Ott L, Han Y, Wunder B, März M, Bodensteiner F (2018)
Publication Language: English
Publication Type: Conference contribution, Conference Contribution
Publication year: 2018
ISBN: 978-3-8007-4646-0
DC
microgrids have recently attracted attention from academic and industrial
research since they offer a multifunctional and efficient way to locally
interconnect energy resources as well as loads. By applying the DC link voltage
as an ubiquitous accessible parameter for all components, defined low-flow
conditions both under grid-tied and islanded operation can be realized using
voltage droop curves. However, due to lacking system inertia stabilizing
conventional AC grids, stability of a DC microgrid entirely depends on the
control loop setup and grid-side passive components of its power electronic
converters. In the following, the passivity-based stability criterion is
selected as design basis. A simple analytical way to set up droop-controlled
power electronic converters for stable grid operation is introduced. Lastly,
the chosen approach is verified in a practical trial by complex impedance
measurements using pseudo-random test signals.
APA:
Ott, L., Han, Y., Wunder, B., März, M., & Bodensteiner, F. (2018). Evaluation of DC-DC-Converter Impedance Passivity using Pseudo-Random Test Signals. In VDE (Eds.), Proceedings of the 2018 PCIM Europe. Nürnberg, DE.
MLA:
Ott, Leopold, et al. "Evaluation of DC-DC-Converter Impedance Passivity using Pseudo-Random Test Signals." Proceedings of the 2018 PCIM Europe, Nürnberg Ed. VDE, 2018.
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