UA56099A - Terminal with a set of software and hardware designed for diagnostics and repair of radio electronic equipment "parm" - Google Patents

Abstract

The proposed terminal with a set of software and hardware designed for diagnostics and repair of radio electronic equipment contains a personal computer, devices for interfacing tested equipment with the computer, signal input/output devices, an analog signal generator, a logic analyzer, a digital oscilloscope, secondary power supply units, digital-to-analog converters, and devices for generating and transforming intermediate-frequency signals.

Description

The invention relates to radio engineering and can be used for diagnostics, repair and adjustment of radio electronic equipment (REA), manufactured on the element base of 3-5 generations, which is used in military equipment and the national economy in stationary and field conditions.

Modern means of diagnosing PEA can be conditionally divided according to the principle of operation into two groups: - using pseudo-random actions followed by signature analysis (hereinafter, signature analyzer); - with the use of special test actions with subsequent comparison of the response of the REA with the standard (hereinafter the test method).

The advantage of the signature analyzer is the simplicity of hardware implementation and low cost. The disadvantages of this method include low reliability, the impossibility of testing REAs, which include finite state machines with memory. To test these REAs, it is necessary to make changes to the scheme; that is, breaking certain circuits and sending signals into the middle of the circuit, which dramatically complicates the process of diagnosis and troubleshooting.

The test method is characterized by high test reliability and ease of fault finding, but requires significant hardware costs. The test method allows you to test almost all possible types of digital and digital-analog REAs. When using the test method, there are two approaches to the construction of the test device: - According to the scheme of the finite state machine with memory; - Hardware and software device.

When building a test device according to the scheme of a state machine with memory, it is easier to achieve a high speed of changing test actions, but other technical and operational parameters are sharply reduced, such as the formation of limit and unlimited sequences, analysis of delays in the REA being tested, etc.

A personal computer (hereinafter referred to as a PC) included in the test device (according to the scheme of the finite state machine) is designed to store test actions and visualize test results.

The software-hardware test device is free from the mentioned shortcomings, because the PC used in such devices controls the operation of the entire device. This allows changing the structure and parameters of the test device by changing only the software part.

From today's well-known means of diagnosis and repair of REA, such complexes as UTK-128, TDKZ, "Diana" can be named.

The closest in technical essence to the declared technical solution is the service diagnostic complex "Diana" (1|), chosen as a prototype, intended for diagnostics, functional control, repair and debugging of digital and digital-analog electronic boards of various configurations.

Prototype; which uses the test method according to the scheme of the finite state machine with memory, consists of a controlling personal computer with software and a hardware part, which includes: a PC connection device (adapter) designed to control data exchange between the PC and internal devices and blocks of the complex, connected by a base bus on one side with the PC, and on the other - with devices and blocks of the complex; input-output devices (item 3. test processors) designed to test the digital part of the board; programmable analog signal generator for supplying signals to the analog part of the board; logical and signature analyzers; digital oscilloscope; built-in power supplies.

Each hardware module of the complex corresponds to a database system for accumulating and storing diagnostic information for each tested board. Board testing with the help of hardware-programmed tools of the diagnostic complex of the prototype is based on the use of test tables of checks, which are compiled by the operator himself for each new board, if the board was not previously diagnosed on the complex. The reference reaction for the test is taken from the working board when the given test is applied to it.

The complex is able to remember and store all this information in repair databases for each specific board. The board testing process is carried out as follows - first, the board status is monitored according to the "good-bad" principle, and only later is the localization of malfunctions carried out.

