A fundamentally different class of TPA methods is that of component-based TPA. Using classical TPA, the interface forces between two subsystems will reflect the dynamics of both subsystems (source and receiver) and are therefore not transferable to an assembly with a different receiver. For this reason, classical TPA cannot be efficiently used to assess subsystem modifications, as one would need to conduct a new operational test for every change in design. This is a well-known drawback for applying classic TPA methods in the early phase of NVH design, where changes to source and receiver are still likely to be made.
Component-based TPA remedies this problem by characterizing the source excitation with a set of Blocked Forces $$ \mathbf{f}_{\mathrm{2}}^{\mathrm{bl}} $$ that are an inherent property of the active component itself, independent of the receiver it is attached to. This framework facilitates testing of the active component in a broader set of test environments (e.g. in the full vehicle or on a test bench), as the dynamics of the receiving component will not influence the Blocked Forces. As the Blocked Forces are only a function of the active component itself, we denote this family of TPA as component-based.
Again, different variants can be defined according to how $$\mathbf{f}_{\mathrm{2}}^{\mathrm{bl}}$$ is obtained from operational tests. Three of them are listed here:
For further information on these methods, click here.
Contact us for more VIBES
Contact our support team or call us on +31 85 822 50 49
The supported file type is .txt. Note: The maximum file size is 100kb. If your file is larger than the set limit, please send us an email at support@vibestechnology.com with the file in attachment.
Subscribe to our newsletter
Privacy statement. By submitting this form you agree to having your details registered in our database. At your request, we'll remove your details from our database immediately *