Modeling and Nonlinear Control for the Boost Converter with Constant Power Loads

@article{Gao2010ModelingAN,
  title={Modeling and Nonlinear Control for the Boost Converter with Constant Power Loads},
  author={Zhaohui Gao and Xiaobin Zhang and Hui Lin},
  journal={2010 Asia-Pacific Power and Energy Engineering Conference},
  year={2010},
  pages={1-4}
}
The small signal transfer function of the Boost converter with Constant Power Loads(CPLs) is derived and the condition of stability for the system is obtained. State feedback exact linearization and optimal tracking control technique are applied to control the system. The nonlinear control law is verified using SABER. The simulation results show that the nonlinear controller can make the system operation steadily during large disturbances in the power supply and the loads. KeywordsBoost… CONTINUE READING

From This Paper

Figures, tables, and topics from this paper.

Citations

Publications citing this paper.
Showing 1-2 of 2 extracted citations

Case Study of Active Disturbance Rejection Control Approaches for MVDC Microgrids

2018 IEEE 27th International Symposium on Industrial Electronics (ISIE) • 2018
View 16 Excerpts
Highly Influenced

References

Publications referenced by this paper.
Showing 1-7 of 7 references

Modeling and analysis of a DC power distribution system in 21st century air lifters

K PLouganski
M.S. Thesis, Blacksburg, 1999 • 1999
View 9 Excerpts
Highly Influenced

The instability effect of constant power loads

PECon 2004. Proceedings. National Power and Energy Conference, 2004. • 2004
View 1 Excerpt

Application Foundation of Optimal Control, Beijing

Xing Jixiang, Zhang Chunrui
2003
View 1 Excerpt

W.,Maksimovic Dragan.Fundamentals of Power Electronics, London: Springer,2001

Erickson Robert
2001
View 2 Excerpts

On the concept of negative impedance instability in the more electric aircraft power systems with constant power loads

Emadi Ali, Fahimi Babak, Ehsani Mehrdad
Society of Automotive Engineers(SAE) Journal,1999(8),Paper No. 1999-01-2545 • 1999
View 1 Excerpt

Modern Control Engineering, Beijing

Katsuhiko Ogata
P=10W to R =1000Ω, • 1976
View 1 Excerpt

Similar Papers

Loading similar papers…