Ge energy, 6a austin microlynx, Ii: non-isolated dc-dc power modules – GE Industrial Solutions 6A Austin MicroLynx II User Manual

Page 9: Data sheet, Characteristic curves, Continued)

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GE Energy

Data Sheet

6A Austin MicroLynx

II: Non-Isolated DC-DC Power Modules

8.3Vdc –14Vdc input; 0.75Vdc to 5.5Vdc output; 6A Output Current

October 16, 2012

Page 9

Characteristic Curves

(continued)

The following figures provide thermal derating curves for the Austin MicroLynx

II 12V SMT modules.

UT CURR

ENT,

(A)

1.0m/s (200 LFM )

0.5m/s (100 LFM )

1.5m/s (300 LFM )

2.0m/s (400 LFM )

UT CURR

ENT,

(A)

1.0m/s (200 LFM )

0.5m/s (100 LFM )

1.5m/s (300 LFM )

2.0m/s (400 LFM )

AMBIENT TEMPERATURE, T

Figure 19. Derating Output Current versus Local Ambient
Temperature and Airflow (Vin = 12Vdc, Vo=0.75Vdc).

Figure 22. Derating Output Current versus Local Ambient
Temperature and Airflow (Vin = 12Vdc, Vo=3.3 Vdc).

TPUT

CURRENT,

(

1.0m/s (200 LFM )

0.5m/s (100 LFM )

1.5m/s (300 LFM )

2.0m/s (400 LFM )

TPUT

CURRENT,

(

1.0m/s (200 LFM )

0.5m/s (100 LFM )

1.5m/s (300 LFM )

2.0m/s (400 LFM )

AMBIENT TEMPERATURE, T

Figure 20. Derating Output Current versus Local Ambient

Temperature and Airflow (Vin = 12Vdc, Vo=1.8 Vdc).

Figure 23. Derating Output Current versus Local Ambient

Temperature and Airflow (Vin = 12Vdc, Vo=5.0 Vdc).

OUTPUT CUR

REN

T, Io

(A)

1.0m/s (200 LFM )

0.5m/s (100 LFM )

1.5m/s (300 LFM )

2.0m/s (400 LFM )

AMBIENT TEMPERATURE, T

Figure 21. Derating Output Current versus Local Ambient
Temperature and Airflow

(Vin = 12Vdc, Vo=2.5 Vdc).

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