Specifications
Altivar
®
31 Adjustable Speed AC Drives
Mounting
31
4/2005
© 2004–2005 Schneider Electric All Rights Reserved
Mounting in a Type 12 or IP54 metal enclosure
Calculating enclosure size
For the power dissipated by the drive controllers at
rated load, see the tables on pages 10–11.
Contact the enclosure manufacturer for K factors.
The equation for calculating Rth (° C/W), the maximum allowable thermal
resistance of the enclosure, is as follows:
The useful heat exchange surface area, S (in
2
), of a wall-mounted enclosure
generally consists of the sides, top, and front. Calculate the minimum surface
area required for a drive controller enclosure as follows:
Consider the following points when sizing the enclosure:
• Use only metal enclosures, since they have good thermal conduction.
• Do not install enclosures where external heat sources (such as direct
sunlight) can add to the enclosure heat load. This procedure does not
consider radiant or convected heat load from external sources.
• If additional devices are present inside the enclosure, consider the heat
load of those devices in the calculation.
• The actual useful area for convection cooling of the enclosure varies
depending on the mounting method. The mounting method must allow for
free air movement over all surfaces considered for convection cooling.
Example The following example calculates the enclosure size for an ATV31HU40N4
(5 hp) drive mounted in a Type 12 or IP54 enclosure.
• Maximum external temperature: T
o
= 25 °C
• Power dissipated inside the enclosure: P = 150 W
• Maximum internal temperature: T
i
= 40 ° C
• Thermal resistance per square inch of the enclosure: K = 186
Maximum allowable thermal resistance,
Rth
Minimum useful heat exchange surface area,
S
Useful heat exchange surface area (S) of
the proposed wall-mounted enclosure
Height: 28 in. (711 mm)
Width: 24 in. (610 mm)
Depth: 12 in. (305 mm)
If the selected enclosure does not provide the required surface area or does
not meet application needs, consider the following options:
• Use a larger enclosure.
• Add a passive heat exchanger to the enclosure.
• Add an air conditioning unit to the enclosure.
Ventilation
NOTE: Where condensation is possible, keep
the drive controller powered up when the motor
is not running, or install thermostatically
controlled strip heaters.
When mounting the drive controller inside a Type 12 or IP54 enclosure, follow
these ventilation precautions:
• Observe the minimum clearance distances shown on page 29.
• If necessary, install a stirring fan to circulate the air inside the enclosure,
to prevent hot spots in the drive controller and to distribute the heat
uniformly to surfaces used for convection cooling.
Rth
T
i
T
o
–
P
-----------------=
T
o
Max. external ambient temp. (°C) around the enclosure=
P Total power dissipated in the enclosure (W)=
T
i
Max. internal ambient temp. (°C) around the controller=
S
K
Rth
----------=
K Thermal resistance per square inch of the enclosure =
Rth Thermal resistance of the enclosure (calculated previously) =
Rth
40 °C 25 °C–
150 W
------------------------------------0.115°C/W==
S
186
0.115
--------------- 1624.4 in.
2
==
S2428×()24 12×()228 12×()+ + 1632 in.
2
==
front area top area side area
Courtesy of Steven Engineering, Inc.-230 Ryan Way, South San Francisco, CA 94080-6370-Main Office: (650) 588-9200-Outside Local Area: (800) 258-9200-www.stevenengineering.com