This brief presents a frequency compensation technique to improve the settling time in driving moderate capacitive load (10–20 pF) of a low-power (<1 $ {\mu }{\mathrm{ W}}$ ) class-AB super buffer, wherein previously reported super buffers exhibit poor stability performance. From post-layout simulations in a 0.18- $ {\mu }\text{m}$ CMOS process, the proposed super buffer—while driving a 10-pF load and consuming less than 1 ${\mu }\text{A}$ of quiescent current from a 1.2-V supply voltage—achieves a factor of 1.8 (positive output direction) and 5.1 (negative output direction) reduction in the settling time compared to before compensation. We also validated the proposed technique through the measurements of a super buffer built on a protoboard with commercial discrete MOS transistors.