AN80P36RSP_技术文档

Voltage Regulators

AN80PxxRSP Series

5-pin, low dropout voltage regulator with standby function (1 A type)

I Overview

Unit: mm

6.50 0.10

5.40 0.10

(4.35)

The AN80PxxRSP series is a 1 A, low dropout voltage

regulator with standby function, featuring low current

consumption and low noise.

0.50 0.10

(3.00)

1.00 0.10

I Features

• Standby consumption current: max. 3 µA

• Dropout voltage: 0.3 V

• Output voltage accuracy: 3%

• 5-pin surface mounting package

• Ripple rejection ratio of 30 dB (f = 500 kHz)

• Output voltage: 1.8 V, 1.9 V, 2.0 V, 2.1 V, 2.2 V, 2.5 V,

2.7 V, 2.8 V, 2.9 V, 3.0 V, 3.1 V, 3.2 V,

3.3 V, 3.4 V, 3.5 V, 3.6 V, 4.8 V, 4.9 V,

5.0 V, 5.1 V, 5.2 V, 5.3 V

3

1

2

4

(0.75)

5

0.50 0.10

1.27 0.10

0.50 0.10

5.08 0.10

0.10 0.10

SP-5SU

I Applications

• General use power supply

Note) The package of this product will be changed

to lead-free type (SP-5SUA). See the new pack-

age dimensions section later of this datasheet.

I Block Diagram

Output stage

Input short-circuit

protection

Overcurrent

limitter

R1

R2

Inrush current

protection

V_REF

Thermal

protection

Error amplifier

1

2

3

4

5

(Fin)

V_IN

V_OUT

C_IN

C_OUT1

C_OUT2

Cont.

C_IN: 100 µF, C_NR: 1 µF, C_OUT1: 33 µF, C_OUT2: 0.1 µF

C_NR

Publication date: November 2001

SFF00010CEB

1

AN80PxxRSP Series

I Pin Descriptions

Pin No.

Description

1

2

3

4

5

Input voltage pin (V_IN)

Control pin (Cont.) High: operation, Low: stop

Grounding pin (GND) Electrically in common with radiation fin

Noise reduction pin (N.R.) Open when the noise reduction function is not used

Output voltage pin (V_OUT

)

I Absolute Maximum Ratings

Parameter

Symbol

V_CC

I_CC

Rating

14.4

Unit

V

Supply voltage

Supply current



mA

mW

°C

1

Power dissipation ^*

P_D

255

2

Operating ambient temperature ^*

T_opr

T_stg

−30 to +85

−55 to +150

2

Storage temperature ^*

°C

Note) 1. The output voltage may exceed the rated value if T_j> 150°C in no-load condition. Set to I_O> 5 mA if T_jis likely to exceed

150°C.

2. This IC is not suitable for automobile equipment use.

3. 1: The above power dissipation shows the value of an independent IC without heat sink at T = 85°C. For details, refer to

*

a

"2. Power dissipation of SP-5SU package" in the Application Notes.

2: Except for the operating ambient temperature and storage temperature, all ratings are for T = 25°C.

*

a

SFF00010CEB

2

AN80PxxRSP Series

I Recommended Operating Conditions

Part No.

AN80P18RSP

AN80P19RSP

AN80P20RSP

AN80P21RSP

AN80P22RSP

AN80P25RSP

AN80P27RSP

AN80P28RSP

AN80P29RSP

AN80P30RSP

AN80P31RSP

AN80P32RSP

AN80P33RSP

AN80P34RSP

AN80P35RSP

AN80P36RSP

AN80P48RSP

AN80P49RSP

AN80P50RSP

AN80P51RSP

AN80P52RSP

AN80P53RSP

Output voltage

Operating supply voltage range (V_CC

2.3 to 14.0

)

Unit

V

1.8

1.9

2.0

2.1

2.2

2.5

2.7

2.8

2.9

3.0

3.1

3.2

3.3

3.4

3.5

3.6

4.8

4.9

5.0

5.1

5.2

5.3

2.4 to 14.0

2.5 to 14.0

2.6 to 14.0

2.7 to 14.0

3.0 to 14.0

3.2 to 14.0

3.3 to 14.0

3.4 to 14.0

3.5 to 14.0

3.6 to 14.0

3.7 to 14.0

3.8 to 14.0

3.9 to 14.0

4.0 to 14.0

4.1 to 14.0

5.3 to 14.0

5.4 to 14.0

5.5 to 14.0

5.6 to 14.0

5.7 to 14.0

5.8 to 14.0

SFF00010CEB

3

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C

• AN80P18RSP (1.8 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 2.8 V, I_OUT= 500 mA

