UA138427U - COMBINED ENERGOSTATIC METHOD FOR CONTROL OF TECHNICAL CONDITION AND LOCALIZATION OF DISABLED RADIOELECTRONIC DEVICES AND OUTPUTS - Google Patents

Abstract

Combined energy-static method of control of technical condition and localization of inoperable radio-electronic components of radio-electronic devices and initial reactions at application of the controlled power supply at which carry out diagnostics of radio-electronic devices. When removing the diagnostic parameters, namely the voltage values of the signals on the additional resistance, which is included in the gap of the housing bus, which are presented in the time domain (duration and repetition rate) and the signal values at the outputs of electronic devices, which are presented as a signature. the input of the device of the same test effect occurs at the minimum, nominal and maximum input voltages of the electronic device, then the signatures of the signals at the outputs of electronic devices and signals presented in the time domain (duration and repetition rate) are compared with the reference, the difference is the conclusion about the efficiency or inoperability of digital electronic devices.

Description

The useful model belongs to the methods of monitoring the technical condition and localization of inoperable radio-electronic components of digital radio-electronic devices by an energy-static method and can find wide application for objects of digital radio-electronic equipment.

The organization of monitoring the technical condition and localization of inoperable radio-electronic components for modern digital radio-electronic devices is quite complex, and at the current stage of the development of digital radio-electronic technology, the issues of this organization are not completely resolved. The rate of development of electro-radio elements of radio-electronic equipment objects, increasing the degree of integration of electro-radio elements, the number of external outputs and modes of operation of radio-electronic equipment objects encourage the search for new methods and methods of analysis, control of the technical condition and localization of radio-electronic components of digital radio-electronic devices in order to make a decision about the technical condition of reliability is not lower than the given one.

The closest analogues are the combined energy-dynamic method of monitoring the technical condition and localization of inoperable radio-electronic devices in the frequency domain and output reactions when using a controlled power source (see: pyr//baze.tsiru.ogd/zeatgspIMM/5eagsn.rpr"asiop-khmiemsiviaiaizaiasiait-2549668sNarieg -aezsg irkop).

The difference of the closest analogue is that it uses the frequency characteristics of the signal in the power bus and the value of the signals at the outputs of the radio electronic devices at different input voltages supplied to the radio electronic device as a diagnostic parameter to control the technical condition and localize inoperable radio electronic components of digital radio electronic devices. device using a controlled power supply.

The basis of a useful model is the task of creating a method in which the diagnostic information is the value of the voltage measured in the steady-state operation of a digital device on an additional resistance, the fulfillment of requirements when measuring this diagnostic parameter regarding the manifestation and transportation of any defect to the control point, and logical values of the signals at the outputs of the radio-electronic device at different input voltages

From the power supplied to the radio-electronic device using a controlled power source.

The task is solved by the fact that in the combined energy-static method of monitoring the technical condition and localization of inoperable radio-electronic components of radio-electronic devices and initial reactions when using a controlled source

C5 power supply, including the diagnostics of radio-electronic devices, according to the useful model, when removing the diagnostic parameters, namely the values of the voltage of the signals on the additional resistance, which is included in the break of the body bus of the power supply, which are presented in the time domain (duration and repetition rate) and the values of the signals at the outputs of radio-electronic devices, which are presented in the form of a signature, when applied to the input of the device, the same test effect occurs on the minimum, nominal and maximum input voltages of the power supply of the radio-electronic device. Signal signatures at the outputs of radio electronic devices and signals that are presented in the time domain (duration and repetition frequency) are compared with reference ones, the degree of coincidence is detected, and based on their difference, a conclusion is drawn regarding the performance or non-performance of digital radio electronic devices.

The useful model is explained by the drawing, which shows the functional scheme of the implementation of the proposed combined energy-static method of monitoring the technical condition and localization of inoperable radio-electronic devices and initial reactions when using a controlled power source.

The scheme contains a radio electronic device (REP) 1 with radio electronic components 2,3,5,6,7,8, control resistance A, 9, separating capacitor 10. SA - signature analyzer 4 and controlled power source 11.

The method is implemented as follows.

When an integrated circuit from the TEZ or a logic element (LE) of the integrated circuit fails, they stop switching (constant fault) or their switching functions change (short-circuit, "scrambling" and inverse types of faults), the signal levels at their outputs differ from the signal levels of a working IC or LE. These levels from each IC output are transported to a defined fixed level at the control point (CT). This makes it possible to control the operation of the IC by applying test influences to its inputs at the minimum, nominal and maximum input voltages of the supply, determine the value of the voltage in the CT, compare these values with those calculated for the operational state of the IC and draw a conclusion about its serviceability. Therefore, a defect in the TEZ leads to a change in the value of the parameters of the signals at its output and in the CT, i.e., the conditions for the manifestation and transport of the defect to the control point are fulfilled (the correlation coefficient between the parameters of the signals at the output and at the control point is about 0.95). At the value of Ncontr, a contradiction occurs. On the one hand, the resistance must be increased in order to obtain the largest possible amplitude of pulses and exceed them above the noise, and on the other hand, it must be reduced, since a significant increase in the resistance of the grounding bus leads to a decrease in the immunity of digital ICs. This problem is solved with this value of sontr. 1. Akontr OLC. where Ahcp U Acp b Akontr. Acp is the dynamic resistance of the digital device (CPU), and Nxcp is the total resistance of the CPU, to the chassis bus of which is connected an additional resistance. 2. The ratio of signal-to-noise levels in CT should be Osh .

Next, the values of the voltage of the signals on the additional resistance, which is included in the gap of the housing power supply bus, which are presented in the time domain (duration and repetition frequency) are compared with the standard. If the measured and reference parameters match, then the digital radio electronic device is operational. Otherwise, the digital radio electronic device is inoperable.

At the same time, the reactions at the output of the digital device, with the help of a signature analyzer, are converted into a sixteen-year code (signature). Compression of the corresponding responses is implemented on shift registers with feedback. Signatures are compared with standards, which are obtained either by calculations or by obtaining them on a previously working device.

Submission of tests is carried out with a special generator or software methods.

It is necessary to ensure that the time interval of the test exposure signals to the device is equal to the analysis time.

As the exams have shown: the length of diagnostic tests is reduced by 10-20 percent. At the same time, the more complex the device, the greater the gain in the shortened test; the time for monitoring the technical condition of the radio-electronic device and localization of malfunctioning radio-electronic components in radio-electronic devices is reduced by 15 percent, unlike analogues. the reliability of decision-making regarding the technical condition of radio-electronic devices increases by 15 percent.

Claims (1)

USEFUL MODEL FORMULA A combined energy-static method of monitoring the technical condition and localization of inoperable radio-electronic components of radio-electronic devices and initial reactions when using a controlled power source, in which diagnostics of radio-electronic devices are performed, which differs in that when diagnostic parameters are removed, namely, the voltage values of the signals on the additional resistance that is included in the breakdown of the power supply bus, which are presented in the time domain (duration and repetition frequency) and the values of the signals at the outputs of the radio electronic devices, which are presented in the form of a signature, when applied to the input of the device, the same test effect occurs on the minimum, nominal and maximum input voltages of the power supply of the radio electronic device devices, then the signatures of the signals at the outputs of the radio electronic devices and the signals that are presented in the time domain (duration and repetition frequency) are compared with the reference ones, the degree of coincidence is detected and a conclusion is drawn based on their difference k regarding the performance or non-performance of digital radio-electronic devices. : t 25 | in Y and -1 10 t And Her