High Area-Efficient DC-DC Converter With High Reliability Using Time-Mode Miller Compensation (TMMC)

This paper presents a novel on-chip compensation scheme, the Time-Mode Miller Compensation (TMMC), for DC-DC converter in which the compensation components are integrated on-chip. Using this proposed scheme, the DC-DC converter is stably compensated and insensitive to process variations, with significantly small compensation components ( 1 pF and 80 kΩ in this work) consuming very small silicon area owing to the characteristic of the TMMC. The small compensation components make the chip size small, with 0.12 mm² of core area (w/o power transistors) using 0.18 μm I/O process. This core size is as small as that of the digital DC-DC converters implemented with less than sub-50 nm process. The measurement result shows that the maximum power efficiency of 90.6% is obtained at the load current of 220 mA with the switching frequency of 1.15 MHz when the input and the output voltages are 3.3 V and 2 V, respectively.