SGS Thomson Microelectronics L4931CZ80, L4931CZ60, L4931CV40, L4931CV35, L4931CV33 Datasheet

L4931

SERIES

VERY LOW DROP

VOLTAGE REGULATORS WITH INHIBIT

April 1999

■ VERYLOW DROPOUTVOLTAGE(0.4V)

■ VERYLOW QUIESCENTCURRENT

(TYP. 50 µA IN OFF MODE, 600µAINON
MODE)

■ OUTPUTCURRENT UP TO 250 mA

■ LOGIC-CONTROLLEDELECTRONIC

SHUTDOWN

■ OUTPUTVOLTAGESOF 1.25;1.5; 2.5;2.7;

3; 3.3;3.5; 4; 4.5; 4.7; 5; 5.2; 5.5; 6; 8; 12V

■ INTERNALCURRENT AND THERMALLIMIT

■ ONLY2.2µF FOR STABILITY

■ AVAILABLEIN ± 1% (AB) OR 2% (C)

SELECTIONAT 25

o

C

■ SUPPLYVOLTAGEREJECTION:

70db TYP. FOR 5V VERSION

■ TEMPERATURERANGE: -40 TO 125

o

C

DESCRIPTION

The L4931 series are very Low Drop regulators
available in TO-220, SO-8, DPAK, PPAK and
TO-92 packages and in a wide range of output
voltages.
The very Low Drop voltage (0.4V) and the very
low quiescent current make them particularly
suitable for Low Noise, Low Power applications
and specially in batterypoweredsystems.

In PPAK and SO-8 packages a Shutdown Logic
Control function is available TTL compatible. This
means that when the device is used as a local
regulator,it is possible to put a part of the board
in standby, decreasing the total power
consumption. It requires only a 2.2 µF capacitor
for stability allowing space and cost saving.

SCHEMATIC DIAGRAM

PPAK

1

3

DPAK

TO-220

SO-8



TO-92

1/25

ABSOLUTE MAXIMUM RATINGS

Symb ol Parameter Value Unit

V

i

DC Input Voltage 20 V

I

o

Output Current Internally limited

P

tot

Power Dissipation Internally limited

T

stg

Storage Temperature Range - 40 to 150

o

C

T

op

Operating Junction Temperature Range - 40 to 125

o

C

CONNECTION DIAGRAM

(top view)

THERMALDATA

Symbo l Parameter TO-220 SO-8 DPAK PP AK TO-92 Unit

R

thj-cas e

R

thj-amb

Thermal Resistance Junction-case
Thermal Resistance Junction-ambient

3

50

20

55(*)

8

100

8

100 200

o

C/W

o

C/W

(*) Considering 6 cm2of copper board heat-sink

TO-220 SO-8

PPAK DPAK

TO-92

pin 1 = V

OUT

pin 2 = GND
pin 3 = V

IN

BOTTOM VIEW

L4931 SERIES

2/25

ORDERING NUMBERS

TO-220 SO-8 PPAK DPAK T O-92 Output Voltage

L4931CV12 (*)
L4931ABV12 (*)
L4931CV15 (*)
L4931ABV15 (*)
L4931CV25 (*)
L4931ABV25 (*)
L4931CV27
L4931ABV27
L4931CV30
L4931ABV30
L4931CV33
L4931ABV33
L4931CV35
L4931ABV35
L4931CV40
L4931ABV40
L4931CV45 (*)
L4931ABV45 (*)
L4931CV47
L4931ABV47
L4931CV50
L4931ABV50
L4931CV52 (*)
L4931ABV52 (*)
L4931CV55 (*)
L4931ABV55 (*)
L4931CV60
L4931ABV60
L4931CV80
L4931ABV80
L4931CV120
L4931ABV120

L4931CD12 (*)
L4931ABD12 (*)
L4931CD15 (*)
L4931ABD15 (*)
L4931CD25 (*)
L4931ABD25 (*)
L4931CD27
L4931ABD27
L4931CD30
L4931ABD30
L4931CD33
L4931ABD33
L4931CD35
L4931ABD35
L4931CD40
L4931ABD40
L4931CD45 (*)
L4931ABD45 (*)
L4931CD47
L4931ABD47
L4931CD50
L4931ABD50
L4931CD52 (*)
L4931ABD52 (*)
L4931CD55 (*)
L4931ABD55 (*)
L4931CD60
L4931ABD60
L4931CD80
L4931ABD80
L4931CD120
L4931ABD120