The prototype, along with its positive qualities, has a number of significant shortcomings that limit its technical characteristics and field of use, in particular: - Impossibility of checking the load parameters of the output elements using load equivalents connected to the corresponding contacts of the tested boards; - Limited levels of signals applied to the input contacts of boards being diagnosed (from -8 to -108); - Impossibility of compiling a map of signal propagation delays at the outputs of devices tested to check the speed of digital integrated circuits; - Impossibility of checking the duration of pulse fronts at the outputs of microcircuits, which makes it impossible to predict the output of microcircuits; - Impossibility to carry out diagnostics and repair of RAM and ROM, which are assembled on ferrite-diode and integrated elements; - The impossibility of fulfilling all the requirements of the private technical conditions (PTU) for the device under test, for example, such as feeding limited or unlimited sequences to the inputs of some devices (due to the limited capabilities of the RAM), which does not make it possible to diagnose multi-bit shift registers, counters, etc. .p.; - Restriction of operation of the diagnostic complex only in stationary conditions.

The basis of the proposed technical solution is the task of creating a software-hardware workplace for diagnostics, repair and adjustment of the REA by using new circuit elements with appropriate connections between them with better, compared to the prototype, technical and climatic characteristics, expanded functionality of the workplace in general, which provides an opportunity to get rid of the shortcomings that are characteristic of the prototype, as well as its operation both in stationary and in the field, which is especially important for objects of military equipment.

The task is solved by the fact that a known device (prototype), which consists of a controlling personal computer with software and a hardware part, which includes a device for connecting to a PC (adapter), an input-output device, an analog generator, a logic analyzer , a digital oscilloscope, built-in power supplies, according to the invention, the hardware part additionally includes: a digital-analog subsystem, which includes a controller of the digital-analog subsystem, connected by an internal local bus of the subsystem to input-output devices, an analog low-frequency (LV) unit, built-in power supplies of the subsystem and the device under test, a block of external connectors for connecting a transitional device, a transitional device for connecting the device under test; analog intermediate frequency (IF) subsystem, which includes an analog IF controller of the subsystem, connected by an internal local bus of the subsystem with an analog generator, which is made in the form of synthesizers of harmonic and pulse signals, a built-in power supply unit of the subsystem, a block of external connectors for connecting a device that is checked; a power supply unit with digital control, which includes a COM port adapter, connected to the control PC on one side and to a digital power source on the other side.

The controller of the digital-analog subsystem, in turn, consists of an adapter and RT port, connected to the control PC on one side and to the internal bus of the controller, which is connected to the bus arbiter, a 16-bit register, a logic analyzer, a 4-channel 12- one-bit digital-to-analog converter, 8-channel analog multiplexer, 16-bit analog-to-digital converter, multi-mode timer, sequence shaper controlled by a delay shaper.

The input-output device of the digital-analog subsystem includes (M x 32) digital input-output lines, input and output data registers, a level converter, a circuit for forming unlimited sequences of pulses.

The analog IF subsystem controller consists of a COM port adapter connected to the control PC on one side and the control circuit on the other side, which is connected to the synchronization device and multiplexer through the controller's internal bus.

The power supply unit with digital control includes 6 independent digital power sources, isolated from the case and distinguished by the range of output voltages and the maximum possible load currents.

The proposed software-hardware workplace for diagnostics, repair and debugging of radio-electronic devices "PARM" differs from the prototype by the introduction of additional functional devices and blocks into the hardware part of the complex, which allows improving the technical characteristics of the workplace and expanding its functionality. Thus, the presence of a controller of the digital-analog subsystem, which is intended for communication and control of the PC through the printer port (and RT-port in ERR mode) allows you to realize an exchange speed of at least 10 - 16 Mbit/s with block exchange. The IRT port adapter, which is located in the controller of the digital-analog subsystem, automatically adjusts the exchange rate depending on the parameters of the connecting cable and the availability of data in the system. All devices of the controller are interconnected by the internal bus of the controller.

The bus arbiter manages the operation of all devices that are part of the controller and forms all exchange signals of the internal local bus of the digital-analog subsystem. The 16-bit register is intended for entering external data in the TTI level, which expands the operational capabilities of "PARM".

