Rugged Computers: A Quick Buyer's Guide - %

02 Dec.,2024

 

Rugged Computers: A Quick Buyer's Guide - %

It&#;s a requirement that has been raised many times: you need a tablet or computer that has to operate in conditions that are far more challenging than those encountered around the office, home or airport lounge. You need a computer that can continue to work reliably despite the inevitable falls and knocks encountered during the task in mind, and also in the tough environmental conditions that will be experienced. The answer appears simple: you need a &#;rugged&#; computer. However, the answer is very far from simple. What, exactly, is a &#;rugged&#; computer? And, more importantly, how rugged is rugged?

An internet search for &#;rugged computer&#; will reveal a wealth of products ranging in price from several hundred dollars to many thousands. Although you have identified the general class of product you are after, you&#;re not much nearer to finding the product that is right for you. To start with, it helps to understand the field of products available, and to identify their intended use.

Please visit our website for more information on this topic.

The low end &#; commercial ruggedisation

At the lowest end of the market are what might be better described as &#;ruggedised&#; commercial computers. They are based on standard commercial products that have some additional &#;toughness&#; built into them. This might mean a thicker case for increased shock resistance and basic waterproofing.

While they may be more than adequate for a delivery driver, or for use on a civilian construction site, they will not last long in tougher environments, and certainly not in the hands of a dismounted soldier in the heat of battle in an extreme climatic environment.

In most instances the shock resistance levels of commercial ruggedised products do not even begin to meet military requirements, and waterproofing is limited to glued seals that are easily damaged and penetrated. The ports are standard commercial components with just a rubber flap to protect them. Moreover, the PCBs (printed circuit boards) inside are often sealed in a resin coat to increase &#;ruggedisation&#;, meaning that repairs are costly.

Mid-market &#; semi-ruggedised computers

Moving up the scale are what might be described as semi-rugged computers. They are certainly tougher than a &#;ruggedised&#; commercial laptop or tablet, for instance, but they still offer only limited shock resistance, and only meet limited qualification standards. They may be adequate for harder commercial requirements, but for full battlefield applications a much tougher computer is required.

In this mid-market space there are a number of products and suppliers available, but again it is difficult to differentiate between them without an intimate knowledge of the requirements as well as how they are manufactured and tested. While this may not be a challenge for experienced systems engineers, it could be for programme managers and procurement officials who are not specialists in electronics. Moreover, the field can be clouded by some suppliers offering products that may not be quite as &#;rugged&#; as they claim they are.

There are some standards applicable to the field, but they are fairly broad-reaching and not specific enough to sort the semi-rugged from the fully rugged. To find a path through this labyrinth it is important for the potential buyer to ask questions, and to know the right questions to ask.

High-end ruggedised computers &#; what to look for

Accreditation is a good place to start: is the product fully accredited? And, if so, who has performed the accreditation? If it is a reputable third-party testing house that is recognised by the UK Accreditation Service (UKAS), such as those used by GRiD Defence Systems, then testing and approvals carry much greater weight.

Another factor to explore is the history of the supplier&#;s products in similar areas of operation and with similar customers. Performance in the field is a key indicator of the level of ruggedness, particularly the MTBF (mean time between failures) of alike products.

As products at this end of the market are not cheap, it is important that they will last. Longevity should be designed into the product from the outset, with the need for the computer to remain fully sealed throughout its lifetime to maintain the integrity of its protective features.

Also, the materials used in its construction and protection are foundational elements in the ruggedness of the product. A single-piece aluminium chassis &#; as used in GRiD computers &#; offers unrivalled protection for the crucial electronics within, backed up by a special plating and paint finish. Similarly, is toughened glass employed over the display screen? This is not only needed to protect the screen itself, but also to maintain sealing, even when shattered. The nature of the glass can also be important to meeting EMC (electromagnetic compatibility) requirements.

Is every aspect of the computer protected?

No matter how tough the casing, every computer chassis needs a keyboard and apertures to mount ports for peripherals and power, and these can be a source of penetration by moisture. How they are sealed is an important element in choosing a rugged computer, as well as how the interfaces are protected when not in use. Do they have a simple bung-type cover, or do they have a sealing screw-on cap that cannot be removed inadvertently? And is the cap attached by a steel lanyard so that it can never be lost?

High-end rugged computers such as GRiD&#;s solutions also utilise military-spec connectors such as the D series, which are complex multi-pin connectors that are heavily protected for industrial and rugged applications. These are premium items but are essential when it comes to full ruggedisation and ensuring that the product can last in tough environments over extended periods.

