Overview
The ADSP-BF606KBCZ-4 is a dual-core Blackfin processor from Analog Devices Inc., designed for high-performance digital signal processing applications. This processor is optimized for a broad range of industrial, instrumentation, medical, and consumer applications that demand complex control and signal processing tasks while maintaining extremely high data throughput. It features a high-performance enhanced infrastructure, large on-chip memory, and a feature-rich peripheral set, making it an ideal choice for next-generation applications requiring RISC-like programmability, multimedia support, and leading-edge signal processing.
Key Specifications
| Specification | Details |
|---|---|
| Processor Cores | 2 Blackfin cores capable of 500 MHz/1000 MMACs (2000 MMACs total) |
| On-chip Memory | 424 K bytes of SRAM (148kB L1 SRAM per core with parity support, 128kB shared L2 SRAM with ECC support) |
| Operating Frequency | Up to 500 MHz |
| Package | 349-Ball CSP BGA (19mm x 19mm) |
| Temperature Range | 0°C to +70°C |
| Peripheral Interfaces | 3x Enhanced Parallel Peripheral Interfaces (ePPIs), 3 synchronous serial ports (SPORTs), USB 2.0 HS OTG, Removable Storage Interface (RSI), 2 10/100 Ethernet MACs with IEEE 1588 support, CAN Interface, 4 Link Ports, 2 Watch Dog Timers, 8 Timer/Counters with PWM support, CRC engine, 2 SPI-compatible ports, 2 UART and 2 Two-Wire Interfaces, 2 16-bit PWM channels |
Key Features
- High-performance dual-core architecture with up to 500 MHz clock speed and 2000 MMACs total processing power.
- Large on-chip memory including 148kB L1 SRAM per core and 128kB shared L2 SRAM.
- Feature-rich peripheral set including ePPIs, SPORTs, USB 2.0 HS OTG, RSI, Ethernet MACs, CAN Interface, and more.
- Advanced safety features such as CRC for memory protection, parity and ECC protection in internal memory blocks, and a Fault Management Unit.
- Support for various operating modes and protocols including ITU-R BT.656, I2S, and TDM.
- Integrated DMA controllers for efficient data transfer.
- Microcontroller features including arbitrary bit and bit-field manipulation, integer operations, and separate user and supervisor stack pointers.
Applications
The ADSP-BF606KBCZ-4 is suitable for a wide range of applications, including:
- Industrial control and automation.
- Instrumentation and measurement systems.
- Medical devices requiring advanced signal processing.
- Consumer electronics demanding high-performance multimedia capabilities.
- Automotive systems and power/motor control applications.
Q & A
- What is the ADSP-BF606KBCZ-4 processor?
The ADSP-BF606KBCZ-4 is a dual-core Blackfin processor from Analog Devices Inc., designed for high-performance digital signal processing applications. - What are the key features of the ADSP-BF606KBCZ-4?
Key features include dual-core architecture, large on-chip memory, feature-rich peripheral set, advanced safety features, and support for various operating modes and protocols. - What are the operating frequencies of the ADSP-BF606KBCZ-4?
The processor operates up to 500 MHz. - What type of package does the ADSP-BF606KBCZ-4 come in?
The processor comes in a 349-Ball CSP BGA package (19mm x 19mm). - What is the temperature range for the ADSP-BF606KBCZ-4?
The temperature range is 0°C to +70°C. - What kind of memory does the ADSP-BF606KBCZ-4 have?
The processor has 424 K bytes of on-chip SRAM, including 148kB L1 SRAM per core with parity support and 128kB shared L2 SRAM with ECC support. - Does the ADSP-BF606KBCZ-4 support Ethernet?
Yes, it supports 2 10/100 Ethernet MACs with IEEE 1588 support. - What safety features does the ADSP-BF606KBCZ-4 include?
The processor includes a CRC for memory protection, parity and ECC protection in internal memory blocks, and a Fault Management Unit. - What development tools are available for the ADSP-BF606KBCZ-4?
Development tools include CrossCore Embedded Studio (CCES), Lightweight TCP/IP (lwIP) Stack, and various application notes and user guides. - What are some typical applications for the ADSP-BF606KBCZ-4?
Typical applications include industrial control, instrumentation, medical devices, consumer electronics, and automotive systems.
