In this thesis, two digitally controlled linear voltage regulators are proposed for event-driven energy-efficiency sensing platform. Both digitally controlled linear voltage regulators are implemented on TSMC 65-nm low-power bulk CMOS technology and designed for near-/sub- threshold operations. The first digitally controlled linear voltage regulator includes a digital error detector (DED), which is the replacement of the analog error amplifier. A novel Process-Voltage-Temperature (PVT) –aware design is implemented to mitigate environmental variations and to guarantee the resolution of linear voltage regulator. In the second digitally controlled linear voltage regulator, a comparator-based error detector is proposed to replace analog error amplifier. Two methods are introduced to reduce self-generated output ripple by adjusting the PMOS strength for PVT and load variations.