Blackfin Processor for Automotive Navigation, Entertainment and Audio Systems
The Blackfin® Processor family has been expanded to address the ever-increasing need for more connection possibilities with new family members. This connectivity is coupled with the high performance 16-/32-bit Blackfin embedded processor core, the flexible cache architecture, the enhanced DMA subsystem, and the Dynamic Power Management (DPM) functionality. System designers can take advantage of the combined control and signal processing capabilities of the processor core through code compatibility of these new family members with existing Blackfin offerings. The ADSP-BF539 is designed and targeted for use as the System Control Processor in control and signal processing rich applications such as Automotive Navigation Systems, Audio Head Units and Audio Amplifiers. Dynamic Power Management additionally lowers power consumption and minimizes power dissipation in enclosed applications.
Blackfin Processors add MOST Network Connectivity
The ADSP-BF539 processor also integrates an MXVR Transceiver for transmitting and receiving audio, video and control data over a MOST automotive multimedia network.
Designed as an Integrated System
In addition to the embedded connectivity of CAN 2.0B, the ADSP-BF539 processor includes a variety of general purpose functions designed to minimize external IC count and offer broad control and communication. Peripherals include three SPI®-compatible ports, three UARTs, four SPORT ports, three multifunction timers, 38 general-purpose I/Os, dual Two-Wire Interface for I2C operation, a real-time clock, a watchdog timer, an event controller, and a JTAG/debug interface. The flexible Parallel Peripheral Interface (PPI) offers a direct connection to a variety of video encoders/ decoders, display drivers, image sensors, and general-purpose converters.
Blackfin Processors are supported by:
Analog Devices CROSSCORE® brand of industry leading development tools. The CROSSCORE components include the VisualDSP++® software development environment, EZ-KIT Lite® evaluation systems, EZ-Extender™ daughter boards, and PCI-based or USB-based emulators.
Green Hills® Software award-winning MULTI® Embedded Software Development Environment and associated emulators.MOST is a registered trademark of Standard Microsystems Corporation (SMSC)
Comparable Parts Click to see all in Parametric Search
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 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/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.
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.
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.