SBC also known as single board computers is a fully functional computer system which is built on one circuit board. The components and parts of the computer which are usually made separately (such as microprocessors, memory I/O, and so on) off the PCB have been soldered together on the circuit board, bringing the components onto one board.
Combining all the components on one board results in an efficient and low-powered computer that has a small form aspect that is perfect to be used for IoT as well as edge computing applications in cramped environments.
Industrial motherboards can also be found in a compact and small size, such as the 3.5-inch industrial-grade single board computer. IoT or edge computing tend to be focused on specific tasks and can be used in harsh environments, with limitations on space.
The main challenge in these deployments is finding a durable and small device that is capable of offering robust processing, quick connectivity, and ample storage.
This is why SBC’s 3.5-inch single board computer is the perfect slim design that’s big enough to accommodate sufficient I/O, as well as other functions on the system that can support an array of industrial applications. Check out hp keyboard price online in India at Genuine and authorised websites.
Industrial Motherboard Advantages Compared To Commercial Motherboard
The components and parts in industrial motherboards look identical to commercial motherboards. There are however important differences that separate industrial motherboards from conventional motherboards. The primary difference lies in the way of designing an industrial motherboard that completely concentrates on what is most effective in the harsh industrial environment.
Industrial motherboards are a more straightforward and efficient design that is more user-friendly and frees unnecessary extras that motherboards for commercial use include, such as RGB lighting as well as other components that enhance the appearance.
Additionally, the total cost of owning a motherboard for industrial use over the long term is lower because of their design and the conventional form factor they utilize, which makes it simpler for them to be upgraded and maintained.
It is because they’re specially made for industrial use which is why they’ve been developed and constructed with flexibility and long-term durability in mind, which makes them durable and reliable enough to last for a long time.
Here are some of the common differences between commercial and industrial motherboards.
Versatility And Compatibility | I/O
A motherboard with the most recent I/O configuration isn’t always the ideal solution for industrial applications. One of the drawbacks of commercial motherboards is that they are focused on only the most recent I/O technologies, like the addition of USB Type-C inputs.
However, for industries, you will find a lot of instances where computers and machines require different I/O solutions that work with older technologies. The support for older technologies is essential since it can cut down on upgrade costs and also causes compatibility issues with industrial systems.
Industrial motherboards can be configured to accommodate many I/O options for old technologies that a commercial motherboard typically does not support. These old I/O inputs on industrial motherboards are able to support DIO, GPIO, VGA, DVI, PCI slots, ISA slots, COM ports, serial ports and numerous others. Check out the price of laptop display online in India.
Furthermore it is the case that the Industrial motherboard supports connectivity features, including upgrades for Wi-Fi 6 Bluetooth or 5G via external cards using Mini PCIe slots which are connected to SIM sockets on the motherboard. This shows how flexible and compatible industrial motherboards are in industrial applications.
Longevity – Industrial Grade Components
In contrast to typical motherboards for commercial use, industrial motherboards are made of sturdy and reliable industrial-grade components to ensure long-lasting.
Every component and piece that are used to create industrial motherboards are chosen with care This includes selecting components like specific capacitors power chokes, resistors and many other items.
These motherboards can provide better electrical performance and more stable performance for the system regardless of deployments in difficult conditions.
Therefore, using industrial components, industrial motherboards can last up to 5 to 7 years. These additional steps can help decrease RMAs as well as extend the lifecycle of products and reduces price per unit.
Durability – Extreme Temperature Range Single Board Computer
To endure the most challenging situations, the industrial motherboards are able to endure extreme temperatures. Extremely low temperatures, as well as extreme temperatures, pose a worry for ordinary commercial motherboards as they are not designed to endure extreme heat and cold stress. However industrial motherboards are able to be utilized in freezing winter when temperatures can be the lows of -40. They can also endure scorching hot conditions that can rise to 85. To ensure their long-term durability industrial motherboards are tested in a controlled environment with humidity and temperature chambers to test the industrial motherboards to the limits against extreme humidity and temperatures.
Increased Durability. What Is Conformal Coating?
A few industrial motherboards have the option of applying conformal coatings to enhance the longevity and durability of the motherboard. Conformal coating is a technique that involves applying a layer of polymeric film onto the PCB to provide extra protection to the components of the printed circuit board.
The coating will increase the capability of the motherboard to resist moisture, dust chemical and extreme temperatures. Only certain types of deployments and applications need conformal coatings for motherboards since it’s expensive.