Difference between revisions of "Weather rating"

From Open Source Solar Project
Jump to navigation Jump to search
 
(One intermediate revision by the same user not shown)
Line 112: Line 112:
  
 
<!--T:13-->
 
<!--T:13-->
The National Equipment Manufacturers Association (NEMA) rating system is primarily used in North America as the [[Electrical codes|national electrical codes]] mandate that the NEMA rating system is used. The NEMA rating system differs from the IP rating system in that increasing numbers do not signify that the enclosure offers better protection than the number that proceeds it. For example, types 3, 4 and 6 are intended for outdoor use, but type 5 is not. <ref name="nemaratings"> NEMA: Enclosure types https://www.nema.org/docs/default-source/products-document-library/nema-enclosure-types.pdf</ref> Equipment for off-grid PV systems will fall into ratings 1-5.
+
The National Equipment Manufacturers Association (NEMA) rating system is primarily used in North America as the [[Special:MyLanguage/Electrical codes|national electrical codes]] mandate that the NEMA rating system is used. The NEMA rating system differs from the IP rating system in that increasing numbers do not signify that the enclosure offers better protection than the number that proceeds it. For example, types 3, 4 and 6 are intended for outdoor use, but type 5 is not. <ref name="nemaratings"> NEMA: Enclosure types https://www.nema.org/docs/default-source/products-document-library/nema-enclosure-types.pdf</ref> Equipment for off-grid PV systems will fall into ratings 1-5.
  
 
<!--T:14-->
 
<!--T:14-->
Line 123: Line 123:
 
! NEMA Type || Definition <ref name="nemaratings"/>
 
! NEMA Type || Definition <ref name="nemaratings"/>
 
|-
 
|-
| 1 || General-purpose. Protects against dust, light, and indirect splashing but is not dust-tight; primarily prevents contact with live parts; used indoors and under normal atmospheric conditions.
+
| 1 || Indoor use. Protects against dust, light, and indirect splashing but is not dust-tight; primarily prevents contact with live parts; used indoors and under normal conditions.
 
|-
 
|-
| 2 || Drip-tight. Similar to Type 1 but with addition of drip shields; used where condensation may be severe (as in cooling and laundry rooms).
+
| 2 || Indoor use. Drip-tight. Similar to Type 1 but with addition of drip shields; used where condensation may be severe (as in cooling and laundry rooms).
 
|-
 
|-
| 3 || Weather-resistant. Protects against falling dirt and windblown dust, against weather hazards such as rain, sleet and snow, and is undamaged by the formation of ice.  Used outdoors on ship docks, in construction work, and in tunnels and subways.
+
| 3 || Indoor or outdoor use. Weather-resistant. Protects against falling dirt and windblown dust, against weather hazards such as rain, sleet and snow, and is undamaged by the formation of ice.  Used outdoors on ship docks, in construction work, and in tunnels and subways.
 
|-
 
|-
| 3R || As 3, but ''omits'' protection against windblown dust.
+
| 3R || Same as 3, but does not include protection against windblown dust.
 
|-
 
|-
| 3S || As 3, but also operable when laden with ice.
+
| 3S || Same as 3, but also operable when laden with ice.
 
|-
 
|-
 
| 3X, 3RX, 3SX || X indicates additional corrosion protection; commonly used near salt water.
 
| 3X, 3RX, 3SX || X indicates additional corrosion protection; commonly used near salt water.
 
|-
 
|-
| 4 and 4X || Watertight. Used outdoors on ship docks, in dairies, in wastewater treatment plants and breweries. X (as 4X) indicates additional corrosion resistance.
+
| 4 and 4X || Indoor or outdoor use. Watertight. Used outdoors on ship docks, in dairies, in wastewater treatment plants and breweries. X indicates additional corrosion resistance.
 
|-
 
|-
| 5 || Dust-tight. Provided with gaskets or equivalent to exclude dust; used in steel mills and cement plants.
+
| 5 || Indoor use. Dust-tight. Provided with gaskets or equivalent to exclude dust; used in steel mills and cement plants.
 
|-
 
|-
| 6 and 6P || Submersible. Design depends on specified conditions of pressure and time; submersible in water or oil; used in quarries, mines, and manholes.  6 is temporarily submersible, 6P withstands occasional prolonged submersion.  Neither are intended for continuous submersion.
+
| 6 and 6P || Indoor or outdoor use. Submersible. Design depends on specified conditions of pressure and time; submersible in water or oil; used in quarries, mines, and manholes.  6 is temporarily submersible, 6P withstands occasional prolonged submersion.  Neither are intended for continuous submersion.
 
|-
 
|-
| 7 || Certified and labelled for use in locations where specific fire or explosion hazards may exist.
+
| 12 and 12K || Indoor use. provides some protection against dust, falling dirt, and dripping non-corrosive liquids. Meets drip, dust, and rust resistance tests.
 
|-
 
|-
| 8 || Certified and labeled for indoor and outdoor use in locations where specific fire or explosion hazards may exist.
+
| 13 || Indoor use. Primarily used to provide protection against dust, spraying of water and non-corrosive coolants. Meets oil exclusion and rust resistance design tests.
|-
 
| 9 || Certified and labelled for indoor and outdoor use in locations where specific fire or explosion hazards may exist.
 
|-
 
| 10 || Meets specific requires for use in mining applications in the United States.
 
|-
 
| 11 || General-purpose. Protects against the corrosive effects of liquids and gases. Meets drip and corrosion-resistance tests.
 
|-
 
| 12 and 12K || General-purpose. Intended for indoor use, provides some protection against dust, falling dirt, and dripping non-corrosive liquids. Meets drip, dust, and rust resistance tests.
 
