Accurately pinpointing corona partial discharge is critical for effective maintenance. True visual localization with solar‑blind UV cameras enables precise risk assessment, targeted repairs, and reliable predictive maintenance—avoiding costly downtime and maximizing high‑voltage asset performance.
Articles & Case Studies
As EVs adopt high-voltage, fast‑switching drives for greater performance, hidden partial discharge in motor insulation is emerging as a critical reliability threat—accelerating wear, risking costly failures, and demanding advanced detection methods beyond traditional testing.
Data centers are power‑hungry engines of the digital economy, with AI accelerating electricity demand. As infrastructure strains under rising loads, predictive maintenance becomes essential to prevent costly outages, protect uptime, and safeguard the critical electrical backbone powering today’s connected world.
High-voltage rotating machines face a major threat from partial discharge (PD), often leading to insulation failure and costly downtime. This paper compares blackout tests with solar-blind UV cameras, offering practical insights for safer, more accurate PD detection and prevention.
Our research examines how partial discharges degrade dielectric materials through chemical and mechanical mechanisms. It highlights molecular bond breaking, cracking, and environmental impacts, offering insights to enhance insulation system longevity and reliability in the face of PD-induced aging.
Certified NETA IV technician Thomas Wire shows how ultraviolet cameras expose insulator faults and corona discharge, complementing infrared inspections to deliver non-intrusive, predictive maintenance and greater substation reliability—captured in a concise, two-video field series.
UV imaging offers utilities a powerful, early-warning tool to detect contamination and prevent insulator flashovers—risks often missed by infrared. Especially in polluted environments, UV cameras enable proactive maintenance and safer, more efficient grid operation.
The DayCor® UV EYE family delivers high-sensitivity corona and arcing detection across diverse industries, supporting continuous substation monitoring, robotic patrols, vehicle-based grid inspections, and real-time rail assessments with reliable, multi-sensor integration in demanding environments.
As electric motors evolve in EVs and aviation, insulation stress and partial discharge risks increase. Advanced UV imaging now enables precise, real-time PD detection—offering manufacturers a safer, more effective solution to ensure motor reliability and performance.
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