Bayer

Last updated January 31, 2026

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High voltage insulation resistance sensing: BayerRecent Research Landscape

Uncontrolled dielectric breakdown in vehicle circuits leads to catastrophic system failure and safety risks. These innovations engineer precise sensing and categorization methods to detect insulation degradation before hardware failure occurs.

What technical problems is Bayer addressing in High voltage insulation resistance sensing?

Uncontrolled high voltage discharge

(26)evidences

High-voltage components retain dangerous energy levels after system shutdown. Eliminating this stored charge prevents electric shock and hardware damage during maintenance or faults.

Inaccurate energy storage estimation

(24)evidences

Unintended electrical paths between high-voltage storage and vehicle chassis pose lethal shock hazards and equipment damage. Mitigating these risks ensures passenger safety and prevents catastrophic insulation breakdown.

Thermal management system failure

(15)evidences

Inadequate detection of heat accumulation in high-voltage storage leads to catastrophic cell failure. Early identification of thermal instability prevents battery degradation and safety hazards.

Undetected high voltage leakage

(14)evidences

Undetected parasitic currents and residual voltages pose significant safety risks and system degradation. Identifying these hidden faults prevents catastrophic insulation failure and electric shock.