基于125 ps差分延迟链的12V 10MHz降压变换器死区时间控制

ESSCIRC Conference 2015 - 41st European Solid-State Circuits Conference (ESSCIRC) Pub Date : 2015-11-02 DOI:10.1109/ESSCIRC.2015.7313859

J. Wittmann, A. Barner, Thoralf Rosahl, B. Wicht

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引用次数: 11

摘要

本文设计了一种输入电压>12V、开关频率为10MHz的集成同步降压变换器。该变换器包括对开关节点进行频率补偿采样的预测死区时间控制，该控制不需要主体二极管正向导通。通过具有8位分辨率的差分延迟链实现125ps的高死区时间分辨率。通过这种方式，快速开关DCDC转换器的效率可以通过消除本体二极管正向导通损耗，最小化反向恢复损耗以及在关断时实现零电压开关来优化。该转换器采用180nm高压BiCMOS技术实现。通过提出的死区时间控制，功率损耗降低了30%，在VOUT = 5V和0.2 a负载下，效率提高了6%。峰值效率为81%。

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A 12V 10MHz buck converter with dead time control based on a 125 ps differential delay chain

This paper presents an integrated synchronous buck converter for input voltages >12V with 10MHz switching frequency. The converter comprises a predictive dead time control with frequency compensated sampling of the switching node which does not require body diode forward conduction. A high dead time resolution of 125ps is achieved by a differential delay chain with 8-bit resolution. This way, the efficiency of fast switching DCDC converters can be optimized by eliminating the body diode forward conduction losses, minimizing reverse recovery losses and by achieving zero voltage switching at turn off. The converter was implemented in a 180nm high-voltage BiCMOS technology. The power losses were measured to be reduced by 30% by the proposed dead time control, which results in a 6% efficiency increase at VOUT = 5V and 0.2 A load. The peak efficiency is 81%.

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ESSCIRC Conference 2015 - 41st European Solid-State Circuits Conference (ESSCIRC)

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