ATOM-060N NXP I.MX 6ULL SOM (System on Module)
The ATOM-060N NXP i.MX 6ULL Stamp Hole SoM is an industrial-grade embedded Linux SoM based on NXP’s i.MX 6ULL chip (MCIMX6Y2CVM08AB ), featuring ARM’s Cortex-A7 and power management integration.
The ATOM-060N iMX6ULL system on module provides a variety of memory configurations, including a flexible range of DDR3L, NAND, eMMC, and SD memory cards that meet our customers’ requirements. It also supports connections to various interfaces, including two high-speed USB on-the-go with PHY, dual Ethernet, audio, display with a touch panel, and serial interfaces. In addition, the system supports industrial- grade applications targeting embedded systems.
- CPU: MCIMX6Y2CVM08AB (800MHz), single-core crotexA7, 792MHz
- RAM: 512MB
- eMMC: EMMC capacity of 8GB, or NAND FLASH of 256MB
- OS: Linux (Debian, Ubuntu, .etc.)
- Interface: Ethernet, UART, I2C, SPI, CAN, I2S, USB OTG, Camera, .etc.
- Dimension: 38mm x 38mm
- Description
- Reviews (0)
Description
The ATOM-060N NXP I.MX 6ULL SoM is a small, compact, industrial-grade embedded Linux SoM based on NXP’s i.MX 6ULL ARM Cortex-A7 chip. Some key features include a variety of memory configurations such as flexible DDR3L, NAND, eMMC, and SD memory cards to meet diverse requirements, support for connections to various interfaces. The SoM is stable and reliable, having undergone high and low-temperature tests and repeated reboots for validation. It also offers Linux OS support, a wide range of development documents, and open-source software resources, enhancing development efficiency for embedded systems.
High performance and low power consumption ATOM-060N I.MX6ULL
The ATOM-060N NXP i.MX 6ULL system on moduel integrates the powerful i.MX6ULL processor, based on the ARM Cortex-A7 architecture, can reach clock speeds of up to 800MHz. This balance is made possible by the i.MX6ULL’s advanced power management architecture, which includes an integrated power management module. This not only simplifies the power supply design but also optimizes power consumption for extended battery life in portable applications .
Rich interfaces for a variety of industrial application scenarios
The ATOM-060N NXP i.MX 6ULL SoM is a powerful and feature-rich embedded system on module designed to meet diverse, high-performance industrial control, IoT, and multimedia processing needs. This development board integrates dual Ethernet ports to ensure high-speed and stable network communication capability, making it suitable for complex applications requiring high-bandwidth data transmission. In addition, the ATOM-060N NXP i.MX 6ULL SoM is equipped with various communication interfaces such as UART serial ports, I2C, SPI, CAN, providing developers with a wide range of hardware connection options for easy realization of data interaction and control with external devices.
Multiple operating system support
The ATOM-060N NXP i.MX 6ULL SoM supports a wide range of operating systems, including Linux(Debian,Ubuntu,etc). This flexibility allows developers to choose the most suitable OS for their specific application requirements, facilitating easier development and faster time-to-market. Moreover, it ensures long-term support and security updates, crucial for maintaining system integrity and performance.
Industrial wide temperature range and Low Power Consumption
ATOM-060N NXP i.MX 6ULL SoM is engineered for high reliability and low power consumption. Its rugged design and industrial temperature range support make it suitable for harsh operating conditions, while the low power design ensures cost savings in energy consumption and prolonged battery life in portable applications.
Custom Development and Embedded Board Services
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NXP i.MX6ULL SoC Block Diagram
Basic Parameters and Interfaces of ATOM-060N NXP i.MX6ULL SoM
| Item | Parameter |
|---|---|
| CPU | MCIMX6Y2CVM08AB (800MHz), single-core crotexA7, 792MHz |
| RAM | DDR3/ LPDDR3 standard 512MB |
| Memory | eMMC comes standard with 8 GB |
| Power Inpu | 5V / 0.25A |
| OS | Linux (Debian, Ubuntu, .etc.) |
| Temperature | Operating Temperature: -40°C ~85°C |
| Storage Temperature: -50°C ~ 95°C | |
| Humidity | 10~95% (Non-condensing) |
| Barometric Pressure | 76Kpa ~ 106Kpa |
| Size | 38mm×38mm |
| PCB | 8 layers, immersion gold process, independent ground signal layer |
| Peripheral | Quantity | MAX Number of Channels (with multiplexing, cannot be reached simultaneously) |
|---|---|---|
| Ethernet | 2 CH | 100 Mbps Ethernet |
| UART | 8 CH | UART1 for debugging, UART3 for tutorial serial communication |
| I2C | 4 CH | One for configuring AP3216C ambient light sensor, one for configuring LCD touch |
| SPI | 4 CH | Configured for icm20608 six-axis sensor |
| CAN | 2 CH | FlexCAN1 |
| I2S | 3 CH | I2S conflicts with JTAG pins |
| 2 CH | Used for firmware burning, supporting both host and slave modes when used with the baseboard | |
| Camera | 1 CH | supporting OV5640/2640/7725 (without FIFO) |
| JTAG | 1 CH | |
| LCD | 1 CH | RGB888 interface, supporting a maximum resolution of 1366*768 |
| ADC | 10 CH | GPIO1, can be connected to DHT11 or DS18B20 |
| PWM | 8 CH | Configured for LCD backlight |
| SDIO | 1 CH | Used for SDIO Wi-Fi or microSD card |
| GPIO | 105CH | GPIO3 is used for baseboard LEDs and can be customized with GPIO1. Additional channels can be multiplexed by modifying the device tree. |
Wide Range of Application Scenarios
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