Title :
Modeling and Design for a Novel Adaptive Voltage Positioning (AVP) Scheme for Multiphase VRMs
Author :
Lee, Martin ; Chen, Dan ; Huang, Kevin ; Liu, Chih-Wen ; Tai, Ben
Author_Institution :
Dept. of Electr. Eng., Nat. Taiwan Univ., Taipei
fDate :
7/1/2008 12:00:00 AM
Abstract :
Adaptive voltage positioning (AVP) has been used in multiphase voltage regulator module (VRM) applications. A novel scheme, called AVP+, is analyzed in this paper. Small signal model is used to look into the control performance issues such as output impedance and stability. The model has been verified in the experiments and simulations. Compared to a conventional AVP schemes, the present scheme provides better stability margin and output- impedance performance. This is especially true for the prevailing trend of using ceramic output capacitors and high switching frequency. The focus of the present paper is the small-signal modeling for control loop design using the AVP+ scheme which was never analyzed before. And the comparisons were made between AVP+ and AVP- on the stability and output impedance performance.
Keywords :
circuit stability; electric impedance; voltage control; voltage regulators; AVP+ scheme; adaptive voltage positioning scheme; control loop design; multiphase VRM; multiphase synchronous buck converter; multiphase voltage regulator module; output impedance; small signal model; stability margin; Buck converters; Capacitors; Ceramics; Circuits; Impedance; Output feedback; Regulators; Stability; Switching frequency; Voltage; Adaptive voltage positioning (AVP)+ control; constant output impedance; stability; voltage regulator;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2008.924822
