MediaTek launches MT2601 in Support of Google’s Android Wear Software
New Delhi, India, January 08, 2015: MediaTek, a leading fabless semiconductor company for wireless communications and digital multimedia solutions, today announced its MT2601 System on Chip (SoC) for wearable devices based on Google’s Android Wear software. By enabling Android Wear on MT2601, MediaTek is offering a comprehensive platform solution for device makers to implement their own hardware and software, and introduces a multitude of possibilities in Android Wear devices for the fast-growing consumer class globally.
The MT2601 packs a robust set of features in its small size with 41.5 percent fewer components and lower current consumption when compared with other chipsets in the market. Its design advantages translates into lower bill of materials (BoM) costs, smaller printed circuit board (PCB) size and longer battery life, which in turn yield fashionable wearable devices with long usage times and affordable prices.
The MT2601 includes 1.2 GHz dual-core ARM Cortex-A7, ARM Mali-400 MP GPU, and supports qHD display resolution. The MT2601 interfaces with a whole host of external sensors and the wireless connectivity SoC MT6630 for Bluetooth – all in a PCBA footprint of less than 480 mm2. This small PCB size meets the design requirements of the widest variety of wearable devices in sports and fitness, location tracking, and various other categories. MediaTek is a strong supporter of Android Wear and will continue to evolve MT2601 to align with the Android Wear road map.
“The MT2601 has an incredibly small die size and is highly optimized for cost and power performance. The platform solution, comprised of MT2601 integrated with Android Wear software, will fuel the maker revolution and empower the application developer community worldwide to create a broad range of innovative applications and services,” said J.C. Hsu, General Manager of New Business Development at MediaTek.
The MT2601 is in mass production now and ready for inclusion in Android Wear devices.