Title :
Adaptive Hybrid Primary/Secondary-Side Digital Control for Series Resonant DC–DC Converters in 48 V VR Applications
Author :
Shangzhi Pan ; Pahlevaninezhad, Majid ; Jain, Praveen K.
Author_Institution :
Dept. of Electr. & Comput. Eng., Queen´s Univ., Kingston, ON, Canada
Abstract :
In this paper, a current sensorless adaptive secondary-side control is proposed for the series resonant converter (SRC), making it a good candidate for MHz 48 voltage regulators. By means of varying ac equivalent resistance, the output voltage regulation is achieved by controlling the duty cycle of the synchronous MOSFET. By taking advantage of the secondary-side control, SRCs can operate under zero-voltage switching at any input voltage and load conditions. A current sensorless adaptive digital control is proposed to control the current-type synchronous MOSFETs, which automatically compensates the delay caused by the current-sensor circuit and the gate driver, and also eliminates the current sensor in the power path. A hybrid control strategy is introduced to overcome the efficiency degradation caused by the secondary-side control.
Keywords :
DC-DC power convertors; MOSFET; adaptive control; digital control; voltage regulators; zero voltage switching; AC equivalent resistance; SRC; VR application; adaptive hybrid primary/secondary-side digital control; current sensorless adaptive digital control; current sensorless adaptive secondary-side control; current-sensor circuit; current-type synchronous MOSFET; duty cycle; gate driver; hybrid control strategy; metal oxide semiconductor field effect transistor; series resonant DC-DC converter; voltage 48 V; voltage regulator; zero-voltage switching; Capacitors; Control systems; MOSFET; Rectifiers; Resistance; Voltage control; Zero voltage switching; Adaptive control; current sensorless; digital control; resonant converter; voltage regulator (VRs);
Journal_Title :
Emerging and Selected Topics in Power Electronics, IEEE Journal of
DOI :
10.1109/JESTPE.2014.2320855
