Characteristic curves, Austin superlynx – GE Industrial Solutions Austin Superlynx II SIP User Manual

Data Sheet
October 2, 2009

Austin Superlynx

TM

II SIP Non-isolated Power Modules:

2.4 – 5.5Vdc input; 0.75Vdc to 3.3Vdc Output; 16A output current

LINEAGE

POWER

6

Characteristic Curves

The following figures provide typical characteristics for the Austin SuperLynx

TM

II SIP modules at 25ºC.

72

75

78

81

84

87

90

0

4

8

12

16

V

IN

= 5.5V

V

IN

= 5.0V

V

IN

= 3.0V

72

75

78

81

84

87

90

93

96

0

4

8

12

16

V

IN

= 5.5V

V

IN

= 5.0V

V

IN

= 3.0V

EF

FI

C

IEN

C

Y

, η

(%)

OUTPUT CURRENT, I

O

(A)

EF

FI

C

IEN

C

Y

, η

(%)

OUTPUT CURRENT, I

O

(A)

Figure 1. Converter Efficiency versus Output Current
(Vout = 0.75Vdc).

Figure 4. Converter Efficiency versus Output Current
(Vout = 1.8Vdc).

72

75

78

81

84

87

90

93

0

4

8

12

16

V

IN

= 5.5V

V

IN

= 5.0V

V

IN

= 3.0V

73

76

79

82

85

88

91

94

97

100

0

4

8

12

16

V

IN

= 5.5V

V

IN

= 5.0V

V

IN

= 3.0V

EF

F

IC

IEN

C

Y

, η

(

%

)

OUTPUT CURRENT, I

O

(A)

EF

F

IC

IEN

C

Y

, η

(

%

)

OUTPUT CURRENT, I

O

(A)

Figure 2. Converter Efficiency versus Output Current
(Vout = 1.2Vdc).

Figure 5. Converter Efficiency versus Output Current
(Vout = 2.5Vdc).

70

73

76

79

82

85

88

91

94

0

4

8

12

16

V

IN

= 5.5V

V

IN

= 5.0V

V

IN

= 3.0V

EF

FI

CI

EN

C

Y

, η

(

%

)

OUTPUT CURRENT, I

O

(A)

EF

FI

CI

EN

C

Y

, η

(

%

)

OUTPUT CURRENT, I

O

(A)

Figure 3. Converter Efficiency versus Output Current

(Vout = 1.5Vdc).

Figure 6. Converter Efficiency versus Output Current
(Vout = 3.3Vdc).

76

79

82

85

88

91

94

97

100

0

4

8

12

16

V

IN

= 5.5V

V

IN

= 5.0V

V

IN

= 4.5V