• Physical AI: From Sensing the World to Adapting in Real Time

  • Enhancing Robotic Hands Dexterity using Touch ICs

    Bringing human-level touch to machines

    New Paths to Human-Level Dexterity

    Tactile Intelligence for Robotics

    Synaptics Touch ICs bring human-like touch to robots by combining high-sensitivity capacitive sensing with real-time AI processing. This enables nuanced interaction, from detecting subtle textures to securely gripping delicate or heavy objects.

    Engineered for Dexterity

    Designed specifically for robotic hands, grippers, and manipulators, our Touch ICs deliver low-latency, high-resolution feedback that transforms mechanical motion into intelligent, responsive movement.

    Purpose-Built for Real-World Use

    Unlike repurposed touch technologies, Synaptics’ ICs are built from the ground up to withstand dynamic environments—supporting dense sensor arrays, resisting noise, and adapting on the fly to shifting materials and tasks.

    Benefits

    Dynamic Force Range

    Adjust grip force in real time from feather-light to heavy steel

    Micro-Slip Detection

    Detect & react to to micro-slips in sub-milisecond speed

    True Full-Finger Tactile Coverage

    Aggregating input from across the entire hand for nuanced object handling

    AI-Driven Self Calibrating Grip

    Solutions that continuously re-learn & adjust grip pressure dynamically

    Industrial Grade SNR Stability

    Harsh condition ready with dynamic temperature compensation

    Sensor Fusion & Noise Rejection

    Including embedded firmware that fuses & filters multi-sensor input in real time

    Scalable + Custom Configs

    High channel count & modular integration for simple to complex manipulation

    Designed For High Throughput

    Minimizes re-grasps, supports fast pick & place for higher performance

    Applications that fit your needs

    Humanoid Robot Hands

    Enable robots to mimic the dexterity of human hands with fine tactile control across fingertips and palms. Touch ICs allow nuanced detection of object texture, shape, and pressure—crucial for tasks like object sorting, precision assembly, or delicate handling in real-world environments.

    Collaborative Robots (Cobots)

    Enhance safety and precision in human-robot interaction. Capacitive sensing empowers cobots to dynamically adjust grip strength, avoiding over-compression and ensuring safe operation in shared workspaces—ideal for light assembly, packaging, or logistics support.

    Surgical Robotics

    Provide sub-millimeter force feedback for high-precision surgical tools. Synaptics Touch ICs enable robotic instruments to "feel" tissue resistance and react instantly, improving control, safety, and outcomes in minimally invasive procedures.

    Warehouse Automation

    Improve handling of irregular, fragile, or unlabeled items in high-speed fulfillment environments. Touch sensors reduce errors by enabling robots to detect secure contact, correct grip slippage in real time, and handle a wide range of object shapes and weights without damage.

    Agricultural Robotics

    Allow robots to assess the softness, firmness, or ripeness of produce through direct contact. Touch ICs enable gentle picking and sorting of fruits and vegetables, enhancing yield quality and minimizing waste in automated farming systems.

    The Synaptics Advantage

    Unlike general-purpose touch solutions, Synaptics Touch ICs are designed from the ground up for robotic dexterity. With a heritage in high-precision HMI and a deep focus on physical AI, our solutions bridge the critical gap between vision and feel—unlocking smarter, safer, and more intuitive robotic systems.

     

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