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Data Sheet

FEATURES

High Voltage, 1.2 MHz/600 kHz, 800 mA,

Low Quiescent Current Buck Regulator

ADP2370/ADP2371

TYPICAL APPLICATION CIRCUIT

= 6V

10µF

POWER GOOD

APPLICATIONS

Portable and battery-powered equipment

Automatic meter readers (WSN)

Point of sales and transaction processing instruments

Medical instruments

Medium format display tablets and pads

Figure 1.

GENERAL DESCRIPTION

The

ADP2370/ADP2371

are high efficiency, low quiescent current,

800 mA buck (step-down) dc-to-dc converters in small 8-lead,

3 mm × 3 mm LFCSP (QFN) packages. The total solution requires

only three tiny external components.

The buck regulator uses a proprietary high speed current mode,

constant frequency PWM control scheme for excellent stability

and transient response. The need for an external rectifier is elimi-

nated by using a high efficiency synchronous rectifier architecture.

To ensure the longest battery life in portable applications, the

ADP2370/ADP2371

employ a power saving variable frequency

mode that reduces the switching frequency under light load

conditions. The

ADP2370/ADP2371

operate from input voltages

of 3.2 V to 15 V allowing the use of multiple alkaline/NiMH,

lithium cells, or other standard power sources.

The

ADP2370/ADP2371

offer multiple options for setting the

operational frequency. The

ADP2370/ADP2371

can be synchro-

nized to a 600 kHz to 1.2 MHz external clock or it can be forced

to operate at 600 kHz or 1.2 MHz via the FSEL pin. The

ADP2370/

ADP2371

can be forced to operate in PWM mode (FPWM) when

noise considerations are more important than efficiency.

A power-good output is available to indicate when the output

voltage is below 92% of its nominal value.

The

ADP2371

is identical to the

ADP2370

except that the

ADP2371

includes the addition of an integrated switched

resistor, quick output discharge function (QOD) that auto-

matically discharges the output when the device is disabled.

Both devices include an internal power switch and a synchronous

rectifier for minimal external part count and high efficiency.

The

ADP2370/ADP2371

also include internal soft start and

internal compensation for ease of use.

During a logic controlled shutdown, the input is disconnected

from the output and the regulator draws less than 1.2 μA from

the input source. Other key features include undervoltage lockout

to prevent deep battery discharge and soft start to prevent input

overcurrent at startup. Short-circuit protection and thermal over-

load protection circuits prevent damage under adverse conditions.

The

ADP2370/ADP2371

each use one 0805 capacitor, one 1206

capacitor, and one 4 mm × 4 mm inductor. The total solution

size is about 53 mm

resulting in a very small footprint solution

to meet a variety of portable applications.

Rev. D

Document Feedback

One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.

Technical Support

www.analog.com

Information furnished by Analog Devices is believed to be accurate and reliable. However, no

responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other

rights of third parties that may result from its use. Specifications subject to change without notice. No

license is granted by implication or otherwise under any patent or patent rights of Analog Devices.

Trademarks and registered trademarks are the property of their respective owners.

09531-001

Input voltage range: 3.2 V to 15 V, output current: 800 mA

Quiescent current < 14 μA in power saving mode (PSM)

>90% efficiency

Force PWM pin (SYNC), 600 kHz/1.2 MHz frequency pin

(FSEL)

Fixed outputs: 0.8 V, 1.2 V, 1.5 V, 1.8 V, 2.5 V, 3.0 V, 3.3 V, 5 V,

and adjustable option

100% duty cycle capability

Initial accuracy: ±1%

Low shutdown current: <1.2 μA

Quick output discharge (QOD) option

Synchronizable to an external clock

8-lead, 0.75 mm × 3 mm × 3 mm LFCSP (QFN) package

Supported by ADIsimPower design tool

VIN

ADP2370/

ADP2371

PGND

1.2MHz

600kHz

OFF

FSEL

OUT

= 3.3V

OUT

10µF

AGND

(EXPOSED PAD)

SYNC

ADP2370/ADP2371

TABLE OF CONTENTS

Features .............................................................................................. 1

