UA143563U - METHOD OF CONTROL OF WORKINGNESS AND LOCALIZATION OF DEFECTS IN MODERN DIGITAL RADIOELECTRONIC DEVICES USING PARAMETERS OF OWNERSHIP - Google Patents

Abstract

A method of monitoring the performance and localization of defects in modern digital electronic devices using the parameters of its own radiation includes the diagnosis of electronic devices. Implemented by applying a test effect to the input of the device. Removal of diagnostic parameters, namely values of signal voltage (surface potential voltage), is registered by means of the block of issue of the diagnostic information, further compare with reference, find out degree of coincidence and on their difference draw a conclusion concerning efficiency or inoperability of the digital electronic device.

Description

The useful model belongs to the methods of performance control and localization of defects in modern digital radio-electronic devices using the function of self-radiation and can find wide application for objects of digital radio-electronic equipment.

The organization of performance control and localization of defects in modern digital radio-electronic devices using the parameters of their own radiation is quite complex, and at the current stage of the development of digital radio-electronic technology, the issues of this organization have not been completely resolved. and modes of operation of objects of radio-electronic equipment encourage to look for new methods and methods of analysis, control of the technical condition of digital radio-electronic devices in order to make a decision about the technical condition with reliability not lower than the specified one.

Known analogs are: combined electromagnetic method of monitoring the technical condition of radioelectronic devices in the frequency domain and output reactions. See per //base. tsiru.ogu/zeatspIMM/zeatgsi.rpr?asiiop-miemdeiaizaiasSiait-254959) combined electromagnetic method of localization of inoperable radioelectronic components of radioelectronic devices in the frequency domain and output responses (see pir//baze.tsiru.ogud/zeatgspIMM/zeagsy.rpr?asiop -mkhiemaeiaivaiasSiait-242597I, chosen for the closest analogue.

The difference of the closest analogue is that in order to control the technical condition and localization of inoperable radio-electronic components of radio-electronic devices in the frequency domain, the radiation of radio-electronic components of radio-electronic devices is used as a diagnostic parameter, namely the change of the electromagnetic field around the radio-electronic components in radio-electronic devices and the value of the signals at the outputs radio-electronic devices using antennas aimed at radio-electronic components.

The basis of a useful model is the task of creating such a method, in which the diagnostic information is the own thermal radiation of radio-electronic components, which

Zo is registered by the unit for issuing diagnostic information.

The task is solved by the fact that the method of monitoring the performance and localization of defects in modern digital radioelectronic devices using the parameters of their own radiation includes diagnostics of radioelectronic devices, which is implemented by applying a test effect to the input of the device, according to a useful model, removing diagnostic parameters, namely voltage values signals (surface potential voltages) are recorded using the diagnostic information output unit, then compared with the reference one, the degree of coincidence is detected, and based on their difference, a conclusion is drawn regarding the operability or non-operability of the digital radio-electronic device.

The essence of the useful model is explained by the drawing, which shows the functional scheme of the implementation of the proposed non-contact induction method of monitoring the technical condition of digital radio electronic devices.

The scheme contains a radio-electronic device 1 with radio-electronic components 2, 3, 4, 5, 6, 7, a unit for issuing diagnostic information 8.

The method is implemented as follows.

In order to reduce the time required to find a faulty component, a one-dimensional way of monitoring performance and localization of defects in modern digital radio-electronic devices is used. At the same time, the device is divided into two equal parts (half-section method), the rank of the circuit of the digital block is determined, to which the middle of the one-dimensional path is assigned. With the help of the self-radiation function, with the use of verifiable test sequences and the features of the manifestation of the diagnostic parameter on the surface of the radio-electronic component during pulse heating, the state of the radio-electronic component of the last rank is checked. If the radio-electronic component is working, then the right part of the one-dimensional path is subject to inspection, otherwise - the left part. Inspection of a defined part of a one-dimensional path is also carried out using the half-section method.

After determining the radio-electronic component, the diagnostic parameter of which does not correspond to the passport data, it is marked as a "conditionally faulty" radio-electronic component. To finally determine the status of a radio-electronic component, it is necessary to make sure that there are no constant malfunctions of radio-electronic components of previous ranks (technical condition of radio-electronic components preceding in rank).

The essence of the method is to apply the direct dependence of the properties of the radio-electronic component on the temperature of the semiconductor structure and the change of these properties under the influence of internal physical and chemical processes, which is linearly reflected on the parameters of thermal transient processes (activated by verifiable test sets). Non-contact (non-electrical) control of thermal processes and their parameters in the infrared wave range allows solving the problem of determining faulty radio-electronic components in digital units.

For the first time, the test of the hypothesis about the technical condition of the radio-electronic component in the composition of digital units is carried out based on the results of measurement and evaluation of the parameters of the infrared field of the surface of the radio-electronic component, which are linearly related to the stochastic processes of current change in semiconductor structures.

The use of the proposed method provides an opportunity to restore the functionality of digital blocks that are already in operation, as well as those that are being designed. At the same time, any influence of diagnostic tools on the operation of the main equipment is excluded and the time required to search for faulty radio-electronic components in inoperable digital units is significantly reduced.

As the exams have shown: the time for checking the technical condition of a radio-electronic device is reduced by 10 percent, unlike analogs, the reliability of decision-making regarding the technical condition of radio-electronic devices is increased by 15 percent.

Claims (1)

USEFUL MODEL FORMULA A method of monitoring performance and localization of defects in modern digital radioelectronic devices using self-radiation parameters, which includes diagnostics of radioelectronic devices, which is implemented by applying a test effect to the input of the device, which differs in that the removal of diagnostic parameters, namely, signal voltage values (surface potential voltages), are registered using the unit for issuing diagnostic information, then compared with the reference one, the degree of coincidence is detected, and based on their difference, a conclusion is drawn regarding the operability or non-operability of the digital Zo radio-electronic device. and sh- ma shi drettt "M on y | -- / иб; X: we are ladies dokhetetetoetnknknnkiYu Du ve 5 and Y GNN PD,