Visit Us at Humanoids Summit 2025
Explore Panasonic's Innovations at Humanoids Summit 2025
Panasonic Industry will exhibit at Humanoids Summit 2025, showcasing our advanced technologies for motion and control, manipulation, and safety, including Servo Motors, Tactile Sensors, Optical Connectors, and EDLC Capacitor technologies. These technologies enable precise manipulation, reliable power management, EMI-free data transmission, and flexible form factors for advanced robotic applications. Please stop by to see how these products can enhance humanoid robots and discuss our latest developments.
Expo Dates: Thursday, December 11th – Friday, December 12th 2025 from 8:30 AM – 5:00 PM
Expo Location: Computer History Museum, Mountain View, CA
Booth #: 537
Panasonic Solutions Portfolio for Humanoid Robots
Panasonic’s humanoid robotics portfolio focuses on compact, high-performance components—servomotors, optical connectors, tactile sensors, and power modules—paired with advanced thermal management and reliable switching. These solutions enable precise, human-like motion, flexible designs, and robust system control for next-generation humanoid robots.
Key Technologies & Components
On/Off Switching
PhotoMOS®: Instant, safe shutdown; small, light, reliable.
Thermal Management
Quiet, long-life cooling fans; reliable graphite TIM.
Active Optical Connector
AOC: No signal noise, flexible motion, 1 channel bi-directional.
Ultra-compact Integrated Servomotor
High torque, stable motion, 30% smaller, under development.
Tactile Pressure Sensor
Precise grasp, slip detection, under development.
High Power Density EDLC Module
Instant burst power, safe backup.
Arms & Joint
Human-like manipulation, secure grasp.
Ultra-Pliable Circuit Board
Enables flexible designs, under development.
Active Optical Connectors
The Ultimate Solution for Engineers Switching from Copper to Optical
Panasonic's AOC solves the problem of engineers considering shifting from copper to optical by offering a small device that combines high-speed transmission, noise resistance, electrical isolation, and long-distance transmission in a single unit. This significantly reduces circuit design effort and saves on weight while providing high speed with electrical immunity.