Applications ....................................................................................... 1

Typical Application Circuit ............................................................. 1

General Description ......................................................................... 1

Revision History ............................................................................... 2

Specifications..................................................................................... 3

Recommended Specifications: Capacitors ................................ 5

Absolute Maximum Ratings ....................................................... 6

Thermal Data ................................................................................ 6

Thermal Resistance ...................................................................... 6

ESD Caution .................................................................................. 6

Pin Configuration and Function Descriptions ............................. 7

Typical Performance Characteristics ............................................. 8

Buck Output .................................................................................. 8

Theory of Operation ...................................................................... 20

PWM Operation ......................................................................... 20

PSM Operation ........................................................................... 21

Features Descriptions ..................................................................... 22

Precision Enable ......................................................................... 22

Forced PWM or PWM/PSM Selection.................................... 22

Quick Output Discharge (QOD) Function ............................. 22

Short-Circuit Protection ............................................................ 22

Data Sheet

Undervoltage Lockout ............................................................... 22

Thermal Protection .................................................................... 22

Soft Start ...................................................................................... 22

Current Limit .............................................................................. 22

100% Duty Cycle ........................................................................ 23

Synchronizing ............................................................................. 23

Power Good ................................................................................ 24

Applications Information .............................................................. 25

ADIsimPower Design Tool ....................................................... 25

External Component Selection ................................................ 25

Selecting the Inductor ................................................................ 25

Output Capacitor........................................................................ 25

Input Capacitor ........................................................................... 25

Adjustable Output Voltage Programming .............................. 25

Efficiency ..................................................................................... 26

Recommended Buck External Components .......................... 26

Capacitor Selection .................................................................... 28

Thermal Considerations ................................................................ 29

PCB Layout Considerations ...................................................... 30

Packaging and Ordering Information ......................................... 32

Outline Dimensions ................................................................... 32

Ordering Guide .......................................................................... 32

REVISION HISTORY

2/14—Rev. C to Rev. D

Change to Figure 13 ......................................................................... 9

Updated Outline Dimensions ....................................................... 32

11/12—Rev. B to Rev. C

Change to Figure 6 ........................................................................... 8

Changes to Ordering Guide............................................................. 32

8/12—Rev. A to Rev. B

Change to Figure 62 ....................................................................... 17

Changes to Figure 63, Figure 64, Figure 65, and Figure 66 ............ 18

5/12—Rev. 0 to Rev. A

Changed Voltage Range for SW to PGND and Ground Plane

from −0.3 V to VIN + 0.3 V to −0.7 V to VIN + 0.3 V ............... 6

Changes to Ordering Guide .......................................................... 32

4/12—Revision 0: Initial Version

Rev. D | Page 2 of 32

Data Sheet

SPECIFICATIONS

ADP2370/ADP2371

OUT

+ 1 V or 3.2 V, whichever is greater,

EN = V

, I

OUT

= 100 mA, C

= 10 μF, C

OUT

= 10 µF, T

= 25°C for typical specifications,

= −40°C to +125°C for minimum/maximum specifications, unless otherwise noted.

Table 1.

