<p class="section-text"><b>Purpose of the work:</b> The article aims to propose to increase the efficiency and reliability of diagnostics through the introduction of computer diagnostics based on microcontrollers.</p><p class="section-text"><b>Research method:</b> The research methods consist in the application of an integrated approach that combines theoretical analysis and data processing, which made it possible to develop a universal algorithm for diagnosing equipment implemented using microcontrollers.</p><p class="section-text"><b>Results of the research:</b> The results of the study are the development of an algorithm for diagnosing communication equipment and automated control systems, implemented on the basis of microcontroller platforms and considering the impact of external destabilizing factors, including shock loads, vibration effects and thermal cycling. The scientific and practical significance of the work is confirmed by the proposal of architectural solutions for the diagnostic system, which reduces the time spent on the localization of failures in complex multicomponent circuits, as well as retrospective analysis of equipment operating conditions to establish cause-and-effect relationships in the search for failures. An additional result of the study is the comparative analysis of architectural approaches to the implementation of the diagnostic system, which determines the criteria for choosing the optimal configuration depending on the specific conditions of application.</p><p class="section-text"><b>The scientific novelty:</b> The scientific novelty of the work lies in the fact that, in contrast to the existing diagnostic algorithms, external destabilizing factors are taken into account: thermal cycling, shocks and vibration.</p>