Strong current carrying capacity: High Current Connector Pins usually use thicker conductor materials to ensure that they can withstand larger currents. Their design and manufacturing fully consider the thermal and electromagnetic effects of current, and can maintain stable performance under high current conditions.

Low resistance: In order to reduce energy loss during current transmission, the contact resistance of high-current pins is usually low. This requires the use of high-quality conductive materials and precise processing technology to ensure good contact between the pin and the socket.

Good heat dissipation performance: Since a large amount of heat is generated when a large current passes through, High Current Connector Pins need to have good heat dissipation performance. Usually a heat dissipation structure design or heat dissipation materials are used to effectively dissipate heat and prevent the pin from overheating.

High reliability: In high-current applications, the reliability of the connection is crucial. High Current Connector Pins usually use a sturdy structural design and a reliable connection method to ensure a stable connection even in harsh working environments.