Parameter

SUPPLY

Input Voltage Range

Quiescent Current

Symbol

Q-PSM

Q-PWM

SW-PWM

SHUT

OUT

Test Conditions/Comments

Min

3.2

FSEL = V

, SYNC = 0 V, no load, device not

switching

FSEL = V

, SYNC = V

, no load, device not

switching

FSEL = V

, SYNC = V

, no load, device switching

EN = GND, T

= −40°C to +85°C

800

−1

−1.5

−3

0.8

Initial set point, I

OUT

= 250 mA, T

= 25°C

No load to full load

OUT

= 250 mA

OUT

= 250 mA, V

= 7.2 V, V

OUT

= 3.3 V

% of V

OUT

, V

OUT

rising

% of V

OUT

, V

OUT

falling

= 7.2 V, V

OUT

= 3.3 V

Fixed output voltage model

Adjustable output voltage model

< 5.5 V

> 5.5 V

When EN rises from 0 V to V

, and V

OUT

= 0.9 × V

OUT

−1

0.8

0.125

0.01

37.5

170

2.5

350

260

13.5

725

5.7

1.2

Typ

Max

Unit

μA

%/A

%/V

μA

μs

Shutdown Current

FIXED OUTPUT

Output Current

Fixed Output Accuracy

3.5

Initial set point, I

OUT

= 250 mA, T

= 25°C

OUT

= 250 mA

No load to full load, PWM mode

+1.5

ADJUSTABLE OUTPUT

Feedback Voltage

Feedback Voltage Accuracy

Output Voltage Range

FIXED AND ADJUSTABLE OUTPUT

Load Regulation

Line Regulation

Efficiency

Overcurrent Frequency Foldback Threshold

Rising

Falling

PSM Threshold

Feedback Pin Input Current

Fixed

Adjustable

Minimum On Time

Soft Start Time

Active Pull-Down Resistance

(ADP2371)

POWER SWITCH

P-Channel On Resistance

N-Channel On Resistance

Current Limit

P-Channel

N-Channel

Leakage Current

P-Channel

N-Channel

FB-TOL

OUT-ADJ

∆V

OUT

/∆I

OUT

∆V

OUT

/∆V

EFF

FOLDBACK-RISE

FOLDBACK-FALL

PSM

THRESHOLD

FB-FIXED

FB-ADJUST

ON-TIME

MIN

TIME

PULL-DOWN

100

400

RDS

ON-P

RDS

ON-N

> 5.5 V, I

OUT

= 400 mA

< 5.5 V, I

OUT

= 400 mA

> 5.5 V, I

OUT

= 400 mA

< 5.5 V, I

OUT

= 400 mA

Peak inductor current

400

500

280

400

1200

500

0.01

1300

550

mΩ

μA

LIM-P

LIM-N

LEAK-SW

Rev. D | Page 3 of 32

ADP2370/ADP2371

Parameter

OSCILLATOR

Oscillator Frequency

Frequency Synchronization Range

Synchronization Threshold

High

Low

Hysteresis

Typical Sync Duty Cycle Range

SYNC Pin Leakage Current

FSEL Threshold

High

Low

Hysteresis

FSEL Pin Leakage Current

POWER GOOD (PG PIN)

PG Threshold

Rising

Falling

Hysteresis

PG Output Low

PG Delay

Rising

Falling

PG Leakage

UNDERVOLTAGE LOCKOUT (UVLO)

Input Voltage Rising

Input Voltage Falling

Hysteresis

ENABLE INPUT STANDBY (EN PIN)

EN Input Logic

High

Low

Hysteresis

ENABLE INPUT PRECISION (EN PIN)

