Transient Fault Active Capture Device for Transmission Lines
This device employs microsecond-level multi-source signal (acoustic, optical, electrical, magnetic) coordination to precisely capture transient faults such as lightning flashover and engineering vehicle contacting lines, with the complete fault scenario reconstructed via dynamic GIF videos. It leverages AI recognition technology for early warning of hazards including wildfires, kite entanglements, floating objects, and construction vehicles. Breaking through traditional monitoring limitations, it provides critical evidence chains for analyzing transient on the line. By establishing a visual monitoring system integrating “instantaneous capturing-dynamic recording-intelligent alerting”, the device creates a fault detection barrier with clear visibility, accurate judgment, and rapid response for overhead lines, significantly ensuring safe and stable power supply in industrial production facilities.
- Information
Application Scenarios
Suitable for transmission/distribution lines, cable terminal towers, substations, and similar scenarios.
Technical Parameters
| Operational power consumption: | ≤1.5W (Instantaneous power consumption≤5W) |
| Standby power consumption: | Capable of normal heartbeat transmission and command reception, ≤0.05W |
| Image format for transient fault capturing: | .jpeg format |
| Number of images per transient event: | Configurable, default setting is 3 images |
| Trigger response time for transient fault capturing: | ≤8μs |
| Communication method: | Support China Telecom 4G, China Mobile 4G, China Unicom 4G |
| Power supply mode: | Solar power + lithium battery backup, total power of solar PV module ≥38W; LiFePO4 lithium-ion cell, nominal capacity of battery pack ≥120Wh |
| Protection rating: | IP66 |
| Image recognition accuracy rate: | ≥90% |
Defect discharge monitoring accuracy rate: | ≥90% |
| Fault short video omission rate: | ≤5% |
