← 返回 JSSC 论文列表JSSC 2011第12期Power Management0.5μm CMOSBuck-Boost
A 12-A Buck-Boost LED Driver With On-Chip Error Averaged SenseFET-Based Current
提出一种高效LED驱动电路,采用误差平均senseFET电流检测技术,提升效率13%。
1.2A LED电流,效率提升13%,精度<2.8%,峰值效率90.7% (600mA)/86% (1200mA)
降压-升压转换器电流检测高效LED驱动误差平均senseFET
▸误差平均senseFET电流检测技术:采用误差平均的senseFET电流检测方法,显著提高了LED电流的调节精度(测量精度优于2.8%),同时降低了传统电流检测技术的功耗和复杂度。
▸消除传统串联电流调节元件:通过创新的电路设计,完全消除了传统LED驱动器中必需的串联电流调节元件,从而将效率提升了13%以上(峰值效率达90.7%),并降低了系统成本。
▸支持降压-升压多模式工作:设计了一种能够在降压、升降压和升压三种模式下无缝切换的转换器,覆盖了Li-Ion电池的整个电压范围(3-5.5V),确保了高效稳定的LED驱动。
▸高集成度与小型化:采用0.5μm CMOS工艺实现,芯片面积仅为5mm²,适合便携式设备应用,同时保持了高性能(标准偏差低于1.6%)。
Abstract
IEEE, Qadeer Khan , Student Member , IEEE, Sarvesh Bang, Damian Swank,
Arun Rao, William McIntyre , Member , IEEE, and Pavan Kumar Hanumolu , Member , IEEE
Abstract—This paper presents circuit techniques to improve
the efficiency of high-current LED drivers. An error-averaged,
senseFET-based current sensing technique is used to regulate the
LED current accurately. Because the proposed scheme eliminates
the series current-regulation element present in all conventional
LED drivers, it greatly impro