A Fully Integrated FVF-Based Low-Dropout Regulator With Wide Load Capacitance and Current Ranges

The flipped-voltage-follower-based low-dropout regulator (LDO) has drawn attention for its fast response and reduced complexity, while super source follower can be combined to push the pole at the gate of the pass device to high frequency. But the maximum load current and minimum load capacitance of this topology are limited, especially when the poles and zero from the SSF are omitted in previous designs. This paper proposes a solution to extend the ranges of the load current and load capacitance, by implementing a small feed-forward capacitor (C_{F}) and a damping factor control circuitry. In addition, a slew rate enhancement circuit is applied to reduce the voltage undershoot. The proposed LDO is verified in a 65-nm CMOS process with 0.008 mm 2 active area. The measured voltage undershoot is 80 mV with a load steps from 100 μ A to 50 mA with 2-ns edge times, with no external capacitor. And the maximum load capacitance can be extended to 2 nF. A figure-of-merit of 0.8 mV is achieved.