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MPS taps EPC for 48V GaN DC-DC converter

Posted on by mixos

The combination of MPS (Monolithic Power Systems) controllers with ultra-efficient eGaN® FETs from EPC (Efficient Power Conversion) enable best-in-class power density of 1700 W/in3 in high efficiency, low cost LLC DC-DC Conversion

Monolithic Power Systems, Inc. (MPS), a leading company in high-performance power solutions, announced the launch of a new family of 48 V – 6V digital DC-DC power modules for 48 V Data Center Solutions, utilizing eGaN® transistors from Efficient Power Conversion (EPC) Corporation. These power modules target applications for high-density computing and data centers, artificial intelligence, machine learning, and multi-user gaming.

MPC1100-54

  • 48 V – 6 V
  • LLC 10:1
  • 300 W
  • 27 mm x 18 mm
  • 1700 W/in3

The MPC1100-54-0000 is the first in the new product family that will include modules in an LLC topology that utilize eGaN FETs to achieve an overall efficiency above 97% in a footprint of only 27 mm x 18 mm x 6 mm for 48 V – 6 V conversion.  A key advantage of 48 V – 6 V front-end conversion includes the enabling of a high-frequency secondary stage that is small enough to be placed much closer to the xPU/ASIC/GPU to reduce the power distribution loss by 4x compared to the commonly used STC topology for 48V – 12V conversion.

For high-density server applications, record power density and efficiency can be achieved with simple, low-cost topologies such as an LLC DC-DC converter. eGaN FETs are well suited for LLC converters due to their combined low gate charge with 5 V gate operation that yields very low gate power consumption, ultra-low on-resistance, and low output capacitance charge.

With power levels ranging from 300 W to 1000 W, these modules are scalable to accommodate a range of high current and high power applications. Customers can add up to three modules to address higher power requirements, or scale down to one or two modules for lower power requirements.

“The 48 V – 6 V module family offers an extremely powerful and versatile solution set for high-performance computing, high-density data centers, and artificial intelligence systems migrating to the 48 V power distribution architecture,” said Maurice Sciammas, Sr. VP Marketing & Sales, MPS. “With the EPC devices inside our modules, we can increase power density significantly to meet the demanding requirements of these advanced applications.”

“Advanced computing applications are putting higher demands on power converters, and silicon-based power conversion is not keeping pace,” said Alex Lidow, CEO of EPC. “We are delighted to work with MPS, a leader in this space, to implement GaN into their modules, allowing customers to increase the efficiency, shrink the size, and reduce system cost for 48 V power conversion.”

more information: https://epc-co.com/

ams Introduces World’s First AEC-Q102 and ISO 26262 Compliant VCSEL Flood Illuminator

Posted on by mixos

ams announced the pre-release of the new TARA2000-AUT family of VCSEL (Vertical-Cavity Surface-Emitting Laser) flood illuminators for automotive applications. According to the company, the TARA2000-AUT flood illuminators are the industry’s first to be qualified to the AEC-Q102 automotive quality standard and the ISO 26262 functional safety standard.

The TARA2000-AUT products are ideal for new optical in-cabin sensing (ICS) systems based on 2D NIR imaging or 3D time-of-flight sensing which support the next generation of assisted and autonomous driving technologies in vehicles.

In Driver Monitoring Systems (DMS) high optical power distributed over the whole field of illumination (FOI) means that a single TARA2000-AUT illuminator can replace multiple lower-power emitters. This offers automotive OEMs savings in space, component count, and cost. With peak optical output centered at 940nm and a narrow spectrum, the TARA2000-AUT also makes it ideal for automotive OEMs to achieve high immunity to interference by sunlight.

Features

  • >4W optical output power in a pulsed mode
  • 4 product configurations fitting different in-cabin sensing applications
  • High power conversion efficiency
  • AECQ-102 and ISO26262 ASIL A compliant
  • 2D barcode for unit level traceability

The TARA2000-AUT is also available with an ultra-wide FOI to give responsiveness in gesture-sensing applications for use by both the driver and passengers. The wide-FOI version is also suitable for interior monitoring systems.

Automotive manufacturers can take assurance from ams’ vertically integrated manufacturing model for VCSEL illuminators, which enables ams to make high-volume production commitments without depending on third parties for key elements of its product. The TARA2000-AUT is a combination of a VCSEL emitter designed and manufactured in-house by ams, and an optical diffusor made with proprietary ams micro-lens array technology, all integrated into a single module.

Matching the micro-optics to suit the characteristics of the VCSEL emitter, the illuminator produces a uniform beam with edge-to-edge high-power illumination over a rectangular field. This tightly controlled illumination profile and FOI match the field of view of the IR image sensors used in 2D and 3D systems, so increasing the strength and integrity of the reflected optical signal.

The TARA2000-AUT family of illuminators offers two wavelength options:

  • 850nm for systems requiring maximum sensitivity at the CMOS image sensors
  • 940nm to avoid visible red glow and interference from sunlight

Depending on the wavelength of choice, TARA2000-AUT is available with an ultra-narrow, narrow, or ultra-wide FOI.

For more information, visit: https://ams.com/TARA2000-AUT

ADG5401F SPST Switch has Low ON resistance

Posted on by mixos

Analog Devices’ ADG5401F fault protection,10 Ω Ron, SPST switch with 1 kΩ feedback channel

ADI’s ADG5401F is a single-pole/single-throw (SPST) low on-resistance switch that features overvoltage protection, power-off protection, and overvoltage detection on the source pin. The ADG5401F also features a protected feedback channel for use with digital to analog converter or amplifier outputs.

When no power supplies are present, the switch remains in the off condition, and the switch inputs are high impedance. When powered, if the analog input signal levels on the S pin exceed VDD or VSS by a threshold voltage (VT), the switch turns off, the normally high fault flag (FF) pin drops to a logic low, and a high resistance path between D and DFB is switched on to prevent an open-loop condition on an amplifier output. Input signal levels up to +60 V or -60 V relative to ground are blocked in both the powered and unpowered condition. The selectable POC function allows the protected switch terminal, S, to be driven to GND to prevent glitches on the output. The switch turns on with a Logic 1 input and conducts equally well in both directions. The digital input is compatible with 1.8 V logic inputs over the full operating supply range.

Features

  • 3 mm x 2 mm LFCSP analog I/O protection and detection solution
    • Overvoltage protection up to ±60 V on source pins
    • Power-off protection up to ±60 V on source pins
    • Overvoltage detection on source pins
    • Integrated 1 kΩ feedback loop for outputs
  • Fault propagation eliminated from supply/signal path
    • No current shunted to supplies during fault condition
    • Removes fault power dissipation
  • Known and stable output under all conditions
    • User enabled power-on condition pulls source to 0 V
    • Known state without digital inputs present
  • Optimized resistance for measurement channel and feedback loop
    • Low on-resistance of 10 Ω typical on signal channel
    • Low on-resistance flatness on signal channel
    • 1 kΩ resistance on feedback channel
  • 5.5 kV human body model (HBM) ESD rating
  • Latch-up immune under any circumstance
  • VSS to VDD -2 V signal range
    • Fully specified at ±15 V, ±20 V, +12 V, and +36 V
    • ±5 V to ±22 V dual supply operation
    • 8 V to 44 V single-supply operation

more information: https://www.analog.com/en/products/adg5401f.html

The OSLON® UV series is designed to provide efficient UV-C radiation

Posted on by mixos

OSRAM OSLON® UV 3636 SU CULBN1.VC & SU CULDN1.VC LEDs

Imagine a world in which light makes your everyday life healthier, safer, and more pleasant. With UV-C solutions powered by OSRAM OS, this vision becomes reality.

The OSLON® UV series is designed to provide efficient UV-C radiation. It allows flexible designs for various types of UV-C applications in the areas of air, water, and surface disinfection and purification, as well as treatment or sensing. Design possibilities are endless, and range from point-of-use water treatment, automotive interior disinfection to air purification in portal devices or air conditioning systems. The portfolio will expand into the high power range in spring 2021.

Key features

  • Color: typ. λpeak = 275.0 nm (UV-C)
  • Package: ceramic package with integrated glass cover
  • Radiant Flux: typ. 4.7 mW (low-power), typ. 42mW (mid-power)
  • Radiant Efficiency: typ. 2.6 % (low-power), typ. 2.1% (mid-power)

Additional features

  • Environmentally friendly:
    • UV-C LEDs are environmentally friendly. Unlike mercury lamps, UV-C LEDs do not contain hazardous materials.
  • Purification and disinfection without the use of chemicals
  • ESD: 2 kV acc. to ANSI/ESDA/JEDEC JS-001 (HBM) (low-power)
  • ESD: 5 kV acc. to ANSI/ESDA/JEDEC JS-001 (HBM) (mid-power)
  • Typ. Radiation: 120° (Lambertian emitter)
  • Chip technology: AlGaN based Flip chip

more information:

LED Fading Effect / LED Strobe using 555

In general, generating an LED fade effect requires a microcontroller or another expensive circuit. We have built this low-cost LED fading board using an inexpensive 555 Timer. The 555 timer is used as an astable multivibrator, which generates low-frequency pulses, further, this pulse train is feed to the base of BJT transistor TIP122 with a series resistor along with a high-value electrolytic capacitor. The combination of resistor R5 and capacitor C6 at the base of Q1 gradually increases and decreases the base voltage which provides soft ON/OFF (Ramp) to the load. The circuit can drive a load up to 18W without heatsink. An onboard potentiometer is provided to adjust the frequency of flash. Connector CN1 DC is for 12V Input, Connector CN2 is provided to connect the LED. This circuit also can be used as a LED Strobe Light and covert a regular 12V LED Light into a Flashing Strobe Light with few changes of components.

This circuit can be used as a high-power LED Strobe with the following modifications:

  • Do Not Populate C6
  • Use R5 2K2 Ohms SMD Size 0805
  • Use R6 0 Ohms
Note 1: This circuit can drive 12V LED directly, thus use R1, R3, R4 at 0 Ohms, to drive bare LED choose appropriate series resistor R1, R3, and R4 as per LED load current requirement.
Note 2:  The circuit is built for low-frequency operation, to use as a high-frequency flasher choose C4 10uF /25V or lower capacitance.

Features

  • Operating Supply 12V DC
  • Load 1.5A Continues (Max)
  • Frequency 1Hz to 5Hz Adjustable (Approx.)
  • Header Connector for Power Supply and LED
  • Large Thermal Area on PCB provided for heat decapitation
  • PCB Dimensions 60.48x 49.53 mm

Schematic

Parts List

SR.QNTY.REF.DESC.VENDOR/DIGIKEY/MOUSER
11CN14 PIN MALE HEADER 2.54MM PITCHDIGIKEY S1011EC-40-ND
21CN24 PIN MALE HEADER 2.54MM PITCHDIGIKEY S1011EC-40-ND
32C1,C50.1uF/50V SMD SIZE 0805YAGEO
41C2DNPOMIT
51C3100uF/16V SMD SIZE 1210YAGEO
61C4100uF/25V OR 16V ELECTROLYTICDIGIKEY 493-13451-1-ND
71C6220uF/16V OR 25V ELECTROLYTICDIGIKEY 732-8797-1-ND
81PR1100K PRESETDIGIKEY 3362P-104LF-ND
91Q1TIP122DIGIKEY 497-2543-5-ND
103R1,R3,R40.1E OR 0E 5% SMD SIZE 2512YAGEO
111R210K 5% SMD SIZE 0805YAGEO
121R533K 5% SMD SIZE 0805YAGEO
131R60E SMD SIZE 0805YAGEO
141U1NE555 SOIC8DIGIKEY 296-6501-1-ND

Connections

Gerber View

Photos

Video

NE555 Datasheet

Axiomtek’s DIN-Rail Modular Network Appliance Empowers Industrial IoT Security – iNA600

Posted on by mixos

Axiomtek – a world-renowned leader relentlessly devoted in the research, development and manufacture of series of innovative and reliable industrial computer products of high efficiency – is proud to announce the iNA600, a DIN-rail industrial-grade network appliance with a built-in 16-port Layer 2 managed switch for use in edge AI inference, cybersecurity and function virtualization. This rugged system is powered by the Intel® Core™ i9/i7/i5/i3 and Xeon® processor (Coffee Lake) and supports two DDR4-2666 U-DIMMs for up to 32GB of non-ECC/ECC memory. To boost the performance of various workloads, including massive data transition, computing acceleration and edge AI computing, this future-ready network communication platform supports NVIDIA® MXM GPU card and Intel® Movidius™ M.2 VPU card. Through the modular slot design, the efficient iNA600 can be fast integrated and flexibly applied to the IIoT world.

“While the industrial systems become more connected, they are being exposed to more vulnerabilities. Axiomtek’s iNA600 features a 16-port L2 managed switch (8-port PoE for optional) which ensures the data flows at a pace that will not overwhelm the sending and receiving devices. In addition, this industrial IoT edge computing platform supports Intelligent Platform Management Interface 2.0 (IPMI 2.0) to monitor data transition and operations between servers or systems. It also supports Trusted Platform Module 2.0 (TPM 2.0) to securely store critical data. This industrial-grade network appliance aims to fulfill system integrators’ needs and meets the changing demands of diverse industrial IoT applications,” said Gordon Cho, a product manager of the Network Computing Platform Division at Axiomtek. “The durable iNA600 is built to withstand harsh operating environments with a wide operating temperature range of -20°C to 60°C. It also has a 24V DC terminal block power input.”

The iNA600 has a built-in L2 managed switch with sixteen 10/100/1000 Mbps Ethernet ports with optional eight PoE ports for optimized network performance. To meet different customization requirements, the advanced iNA600 is expandable with an optional module slot upon request. It also supports one PCIe Mini Card slot (USB + PCIe interface), one PCIe x8 MXM slot for GPU card (optional) and two PCIe x4 M.2 or mPCIe slot for VPU (optional). It is equipped with two 2.5″ SATA 3.0 SSD and one SATA DOM for storage. Exclude the features mentioned above, more I/O options include four GbE ports (one is sharing with IPMI), one HDMI port, one VGA port, two USB 3.0 ports, one RS-232/422/485, one RS-232, one 4-in/4-out DIO, two stack switches, one power input connector, and two antenna openings. Besides, the DIN-rail IIoT edge server runs well with Windows® 10 and Linux operating systems.

Advanced Features:

  • Intel® Core™ i9/i7/i5/i3 & Xeon® processor (Coffee Lake)
  • 2 DDR4-2666 U-DIMM for up to 32GB of memory
  • 16 ports L2 managed switch (8 port PoE for optional)
  • Supports IPMI 2.0 remote management
  • Module design for flexible and fast provision
  • Supports NVIDIA® MXM GPU card (optional)
  • Supports Intel® Movidius™ M.2 VPU card (optional)
  • Ideal for edge AI inference, cybersecurity and function virtualization

Axiomtek’s DIN-rail modular Network Appliance, the iNA600, is now available for purchase. For more product information or pricing, please visit our global website at www.axiomtek.com or contact one of our sales representatives at info@axiomtek.com.tw.

Eta Compute’s ECM3532 AI Sensor Board with TENSAI SoC for TinyML

Posted on by Saumitra Jagdale

ECM3532 AI Sensor Board

Eta Compute’s ECM3532 AI Sensor board is a low-power AI development platform with advanced sensors, compatible with sound classification, keyword spotting, activity classification, context awareness, and defect detection. It has an embedded Cortex-M3 microcontroller that functions up to a frequency of 100 Mhz, and NXP CoolFlux 16-bit DSP dedicated for machine learning using TinyML technology.

The AI sensor board integrates two microphones, one pressure and temperature sensor, and one 6-axis MEMS accelerometer and gyroscope. The ECM3532 AI sensor board also comes with small form factor with 1.4” x 1.4” dimensions, a built-in battery socket, and flexible Bluetooth connectivity with the A31R118 chip, this makes it suitable for IoT deployment and experimentation of application prototypes. The AI sensor board also has an expansion connector that simplifies the addition of other RF interfaces.

Key Features

  • Arm Cortex-M3 core works up to 100 MHz with less than 5μA/MHz run mode
  • Integrated 512KB FLASH, 256KB SRAM, and 8KB BootROM
  • NXP CoolFlux 16-bit DSP with 32KB program memory, 64KB data memory
  • 2 x PDM MEMS Microphones: TDK-Invensense ICS-41350
  • 1 x Pressure/Temperature sensor: BOSCH BMP388
  • 1 x 6-axis MEMS Accel/Gyro: TDK-Invensense ICM-20602
  • Battery cradle for a CR2032 battery
  • Bluetooth Low Energy on board: BLE v4.2: ABOV A31R118 and antenna
  • Extension for other types of RF through Micro SD card slot
  • 6 pin UART and power port
  • 64Mbit serial Flash for data logging
  • 5 LEDs and push-button

It performs efficiently with Neural Networks due to ECM3532 Neural Sensor Processor built with unique self-timed continuous voltage and frequency scaling at the run time using Eta Compute’s CVFS technology. This produces optimized energy for inference of machine learning and deep learning algorithms. It also supports Edge Impulse for data sampling, building models, and deploying trained ML models.

Block Diagram of  AI Sensor Board

Block Diagram of ECM3532 AI Sensor Board

Developing applications on the board requires Node.js version 12 or above, along with the Edge Impulse CLI version 1.7.0 or above as its dependencies. ECM3532 AI Sensor board includes a SparkFun FTDI Basic Breakout – 3.3V board in the box. This can be used to program the AI sensor and to relay serial messages back to the computer source. The FTDI cable can also be used for USB to serial TTL level conversion, by ensuring 3.3 V outputs as the sensors are not 5V tolerant.

ECM3532 AI Sensor board is versatile and features quick usage by Edge Impulse’s TinyML development pipeline and the 6 pin UART port. The board also comes with serial wire debug (SWD) CoreSight connectors for both the ECM3532 and the A31R118 for debugging. For this, a separate JLink or Ulink probe is needed.

The Edge Impulse firmware for the sensor board is open source and hosted on GitHub. For more information, you can visit the official product page. The ECM3532 AI sensor board is available on Digikey for $99. Images and technical specifications have been taken from the official product page and datasheet.

OAX8000 ASIC AI-enabled Processor for Driver Monitoring Systems

Posted on by Saumitra Jagdale

OAX8000 is an automotive ASIC optimized for dedicated DMS (Driver Monitoring Systems). The ASIC comes with a stacked-die architecture with multiple layers of ICs that offers on-chip DDR3 SDRAM memory (1GB). It also features a fast AI video processor with CNN (Convolutional Neural Network) accelerator and works as a low-power device. The automotive image sensors have a power rating of 1 watt.

The AI-enabled OAX8000 ASIC integrates an NPU and ISP (Image Signal Processor), which performs up to 1.1 TOPS for eye gaze and eye tracking algorithms. This integration also reduces the board area for the ECU (Engine Control Unit) by optimization of DMS systems. OAX8000 ASIC has a quick boot-up time that minimizes the delay between ignition and activation of the DMS camera. It also comes with secured boot functionalities for cybersecurity.

Technical Specifications of OAX8000 ASIC

  • Power Supply: Core 0.9V, Analog 1.8V, DDR I/O 1.35V, PLL 1.8V
  • Operational from -40°C to 105°C ambient temperature
  • Operational from -40°C to 125°C junction temperature
  • Dimensions: 10mm x 10mm

OAX8000 ASIC has a built-in NPU that has flexible support of almost all deep learning frameworks and tools like TensorFlow, Caffe, MXNet, and ONNX. It also integrates quad Arm Cortex A5 CPU cores with Neon technology for enhanced video encoding and decoding with advanced video analytics algorithms. It also comes with hardware for image processing and RGB/IR processing.

The ASIC has a flexible input processing capacity that allows the sensing of widely contrasting bright and dark images, due to its HDR processing feature. Hence, the applications are dynamic that can function in the day as well as at night. The embedded video encoder allows up to 5 megapixels of captured data from automotive image sensors and outputs up to 2K resolution video at 30 frames per second.

Functional Block Diagram of OAX000 ASIC

Functional Diagram of OAX8000

The storage interface includes an I/O peripheral interface, that can be used with an external WiFi module. It also comes with a storage card peripheral interface with NAND flash parallel interface for 8-bit and 16-bit, with up to 8-bit BCH ECC. This flash serial interface can function with or without the ECC engine.

OAX8000 ASIC has a built-in 16-bit ADC and 16-bit mono DAC, with full-duplex audio, AGC, and noise cancellation. It also integrates an audio engine for audio recording and playback. The full-duplex audio serial interface supports left/right 16-bit data mode and various audio formats. The security engine supports AES, DES, and 3DES-based encryption/decryption. It also features secured booting of the device.

The new OAX8000 ASIC is integrated into a BGA196 package. For more information visit the official product page. The pricing and availability of the ASIC can be inquired on the region-based sales section on the website. Images and technical specifications have been also taken from the product page and datasheet.

Mezza-pede 1.0mm pitch SMT Connectors from Advanced Interconnections Corp

Posted on by mixos

Mezza-pede® 1.0mm pitch SMT Connectors from Advanced Interconnections Corp. are designed for low profile board-to-board or flex cable-to-board applications where long-term reliability and a compact size are required. With Advanced’s enclosed screw-machined socket, 6-finger contact, and heavy gold plating, Mezza-pede® Connectors pass the 20-day mixed flowing gas (MFG) test required in many telecoms and other severe environment and long-life applications.

Our over-molded lead frame seals the surface mount leads to prevent solder wicking, ensuring a secure solder joint. The low stack height makes it ideal for tight mezzanine packaging applications.

Typical Applications

  • Tunable Laser power connector (flex cable to board)
  • Tunable Laser connector (board to board)
  • Transponder Board connector
  • Signal connector (flex cable to board)
  • Low profile board to board connector

Features

  • Low profile – board to board stack height (z-axis) options ranging from 2.9mm to 4.0mm (nom.).
  • Robust design features screw-machined terminals and multi-finger contacts with a per contact current rating of greater than 1 Amp at 80°C ambient.
  • Dual row configurations include 8, 14, 20, 30, or 36 total positions with other pin counts available on a customized basis.
  • Fits within existing board layouts.
  • Unique SMT lead frame and pin design prevent solder wicking, providing the highest quality solder joint at the PCB level.
  • SMT and thru-hole designs available.
  • Passed 20-Day MFG test with heavy Gold terminal plating (GH).
  • Qualified for use in telecommunications applications.
  • RoHS Compliant
  • Request a sample, watch a video, or build a part number online at www.advanced.com

