Several improvements have been made to the conventional segmented linear light-emitting diode (LED) driver topology to enhance the performance and reliability of the system. A compensation technology is proposed to ...Several improvements have been made to the conventional segmented linear light-emitting diode (LED) driver topology to enhance the performance and reliability of the system. A compensation technology is proposed to adaptively adjust the impedance of the sensing circuit to keep the output luminance constant in case of line volt- age variations. Based on the proposed technology, an active over temperature protection technique is presented to constrain the averaged LED current according to the junction temperature to prevent the driving IC from overheating. Otherwise, a pulse width modulation dimming circuitry which is compatible with input logic level ranging from 1.8 to 20 V is proposed. The proposed technologies are implemented in a 1.0μm 5/20/500 V BCD technol- ogy with three high voltage MOSFETs integrated on chip. The experimental results show that within 220± 15% V, 50 Hz AC line-voltage variation, the output luminance is restrained to 4% in total. The output luminance can also be effectively controlled by the PWM dimming circuitry, and a dimming range of 95% is achieved with good linearity.展开更多
传统的开关型LED驱动电源中含有大电解电容和高频变压器,导致LED驱动电源的体积庞大且使用寿命较短。分段式线性恒流驱动电源可以避免使用大电解电容和高频变压器。设计了一种新型的分段线性恒流LED驱动电源,利用整流之后的高压脉动直...传统的开关型LED驱动电源中含有大电解电容和高频变压器,导致LED驱动电源的体积庞大且使用寿命较短。分段式线性恒流驱动电源可以避免使用大电解电容和高频变压器。设计了一种新型的分段线性恒流LED驱动电源,利用整流之后的高压脉动直流电压的变化,自适应地控制LED灯珠分阶段恒流工作。除整流桥和采样电阻外,整个驱动电路可实现单芯片集成,有效缩小了体积、延长了寿命。电路中还设计了智能拓展端口,可实现智能化控制。基于华虹宏力0.5μm 700 V BCD工艺对电路进行了仿真验证,在0~311 V周期脉动高电压输入条件下,驱动芯片分四阶段恒流工作,输出最大恒定电流可达97.17 m A,在恒流阶段,电流的瞬态精度误差仅为0.031%。仿真结果表明,该LED驱动电路各指标参数均满足预期要求。展开更多
A high efficiency, high power factor, and linear constant current LED driver based on adaptive seg- mented linear architecture is presented. When the input voltage varied, the proposed LED driver automatically switche...A high efficiency, high power factor, and linear constant current LED driver based on adaptive seg- mented linear architecture is presented. When the input voltage varied, the proposed LED driver automatically switched over LED strings according to the segmented LED voltage drop, which increased the LED lighting time. The efficiency and power factor are improved, while the system design is simplified by this control scheme. Without the usage of electrolytic capacitor and magnetic components, the proposed driver possesses advantages of smaller size, longer lifetime and lower cost over others. The proposed driver is implemented in 0.8 μm 5 V/40 V HVCMOS process, which occupies an active area of 820× 920μm2. The measured results show that the average value of the internal reference voltage is 500 4- 7 mV, with a standard deviation of only 4.629 mV, thus LED current can be set accurately. Under 220 V root mean square 50 Hz utility voltage and the number ratio of the three LED strings being 47 : 17 : 16, the system can realize a high power factor of 0.974 and power conversion efficiency of 93.4%.展开更多
基金Project supported by the National Natural Science Foundation of China(No.61106026)
文摘Several improvements have been made to the conventional segmented linear light-emitting diode (LED) driver topology to enhance the performance and reliability of the system. A compensation technology is proposed to adaptively adjust the impedance of the sensing circuit to keep the output luminance constant in case of line volt- age variations. Based on the proposed technology, an active over temperature protection technique is presented to constrain the averaged LED current according to the junction temperature to prevent the driving IC from overheating. Otherwise, a pulse width modulation dimming circuitry which is compatible with input logic level ranging from 1.8 to 20 V is proposed. The proposed technologies are implemented in a 1.0μm 5/20/500 V BCD technol- ogy with three high voltage MOSFETs integrated on chip. The experimental results show that within 220± 15% V, 50 Hz AC line-voltage variation, the output luminance is restrained to 4% in total. The output luminance can also be effectively controlled by the PWM dimming circuitry, and a dimming range of 95% is achieved with good linearity.
文摘传统的开关型LED驱动电源中含有大电解电容和高频变压器,导致LED驱动电源的体积庞大且使用寿命较短。分段式线性恒流驱动电源可以避免使用大电解电容和高频变压器。设计了一种新型的分段线性恒流LED驱动电源,利用整流之后的高压脉动直流电压的变化,自适应地控制LED灯珠分阶段恒流工作。除整流桥和采样电阻外,整个驱动电路可实现单芯片集成,有效缩小了体积、延长了寿命。电路中还设计了智能拓展端口,可实现智能化控制。基于华虹宏力0.5μm 700 V BCD工艺对电路进行了仿真验证,在0~311 V周期脉动高电压输入条件下,驱动芯片分四阶段恒流工作,输出最大恒定电流可达97.17 m A,在恒流阶段,电流的瞬态精度误差仅为0.031%。仿真结果表明,该LED驱动电路各指标参数均满足预期要求。
基金supported by the National Natural Science Foundation of China(Nos.61234002,61322405,61306044,61376033)
文摘A high efficiency, high power factor, and linear constant current LED driver based on adaptive seg- mented linear architecture is presented. When the input voltage varied, the proposed LED driver automatically switched over LED strings according to the segmented LED voltage drop, which increased the LED lighting time. The efficiency and power factor are improved, while the system design is simplified by this control scheme. Without the usage of electrolytic capacitor and magnetic components, the proposed driver possesses advantages of smaller size, longer lifetime and lower cost over others. The proposed driver is implemented in 0.8 μm 5 V/40 V HVCMOS process, which occupies an active area of 820× 920μm2. The measured results show that the average value of the internal reference voltage is 500 4- 7 mV, with a standard deviation of only 4.629 mV, thus LED current can be set accurately. Under 220 V root mean square 50 Hz utility voltage and the number ratio of the three LED strings being 47 : 17 : 16, the system can realize a high power factor of 0.974 and power conversion efficiency of 93.4%.