase the reliability of checking its parameters, i) to reduce the necessary qualifications of the adjusters, to automate the processes of adjusting and checking the parameters of the unit of analysis and processing of signals of the radio technical control station.

This task is solved by the fact that in the method of regulation and verification of the block of analysis and processing of co

From the signals of the radio technical control station, according to which the signal analysis and processing unit of the radio technical control station is connected by means of a contact device to a specialized control and measuring stand, which in turn is connected to a personal computer, at the beginning of the diagnostic program stored in the memory 'yati o

personal computer, carry out the initialization of a specialized control and measurement stand, which consists of programming the programmable input/output ports in its composition, using a diagnostic program and

PCs consistently produce aggregates of input test effects, which through a specialized e-testing and measuring stand and contact device are sent to the unit of analysis and processing of signals of the radio technical control station, the aggregate of output signals of the unit of analysis and processing of signals of the radio technical control station, as its reaction to the current set of inputs test effects, are introduced through the contact device to a specialized control and measuring stand, from where it is read at appropriate moments of time and compared with a given reference set of the diagnostic program, U. In the case when the set of output signals of the unit of analysis and processing of signals of the station of radio-technical control does not coincide with the current reference population of the diagnostic program, a message is displayed on the monitor screen;" about the malfunction of the unit of analysis and processing of signals of the radio technical control station and the predicted location of the failure, otherwise proceed to check the unit of analysis and processing of signals of the radio technical control station according to the following set of incoming test effects, after submitting to the unit of analysis and processing of signals of the radio technical control station a complete set of aggregates of input test influences and processing of the corresponding feedback reactions, make a decision about the technical condition of the unit of analysis and processing of signals of the radio technical control station, which is printed out using a printer, according to the invention, and the input test influences are formed as part of a specialized control and measurement stand according to with the help of 5p serially connected multifunctional generator of modulating signals and a programmable delay line, o during the adjustment of the signal analysis and processing unit of the radio technical control station in the event that messages about malfunctions appear on the monitor screen the unit of analysis and processing of signals of the radio technical control station and the predicted location of the failure additionally derive the list of possible causes of deviations from the norm and the measures necessary to bring the unit of analysis and processing of signals of the radio technical control station into proper condition, and in the device for adjusting and checking the parameters of the analysis unit and signal processing of the radio technical control station, which consists of a specialized control and measuring stand, to (Ф, signal inputs and outputs of which the signal analysis and processing unit of the radio technical control station is connected through the contact device, and to the programmed inputs / outputs of the specialized control and measuring stand connected personal electronic computing machine consisting of a system bus and connected keyboard, processor, monitor, memory, printer, a first programmable input/output port and a first decoder whose output is connected to an input choice of the first p of the programmed input/output port, the inputs/outputs of which are the inputs/outputs of a personal electronic computer, the specialized control and measurement stand includes a block of bus formers, an address bus, a data bus and a control bus, a selector, a second decoder, a second be and a third programmable I/O ports, first and second multi-channel tri-state buffer elements, bus shaper block inputs/outputs are programmable inputs/outputs of a dedicated test bench, address bus, data bus and control bus are connected to corresponding bus shaper block outputs , the control inputs of the block of bus shapers are connected to the first output of the selector, the second output of the selector is connected to the selection input of the second decoder, and the inputs of the selector are connected to the address and control buses, the input of the second decoder is connected to the address bus, the first output of the second decoder with connected to the selection input of the third programmable I/O port, the second you the output of the second decoder is connected to the select input of the second programmable I/O port, the programmable inputs/outputs of the second and third programmable I/O ports are connected to the address, data and control buses, the outputs of the first multi-channel three-state buffer element are. signal outputs 7/0 data of the specialized control and measuring bench, the outputs of the second three-state multichannel buffer element are the control signal outputs of the specialized control and measurement bench, the outputs of the second programmable input/output port are connected to the first inputs of the first and second three-state multichannel buffer elements , the inputs/outputs of the third programmable input/output port are signal data inputs of the specialized control and measurement stand, according to /5 Invention, the specialized control and measurement stand includes a serially connected multifunctional generator of modulating signals and a programmable delay line, the programmable inputs of which connected to the address, data, and control buses, the outputs of the programmable delay line are connected to the second inputs of the first and second multichannel tri-state buffer elements, the select input of the programmable delay line is connected to the third output of the second decoder, the selection input of the multi-function modulating signal generator is connected to the fourth output of the second decoder, in addition, a personal electronic computer with a keyboard, monitor, processor, memory, printer, a first programmable I/O port and a first decoder can be replaced by a microprocessor control unit with a keyboard, display and printer is included in the specialized control and measurement stand. with

