Seamlessly measure ultra-wideband vibrations.
The "Robo Sensor" is an extremely thin wire-type vibration sensor with a diameter of 0.5mm. Unlike conventional accelerometers, it does not have noise derived from inertial moments, and it is not disturbed by electromagnetic noise like other wire-type vibration sensors. As a result, it enables seamless measurement with ultra-wide bandwidth that surpasses the conventional wisdom of vibration sensors, allowing for high sensitivity without being troubled by noise. It can accurately capture the wear of tools in processing environments and the vibrations of machine components such as bearings, making it possible to detect signs of failure and connect them to appropriate maintenance activities. [Features] ■ Wide bandwidth (0.1Hz to over 3MHz) ■ Does not pick up electromagnetic noise and does not generate noise derived from inertial moments. *For more details, please download the PDF or feel free to contact us.
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Basic Information Wire Sensor "Piezoelectric Wire Sensor" 【Examples of Use (Excerpt)】 ■Industrial and Robotics Field ・Preventive Maintenance (Failure Prediction) ・Tool Vibration Sensor ・Tactile Sensor for Robots ■Medical and Nursing Care Field ・Massage Equipment for Nursing Care ・Sensors for Prosthetic Arms and Legs ・Sensors for Intrusion and Step-on Alarm Devices *For more details, please download the PDF from the link below or feel free to contact us. https://www.ipros.jp/preview/ Phone (Head Office): 053 438 1700 Tokyo Branch (Voicemail Only): 050 5372 0788 Email: info@robosensor.co.jp
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We have developed a wire-like sensor called "Robo Sensor" that can detect human body movements, pulse, and vibrations with ultra-high sensitivity and precision. Thanks to its unique noise-free structure, it can measure a super wide bandwidth directly from 0.1Hz to 3MHz with extremely low noise. This makes it an ideal sensor for various fields, widely used for predictive maintenance of machines and robots, as well as vital measurements. 1) Measuring various vibrations from robots, industrial equipment, and infrastructure It accurately captures changes in vibrations, making it a preferred sensor for many users in preventive maintenance and condition-based monitoring (CBM) management. 2) Utilized in tactile sensors and haptic gloves for work monitoring It can measure extremely small contacts that conventional sensors could not detect. 3) Also optimal as a vital measurement sensor It can measure pulse rates, heart sounds, respiratory sounds, voice vibrations (including bone conduction), and ultrasound diagnostics, covering a range from low frequencies to ultrasound. Its application in health check-ups and human diagnostics using various sound waves is being explored. Of course, robots can also perform various measurements similar to the human body, and their utilization is expanding. Additionally, applications in construction and infrastructure are being considered across various fields.