A new system that uses inductive energy transfer to transport energy from a source to a number of variable loads simultaneously is introduced in this paper. Reported is on the controller implementation, based on quantum conversion and sliding-mode control theory, for the system. For both the source and each of the loads a separate controller is present to meet operational requirements. Special in this design is that all controllers work independently and thus are blinded from each other. Result is a proof-of-principle for the energy flow control of the contactless energy transfer system in a laboratory setup.
|Title of host publication||IEEE 38th Annual power electronics specialists conference PESC07|
|Place of Publication||Los Angeles|
|Number of pages||7|
|Publication status||Published - 2007|
|Event||IEEE 38th Annual power electronics specialists conference PESC07, Orlando - Los Angeles|
Duration: 17 Jun 2007 → 21 Jun 2007
|Conference||IEEE 38th Annual power electronics specialists conference PESC07, Orlando|
|Period||17/06/07 → 21/06/07|
- conference contrib. refereed
- Conf.proc. > 3 pag
van der Pijl, FFA., Bauer, P., Ferreira, JA., & Polinder, H. (2007). Quantum control for an experimental contactless energy transfer system for multiple users. In s.n. (Ed.), IEEE 38th Annual power electronics specialists conference PESC07 (pp. 343-349). IEEE Society.