SensCal 

Excite your specimen with a real random pattern to perform more realistic simulations.

Perform transient excitations to simulate shock loads on the specimen.

Simulate environments in which random excitations are mixed with superimposed harmonic or random loads, such as those occurring in a helicopter or tank.

Expand your channel count by synchronizing your DAQ system with other vibration controllers.

Use our throughput function to have a comprehensive signal base for further processing, for analysing short-term events during the test or for troubleshooting.

Testing with heavy specimens and several shakers or excitation in 3 axes simultaneously? Coupled or decoupled? With our multi-shaker solutions, you can carry out demanding tests safely and precisely.

Identify the breaking point of your test object during product development durability tests by holding and vibrating it at its natural resonance even if the frequency shifts.

Easily visualize the deflection shapes of a machine or structure, whether in operation or on a test bench.

Protect your specimen and system from overtesting by using targeted notch control to limit vibrations.

Carry out more realistic tests with increased system safety and better protection of the vibration exciter, e.g. when testing higher structures. The essential functions for a professional force limited vibration test are also provided.

Monitor your test stands using a higher-level tool and create clarity and structure in the large variety of signals.

Handle high-frequency shaker tests on components such as control units, sensors, or gyroscopes, by increasing the control frequency from 20 kHz to 40 kHz.

Automate repetitive test sequences, such as a resonance-random-resonance search in a flexible schedule plan. This module also allows the controlled combination with external devices such as climatic chambers.

Integrate your tests into your IT environment for advanced automation and remote monitoring.

Calibrate your sensors in-house and benefit from a complete out-of-the-box system.

Easily and quickly create custom reports that meet your individual requirements.

Excite your specimen sinusoidally with a harmonic excitation to perform resonance searches or simulate harmonic loads.

Excite your specimen with a real random pattern to perform more realistic simulations.

Perform transient excitations to simulate shock loads on the specimen.

Simulate environments in which random excitations are mixed with superimposed harmonic or random loads, such as those occurring in a helicopter or tank.

Nothing is more realistic than simulating pre-recorded real signals on the test system, which is exactly what our road load simulation is made for.

Expand your channel count by synchronizing your DAQ system with other vibration controllers.

Use our throughput function to have a comprehensive signal base for further processing, for analysing short-term events during the test or for troubleshooting.

Testing with heavy specimens and several shakers or excitation in 3 axes simultaneously? Coupled or decoupled? With our multi-shaker solutions, you can carry out demanding tests safely and precisely.

Use our proven acoustic control system for a 360° acoustic excitation of the specimen – whether through loudspeakers or in a reverberation chamber.

Identify the breaking point of your test object during product development durability tests by holding and vibrating it at its natural resonance even if the frequency shifts.

If it is not possible to measure the force applied to the structure, our OMA solution offers a way to accurately calculate the modal parameters of a test object.

Understand the dynamic behaviour of structures using this toolbox for determining natural frequencies, damping values, eigenvectors, modes and much more.

Easily visualize the deflection shapes of a machine or structure, whether in operation or on a test bench.

For in-depth analysis of vibrations in connection with rotating components, this solution offers rotational speed-dependent insights into the behavior of the test specimen.

Determine the acoustic emissions of a sound source by measuring sound power according to the ISO 374x series of standards.

Precisely measure acoustic emissions and identify sound sources with their levels directly on-site without extensive equipment based on the 9614-1 and  9614-2 standards.

Convert frequencies into octave bands of up to 1/24 spacing to better understand the human perception of sound or to simplify complex data for vibration analysis.

Record and monitor temperature signals, whether during laboratory vibration tests in climatic chambers or in long-term tests.

Quantify material deformation under dynamic loads using uni-axial strain gauges and rosettes or monitor multi-axial stresses including online prediction of expected stresses.

Record transient events – whether in the laboratory or in the field – with automatic limit value overlays and a high sample rate.

Determine the potential for shock damage to your test object by using blasting tests or high-frequency SRS simulations. This module supports both in-field and laboratory setups, offering high-resolution recording and real-time SRS calculation.

Verify SRS tests on shakers in compliance with standards. You can individually adjust tests using wavelet calculation and modification, with direct compliance checks from our SRS solutions.

Benefit from extensive functions for recording various signals along with powerful methods for processing, analyzing, and evaluating your data.

Use our convenient out-of-the-box solution to accurately calculate the properties of acoustic materials, including sound absorption coefficient, reflection factor, impedance, and transmission loss coefficients.

Optimize your rotating components by correcting imbalances in one or two planes with our guided and visualized functions.

Protect your specimen and system from overtesting by using targeted notch control to limit vibrations.

Carry out more realistic tests with increased system safety and better protection of the vibration exciter, e.g. when testing higher structures. The essential functions for a professional force limited vibration test are also provided.

Monitor your test stands using a higher-level tool and create clarity and structure in the large variety of signals.

Handle high-frequency shaker tests on components such as control units, sensors, or gyroscopes, by increasing the control frequency from 20 kHz to 40 kHz.

Automate repetitive test sequences, such as a resonance-random-resonance search in a flexible schedule plan. This module also allows the controlled combination with external devices such as climatic chambers.

Integrate your tests into your IT environment for advanced automation and remote monitoring.

Calibrate your sensors in-house and benefit from a complete out-of-the-box system.

Easily and quickly create custom reports that meet your individual requirements.