Dialog Semiconductor Achieves Highest Power Density and Efficiency in Powering Future Computing Platforms

Dialog DA9312

20-amp DA9312 power management integrated circuit (PMIC) shrinks comparable notebook power design by 50% while delivering an unprecedented 98% efficiency

ialog Semiconductor - DA9312

Dialog Semiconductor announces the DA9312, a power management IC that enables the design of smaller, thinner notebook computers and tablets powered by dual cell stacked (2S) Li-ion or Li-Polymer batteries. The notebook industry is moving towards designs powered by 2-cell, rather than 3-cell batteries and tablets are moving from single cell to 2-cell batteries. Dialog is supporting these trends with the most integrated power management solution currently available.

Dialog Semiconductor - DA9312

Using the DA9312 with a just few external components requires only 80 mm2 of board space, a fraction of that of discrete component power converters. The device delivers industry-leading efficiency of 98%, minimizing thermal management challenges and boosting product reliability.

Rated at 90 W, the DA9312 is the first high power device of its type in the industry. It accepts an input voltage from 5.5 V to 10.5 V, which then feeds three independent power supplies. The main power converter uses capacitors to store charge and requires no external inductor. The device’s two high-frequency buck converters switch at a frequency of 1.5 MHz, so tiny 1 mm high inductors and very small capacitors can be used on the outputs.

The DA9312 Block Diagram
The DA9312 Block Diagram.

The power converter, which outputs half the input voltage, is rated at up to 10 A and the two buck converters can each deliver up to 5 A at between 2.8 V and 5.35 V. Alternatively, the buck converter outputs can be combined to turn the device into a dual phase regulator capable of supplying up to 10 A on each output. All power supplies within the PMIC have integrated FET power switches to minimize external component count and board size, and no Schottky diodes are needed.

Efficiency vs. Input Current
Efficiency vs. Input Current.

Other features of the DA9312 include programmable soft start up, power good signal, and remote sensing to ensure voltage accuracy at the point of load, whatever the printed circuit board track routing. An I2C-compatible control interface and configurable GPIO extender are also integrated into the PMIC, together with over-temperature and over-current protection.

The DA9312 comes in a WL-CSP 6.345×2.815 mm package and implements Dialog’s RouteEasy ball layout for high density routing on low cost printed circuit boards. The PMIC operates with a die temperature from -40 °C to +125 °C.

DA9312 is available now.