Drain-Voltage Balance and Phase-Shifted PWM Control Schemes for High-Efficiency Parallel-String Dimmable LED Drivers

Abstract

An LED driver consisting of dimmable current balancing circuits (CBCs) and a boost converter with drain voltage balance (DVB) and phase-shifted pulsewidth modulation (PSPWM) control schemes is presented. To reduce the power loss on conventional linear current regulators, CBCs are employed. The DVB control scheme is proposed to maintain a desired constant voltage across the CBCs, so as to increase current balance and achieve high efficiency of the CBCs. Thus, the bus voltage of the boost converter is adaptively regulated based on the DVB control. The PSPWM control scheme can alleviate the variation of the bus current provided by the boost converter. As a result, the transient ripple of the bus voltage can be reduced when the light-emitting diode (LED) strings are turned on and off. Furthermore, the utilization of DVB control is increased when the PWM dimming duty cycle becomes lower. The experimental results demonstrate that the minimum voltage among the CBCs is always kept at the lowest constant level while maintaining the required current passing through the LED strings. The efficiency of the CBCs is kept almost the same for different LED currents and is over 95%. Thus, a high-efficient parallel-string dimmable LED driver with simple circuitry can be achieved.