Read more: D connectors &#; why a classic connector remains key to military electronics

Choosing a product from an original equipment manufacturer (OEM) is a further step to acquiring a product that meets the toughest demands. Only an OEM is in control of all aspects of the computer build, from design, through choice of components and producing the chassis, to sealing and completion. If you have a specific and complex challenge you want solving, an OEM will often be able to come up with an optimum solution.

Building the computer from the ground up and selecting the right grade of equipment at every step is the key to producing truly rugged computers. This results in a far superior product than attempting to ruggedise commercial hardware. Third-party accreditation of the product and its components at the highest level while exhibiting excellent performance in the field gives prospective customers the confidence they need to trust the true ruggedness of the product.

 

If you would like to discuss what to consider when buying a rugged computer, please get in touch on +44 (0) 810 230 or drop an to .

How to get a rugged industrial computer without blowing ...

Protecting computers in harsh environments doesn&#;t have to be expensive or complicated.

Avoid the upheaval of having to install specialist computer gear, make use of your current equipment and reduce your overheads long-term. Here&#;s how to do it&#;

If unreliable PCs used in an unforgiving workplace are a pain point for you, did you know? You can take your current PC and screen, plus the

if you like, and transform it into a rugged industrial computer system that&#;s protected from the numerous damage threats your harsh working environment poses.

Have you ever had one of those days where a computer decides today&#;s the day to go kaput, bringing production to a grinding halt and costing you thousands of dollars as a result of downtime?

If you want to learn more, please visit our website SATA IPC.

You are not alone. According to a survey of 283 companies - conducted by computing.co.uk - one in six businesses say that one hour of downtime can cost them $1 million (£594,000) or more.

Ouch! Equally, a survey by techweekeurope.co.uk discovered that 78% of UK businesses said they couldn&#;t be confident of a full recovery following sustained disruption.

With that in mind, consider how much one hour of downtime is damaging your business. Could your company make a full recovery from a sustained period of downtime whereby you&#;re literally leaking thousands of dollars an hour?

Chances are, you are shaking your head vigorously at the screen right now. Good! We don&#;t want to see you losing that kind of money, especially when it is preventable.

Transforming a standard PC into a rugged computer System &#; what you'll need

You can take any standard PC, screen, keyboard and mouse and transform it into an industrial computer system that is harsh environment ready.

1. You need a high-quality computer enclosure.

While computer enclosures are not the only solution on the market, they do represent the most inexpensive option in comparison with regularly replacing equipment or investing in specialist computers kits.

2. Additionally, an enclosure will allow you to make use of your current equipment, converting your standard PC into a rugged computer system fit for any environment.

Which enclosure should you choose?

1. Firstly, you need to establish what computer equipment you want to protect. Are you looking to protect a PC, a screen, a printer or an entire system? (PC, screen and printer - plus the keyboard and mouse).

If you&#;re looking to safeguard an entire system, for example, you might want to consider a complete solution, such as an industrial computer cabinet.

However, if you are looking to protect individual items of equipment, single computer and printer enclosures are available to you.

2. Secondly, what are you trying to defend your computer against and what type of material is right for the job?

For defence against water damage, a stainless steel PC enclosure is your best bet.

Protection against dust and airborne debris, such as metal shavings for instance, would warrant the use of a powder coated mild steel industrial enclosure.

3. Next, consider the space available to you.

If you have the room for an &#;all-singing, all-dancing,&#; floor standing solution, you can easily transform your current computer equipment into a harsh environment ready, rugged computer system, with an all-in-one cabinet.

However, if space is at a premium you can opt for a minimalistic compact PC enclosure that is wall-mountable and can be postioned well out of harm&#;s way.

Short on space? Enclosures can be wall-mounted to suit your working environment.

The unique advantage of owning an enclosure is the flexibility it provides. You don&#;t have to sacrifice your current equipment to make way for specialist computer gear, which is both costly and disruptive.

Enclosures can also last up to 10 years or more and in that time they will extend the life of PC and printer equipment. Long-term, you&#;re reducing your overheads and you can protect two or even three generations of equipment.

When your hardware does come to the end of its usable life, it is simply a matter of replacing equipment. This is not the case with specialist computer solutions, which are built to a specification that only the manufacturer can understand.

If it goes wrong, you are reliant on them coming to repair or replace it, which is both costly and time consuming.

Therefore, making use of your current equipment and opting for a one-off investment in an enclosure gives you a rugged computer system that&#;s harsh environment ready without you blowing your budget.

Additionally, if an enclosure has served its purpose, you can always sell it on and recoup some of your investment.

Discover how a rugged industrial computer can improve manufacturing productivity. Download your essential guide.

Improve manufacturing productivity

Contact us to discuss your requirements of Rugged Industrial Computers. Our experienced sales team can help you identify the options that best suit your needs.