NXP i.MX6ULL is a high-performance, low-power, cost-effective processor series, based on ARM Cortex-A7 core, the main frequency can reach 900MHz. The i.MX 6ULL applications processor includes an integrated power management module that eliminates the need for an external PMU, reduces the complexity of external power supplies, and simplifies power-up sequencing. Each processor in this family offers a variety of memory interfaces including 16-bit LPDDR2, DDR3, DDR3L, NAND Flash, NOR Flash, eMMC, Quad SPI and various other interfaces for connecting peripherals such as WLAN, Bluetooth® , GPS, display and camera sensors.
In order to accelerate the product design based on NXP i.MX6ULL and i.MX6UL chips, Zhuhai Mingyuan Zhirui Technology and NXP have launched a high-quality and cost-effective core platform MY-IMX6ULL series core board and MY-IMX6ULL series development board . This series of products are mainly for industrial control and communication, HMI, smart medical, IoT gateway and other applications. The bulk price of the MY-IMX6ULL core board is only 99 yuan , and the product life cycle is as long as 10 years! Provides a combination of optimal performance and optimal cost for a wide range of engineers and enterprise users.
The MY-IMX6ULL core board adopts high-speed 8-layer PCB and high-density stamp hole interface. The board is equipped with i.MX6ULL/i.MX6UL main chip, high-speed DDR3, NAND Flash ( or eMMC) and Ethernet port PHY chip, and provides a total of 140-pin signal lead-out interfaces such as serial port, CAN, SPI, ADC, PWM, I2S, Camera, JTAG, LCD, I/O, etc. The MY-IMX6ULL core board adopts a high protection shield to further improve the protection level. At the same time, the core board has undergone strict performance tests to ensure long-term reliable operation of the product in various complex environments.
As a technical design partner of NXP, Zhuhai Mingyuan Zhirui Technology also provides software and hardware customization services based on i.MX6ULL/i.MX6UL to support customers to accelerate product design based on this series of chips.