Heatsink Fan Operation; Ip Rating (Ingress Protection) - Emerson Quantum MP User Manual

High performance dc drive size 1 and size 2 45a to 700a, 480v two or four quadrant operation

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Safety

Product

Mechanical

Information

Installation

enclosure

Maximum permissible temperature in

int

enclosure

Power in Watts dissipated by all heat sources in the

enclosure

Heat transmission coefficient of the enclosure material

in W/m

Example

To calculate the size of an enclosure for the following:

•

Two QMP25A4 models operating under full load conditions

•

Maximum ambient temperature inside the enclosure: 40C

•

Maximum ambient temperature outside the enclosure: 30C

Dissipation of each drive: 125W

Dissipation from other heat generating equipment in the enclosure. 11W

(max).

Total dissipation: 2 x (125 + 11) = 272W

The enclosure is to be made from painted 2mm (0.079in) sheet steel

having a heat transmission coefficient of 5.5 W/m

front, and two sides of the enclosure are free to dissipate heat.

The value of 5.5 W/m

/ºC can generally be used with a sheet steel

enclosure (exact values can be obtained by the supplier of the material).

If in any doubt, allow for a greater margin in the temperature rise.

Figure 3-10 Enclosure having front, sides and top panels free to

dissipate heat

Insert the following values:

40C

int

30C

ext

5.5

272W

The minimum required heat conducting area is then:

272W

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





5.5 40 30

–

= 4.945 m

(53.90 ft

) (1 m

Estimate two of the enclosure dimensions - the height (H) and depth (D),

for instance. Calculate the width (W) from:

2HD

–

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

Inserting H = 2m and D = 0.6m, obtain the minimum width:





4.945

0.6

–

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

0.6

=0.979 m (38.5 in)

If the enclosure is too large for the space available, it can be made

smaller only by attending to one or all of the following:

•

Reducing the ambient temperature outside the enclosure, and/or

applying forced-air cooling to the outside of the enclosure

Electrical

Getting

Basic

Installation

Started

parameters

C inside the

C. Only the top,

= 10.9 ft

)



Running the

SMARTCARD

Optimization

Motor

Operation

•

Reducing the number of drives in the enclosure

•

Removing other heat-generating equipment

Calculating the air-flow in a ventilated enclosure

The dimensions of the enclosure are required only for accommodating

the equipment. The equipment is cooled by the forced air flow.

Calculate the minimum required volume of ventilating air from:

3kP

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

–

int

Where:

Air-flow in m

Maximum expected temperature in C outside the

ext

enclosure

Maximum permissible temperature in C inside the

int

enclosure

Power in Watts dissipated by all heat sources in the

enclosure

Ratio of

Where:

is the air pressure at sea level

is the air pressure at the installation

Typically use a factor of 1.2 to 1.3, to allow also for pressure-drops in

dirty air-filters.

Example

To calculate the size of an enclosure for the following:

•

Three QMP45A4 models operating under full load conditions

•

Maximum ambient temperature inside the enclosure: 40C

•

Maximum ambient temperature outside the enclosure: 30C

Dissipation of each drive: 168W

Dissipation from other heat generating equipment. 15 W

Total dissipation: 3 x (168 + 15) = 549W

Insert the following values:

40C

int

30C

ext

1.3

549W

Then:



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

40 30

= 214.1 m

3.6