1.746 1.8 1.854

V

Line regulation

REG_INV_IN= 2.8 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 2.8 V, I_OUT= 0 mA → 1000 mA



18

36



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 2.8 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 2.8 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 2.8 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 2.8 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 1.710 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 2.8 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 3.8 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

58.8



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 1.9 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 2.0 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 2.8 V

Control terminal threshold low voltage V_CONTLV_IN= 2.8 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 3.8 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 2.8 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 2.8 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 2.8 V, I_OUT= 5 mA

°C

SFF00010CEB

4

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P19RSP (1.9 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 2.9 V, I_OUT= 500 mA

1.843 1.9 1.957

V

Line regulation

REG_INV_IN= 2.9 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 2.9 V, I_OUT= 0 mA → 1000 mA



19

38



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 2.9 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 2.9 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 2.9 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 2.9 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 1.805 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 2.9 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 3.9 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

58.4



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 2.0 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 2.1 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 2.9 V

Control terminal threshold low voltage V_CONTLV_IN= 2.9 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 3.9 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 2.9 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 2.9 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 2.9 V, I_OUT= 5 mA

°C

SFF00010CEB

5

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P20RSP (2.0 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 3.0 V, I_OUT= 500 mA

1.940 2.0 2.060

V

Line regulation

REG_INV_IN= 3.0 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 3.0 V, I_OUT= 0 mA → 1000 mA



20

40



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 3.0 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 3.0 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 3.0 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 3.0 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 1.900 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 3.0 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 4.0 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

57.9



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 2.1 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 2.2 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 3.0 V

Control terminal threshold low voltage V_CONTLV_IN= 3.0 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 4.0 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 3.0 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 3.0 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 3.0 V, I_OUT= 5 mA

°C

SFF00010CEB

6

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P21RSP (2.1 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 3.1 V, I_OUT= 500 mA

2.037 2.1 2.163

V

Line regulation

REG_INV_IN= 3.1 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 3.1 V, I_OUT= 0 mA → 1000 mA



21

42



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 3.1 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 3.1 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 3.1 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 3.1 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 1.995 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 3.1 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 4.1 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

57.5



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 2.2 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 2.3 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 3.1 V

Control terminal threshold low voltage V_CONTLV_IN= 3.1 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 4.1 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 3.1 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 3.1 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 3.1 V, I_OUT= 5 mA

°C

SFF00010CEB

7

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P22RSP (2.2 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 3.2 V, I_OUT= 500 mA

2.134 2.2 2.266

V

Line regulation

REG_INV_IN= 3.2 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 3.2 V, I_OUT= 0 mA → 1000 mA



22

44



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 3.2 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 3.2 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 3.2 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 3.2 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 2.090 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 3.2 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 4.2 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

57.1



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 2.3 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 2.4 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 3.2 V

Control terminal threshold low voltage V_CONTLV_IN= 3.2 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 4.2 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 3.2 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 3.2 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 3.2 V, I_OUT= 5 mA

°C

SFF00010CEB

8

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P25RSP (2.5 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 3.5 V, I_OUT= 500 mA

2.425 2.5 2.575

V

Line regulation

REG_INV_IN= 3.5 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 3.5 V, I_OUT= 0 mA → 1000 mA



25

50



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 3.5 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 3.5 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 3.5 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 3.5 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 2.375 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 3.5 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 4.5 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

56.0



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 2.6 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 2.7 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 3.5 V

Control terminal threshold low voltage V_CONTLV_IN= 3.5 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 4.5 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 3.5 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 3.5 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 3.5 V, I_OUT= 5 mA

°C

SFF00010CEB

9

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P27RSP (2.7 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 3.7 V, I_OUT= 500 mA

2.619 2.7 2.781

V

Line regulation

REG_INV_IN= 3.7 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 3.7 V, I_OUT= 0 mA → 1000 mA



27

54



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 3.7 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 3.7 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 3.7 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 3.7 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 2.565 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 3.7 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 4.7 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

55.3



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 2.8 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 2.9 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 3.7 V

