Title :
A 110-nm CMOS 0.7-V Input Transient-Enhanced Digital Low-Dropout Regulator With 99.98% Current Efficiency at 80-mA Load
Author :
Tak-Jun Oh ; In-Chul Hwang
Author_Institution :
Dept. of Electr. Eng., Kangwon Nat. Univ., Chuncheon, South Korea
Abstract :
This paper presents a digital low-dropout regulator (D-LDO) with a proposed transient-response boost technique, which enables the reduction of transient response time, as well as overshoot/undershoot, when the load current is abruptly drawn. The proposed D-LDO detects the deviation of the output voltage by overshoot/undershoot, and increases its loop gain, for the time that the deviation is beyond a limit. Once the output voltage is settled again, the loop gain is returned. With the D-LDO fabricated on an 110-nm CMOS technology, we measured its settling time and peak of undershoot, which were reduced by 60% and 72%, respectively, compared with and without the transient-response boost mode. Using the digital logic gates, the chip occupies a small area of 0.04 mm2, and it achieves a maximum current efficiency of 99.98%, by consuming the quiescent current of 15 μA at 0.7-V input voltage.
Keywords :
CMOS digital integrated circuits; logic gates; transient response; CMOS transient-enhanced digital low-dropout regulator; D-LDO; current 15 muA; current 80 mA; digital logic gates; efficiency 99.98 percent; loop gain; overshoot; settling time; size 110 nm; transient-response boost technique; undershoot; voltage 0.7 V; Clocks; Delays; Detectors; Logic gates; Radiation detectors; Regulators; Transient response; Current efficiency; cyclic TDC; digital low-dropout regulator (D-LDO); fast transient response; transient-response boost mode (TRBM); voltage-to-time converter (VTC); voltage-to-time converter (VTC).;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2014.2333755
