ETS Solutions Asia-MET Series shaker.JPG

MET SERIES

Vibration System Force Rating from 300 kgf to 10,000 kgf

Ideal for Real World Vibration Simulation and Screening Tests.

ETS Solutions “MET” (Multi-Excitation Testing) Series vibration testing systems can achieve 3-Axis vibration tests simultaneously and is designed to meet the test requirements of wide frequency range, long stroke and high acceleration sine/random/shock test. An object (or specimen, samples) in the actual vibration environment subject to vibration excitation should be multi-directional, which means that vibration environment is actually a complex multi-degree of freedom vibration environment. As a result of limitations from vibration test equipment in the past, it has to rely on a single direction of vibration test (single-axis vibration testing) in the laboratory to simulate on-site vibration environment.

The “MET” Series Multi-Axis vibration testing system consists of 3 single axis vibration test system specially engineered to function as one system. The “MET” Series system redefines how standard tests can be carried out.

The “MET” Series multi-axis simultaneous vibration test system is a new generation of environmental testing equipment in the space, aviation, weapons, electronics, communications, automotive, home appliances and other industries.

MET Series Data

FEATURES

  • Simultaneous dual-axial, tri-axial or multi degree of freedom vibration testing

  • Configurable force rating per test axis - configured the desired test axis force rating to achieve the vibration magnitude to meet different testing requirements

  • Combined Temperature & Humidity Test Option available

  • Compatible with any reputable MDOF vibration controller

  • Mixed Mode Vibration test can be achieved to simulate real world environmental conditions

  • Test frequency up to 2,000 Hz

  • Reduce Test Setup Time and undue Stress to Test Specimen - one time test setup for all axis test

  • Air Cooled Design with simple maintenance

MET pictures.JPG
MET Diagram.JPG