Electrical Equipment IP Ratings - Ingress Protection
The IP Rating is an accepted engineering standard for defining the protection of electrical equipment enclosures from the ingress of solids and liquids such as dust and humidity.
For pressure sensors and associated instrumentation the 2 digit version of the IP rating is used to indicate how well the design will prevent dust and water getting into the electronic enclosure.
IP ratings are important indicators of how protected the external surface of a pressure transducer or digital indicator is going to be for a particular operating environment.
First Digit - Solids
The higher the first digit of the IP rating number the better the protection from dust, sand or dirt particles penetrating the outer enclosure and damaging the internal components.
0 = No protection
1 = Protected against touch by hands (>50mm)
2 = Protected against touch by fingers (>12mm)
3 = Protected against tools and wires (>2.5mm)
4 = Protected against tools and small wires (>1mm)
5 = Limited dust ingress protection
6 = Total dust ingress protection
For example if you are going to use a pressure transmitter on an oil refinery in the middle of the desert you would want a very high protection against sand ingress, but if you were going to use it inside a clean room inside a silicon chip manufacturing facility you would only need a very low level of particle ingress protection.
Second Digit - Liquids
The higher the second digit of the IP rating number the better the ingress protection from water moisture leaking inside and corroding components or shorting out electrical & electronic circuits.
0 = No protection
1 = Protected against condensation
2 = Protected against water spray < 15 degrees from vertical
3 = Protected against water spray < 60 degrees from vertical
4 = Protected against water spray from any direction
5 = Protected against low pressure water jets from any
6 = Protected against high pressure water jets from any
7 = Protected against immersion between 15cm and 1m depth
8 = Protected against long term immersion to a specified
For example if you wanted to immerse pressure transducers in the ocean to monitor the sea depth you would need very high integrity water-proofing, but if you were looking to fit pressure transmitters to an air compressor in a location with a low relative humidity you would only need a very low level protection against fluid penetration.
Please note that the 2 digit IP ratings do not provide any indication of how protected a pressure sensor or instrument will be from impacts or exposure to corrosive fluids and either of these might compromise the integrity of the IP rating if they have not be taken into account.
Courtesy of: www.SensorsONE.co.uk