EN Input Logic

High

Low

Hysteresis

EN Input Leakage Current

EN Input Delay Time

THERMAL SHUTDOWN

Thermal Shutdown Threshold

Thermal Shutdown Hysteresis

Symbol

OSC

SYNC_RANGE

Test Conditions/Comments

FSEL = V

, 3.2 V ≤ V

≤ 15 V

FSEL = 0 V, 3.2 V ≤ V

≤ 15 V

FSEL = 0 V, 3.2 V ≤ V

≤ 15 V

FSEL = V

, 3.2 V ≤ V

≤ 15 V

3.2 V ≤ V

≤ 15 V

3.2 V ≤ V

≤ 15 V

3.2 V ≤ V

≤ 15 V

(1.2 MHz), 3.2 V ≤ V

≤ 5 V, FSEL = V

(1.2 MHz), 5 V ≤ V

≤ 15 V, FSEL = V

SYNC = 0 V or SYNC = V

3.2 V ≤ V

≤ 15 V

Min

1.0

500

400

0.8

1.2

Data Sheet

Typ

1.2

600

Max

1.4

700

800

1.6

Unit

MHz

kHz

MHz

μA

SYNC

HIGH

SYNC

LOW

SYNC

HYS

SYNC

DUTY

SYNC

LKG

FESL

HIGH

FSEL

LOW

FSEL

HYS

FSEL

LKG

0.4

200

0.05

0.4

125

0.04

FSEL = 0 V or FSEL = V

3.2 V ≤ V

≤ 15 V

RISE

FALL

HYS

LOW

DELAYRISE

DELAYFALL

LKG

UVLO

RISE

UVLO

FALL

UVLO

HYS

82.5

Pull-up current < 1 mA

OUT

crossing PG rising threshold, pull-up

current < 1 mA

OUT

crossing PG falling threshold, pull-up

current < 1 mA

0.3

0.5

0.04

3.19

2.80

190

μs

μA

3.2 V ≤ V

≤ 15 V

STBY-HIGH

STBY-LOW

STBY-HYS

3.2 V ≤ V

≤ 15 V

HIGH

LOW

HYS

EN-LKG

EN-DLY

1.135

1.045

EN = V

or GND

For V

OUT

= 0 V to 0.1 × V

OUT

when EN rises from

0 V to V

3.2 V ≤ V

≤ 15 V

rising

1.2

1.1

100

0.05

1.26

1.155

µA

μs

0.4

125

SD-HYS

150

°C

Rev. D | Page 4 of 32

Data Sheet

RECOMMENDED SPECIFICATIONS: CAPACITORS

Table 2.

Parameter

MINIMUM INPUT and OUTPUT CAPACITANCE

CAPACITOR ESR

ADP2370/ADP2371

Symbol

MIN

ESR

Test Conditions/Comments

= −40°C to +125°C

Min

6.5

Typ

Max

Unit

µF

mΩ

The minimum input and output capacitance should be greater than 7 μF over the full range of operating conditions. The full range of operating conditions in the

application must be considered during device selection to ensure that the minimum capacitance specification is met. X7R- and X5R-type capacitors are recommended;

Y5V and Z5U capacitors are not recommended for use with any buck.

Rev. D | Page 5 of 32

型号	ADP2370ACPZ-50-R7	ADP2370ACPZ-12-R7	ADP2370ACPZ-3.0-R7	ADP2371ACPZ-R7
描述	Switching Voltage Regulators 1.2MHz/600kHz 800mA High VTG	Switching Voltage Regulators 1.2MHz/600kHz 800mA High VTG	Switching Voltage Regulators 1.2MHz/600kHz 800mA High VTG	Switching Voltage Regulators 1.2MHz/600kHz 800mA High VTG
Product Attribute	Attribute Value	Attribute Value	Attribute Value	-
制造商 Manufacturer	ADI(亚德诺半导体)	ADI(亚德诺半导体)	ADI(亚德诺半导体)	-
产品种类 Product Category	Switching Voltage Regulators	Switching Voltage Regulators	Switching Voltage Regulators	-
RoHS	Details	Details	Details	-
安装风格 Mounting Style	SMD/SMT	SMD/SMT	SMD/SMT	-
封装 / 箱体 Package / Case	LFCSP-8	LFCSP-8	LFCSP-8	-
Output Voltage	5 V	1.2 V	3 V	-
Output Current	800 mA	800 mA	800 mA	-
Number of Outputs	1 Output	1 Output	1 Output	-
Input Voltage MAX	15 V	15 V	15 V	-
Topology	Buck	Buck	Buck	-
Input Voltage MIN	3.2 V	3.2 V	3.2 V	-
Switching Frequency	600 kHz	600 kHz	600 kHz	-
最小工作温度 Minimum Operating Temperature	- 40 C	- 40 C	- 40 C	-
最大工作温度 Maximum Operating Temperature	+ 125 C	+ 125 C	+ 125 C	-
系列 Packaging	Reel	Reel	Reel	-
高度 Height	0.73 mm	0.73 mm	0.73 mm	-
长度 Length	3 mm	3 mm	3 mm	-
类型 Type	Step Down	Step Down	Step Down	-
宽度 Width	3 mm	3 mm	3 mm	-
Development Kit	ADP2370CPZ-REDYKIT	ADP2370CPZ-REDYKIT	ADP2370CPZ-REDYKIT	-
Load Regulation	0.01 %/V	0.01 %/V	0.01 %/V	-
Moisture Sensitive	Yes	Yes	Yes	-
工厂包装数量 Factory Pack Quantity	1500	1500	1500	-