The core characteristics of insulated pins are their excellent insulation performance and reliable conductivity. They are usually composed of a metal core and insulation layer, which can safely and efficiently transport current. In addition, insulated pins also have good mechanical strength, which can provide stable physical support and withstand certain tensile and compressive forces.

Advantages of insulated pins:

The advantages of insulated pins include ensuring electrical safety, improving circuit stability, simplifying circuit design, enhancing equipment reliability, and facilitating maintenance. Due to its excellent insulation performance, the use of insulated pins can effectively avoid safety hazards such as short circuits and electric sparks. Meanwhile, due to its simple structure, ease of processing and replacement, it can significantly improve production efficiency and reduce maintenance costs.

The following is a detailed description of insulation pins for different classifications:

Plastic insulated pins: Plastic insulated pins are currently the most widely used type. It has good insulation performance, low price, and is easy to produce on a large scale. Plastic insulated pins are generally made of polymer materials such as polyamide and polycarbonate, which have good heat resistance and chemical stability. They play important roles in fields such as electronic devices, home appliances, and lighting.

Ceramic insulated pins: Ceramic pins have excellent high-temperature and high-frequency resistance, making them suitable for use in extreme environments. They are particularly popular in fields such as aerospace, military, and medical. Although the cost of ceramic pins is high, their