Control terminal threshold low voltage V_CONTLV_IN= 3.7 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 4.7 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 3.7 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 3.7 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 3.7 V, I_OUT= 5 mA

°C

SFF00010CEB

10

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P28RSP (2.8 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 3.8 V, I_OUT= 500 mA

2.716 2.8 2.884

V

Line regulation

REG_INV_IN= 3.8 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 3.8 V, I_OUT= 0 mA → 1000 mA



28

56



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 3.8 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 3.8 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 3.8 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 3.8 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 2.660 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 3.8 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 4.8 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

55.0



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 2.9 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 3.0 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 3.8 V

Control terminal threshold low voltage V_CONTLV_IN= 3.8 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 4.8 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 3.8 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 3.8 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 3.8 V, I_OUT= 5 mA

°C

SFF00010CEB

11

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P29RSP (2.9 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 3.9 V, I_OUT= 500 mA

2.813 2.9 2.987

V

Line regulation

REG_INV_IN= 3.9 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 3.9 V, I_OUT= 0 mA → 1000 mA



29

58



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 3.9 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 3.9 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 3.9 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 3.9 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 2.755 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 3.9 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 4.9 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

54.7



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 3.0 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 3.1 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 3.9 V

Control terminal threshold low voltage V_CONTLV_IN= 3.9 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 4.9 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 3.9 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 3.9 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 3.9 V, I_OUT= 5 mA

°C

SFF00010CEB

12

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P30RSP (3.0 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 4.0 V, I_OUT= 500 mA

2.910 3.0 3.090

V

Line regulation

REG_INV_IN= 4.0 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 4.0 V, I_OUT= 0 mA → 1000 mA



30

60



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 4.0 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 4.0 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 4.0 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 4.0 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 2.850 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 4.0 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 5.0 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

54.1



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 3.1 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 3.2 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 4.0 V

Control terminal threshold low voltage V_CONTLV_IN= 4.0 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 5.0 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 4.0 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 4.0 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 4.0 V, I_OUT= 5 mA

°C

SFF00010CEB

13

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P31RSP (3.1 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 4.1 V, I_OUT= 500 mA

3.007 3.1 3.193

V

Line regulation

REG_INV_IN= 4.1 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 4.1 V, I_OUT= 0 mA → 1000 mA



31

62



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 4.1 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 4.1 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 4.1 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 4.1 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 2.945 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 4.1 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 5.1 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

54.1



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 3.2 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 3.3 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 4.1 V

Control terminal threshold low voltage V_CONTLV_IN= 4.1 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 5.1 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 4.1 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 4.1 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 4.1 V, I_OUT= 5 mA

°C

SFF00010CEB

14

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P32RSP (3.2 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 4.2 V, I_OUT= 500 mA

3.104 3.2 3.296

V

Line regulation

REG_INV_IN= 4.2 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 4.2 V, I_OUT= 0 mA → 1000 mA



32

64



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 4.2 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 4.2 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 4.2 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 4.2 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 3.040 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 4.2 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 5.2 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

53.8



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 3.3 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 3.4 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 4.2 V

Control terminal threshold low voltage V_CONTLV_IN= 4.2 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 5.2 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 4.2 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 4.2 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 4.2 V, I_OUT= 5 mA

°C

SFF00010CEB

15

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P33RSP (3.3 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 4.3 V, I_OUT= 500 mA

3.201 3.3 3.399

V

Line regulation

REG_INV_IN= 4.3 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 4.3 V, I_OUT= 0 mA → 1000 mA



33

66



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 4.3 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 4.3 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 4.3 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 4.3 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 3.135 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 4.3 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 5.3 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

53.6



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 3.4 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 3.5 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 4.3 V

Control terminal threshold low voltage V_CONTLV_IN= 4.3 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 5.3 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 4.3 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 4.3 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 4.3 V, I_OUT= 5 mA

°C

SFF00010CEB

16

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P34RSP (3.4 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 4.4 V, I_OUT= 500 mA

3.298 3.4 3.502

V

Line regulation

REG_INV_IN= 4.4 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 4.4 V, I_OUT= 0 mA → 1000 mA



34

68



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 4.4 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 4.4 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 4.4 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 4.4 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 3.230 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 4.4 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 5.4 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

53.3



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 3.5 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 3.6 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 4.4 V

Control terminal threshold low voltage V_CONTLV_IN= 4.4 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 5.4 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 4.4 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 4.4 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 4.4 V, I_OUT= 5 mA

°C

SFF00010CEB

17

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P35RSP (3.5 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 4.5 V, I_OUT= 500 mA

3.395 3.5 3.605

V

Line regulation

REG_INV_IN= 4.5 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 4.5 V, I_OUT= 0 mA → 1000 mA



35

70



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 4.5 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 4.5 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 4.5 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 4.5 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 3.325 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 4.5 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 5.5 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

53.1



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 3.6 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 3.7 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 4.5 V

Control terminal threshold low voltage V_CONTLV_IN= 4.5 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 5.5 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 4.5 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 4.5 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 4.5 V, I_OUT= 5 mA

°C

SFF00010CEB

18

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P36RSP (3.6 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 4.6 V, I_OUT= 500 mA

3.492 3.6 3.708

V

Line regulation

REG_INV_IN= 4.6 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 4.6 V, I_OUT= 0 mA → 1000 mA



36

72



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 4.6 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 4.6 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 4.6 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 4.6 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 3.420 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 4.6 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 5.6 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

52.8



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 3.7 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 3.8 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 4.6 V

Control terminal threshold low voltage V_CONTLV_IN= 4.6 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 5.6 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 4.6 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 4.6 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 4.6 V, I_OUT= 5 mA

°C

SFF00010CEB

19

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P48RSP (4.8 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 5.8 V, I_OUT= 500 mA

4.656 4.8 4.944

V

Line regulation

REG_INV_IN= 5.8 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 5.8 V, I_OUT= 0 mA → 1000 mA



48

96



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 5.8 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 5.8 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 5.8 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 5.8 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 4.560 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 5.8 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 6.8 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

50.3



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 4.9 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 5.0 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 5.8 V

Control terminal threshold low voltage V_CONTLV_IN= 5.8 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 6.8 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 5.8 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 5.8 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 5.8 V, I_OUT= 5 mA

°C

SFF00010CEB

20

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P49RSP (4.9 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 5.9 V, I_OUT= 500 mA

4.753 4.9 5.047

V

Line regulation

REG_INV_IN= 5.9 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 5.9 V, I_OUT= 0 mA → 1000 mA



49

98



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 5.9 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 5.9 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 5.9 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 5.9 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 4.655 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 5.9 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 6.9 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

50.1



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 5.0 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 5.1 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 5.9 V

Control terminal threshold low voltage V_CONTLV_IN= 5.9 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 6.9 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 5.9 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 5.9 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 5.9 V, I_OUT= 5 mA

°C

SFF00010CEB

21

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P50RSP (5.0 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 6.0 V, I_OUT= 500 mA

4.850 5.0 5.150

V

Line regulation

REG_INV_IN= 6.0 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 6.0 V, I_OUT= 0 mA → 1000 mA



60

120



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 6.0 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 6.0 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 6.0 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 6.0 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 4.750 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 6.0 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 7.0 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

49.9



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 5.1 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 5.2 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 6.0 V

Control terminal threshold low voltage V_CONTLV_IN= 6.0 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 7.0 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 6.0 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 6.0 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 6.0 V, I_OUT= 5 mA

°C

SFF00010CEB

22

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P51RSP (5.1 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 6.1 V, I_OUT= 500 mA

4.947 5.1 5.253

V

Line regulation

REG_INV_IN= 6.1 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 6.1 V, I_OUT= 0 mA → 1000 mA



51

102



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 6.1 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 6.1 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 6.1 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 6.1 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 4.845 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 6.1 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 7.1 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

49.8



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 5.2 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 5.3 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 6.1 V

Control terminal threshold low voltage V_CONTLV_IN= 6.1 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 7.1 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 6.1 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 6.1 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 6.1 V, I_OUT= 5 mA

°C

SFF00010CEB

23

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P52RSP (5.2 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 6.2 V, I_OUT= 500 mA

5.044 5.2 5.356

V

Line regulation

REG_INV_IN= 6.2 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 6.2 V, I_OUT= 0 mA → 1000 mA



52

104



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 6.2 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 6.2 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 6.2 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 6.2 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 4.940 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 6.2 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 7.2 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

49.6



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 5.3 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 5.4 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 6.2 V

Control terminal threshold low voltage V_CONTLV_IN= 6.2 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 7.2 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 6.2 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 6.2 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 6.2 V, I_OUT= 5 mA

°C

SFF00010CEB

24

AN80PxxRSP Series

I Electrical Characteristics at T_a= 25°C (continued)

• AN80P53RSP (5.3 V type)

Unless otherwise specially provided, shorten each test time (within 10 ms) so that the test is conducted under the condition that

the drift due to the temperature increase in the chip junction part can be neglected. C_IN= 100 µF, CNR = Open, C_OUT= 0.1 µF

Parameter

Output voltage

Symbol

Conditions

Min

Typ Max Unit

V_OUT

V_IN= 6.3 V, I_OUT= 500 mA

5.141 5.3 5.459

V

Line regulation

REG_INV_IN= 6.3 V → 14.0 V, I_OUT= 250 mA

REG_LOAV_IN= 6.3 V, I_OUT= 0 mA → 1000 mA



53

106



mV

mA

Load regulation

Peak output current

I_PEAK

V_IN= 6.3 V, The output current value 1200

when V_OUTdecreases by 5% from

its value at I_OUT= 500 mA.

Bias current under no load

I_BIAS

V_IN= 6.3 V, I_OUT= 0 mA



1.1



3.0

5

mA

µA

Bias current fluctuation to input

Bias current fluctuation to load

Standby consumption current

∆I_BIAS(IN)V_IN= 6.3 V → 14.0 V, I_OUT= 250 mA −5

∆I_BIAS(LOA)V_IN= 6.3 V, I_OUT= 0 mA → 1000 mA



50

3.0

5

I_STB

V_IN= 14.0 V, V_CONT= 0 V

V_IN= 5.035 V, I_OUT= 0 A

Bias current before starting regulation I_RUSH

mA

µA

Control terminal current

I_CONT

V_IN= 6.3 V, I_OUT= 500 mA

V_CONT= 1.8 V

30

Ripple rejection ratio 1

RR1

V_IN= 7.3 V 1 V[p-p]

f = 120 Hz, I_OUT= 100 mA

49.5



dB

V

Minimum input/

output voltage difference 1

V_DIF(min)1V_IN= 5.4 V, I_OUT= 500 mA

V_DIF(min)2V_IN= 5.5 V, I_OUT= 1000 mA

0.30 0.60

1.0

Minimum input/



V

output voltage difference 2

Control terminal threshold high voltage V_CONTHV_IN= 6.3 V

Control terminal threshold low voltage V_CONTLV_IN= 6.3 V



1.45 1.80

V

0.50 0.70



• Design reference data

Note) The following values are typical and not guaranteed values.

Parameter

Symbol

Conditions

Min

Typ Max Unit

Ripple rejection ratio 2

RR2

V_IN= 7.3 V 1 V[p-p], C_OUT= 33 +0.1

f = 500 kHz, I_OUT= 100 mA

µ

F



30



dB

Output noise voltage

V_NO

10 Hz ≤ f ≤ 100 kHz, I_OUT= 100 mA

CNR = 1 µF, V_IN= 6.3 V



40

µV[rms]

ppm/°C

Output voltage temperature

coefficient

dV_OUTV_IN= 6.3 V, I_OUT= 5 mA

dT_a−30°C ≤ T_a≤ +125°C

40

Output short-circuit current

I_OSHORTV_IN= 14.0 V, V_OUT= GND



2000

150



mA

Overheat protection operating

temperature

T_jTH

V_IN= 6.3 V, I_OUT= 5 mA

°C

SFF00010CEB

25

AN80PxxRSP Series

I Application Notes

1. External compensation capacitor

Connect the input pin and ground pin with a 100 µF capacitor

and the output pin and ground pin with a 0.1 µF capacitor in order

to keep the stability of the IC in operation. Make sure that the 10

µF capacitor is as close to the input pin and ground pin as possible

while the 33 µF capacitor is as close to the output pin and ground

pin as possible.

As the stability is affected by the parasitic capacitance and

impedance of the PCB pattern, pay utmost attention to the PCB

layout.

Select each capacitor in consideration of the ESR (equiva-

lent series resistance) of the capacitor for the AN80PxxRSP Se-

ries, conduct a ful evaluation under the right operating condi-

tions.

The ESR of an aluminum or tantalum electrolytic capacitor

may increase at low temperatures. Therefore, it is recommended

to connect a 0.1 µF to 0.47 µF capacitor with low internal

impedance, such as a multi-layer ceramic capacitor, in parallel to

each capacitor.

2. P_D T_acurves of SP-5SU

P_D T_a

1.200

1.051

Mounted on standard board

(glass epoxy: 50 mm × 50 mm × t0.8 mm)

R_th(j-a)= 118.9°C/W

1.000

0.800

0.600

0.491

0.400

Independent IC

without a heat sink

R_th(j-a)= 254.4°C/W

0.200

0.000

Output current  Output capacitor ESR

0

25

50

75 85 100

125

150

(equivalent series resistance)

20

Ambient temperature T_a(°C)

15

10

5

4

Ω

Possible operating range

0

200

400

600

800

1000

Output current I_OUT(mA)

3. Main characteristics

•AN80PxxRSP series V_OUT T

•AN80P18RSP V_O I_O(25°C)

2

V_IN= V_typ+ 1 V

I_O= 5 mA

1.8

1.6

1.4

1.2

1

+1

0

V_IN= 2.5 V

2.8 V

3.3 V

3.6 V

−1

−2

−3

0.8

0.6

0.4

0.2

0

0.5

1

1.5

2

2.5

−25

0

25

50

75 100 125 150

I_O(A)

T (°C)

SFF00010CEB

26

AN80PxxRSP Series

I New Package Dimensions (Unit: mm)

•

SP-5SUA (Lead-free package)

6.50 0.10

5.40 0.10

(4.35)

(0.50)

(3.00)

3

1.00 0.20

0.13

4

(0.75)

2

1

5

0.50

+0.10

0.10 0.10

+0.10

1.27

-

0.05

M

0.50

-

0.05

5.08 0.10

SFF00010CEB

27

Request for your special attention and precautions in using the technical information

and semiconductors described in this material

(1) An export permit needs to be obtained from the competent authorities of the Japanese Govern-

ment if any of the products or technologies described in this material and controlled under the

"Foreign Exchange and Foreign Trade Law" is to be exported or taken out of Japan.

(2) The technical information described in this material is limited to showing representative character-

istics and applied circuit examples of the products. It does not constitute the warranting of industrial

property, the granting of relative rights, or the granting of any license.

(3) The products described in this material are intended to be used for standard applications or gen-

eral electronic equipment (such as office equipment, communications equipment, measuring in-

struments and household appliances).

Consult our sales staff in advance for information on the following applications:

• Special applications (such as for airplanes, aerospace, automobiles, traffic control equipment,

combustion equipment, life support systems and safety devices) in which exceptional quality and

reliability are required, or if the failure or malfunction of the products may directly jeopardize life or

harm the human body.

• Any applications other than the standard applications intended.

(4) The products and product specifications described in this material are subject to change without

notice for reasons of modification and/or improvement. At the final stage of your design, purchas-

ing, or use of the products, therefore, ask for the most up-to-date Product Standards in advance to

make sure that the latest specifications satisfy your requirements.

(5) When designing your equipment, comply with the guaranteed values, in particular those of maxi-

mum rating, the range of operating power supply voltage and heat radiation characteristics. Other-

wise, we will not be liable for any defect which may arise later in your equipment.

Even when the products are used within the guaranteed values, redundant design is recommended,

so that such equipment may not violate relevant laws or regulations because of the function of our

products.

(6) When using products for which dry packing is required, observe the conditions (including shelf life

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(7) No part of this material may be reprinted or reproduced by any means without written permission

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Please read the following notes before using the datasheets

A. These materials are intended as a reference to assist customers with the selection of Panasonic

semiconductor products best suited to their applications.

Due to modification or other reasons, any information contained in this material, such as available

product types, technical data, and so on, is subject to change without notice.

Customers are advised to contact our semiconductor sales office and obtain the latest information

before starting precise technical research and/or purchasing activities.

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Panasonic will not assume any liability for any damages arising from any errors etc. that may ap-

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Therefore, without the prior written approval of Panasonic, any other use such as reproducing,

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2001 MAR


型号：	AN80P36RSP
厂家：	PANASONIC
描述：	5-pin, low dropout voltage regulator with standby function (1 A type) 5针，带待机功能（ 1 A型）低压差稳压器线性稳压器IC 调节器电源电路输出元件
文件：	总28页 (文件大小：305K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

AN80P36RSP [PANASONIC]

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