The digital analyzer circuit is designed to analyze the operation of the digital logic elements of the device under test and allows you to monitor the logic state, level matching and edge duration of the logic element under test. The digital analyzer includes: - a signal level meter on the contacts of the tested node to check their compliance with TTL, CMOS, etc. standards, as well as checking the duration of the edges of the output signals of microcircuits, which allows, due to the determination of the increased duration of the edges, to identify microcircuits with reduced speed and predict their rapid failure; - a signal propagation delay meter, designed to control the delay time of output signals at the terminals of the devices under investigation in order to check the speed of digital integrated circuits. The 4-channel 12-bit digital-to-analog converter forms the voltages of the upper and lower logic levels (to ensure the operation of the digital analyzer and universal input-output ports), the control voltage for checking the duration of the edge of the digital analyzer, the control voltage for the power supply unit of the device under investigation. The 8-channel analog multiplexer is designed for switching analog signals from the digital-to-analog converter, internal power sources and external probe to the input of the analog-to-digital converter.

The multimode 16b-bit timer is designed for: forming a pulse of a given duration; formation of a meander of a given frequency; formation of a bundle with a given number of pulses; measuring the number of pulses; frequency measurement.

The sequence builder is designed to create bounded and unbounded sequences.

The controllable delay shaper is designed to form a delay between the data output pulse in the universal I/O port and the data input pulse, which allows measurement of signal propagation delays in the device under test for checking the speed of digital integrated circuits.

The I/O device contains 32 digital I/O lines. Each line can be programmed to input or output, input lines to input voltage TTL level (logic "0" less than 0.4V, logic "1" more than 2.4V), as well as levels of input signals 128 and 278, operation on a load of 75 Ohms, the output voltage is not less than 2.4V, so up to 50mA; input lines for logical zero and logical one levels (for the level control scheme) within at least (0.1...4.5) Ю; logic level control (TTL, CMOS).

The analog LF unit is designed for checking and adjusting the DAC and ADC that are part of the digital-to-analog device. It consists of a 40-channel multiplexer connected to a 16-bit analog-to-digital converter and a 4-channel 12-bit digital-to-analog converter. 40 input lines divided into 8 input voltage lines -- 108 and 32 input voltage lines --

208, 4 output lines with output voltage - 58, - 108, - 208.

The power supply unit of the device has the following parameters: the current in the load is not less than ZA, software setting of the output voltage within 5V - 1095 with a step of not less than 0.18, protection against k.3. in load

The transition device is designed for switching signals and contains connectors for connecting the device under test. For each type of device under test, it is necessary to use an individual modification of the transition device.

Unlike the prototype, the analog IF subsystem can output rectangular signals (up to 31 channels), in addition to sawtooth signals, and the range of the harmonic signal synthesizer has been extended to bamHz and a mode has been introduced

The SVIP generator, which allows you to check the setting and record the amplitude-frequency characteristic (frequency response) of all kinds of circuits, filters, etc.

The power supply unit with digital control is designed for powering analog and digital-analog devices with non-standard power. Digital power sources of the unit provide digital regulation of output voltage and current, measurement of output voltage and current, simulation of destabilizing factors, protection and status indication in emergency modes.

