- Modular design with up to 128 analog inputs in one system
- The system can either be centrally installed in a 19” rack or spatially distributed throughout the aircraft.
- The device captures all analog and digital measurement values, as well as ARINC and ASCB-D field bus data.
- Provides direct, real-time calculations: results during the running measurement. This helps to reduce data down to the essentials.
- Stable power supply: equipped with a UPS system
- Redundant measurement data storage
- Flexible and modular system
- Modules are networkable via standard Ethernet cable (up to 100 m)
- Up to 2,000 kS/s per system and up to 100 kS/s per channel
- Acquires all analog and digital measurements and field buses such as ARINC and ASCB-D
- Direct real-time calculations provide results during the running test and help to reduce data down to the essentials.
- Stabile power supply through UPS Handle with Li-Ion battery
- Redundant, configurable measurement data storage (internal and external)
Workstation for Acoustic & Vibration Engineering
With imc WAVE, you are provided with a powerful software platform for noise and vibration analysis. Various analyzers cover a wide range of applications: from acoustical inspections during road tests, structural analyses on the test bench, up to vibration testing.
With imc WAVE, you can quickly and easily solve a wide variety of tasks in sound and vibration analysis. The well guided work flow will lead you step by step through the parameter settings for your specific application. From the device configuration through the microphone calibration procedure up to starting the measurement, imc WAVE offers a simple operating concept.
- Sound power-level testing
- Octave & 1/3-octave analysis
- Frequency and time weighting
- Vibration analysis
- FFT analysis
- Calculation of transfer functions (magnitude and phase)
- Auto-spectra & DOFs
- Export to Excel or modal analysis software ME' Scope™
- Order tracking spectra based on measured RPM
- Noise & vibration levels vs. RPM (various classifications)
- Transfer functions vs. time and angle