LCD bias & White-LED Supplies – one inductor, no charge-pump diode

Maxim introduced the MAX1578/MAX1579 , the first complete LCD bias and white-LED power supplies with only one inductor and no charge-pump diode.

Four regulated outputs supply all the voltages required for small active-matrix, thin-film transistor (TFT) LCDs in handheld devices where minimum external components and high efficiency are important. Three integrated, advanced charge pumps provide fixed +5V, +15V, and -10V for the LCD bias circuit, while a 34V step-up DC-DC converter drives up to eight white LEDs in series.

The charge pumps require only ceramic capacitors and no external diodes. All outputs are sequenced during startup and shutdown. During shutdown, the outputs are disconnected and actively discharged to zero. The efficiency is 83% for the bias power (+5.0V at 25mA and +15V/-10V at 100A).The step-up DC-DC converter in each power supply provides uniform illumination because the white LEDs are connected in a serial configuration and driven by the same current.

The converters also feature PWM or analog dimming control, soft-start to limit inrush current, and overvoltage protection. Fast, 1MHz PWM operation allows for small components. Backlighting efficiency is 84% (six LEDs at 20mA). Additionally, the MAX1579 features a temperature-derating function that allows fewer LEDs to generate the same light output. The input-voltage range is 2.7V to 5.5V. Both devices also feature independent enable inputs for LED and bias power, thermal shutdown protection, and a low 1A quiescent current during shutdown mode.

The MAX1578/MAX1579 are available in a space-saving 4mm x 4mm TQFN package, screened for the extended temperature range (-40C to +85C). Prices start at $3.50 (1000-up, FOB USA). The MAX1579EVKIT (evaluation kit) is available to speed designs.
Maxim Integrated Products

0 comments on “LCD bias & White-LED Supplies – one inductor, no charge-pump diode

Leave a Reply

This site uses Akismet to reduce spam. Learn how your comment data is processed.