L4931CPT12 (*)
L4931ABPT12 (*)
L4931CPT15 (*)
L4931ABPT15 (*)
L4931CPT25 (*)
L4931ABPT25 (*)
L4931CPT27
L4931ABPT27
L4931CPT30
L4931ABPT30
L4931CPT33
L4931ABT33
L4931CPT35
L4931ABPT35
L4931CPT40
L4931ABPT40
L4931CPT45 (*)
L4931ABPT45 (*)
L4931CPT47
L4931ABPT47
L4931CPT50
L4931ABPT50
L4931CPT52 (*)
L4931ABPT52 (*)
L4931CPT55 (*)
L4931ABPT55 (*)
L4931CPT60
L4931ABPT60
L4931CPT80
L4931ABPT80
L4931CPT120
L4931ABPT120

L4931CDT12 (*)
L4931ABDT12 (*)
L4931CDT15 (*)
L4931ABDT15 (*)
L4931CDT25 (*)
L4931ABDT25 (*)
L4931CDT27
L4931ABDT27
L4931CDT30
L4931ABDT30
L4931CDT33
L4931ABDT33
L4931CDT35
L4931ABDT35
L4931CDT40
L4931ABDT40
L4931CDT45 (*)
L4931ABDT45 (*)
L4931CDT47
L4931ABDT47
L4931CDT50
L4931ABDT50
L4931CDT52 (*)
L4931ABDT52 (*)
L4931CDT55 (*)
L4931ABDT55 (*)
L4931CDT60
L4931ABDT60
L4931CDT80
L4931ABDT80
L4931CDT120
L4931ABDT120

L4931CZ12 (*)
L4931ABZ12 (*)
L4931CZ15 (*)
L4931ABZ15 (*)
L4931CZ25 (*)
L4931ABZ25 (*)
L4931CZ27
L4931ABZ27
L4931CZ30
L4931ABZ30
L4931CZ33
L4931ABZ33
L4931CZ35
L4931ABZ35
L4931CZ40
L4931ABZ40
L4931CZ45 (*)
L4931ABZ45 (*)
L4931CZ47
L4931ABZ47
L4931CZ50
L4931ABZ50
L4931CZ52 (*)
L4931ABZ52 (*)
L4931CZ55 (*)
L4931ABZ55 (*)
L4931CZ60
L4931ABZ60
L4931CZ80
L4931ABZ80
L4931CZ120
L4931ABZ120

1.25 V

1.25 V

1.5 V

1.5 V

2.5 V

2.5 V

2.7 V

2.7 V
3V
3V

3.3 V

3.3 V

3.5 V

3.5 V
4V
4V

4.5 V

4.5 V

4.75 V

4.75 V
5V
5V

5.2 V

5.2 V

5.5 V

5.5 V
6V
6V
8V
8V

12 V
12 V

(*) Available on request

TESTCIRCUITS

L4931 SERIES

3/25

ELECTRICALCHARACTERISTICS FOR L4931ABxx12(refer to the test circuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=3.3V

I

o

=5mA,Vi= 3.3 V -25<Ta<85oC

1.238

1.225

1.25 1.263

1.275

V
V

V

i

Operating Input Voltage Io=250mA 2.5 20 V

I

out

Output Current Limit 300 mA

∆V

o

Line Regulation Vi= 2.5 to 20 V, Io=0.5mA 3 15 mV

∆V

o

(*) Load Regulation Vi=2.7V Io= 0.5 to 250 mA 3 15 mV

I

d

Quiescent Current ON MODE

V

i

= 2.7 to 20 V Io=0mA

V

i

= 2.7 to 20 V Io= 250 mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100

µ

A

SVR Supply Voltage Rejection

I

o

=5mA Vi=3.7V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

80
77
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50

µ

V

V

d

(*) Dropout Voltage Io= 250 mA 1.25 V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10ΩI

o

= 0 to 250 mA

210

µ

F

ELECTRICALCHARACTERISTICS FOR L4931Cxx12(refer to the testcircuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=3.3V

I

o

=5mA,Vi= 3.3 V -25<Ta<85oC

1.225

1.2

1.25 1.275

1.3

V
V

V

i

Operating Input Voltage Io=250mA 2.5 20 V

I

out

Output Current Limit 300 mA

∆

V

o

Line Regulation Vi= 2.5 to 20 V, Io=0.5mA 3 18 mV

∆

V

o

(*) Load Regulation Vi=2.7V Io= 0.5 to 250 mA 3 18 mV

I

d

Quiescent Current ON MODE

V

i

= 2.7 to 20 V Io=0mA

V

i

= 2.7 to 20 V Io= 250 mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100 µA

SVR Supply Voltage Rejection

I

o

=5mA Vi=3.7V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

80
77
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50 µV

V

d

(*) Dropout Voltage Io= 250 mA 1.25 V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10ΩI

o

= 0 to 250 mA

210 µF

(*) For SO-8 package the maximum limit of load regulationand dropout is increased by 20mV

