Robotic arm and fingers are mechanical devices that replicate human hand functions or provide specialized ways of grasping and manipulating objects. They can be integrated into robots to perform tasks that require precision, strength, or repetitive handling. Common applications include manufacturing, healthcare, logistics, service industries, and research. By using robotic arm and fingers, businesses and institutions can improve efficiency, safety, and innovation across a wide range of industries.
The curved design of the fingertips allows for a more natural interaction with the object and will provide you with a more detailed data collection. In addition, flat sensors are used to cover the other phalanges and the palm. All tactile information from the whole hand can be obtained with 70 Hz over just two cables (CAN bus). The soft skin enables gentle interaction with the environment, and this model features encapsulated microcontrollers for protection.
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Check a selection of the standard solutions below.
Robotic Finger Control Board is a versatile, compact PCB solution designed to replicate fine motor movements with high accuracy. A single designed PCB can be attached to any part of the five fingers, allowing for modular adaptability and precise motion control. This flexibility makes it possible to create robotic arm and gripper that can perform highly specific movements tailored to business and industrial needs. Engineered with advanced microcontrollers and sensor integration, the board enables real-time feedback, smooth motion, and easy customization. From delicate handling in healthcare and service robotics to robust applications in manufacturing and automation, Robotic Finger Control Board provides a powerful and adaptive foundation for innovative robotic solutions.
Robotic Arm Control Board is a custom-engineered solution designed to manage the complex movements and precision control required in robotic applications. This system is uniquely developed by combining three separate PCB boards, each dedicated to specific functions such as motion control, power management, and sensor integration. By separating and optimizing these functions, the control solution ensures high reliability, scalability, and smooth operation of robotic arms across various industries. With this design, manufacturers can achieve seamless multi-axis coordination, enhanced safety protocols, and integration with advanced tactile sensors.
