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首页 » Texas Instruments
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A global semiconductor company, Texas Instruments (TI) innovates through manufacturing, design and sales operations in more than 30 countries. To date, TI has shipped more than six billion ARM® core-based devices worldwide for a variety of applications such as: safety critical automotive, wireless handsets and base stations, imaging, video and dual core digital signal processors (DSP). TI provides a breadth of silicon, software and support expertise that spans the broadest range of solutions from leading DSPs and OMAP™ applications processors to high performance analog and broad microcontroller solutions. For more information, go to www.ti.com. |
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| C6-Integra™ DSP+ARM® |
| The C6-Integra™ DSP + ARM® platform of processors include a high-performance line, featuring the C6A816x generation of processors as well as a value line, featuring TI low-power OMAP-L1x application processors. 更多
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| 分组内容 :
OMAP-L1x | TMS320C6A816x |
| DLPC100 |
| The DLPC100 performs all the image processing and control, along with DMD data formatting, for driving a 0.17 HVGA DMD (DLP1700). 更多
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| OMAP35X Applications Processor |
| OMAP applications processors offer a variety of combinations of the Cortex-A8 core, multimedia- rich peripherals, OpenGL® ES 2.0 compatible graphics engine, video accelerators and TMS320C64x+ DSP core. The modular and extensible OMAP35x Evaluation Module (EVM) provides all the components needed to start developing today on the OMAP3503 processor including an OMAP3503 Linux board support package based on the 2.6.22 kernel. 更多
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| 分组内容 :
OMAP3515/03 | OMAP3530/25 |
| DaVinci™ Digital Media Processors |
Accelerate Development of Your Digital Video Application with DaVinci™ Technology Optimized for digital video systems, the DaVinci processor portfolio consists of scalable, programmable processors ranging from affordable, targeted ARM9 only solutions to full-featured Digital Signal Processor (DSP)-based SoCs. These processors offer a variety of video encoding and decoding capabilities with accelerators, peripherals, support for multimedia codecs and application programming interfaces (APIs). These integrated components are the industry’s first complete offering allowing for the development of a complete spectrum of digital video applications. 更多
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| 分组内容 :
TMS320DM355 | TMS320DM365 | TMS320DM37x SOC | TMS320DM814x | TMS320DM816x |
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The latest Guides and Papers from TI
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TI provides a broad range of analog products, digital controllers and software to precisely control the position, velocity and torque of mechanical drives.
Motor Control Solutions Guide
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Learn how to get started with TI's ARM devices, kits and tools. TI offers you experience and expertise in designing with ARM cores including the Stellaris® ARM® Cortex™ - M3.
Selection Guide: TI processors based on ARM® technololgy | Meet TI's latest addition to the embedded systems microcontroller portfolio — the ultra-low-power MSP430F5xx generation of microcontrollers.
MSP430x5xx/MSP430x6xx Family User Guide
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This white paper will highlight the difficulties in developing and maintaining firmware (bootloaders), middleware (OS/application drivers) and hardware IPs for interfacing with raw NAND devices.
Software and hardware design challenges due to the dynamic raw NAND market | MSP430 ultra-low power MCUs have the right mix of intelligent peripherals, ease of use, low cost and lowest power consumption for thousands of applications.
MSP430 MCU Product Brochure
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This paper describes how to create a ZigBee Smart Energy Device using the MSP430F54xx as the host application processor to the CC2530-ZNP (ZigBee Pro Network Processor).
Creating a ZigBee Smart Energy Device with the MSP430F54xx and the CC2530-ZNP | Performance, effi ciency, fl exibility and protection – these are the attributes paramount to power electronics technologies. TI’s TMS320C2000™ microcontroller (MCU) platform enables developers to cost-effi ciently meet all of the key criteria
Doing Efficient and Cost-Effective Real-Time Control with a Single Microcontroller: The C2000 Advantage
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This whitepaper explores the different LED driver topologies and digital control methods for driving multiple LED strings to reduce system cost, lower operating expenses, increase color accuracy, and improve overall reliability.
Methods of controlling multiple LED strings with C2000 microcontrollers (MCUs) | This white paper demonstrates how to construct a visually appealing display and control center leveraging the Stellaris ARM-Cortex-M3 to run the system. A number of HMI examples demonstrate the library’s potential.
The Stellaris Graphics Library Makes Short Order of Assembling a Dynamic HMI
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Complete Kits, Popular Software, and Meaningful Examples Speed the Evaluation and Development of Stellaris 32-bit Microcontrollers for Real Applications
Get to Work in 10 Minutes | Explore a new paradigm for industrial control using a standard ARM-based processor architecture to create a unified control environment.
Design considerations when selecting a TI ARM-based processor for industrial applications
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This paper reviews the benefits of combining ARM processing with DSP processing (TI Integra™ DSP+ARM) in a single chip, including increased real-time performance, improved system flexibility and reduced system cost and power.
Maximizing the Power of ARM with DSP | Learn about TI’s ARM portfolio which spans Cortex™-M3, ARM9™ and Cortex-A8 family cores. Designed to meet a variety of market needs, TI supports the more ARM-based products than any single manufacturer.
ARM Platform Technical Overview
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Standard interfaces integrated into an embedded processor helps ease a system designer’s work but they can also make the choice of an embedded processor a bit problematic.
Customizable system interfaces add value to embedded processors | ARM® developers looking to enhance their applications on TI's heterogeneous multicore embedded processors can utilize the new C6Run open-source development tool.
C6Run DSP Software Development Tool
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As the complexity of applications implemented on SoC devices continues to increase, higher performance and many different connectivity options are required. TI continues to extend the capabilities of its SoCs by providing more connectivity options with every new generation.
Programmable Real-Time Unit (PRU): Extending Functionality of Existing SoCs | C6Flo is a free graphical development tool for TI’s TMS320C6000™ DSP devices that allows developers to abstract all or part of their embedded development to a high-level block diagram viewpoint.
C6Flo DSP Software Development Tool
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The steps in the video chain span everything from creation of original content to final viewing. TI has solutions for various market segments that simplify development by providing access to software, tools, third parties and local support.
Video and Vision Guide |
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