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AVX

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Anti-vibration solution

Model : AVX

AVX is a library that utilizes anti-vibration technology to generate motion that counteracts vibrations arising from motion itself. In motion, vibrations typically occur during acceleration and deceleration phases. The anti-vibration technology adjusts the velocity profile of these acceleration and deceleration phases based on vibration measurement data, effectively canceling out the generated vibrations.

AVX plays a role in creating motion for WMX3 Advanced's PVT (Position, Velocity, Time) motion using user-input parameters and anti-vibration technology. When the motion generated by AVX is applied, it effectively reduces residual vibrations in the constant velocity and stopping phases immediately after acceleration and deceleration.

When integrated with VMS, AVX allows the application of vibration control functions not only at the motor level but also at desired locations. This differs from the vibration control function of motor drivers that use fixed frequencies, allowing for the application of optimal conditions based on position measurements. However, many engineers often lack experience in vibration analysis, and performing such analyses in practical settings can be cumbersome.

To address these challenges, SynseIT EdgeLink includes a feature that automatically performs vibration analysis and transmits vibration parameters to AVX. Users can attach sensors to locations where they want to reduce vibrations and perform vibration measurements and AVX applications in one go, simplifying the process.

  • Principle of Anti-Vibration Vibration Reduction

  • Before application

  • After application

Utilizing Vibration Control with VMS-200 and AVX Integration

Integrating VMS-200 with AVX allows the application of vibration control functions at specific locations, a capability that was traditionally confined to the motor side. Unlike the vibration control function of motor drivers using fixed frequencies, this integration enables the application of optimal conditions based on location-specific measurements.