|-
 
| 13 || General-purpose. Primarily used to provide protection against dust, spraying of water and non-corrosive coolants. Meets oil exclusion and rust resistance design tests.
 
 
|}
 
|}
  
==Notes== <!--T:16-->
+
==Notes/references== <!--T:16-->
  
 
</translate>
 
</translate>
 
<references/>
 
<references/>

Latest revision as of 15:06, 9 February 2021

Other languages:
English • ‎español

Electrical equipment that comes in an enclosure will and enclosures intended for electrical equipment of any kind will be rated based upon the protection that the enclosure can provide against accidental contact and damage from the entrance of water or objects. It is important to check the rating any enclosure being considered to make sure that it is suitable for the location in which the equipment will be installed. There are two different rating systems that are commonly used globally: National Electrical Manufacturers Association (NEMA) rating and Ingress Protection (IP) rating. The two systems are very similar, but it is not possible to create a direct equivalency between the two.

IP rating

A set of standards created by the International Electrotechnical Commission (IEC). Sometimes also referred to as the Ingress Protection Code (IPC). The code may contain other letters and numbers beyond the first two, but these are not relevant for off-grid PV system design and installation. The first character after IP signifies the protection that the enclosure provides against the entrance of foreign bodies and protection of people from hazardous parts. The second character after IP signifies the protection that the enclosure provides against the entrance of moisture.

Example 1: An enclosure is rated IP 65. What level of protection does it offer?

  • 6 signifies that it is rated as dust-tight.
  • 5 signifies that it is protected against water projected from a nozzle.
IP rating system:
1st letter - protection from solid particles.
2nd letter - protection from liquids.
Code letters First character: Solid particle protection Second character: Liquid ingress protection
IP (Ingress Protection) Single character: 0–6 or letter X Single character: 0–8 or letter X
Mandatory Mandatory

Solid particle protection

The first digit indicates the level of protection that the equipment provides for people from hazardous parts, as well as its level of protection from foreign bodies like dust or objects.[1][2]

Size Effective against Description
X X means there is no data available to specify a protection rating with regard to this criterion.
0 No protection against contact and ingress of objects
1 50mm Any large surface of the body, such as the back of a hand, but no protection against deliberate contact with a body part
2 12.5mm Fingers or similar objects
3 2.5mm Tools, thick wires, etc.
4 1mm Most wires, slender screws, large ants etc.
5 Dust protected Ingress of dust is not entirely prevented, but it must not enter in sufficient quantity to interfere with the satisfactory operation of the equipment.
6 Dust-tight No ingress of dust (dust-tight); complete protection against contact.

Liquid ingress protection

The second defines the level of protection that the equipment has against various forms of moisture (drips, sprays, submersion etc).[1][2]

Level Protection against
X X means there is no data available to specify a protection rating with regard to these criteria.
0 No protection against ingress of water
1 Vertically dripping water
2 Vertically dripping water when tilted at 15°
3 Spraying water up to 60° from vertical
4 Splashing of water from any direction
5 Water jets from any direction
6 Powerful water jets from any direction
6K Powerful water jets with increased pressure from any direction
7 Immersion, up to 1m depth
8 Immersion at more than 1m depth
9K Powerful high-temperature water jets

NEMA rating

The National Equipment Manufacturers Association (NEMA) rating system is primarily used in North America as the national electrical codes mandate that the NEMA rating system is used. The NEMA rating system differs from the IP rating system in that increasing numbers do not signify that the enclosure offers better protection than the number that proceeds it. For example, types 3, 4 and 6 are intended for outdoor use, but type 5 is not. [3] Equipment for off-grid PV systems will fall into ratings 1-5.

Example 1: An enclosure is rated NEMA 3X. What level of protection does it offer and can it be used indoors?

  • A NEMA rating of 3 signifies that it is protected against falling dirt and windblown dust, against weather hazards such as rain, sleet and snow, and is undamaged by the formation of ice. A rating of X means that it carries additional protection against corrosion from salt water.
  • Its ratings exceed what is needed for indoor installation, therefore it is acceptable to use.
NEMA Type Definition [3]
1 Indoor use. Protects against dust, light, and indirect splashing but is not dust-tight; primarily prevents contact with live parts; used indoors and under normal conditions.
2 Indoor use. Drip-tight. Similar to Type 1 but with addition of drip shields; used where condensation may be severe (as in cooling and laundry rooms).
3 Indoor or outdoor use. Weather-resistant. Protects against falling dirt and windblown dust, against weather hazards such as rain, sleet and snow, and is undamaged by the formation of ice. Used outdoors on ship docks, in construction work, and in tunnels and subways.
3R Same as 3, but does not include protection against windblown dust.
3S Same as 3, but also operable when laden with ice.
3X, 3RX, 3SX X indicates additional corrosion protection; commonly used near salt water.
4 and 4X Indoor or outdoor use. Watertight. Used outdoors on ship docks, in dairies, in wastewater treatment plants and breweries. X indicates additional corrosion resistance.
5 Indoor use. Dust-tight. Provided with gaskets or equivalent to exclude dust; used in steel mills and cement plants.
6 and 6P Indoor or outdoor use. Submersible. Design depends on specified conditions of pressure and time; submersible in water or oil; used in quarries, mines, and manholes. 6 is temporarily submersible, 6P withstands occasional prolonged submersion. Neither are intended for continuous submersion.
12 and 12K Indoor use. provides some protection against dust, falling dirt, and dripping non-corrosive liquids. Meets drip, dust, and rust resistance tests.
13 Indoor use. Primarily used to provide protection against dust, spraying of water and non-corrosive coolants. Meets oil exclusion and rust resistance design tests.

Notes/references