Manufacturer Part Number
MCIMX6U6AVM10AC
Manufacturer
NXP Semiconductors
Introduction
The MCIMX6U6AVM10AC is part of the i.MX6DL series of embedded microprocessors designed by NXP Semiconductors, catering to advanced multimedia and performance needs with a dual-core ARM® Cortex®-A9 processor.
Product Features and Performance
Dual-core ARM® Cortex®-A9 processor
Operating speed of 1GHz
Supports multimedia co-processors and NEON™ SIMD
Incorporates RAM controllers supporting LPDDR2, LVDDR3, DDR3
Graphics acceleration included
Features display and interface controllers for keypad and LCD
Provides 10/100/1000Mbps Ethernet interface
Equipped with four USB 2.0 + PHY interfaces
Operating temperature range from -40°C to 125°C
Product Advantages
Enhanced multimedia handling capability
High-speed dual-core processing for efficient performance
Broad compatibility with multiple RAM types
Robust connectivity options including Ethernet and USB
Optimal for high-temperature applications
Key Technical Parameters
Core Processor: ARM® Cortex®-A9
Number of Cores/Bus Width: 2 Core, 32-Bit
Speed: 1 GHz
Graphics Acceleration: Yes
Ethernet: 10/100/1000Mbps
USB: USB 2.0 + PHY (4)
Operating Temperature: -40°C ~ 125°C
Quality and Safety Features
Designed for reliability in extreme temperature conditions
Packaged in secure 624-LFBGA for surface mount
Compatibility
Supports a variety of interfaces including CAN, I2C, I2S, MMC/SD/SDIO, SAI, SPI, SSI, UART
Compatible with LPDDR2, LVDDR3, DDR3 memory types
Application Areas
Advanced multimedia systems
High-performance industrial control
Automotive applications
Data communication equipment
Product Lifecycle
Status: Active
Not nearing discontinuation and maintains support for upgrades and replacements
Several Key Reasons to Choose This Product
High-performance dual-core ARM Cortex-A9 processor ensures efficient data handling
Support for advanced graphics and multiple display standards caters to multimedia applications
Diverse connectivity options with Ethernet and USB for broader application scope
Resilience in extreme temperatures making it suitable for automotive and industrial uses
Compatibility with various memory and interface types ensures flexibility in system design