Resistance Diagnostics in High-Voltage Circuits: From Design to Implementation

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Examensarbete för masterexamen
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In high voltage systems, marginal increases in contact resistance can trigger catastrophic overheating. This thesis aims to apply a product development framework to the challenge of resistance diagnostics within connectors and busbars for heavy-duty automotive applications. The research resulted in a dual-model diagnostic function designed to identify faults before critical temperature thresholds are reached. The first model utilizes a steady-state thermal equation to establish an expected maximum temperature based on applied current. The second model employs a predictive algorithm that analyzes current and the initial temperature derivative to estimate the actual projected peak temperature. By comparing the theoretical baseline with the predicted real-time peak, the system can detect abnormal resistance in its early stages. This approach enables detection of abnormal resistance in specific components, leading to rapid fault-tracing and enhancing the safety and reliability of heavy-duty electric powertrains

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High-voltage system, Resistance diagnostics, Product development

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