Analysis

IC enables processor in HTC One M9+ & HTC One E9+

29th April 2015
Siobhan O'Gorman
0

Dialog Semiconductor has announced that its DA9210 IC (sub-PMIC) will deliver precision power management to the MediaTek processor in HTC’s latest smartphones, the HTC One M9+ and the HTC One E9+.

The HTC smartphones host a wide range of enhanced HTC proprietary features including high quality surround sound simulation and 20MP dual cameras. The HTC One E9+ features a 5.5” sharp Quad HD (534ppi) display and the M9+, a 5.2” display with a front-mounted fingerprint sensor.

Important features in the selection of the DA9210 sub-PMIC by HTC included programmable soft start up, the ability to allow the processor to go from sleep mode to full load in micro seconds, and dynamic voltage scaling supporting adaptive adjustment of the supply voltage dependent on the processor load. The remote sensing capabilities guarantee the highest levels of accuracy, while the high integration level of the DA9210 removes the need for external FETs or Schottky diodes. The DA9210 was also successfully used in Mediatek’s earlier MT6595 platform.

MediaTek’s MT6795 octa-core 4G LTE processor is based on the ARM big.LITTLE architecture and uses four Cortex-A17 cores together with four energy efficient Cortex-A7 cores. It integrates a range of technologies including the company’s CorePilot heterogeneous multiprocessing technology providing ultra-low power consumption and optimised thermal control. The Clearmotion technology eliminates motion jitter, ensuring smooth and the highest quality video performance.

“The top ten smartphone manufacturers leverage Dialog Semiconductor PMICs to enable them to push the limits of performance in their products while maintaining outstanding power efficiency,” comments Udo Kratz, Senior Vice President and General Manager, Business Group Mobile Systems, Dialog Semiconductor. “It’s a privilege to be chosen by a manufacturer of HTC’s global standing as the supplier of power management technology in its latest smartphones. Our technology provides both models with sophisticated power control by supplying high currents in a tiny space without the risk of overheating other components.”

Featured products

Upcoming Events

View all events
Newsletter
Latest global electronics news
© Copyright 2024 Electronic Specifier