humanoid Robot 3d Vision Technology Route And Heavy-duty Connector Selection Guide
The 3D vision system of humanoid robots requires high-precision sensors to work together with stable and reliable heavy duty connector to ensure the reliability of data transmission, power supply and mechanical connection. Different 3D vision technologies have significantly different requirements for heavy duty electrical connectors. The selection needs to comprehensively consider factors such as transmission rate, power demand, environmental adaptability, and volume restrictions. The following is an analysis of the mainstream 3D vision technology routes and their adapted heavy duty power connectors types and key parameters.
1. Structured Light
Technical Features
Core requirements: high-resolution image transmission, anti-interference, and stable connection at close range.
Typical sensors: infrared laser transmitters, high-resolution CMOS cameras.
Adaptation heavy duty connector 24 pin
Flexible 16 pin heavy duty connector
Advantages: Flexible circuit boards adapt to compact spaces and support high-density signal transmission.
Parameter requirements:
Transmission rate: ≥1 Gbps (for 1080p@60fps images);
Number of pins: ≥40 Pin (supports multi-channel spot encoding signals);
Bending resistance: ≥100,000 times (adapt to robot joint movement).
Application scenarios: Apple Face ID module, industrial inspection robot.
USB 3.0 Type-C connector
Advantages: strong versatility, supports high-speed data transmission and power integration.
Parameter requirements:
Transmission rate: 5 Gbps (USB 3.0 standard);
Power output: 15W (driving infrared light source).
Industrial grade M8/M1224 pin heavy duty connector
Advantages: IP67 protection, anti-vibration and electromagnetic interference.
Applicable scenarios: Human-machine collaborative robots in factory environments (such as UBTECH Walker).
