← 返回 JSSC 论文列表JSSC 2019第10期Power Management0.18-µm CMOSBoost ConverterCharge Pump
Integrated Cold Start of a Boost Converter at 57 mV Using Cross-Coupled Complementary Charge Pumps and Ultra-Low-V oltage Ring Oscillator Soumya Bose , Student Member , IEEE
提出一种片上冷启动技术,实现57mV输入电压下快速启动升压转换器。
57 mV, 135 ms, 90 nJ
冷启动升压转换器电荷泵能量收集低电压
▸创新点1:交叉耦合互补电荷泵实现低电压倍增(方法创新)。通过高门极驱动开关的改进电荷传输,实现了在冷启动期间对低输入电压的有效倍增,显著降低了启动电压至57 mV,提升了能量转换效率。
▸创新点2:片上超低电压环形振荡器生成时钟(电路创新)。设计了一种超低电压环形振荡器,能够在极低输入电压下稳定工作,为电荷泵提供可靠的时钟信号,无需外部时钟源,简化了系统设计。
▸创新点3:无需额外能源或片外组件(系统创新)。整个冷启动方案完全集成在芯片上,不依赖外部能源或组件,实现了高度集成的自主启动,降低了系统复杂性和成本。
▸创新点4:快速启动与低能耗(性能创新)。在135 ms内实现从57 mV的冷启动,仅消耗90 nJ的能量,显著提升了启动速度和能量利用效率,适用于人体热能采集等低功耗应用。
Abstract
This paper demonstrates an on-chip electrical cold-start technique to achieve low-voltage and fast start-up of a boost converter for autonomous thermal energy harvesting from human body heat. An improved charge transfer through high gate-boosted switches by means of cross-coupled complementary charge pumps enables voltage multiplication of the low input voltage during cold start. The start-up voltage multiplier operates with an on-chip clock generated by an ultra-low-voltage ring oscillator . The proposed cold-start scheme implemented in a general-purpose 0.18- µm CMOS process assists an inductive boost converter to start operation with a minimum input voltage of 57 mV in 135 ms while consuming only 90 nJ of energy from the harvesting source, without using additional sources of energy or additional off-chip components.