Distinctive from the prototype features of the proposed method of regulation and verification of the signal analysis and processing unit of the radio technical control station include the fact that the input test influences are formed as part of i) a specialized control and measurement stand using a serially connected multifunctional generator of modulating signals and a programmable delay line, during adjustment of the unit of analysis and processing of signals of the radio technical control station, in the event that a message appears on the monitor screen about a malfunction of the unit of the unit of analysis and processing of signals of the radio technical control station and the predicted location of the failure, the list of possible causes of deviations from the norm and the measures necessary to bring the unit to power analysis and processing of signals of the radio technical control station in proper condition. at

Distinctive features of the device for implementing the proposed method of regulation and verification of the signal analysis and processing unit of the radio technical control station include the series-connected multifunctional generator of e-modulating signals and the programmable inputs of which are connected to the specialized control and measurement stand. to the address, data and control buses, outputs of the programmable delay line are connected to the second inputs of the first and second three-state multi-channel buffer elements, the selection input of the programmable delay line is connected to the third output of the second decoder, the selection input of the multifunction modulation signal generator " is connected to the fourth output of the second decoder, a personal electronic computing machine with 7-3) with keyboard, monitor, processor, memory, printer, first programmable input/output port and first decoder can be replaced by included special ialized control and measurement;" of the stand is a microprocessor control unit with a keyboard, display and printer.

The invention is explained in Fig. 1, which shows a device for implementing the proposed method of regulation and verification of the analysis and signal processing unit of the radio technical control station. -I Inputs of the unit of analysis and processing of signals of the radio technical control station 1 (marked as 1O0;) - a collection of data and Si) - a collection of control signals) and its outputs (marked as 10) 5) - a collection of output data) are connected using contact device 2 with corresponding signal outputs and inputs of a specialized control and measurement stand 3. Personal electronic computer 4 50r "PEOM"), containing a system bus 5 and connected to it a keyboard 6, processor 7, monitor 8, memory 9, the printer 10, the first programmable input/output port 11 and the first decoder 12, the output of which is connected to the input of the selection of the programmable input/output port 11, contains in its memory a diagnostic program for adjusting and checking the station signal analysis and processing unit of radio technical control 1. The inputs/outputs of the programmable input/output port 11 are the inputs/outputs of the personal computer 4. The specialized control and measurement stand 3, which contains a block of busbars in its composition keys 13, selector 14, second decoder 15, internal local address 16, data 17 and control buses 18, second programmable input/output port 19, third programmable

