Convection requirements for cooling (continued), S 50 and, S 50 an – GE Industrial Solutions NH050x-L Series User Manual

NH033x-L and NH050x-L Series Power Modules:

Data Sheet

5 Vdc Input; 1.2 Vdc to 3.3 Vdc Output; 10 A and 15 A

March 2010

16

16

Lineage Power

Thermal Considerations

(continued)

Convection Requirements for Cooling

(continued)

8-2449(C)

Figure 47. NH050G-L Typical Power Dissipation vs.

Output Current, T

A

= 25 °C

8-2444(C)

Figure 48. NH033F-L Typical Power Dissipation vs.

Output Current, T

A

= 25 °C

8-2448(C)

Figure 49. NH050F-L Typical Power Dissipation vs.

Output Current, T

A

= 25 °C

With the known power dissipation and a given local
ambient temperature, the minimum airflow can be cho-
sen from the derating curves in Figures 50 and 51.

8-1425(C).c

Figure 50. NH033x-L Power Derating vs. Local

Ambient Temperature and Air Velocity

2.0

3.0

5.0

4.0

1

3

11

13

0.5

OUTPUT CURRENT, I

O

(A)

1.0

0

7

9

5

15

2

4

6

8

10

12

14

1.5

2.5

4.5

3.5

6.0

5.5

V

I

= 5.5 V

V

I

= 5.0 V

V

I

= 4.5 V

PO

WER DISSIP

A

TION,

P

D

(W)

1

2

6

7

8

9

0.5

3.0

OUTPUT CURRENT, I

O

(A)

2.0

1.5

2.5

10

0

3.5

1.0

4

5

3

V

I

= 5.5 V

V

I

= 5.0 V

V

I

= 4.5 V

PO

WER DISSIP

A

TION,

P

D

(W)

2.0

3.0

5.0

4.0

1

3

11

13

0.5

OUTPUT CURRENT, I

O

(A)

1.0

0

7

9

5

15

2

4

6

8

10

12

14

1.5

2.5

4.5

3.5

6.0

5.5

V

I

= 5.5 V

V

I

= 4.5 V

V

I

= 5.0 V

PO

WER DISSIP

A

TION,

P

D

(W)

0

25

45

55

125

0

2

AMBIENT TEMPERATURE, T

A

(˚C)

PO

WER DISSIP

A

TION, P

D

(W)

35

65

3

4

75

85

95

105 115

1

1.5 m/s (300 ft./min.)

1.0 m/s (200 ft./min.)

0.5 m/s

(100 ft./min.)

NATURAL

CONVECTION

2.0 m/s (400 ft./min.)

3.0 m/s (600 ft./min.)

TYPICAL 5.5 V

I

,

10 A

OUT

DISSIPATION

TYPICAL 5.0 V

I

,

10 A

OUT

DISSIPATION