In modern electronic devices and electrical systems, internal wiring, though invisible, is the "lifeline" for energy and signal transmission.
Controlling wire diameter uniformity in the power cord extrusion process requires collaborative improvements in multiple dimensions, including equipment precision, parameter optimization, mold design, and real-time feedback.
During high-frequency signal transmission, the skin effect causes the current to concentrate on the surface of the conductor, reducing the effective conductive area and significantly increasing the resistance.
In modern computer systems, data travels at extremely high frequencies through wires, from the main unit to the monitor, from the hard drive to memory, or through network interfaces to interact with the outside world.
In the hidden lifeblood of modern buildings and industrial facilities, power cords act as an indestructible "life conductor," seamlessly blending the promise of safety with the power of technology in a beautiful and innovative design.
In the neural network of modern building and industrial power transmission, UL electronic wire, particularly flexible mineral insulated cables like the JX-BTLY (NG-A)