The metal shielding layer needs to be connected to the grounding grid through a low-impedance path to ensure that electromagnetic interference can be quickly conducted to the ground.
In power systems, cable terminals are critical nodes connecting equipment and lines, and their reliability directly affects the stable operation of the entire power supply network.
Composite shielded insulated tubular busbar bodies, with their unique structural advantages and electrical properties, demonstrate significant potential value in cryogenic superconducting systems.
Analysis and simulation technology can predict the stress conditions under different design schemes, optimize structural parameters, and avoid design defects.
The interlayer bonding process of the composite shielded insulated tubular busbar body is a complex process involving multiple stages and multi-parameter coordinated control.
During long-term operation, the insulation layer needs to withstand the impact of system voltage and overvoltage.