Characteristic curves, Austin lynx, Continued) – GE Industrial Solutions Austin Lynx 24V User Manual

Data Sheet
September 10, 2013

Austin Lynx

TM

24V: Non-isolated Power Modules:

18/20– 30/32Vdc input; 3 – 6Vdc & 5 – 15Vdc Output; 30/50W

LINEAGE

POWER

8

Characteristic Curves

(continued)

The following figures provide typical characteristics for the AXB050X module at 12V, 4A and 25

o

C.

EF

FI

CI

EN

C

Y

, η

(%)

70

75

80

85

90

95

100

0

1

2

3

4

Vin=30V

Vin=24V

Vin=20V

O

U

T

P

UT

CU

RRE

NT

, I

o

(A

)

0

1

2

3

4

5

20

30

40

50

60

70

80

90

100

NC

100 lfm

(0.5m/s)

OUTPUT CURRENT, I

O

(A)

AMBIENT TEMPERATURE, T

A

O

C

Figure 13. Converter Efficiency versus Output
Current.

Figure 16. Derating Output Current versus Local
Ambient Temperature and Airflow.

O

U

T

P

UT

VO

LT

AG

E

V

O

(V

) (1

0m

V/

di

v)

O

n/O

ff V

O

LT

A

G

E

OUT

P

UT

VO

LT

AG

E

V

On

/o

ff

(V)

(1

0V

/d

iv

)

V

O

(V

) (5

V

/d

iv

)

TIME, t (1

μs/div)

TIME, t (2ms/div)

Figure 14. Typical output ripple and noise (V

IN

=

V

IN,NOM

, I

o

= I

o,max

).

Figure 17. Typical Start-up Using Remote On/Off (V

IN

= V

IN,NOM

, I

o

= I

o,max

).

OU

TPU

T

CURR

E

N

T

OU

TPU

T

VO

LT

AG

E

I

O

(

A

) (

2A

/d

iv

)

V

O

(V

) (1

00

mV

/d

iv

)

IN

PU

T

VO

LTAGE

O

U

TP

UTVOLTAGE

V

IN

(V)

(2

0V

/d

iv

)

V

O

(V

)

(5V/

div

)

TIME, t (10

μs /div)

TIME, t (2ms/div)

F

igure 15. Transient Response to Dynamic Load

change from 50% to 100% of full load with di/dt of
5A/

μs.

Figure 18. Typical Start-up Using Input Voltage (V

IN

= 20V, I

o

= I

o,max

).