LTM8058MPY#PBF Datasheet LTM8058IY#PBF, LTM8058MPY#PBF, LTM8058MPY | P4-P6

LTM8058

4

8058fa

For more information www.linear.com/LTM8058

TYPICAL PERFORMANCE CHARACTERISTICS

Efficiency vs Output Current

Input Current vs Output Current

Efficiency vs Output Current

Input Current vs Output Current

Efficiency vs Output Current

Input Current vs Output Current

Unless otherwise noted, operating conditions are

as in Table 1 (T

A

= 25°C).

OUTPUT CURRENT (mA)

0

EFFICIENCY (%)

60

65

400

8058 G01

55

50

100

200

300

75

12V

IN

V

OUT1

= 2.5V

BIAS = 5V

24V

IN

70

OUTPUT CURRENT (mA)

0

50

EFFICIENCY (%)

55

60

65

70

12V

IN

24V

IN

75

80

V

OUT1

= 3.3V

BIAS = 5V

100 200 300 400

8058 G02

OUTPUT CURRENT (mA)

0

50

EFFICIENCY (%)

55

60

65

70

12V

IN

24V

IN

75

80

V

OUT1

= 5V

BIAS = 5V

100 200 300 400

8058 G03

OUTPUT CURRENT (mA)

0

85

12V

IN

24V

IN

80

75

70

65

60

55

50

150 250

8058 G04

50 100

200 300

EFFICIENCY (%)

V

OUT1

= 8V

BIAS = 5V

OUTPUT CURRENT (mA)

0

70

75

85

12V

IN

24V

IN

150

8058 G05

65

60

50 100 200

55

50

80

EFFICIENCY (%)

V

OUT1

= 12V

BIAS = 5V

OUTPUT CURRENT (mA)

1

INPUT CURRENT (mA)

50

60

70

400

8058 G06

40

30

20

0

100

200

300

10

90

12V

IN

24V

IN

V

OUT1

= 2.5V

BIAS = 5V

80

OUTPUT CURRENT (mA)

0

INPUT CURRENT (mA)

10

30

40

50

100

12V

IN

24V

IN

70

100

200

8058 G07

20

80

90

60

300

400

V

OUT1

= 3.3V

BIAS = 5V

OUTPUT CURRENT (mA)

0

80

100

140

12V

IN

24V

IN

300

8058 G08

60

40

100 200 400

20

0

120

INPUT CURRENT (mA)

V

OUT1

= 5V

BIAS = 5V

OUTPUT CURRENT (mA)

0

INPUT CURRENT (mA)

20

60

80

100

200

180

12V

IN

24V

IN

8058 G09

40

100

50

250

150 300

120

140

160

V

OUT1

= 8V

BIAS = 5V

LTM8058

5

8058fa

For more information www.linear.com/LTM8058

TYPICAL PERFORMANCE CHARACTERISTICS

Input Current vs Output Current Bias Current vs Output Current

Bias Current vs Output Current

Maximum Output Current vs V

IN

Maximum Output Current vs V

IN

Minimum Required Load

vs Input Voltage

Bias Current vs Output Current Bias Current vs Output Current

Bias Current vs Output Current

Unless otherwise noted, operating conditions are

as in Table 1 (T

A

= 25°C).

OUTPUT CURRENT (mA)

0

INPUT CURRENT (mA)

20

60

80

100

200

12V

IN

24V

IN

140

50

100

8058 G10

40

160

180

120

150

200

V

OUT1

= 12V

BIAS = 5V

OUTPUT CURRENT (mA)

1

BIAS CURRENT (mA)

5

6

7

400

8058 G11

4

3

2

0

100

200

300

1

9

12V

IN

24V

IN

V

OUT1

= 2.5V

BIAS = 5V

8

OUTPUT CURRENT (mA)

0

BIAS CURRENT (mA)

1

3

4

5

10

7

100

200

8058 G12

2

8

9

6

300

400

V

OUT1

= 3.3V

BIAS = 5V

12V

IN

24V

IN

OUTPUT CURRENT (mA)

0

6

8

12

12V

IN

24V

IN

300

8058 G13

4

2

100 200 400

0

10

BIAS CURRENT (mA)

V

OUT1

= 5V

BIAS = 5V

OUTPUT CURRENT (mA)

0

BIAS CURRENT (mA)

2

4

6

8

12

12V

IN

24V

IN

50

100 150 200

8058 G14

250 300

10

V

OUT1

= 8V

BIAS = 5V

OUTPUT CURRENT (mA)

