Thermal considerations, Continued), Heat transfer via convection – GE Industrial Solutions EHW015A0A Series (Eighth-Brick) User Manual

Data Sheet

October 2, 2009

EHW015A0A Series Eighth-Brick Power Modules

36–75Vdc Input; 5.0Vdc Output; 15A Output Current

LINEAGE

POWER

9

Thermal Considerations

(continued)

Figure 13. T

ref

Temperature Measurement Location

for Open Frame Module.

Figure 14. T

ref

Temperature Measurement Location

for Module with Heatplate.

Heat Transfer via Convection

Increased airflow over the module enhances the heat
transfer via convection. Derating curves showing the
maximum output current that can be delivered by the
open frame module versus local ambient temperature
(T

A

) for natural convection and up to 3m/s (600 ft./min)

forced airflow are shown in Figure 15.

OUT

P

UT

C

URR

E

N

T, I

O

(A

)

0

2

4

6

8

10

12

14

16

20

30

40

50

60

70

80

90

1.0 m/s

(200 LFM)

2.0 m/s

(400 LFM)

3.0 m/s

(600 LFM)

0.5 m/s

(100 LFM)

NC

AMBIENT TEMEPERATURE, T

A

(

o

C

)

Figure 15. Output Current Derating for the Open
Frame Module; Airflow in the Transverse Direction
from Vout(+) to Vout(-); Vin =48V.
For additional power, the module is available with an
optional heatplate (-H), that allows for the use of heat
sinks to improve the thermal derating. Derating curves
showing the maximum output current that can be
delivered by the heatplate module with different heat
sink heights versus local ambient temperature (T

A

) for

natural convection and up to 3m/s (600 ft./min) forced
airflow are shown in Figures 16 -19.

OUT

P

UT C

URR

EN

T,

I

O

(A

)

0

2

4

6

8

10

12

14

16

20

30

40

50

60

70

80

90

1.0 m/s

(200 LFM)

2.0 m/s

(400 LFM)

3.0 m/s

(600 LFM)

0.5 m/s

(100 LFM)

NC

AMBIENT TEMEPERATURE, T

A

(

o

C

)

Figure 16. Output Current Derating for the Module
with Heatplate; Airflow in the Transverse Direction
from Vout(+) to Vout(-); Vin =48V.

O

U

TPU

T

CU

RRE

NT

, I

O

(A

)

0

2

4

6

8

10

12

14

16

20

30

40

50

60

70

80

90

1.0 m/s

(200 LFM)

2.0 m/s

(400 LFM)

3.0 m/s

(600 LFM)

0.5 m/s

(100 LFM)

NC

AMBIENT TEMEPERATURE, T

A

(

o

C

)

Figure 17. Output Current Derating for the Module
with Heatplate and 0.25 in. heat sink; Airflow in the
Transverse Direction from Vout(+) to Vout(-); Vin
=48V.

O

U

T

P

UT

CU

RRE

NT

, I

O

(A

)

0

2

4

6

8

10

12

14

16

20

30

40

50

60

70

80

90

1.0 m/s

(200 LFM)

2.0 m/s

(400 LFM)

3.0 m/s

(600 LFM)

0.5 m/s

(100 LFM)

NC

AMBIENT TEMEPERATURE, T

A

(

o

C

)

Figure 18. Output Current Derating for the Module
with Heatplate and 0.5 in. heat sink; Airflow in the
Transverse Direction from Vout(+) to Vout(-); Vin
=48V.

AIRFLOW

AIRFLOW