The document will give a reference design for those i.MX6 users who wants to use GPIO to control relays. Actually, it is not difficult to reach the purpos on hardware design, But if hardware engineer doesn't notice the PAD status after Power On Reset, Relays will produce unexpected action, For example, if using those pins with "PU 100K"(Pull Up by 100K), or "keeper", After power on and before system booting, relays begin to be operated(unexpected close or open)     In recent days, one of imx6 user encoutered the similar issues when she debugged "GPIO control 32-channel relay output). So I drew a schematic on hwo to design Isolated GPIO, and how to use GPIO to contorl 24V-relay. In schematic, 8-channel GPIOs & Relays were supported.     From i.mx6 datasheet, we can find most of PADs' status are "PU 100K", so in schematic, 8 GPIOs are all those PADs with "PU 100K". The following is design requirement: (1) Turth table. GPIO output  1 -------Relay  Close GPIO output  0 -------Relay  Open GPIO default 0 ------ Relay  Open (2) GPIO should be Islated by optocoupler (3) 8-Channel ,24V digital signals output See attachment, please! Schematic is reference for i.mx6 users! If you have some questions or good advice on the design, you can submit case to me by our official website. NXP TIC Weidong Sun Email: weidong.sun@nxp.com

We introduced a new modular embedded Linux board running a i.MX6 processor as part of our HIO Project, a development effort backed by HABEY to create expandable modular embedded computer building blocks that can be used across the entire product development cycle, from evaluation, development, prototyping to finish product.  This i.MX6 core-board is a fully functional embedded board that is designed to fit in a 2-gang electrical wall outlet box. Its has eight 50-pin female headers on the top and bottom of the board which allows 3-dimensional expansions by adding modules like building Lego bricks. To showcase this Lego-like modular embedded Linux board design, HABEY launched a Kickstarter campagin (http://kck.st/1HroOaW) that features a i.MX6 POE ready 7” modular in-wall touch computer based on the core-board and two other modules with Yocto embedded Linux or Android. For more information on our modular i.MX 6 solutions, please check http://hioproject.org/ and http://www.habeyusa.com/embedded-arm-boards/

iWave Systems, one of the early adopters of i.MX6 technology has designed i.MX6 based network switch/router solution. The task involved the design and development of a custom carrier card for our i.MX6 Qseven Module, the carrier card also consists of microcontroller. Together with the i.MX6 Qseven module and carrier card, the solution provides router capabilities. i.MX6 based Router Solution The carrier card was designed by iWave to meet the network Router requirement using iWave’s i.MX6 Qseven SOM. The Wi-Fi modules and GPRS modules (mini PCIe form factor) were interfaced to the PCIe 2.0. With the Gigabit Switch connector, the board supports four RJ45 connectors. Totally, there are six Mini PCIe slots available, accommodating both PCIe and USB signals. Microcontroller, in the carrier card, monitors parameters like voltage levels and power status. It also provides user interface by controlling appropriate LED’s to indicate which mini PCIe module is active. Block Diagram iWave’s i.MX 6 Qseven SOM is connected to the PIC Microcontroller through I2C. Connection is in such a way that iMX6 processor, as a Master and PIC microcontroller, as a Slave. Master and Slave to communicate effectively, iWave has designed a unique customized Communication Protocol in which master (iMX 6) will control the peripherals connected to slave (PIC) through protocol commands. iWave also implemented a software in our Qseven  module that enables the upgrade of the microcontroller firmware. For further information or inquiries please write to mktg@iwavesystems.com or contact our Regional Partners website: www.iwavesystems.com

iWave offers i.MX6 Qseven modules with latest 3.10.17 based Linux kernel with Yocto support. This official Yocto release is based on 3.10.17 kernel. The BSP will support for all the variants of i.MX6 CPU, i.e Quad, Dual, Dual Lite and Solo Qseven modules. The alpha release for the same is now available on request. This release supports the below features on our Qseven Development Platform: Freescale i.MX6 Q/D/DL/S CPU DDR3 SDRAM SPI Boot flash eMMC Flash Debug Console SD Ports USB Ports Ethernet PCIe HDMI 7”LVDS display For further information or enquiries please write to mktg@iwavesystems.com or visit our website www.iwavesystems.com

