Calculating enclosure size, Altivar, 58 trx ac drives – Schneider Electric ALTIVAR 58 TRX User Manual

Altivar

®

58 TRX AC Drives

Installation Recommendations

99

09/2003

©

2000–2003 Schneider Electric All Rights Reserved

Calculating Enclosure Size

The equation for calculating Rth (

°

C/W), the maximum allowable thermal resistance of the enclosure, is:

Useful heat exchange surface area, S (in

2

), of a wall-mounted enclosure generally consists of the sides,

top, and front. The minimum surface area required for a drive controller enclosure is calculated as
follows.

NOTE: Contact enclosure manufacturer for K factors.

Consider the following points when sizing the enclosure:

• Use only metallic enclosures since they have good thermal conduction.

• This procedure does not consider radiant or convected heat load from external sources. Do not install

enclosures where external heat sources (such as direct sunlight) can add to enclosure heat load.

• If additional devices are present inside the enclosure, consider the heat load of the devices in the

calculation.

• The actual useful area for convection cooling of the enclosure will vary depending upon the method

of mounting. The method of mounting must allow for free air movement over all surfaces considered
for convection cooling.

The following example illustrates calculation of the enclosure size for an ATV58HU29N4 (2 HP) drive
controller mounted in a Type 12 enclosure.

• Maximum external temperature: T

o

= 25

°

C

• Power dissipated inside enclosure: P = 97 W (from ratings tables; see page 10)

• Maximum internal temperature: T

i

= 40

°

C

• Thermal resistance per square inch of enclosure: K = 186

• Calculate maximum allowable thermal resistance, Rth:

• Calculate minimum useful heat exchange surface area, S:

Useful heat exchange surface area (S) of the proposed wall-mounted enclosure:

• Height: 24 in (610 mm)

• Width: 20 in (508 mm)

• Depth: 12 in (305 mm)

Since the surface area of the enclosure is greater than the minimum required surface area (1162.5 in

2

),

the enclosure is sufficiently large for this particular ATV58 TRX model.

Note that if the selected enclosure did not provide the required surface area or did not meet application
needs, then the following would need to be considered:

• Use a larger enclosure.

• Add a passive heat exchanger to the enclosure.

• Add an air conditioning unit to the enclosure.

Rth

T

i

T

o

–

P

-----------------

=

T

i

Max. internal ambient temp. (°C) around drive controller

=

T

o

Max. external temp. (°C) around enclosure

=

P

Total power dissipated in enclosure (W)

=

S

K

Rth

----------

=

Rth

Thermal resistance of the enclosure (calculated previously)

=

K

Thermal resistance per square inch of the enclosure.

=

Rth

40 °C

25 °C

–

97 W

------------------------------------

0.16 °C/W

=

=

S

186

0.16

-----------

1162.5 in

2

=

=

S

24

20

Ч

(

)

20

12

Ч

(

)

2 24

12

Ч

(

)

+

+

1296 in

2

=

=

front area

top area

side area