Design Of Conductive Structure Of Energy Storage Connector

The conductive components of energy storage connector typically use highly conductive metal as the base material, with contact terminals and conductor paths formed through precision machining to connect the battery module, electrical equipment, and external circuitry. The geometry, cross-sectional area, and contact surface design of the conductive structure in battery storage connector are crucial factors determining current carrying capacity.

The conductive structure of storage connector requires consideration of material resistance, thermal conductivity, and machining precision during manufacturing. Common practices include using silver plating or high-purity copper alloys as the primary material, and surface treatment to improve conductivity and contact stability.