MIO-5376 AMD Ryzen R2000 3.5″ SBC 4k display

Description

The MIO-5376 is an AMD RYZEN™R2000 Embedded Processor based 3.5″ SBC Board.

The AMD Ryzen™ Embedded R2000 processor family is built on the groundbreaking “Zen 2” x86 core architecture with innovative 7nm process technology and optimized high-performance Radeon™ graphics in an SoC design. Offering 2x generational uplift in performance per watt and 15% more instructions per clock, doubling the Core count of the AMD Ryzen Embedded V1000 Zen processors. Offering 4K60 10b Video Decode or Encode from the integrated Radeon graphics processor. The Radeon Graphics Compute Unit Count is 6 or 7 depending on CPU.

Running at 3.50 GHz, and featuring up to 8 cores and 16 threads, the R2000 Series provides unprecedented performance levels, significant design enhancements, and incredible power efficiency for embedded applications such as Thin Client, Mini PC, Edge and other systems. The AMD Ryzen Embedded R2000 SOC Processor has a planned product availability of at least 10 years.

• AMD RYZEN™ R2000 embedded Processor Family (R2314 4C/4T or R2514 4C/8T)
• Up to 32 GB LPDDR4 memory in 2x DDR4 SODIMM Modules
• 3x Intel® i225, 10/100/1000Base-T Gigabit LAN
  • 2x Ethernets support POE PSE 802.3af supply
• 1x HDMI 2.0, 1xDP1.4/DP++ (1x HDMI 2.0b 4K x 2K 60Hz, 1x DP1.4/DP++ 4096x2304x36bpp@60Hz or 5120x3200x24bpp@60Hz)
• 1x LVDS/eDP 1080P
• 1x M.2 2280 M-Key (PCIE x4 GEN3/PCIe SSD, SATA)
• 1x M.2 3042/3052 B-Key (PCIE x1 USB3.2/2.0 w/Nano-SIM)
• 1x M.2 2230 E-Key (PCIE x1 , USB2.0)
• 2x USB 3.2 Gen2, 2x USB 3.2 Gen 2, 2x USB 2.0
• 4x Serial COM (2x RS-232/422/485 & 2x RS232)

3.5″ SBC MIO-5376 delivers compute and graphics versatility and expansive I/O for electric vehicle charging systems with help from AMD Ryzen™ Embedded R2000 Processors.

DESIGNED FOR CHARGING SYSTEMS

Electric vehicles (EVs) are growing in popularity as consumers seek to reduce carbon emissions contributing to air pollution and climate change. Government mandates and tax incentives are further helping to accelerate the adoption of EVs, and this is fueling an expansion in EV charging infrastructure to meet the growing need for EV recharging alongside roadways and parking areas.

Fast and efficient vehicle battery charging stations will be essential for powering the next generation of EV fleets. The continued proliferation of EV chargers will also help to overcome consumers’ lingering EV range anxieties, giving them the confidence that vehicle recharges are conveniently available when and where needed.

RICH CONNECTIVITY

Established as a leading provider of single-board computers (SBCs) targeted for use in EV charging systems and stations. The company’s MIO series of 3.5” SBCs are ruggedized for reliable operation in harsh roadside and industrial environments and provide comprehensive industrial buses and protocol support for integrating additional devices.

This is important because an EV charging system typically integrates multiple subsystems, each using different control buses by domain preference. These subsystems can be designed to connect with voltage meters, battery control logic, external management, and payment systems – and HMI displays, just like you’d find at a gas station.

SMALL AND SCALABLE

The MIO-5376 SBCs integrate three ports of 2.5GbE (including two optional PoE ports), CANBus, high-speed UARTs (4X), and an I2C bus to help system integrators streamline their EV charger designs to reduce complexity and cost. Additionally, MIO-5376 implements the PoE function by adding one small MIOe-PSE module. The existing Ethernet ports can support up to two 15.4W connections for each port, which can deliver power and data for PoE devices, such as IP cameras in EV charging systems. This feature simplifies deployment by using only one single cable, which can reduce cabling space and installation costs. Moreover, MIO-5376 provides for state-of-the-art network expansion M.2 E-key and B-key ports to support 5G and WiFi, and an expansion slot on M.2 2280 for PCIe Gen3x4, SATA SSD storage.

The plug and play connectivity enabled by the MIO-5376 SBC helps ensure subsystems can be swapped in/out of EV charging systems with ease, flexibly accommodating modules to simplify repair/maintenance as well as future upgrades.

FLEXIBLE GRAPHICS AND POWER PROFILES

A single, small-footprint AMD Ryzen™ Embedded R2000 processor can power up to four independent displays in crisp 4K resolution leveraging DisplayPort™ 1.4, HDMI™ 2.0b, or eDP 1.3 interfaces, each supporting up to 4K60 resolution. For EV charging systems, AMD Ryzen Embedded R2000 processors can help enable flexible display and HMI configurations in space- and/or thermally constrained environments – a crucial consideration for densely clustered metro settings, particularly in hot climates.

The AMD Ryzen Embedded R2000 processors onboard the MIO-5376 SBCs are available in 15W or 25W options, to meet a diverse range of power and performance requirements. The 15W version is designed for fanless system designs and optimized for reliability and ruggedness, while the 25W version is available with an efficient slim-line cooler for EV charging systems needing an additional performance boost.

Power efficiency is paramount at every layer of the EV charging infrastructure, from processor to pump. The system modularity enabled with SBC solutions like the MIO-5376 is likewise critical for streamlining design complexity and costs, helping to ensure that EV charging stations can be economically deployed and serviced at the massive scale that’s needed to support next-generation EV fleets.

The onboard Intel i225 Ethernet controller supports IEEE 1588/802.1AS precision time synchronization for use in Time-sensitive networking. As well as IEEE1588/802.1AS Precision Time Stamping and Time stamping of network traffic. while the Hardware supports IEEE 1588 protocols the operating system must also support these communications needs. 2 Ethernet jacks support optional PSE compliant to 802.3af (15.4W per port) with external PSE power module.

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EMAC can provide software Board Support Packages (BSPs) for our Single Board Computers (SBCs) using your choice of compatible Embedded Operating Systems. Integration of the single board computer into an enclosure, adding memory, CPU, Wireless (WiFi, Bluetooth or Mesh), storage solution & loading an OS, in most cases is free with the purchase of the Single Board Computer and related components. Additionally, EMAC has LCD- Panel Kits with Touchscreen options, allowing our Single Board Computer Solutions to utilize an LCD for video output and a touchscreen replacement of a mouse for input.

The LCD Panel Kit with the Touchscreen option in conjunction with the Flash Disk, makes for a Solid State Embedded computer system that is ideal for rugged, wide temperature, and low downtime environments. If you cannot find exactly what you need from our large Off-The-Shelf selection, EMAC can potentially customize any hardware or software component, and additionally offer driver development and software application programming, providing you with the perfect fit for their SBC application needs. EMAC can provide Enclosures, I/O Modules, Peripherals, Memory, and Operating Systems for most of our x86 and ARM SBCs to make them into fully embedded systems.

EMAC supports and can install the following Embedded Operating Systems on Hard Drive or Flash Disk: Embedded Linux, Xenomi Development Framework, ROMDOS, Windows CE, and Windows Embedded Standard, Windows 10 IoT or Windows 10 IoT Core.

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