10 Things to Consider When Buying embedded industrial computers

10 Things to Consider When Buying Embedded Industrial Computers

1. Benchmark

Benchmarking is essential for understanding the performance capabilities of various CPUs. Websites like www.cpubenchmark.net, operated by PassMark software, provide performance information from thousands of benchmarking results, updated daily. You can use these CPU Benchmark values to select a CPU that matches your application's needs, from low-end tasks to high-performance requirements. Processors with scores under 2000 are ideal for simple projects and basic applications. They are budget-friendly and more thermally efficient, suitable for high ambient temperature environments. CPUs scoring between 2000 and 6000 offer a balanced mix of performance and value, ideal for multitasking, remote network monitoring, and more intensive graphics work. Higher-end CPUs, with benchmarks above 6000, can handle demanding tasks like 3D graphical processing, real-time networking, and SCADA system monitoring, but usually come at a higher cost.

Contact us to discuss your requirements for embedded industrial computers. Our experienced sales team can help you identify the best options for your needs.

2. Reliability and Durability

Industrial environments are harsh, and your embedded computer needs to be able to withstand challenging conditions, such as extreme temperatures, dust, and vibrations. Look for hardware that meets industry-standard certifications for ruggedness.

3. Connectivity Options

Ensure the embedded computer has sufficient connectivity options, including multiple USB ports, Ethernet, serial ports, and possibly wireless interfaces like Wi-Fi or Bluetooth. This ensures that you can integrate the computer into your existing infrastructure.

4. Power Consumption

Power efficiency is crucial, especially in remote or field applications. Opt for systems that offer a good balance between performance and power consumption to minimize operational costs.

5. Size and Form Factor

The size of the embedded computer should fit your spatial constraints. Smaller form factors like mini PCs can be ideal for tight spaces, while larger units might offer better cooling and additional features.

6. Expandability

Consider whether the system allows for future upgrades, such as additional RAM, storage space, or expansion cards. This flexibility can extend the lifespan of your equipment and adapt to evolving requirements.

7. Storage Options

Depending on your application, you may need large storage capacity or fast access speeds. SSDs are faster and more reliable than traditional HDDs, making them a popular choice for industrial applications.

8. Cooling Solutions

Effective cooling mechanisms, like heat sinks or fans, are critical for maintaining performance and longevity. Fanless designs can be beneficial for dusty environments or applications requiring silent operation.

9. Operating System Compatibility

Ensure that the embedded computer supports the OS you plan to use, whether it's Windows, Linux, or a real-time operating system (RTOS). Compatibility with your software and development tools is also crucial.

10. Cost

Finally, align the cost with your budget while ensuring the system meets your performance and reliability requirements. Sometimes, spending a bit more upfront can save on maintenance and downtime costs in the long term.

Want more information on Industrial Micro PC Manufacturer? Feel free to contact us.

If you want to learn more, please visit our website touch screen monitor 19.