F) input/output port 20, the first multi-channel buffer element with three states 21, the second multi-channel buffer element with three states 22, the multifunctional generator of modulating signals 23 and the programmable delay line 24, with their programming inputs, which are the inputs/outputs of the bus block shapers 13, connected to the outputs/inputs of the first programmable input/output port 11 of the personal computer 4, to the outputs of the block of bus shapers 13, the internal local buses of the specialized control and measurement stand 3 are connected: the address bus 16, the data bus 17 and the control bus 18 The inputs of the selector 14 are connected to the internal local buses of the address 16 and control 18, the first output of the selector 14 is connected to the corresponding inputs of the selection and direction of transmission of the block of bus formers 13, the second output of the selector 14 65 is connected to the input of the selection of the second decoder 15, inputs which are connected to the internal ; of the local address bus 16, and the four outputs of the second decoder 15 are connected to the selection inputs of the third programmable I/O port 20, the second programmable I/O port 19, the programmable delay line 24 and the multi-function modulating signal generator 23, respectively, the inputs of the third programmable I/O port 20, the second programmable input/output port 19, the programmable delay line 24 and the multi-functional modulating signal generator 23 are connected to the internal local address 16, data 17 and control buses 18, the signal outputs of the multi-functional modulating signal generator 23 are connected to the signal inputs of the programmable delay line 24, the outputs of the second programmable input/output port 19 are connected to the first inputs of the first multi-channel buffer element with three states 21 and the second multi-channel buffer element with three states 22, the outputs (Programmable delay line 7/o 24 are connected to the second inputs of the first multi-channel buffer element with three states 21 and the second multi-channel buffer element with three states 22, the outputs of the corresponding channels of the first and second multi-channel buffer elements with three states 21 and 22, as well as the corresponding inputs of the third programmable input/output port 20 are combined with each other and are the outputs/inputs of the specialized control and measurement stand 3.

In the device for implementing the proposed method of regulation and testing of the unit of analysis and processing of signals of the radio technical control station, the state of the unit of analysis and processing of signals of the radio technical control station 1 is changed with the help of a set of test stimulating influences, for example, test sequences of pulse signals with specified parameters, arriving at the unit of analysis and signal processing of the radio technical control station 1 through the contacting device 2 from the specialized Kcontrol and measurement stand Z. Test stimulating effects are formed with the help of a program-controlled multifunctional generator of modulating signals 23 and a programmable delay line 24. The state of the analysis and signal processing unit of the radio technical control station 1, which depends on the set of test stimulating effects, is reflected in the set of informative parameters at the outputs of the signal analysis and processing unit of the radio technical control station 1, which through the contacting device 2 on come to the inputs Ha of the third programmable input / output port 20 of the specialized control and measurement stand Z. Before starting the process of adjustment and verification with the help of the diagnostic program and PC 4, perform i9) self-control of the equipment of the specialized control and measurement stand Z and its initialization, which consists of programming according to the diagnostic program of the programmable I/O ports as in stock

personal computer, as well as in the specialized control and measuring stand Z (the operation is necessary due to the presence of modifications of the unit of analysis and processing of signals of the radio technical control station 1), after which the test and stimulating effects and control signals through the contacting device 2 will arrive at the input contacts of connectors of the unit for analyzing and processing signals of the radio technical control station 1, and the output signals of the unit "from analyzing and processing signals of the radio technical control station 1 through the contacting device 2 will enter the corresponding inputs of the third programmable input/output port 20. s

