Experimental Measurements of an Integrated Hysteretic Controlled Regulating Buck Converter with Capacitively Coupled Bootstrapping

2021 28th IEEE International Conference on Electronics, Circuits, and Systems (ICECS) Pub Date : 2021-11-28 DOI:10.1109/icecs53924.2021.9665602

Francarl Galea, O. Casha, I. Grech, E. Gatt, J. Micallef

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Abstract

This paper presents the complete measured performance and characterization of an on-chip regulating buck converter with hysteretic control. The circuit was fabricated using the XFAB CMOS $0.35\ \mu \mathrm{m}$ high voltage technology and all the control circuit blocks were designed using analog techniques, with the transistors operating in the sub-threshold region, in order to minimize power consumption. All the high voltage transistors of the buck converter were implemented using 45V NMOS thin gate oxide layer transistors and are operated by means of a capacitively coupled bootstrap. The control circuit of the hysteretic regulator consumes between $194\ \mu\mathrm{W}$ and $420\ \mu \mathrm{W}$, and the proposed buck converter operates at a peak efficiency of 84.2%. The input voltage range of the regulator is from 1.5V to 45V and has a power range from $100\ \mu \mathrm{W}$ to 500 mW. The output regulated voltage is tunable via a feedback resistor and can be varied from 0.6V to 40 V, with a dropout voltage of 2 V.

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电容耦合自举集成滞回控制调节降压变换器的实验测量

本文介绍了一种具有迟滞控制的片上调节降压变换器的完整性能和特性。电路采用XFAB CMOS $0.35\ \mu \ maththrm {m}$高压技术制作，所有控制电路模块均采用模拟技术设计，晶体管工作在亚阈值区域，以最大限度地降低功耗。降压变换器的所有高压晶体管均采用45V NMOS薄栅氧化层晶体管实现，并采用电容耦合自激电路进行操作。滞回调节器的控制电路消耗在$194\ \mu\mathrm{W}$和$420\ \mu\mathrm{W}$之间，所提出的降压变换器工作在84.2%的峰值效率。稳压器的输入电压范围从1.5V到45V，功率范围从$100\ \mu \ mathm {W}$到500 mW。输出稳压可通过反馈电阻调节，可在0.6V至40 V之间变化，降压为2 V。

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2021 28th IEEE International Conference on Electronics, Circuits, and Systems (ICECS)

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