Ehhd036a0f series: dc-dc converter power module, Datasheet, 18 to 75v – GE Industrial Solutions EHHD036A0F HAMMERHEAD Series User Manual

GE

Datasheet

EHHD036A0F Series: DC-DC Converter Power Module

18 to 75V

dc

Input; 3.3V

dc

, 36A, 120W Output

February 28, 2014

©2014 General Electric Corporation. All rights reserved.

Page 10

Thermal Considerations (continued)

OUT

PUT

CURRENT

, I

O

(A

)

AMBIENT TEMEPERATURE, T

A

(

o

C

)

Figure 17. Output Current Derating for the Module with
-18H Heatplate; Airflow in the Transverse Direction from

V

out

(-) to V

out

(+);V

IN

=48V, V

O

=3.3V

OUT

PUT

CURR

ENT,

I

O

(A

)

AMBIENT TEMEPERATURE, T

A

(

o

C

)

Figure 18. Output Current Derating for the Open Frame
Module; Airflow in the Transverse Direction from V

out

(-) to

V

out

(+); V

IN

=24V, V

O

=3.3V.

OUTPUT C

U

RR

EN

T, I

O

(A)

AMBIENT TEMEPERATURE, T

A

(

o

C

)

Figure 19. Output Current Derating for the Module with
Heatplate; Airflow in the Transverse Direction from V

out

(-)

to V

out

(+);V

IN

=24V, V

O

=3.3V.

O

U

TP

UT CURR

ENT,

I

O

(A

)

AMBIENT TEMEPERATURE, T

A

(

o

C

)

Figure 20. Output Current Derating for the Module with
-18 Heatplate; Airflow in the Transverse Direction from
V

out

(-) to V

out

(+);V

IN

=24V, V

O

=3.3V.

Heat Transfer via Conduction

The module can also be used in a sealed environment with
cooling via conduction from the
module’s top surface through a gap pad material to a

cold wall, as shown in Figure 21. This capability is achieved
by insuring the top side component skyline profile achieves
no more than 1mm height difference between the tallest

and the shortest power train part that benefits from contact
with the gap pad material. The output current derating

versus cold wall temperature, when using a gap pad such as
Bergquist GP2500S20, is shown in Figure 22.

Figure 21. Cold Wall Mounting

OUTPUT C

U

RR

EN

T, I

O

(A)

COLDPLATE TEMEPERATURE, T

C

(

o

C)

Figure 22. Derated Output Current versus Cold Wall
Temperature with local ambient temperature around

module at 85C; V

IN

=24V or 48V.

0

4

8

12

16

20

24

28

32

36

30

40

50

60

70

80

90

NC

100LFM
(0.5m/s)

200LFM
(1.0m/s)

400LFM
(2.0m/s)

0

4

8

12

16

20

24

28

32

36

30

40

50

60

70

80

90

NC

100LFM
(0.5m/s)

200LFM
(1.0m/s)

400LFM
(2.0m/s)

0

4

8

12

16

20

24

28

32

36

30

40

50

60

70

80

90

NC

100LFM
(0.5m/s)

200LFM
(1.0m/s)

400LFM
(2.0m/s)

0

4

8

12

16

20

24

28

32

36

30

40

50

60

70

80

90

NC

100LFM
(0.5m/s)

200LFM
(1.0m/s)

400LFM
(2.0m/s)

0

4

8

12

16

20

24

28

32

36

20

30

40

50

60

70

80

90