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Optimising connector design

There’s more to it than you might realise.

Optimising connector design

Whether they’re used in a commercial aircraft, on a military vehicle or a medical ventilator, very few components are subjected to extreme conditions like connectors are. Here, Ammar Lokhandwalla, customer application engineer at connector specialist PEI-Genesis, discusses how to optimise connector design.

The concept of an appliance that could be plugged into a wall didn't emerge until the twentieth century. The initial popularity of electric lighting assumed that these devices would be permanently wired into the house. Today, engineers must consider the complete lifecycle of every component from cradle-to-grave. For example, a modern A380 aircraft is made up of approximately four million individual parts produced by 1,500 companies from 30 countries around the world.

Connectors, and more specifically those used in aviation and military applications, must endure extreme conditions. Whether it’s the rapid temperature fluctuations and changes in humidity, to persistent vibration, impacts and signal interference, these cables must operate reliably to ensure their users can get the job done.

Take the industry standard D38999. This is a military-specification connector that was originally designed in the 1970s and is now on its third-generation design. Like similar connectors, it’s comprised of a few basic components: a hard outer shell, a neoprene rubber insert with holes to house the pins, or contacts, and sometimes a backshell on the outer housing that provides additional shielding and durability.

Material choice

When selecting a connector, engineers must consider a variety of properties depending on their application. One of the primary considerations is the choice of materials, for both the electrical terminations and shell housing. For example, although copper offers better electrical and thermal conductivity, aluminium is cheaper and easier to form and plate.

So, while copper may be chosen for high-voltage industrial applications where heat dissipation and conductivity are vital, aluminium may better serve aerospace and military applications where weight and corrosion-resistance are more important.

Water barrier

Ingress protection is another consideration. Connectors designed for industrial food and beverage manufacturing must be sealed against water jets to allow equipment and machinery to be washed down between shifts.

This protection extends to marine applications, such as those in the oil and gas sector where equipment may need to be fully submersible for prolonged periods of time. In these applications, it may be necessary to select a polycarbonate connector, with the right o-rings and grommets to provide a moisture seal.

Plating

While aluminium is the preferred choice of connector material for many construction, rail, industrial and military applications, it may still need to undergo plating to improve its corrosion-resistance, to provide further electromagnetic shielding, and to meet camouflage and colour needs.

Some military applications use olive-drab green, a colour that was historically achieved with a toxic cadmium coating. In recent years, this has been replaced with a black zinc nickel plating that meets RoHS and REACH regulations. If engineered correctly, this black plating can deliver the same performance as cadmium coatings and withstand over 500 hours of salt-spray.

Soldering vs crimping

Many people may not be aware, but not all connector contacts can be solder-terminated. Under certain extreme conditions, the operating temperature of the application can exceed the melting point of the solder, causing connection failure. For applications where this is a risk, engineers may prefer to specify a crimped connector.

With crimping, contacts are joined to the wire by mechanically squeezing them together to ensure that they remain in contact no matter the temperature. Instead of a soldered connection where the wire is fed through an eyelet or hook and then soldered, crimping involves material being deformed to lock the termination together using a special crimping tool.

Design early, design once

One of the biggest mistakes that manufacturers make is considering connector design too late in the design process. This often means that a product’s time to market is delayed while the design is reworked.

It’s important to remember that your connector may have physical design constraints like a minimum wire-gauge or number of contacts, so it’s vital to consult with your connector supplier early in the process. At PEI-Genesis, we’ve made this problem easy for our customers by offering customers a 3D wire model of the connector that customers can drop into their design to see if it fits.

If it doesn’t, our engineering team can help refine or redesign the existing design, or propose a different connector entirely, that meets the specification. This includes changing features like threaded, bayonet and friction fittings, or accessories like backshells, or something simple like a dust cap.

www.peigenesis.com

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