MicroVENT® Robots FFC(Flexible Flat Cable) passed 10 million flexing cycles

Pan Asian MicroVENT(“MicroVENT®”) announced today that its FFC(Flexible Flat Cable) for robots have delivered outstanding performance in rigorous client-side testing. The products successfully passed the flex resistance certification with an impressive result of 10,000,000 fault-free bending cycles, providing a more stable connection solution for high-frequency motion scenarios of equipment such as industrial robots, humanoid robots, and intelligent hands.

As introduced, cables serve as core transmission components of robots, and their flex resistance directly determines the continuous operation efficiency and service life of the equipment. This test simulated real working conditions including high-frequency swinging, dragging and twisting of robot joints. Under rated load and constant temperature and humidity environments, key indicators such as conductor continuity and insulation integrity of the cables were monitored throughout the process. After uninterrupted testing, the cables showed no issues such as wire breakage, short circuit or insulation cracking, and all electrical performance parameters remained stable.

According to MicroVENT®, the newly developed cables adopt a highly flexible fatigue-resistant conductor structure, combined with special elastic insulation materials and wear-resistant sheaths, which greatly enhance the cables' resistance to bending, stretching and twisting. Meanwhile, anti-interference shielding design is integrated to ensure stable and accurate signal transmission, making the cables widely applicable to robot equipment in fields including industrial automation, intelligent manufacturing, and logistics & warehousing.

The company stated that the 10,000,000-cycle flex resistance certification reflects its ultimate pursuit of product reliability. To better meet diverse customer demands and provide reliable technical support, MicroVENT® will entrust clients to conduct continuous flex resistance tests to further verify the extreme performance of its FFC for robots.