Here's what Adeneo Embedded's engineers are capable of : Fastbooting an OpenGL application on Freescale's i.Mx6q Sabre SD

Issue description: ZQ calibration issue with LPDDR2 memory with two chip selects    Micron has verified it on my customer's board with i.MX6Q. (ECT-SYT-1163 for FIC.pdf) The patch is made based on lp 5.1, see attachment.

iWave provides Android Lollipop and Linux 3.14 kernel BSP upgrades for its i.MX6 based products. iMX6 Board: From the launch of i.MX6 application processors, iWave Systems, a global leading SOM supplier has launched many variations of i.MX6 CPU modules and an SBC board catering to Industrial, automotive and medical applications. Complying with the Qseven R2.0 specification, the i.MX6 Q7 SOM supports industrial grade operation with 70mmx70mm size. The i.MX6 MXM SOM supports automotive grade i.MX6 CPU and the automotive specific interfaces with 314 pin MXM2 connector pinout in 85mmx85mm form factor. The recently launched i.MX6 SODIMM SOM module supports both commercial & industrial operating temperature with very compact form factor of 67.6mmx37mm. iMX6 Board Single Board Computer: Measuring 100mmx70mm, the Pico ITX size i.MX6 SBC board supports on-board connectors for all the i.MX6 interfaces with option to expand IOs through expansion connector.  All these three different form factor System on Modules and Single Board Computers are supported with different i.MX6 CPU variations such as Quad, Dual, Dual Lite & Solo. Besides this i.MX6 Qseven modules also supports i.MX6 Quad Plus and i.MX6 Dual plus CPU configurations. To enable quick prototyping of these different form factor SOMs, iWave systems supports independent development kit variation for each form factor SOMs with Linux, Android and WEC7* BSP support. These development kits help customer to save up to 60% of new product development cycle sothat the quick time to market can be achieved. All these i.MX6 products are getting Android Lollipop and Linux 3.14 kernel BSP upgrades which will be available for customers by the first quarter of 2016.

These videos demonstrate an example application of a fully cloud-enabled and location-aware mass transport demo built on Freescale's i.MX5x platform with a HD passenger information display, PCAP touch enabled driver control display, and mobilde device (Android phone) integration. The demo showcases how Android provides the potential of significantly shortening the development cycle and accelerating your time-to-market. The demo is based on the Digi ConnectCore i.MX53 System-on-Module solution and was built using our Embedded Application Development Kit for Android (Gingerbread). Smart Tech for Passenger Buses by Digi International - Design West (ESC) 2012 - YouTube - The ARM video interview at Design West Android Bus Demo - YouTube  - The official Digi video overview Visit www.digiembedded.com for additional information, including a special i.MX53 Android Development Kit kit offer for $199. --- VDC Research Awards Digi Best of Show at Embedded World 2012 for Android Application Development Kit with iDigi Device

The video gives an introduction of MYIR's MYS-6ULX Single Board Computer which is powered by 528MHz NXP https://community.nxp.com/tags#/?tags=imx%206ul / https://community.nxp.com/tags#/?tags=imx6ull ARM # Processor, specially designed for Industry 4.0 (Industrie 4.0) and Internet of Things (https://community.nxp.com/tags#/?tags=iot%3B) applications. More information can be found at MYIR's website: http://www.myirtech.com/list.asp?id=561                               MYS-6ULX Single Board Computer                       A Complete Embedded System based on NXP i.MX 6UL/6ULL Solution

Digital Signage is an application that the i.MX6 processor is the perfect fit. With the hardware encoding and decoding, video outputs and inputs and processing power, using the i.MX6 for Digital Signage is very popular!

Hey guys! Here's Adeneo Embedded's Cube OpenGL demo of the WEC7 Congatec board!   Enjoy !

As part of a close collaboration with Freescale, Adeneo Embedded is releasing Freescale i.MX6 BSPs for Windows Embedded Compact 7 on a set of hardware devices :   i.MX6 Nitrogen6X i.MX6 SabreLite i.MX6 Sabre SDB i.MX6 Sabre SDP Share, subscribe and don't forget to comment !

