High Performance Convergent Multimedia Blackfin Processor
The ADSP-BF549 processors were specifically designed to meet the needs of convergent automotive multimedia applications where system performance and cost are essential ingredients. The integration of multimedia, human interface, and connectivity peripherals combined with increased system bandwidth and on-chip memory provides customers a platform to design the most demanding applications. For applications that require additional external memory, the ADSP-BF549 family provides product variants specifically designed to interface to either Standard DDR1 or 1.8V Low-Power DDR memory devices.
IP protection has become a necessary part of today’s embedded applications. The ADSP-BF54x provides a security scheme that balances flexibility and upgradeability with performance through the inclusion of a firmware based solution including OTP memory to enable users to implement private keys for secure access to program code.
The ADSP-BF549 provides peripheral flexibility to complement its high performance processing. These rich system level peripherals are well suited for Advanced Vehicle Infotainment and multimedia applications where multiple standards are prevalent and system performance is required.
To enhance connectivity, a High Speed USB On-the-Go (HS USB OTG) module with Integrated PHY has been integrated along with an 8/16-bit Host DMA Interface. These system level peripherals, along with standard serial connections provided by multiple on-chip SPORT, SPI, UART, TWI, and CAN interfaces, provide glue-less interfaces to multiple off chip devices including consumer and communication products, Bluetooth, and other application specific interfaces. This level of integration is perfect for the emerging and constantly changing products and standards in the car infotainment and multimedia segments.
For interfacing off chip to storage media including hard drives, CD/DVD-drives, and NAND Flash products, the ADSP-BF549 has implemented a SD/SDIO controller, ATAPI-6 controller, and an 8/16-bit NAND flash controller.
Many multimedia enhancements have also been included on the ADSP-BF549 to offload processor MIPS through hardware integration, expand display capabilities, and shorten customer development time. The multiple Enhanced Parallel Peripheral Interfaces that support ITU-R BT.656 Video Formats now can also drive 18/24-bit LCD displays. A Hardware acceleration block, the Pixel Compositor, has been developed to execute overlay, color conversion and alpha blending. This block significantly reduces processor core overhead associated with software RGB-YUV color conversion and alpha blending.
For human interface capability, the ADSP-BF549 provides a 32-bit up/down counter that can sense 2-bit quadrature or binary codes as typically emitted by industrial drives or manual thumb wheels. An 8x8 Keypad interface is also included.
At least one model within this product family is in production and available for purchase. The product is appropriate for new designs but newer alternatives may exist.
New debug feature added for the ICE-1000/ICE-2000:
- Coresight Serial Wire Debug (SWD)
EMULATOR-USB & HP USB ICE
The plug-and-play architecture of USB allows the emulators to be automatically detected and configured by the host operating system. It can also be connected to and disconnected from the host without opening the PC or turning off the power to the PC. A 3-meter cable is included to connect the emulators to the host PC, thus providing abundant accessibility to hard to reach targets.
The HP USB-based emulator also supports the Background
Telemetry Channel (BTC), a non-intrusive method
for exchanging data between the host and target
application without affecting the target system's
Part Number: ADZS-USB-ICE
High Performance USB-Based Emulator
Part Number: ADZS-HPUSB-ICE
Tel: 1-800-ANALOGD (262-5643)
For additional information, contact your local Analog Devices Sales Office or Distributor.
The EZ-KIT Lite includes an ADSP-BF548 Blackfin Processor desktop evaluation board along with an evaluation suite of the VisualDSP++® development and debugging environment, including the C/C++ compiler, assembler, and linker. The evaluation suite of VisualDSP++ is designed to be used with the EZ-KIT Lite only.
The EZ-KIT Lite ships with a 4x4 Keypad, Optical Thumbwheel, QVGA Touch Screen LCD and a 40 Gigabyte Hard Drive.
Part number: ADZS-BF548-EZLITE
CROSSCORE® Tools Support
Lightweight TCP/IP (lwIP) Stack
The Lightweight TCP/IP (lwIP) Stack for CrossCore Embedded Studio is and implementation of this widely accepted TCP/IP stack for embedded platforms supporting most of the networking protocols in the TCP/IP suite.
The Micriµm µC/FS™ File System for CrossCore® Embedded Studio is a compact, reliable, high-performance file system which is the result of collaboration between Analog Devices and Micriµm.
Micrium uC/USB Device
The Micriµm µC/USB Device™ Stack for CrossCore Embedded Studio (CCES) provides a user-friendly programming environment for embedded applications requiring USB device connectivity.
Micrium uC/USB Host
µC/USB Host Stack for CrossCore Embedded Studio (CCES) is the result of a partnership between Analog Devices and Micriµm to provide a user-friendly programming environment for embedded applications requiring USB Host functionality.
The Micriµm µC/OS-III® Real-Time Kernel for CrossCore Embedded Studio (CCES) provides a user-friendly programming environment for µC/OS-III applications running on Blackfin and SHARC processors.
The Micriµm µC/OS-II® Real-Time Kernel for CrossCore Embedded Studio (CCES) provides a user-friendly programming environment for µC/OS-III applications running on Blackfin and SHARC processors.
Software Development Tools
CrossCore Embedded Studio for Windows
CrossCore Embedded Studio is a world-class integrated development environment (IDE) for the Blackfin and SHARC processor families.
Device-Based Social Networking
Product Selection Guide
ADI Complementary Parts Guide - Supervisory Devices and DSP Processors
ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal.