USB C + HDMI combo panel-mount cable sample 🔌🖥️

We got this nifty panel-mount cable with a combo action: both USB C and DVI/HDMI connectors on both ends. This could be handy for single-board computers like Raspberry Pi's or our RP2040/RP2350 boards with DVI outputs

Since we're testing our Metro RP2350 with HSTX/DVI output anyway, this is a good time to test the cable out - some things we test with USB C cables: verify it enumerates in all 4 orientations (ya never know) and check it with a USB PD sink that requests various voltages. So far, so good; we'll get some of these into the shop in the next few weeks.

MSI MS-CF17: 3.5 inch Fanless SBC With Raptor Lake-P CPUs

MSI MS-CF17 

3.5″ SBC for Fanless, Ultra Low-Power, High-Performance, and Wide Temperature Solution with Intel Raptor Lake-P

MSI introduced the MS-CF17 a Strong 3.5″ single-board computer (SBC) designed for a variety of industrial applications. Operating systems like as digital signage, edge computing, industrial automation, and transportation systems can all benefit from the MS-CF17’s Intel 13th Gen Raptor Lake-P processors.

With fanless operation and a broad temperature range (-40°C to 70°C), the MS-CF17 is built to perform well in challenging conditions. For applications like industrial automation or outdoor digital signage installations, where dependability and performance are essential, this makes it ideal. Suitable for graphics-intensive activities like AI-driven analytics and advanced imaging systems, the board has an integrated Intel Iris Xe graphics engine and supports up to 32GB of DDR5 memory.

Four 2.5G LAN ports, four HDMI connectors (enabling quadruple separate displays), M.2 M key PCIe Gen4 for storage, and M.2 B/E key slots for expansions provide an abundance of connectivity options that enable a smooth integration into complicated systems. Since it can accommodate many displays and provide real-time analytics, the MS-CF17 is a preferred option for applications that demand fast data processing. For applications where data protection is critical, the onboard TPM 2.0 also offers improved security.

For edge computing, digital signage, and industrial automation applications, the MS-CF17 is a great option because of these qualities.

Industrial Automation: Its sturdy construction, wide temperature support, and many I/O options enable factory machine control, system monitoring, and process automation.

Edge Computing: Smart grids, surveillance systems, and Internet of Things applications use edge computing to process data and make real-time decisions. It possesses strong processing capabilities and fast connectivity.

Digital signage: In public areas, shopping centers, and transit hubs, dynamic and aesthetically appealing content can be displayed because to its support for quadruple independent displays.

Transportation Systems: Because of its small size and sturdy construction, the MS-CF17 is perfect for use in control systems, in-car computers, and passenger information systems in the transportation industry.

AI and Imaging Systems: The MS-CF17 is a prime choice for AI-driven analytics, medical imaging, and other graphics-intensive applications due to its integrated powerful Intel Iris Xe graphics and support for sophisticated memory configurations.

Businesses seeking to deploy dependable, high-performance computing solutions in demanding situations will find the MSI MS-CF17 to be an indispensable tool due to its capabilities and application areas.

 MS-CF17 Features

Intel Raptor Lake-P Embedded/Industrial SKU Series, 13th Generation

Up to 32GB of DDR5 5200 MHz SODIMM space

Four independent monitors (one LVDS/eDP and one HDMI)

Four RJ-45 2.5GbE LAN ports

One M.2 E key and one M.2 B key (with NANO SIM-holder).

Storage: 1 SATA 3.0 and 1 M.2 M key

4 COM (4 RS-485), 4 USB 2.0, 4 USB 3.2 Gen 2, DIO, and Audio

TPM 2.0 on board

DC-IN 12–24V Wide Voltage (OCP & OVP)

Wide temperature range of operation supported

FAQs

What are the benefits of the MS-CF17’s fanless design and wide temperature range?

Its fanless design makes it perfect for demanding industrial environments since it guarantees silent operation and removes the possibility of fan failure. Operation in harsh conditions is made possible by the wide temperature range (-40°C to 70°C), which guarantees dependability and performance.

How does the MS-CF17 benefit AI and imaging applications?

The MS-CF17 can manage the rigorous processing demands of AI algorithms and high-resolution imagery thanks to its potent Intel Iris Xe graphics engine and compatibility for up to 32GB of DDR5 memory.

What is the role of the MS-CF17’s connectivity options in high-speed data processing?

● With its four 2.5G LAN connections, the board enables quick and effective data transfer across networks. ● For applications like edge computing and industrial automation, real-time data processing and analysis are made possible by this high-speed communication. ● The MS-CF17 also has four HDMI connections, which enable the use of four independent screens. It is perfect for applications that need to monitor several data streams at once or require complicated visualizations due to its multi-display functionality.

Read more on Govindhtech.com

[ForlinxLab] Curious why our embedded boards undergo high and low temperature tests?

[ForlinxLab] 🌡️ Curious why our embedded boards undergo high and low-temperature tests? 🌡️ Discover how we ensure reliability from -60°C to 150°C, simulating extreme environments to verify stability. Watch our process and see the dedication to quality in action! More info: https://www.youtube.com/watch?v=kvouO9nx6I8

Best Server for Home Lab is Changing in 2024

Best Server for Home Lab is Changing @vexpert #vmwarecommunities #singleboardcomputers #homelabserver #homelab #homeserver #serverrecommendations #minipc #miniserver #docker #containers #kubernetes #nas #nasoperatingsystem #nestedvirtualization

Things are changing if you look around at what everyone is looking at for running home labs and a dedicated server. There are several reasons for this. It is a combination of what people want to run and the hardware that has become available for home lab use that makes sense. In this post, we will explore a few of the changes we are seeing that affect the best server for the home lab and your…

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‪Tinker Board e-Paper weather project finally has a permanent home‬ ⛈ and in case you missed the video on this project 👉 https://youtu.be/6e0xSb1qUTY #diy #tech #electronics #hardware #opensource #epaper #eink #weather #iot #weatherdata #python #owm #openweathermap #make #makersgonnamake #makersmovement #linux #opensource #tinkerboard #asustinkerboard #singleboardcomputer #sbc #3dprinting #nerdlife https://www.instagram.com/p/BuC7KEznUmB/?utm_source=ig_tumblr_share&igshid=xv95ysym5fv7

What’s a single-board computer and who should have one, today on DigThisDesign.net. #singleboardcomputer https://www.instagram.com/p/CpP6boYAa5N/?igshid=NGJjMDIxMWI=

Basic Electronics Components

Electronic components are fundamental discrete gadgets in any electronic framework to use in electronics in any case extraordinary related fields. These components are fundamental components that are utilized to plan electrical and electronic circuits. These components have at least two terminals which are utilized to interface with the circuit. The arrangement of electronic components should be possible dependent on applications like dynamic, aloof, and electromechanical.

In planning an electronic circuit following are mulled over:

Fundamental electronic components: capacitors, resistors, diodes, semiconductors, and so on.

Power sources: Signal generators and DC power supplies.

Estimation and examination instruments: Cathode Ray Oscilloscope (CRO),  multimeters, and so forth.

Classification of Electronic Components:

Electronic gadgets are part of our daily life. If you are as old as me, you might remember when you used to wait to use the phone booth to contact your friend after writing them a letter and stating when you could have a chat. Nowadays, you can hardly function if you forgot your phone rushing to catch that train as we are always tethered to them 24 hours 7days a week.

Anyway, back to electronic components. They are classified into two groups namely:

1. Active components: Active components supply current or energy in an electronic circuit and examples of these can be generators, alternators, diodes, transistor, voltage, MOSFET, Logic gates, and current sources.

What are active components?

Other examples of active components like amplifiers, vacuum tubes, and transistors will help us understand these basic electronic components. Active components tend to use external sources of power to add energy or power the circuit or system. In more simplistic terms, they control how electricity flows in a circuit.

Types of active components:

•   Integrated Circuits (All)

•   Processor

•   Power ICs

•   Digital Circuit

•   Analog Circuit

•   Ball Grid Arrays

•   Optoelectronic Components

•   Hall Effect Sensor

•   Current Sensor   

•   LED / VFD / CRT / LCD / TFT

•   Rectifier Tubes

•   Vacuum Tubes

•   Battery & Power Supply

•   Electric Generator

•   Emitters

•   Gas discharge tube

•   Ignitron

•   Thyratron.

  2. Passive components: These types of components receive the energy which it can store, dissipate in either a magnetic field or an electric field. You must have heard of resistors, inductors, transformers, and capacitors which are the most common examples of passive components.

 What are passive components?

As their name suggests they do not require energy like power to operate and ,therefore, do not provide gain and amplification to a circuit but rather attenuate.

Types of passive components:

•   Field-Effect Transistor (FET)

•   JFET (Junction Field-Effect Transistor)

•   MOSFET (Metal Oxide Semiconductor FET)

•   Diodes (All)

•   Rectifier Diode

•   Schottky Diode

•   Zener Diode

•   Unipolar / Bipolar Diode     

•   Varicap

•   Varactor

•   Light-Emitting Diode (LED)

•   Transistors (All)

•   Photo Transistor

•   Darlington Transistor

•   Compound Transistor

•   Thyristors

•   Composit Transistors

•   Solar PV Cell, PV Panel

•   T flip flop & Logic circuit

Admiring the combination of Several #Rice on #PopPi x #BSPWM. 2021 litrato|pilyongsenyorito #singleboardcomputer #raspberrypi4 #raspberrypi #linux #linuxubuntu #gnulinux #mpv #desktopsetup #debian #polybar #dotfiles #popos (at Philippines) https://www.instagram.com/p/CXyX5lsFYwS/?utm_medium=tumblr

#repostthursday #payitforward @sdrobertw (@get_repost) ・・・ I saw this gadget during @makerfaire in #bayarea - I I thought I took a better video and picture of the hand device it self, but I guess I didn’t. This device goes into a hand strap like module that clips onto the palm of you hand. You are then able to control devices using the movements of your hand with many degrees of freedom. I would suggest exploring their website below, there are many more pictures there. . From their website: https://thetactigon.com/products . “T-SKIN IS A NATURAL EXTENSION OF YOUR HAND. IT IS NOT A GLOVE OR BRACELET, BUT A TINY DEVICE FOR MANY APPLICATIONS: ROBOTICS, DRONE, AR AND HUMAN INTERFACE. T-SKIN IS REDEFINING AND SIMPLIFYING THE WAY OF BUSINESS MAN DURING PRESENTATION, THE EXPERIENCE OF THE INTERACTION WITH ROBOT, DRONE AND AR. MORE THAN 50 COMPATIBLE DEVICES AND SOFTWARE! THE TACTIGON IS PROGRAMMABLE AND CAN BE USED BY DIFFERENT TYPES OF USERS: STUDENTS, TEACHERS OR PROFESSIONALS BECAUSE IT IS COMPATIBLE WITH ARDUINO IDE. DESIGN YOUR APPLICATION AND EMBED IT THANKS TO THE REDUCED SIZES OF THE TACTIGON BOARD! GROVE CONNECTOR, TWO UARTS AND 6 GPIOS!” . #robot #robotics #drone #ar #vr #augmentedreality #virtualreality #gpio #arduino #tactigon #interface #tech #technology #wireless #bayarea #device #singleboardcomputer #controller #makerfaire #maker #make #diy #iot #internetofthings @andystechgarage #atg #andystechgarage

A mini USB hub to embed into projects 🔌🖥️💡🛠️🚀🔄🔧📏🎛️💻🔬🔋🤖🎮💼🧩🌐📲

If you have a project where you need to connect multiple devices to one usb port, naturally you'd use a USB hub. but if its inside a case and space is limited, or if you want to avoid having bulky cables, this breakout board with an SL2.1A chip could do the job. it only needs a few passives and a crystal and will provide 4 port outputs! we made it a nice compact 1.1"x0.8" and with a type C port it is fairly slim as well. great for use with single board linux computers or other USB host devices.

MSI Launches MS-CF16 Pico-ITX SBC For Industry Applications

MSI Introduces the MS-CF16 Pico-ITX SBC, a Wide Temperature Range SBC for Severe Uses.

Intel Alder Lake-N/Amston Lake family CPUs, which provide up to 16GB of LPDDR5X memory for effective, high-performance computing, power the MS-CF16 Pico-ITX SBC. It has two M.2 slots for flexible connection, USB 10Gbps/5Gbps, 2.5 GbE/1GbE, and many I/O choices, including support for two separate displays via HDMI and LVDS/eDP interfaces. The board’s very small 2.5″ Pico-ITX form size makes it simple to integrate into situations with limited space.

MS-CF16 Pico-ITX Features

Packed with cutting-edge features appropriate for severe environment and industrial applications, the MS-CF16 Pico-ITX includes:

Compact Pico-ITX Form format

The MS-CF16 provides powerful computing in a compact, space-efficient design with to its 2.5″ Pico-ITX form format (101mm x 73mm). It combines excellent performance with a wide range of connection choices, making it perfect for portable devices or embedded systems. Industrial robots and kiosks may use this compact form size without sacrificing functionality or expandability.

Broad Operating Temperature

The MS-CF16 can tolerate tough situations from -40°C to 85°C. For exterior installations and industrial devices, this wide range offers durability and reliable performance in extreme conditions from freezing to high heat.

Rich Connectivity Options

The MS-CF16 facilitates flexible device integration and extension with a variety of I/O interfaces, including USB 10Gbps/5Gbps, HDMI, and COM connections. It makes connectivity with industrial machines, dual independent displays, and quick data transfers possible. It may be expanded for wireless modules or storage with to the M.2 slots, which makes it suitable for a range of sectors.

Fanless Design for Low Power Operation

The MS-CF16’s fanless, low-power design improves durability and energy economy. It lessens wear and tear by doing away with mechanical cooling, which makes it appropriate for dusty or debris-filled situations. Additionally, the fanless design allows for quiet operation, which makes it ideal for applications that are sensitive to noise and medical equipment.

Twin Independent Display Support

The MS-CF16 has twin independent displays that enable users to operate two screens at once with to its HDMI and LVDS/eDP connectors. This improves user experience and efficiency without the need for extra hardware in applications like digital signs, control rooms, or monitoring systems where crisp, real-time data presentation is crucial.

MS-CF16 Pico-ITX Applications

The MS-CF16 Pico-ITX board is intended for a range of embedded and industrial uses, such as:

Industrial Automation

The MS-CF16 is perfect for industrial automation due to its sturdy design and broad working temperature. It can withstand the demands of robotics, machine control systems, and industrial settings. It provides dependable operation under harsh circumstances, guaranteeing steady performance for applications needing round-the-clock uptime in demanding production settings.

Edge Computing for the Internet of Things

The MS-CF16 is a good fit for edge computing devices and Internet of Things gateways because of its strong processing capabilities and flexible connections. In smart city and industrial IoT configurations, it facilitates local data processing, lowering latency, increasing productivity, and enabling real-time decision-making in dispersed and distant areas.

Medical Equipment

The MS-CF16 is perfect for medical applications because of its small size, low power consumption, and fanless design. It integrates easily into embedded or portable medical diagnostic instruments, providing dependable performance in crucial healthcare settings where silent operation, energy efficiency, and space are crucial.

Digital Signage Outside

The MS-CF16’s robust construction and broad working temperature range make it ideal for outdoor digital signs, kiosks, and other systems that interact with the public. It is a reliable option for interactive kiosks or public information displays since it guarantees seamless functioning in inclement weather, from very cold to extremely hot temperatures.

The MSI MS-CF16 is a crucial tool for companies wishing to deploy dependable, high-performance computing solutions in demanding settings because of its characteristics and application areas.

Read more on Govindhtech.com

Introducing the OK62xx-C Single Board Computer by Forlinx

Are you looking to streamline your development process? Look no further! Introducing the OK62xx-C single board computer from Forlinx. This powerful board is based on the TI Sitara™ AM62x series industrial SoC and features a unique SoM+carrier board design.

Equipped with 2xGigabit Ethernet (with TSN support), USB 2.0, LVDS, RGB parallel, UART, OSPI, CAN-FD, Camera, Audio, and other essential interfaces, the OK62xx-C is a versatile development platform for evaluation and application development.

The development board is designed to evaluate the SoM FET62xx-C and supports the Linux 5.15.52 system. With its open system architecture design, it provides technical information for secondary development, making it an ideal choice for your projects.

Discover the possibilities with the OK62xx-C single board computer and simplify your development workload today!

OK62xx-C single board computer:

PORTLAND, Ore., Oct. 8, 2020 /PRNewswire/ -- Allied Market Research published a report, titled, "Single Board Computer Market By Processor (ARM, X86, ATOM, and PowerPC) and End Use (Industrial Automation, Aerospace & Defense, Consumer Electronics, Healthcare, and Others): Global Opportunity Analysis and Industry Forecast, 2020-2027". According to the report, the global single board computer industry was estimated at $2.86 billion in 2019, and is anticipated to hit $3.80 billion by 2027, registering a CAGR of 4.6% from 2020 to 2027.

🔍 #tech #raspberrypi #computer #singleboardcomputer #technology #miniPC #pc #raspberrypi3modelbplus