MYIR has released a cost-effective and power-efficient ARM Evaluation Kit (EVK) MYD-IMX28X for Freescale i.MX28 family of multimedia applications processors which has an ARM926EJ-S Core, with speed up to 454 MHz. The board can support running Linux operating systems, which allows developers to use it as an i.MX28 reference platform to quickly start their own design. The board takes full features of the i.MX28 ARM processor and has exposed a comprehensive set of peripherals and connectivity options to make the board suitable for smart gateways, human-machine interfaces (HMIs), handheld devices, scanners, portable medical, experimental education and more other industrial applications. The MYD-IMX28X Development Board is using the MYC-IMX28X CPU module as the heart of the system which is an ARM9-based system-on-module (SOM) integrated with the i.MX28 processor, 128MB DDR2 SDRAM, 256MB Nand Flash and Ethernet PHY. It is connected to the base board through two 1.27mm pitch 80-pin connectors. The base board has extended many peripherals and interfaces through headers and connectors, featuring 1 x RS232, 1, Debug, 2 x USB ports, up to 2 x Ethernet, 1 x CAN, 1 x RS485, TF, Audio, LCD, JTAG, etc. MYD-IMX28X Development Board MYC-IMX28X CPU Module MYIR offers the board with Freescale i.MX283 or i.MX287 ARM9 CPU by default; user can integrate a different MYC-IMX28X CPU module on the same base board, thus making two variants of i.MX28 evaluation boards. MYD-IMX283 Development Board – with MYC-IMX283 CPU Module for Freescale i.MX283 MYD-IMX287 Development Board – with MYC-IMX287 CPU Module for Freescale i.MX287 The MYD-IMX283 and MYD-IMX287 boards only have a few differences as described in below table: Model MYD-IMX283 MYD-IMX287 Processor i.MX283 i.MX287 CAN 0 2 Ethernet 1 2 The MYD-IMX28X board comes with Linux2.6.35 software packages, detailed documents, necessary cable accessories as well as optional 4.3- and 7-inch LCD (with touch screen) to provide a complete Freescale i.MX28 starter kit and enable a quickly start of evaluation of i.MX28 family applications processors.

Single Board Computers have always enjoyed serious attention in the field of Embedded Systems design. Ever since its introduction, its main intention was to devise a computer to inspire students to take up many new projects to explore the rich and wide world of Embedded Systems. With products like i.MX6 Pico ITX SBC, i.MX50 Quick Start Board, i.MX27 & PXA 270 SBCs, we at iWave Systems, are clearly a global competitor when it comes to promoting powerful ARM Cortex Single Board Computers. i.MX6 Pico ITX SBC: iWave's i.MX6 Dual Lite/Solo based Pico ITX SBC comes with all standard interfaces loaded into a single board with ultra-compact yet highly integrated platform that can be utilized across multiple embedded PC and industrial designs. It also provides an expansion header through which interfaces can be used according to their applications, measuring at just 100mm x 72mm. Pico ITX Advanced Learning Platform: As our product was aimed at inspiring young engineers to take up several projects in the field of Embedded Systems design iWave systems came up with a versatile and well equipped peripheral daughter board which can be plugged to the iWave’s i.MX6 Pico ITX SBC. This peripheral daughter board provides the extension to the I.MX6 Pico ITX board to evaluate several new display, sensor, communication & IO interfaces. The i.MX6 ARM Cortex A9 Pico ITX SBC with peripheral daughter board forms a powerful starter kit for the university students to plug & play several hardware & software components and make many new innovative concepts. The main interfaces supported by peripheral daughter board are as follows: Display Interfaces: A combination of a 7” TFT LCD display, 16x2 Character LCD and a 4 digit 7 segment display for display centric applications. Communication Interfaces: Additional RS232 & CAN ports for standard communication between external devices. Sensor module: Aimed specifically for engineering project works with various sensors like Ambient light sensors, Proximity sensors, Temperature sensor, Accelerometer and Magnetometer Motor Interface: A single driver that is capable of either driving two DC motors or a single Stepper motor Keypad Interface: Keypad scanner and a 4x4 keypad connector support External interfaces: The peripheral daughter board also following several interfaces CMOS camera interface support available on 17x2 row connector MIPI DSI interface support available on 10 pin MIPI connector SPI interface available on 6 pin SPI header Dual UART interface available on the 6 Pin UART header i.MX6 based Pico ITX Educational Kit For more information please contact: mktg@iwavesystems.com Website: www.iwavesystems.com

