Rockwell Automation 8520 9/Series CNC Integration Maintenance Manual Documentation Set User Manual

Section 2A

Planning Your System Layout

2A-7

Example of Calculating Cabinet Temperature

A design example of a cabinet is given below assuming a component-type

frame incorporating the following:

Main Power Supply (PS1)

225 watts @ 50

0

C

Main Power Supply (PS2A)

130 watts @ 50

0

C

CPU Board

33.5 watts

3-axis Digital Servo module

13.5 watts

The total heat generation (W) for this example would be 47W.

1.

Determine a minimum T value for the equation in the

previous section:

a.

Estimate the maximum air temperature at the location where the

cabinet will be installed.

b.

Subtract this estimate from the maximum internal cabinet temperature
for your application (if you use 55

°

C, there is no margin for error).

The difference is the allowable temperature rise in the cabinet (T).

For example, assume a maximum air temperature of 35

°

C and a

desired maximum internal cabinet temperature of 45

°

C, The

value of T would be 45 - 35 = 10

2.

Using the W and T values just derived, calculate the minimum heat

radiation surface area, S.

T = W/6S

S = W/6T

= 47/(6 x 10)

= 0.783 sq. meter (8.4 sq. feet)

This result indicates that a cabinet with a minimum of 0.783 m

2

(8.4 ft

2

) of heat radiation surface is required.

Important: Any cabinet surface in contact with the floor or building wall

is not considered a heat radiation surface in this calculation.

If the resulting cabinet size is prohibitively large, or if the T value

calculated was 10 or more, then the use of a heat exchanger or air

conditioner must be considered. Such designs require more detailed

analysis, beyond that considered within scope of this manual.

Important: The temperature rise value used in this calculation is a

constant. Actual temperature rise will vary depending on the amount of air

flow inside the cabinet.