A White LED Driver Using a Buck–Boost Converter

Abstract: For mobile backlighting applications, a white LED (WLED) driver using a buck-boost converter is proposed in this letter. Unlike conventional converters using boost converters, 2×/1.5× charge pumps, and so on, the proposed converter offers the negative stepped-down voltage to drive the LED's cathode only when the input voltage is insufficient to drive a 1× transfer mode. Furthermore, unlike the LED backlight using charge pumps, the proposed converter can adjust the output voltage by controlling the duty factor … Show more

“…Therefore, the inductor-based LED driver achieves higher efficiency than capacitor-based LED drivers. Following this study, the LED drivers using an SISO buck-boost converter have been proposed [6]- [9] to regulate the LED currents supplied with a wide-range input voltage source. As in the case of the negative charge-pump, the LED driver using a buck-boost converter drives the LED's cathodes.…”

A Negative Single-Input/Multi-Output LED Driver and Its Analysis Method

“…Therefore, the inductor-based LED driver achieves higher efficiency than capacitor-based LED drivers. Following this study, the LED drivers using an SISO buck-boost converter have been proposed [6]- [9] to regulate the LED currents supplied with a wide-range input voltage source. As in the case of the negative charge-pump, the LED driver using a buck-boost converter drives the LED's cathodes.…”

A Negative Single-Input/Multi-Output LED Driver and Its Analysis Method

Analysis of an LED lighting circuit using a hybrid buck–boost converter with high gain

A hybrid LED sink driver using a nesting-type switched-inductor/switched-capacitor buck-boost converter