Let's consider the operation of the device for implementing the proposed method of regulation and verification of the signal analysis and processing unit of the radio technical control station 1 in terms of the formation of test stimulating effects using a multifunctional generator of modulating signals 23 and a programmable delay line 24. According to the data of the diagnostic program using the first programmable input port/ output 11 " and the first decoder 12 in the PC 4 at the outputs of the block of bus formers 13 (on the internal local buses of the address 16, data 17 and control 18) consecutively appear n-bit codes (where n - bit rate - s of the first programmable input port /pin 11 ), the first of which refers to the commands of the multifunctional generator of modulating signals 23, and the second - to the commands of the programmable delay line 24. With the help of the second "" decoder 15, the operation of which was enabled by the signal on the second output of the selector 14, the commands are entered into the operational memory, for example, register, multifunction onal generator of modulating signals 23 and programmable delay line 24, respectively. According to these commands, both the -I multifunctional generator of modulating signals 23 and the programmable delay line 24 are adjusted. In the multifunctional generator of modulating signals 23, the tracking period and duration of d pulses of sequences, their number in bundles and the number of bundles of pulse sequences are determined. In the programmed av! the delay line 24 determines the value of the constant delay of each pulse sequence, as well as, if necessary, the increase and the rate of increase of the variable delay of the pulses of the pulse sequences, which reflects the parameters of the radio equipment located on the moving medium. o Thus, using only two command words and programming the multifunctional generator of modulating signals 23 and the programmable delay line 24 for autonomous operation, it became possible to free the diagnostic program from routine program blocks that ensured the formation of test stimulating influences, which could only in the first approximation to be considered as corresponding to real signals. After working out the current programmed input stimulating effect and recording it in the operational memory device of the unit with the help of a diagnostic program, the first programmable input/output port 11 and the first decoder 12 in the PC 4 on the internal local buses of the address 16, data 17 and control 18 of the specialized control and measuring stand C appears n-bit code, because with the help of the second decoder 15, whose operation was enabled by the signal on the second output of the selector 14, forms at the outputs of the second multi-channel buffer element with three states 22 a command word that translates the signal analysis and processing unit of the radio technical control station 1 into the pulse sequence analysis mode, after which the results of determining the parameters of the pulse sequence are received at the inputs of the third programmable input/output port 20 and further through the block of bus formers 13, the first 65 programmable input/output port 11, system bus 5 to memory 9 PC 4. The diagnostic program compares the results of determining the parameters of the current test sequence with the reference ones and makes a decision on whether the results of the current test sequence are in accordance with the norm. In the latter case, a message is displayed on the screen of the monitor 9 with the help of a diagnostic program about the malfunction of the unit of analysis and processing of signals of the radio technical control station 1 during the check according to the given current number of the pulse sequence and the predicted location of the failure, in addition, a list of possible causes of deviations from the norm and measures are displayed , necessary to bring the signal analysis and processing unit of the radio technical control station into proper condition (such data can be obtained both during the development of the diagnostic program by modeling, and replenished based on the results of adjustment and testing of previous samples of the analysis and signal processing unit of the radio technical control station 1) . Such additional instructions will greatly facilitate the adjustment process, as it becomes possible to use accumulated previous experience.

Due to the fact that the volume of the diagnostic program has significantly decreased and its algorithm has been simplified with the use of the multi-functional modulating signal generator 23 and the programmable delay line 24 as part of the specialized control and measurement stand, there is a possibility of use as part of 7/5 bspecialized control and measuring bench With a microprocessor control unit with a keyboard, display and printer, which would replace a universal personal electronic computing machine with a keyboard, monitor, processor, memory, printer, the first programmable input/output port and the first decoder. At the same time, a programmed microprocessor with a keyboard, display and printer can perform all the functions that were assigned to a personal computer in the case of regulation and verification of the unit of analysis and processing of signals of the radio technical control station 1.

Each component part of the device for adjusting and checking the signal analysis and processing unit of the radio technical control station is known in the art or consists of known components.

An example of a multifunctional generator of modulating signals for issuing a set of test stimulating effects can be program-controlled pulse signal generators, program-controlled generators of code sequences, etc. In addition, its implementation is possible, as well as the implementation of a programmable delay line, on programmable logic integrated circuits (PLCs) of AG TEKA, etc. and)

Programmable I/O ports and a bus shaper block can be implemented on, for example, 580-series ICs, and decoders, selectors, and tri-state multi-channel buffer elements can be implemented on, for example, 533 ICs, etc. The control unit of the specialized control and measuring stand can be made on non-volatile memory devices of the 556RT7 type, controllers of the АМ90О58515 type, on programmable logic integrated circuits (PLC) of the AG company! TEKA, because the algorithm for adjusting and checking the parameters of the unit of analysis and processing of the signals of the radio technical control station can be implemented in a large number of options.

A personal computer with a diagnostic program in combination with a specialized control and measuring stand allows you to create a device for adjusting and checking the signal analysis and processing unit of the radio engineering control station, which automates the process of adjusting and checking parameters, almost completely eliminating the human factor.

