Tapped-Inductor Buck Converter for High-Step-Down DC-DC Conversion.

The narrow duty cycle in the buck converter limits its application for high-step-down dc-dc conversion. With a simple structure, the tapped-inductor buck converter shows promise for extending the duty cycle. However, the leakage inductance causes a huge turn-off voltage spike across the top switch. Also, the gate drive for the top switch is not simple due to its floating source connection. This paper solves all these problems by modifying the tapped-inductor structure. A simple lossless clamp circuit can effectively clamp the switch turn-off voltage spike and totally recover the leakage energy. Experimental results for 12 V-to-1.5 V and 48 V-to-6 V dc-dc conversions show significant improvements in efficiency. [ABSTRACT FROM AUTHOR]