Embedded industrial PCs are compact industrial computers designed for use in various confined spaces. Their low power consumption, fanless design, small size, and stable performance have led to their increasing popularity in industrial PC applications. With the development of embedded technology, embedded industrial PCs have grown rapidly and are playing an increasingly important role in industrial PC applications. So, do you know the performance differences between embedded industrial PCs and traditional industrial PCs?
Performance comparison between embedded industrial PCs and traditional industrial PCs
1. Low power consumption
1. Uses a low-power processor
2. Fanless design: The chassis uses passive aluminum extrusion heat dissipation fins to quickly transfer heat from the processor chip to the aluminum extrusion fins, improving heat dissipation efficiency.
3. Fully sealed structure design, adaptable to complex environments such as dusty, high temperature, humid, and severe electromagnetic interference.
II. Small size
Its compact design allows it to be used in various small spaces, and it makes full use of external interfaces and installation space, resulting in good product functionality adaptability.
III. High reliability
In addition to meeting the reliability design requirements for electrical functions, it is also necessary to meet reliability design requirements such as heat dissipation design, electromagnetic compatibility design, dust and water protection design, and vibration resistance design.
IV. Long service life
Embedded industrial PCs are often organically integrated with specific applications, and their upgrades and replacements are also carried out in sync with specific products. Therefore, once embedded system products enter the market, they have a long service life.
Can embedded industrial PCs replace traditional industrial PCs?
1. Embedded industrial control computers are at the front end of the entire measurement and control system, and the upstream connection is often a traditional industrial control computer. The computing power, software resources, and database support of traditional industrial control computers are difficult for embedded industrial control computers to match.
2. In the construction of large-scale systems, the system expansion capabilities and network communication capabilities of traditional industrial control computers are difficult for embedded industrial control computers to replace.
3. Traditional industrial control computers have inherent advantages in fields such as visual design, process monitoring, data statistics, and scientific computing.