L4931 SERIES

4/25

ELECTRICALCHARACTERISTICS FOR L4931ABxx15(refer to the test circuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=3.5V

I

o

=5mA,Vi= 3.5 V -25<Ta<85oC

1.485

1.47

1.5 1.515

1.53

V
V

V

i

Operating Input Voltage Io=250mA 2.5 20 V

I

out

Output Current Limit 300 mA

∆V

o

Line Regulation Vi= 2.5 to 20 V, Io=0.5mA 3 15 mV

∆V

o

(*) Load Regulation Vi=2.7V Io= 0.5 to 250 mA 3 15 mV

I

d

Quiescent Current ON MODE

V

i

= 2.7 to 20 V Io=0mA

V

i

= 2.7 to 20 V Io= 250 mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100

µ

A

SVR Supply Voltage Rejection

I

o

=5mA Vi=3.7V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

79
76
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50

µ

V

V

d

(*) Dropout Voltage Io=250mA 1 V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10ΩI

o

= 0 to 250 mA

210

µ

F

ELECTRICALCHARACTERISTICS FOR L4931Cxx15(refer to the testcircuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=3.5V

I

o

=5mA,Vi= 3.5 V -25<Ta<85oC

1.47

1.44

1.5 1.53

1.56

V
V

V

i

Operating Input Voltage Io=250mA 2.5 20 V

I

out

Output Current Limit 300 mA

∆

V

o

Line Regulation Vi= 2.5 to 20 V, Io=0.5mA 3 18 mV

∆

V

o

(*) Load Regulation Vi=2.7V Io= 0.5 to 250 mA 3 18 mV

I

d

Quiescent Current ON MODE

V

i

= 2.7 to 20 V Io=0mA

V

i

= 2.7 to 20 V Io= 250 mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100 µA

SVR Supply Voltage Rejection

I

o

=5mA Vi=3.7V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

79
76
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50 µV

V

d

(*) Dropout Voltage Io=250mA 1 V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10ΩI

o

= 0 to 250 mA

210 µF

(*) For SO-8 package the maximum limit of load regulationand dropout is increased by 20mV

L4931 SERIES

5/25

ELECTRICALCHARACTERISTICS FOR L4931ABxx25(refer to the test circuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=4.5V

I

o

=5mA,Vi= 4.5 V -25<Ta<85oC

2.475

2.45

2.5 2.525

2.55

V
V

V

i

Operating Input Voltage Io=250mA 20 V

I

out

Output Current Limit 300 mA

∆V

o

Line Regulation Vi= 3.2 to 20 V, Io=0.5mA 3 15 mV

∆V

o

(*) Load Regulation Vi=3.4V Io= 0.5 to 250 mA 3 15 mV

I

d

Quiescent Current ON MODE

V

i

= 3.4 to 20 V Io=0mA

V

i

= 3.4 to 20 V Io= 250 mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100

µ

A

SVR Supply Voltage Rejection

I

o

=5mA Vi=4.4V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

75
72
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50

µ

V

V

d

(*) Dropout Voltage Io=250mA

I

o

=250mA -40<Tj<125oC

0.4 0.6

0.8

V
V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10 Ω I

o

= 0 to 250 mA

210 µF

ELECTRICALCHARACTERISTICS FOR L4931Cxx25(refer to the testcircuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=4.5V

I

o

=5mA,Vi= 4.5 V -25<Ta<85oC

2.45

2.4

2.5 2.55

2.6

V
V

V

i

Operating Input Voltage Io=250mA 20 V

I

out

Output Current Limit 300 mA

∆V

o

Line Regulation Vi= 3.3 to 20 V, Io=0.5mA 3 18 mV

∆

V

o

(*) Load Regulation Vi=3.5V Io= 0.5 to 250 mA 3 18 mV

I

d

Quiescent Current ON MODE

V

i

= 3.5 to 20 V Io=0mA

V

i

= 3.5 to 20 V Io= 250 mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100

µ

A

SVR Supply Voltage Rejection

I

o

=5mA Vi=4.4V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

75
72
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50

µ

V

V

d

(*) Dropout Voltage Io=250mA

I

o

=250mA -40<Tj<125oC

0.4 0.6

0.8

V
V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10 Ω I

o

= 0 to 250 mA

210 µF

(*) For SO-8 package the maximum limit of load regulationand dropout is increased by 20mV

L4931 SERIES

6/25

ELECTRICALCHARACTERISTICS FOR L4931ABxx27(refer to the test circuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=4.7V

