Title :
Closed-Loop Analysis and Cascade Control of a Nonminimum Phase Boost Converter
Author :
Chen, Zengshi ; Gao, Wenzhong ; Hu, Jiangang ; Ye, Xiao
Author_Institution :
Manuf. Res. Center, Tennessee Tech Univ., Cookeville, TN, USA
fDate :
4/1/2011 12:00:00 AM
Abstract :
In this paper, a cascade controller is designed and analyzed for a boost converter. The fast inner current loop uses sliding-mode control. The slow outer voltage loop uses the proportional-integral (PI) control. Stability analysis and selection of PI gains are based on the nonlinear closed-loop error dynamics. It is proven that the closed-loop system has a nonminimum phase behavior. The voltage transients and reference voltage are predictable. The current ripple and system sensitivity are studied. The controller is validated by a simulation circuit with nonideal circuit parameters, different circuit parameters, and various maximum switching frequencies. The simulation results show that the reference output voltage is well tracked under parametric changes, system uncertainties, or external disturbances with fast dynamic transients, confirming the validity of the proposed controller.
Keywords :
PI control; cascade control; closed loop systems; power convertors; stability; variable structure systems; cascade control; closed-loop analysis; different circuit parameters; external disturbances; fast dynamic transients; inner current loop; nonideal circuit parameters; nonminimum phase boost converter; parametric changes; proportional-integral control; reference output voltage; simulation circuit; sliding mode control; stability analysis; system uncertainties; various maximum switching frequencies; Control systems; Converters; Hysteresis; Inverters; Robustness; Transient analysis; Voltage control; Boost converter; closed-loop; error dynamics; nonminimum phase; proportional–integral (PI); sliding-mode control (SMC); transient;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2010.2070808
