论文信息 - A Fixed-frequency hysteretic controlled buck DC-DC converter with improved load regulation

A Fixed-frequency hysteretic controlled buck DC-DC converter with improved load regulation

Hysteretic control is widely adopted in the power management units (PMUs) for modern electronic devices due to their simple and stable control architecture, as well as the fast load transient response. However, the switching frequency of a traditional hysteretic converter is not fixed. It changes with operating condition and component aging, and hence brings in electro-magnetic interference (EMI) problems and multiphase interleaving difficulties. In this work, a hysteretic buck converter with frequency-locking capability is presented, where the switching frequency is adjusted by tuning the hysteretic window. In addition, the current-mode hysteretic control in this work utilizes a simple feedback network, which consists of only passive components and yet provides significant improvement on output voltage regulation. To achieve good reliability at high temperature and high voltage, the proposed buck converter has been fabricated in a 1μm SOI process with a chip area of 6mm2. Experimental results measured at 1MHz fixed switching frequency with 12V-to-5V voltage conversion and 0.9A load current shows a peak efficiency of 91%.

[1] Phillip E Allen,et al. CMOS Analog Circuit Design , 1987 .

[2] Fred C. Lee,et al. A classification and evaluation of paralleling methods for power supply modules , 1999, 30th Annual IEEE Power Electronics Specialists Conference. Record. (Cat. No.99CH36321).

[3] Doug Mattingly. Designing Stable Compensation Networks for Single Phase Voltage Mode Buck Regulators TB 417 , 2003 .

[4] S. Narendra,et al. A 233-MHz 80%-87% efficient four-phase DC-DC converter utilizing air-core inductors on package , 2005, IEEE Journal of Solid-State Circuits.

[5] Pengfei Li,et al. A 90–240 MHz Hysteretic Controlled DC-DC Buck Converter With Digital Phase Locked Loop Synchronization , 2011, IEEE Journal of Solid-State Circuits.

[6] Pedro Alou,et al. Nonlinear Control for DC–DC Converters Based on Hysteresis of the $C_{\rm OUT}$ Current With a Frequency Loop to Operate at Constant Frequency , 2011, IEEE Transactions on Industrial Electronics.

[7] Ioannis Kymissis,et al. A 2.5D Integrated Voltage Regulator Using Coupled-Magnetic-Core Inductors on Silicon Interposer , 2012, IEEE Journal of Solid-State Circuits.

[8] Luca P. Carloni,et al. A 2.5D integrated voltage regulator using coupled-magnetic-core inductors on silicon interposer delivering 10.8A/mm2 , 2012, ISSCC.

[9] Robert Sheehan. Active voltage positioning reduces output capacitors , 2015 .