Introducing Tech Invent’s Customizable Accelerometer Solution

At Tech Invent, we have developed a unique accelerometer, designed to measure and process acceleration data with precision. Our accelerometer is fully customizable to meet specific tasks, providing insights into how structures and systems behave in real time. This solution fits perfectly alongside our strain gauge measurement and structural calculations, as these three areas complement each other to create a holistic measurement and analysis approach.

Our accelerometer allows for a variety of applications, such as identifying natural frequencies, detecting displacements, and even enabling active control of mechanical systems for damping or excitation of structures. When paired with strain gauge measurements, this technology can offer advanced insights into stresses and structural lifespan, while also calibrating structural models to provide the most accurate analysis.

Advanced Accelerometer and Vibration Measurement

Our highly precise accelerometer enables the measurement and logging of accelerations and ultra-low-frequency vibrations, which were previously impossible to capture with standard market products. This innovation opens up a broad range of applications, replacing older methods like strain gauges or other sensors.

Our accelerometer is a fully developed standard product, with both software and hardware that can be tailored to specific customer needs within a few hours.

• Key Application Areas:

  • Monitoring the orientation and movement of a unit, product, or load
  • Stability control and vibration damping
  • Early detection of issues in machinery, structures, and production environments
  • Measuring product impact during transport, operation, and production
  • Monitoring the impact on joints and bolts
  • Converting measurements into angles, forces, lengths, frequencies, and more

  This device can wirelessly transmit data to a PC and communicate with PLCs or other devices, making it highly versatile across different setups. It is mechanically stable, robust, and reliable in various environmental conditions.