The features listed above, which distinguish the software-hardware workstation "PARM" from the prototype, which is claimed, give it improved tactical and technical characteristics compared to the prototype, increase its functional capabilities, namely: - the main program has a friendly interface, extensive a help system and includes a database, a digital signal analyzer, test editors and assignment of contacts of the device under test; - allows you to fulfill all the requirements of the partial technical conditions (CTU), such as: setting the input and output contacts of the device being tested in accordance with the CTU or the schematic diagram; establishment of uncontrolled contacts of the device controlled by checks; supply to the necessary input contacts of the device under test, limited or unlimited sequences; designation of regulated output contacts of the device under test, which control the passage of sequences; connection to the input contacts of the device under test, shunted by a 75 (50) Ohm resistor; - the presence of a transitional device provides: communication of all contacts of the device under test with input-output devices; connecting all active contacts of the device under test through load resistors to the power source, which is a necessary condition for CMOS microcircuits; the possibility of applying each of the voltages that supply both positive and negative polarity to the appropriate contacts of the device under test; the convenience of checking the load parameters of the output elements of the device under test with the help of load equivalents, which are connected to the corresponding contacts if necessary; - provides cyclic or one-time output of test effects on the tested node, with a digital or graphic indication of the test result on the monitor screen; - in graphic analyzer mode, you can save up to 1024 oscillograms in the database; - has a built-in editor for entering check tables, which allows you to: enter and edit the check table according to ChTU for the device under test with a new level of refinement; draw up a table of checks according to the schematic diagram of the device under test; - has the means of automatically creating check tables according to a random law with subsequent manual adjustment of input influences; - has a built-in system for checking workplace equipment; - allows you to carry out diagnostics, repair and adjustment of analog and analog-digital boards of devices under test, which work in the video and intermediate frequency range (up to b6OMHC); - control the delay of signal propagation in digital radio-electronic devices, which allows to create a map of the delays of digital devices that are tested in order to evaluate their speed; - check the duration of the fronts of the output signals of the microcircuits, which allows you to identify the microcircuits with low speed and predict their failure based on the increased duration of the fronts; - record the amplitude-frequency characteristics (frequency response) of analog devices in the range from 0 to bOMHz and enter them into the database.

The drawing (fig.) shows a functional block diagram of a hardware and software workplace for diagnostics and repair of "PARM" radio-electronic units. The workplace that is declared consists of: a controlling personal computer 1 and a hardware part, which includes: a digital-analog subsystem 2, an analog IF subsystem 3, a power supply unit with digital control 4.

The digital-analog subsystem 2 includes: the controller of the digital-analog subsystem 5, connected by the internal local bus of the subsystem b to the input-output devices 7, the analog LF unit 8, the built-in power supply unit of the subsystem 9 and the power supply unit 10 of the device 12 under test, a block of external connectors 11 for connecting the device under test 12 and a transitional device for connecting the device under test 12. The digital-analog subsystem controller 5 consists of an IRT-port adapter 13 connected to the controlling personal computer 1 from one side and with the internal bus of the controller 14, connected to the bus arbiter 15, 16-bit register 16, logic analyzer 17, 4-channel 12-bit digital-to-analog converter 18, 8-channel analog multiplexer 19, 16-bit analog-to-digital converter 20, multi-mode timer 21, sequence shaper 22, controllable delay shaper 23.

The analog IF subsystem C includes: the controller of the analog IF subsystem 24, connected by the internal local bus of the subsystem 25 to the analog generator 26, made in the form of harmonic signal synthesizers 27 and pulse signal synthesizers 28, a built-in power supply unit of the subsystem 29, a block of external connectors 30 for connection of the device under test, a digital oscilloscope 31. The controller of the analog IF subsystem 24 consists of a COM port adapter 32 connected to the controlling personal computer 1 on the one hand and the control circuit 33 on the other hand, which through the internal bus of the controller 34 connected to a synchronization device 35 and a multiplexer 36. The power supply unit with digital control 4 includes: six power cells 38, which are connected through an adapter 37 to the controlling personal computer 1 on one side and to the disconnection unit 30 on the other side .

The proposed "PARM" workplace works as follows. 1. A digital-analog subsystem is used for diagnostics, repair and adjustment of digital units of radio equipment 2. The control code of the personal computer 1 through the adapter I of the RT port 13 is transmitted to the bus arbiter 15 and the internal bus of the controller 14, through which information is exchanged with the devices of the controller 5 The bus arbiter 15 through the internal bus of the controller 14 is connected to the internal local bus 6 of the digital-analog subsystem 2, with which the input-output devices 7 are connected, which have communication through the block of external connectors 11 and the transition device with the device 12 , which is tested.

