Vision Boards

UDOO VISION SBC with Intel Atom x5-E3940 or x7-E3950 CPU affords Arduino Leonardo compatibility

UDOO VISION single board laptop is powered by both an Intel Atom x5-E3940 or x7-E3950 Apollo Lake processor and options the identical Microchip ATmega32U4 8-bit AVR microcontroller discovered within the Arduino Leonardo board to regulate GPIOs.

Two variations of the Pico-ITX SBC can be found: the X5 with an Atom x5 processor, 4GB RAM, 32GB eMMC flash, and the X7 with an Atom x7 processor, 8GB RAM, and 64GB eMMC flash. Each include miniDP++ and eDP imaginative and prescient interfaces, two Gigabit Ethernet ports, USB ports, M.2 sockets for enlargement, and a 26-pin header with the identical alerts as within the Arduino Leonardo board.


SoC UDOO VISION X5 – Intel Atom x5-E3940 quad-core Apollo Lake processor @ 1.6 / 1.8 GHz (Turbo) with 12EU Intel HD Graphics 500 sequence; 9.5W TDP UDOO VISION X7 – Intel Atom x7-E3950 quad-core Apollo Lake processor @ 1.6 / 2.0 GHz (Turbo) with 18EU Intel HD Graphics 500 sequence; 12W TDP

System Reminiscence and Storage UDOO VISION X5 – 4GB LPDDR4 (quad-channel) and 32GB eMMC flash UDOO VISION X7 – 8GB LPDDR4 (quad-channel) and 64GB eMMC flash Widespread – M.2 Key-B 2242/3042/2280 for SATA SSD module, SATA III connector, microSD card slot

MCU – Microchip ATmega32U4 8-bit AVR microcontroller @ 16 MHz with 2.5 KB SRAM, 32 KB flash, 1 KB EEPROM

Video interfaces 1x embedded DisplayPort (eDP) 1x Mini DisplayPort++ (miniDP++) with CEC

Audio Cirrus Logic CS4207 audio codec Microphone and headphone combo connector (TRRS)

Networking 2x Gigabit Ethernet RJ45 ports Elective WiFi and Bluetooth by way of M.2 Key-E slot Elective mobile connectivity by way of mini SIM card slot (shared with microSD) and M.2 Key B slot (sort 2260/3042 modules accepted); be aware: it’s the identical M.2 Key-B slot as within the storage part above

USB – 2x USB 3.0 Sort-A ports, twin USB 2.0 header

Serial – RS232/RS422/RS485 UART header (COM port)

Growth 26-pin GPIO header with Arduino Leonardo I/Os As much as 23x digital enter/output (7x PWM) As much as 12x analog inputs (10-bit decision) 5V I/Os with a most of 40 mA DC present per pin. Help for traditional Arduino R3 pinout by way of I/O protect 5-pin GPIO header

Misc RTC coin-cell battery connector Bi-color Energy Standing LED Button/change header IR interface 3-wire fan connector

Energy Provide – 12V (± 5%) DC / 3A by way of commonplace 5.5mm/2.1mm barrel jack

Dimensions – 100×72 mm (Pico-ITX type issue)

UDOO says the VISION board helps Home windows 10, 8.1, 7 64-bit, and Linux, and it’s additionally appropriate with the Intel OpenVino toolkit for AI purposes. The ATMega microcontroller is linked over USB to the Apollo Lake processor so from the person’s viewpoint it might be like having an Arduino Leonardo board linked to a laptop computer or laptop. There’s detailed documentation for the board, however on the time of writing, a few of it appears to be like to be out-of-date and made for an earlier revision of the board.

The corporate claims the VISION SBC is “Arduino Leonardo-Appropriate by means of the usual Arduino Pins format and appropriate with Arduino shields”. That’s considerably true, however opposite to a few of their earlier boards just like the UDOO X86 II that may straight take Arduino shields, you’d want to attach an I/O protect (which I couldn’t discover) to have the ability to do the identical with the UDOO VISION.

Another fascinating design decisions are the miniDP++ and eDP video output interfaces, and utilizing an M.2 Key B socket for the SSD or mobile connectivity. UDOO recommends the Transcend MTS600SATA SSD for the board. There’s a big heatsink positioned beneath the board as you possibly can see within the introduction video under.

The UDOO VISION single board computer systems can be found now for $349 for the X5 mannequin and $419 for the X7 mannequin with costs excluding VAT, taxes, and transport.

Jean-Luc began CNX Software program in 2010 as a part-time endeavor, earlier than quitting his job as a software program engineering supervisor, and beginning to write day by day information, and evaluations full time later in 2011.