ATH010A0X3 Datasheet ATH010A0X3, ATH010A0X43, ATH010A0X43Z | P7-P9

GE

Data Sheet

Austin Lynx

TM

II: SIP Non-Isolated DC-DC Power Modules

2.4Vdc –5.5Vdc input; 0.75Vdc to 3.63Vdc output; 10A Output Current

October 2, 2015

Page

7

Characteristic Curves (continued)

The following figures provide typical characteristics for the Austin Lynx

TM

II SIP modules at 25ºC.

INPUT CURRENT, I

IN

(A)

0

1

2

3

4

5

6

7

8

9

10

0.5

1.5 2.5

3.5 4.5 5.5

Io=5A

Io=0A

Io=10A

OUTPUT CURRENT, OUTPUT VOLTAGE

I

O

(A) (5A/div) V

O

(V) (200mV/div)

INPUT VOLTAGE, V

IN

(V)

TIME, t (10µs/div)

Figure 7. Input voltage vs. Input Current (Vo = 2.5Vdc).

Figure 10. Transient Response to Dynamic Load Change

from 50% to 100% of full load (Vo = 3.3Vdc).

OUTPUT VOLTAGE

V

O

(V) (20mV/div)

OUTPUT CURRENT, OUTPUT VOLTAGE

I

O

(A) (5A/div) V

O

(V) (200mV/div)

TIME, t (2µs/div)

TIME, t (10µs/div)

Figure 8. Typical Output Ripple and Noise

(Vin = 5.0V dc, Vo = 0.75, Vdc, Io=10A).

Figure 11. Transient Response to Dynamic Load Change

from 100% to 50% of full load (Vo = 3.3 Vdc).

OUTPUT VOLTAGE

V

O

(V) (20mV/div)

OUTPUT CURRENT, OUTPUT VOLTAGE

I

O

(A) (5A/div) V

O

(V) (200mV/div)

TIME, t (2µs/div)

TIME, t (20µs/div)

Figure 9. Typical Output Ripple and Noise

(Vin = 5.0V dc, Vo = 3.3 Vdc, Io=10A).

Figure 12. Transient Response to Dynamic Load Change

from 50% to 100% of full load (Vo = 3.3 Vdc, Cext = 2x150

μF Polymer Capacitors).

GE

Data Sheet

Austin Lynx

TM

II: SIP Non-Isolated DC-DC Power Modules

2.4Vdc –5.5Vdc input; 0.75Vdc to 3.63Vdc output; 10A Output Current

October 2, 2015

Page

8

Characteristic Curves (continued)

The following figures provide typical characteristics for the Austin Lynx

TM

II SIP modules at 25ºC.

OUTPUT CURRENT, OUTPUT VOLTAGE

I

O

(A) (5A/div) V

O

(V) (200mV/div)

OUTPUT VOLTAGE INPUT VOLTAGE

V

O

V) (1V/div) V

NN

(V) (2V/div)

TIME, t (20µs/div)

TIME, t (2 ms/div)

Figure 13. Transient Response to Dynamic Load Change

from 100% of 50% full load (Vo = 3.3 Vdc, Cext = 2x150 μF

Polymer Capacitors).

Figure 16. Typical Start-Up with application of Vin

(Vin = 5.0Vdc, Vo =3.3Vdc, Io =10A).

OUTPUT VOLTAGE On/Off VOLTAGE

V

O

V) (1V/div) V

On/off

(V) (2V/div)

OUTPUT VOLTAGE On/Off VOLTAGE

V

O

V) (1V/div) V

On/off

(V) (2V/div)

TIME, t (2 ms/div)

Figure 14. Typical Start-Up Using Remote On/Off (Vin =

5.0Vdc, Vo = 3.3Vdc, Io = 10.0A).

Figure 17 Typical Start-Up Using Remote On/Off with

Prebias (Vin = 3.3Vdc, Vo = 1.8Vdc, Io = 1.0A, Vbias

=1.0Vdc).

OUTPUT VOLTAGE On/Off VOLTAGE

V

O

V) (1V/div) V

On/off

(V) (2V/div)

OUTPUT CURRENT,

I

O

(A) (10A/div)

TIME, t (2 ms/div)

TIME, t (10ms/div)

F

igure 15. Typical Start-Up Using Remote On/Off with Low-

ESR external capacitors (Vin = 5.5Vdc, Vo = 3.3Vdc, Io =

10.0A, Co = 1050

µ

F).

Figure 18. Output short circuit Current (Vin = 5.0Vdc,

Vo = 0.75Vdc).

GE

Data Sheet

Austin Lynx

TM

II: SIP Non-Isolated DC-DC Power Modules

2.4Vdc –5.5Vdc input; 0.75Vdc to 3.63Vdc output; 10A Output Current

October 2, 2015

Page

9

Characteristic Curves (continued)

The following figures provide thermal derating curves for the Austin Lynx

TM

II SIP modules.

OUTPUT CURRENT, Io (A)

0

2

4

6

8

10

12

20 30 40 50 60 70 80 90

NC

100 LFM

OUTPUT CURRENT, Io (A)

0

2

4

6

8

10

12

20 30 40 50 60 70 80 90

NC

100 LFM

AMBIENT TEMPERATURE, T

A

O

C

AMBIENT TEMPERATURE, T

A

O

C

Figure 19. Derating Output Current versus Local Ambient

Temperature and Airflow (Vin = 5.0, Vo=0.75Vdc).

Figure 22. Derating Output Current versus Local Ambient

Temperature and Airflow (Vin = 5.0dc, Vo=3.3 Vdc).

OUTPUT CURRENT, Io (A)

0

2

4

6

8

10

12

20 30 40 50 60 70 80 90

NC

100 LFM

OUTPUT CURRENT, Io (A)

0

2

4

6

8

10

12

20 30 40 50 60 70 80 90

NC

AMBIENT TEMPERATURE, T

A

O

C

AMBIENT TEMPERATURE, T

A

O

C

Figure 20. Derating Output Current versus Local Ambient

Temperature and Airflow (Vin = 5.0Vdc, Vo=1.8 Vdc).

Figure 23. Derating Output Current versus Local Ambient

Temperature and Airflow (Vin = 3.3Vdc, Vo=2.5 Vdc).

OUTPUT CURRENT, Io (A)

0

2

4

6

8

10

12

20 30 40 50 60 70 80 90

NC

100 LFM

AMBIENT TEMPERATURE, T

A

O

C

Figure 21. Derating Output Current versus Local Ambient

Temperature and Airflow (Vin = 5.0Vdc, Vo=2.5 Vdc).

ATH010A0X3

ATH010A0X3

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