Title :
Adaptive Output Current FeedforwardControl in VR Applications
Author :
Eirea, Gabriel ; Sanders, Seth R.
Author_Institution :
Inst. de Ing. Electr., Univ. de la Republica, Montevideo
fDate :
7/1/2008 12:00:00 AM
Abstract :
A method for adapting the gain of an output current feedforward path in voltage regulation (VR) applications is presented. For regulators using adaptive voltage positioning, output current feedforward can improve the dynamic response to fast load transients. However, the feedforward path depends on parameters of the power train that are not known with precision. By analyzing the error voltage and finding its correlation with the parameter error, a gradient algorithm is derived that makes the parameter error vanish and minimizes the voltage error. The algorithm was verified with simulations and experiments on a four-phase prototype VR board with an field programmable gate array-based digital control implementation.
Keywords :
adaptive control; dynamic response; electric current control; feedforward; gradient methods; position control; transients; voltage control; adaptive output current feedforward control; adaptive voltage positioning; dynamic response; gradient algorithm; load transients; parameter error; voltage regulation applications; Adaptive control; Bandwidth; Capacitors; Control systems; Field programmable gate arrays; Impedance; Paramagnetic resonance; Regulators; Virtual reality; Voltage control; Adaptive voltage positioning (AVP); field programmable gate array (FPGA);
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2008.925199
