4 minute read
Why an IP Rating matters when specifying an industrial switch
Manufacturers of Ethernet switches and other industrial networking devices often make vague claims like “weatherproof” or “dust-resistant” about their products. But how do you know if these claims are legitimate? Are the devices truly safe? Is there a certification that is trusted industry-wide? Fortunately, there is.
1st Digit Intrusion Protection
2nd Digit Moisture Protection
0
No protection. 1 Protected against solid objects over 50 mm, e.g. accidental touch by hands 0 No protection.
1 Protected against vertically falling drops of water, e.g. condensation
2 Protected against solid objects over 12 mm, e.g. fingers 2 Protected against direct sprays of water up to 15o from the vertical
3 Protected against solid objects over 2.5 mm, e.g. tools & wires 3 Protected against direct sprays of water up to 60o from the vertical 4 Protected against solid objects over 1 mm, e.g. wires & nails 4 Protected against water splashed from all directions, limited ingress permitted 5 Protected against dust, limited ingress, no harmful deposits 5 Protection against low pressure jets of water from all directions, limited ingress permitted
6 Totally protected against dust 6 Protected against strong jets of water, e.g. on ship's deck, limited ingress permitted
THE INGRESS PROTECTION (IP) RATING system was developed in 1976 by the European Committee for Electro Technical Standardization. Basically, an IP rating shows how safe it is to use an electrical or mechanical product in a unique environment or application. The IP rating system is widely adopted by electrical and mechanical engineers, especially in North America, since many consumer products must indicate an IP rating to qualify for UL or CSA’s safety standards.
An IP rating is made up of two digits that act as a grading system, such as “IP67” or “IP59,” indicating a device’s level of protection or resistance against various intrusions. The first digit of an IP rating is a number that describes the object's protection against solids, such as dust and dirt, with 0 yielding no protection and 6 offering the most protection. The second digit of an IP rating describes the level of protection against moisture ingress, including drips, spray or full submersion, again, with 0 symbolizing no protection and 9K providing the most protection.
If a higher IP rating is assigned to a device, it does not automatically imply all lower resistance tests have been passed. For instance, IP67 does not mean the device is resistant to 0-6 in the first digit, and 0-7 in the second digit. Therefore, it is not uncommon for a device to obtain multiple IP certifications. Occasionally, the two digits are followed by a letter denoting other information. Adding a letter is optional and not common, however you should be aware of their meaning. When a manufacturer adds a letter it can signal protection against access to a hazardous part, including back of hand (A), finger (B), tool (C), or wire (D). It can also refer to additional protection, including oil resistant (F), high voltage (H), water testing (M), standing still (S), or weather conditions (W).
You may also see an “X”. This indicates that a rating has only been provided for one of the two main ingress types -- foreign body or moisture -- but not for the other. Take, for example, IPX7. Here, a moisture resistance rating of 7 has been assigned to the device, but no rating is provided against foreign body ingress. Alternatively, an IP3X means a 3 rating against foreign body intrusion, but no moisture resistance rating is stated.
It is important to note that manufacturers themselves cannot apply an IP rating to their devices, except in rare cases. All testing must be administered by an independent, certified agency. Not only does a third-party process lend credibility to a manufacturer's claims of protection, but it also clears up vague or ambiguous marketing lingo like “waterproof”. Also, it is worth noting that an IP rating indicates how well a device operates when a solid object or water enters its enclosure — it does not infer the enclosure is entirely immune to ingress regardless of the rating.
IP Ratings for Antaira’s switches
The physical conditions of the manufacturing floor—from the steamy realms of papermaking to the twisted mazes of hot piping in oil refineries, make it a hostile environment for industrial switches to survive. While some industrial facilities are temperature controlled and clean, the vast majority are not.
Many are continuously very hot and dusty. In other cases, industrial switches can be installed where frequent washdowns occur, particularly in food-handling environments where sanitation and cleanliness are of paramount importance. Others combine intense heat with excessive humidity. Outdoors, challenges are further complicated by adverse weather.
This is bad news for Ethernet switches. Moisture in an Ethernet switch can lead to corrosion, shorts, shock or even fire hazards. Dust ingress will cause irreparable damage. Prolonged exposure to high temperatures will break down an Ethernet switch’s circuits.
Certified resistance to moisture and dust is a requirement if you want your Ethernet switch to run optimally with a minimum of network downtime. Antaira builds industrial Ethernet switches hardened against extreme operational conditions. Antaira industrial switches can withstand exposure to dirt and dust, rain, snow and electronic interference. Antaira industrial switches are enclosed in corrosion-resistant metal casings that prevent crushing damage and ingress of contaminates. Many also feature an extended operating range of -40°C to 70°.
Antaira’s most rugged Ethernet switches carry the IP67 rating, meaning they are completely dustproof, and making them safe if they end up in the pathway of water projectile and spray. M12 connectors on our IP67 industrial switches ensure a tight, robust connection guarantying reliable operation where they are subject to high vibration and shock in dust, liquid, or gas-laden environments.
Henry Martel, Field Application Engineer,