more information: www.advanced.com

ASRock Industrial Announces the IMB-V2000 Mini-ITX Motherboard Powering the Edge

Posted on by mixos

ASRock Industrial Computer, the world leader in industrial motherboards and systems launches the new IMB-V2000 Mini-ITX motherboard, powered by AMD Ryzen™ Embedded V2000 Series Processors for a generational leap in performance. Featuring quad-displays with AMD multi-display Eyefinity technology, IMB-V2000 supports ECC memory, dual LAN ports up to 2.5GbE along with Dash and Teaming function as well as longevity support. It is well suited for a wide range of Edge applications, such as video walls, digital signage, the gateway in automation, automotive, and many more.

IMB-V2000 with AMD Ryzen™ Embedded V2000 to Power the Edge

The newly released IMB-V2000 Mini-ITX motherboard offers a new class of performance in a compact size. Available models include IMB-V2000P, IMB-V2000S, IMB-V2000M, and IMB-V2000V powered by AMD Ryzen™ Embedded V2748/ V2546/ V2718/ V2516 processors, up to 54W to project towards the future of optimal performance in Edge computing. AMD Ryzen™ Embedded V2000’s longevity support also enables the IMB-V2000 to provide customers with solutions designed for long-lifecycles. Moreover, for high-demand computing capabilities, the IMB-V2000 supports two 260-pin ECC/non-ECC SO-DIMM DDR4 3200 MHz up to 64GB of memory, and dual storages with one M.2 (Key M, 2242/2260/2280) with SATA3 and PCle x4 for SSD and two SATA3 for SSD/HDD, making it easy to carry out necessary upgrades.

Quad-displays with AMD Eyefinity technology for video wall and digital signage

Built to meet the ever-growing demands for Edge computing in the video wall, digital signage, gateway in automation, and automotive, the IMB-V2000 offers quad-displays with one LVDS, one eDP, three DP1.2, one DP1.4 plus the AMD multi-display Eyefinity technology to beyond the boundaries of traditional displays for a phenomenal visual experience. The motherboard is equipped with one Realtek 2.5 Gigabit LAN and one Realtek 1 Gigabit LAN high-speed connectivity, supporting Dash and Teaming function. Moreover, with feature-rich IOs and expansion slots, it provides four USB 3.2 Gen1, four USB 2.0, one M.2 Key E for wireless, one M.2 Key B for 4G/5G, one PCle x8, and five COM ports. With 12~28V DC-in lockable DC jack/ ATX PWR power input for versatile and wide-voltage Edge applications.

With the rapid growth of Edge computing platforms, ASRock Industrial works with AMD and effectively merges key features of the AMD Ryzen™ Embedded V2000 processors on AMD multi-display Eyefinity technology, ECC memory, and longevity support to bring in new product series in form factors of IMB-V2000 Mini-ITX Motherboard, 4X4-V2000 Motherboard, and iBOX-V2000 Series Mini PCs for a new class of performance with 7nm technology, extended scalability, and support that is strong in integration and enablement for Edge, embedded and industrial applications.

Features:

  • AMD Ryzen™ Embedded V2000 SoC processors
  • 2 x 260-pin ECC/non-ECC SO-DIMM DDR4 3200 MHz, up to 64GB (32GB per DIMM)
  • 4 x USB 3.2 Gen1, 4 x USB 2.0, 1 x M.2 Key E, 1 x M.2 Key M, 1 x M.2 Key B, 1 x PCIe x8, 5 x COM, 2 x SATA3
  • 1 x Realtek 1 Gigabit LAN (Support DASH), 1 x Realtek 2.5 Gigabit LAN
  • Support Quad display, 1 x LVDS, 1 x eDP, 3 x DP 1.2, 1 x DP 1.4
  • TPM header
  • Support DASH, Teaming funciton
  • 12~28V DC-In (Lockable DC Jack)/ ATX PWR

more information: https://www.asrockind.com/IMB-V2000

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