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July 24, 2024
Raymarine Electronics Torture-Tested for Durability
Featured Marine Electronics Partners Raymarine

Raymarine Electronics Torture-Tested for Durability

Who Does This to Electronics? Well, We Do.

Raymarine owners can get underway with the confidence in knowing their electronics will perform in extreme conditions. Why? Because Raymarine electronics are literally tortured in the company’s very own Environmental Test Center in the UK, where they are subjected to hard drops, prolonged vibration, extreme temperatures, wireless emissions, relentless rain and spray, full submersion, and the simulation of months at sea inside a salt mist chamber.

All of this is done to ensure Raymarine products will perform wherever and whenever needed, and allows the company to offer its customers not only peace of mind, but also one of the best warranties available in the marine electronics business. Raymarine products, you see, are backed by a two-year warranty, which is extended to three years when registered within 90 days of purchase. Why does Raymarine do this? Because it can. Read on…

Getting the Drop on the Competition

When staff at Raymarine’s Environmental Test Center are told to drop everything, they take it literally. Every Raymarine product is dropped in its packaging on all sides to ensure they will arrive in perfect condition following shipping. Products are also dropped without any protection at all to simulate them getting bumped and mishandled during installation.

A Whole Lotta Shakin’ Going On

Vibration is the hidden enemy for both electronics and mechanical structures. Constant shaking across a range of frequencies can work connections loose, fatigue wires, damage solder joints and result in equipment failure. Case in point: NASA’s James Webb Space Telescope – originally scheduled for launch in 2011 – is still on the ground, due in part to failed vibration and acoustic testing.

Vibration testing at Raymarine’s Environmental Test Center goes well beyond standard tests. In the aptly named Shaker Room, vertical and horizontal shakers perform swept sine and dwell tests, subjecting items to a vibration sine tone across a broad frequency range. Where a resonance is found during the sweep, testers dwell on that frequency for two hours, then check for fatigue damage. The standard test is 5Hz-100Hz, but Raymarine pushes that to 600Hz, as well as performing shock and random vibration tests simulating and surpassing real-life vibration data from customers’ boats.

Electromagnetic Compatibility

Following brutal vibration and drop testing, products are whisked to the EMC (electromagnetic compatibility) area, where power supply tests are performed. Interference from switching on other boat equipment can disrupt the shared power supply, so these tests ensure that products will continue to work over the various voltage ranges they might experience. These tests cover issues such as voltage drops, inrush current and surges.

Next, products move to Raymarine’s Radiated Immunity Chamber. Here, testing ensures that products can still operate efficiently when exposed to a powerful radiated electromagnetic field. The walls of the test chamber are covered in pyramid-shaped material designed to prevent reflections so that only the direct signal from the antenna is received, making it easier to produce a uniform test field. In this process, the transmit antenna is placed at the far end of the chamber while the test product is placed on a table in the pre-calibrated field and monitored to ensure it operates correctly under radiation, without failures such as lines of interference appearing on a video feed.

In a separate chamber, radiated emissions testing identifies the unintended release of electromagnetic energy. The chamber is a Faraday cage. To prevent interference from external signals, the outer chamber is made from two layers of steel. Inside, a combination of ferrite tiles and blue absorber material stops reflections.

From the Freezer to the Oven to the Helm

Mariners operating in polar waters can experience huge seas and subzero temperatures. Closer to the equator, searing temperatures create a new set of demands. In either extreme, functional electronics remain a matter of survival, which is why Raymarine gives all its products such a punishingly hard time at its Environmental Test Center.

Extreme temperature testing takes place in specially designed thermal chambers, where products are repeatedly tested and soaked overnight to ensure they start up, restart and function over a massive temperature range between -25°C (-13°F) and 55°C (131°F), and also survive non-operational storage in temperatures between -30°C (-22°F) and 70°C (158°F).

During Hot Room testing, products are placed inside a 55°C (131°F) chamber for life tests, where they often remain for months. Along similar lines, an IR (Infrared Radiation) test simulates noon sunshine to ensure that displays don’t black out and that no sunlight damage such as glow marks or buckled film occurs inside the display panels.

Thereafter, the Salt Mist Room exposes products to continuous salt spray for two hours before they are then left for seven days in a warm, damp atmosphere. This process is repeated four times, taking the test duration to a grueling 28 days. Products are then examined to ensure that salt and water do not leach into coatings causing blisters, cracks or color loss.

Water Ingress Testing

A significant increase in ambient noise heralds the self-explanatory Wet Room, a water ingress area where signs warn staffers to wear ear defenders as they carry out IPX6 tests. Products carry this rating if they can withstand arduous tests designed to assess an item’s water and/or dustproofing capabilities. One such test requires products to be continually sprayed with at least 100 liters of water per minute from a fire hose, for a minimum of 30 minutes, and for the unit to continue to function both during and after the test.

The industry standard requires products to be left in a damp and drizzly atmosphere for half an hour, but Raymarine leaves them in for an entire day to replicate real-world usage, with testers taking the products apart afterward to make sure there’s no water inside. A drip of water over the life of a product becomes a flood inside the unit and is unacceptable.