This paper introduces a merged 4-stage hybrid switched-capacitor-switched-inductor converter for 24 – 16 V AI-notebook applications. The topology is based on a cascaded switched-capacitor and switched-inductor step-down converter with merged switching and energy transfer. This design ensures that the front-end switched-capacitor stage achieves complete soft-charging and automatic balance, enabling the use of mixed voltage domain power switch devices to optimize on-chip area and efficiency. Additionally, the converter achieves a greater than 50% reduction in inductor current, significantly reducing the need for bulky low DCR inductors. Implemented in a 180 nm BCD process, the proposed converter achieves a peak efficiency of 96.5% for 24 V to 1 V conversion and 95.52% efficiency for 24 V to 0.8 V conversion. Furthermore, a peak VIC control with adaptive slope compensation is employed, resulting in an undershoot/overshoot of 56 mV/58 mV for a 2 A/100 ns load step-up/-down.
