1 how to read the diagram, 2 airflow, Figure 4-2: operational limits for the am4210 – Kontron AM4210 User Manual

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AM4210

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4.2.2.1

How to read the diagram

The diagram contains one curve for 80% thermal load and one for 100%. Full thermal load is not expected to
be reached under real operating conditions. For a given flow rate there is a maximum airflow input
temperature (= ambient temperature) provided. Below this operating point, a safe operation is guaranteed.
Above this operating point, the chassis thermal management must become active and take the necessary
steps to protect the AMC from thermal destruction.

4.2.2.2

Airflow

At a given cross-sectional area and a required flow rate, an average, homogeneous airflow speed can be
calculated using the following formula:

Airflow = Volumetric flow rate / area.

The airflow is specified in m/s = meter-per-second or in LFM = linear-feet-per-minute, respectively.

Conversion: 1 LFM = 0.00508 m/s; 1 m/s = 196.85 LFM

The following figure illustrates the operational limits of the AM4210 taking into consideration power
consumption vs. ambient air temperature vs. airflow rate. The values are based on simulation data taking
into account the actual power values of all components.

Figure 4-2:Operational Limits for the AM4210

WARNING

In all situations, the maximum specified case temperature of the components must
be kept below the maximum allowable temperature.

-20,00

-10,00

0,00

10,00

20,00

30,00

40,00

50,00

60,00

70,00

80,00

90,00

0

100

200

300

400

500

600

FLOW (LFM)

MA

X

. I

N

LE

T

T

E

MP

. (

°C

)

0,00

0,50

1,00

1,50

2,00

2,50

3,00

FLOW (m/s)

100% TDP

80% TDP