//free\\ — Multisinusprüfung
Multisinusprüfung (Multi-Sine Testing) is an advanced vibration testing technique used to simulate complex, real-world mechanical stresses on components by exciting multiple frequencies simultaneously. Unlike traditional "Sine Sweep" tests that move through frequencies one by one, Multi-Sine testing uses a synthesized signal composed of several superimposed sine waves. Core Concept In a standard sine test, a single frequency oscillates at a time. In a
A Multisinusprüfung is a test signal method where (sinusoidal oscillations) of different frequencies, amplitudes, and phases are summed together and applied to a Device Under Test (DUT) simultaneously. Unlike a single sine sweep (which tests one frequency at a time) or white noise (random signal), a multi-sine is deterministic and periodic.
While traditional multi-sine testing already reduces test time by running multiple tones simultaneously, this feature would take it a step further by using real-time feedback to optimize how those tones are distributed across the frequency spectrum.
Here is the deep dive into what it entails.
At its simplest, a Multisinusprüfung involves playing multiple sine waves (pure tones) simultaneously rather than sequentially.
Outside of human hearing, the term is sometimes used in engineering (translated from Polysinus or Multi-Sine testing):
Here is the detailed content regarding what it is, how it works, and where it is applied.
Multisinusprüfung (Multi-Sine Testing) is an advanced vibration testing technique used to simulate complex, real-world mechanical stresses on components by exciting multiple frequencies simultaneously. Unlike traditional "Sine Sweep" tests that move through frequencies one by one, Multi-Sine testing uses a synthesized signal composed of several superimposed sine waves. Core Concept In a standard sine test, a single frequency oscillates at a time. In a
A Multisinusprüfung is a test signal method where (sinusoidal oscillations) of different frequencies, amplitudes, and phases are summed together and applied to a Device Under Test (DUT) simultaneously. Unlike a single sine sweep (which tests one frequency at a time) or white noise (random signal), a multi-sine is deterministic and periodic.
While traditional multi-sine testing already reduces test time by running multiple tones simultaneously, this feature would take it a step further by using real-time feedback to optimize how those tones are distributed across the frequency spectrum.
Here is the deep dive into what it entails.
At its simplest, a Multisinusprüfung involves playing multiple sine waves (pure tones) simultaneously rather than sequentially.
Outside of human hearing, the term is sometimes used in engineering (translated from Polysinus or Multi-Sine testing):
Here is the detailed content regarding what it is, how it works, and where it is applied.
