Manufacturer Part Number
AM3505AZCNC
Manufacturer
Texas Instruments
Introduction
The AM3505AZCNC is a Sitara™ series ARM® Cortex®-A8 processor designed for embedded microprocessing needs with a focus on multimedia processing and connectivity.
Product Features and Performance
Core Processor: ARM® Cortex®-A8
Clock Speed: 600MHz
Single-Core 32-Bit processing
Multimedia co-processors and NEON™ SIMD for enhanced media processing
Supports LPDDR and DDR2 RAM controllers
Integrated 10/100Mbps Ethernet
Multiple USB 2.0 interfaces including three standard and one with PHY
Operating Temperature Range: 0°C to 90°C
Product Advantages
High-performance ARM Cortex-A8 core optimized for low-power consumption
Advanced multimedia and secure data handling capabilities
Robust connectivity options including Ethernet and multiple USB ports
Supports flexible memory configurations, aiding diverse application requirements
Key Technical Parameters
Core: ARM Cortex-A8
Speed: 600MHz
RAM Controllers: LPDDR, DDR2
Ethernet: 10/100Mbps
USB Ports: 4 (USB 2.0 x3, USB 2.0 + PHY x1)
Voltage I/O: 1.8V, 3.3V
Quality and Safety Features
Cryptography security features safeguard data integrity and privacy
High reliability under a wide range of operating temperatures (0°C to 90°C)
Compatibility
Compatible with various memory types including LPDDR and DDR2
Interfacing capacity with CAN, HDQ/1-Wire, I2C, McBSP, McSPI, MMC/SD/SDIO, UART
Application Areas
Industrial automation
Multimedia processing platforms
Networked communication devices
Secure transactions and applications
Product Lifecycle
Product Status: Active
Not nearing discontinuation
Continuous support and updates available
Several Key Reasons to Choose This Product
Efficient processing with ARM Cortex-A8 core at 600MHz
Enhanced multimedia and data processing capabilities with NEON™ SIMD
Extensive connectivity including high-speed USB and Ethernet
Strong security features including cryptographic protocols
Compatible with multiple interfaces ensuring broad application scope
Reliable performance ensured across a wide range of operating temperatures