The method of applying test effects to the inputs of the device under test and comparing the received responses with the reference table is used for the diagnosis of digital radio-electronic units. For additional analysis of the malfunction and localization of microcircuit malfunctions, a logic analyzer 17 is used, which allows you to walk along the chain from the faulty starting point of the device under test to the faulty element. In addition, with the help of the logic analyzer 17, it is possible to record and save in the personal computer database 1 to 1024 reference oscillograms, which can then be compared with the oscillograms of the device under test. Using the input-output device 7, it is possible to additionally measure the temporary parameters of microcircuits and predict their failure. 2. For diagnostics, repair and adjustment of digital-analog and analog-digital units of radio equipment, analog NU unit 8 is used. Diagnostics is carried out similarly to diagnostics, which is carried out for digital units of REA, in addition, it is possible to additionally perform diagnostics of digital-analog and analog-digital converters , which are part of the device under test. To measure the temporal parameters of the signals, a multi-mode timer 21 is used, which receives a signal from the device under test. The multi-mode timer 21 measures the duration, frequency, period of the incoming signals and sends the necessary signals through the internal bus of the controller 14, the adapter and the RT port 13 to the computer 1, where they are read and analyzed. If the device under test has adjustment elements, it is possible to set the necessary parameters in the working mode.

Q. An analog IF subsystem is used for diagnostics and repair of analog nodes of radio equipment. Computer 1 through the analog IF subsystem controller 24 controls the operation of four synthesizers of harmonic signals 27 and 2 synthesizers of pulse signals 28. The necessary signals are sent to the device under test through a block of external connectors 30. The analysis of these signals is carried out using a digital oscilloscope 31.

Sources of information: 1. "Radioamator" magazine, Mo. 11, p. 42, Kyiv, 1999

what and what

Ppluvaikarans

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Claims (5)

1. Software-hardware workplace for diagnostics and repair of radio-electronic devices, which contains a controlling personal computer with software and a hardware part, which includes devices for connecting to a personal computer (adapters), input-output devices, an analog generator , a logic analyzer, a digital oscilloscope, built-in power supplies, which is characterized by the fact that the hardware part contains: a digital-analog subsystem, which includes a controller of the digital-analog subsystem, connected by an internal local bus of the subsystem with input-output devices, an analog low-frequency unit , built-in power supply units of the subsystem and the device under test, a block of external connectors for connecting the device under test, and a transition block for connecting the device under test; analog unit of the intermediate frequency subsystem, which includes a controller connected by an internal local bus of the subsystem to an analog generator made in the form of synthesizers of harmonic and pulse signals, a built-in power supply unit of the subsystem, a block of external connectors for connecting the device under test; a digitally controlled power supply unit, which includes a COM port adapter, is connected to the controlling personal computer on one side and to digital power supplies on the other side. 2. Software-hardware workplace for diagnostics and repair of radio electronic devices according to claim 1, which is characterized by the fact that the controller of the digital-analog subsystem contains a GRTI port adapter connected to the controlling personal computer on one side and to the internal bus of the controller , connected to a bus arbiter, 16-bit register, logic analyzer, 4-channel 12-bit digital-to-analog converter, 8-channel analog multiplexer, I1b-bit analog-to-digital converter, multimode timer, sequence shaper, controlled delay shaper . 3. Software and hardware workplace for diagnostics and repair of radio electronic devices according to claim 1, which is characterized by the fact that the input-output device of the digital-analog subsystem contains (Mx32) digital input-output lines, input and output data registers, a level converter, a circuit formation of unlimited sequences of pulses. 4. Software-hardware workplace for diagnostics and repair of radio-electronic devices according to point I, which is characterized by the fact that the power supply unit with digital control contains independent digital power sources, which are isolated from the case 1 and differ in the range of output voltages and the maximum permissible load currents. 5. Software-hardware workplace for diagnostics and repair of radio-electronic devices according to claim 1, which is distinguished by the fact that it is located and operated both in specially equipped vehicles and 1 in stationary premises.