Title :
Buck-Boost Converter Efficiency Maximization via a Nonlinear Digital Control Mapping for Adaptive Effective Switching Frequency
Author :
Jones, David C. ; Erickson, Robert
Author_Institution :
Dept. of Electr., Comput., & Energy Eng., Univ. of Colorado, Boulder, CO, USA
Abstract :
A nonlinear control loop mapping has previously been designed for mitigating the dead zone of a noninverting buck-boost converter while minimizing state variable perturbation. This paper derives a new nonlinearity that enables a converter with fixed switching frequency to achieve reduced switching loss as though operating at an effective switching frequency lower than the actual. The new control loop nonlinearity accomplishes this by interleaving a specified fraction of pass-through and nonpass-through switching periods. The derived nonlinearity also reduces the increase in waveform ripple associated with a switching frequency reduction. Through adapting the effective switching frequency across the full range of conversion ratios and loads, reductions in loss up to 58% are realized.
Keywords :
DC-DC power convertors; control nonlinearities; digital control; nonlinear control systems; perturbation techniques; DC-DC power converters; adaptive effective switching frequency; buck-boost converter efficiency maximization; control loop nonlinearity; conversion loads; conversion ratios; dead zone mitigation; fixed switching frequency; noninverting buck-boost converter; nonlinear control loop mapping; nonlinear digital control mapping; nonpass-through switching periods; pass-through switching periods; reduced switching loss; state variable perturbation minimization; waveform ripple; Approximation methods; Digital signal processing; Inductors; Switches; Switching frequency; Switching loss; Adaptive switching frequency; buck-boost converter; dc–dc power converters; dead zone; digital control;
Journal_Title :
Emerging and Selected Topics in Power Electronics, IEEE Journal of
DOI :
10.1109/JESTPE.2013.2277852
