How Do Industrial PCs Differ from Typical Brand PCs?

Since we figured out how to build computers that aren’t the size of a building, they’ve become absolutely essential for industries everywhere. From switching to digital for data keeping, to using computers to automate processes at a factory and cut down on manpower, costs, and time, computers have made business so much easier in every way.

But a unique challenge faced by computers in some industries is how to function under the threats of shock, airborne particles, extreme humidity, corrosion, magnetic fields, and wash-down requirements. For workplaces where hazards such as these are absolutely normal, you need PCs that can deal with it all. That’s what an industrial PC is for, and here’s what an industrial PC has to be.

Secured Components

The first really important design element in an industrial-grade PC, which makes it completely different from your typical PCs, is how the components are secured and wired.

A rugged portable PC will deal with shock, heat, cold, extreme vibrations, humidity, and more. Manufacturers like PanelPCPro make sure that its components are to be individually secured, fastened, and protected by a shock-absorbing, corrosion-resistant chassis that ensures the cabling within stays intact, while gold-plated connections ensure a good electrical conduction.

Efficient Design

Industrial-grade PCs are built to adapt to a situation. They can be embedded, bolted down, carried around, dropped, and more. However, there are certain specifications that make each individual industrial PC specialized for a certain task. Some are portable, some are specifically part of a larger system, some are heat-resistant and shock-resistant, and others are built to withstand and function in very low temperatures.

Highly Tested

Industrial-grade PCs aren’t just designed. They’re also thoroughly tested. Every component rolls out after it’s been ensured that it can take the pressures, temperatures, and specifications listed. Reliable manufacturers make sure that their products really do survive the harsh environments they’re designed to survive. As per Twi-Global, such a harsh environment can be defined as anything over 145 C and under -40 C in temperature, and with the present threat of moisture, saltwater, noxious gases, or radiation.