STMicroelectronics has announced a miniature power chip that can be used in smartphones or small electronic device that has an AMOLED display. ST already supplies over 80% of the world’s ICs for powering AMOLED displays, which are ultra thin and promise even more vivid displays and wider viewing angles than today’s LCDs.
Increasing use in smartphones and other slim-line electronics such as digital cameras and appliance user interfaces will drive annual AMOLED shipments to $3.6 billion by 2015, from just over $600 million in 2008, according to analysts at IHS iSuppli; each AMOLED would require a driver/power-supply chip.
AMOLEDs have more complex power requirements than LCDs and need both a positive and negative voltage. ST’s dedicated AMOLED power ICs add value to new designs by simplifying power-supply circuitry. The new chip, the STOD13AS, is produced using Silicon On Insulator (SOI) process technology ensuring longer battery life. In addition, high immunity to cellphone-communication noise produces a consistent, flicker-free display.
“This breakthrough device extends ST’s lead in AMOLED power integration just as display producers bring next-generation capacity on stream, allowing AMOLEDs to be used in many new product designs,” said Sergio Pioppo, Handheld & Portable Consumer Business Unit Director, STMicroelectronics.
As the successor to ST’s STOD03A, the STOD13AS integrates the step-up and inverting DC/DC converters needed to generate the positive and negative supplies on the same chip; another advantage of its SOI technology.
Other enhancements include increased display-driving capability as well as additional short-circuit and overload protection modes to maximize ruggedness and reliability. There are also energy-saving features that help maximize battery life such as an Enable pin, which allows the application to completely turn off the STOD13AS when it doesn’t need to use the display, and pulse-skipping operation that optimizes efficiency when the display is consuming minimal power.
Features of STOD13AS:
• Advanced Silicon-on-Insulator manufacturing technology
• Typical efficiency of 85%
• Output current capability increased from 200mA to 250mA
• Low output ripple and high immunity to GSM noise
• 1.5MHz operating frequency enabling small external components
• 2.5V-4.5V input voltage range
• +4.6V positive output
• User-programmable negative output voltage