Texon - Corporation

About The Product

Trigno Centro

Created from over 30 years of experience and close collaboration with the EMG research community, Trigno Centro represents an evolutionary leap at the heart of our product ecosystem.

Engineered to deliver uncompromising signal quality, Trigno Centro provides a powerful, centralized platform for acquiring and synchronizing high-fidelity biosignals. Its modular architecture supports a wide range of sensors and experimental configurations, enabling seamless adaptation across human movement science, engineering, and neurophysiology applications..

With advanced data integrity, low latency performance, and robust scalability, Trigno Centro empowers researchers to design complex experiments with confidence. Whether capturing subtle neuromuscular activity or integrating multimodal data streams, the system ensures precision without sacrificing flexibility.

Powerful Features Designed for Modern Movement Research

Exploare Here

01. High-Fidelity Wireless EMG

Delivers low-noise, high-bandwidth EMG signals with excellent signal stability during dynamic movement.

02. Multi-Modal Sensor Support

Integrates EMG, IMU, force, goniometer, and auxiliary analog sensors in one synchronized platform.

03. Low-Latency Real-Time Streaming

Enables real-time monitoring, biofeedback, and control applications in engineering and rehabilitation.

04. Robust Wireless Performance

Maintains stable data transmission with minimal dropouts in complex lab environments.

Capture EMG Your Way

For every application, Trigno Centro Supports your research

Neurophysiology

The Trigno™ Centro System supports neurophysiology research by enabling high-fidelity wireless EMG acquisition and precise synchronization with neural and biomechanical signals. Its low-latency, multi-modal architecture allows accurate study of motor control, muscle–nerve coordination, and neuromuscular responses during natural, unrestricted human movement.

Movement Sciences

The Trigno™ Centro System advances movement sciences by enabling synchronized, wireless capture of EMG, inertial, and biomechanical data. It supports detailed analysis of muscle coordination, motor control, and functional movement during natural, unrestricted activities in laboratory, clinical, and real-world research environments.

Engineering

The Trigno™ Centro System supports engineering research by providing high-fidelity, low-latency wireless EMG and sensor data for system modeling, validation, and control. It enables development and testing of robotics, exoskeletons, prosthetics, and human–machine interfaces through precise measurement of human neuromuscular intent.

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