Usage Characteristics of Aerospace Connectors in Industrial Automation

1. High stability and anti-interference
   • Ensure reliable signal and power transmission in complex industrial environments with strong electromagnetic interference (EMI), frequency converters, motors and high-power equipment.
2. Vibration and shock resistance
   • Maintain stable connection under long-term mechanical vibration, repeated movement and equipment startup/shock, avoiding poor contact or signal interruption.
3. Wide temperature and harsh environment adaptability
   • Resistant to high and low temperatures, oil, coolant, dust, humidity and chemical corrosion, suitable for workshops, production lines and outdoor industrial sites.
4. High-density and miniaturized design
   • Support multi-core, compact layout to save installation space in robotic arms, control cabinets, sensors and automated production equipment.
5. Hybrid transmission capability
   • Allow simultaneous transmission of power, analog signals, digital signals, Ethernet and bus signals (such as Profinet, EtherCAT, CANopen) in one connector.
6. Fast plugging and high mating cycles
   • Support frequent plugging and unplugging with long service life, improving the efficiency of equipment assembly, debugging and on-site maintenance.
7. High mechanical strength and durability
   • With robust metal or high-strength engineering plastic shells, ensuring long-term stable performance under continuous operation.
8. Good EMC performance and shielding
   • Effectively suppress electromagnetic radiation and interference, ensuring the stable operation of servo systems, PLCs, sensors and motion control units.
9. Modular and versatile compatibility
   • Compatible with modular wiring systems, easy to expand and upgrade, meeting the flexible needs of automated production lines.
10. Safety and reliability
    • With anti-misplug, locking and insulation protection, reducing risks of short circuit, electric shock and equipment failure.