Characteristic curves, Naos, Continued) – GE Industrial Solutions NaOS NXA025 SIP User Manual

Data Sheet
October 5, 2009

Naos

TM

NXA025 SIP Non-isolated Power Modules:

10 – 14Vdc Input; 0.8Vdc to 5.5Vdc Output; 25A output current

LINEAGE

POWER

6

Characteristic Curves

(continued)

The following figures provide typical characteristics for the NXA025A0X at 25ºC.

O

U

T

P

U

T

VOLTAGE

V

O

(V)

(20mV

/di

v)

TIME, t (1

μs/div)

OUT

P

UT

C

U

R

R

E

N

T

, O

U

T

P

UT

VO

LT

AG

E

I

O

(A

) (5A

/d

iv

)

V

O

(V

) (

50mV

/di

v)

TIME, t (5

μs/div)

Figure 7. Typical Output Ripple and Noise (Vin = 12V
dc, Vo = 3.3 Vdc, Cout = 2x 0.47uF ceramic capacitor).

Figure 10. Transient Response to Dynamic Load
Change from 100% to 50% of full load (Vo = 3.3Vdc).

O

U

TP

U

T

VOLTAGE

V

O

(V

) (2

0m

V

/d

iv)

TIME, t (1

μs/div)

O

U

TPU

T

VOLTAGE,

IN

PU

T V

O

LTA

G

E

V

o

(V

) (1

V

/di

v)

V

IN

(V

) (2

V

/d

iv

)

TIME, t (0.5ms/div)

Figure 8. Typical Output Ripple and Noise (Vin = 12V
dc, Vo = 1.2Vdc, Cout = 2x 0.47uF ceramic capacitor).

Figure 11. Typical Start-Up with application of Vin (Vo
= 3.3Vdc).

O

U

TP

U

T

CU

RR

E

N

T

O

U

TP

U

T

VO

LTA

G

E

I

O

(A

) (5

A

/di

v)

V

O

(V

) (5

0m

V

/d

iv

)

TIME, t (5

μs/div)

OU

TPU

T

V

O

LTAGE

O

n/O

ff VO

LTA

G

E

V

O

V)

(1

V

/d

iv)

V

On

/o

ff

(V

) (

2V

/d

iv

)

TIME, t (0.5ms/div)

Figure 9. Transient Response to Dynamic Load
Change from 50% to 100% of full load (Vo = 3.3Vdc).

Figure 12. Typical Start-Up Using Enable (Vo =
3.3Vdc).