2 × 12a digital dual microdlynx, Non-isolated dc-dc power modules, Datasheet – GE Industrial Solutions 2 × 12A Digital Dual Output MicroDLynx User Manual

GE

Datasheet

2 × 12A Digital Dual MicroDlynx

TM

: Non-Isolated DC-DC Power Modules

4.5Vdc –14.4Vdc input; 0.51Vdc to 5.5Vdc output; 2 × 12A Output Current

February 14, 2014

©2014 General Electric Corporation. All rights reserved.

Page 7

Characteristic Curves

The following figures provide typical characteristics for the 2 × 12A Digital Dual MicroDlynx

TM

at 0.6Vo and 25

o

C.

EFFI

CI

EN

CY

, η

(%

)

OUTPUT

CU

RRENT, Io

(A

)

OUTPUT CURRENT, I

O

(A)

AMBIENT TEMPERATURE, T

A

O

C

Figure 1. Converter Efficiency versus Output Current.

Figure 2. Derating Output Current versus Ambient
Temperature and Airflow.

OU

TP

U

T V

O

LT

AG

ES

V

O

(V

) (3

0m

V/

di

v)

O

U

TPU

T

CU

RR

EN

T,

O

U

TP

UT

VO

LT

AG

E

I

O

(A

) (

5A

di

v)

V

O

(20m

V/

di

v)

TIME, t (1

μs/div)

TIME, t (20

μs /div)

Figure 3. Typical output ripple and noise (C

O

=

2×0.1uF+2×47uF ceramic, V

IN

= 12V, I

o

= I

o1,max,

I

o2,max,

).

Figure 4. Transient Response to Dynamic Load Change from
50% to 100% on one output at 12Vin,
Cout=2x47uF+7x330uF, CTune=12nF, RTune=300Ω

OUT

PU

T V

O

LT

AG

ES

O

N

/O

FF

V

O

LT

AG

E

V

O

(V

) (200mV/div

)

V

ON/OFF

(V

) (

5V

/d

iv

)

O

U

TPU

T

VO

LTA

G

ES

IN

PU

T

VO

LT

AG

E

V

O

(V

) (200

mV/

di

v)

V

IN

(V

) (10

V/div)

TIME, t (2ms/div)

TIME, t (2ms/div)

Figure 5. Typical Start-up Using On/Off Voltage (Vin=12V, I

o

=

I

o1,max,

I

o2,max,

).

Figure 6. Typical Start-up Using Input Voltage (V

IN

= 12V, I

o

=

I

o1,max,

I

o2,max,

).

50

55

60

65

70

75

80

85

90

2x0

2x2

2x4

2x6

2x8

2x10

2x12

Vin=4.5V

Vin=14V

Vin=12V

0

2

4

6

8

10

12

55

60

65

70

75

80

85

Derating curve applies
to Both Outputs