industry news
Subscribe Now

TI introduces Sitara™ AM335x ARM® microprocessors, the industry’s first $5 high-performance, feature-packed ARM Cortex™-A8 devices

  • Get to market in six months with easy, $89 open source hardware platform and free software development kit , supporting Android, Linux and Windows Embedded Compact 7
  • Add increased functionality to portable navigation systems, handheld gaming and educational devices, home/building automation and more
  • Migrate seamlessly from other ARM designs using flexible software and tools

DALLAS (Oct. 31, 2011) — Imagine upgrading from ARM9-based product designs to add 3D interactive touch screens, higher resolution displays, faster performance and multiple, flexible integrated connectivity options for a more robust offering — all while keeping design costs and power levels low.  Visualize taking these new products to market in six months with an inexpensive development platform and free, complete software development kit.  Texas Instruments Incorporated (NYSE: TXN) (TI) now makes this design vision a reality with its new Sitara™ AM335x ARM® Cortex-A8 microprocessors.

“The new Sitara AM335x ARM Cortex-A8 microprocessors from TI allow designers to explore infinite possibilities for upgrading their systems without increasing cost or power consumption,” said Dipti Vachani, general manager, Sitara ARM microprocessors, TI.   “Moreover, TI gives you all the tools, free software and 24/7 support to design.  That’s true design ease — paramount to every TI embedded processor offering.” 

Starting at $5 and consuming as low as 7 mW of power, the AM335x ARM Cortex-A8 microprocessors provide low power consumption, prolonging battery life and reducing heat emissions, to enable portable, pocket-sized, fan-less applications.  Offering developers high performance with advanced 3D graphics capabilities, touch screen controller and sophisticated peripherals all on a single chip reduces printed circuit board (PCB) space, complexity and bill of materials (BOM) costs by as much as $40 for smaller sized applications such as portable navigation, handheld gaming and educational devices, home and building automation and more. 

“TI’s feature-packed AM335x ARM microprocessors and the associated software and hardware development boards provide embedded system designers with low-cost, low-power and easy-to-use solutions,” said Jim McGregor, chief technology strategist, In-Stat.  “Total system solutions like these allow embedded designers to take advantage of the huge investments in ARM core technology and open source software, such as the Android operating system, to ensure a roadmap for future investments in silicon and software.”

Begin development with an $89 open source development board or complete evaluation module

The AM335x ARM Cortex-A8 microprocessors offer multiple robust development tools.  Designers can quickly and easily begin development with the $89 BeagleBone, the newest, best-value open source hardware platform from the BeagleBoard.org community.  Designers can also use the full-featured AM335x evaluation module(EVM) with a seven-inch LCD touch screen and access to all peripherals for $995.  The EVM includes TI’s WL1271 single-chip 802.11b/g/n + Bluetooth® technology in a broadly available module and is the first widely available platform to enable Wi-Fi Direct™.  The combination of the AM335x ARM Cortex-A8 microprocessors and proven WL1271 solution provides a very low-cost, high-performance wireless connectivity platform.

Software supports popular OSes and enables microcontroller-like programming

Accompanying both the BeagleBone and full-featured EVM are a host of software solutions:

  • TI EZ software development kit, allowing demo in minutes and development in less than an hour
  • Support for Linux, Android and Windows Embedded Compact 7 operating systems
  • Compatible security solutions and real-time operating systems (RTOSes) available from third parties, enabling further product customization and simplifying development
  • StarterWare software stack allowing developers to program these microprocessors like a microcontroller, without requiring an operating system  

Together these software offerings permit developers to scale the ARM platform, from MCUs to ARM9 devices, ARM Cortex-A8 devices, ARM + DSP devices, as well as video processors and DSPs, saving time and cost. 

Pricing and availability

Developers can begin evaluation of the AM335x ARM Cortex-A8 microprocessors with the $89 BeagleBonefrom BeagleBoard.org.  They can also develop on TI’s full-featured EVM (TMDXEVM3558) for $995, available December 2011.  TI’s Linux EZ SDK and support for Android 2.2 are available for FREE download from ti.comDecember 2011 with Windows Embedded Compact 7 support coming in 1Q2012.  Support for QNX, Mentor and Wind River third-party, RTOSes will be available starting this quarter. These devices (XAM3358ZCE andXAM3359ZCZ) are sampling today.  Prices for the AM335x ARM Cortex-A8 microprocessors begin at $4.99 (in 100,000 unit quantities).  Application-specific reference designs based on the AM335x ARM Cortex-A8 microprocessors will be available later this year and into 2012.

About Texas Instruments

Texas Instruments semiconductor innovations help 80,000 customers unlock the possibilities of the world as it could be – smarter, safer, greener, healthier and more fun.  Our commitment to building a better future is ingrained in everything we do – from the responsible manufacturing of our semiconductors, to caring for our employees, to giving back inside our communities.  This is just the beginning of our story.  Learn more atwww.ti.com.

Leave a Reply

featured blogs
Jan 18, 2022
This column should more properly be titled 'Danny MacAskill Meets Elvis Presley Meets Bollywood Meets Cultural Appropriation,' but I can't spell '˜appropriation.'...
Jan 18, 2022
Authors: D. Eržen, M. Andre jaÅ¡ič, R. Lapuh, J. Tomažič and Č. Gorup - Pipistrel Vertical Solutions d.o.o., Slovenia T. Kosel '“ Faculty of Mechanical Engineering, Slovenia The first electric aircraft... [[ Click on the title to access the full blog on the...
Jan 13, 2022
See what's behind the boom in AI applications and explore the advanced AI chip design tools and strategies enabling AI SoCs for HPC, healthcare, and more. The post The Ins and Outs of AI Chip Design appeared first on From Silicon To Software....

featured video

Synopsys & Samtec: Successful 112G PAM-4 System Interoperability

Sponsored by Synopsys

This Supercomputing Conference demo shows a seamless interoperability between Synopsys' DesignWare 112G Ethernet PHY IP and Samtec's NovaRay IO and cable assembly. The demo shows excellent performance, BER at 1e-08 and total insertion loss of 37dB. Synopsys and Samtec are enabling the industry with a complete 112G PAM-4 system, which is essential for high-performance computing.

Click here for more information about DesignWare Ethernet IP Solutions

featured paper

USB-C and USB Power Delivery Solutions

Sponsored by Analog Devices

Every electronic market is rapidly adopting the latest USB Type-C® and USB Power Delivery (USB-PD) specifications. The new USB Type-C cable and connector specifications dramatically simplify the way we interconnect and power electronic gadgets. With the proliferation of battery-operated devices for consumer, medical, automotive, and industrial applications, USB-C is increasingly becoming the preferred universal standard for charging and powering devices.

Click here to read more

featured chalk talk

Security Regulations Drive Requirements

Sponsored by Mouser Electronics and Silicon Labs

IoT Security certification schemes can be complex, but security identities and security certification inheritance can make this aspect of your IoT design quite a bit easier. In this episode of Chalk Talk, Amelia Dalton chats with Mike Dow from Silicon Labs about the current state of global security regulations, the difference between physical and logical attacks, and how Silicon Labs SoCs and modules can help you solve the security demands of your next design.

Click here for more information about Silicon Labs EFR32xG21B SoC & xGM210P Modules with Secure Vault