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Processor: NXP i.MX8M Mini / i.MX8M Nano
NXP i.MX8M Mini / Nano SOM is the new top-class Quad Core ARM Cortex-A53 CPU module by DAVE Embedded Systems, based on the recent NXP i.MX8 Mini / Nano application processor. The background idea with this new SOM provided by DAVE Embedded Systems is to provide customers within a FULL compatible solution with existing NXP i.MX6 Solution. With this concept, customers will be enable to jump on this new solution obtaining immediately:
The use of this processor enables extensive system-level differentiation of new applications in many industry fields, where high-performance and extremely compact form factor (67,5 mm x 43 mm) are key factors. i.MX8 Mini / Nano SOM offers great computational power with a reasonable price. For these reasons it is the right alternative to NXP i.MX6 Solutions. The main features of this new product are:
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Power Supply |
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The official evaluation kit for MITO 8M Nano SOM. This solution includes a SOM and all necesary for the fast and easy evaluation
Hello world C 
wiki
How to create and cross-compile the first C source code application: the classic Hello World.
Hello world Python wiki
An example of using the embedded Python interpreter language. The python3 is provided by default into dave-image-devel-desk DAVE Embedded Systems' standard Yocto distribution.
Flutter embedded wiki 
video
Flutter application can easily run once the flutter runtime is installed in the target.
Node.js wiki video
How to install node.js and using a GPIO or create a web server.
Date and Time wiki video
How to add an external battery-backup RTC and keep system date and time synchronized using the NTP services.
Package management wiki video
It is possible to install other - already built - packages in the target using dnf package manager.
PWMs wiki video
It is possible to configure up to 4 PWMs using the corresponding pins in the GPIOs expansion connector.
Audio wiki
Using an external USB-to-audio adapter, it is possible to add an external audio codec for an easy-to-use audio interface.
MITO 8M Nano SOM Yocto images contain a list of pre-built packages and applications. A summary of root file system images and the complete list of installed packages can be checked in the following table.
You can download MITO 8M Nano SOM brochure by clicking here.
If you’re interested in MITO 8M Nano SOM contact us to get a quotation.
The MITO 8M Nano SOM product is based on the recent NXP i.MX8 Mini/Nano application processor. Thanks to this solution, customers have the chance to save time and resources by using a compact solution that permits to reach scalable performance that perfectly fits the application requirements avoiding complexities on the carrier board. The background idea with this SOM is to provide customers within a full compatible solution with the existing AXEL Lite SOM based on NXP i.MX6 application processor.
The use of MITO 8M Nano enables extensive system-level differentiation of new applications in many industry fields, where high-performance and extremely compact form factor (67,5 mm x 43 mm) are key factors.
i.MX8 Mini/Nano SOM offers great computational power with a reasonable price. For these reasons, it is the right alternative to NXP i.MX6 Solutions.
Yes. MITO 8M Nano Evaluation Kit includes a SOM and all necessary for the fast and easy evaluation.
Here you can find the guide to unbox the MITO 8M Nano SOM Evaluation Kit that shows you how the Evaluation Kit is composed and how to unbox and connect it to your development platform.
The main features of MITO 8M Nano SOM are:
On this page you can find MITO 8M Nano SOM 3D model.
On this page you can find MITO 8M Nano SOM’s block diagram.
On this page you can find MITO 8M Nano SOM’s hardware manual.
Here you can find all the MITO 8M Nano SOM’s marketing documentation available.
MITO 8M Nano SOM module part number is identified by the digit-code table that you can find here.
DAVE Embedded Systems' goal is to grant the production continuity to its customer including the possibility to redesign its products in order to maintain the product continuity.
If you want to request support to our technical team please fill this form. After the submission, a ticket will be assigned. Our technicians will look after your request and, typically, they will respond you via email within 24 hours from the request.
DAVE Embedded Systems provides a very efficient technical support via a helpdesk ticketing system. In this video we show you all the ways you can get help from us: How to contact DAVE technical support.
Here you can find the DAVE Embedded Systems' Return Material Authorization form.
MITO 8M Nano SOM’s processor and memory subsystem are composed by the following components:
Here you can find a short description of the main MITO 8M Mini components (processor info, RAM memory bank, eMMC flash bank, NAND flash bank, memory map and power supply unit).
Yes. The PCB version is copper printed on PCB itself and the serial number is printed on a white label (please see here for further information). Also, a ConfigID is used by software running on the board for the identification of the product model/hardware configuration.
On MITO 8M Nano SOM ConfigID is stored on OTP memory.
Here you can find the connectors and pinout description of the MITO 8M Mini module.
Implementing correct power-up sequence for iMX8M Mini/Nano processors is not a trivial task because several power rails are involved. MITO 8M Nano SOM simplifies this task by embedding all the needed circuitry. Here you can find a simplified block diagram of PSU/voltage monitoring circuitry.
The PSU is composed of two main blocks: 1) power management integrated circuit 2) additional generic power management circuitry that completes PMIC functionalities.
It generates the proper power-up sequence required by the SOC processor and surrounding memories and peripherals, and it synchronizes the powering up of carrier board in order to prevent back power.
The typical power-up sequence is the following:
Here you can find a block diagram of reset scheme and voltage monitoring.
The boot process begins at Power On Reset (POR) where the hardware reset logic forces the ARM core to begin execution starting from the on-chip boot ROM.
The boot ROM:
For further information about MITO 8M Nano SOM’s boot options, please check out more by clicking here.
JTAG signals are routed to a dedicated connector on the MITO 8M Mini/Nano PCB. The connector is placed on the top side of the PCB, on the right side. Check out this page for further information.
Here you can find MITO 8M Nano SOM’s maximum ratings, recommended ratings and power consumption.
The MITO 8M Mini/Nano SOM is designed to support the maximum available temperature range declared by the manufacturer. The customer shall define and conduct a reasonable number of tests and verification in order to qualify the DUT capabilities to manage the heat dissipation. Any heatsink, fan etc shall be defined case by case.
DAVE Embedded Systems' team is available for any additional information, please contact sales@dave.eu or check this page for further information.
Here you can find the mechanical characteristics of the ORCA module.
Yes. DAVE Embedded Software Kit Linux (DESK-MX8M-L in short) provides all the necessary components required to set up the developing environment to:
Click here for further information about DESK-MX8M-L.
Yes, we have our Longevity Program based on Silicon Vendors' Longevity Program. For MITO 8M Nano see this page.
In this video, we explain how to check the longevity of DAVE Embedded Systems' products: DAVE Embedded Systems / HOW TO - How to check product Longevity.
Welcome to the DAVE Embedded Systems' Documentation system. Please fill in with required information and you will get your document! Thank you!.