The proposed method and the device for its implementation make it possible to significantly reduce, especially in automatic mode, the time spent on adjusting and checking the parameters of the unit for analyzing and processing signals of the radio technical control station and increasing the reliability of the parameter check. with c ;" -I name) (in) p. 50

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Claims (2)

7 Formulas of the invention about 1. Method of regulation and verification of the unit of analysis and processing of signals of the radio technical control station, according to which the unit of analysis and processing of signals of the radio technical control station is connected by means of a contact device to a specialized control and measuring stand, which in turn connected to a personal computer, at the beginning of the diagnostic program stored in the personal computer memory, initialization of the specialized control and measuring stand is carried out, which involves programming the programmable input / output ports in its composition, with the help of the diagnostic program and the personal computer, successively produce sets of input test 99 influences sent to the HF) signal analysis and processing unit through a specialized control and measurement stand and a contact device, the set of output signals of the signal analysis and processing unit as its reaction to the current set of input test influences are introduced through the contact device to the specialized control measuring stand, from where it is read using a personal computer at the appropriate moments and compared with the set reference population of the diagnostic program, and in the event that the total of 60 output signals of the signal analysis and processing unit does not coincide with the current reference population of the diagnostic program, on the monitor screen output a message about the malfunction of the signal analysis and processing unit and the predicted location of the failure, otherwise proceed to check the signal analysis and processing unit according to the next set of input test effects, after submitting to the signal analysis and processing unit a complete set of sets of input test effects and processing the corresponding reverse reactions, because they produce a decision about the technical condition of the signal analysis and processing unit, which is printed using a printer, which differs in that the input test effects are formed as part of a specialized control and measurement stand using serially connected multifunctional generator of modulating signals and a programmable delay line, during adjustment of the signal analysis and processing unit in the event that a message appears on the monitor screen about a malfunction of the signal analysis and processing unit of the radio technical control station and the predicted location of the failure additionally displays a list of possible causes of deviations from the norm and necessary measures to bring the signal analysis and processing unit into proper condition. 2. A device for adjusting and checking the parameters of the signal analysis and processing unit of the audio technical control station, which consists of a specialized control and measurement stand, to the signal inputs and outputs of which the signal analysis and processing unit is connected through the contact device, and to the programmable inputs/outputs of a specialized control and measurement stand, a personal computer is connected, consisting of a system bus and a keyboard connected to it, a processor, a monitor, memory, a printer, the first programmable input / output port and the first decoder, the output of which is connected to the input selection of the first /5 programmable input/output port, the inputs/outputs of which are the inputs/outputs of a personal computer, the specialized control and measurement stand includes a block of bus formers, an address bus, a data bus and a control bus, a selector, a second decoder, the second and third programmable I/O ports, first and second multi-channel tri-state buffer elements, I/O the steps of the bus shaper block are programmable inputs / outputs of a specialized control and measuring stand, the address bus, the 2o data bus and the control bus are connected to the corresponding outputs of the bus shaper block, the control inputs of the bus shaper block are connected to the first output of the selector, the second output of the selector connected to the select input of the second decoder and the selector inputs are connected to the address and control buses, the input of the second decoder is connected to the address bus, the first output of the second decoder is connected to the select input of the third programmable I/O port, the second output of the second decoder with connected to the selection input of the second programmable input / output port, the programmable inputs / outputs of the second and third programmable input / output ports are connected to the address, data and control buses, the outputs of the first three-state multi-channel buffer i) element are the signal data outputs of the specialized control- measuring stand, outputs of the second multi-channel th buffer element with three states are the signal outputs of the control of a specialized control and measuring bench, the outputs of the second programmable input / output port are connected to the first inputs of the first and second multi-channel buffer elements with three states, the inputs / outputs of the third programmable input / output port are signal the data inputs of the specialized control and measurement stand, which differs in that the composition of the specialized control and measurement stand includes a serially connected multifunctional generator of modulating signals and a programmable delay line, the programmable inputs of which are connected to the address, data and control busses, the outputs of the programmable delay line are connected to the second inputs of the first and second multi-channel and three-state buffer elements, the selection input of the programmable delay line is connected to the third output of the second decoder, the selection input of the multifunctional generator of modulating signals is connected connected to the fourth output of the second decoder. "Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated circuit boards", 2005, M 1, 15.01.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. ;" -I ime) («c) s 50 IR e) Ф) ime) 60 b5