http://www.eefocus.com/bbs/index.php freescale i.mx53 i.mx6x second domestic:  first family of solutions of wince7 platform based freescale imx6s/d/q. 项目 性能介绍 CPU Freescale i.MX6 Solo ARM Cortex A9(1.0 GHz,512KB L2 Cache) Freescale i.MX6 Dual ARM Cortex A9(2 x 1.0 GHz,1MB L2 Cache) Freescale i.MX6 Quad ARM Cortex A9(4 x 1.0 GHz,1MB L2 Cache) Freescale i.MX6 DualLite ARM Cortex A9(2 x 1.0 GHz,512KB L2 Cache) 内存 高达1 GB的板载LV-DDR3内存，1066 MT/s Up to 4GB LV-DDR3（可选） 图形 Integrated in Freescale i.MX6 Series Video (VPU), 2D Graphics (GPU2D) and 3D Graphics (GPU3D), 3D graphics with 4 shaders up to 200MT/s dual stream 1080p/720p decoder/encoder. OpenGL 2.0, OpenVG 1.1 processing unit 视频解码 HDMI1.4 HDMI interface (resolution up to 1080p) 2个LVDS（1×18位）/1个LVDS（2×24位）Up to 1920x1200 支持18位和24位双通道高达WUXGA1920x1200@60Hz 支持的视频格式 MPEG2 MP, HP MPEG4 SP H.264 VC-1 DivX 大容量存储 eMMC 4GB ,Up to 32GB（可选） 1 x SATA II(3GB/s) (only with i.MX6D and i.MX6Q) 以太网 1 x Gbit Ethernet 10/100/1000BaseT 接口资源 1 x USB OTG 4 x USB 2.0 HOST 2 x SDIO(1个SD Card Slot，1个SDIO作为WiFi通信接口) 1 x PCIe 2.0 (1 lanes) 3 x I2C Bus 1 x SPI Bus 1 x CAN Bus 5 x UART(UART4,5 With HW Flow control) 1 x 8*8 Matrix keyboard 1 x HDMI 2 x LVDS(3 Lanes) 1 x DSI(2 Lanes) 1 x I2S 1 x ONFI(NAND Flash IO) 1 x CSI-2(2 Lanes) （可选，通过FFC排线引出） 1 x Camera interface(parallel 8bit)（可选，通过FFC排线引出） 1 x 16/24bit LCD TTL Level（通过FFC排线引出） GPIO 音频 I2S RFID 13.56MHz频段天线一体化模块，简单的只读卡号模块，支持串口协议 其它 看门狗定时器 内置看门狗复位电路 JTAG调试接口 CAN接口 SPI NOR Flash 4MB (Bootloader) 操作系统 Windows CE7.0 Linux 温度 工作温度：  -20°C to +70°C (opt. -40 to +85°C) 存储温度：  -40 to +85°C 湿度 工作湿度： 10 to 90% r. H. non cond. 存储湿度： 5 to 95% r. H. non cond. 电源 DC +12V ± 5% 尺寸 180 x 130 mm 深圳市科通通信技术有限公司 Comtech Communication Technology(ShenZhen)Co.,Ltd josephwang 王伟 深圳市南山区高新技术产业园南区创维大厦C15 9/F,Tower C,Skyworth Building,High Tech Industrial Park,Nanshan Shenzhen,518057,PRC 电话：+86755-26013210  +8613128865181 mail：106224654@qq.com   josephwang@comtech.com.cn

MYD-JX8MX development board based on NXP i.MX8M quad processors provides powerful multi-media functions including dual displays, dual cameras, high-quality audio, etc. The target applications scale from consumer home audio to industrial building automation and mobile computers requiring high-performance and low-power processors. Highlights: - MYC-JX8MX CPU Module as Controller Board - NXP i.MX 8M Quad Application Processor - 1GB / 2GB LPDDR4, 8GB eMMC Flash, 256Mbit QSPI Flash - RS232, 4 x USB 3.0 Host, 1 x USB 3.0 Host/Device, PCIe 3.0 (x4) NVMe SSD Interface, TF Card Slot - Supports Gigabit Ethernet, WiFi/BT and 4G LTE - 2 x MIPI-CSI, HDMI, 2 x LVDS, MIPI-DSI, Audio Input/Output