I

o

=5mA,Vi= 4.7 V -25<Ta<85oC

2.673

2.646

2.7 2.727

2.754

V
V

V

i

Operating Input Voltage Io=250mA 20 V

I

out

Output Current Limit 300 mA

∆V

o

Line Regulation Vi= 3.4 to 20 V, Io=0.5mA 3 15 mV

∆V

o

(*) Load Regulation Vi=3.6V Io= 0.5 to 250 mA 3 15 mV

I

d

Quiescent Current ON MODE

V

i

= 3.6 to 20 V Io=0mA

V

i

= 3.6 to 20 V Io= 250 mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100

µ

A

SVR Supply Voltage Rejection

I

o

=5mA Vi=4.6V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

74
71
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50

µ

V

V

d

(*) Dropout Voltage Io=250mA

I

o

=250mA -40<Tj<125oC

0.4 0.6

0.8

V
V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10 Ω I

o

= 0 to 250 mA

210 µF

ELECTRICALCHARACTERISTICS FOR L4931Cxx27(refer to the testcircuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=4.7V

I

o

=5mA,Vi= 4.7 V -25<Ta<85oC

2.646

2.592

2.7 2.754

2.808

V
V

V

i

Operating Input Voltage Io=250mA 20 V

I

out

Output Current Limit 300 mA

∆V

o

Line Regulation Vi= 3.5 to 20 V, Io=0.5mA 3 18 mV

∆

V

o

(*) Load Regulation Vi=3.7V Io= 0.5 to 250 mA 3 18 mV

I

d

Quiescent Current ON MODE

V

i

= 3.7 to 20 V Io=0mA

V

i

= 3.7 to 20 V Io= 250 mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100

µ

A

SVR Supply Voltage Rejection

I

o

=5mA Vi=4.7V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

74
71
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50

µ

V

V

d

(*) Dropout Voltage Io=250mA

I

o

=250mA -40<Tj<125oC

0.4 0.6

0.8

V
V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10 Ω I

o

= 0 to 250 mA

210 µF

(*) For SO-8 package the maximum limit of load regulationand dropout is increased by 20mV

L4931 SERIES

7/25

ELECTRICALCHARACTERISTICS FOR L4931ABxx30(refer to the test circuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=5V

I

o

=5mA,Vi= 5 V -25<Ta<85oC

2.97

2.94

33.03

3.06

V
V

V

i

Operating Input Voltage Io=250mA 20 V

I

out

Output Current Limit 300 mA

∆V

o

Line Regulation Vi= 3.7 to 20 V, Io=0.5mA 3 15 mV

∆V

o

(*) Load Regulation Vi=3.9V Io= 0.5 to 250 mA 3 15 mV

I

d

Quiescent Current ON MODE

V

i

= 3.9 to 20 V Io=0mA

V

i

= 3.9 to 20 V Io= 250 mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100

µ

A

SVR Supply Voltage Rejection

I

o

=5mA Vi=4.9V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

74
71
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50

µ

V

V

d

(*) Dropout Voltage Io=250mA

I

o

=250mA -40<Tj<125oC

0.4 0.6

0.8

V
V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10 Ω I

o

= 0 to 250 mA

210 µF

ELECTRICALCHARACTERISTICS FOR L4931Cxx30(refer to the testcircuits, Tj=25oC,
C

i

= 0.1 µF, Co= 2.2 µF unless otherwise specified)

Symbol Parameter Test Cond itions Min. Typ. M ax. Unit

V

o

Output Voltage Io=5mA,Vi=5V

I

o

=5mA,Vi= 5 V -25<Ta<85oC

2.94

2.88

33.06

3.12

V
V

V

i

Operating Input Voltage Io=250mA 20 V

I

out

Output Current Limit 300 mA

∆V

o

Line Regulation Vi= 3.8 to 20 V, Io=0.5mA 3 18 mV

∆

V

o

(*) Load Regulation Vi=4V Io= 0.5 to 250 mA 3 18 mV

I

d

Quiescent Current ON MODE

V

i

= 4 to 20 V Io=0mA

V

i

= 4 to 20 V Io=250mA

0.6
4

1
6

mA
mA

OFFMODE V

i

=6V 50 100

µ

A

SVR Supply Voltage Rejection

I

o

=5mA Vi=5V±1V
f = 120 Hz
f=1KHz
f = 10 KHz

74
71
55

dB
dB
dB

eN Output Noise Voltage B = 10 Hz to 100 KHz 50

µ

V

V

d

(*) Dropout Voltage Io=250mA

I

o

=250mA -40<Tj<125oC

0.4 0.6

0.8

V
V

V

il

Control Input Logic Low -40 < Ta<125oC0.8V

V

ih

Control Input Logic High -40 < Ta<125oC2 V

I

i

Control Input Current Vi= 6 V, Vc=6V 10

µ

A

C

O

Output Bypass Capacitance

ESR = 0.1 to 10 Ω I

o

= 0 to 250 mA

210 µF

(*) For SO-8 package the maximum limit of load regulationand dropout is increased by 20mV

L4931 SERIES

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