0

8

10

14

12V

IN

24V

IN

150

8058 G15

6

4

50 100 200

2

0

12

BIAS CURRENT (mA)

V

OUT1

= 12V

BIAS = 5V

V

IN

(V)

0

MAXIMUM OUTPUT CURRENT (mA)

100

200

300

400

500

5

10 15 20

8058 G16

25 30

V

OUT1

= 2.5V

V

OUT1

= 3.3V

V

OUT1

= 5V

BIAS = 5V FOR V

IN

≥ 5V

BIAS = V

IN

FOR V

IN

< 5V

V

IN

(V)

0

MAXIMUM OUTPUT CURRENT (mA)

100

200

300

400

5 10 15 20

8058 G17

25 30

V

OUT1

= 8V

V

OUT1

= 12V

BIAS = 5V FOR V

IN

≥ 5V

BIAS = V

IN

FOR V

IN

< 5V

INPUT VOLTAGE (V)

0

MAXIMUM REQUIRED LOAD (mA)

25

30

35

40

8058 G18

20

15

10

0

10

20

30

5

45

40

V

OUT1

= 2.5V

V

OUT1

= 3.3V

V

OUT1

= 5V

BIAS = 5V FOR V

IN

≥ 5V

BIAS = V

IN

FOR V

IN

< 5V

LTM8058

6

8058fa

For more information www.linear.com/LTM8058

Minimum Required Load

vs Input Voltage

TYPICAL PERFORMANCE CHARACTERISTICS

Typical Output Ripple 100mA

Output Current, V

IN

= 12V

DC1988 V

OUT1

Start-Up Behavior

for Different C

SS

Values

Typical Switching Frequency vs

Output Current Stock DC1988A

Unless otherwise noted, operating conditions are

as in Table 1 (T

A

= 25°C).

INPUT VOLTAGE (V)

0

*SEE APPLICATIONS INFORMATION SECTION

FOR DISCUSSION OF 12V

OUT

MINIMUM LOAD

0

MINIMUM REQUIRED LOAD (mA)

5

10

15

20

25

5

10 15 20

8058 G19

25 30

V

OUT1

= 8V

V

OUT1

= 12V*

BIAS = 5V FOR V

IN

≥ 5V

BIAS = V

IN

FOR V

IN

< 5V

V

OUT1

5mV/DIV

V

OUT2

500µV/DIV

500ns/DIV

MEASURED ON DC1988 WITH ADDIONAL 1µF

AND BNC ATTACHED TO OUTPUT TERMINALS.

C7 = 0.1µF. USED HP461A 150MHz AMPLIFIER,

SET TO 40dB GAIN.

8058 G20

1V/DIV

C

SS

= 0.01µF

C

SS

= 0.1µF

NO C

SS

200µs/DIV

100mA RESISTIVE LOAD

8058 G21

OUTPUT CURRENT (mA)

0

SWITCHING FREQUENCY (kHz)

100

300

400

500

100

200

250

900

5V

IN

12V

IN

8058 G22

200

50 150

600

700

800

Input Current

vs V

IN

, V

OUT1

Shorted

Input Current

vs V

IN

, V

OUT2

Shorted

Junction Temperature Rise

vs Load Current

Junction Temperature Rise

vs Load Current

V

OUT2

Dropout

V

IN

(V)

INPUT CURRENT (mA)

80

70

60

20

40

10

30

50

8058 G23

0 12 3220 28241684

V

IN

(V)

INPUT CURRENT (mA)

225

200

175

75

125

50

100

150

8058 G24

0 4020 3010

V

OUT2

LOAD CURRENT (mA)

V

OUT2

DROPOUT VOLTAGE (V)

0.7

0.6

0.5

0.4

0.3

0.2

0

0.1

8058 G25

0 100 300200 25015050

–40°C

125°C

25°C

V

OUT2

= 3.3V

V

OUT2

LOAD CURRENT (mA)

TEMPERATURE RISE (°C)

10

9

8

4

6

0

5

7

2

3

1

8058 G26

0 100 300200 25015050

3.3V

IN

5V

IN

12V

IN

24V

IN

V

OUT2

= 1.2V

V

OUT2

LOAD CURRENT (mA)

TEMPERATURE RISE (°C)

10

9

8

4

6

0

5

7

2

3

1

8058 G27

0 100 300200 25015050

3.3V

IN

5V

IN

12V

IN

24V

IN

V

OUT2

= 1.5V

LTM8058MPY#PBF

LTM8058MPY#PBF

Products related to this Datasheet