AAT3120ITP-T1_技术文档

AAT3120

3-Channel Charge Pump

For White LED Applications

™

ChargePump

General Description

Features

The AAT3120 is a low noise, constant frequency

charge pump DC/DC converter that uses fractional

(1.5X) conversion to improve efficiency for white

LED applications. The device can be used to pro-

duce eight current levels up to 20mA per channel

for up to three channels. 1X load switch mode is

also built-in to improve efficiency at low current set-

tings. Low external parts count (two 1µF flying

capacitors and two small 1µF capacitors at V_INand

OUT) makes the AAT3120 ideally suited for small

battery-powered applications.

•

V_INRange: 2.7V to 5.5V

Fractional Charge Pump Mode

Drives Low-V_Fand High-V_FType LEDs

Up to Three LED Outputs

— Single Wire Programming

— Eight Regulated Current Settings

— Max 20mA per Channel

Low Noise Constant Frequency Operation

No Inductors

1MHz Switching Frequency

Small Application Circuit

Automatic Soft-Start

I_Q<1µA in Shutdown

12-Pin TSOPJW Package

•

AnalogicTech's S²Cwire™ (Simple Serial Control™)

serial digital input is used to enable, disable, and

set current for each LED at eight different levels.

The AAT3120 has a thermal management system

to protect the device in the event of a short-circuit

condition at the output pin. Built-in soft-start circuit-

ry prevents excessive inrush current during start-

up. A high charge pump switching frequency

enables the use of very small external capacitors.

A low current shutdown feature disconnects the

load from V_INand reduces quiescent current to less

than 1µA. The AAT3120 is available in the very

small Pb-free 12-pin TSOPJW package.

Applications

•

Color (RGB) Lighting

Programmable Current Source

White LED Backlighting

White Photo Flash for DSCs

Typical Application

VIN

C1+

C1

1µF

C1-

C2+

VOUT

V_BATTERY

C_IN

1µF

C_OUT

1µF

C2

1µF

AAT3120

C2-

D1

D2

D3

EN/SET

GND

D3

D2

D1

3120.2005.11.1.1

1

AAT3120

3-Channel Charge Pump

For White LED Applications

Pin Descriptions

Pin #

Symbol

Function

1

C2+

Flying capacitor 2 positive terminal. Connect a 1µF capacitor between C2+ and

C2-.

2

OUT

Charge pump output. Requires 1µF capacitor connected between this pin and

ground.

3

4

C1-

Flying capacitor 1 negative terminal.

C1+

Flying capacitor 1 positive terminal. Connect a 1µF capacitor between C1+ and

C1-.

5

6

N/C

D3

No connection.

Current source output #3.

Current source output #2.

Current source output #1.

Control pin.

7

D2

8

D1

9

EN/SET

IN

10

Input power supply. Requires 1µF capacitor connected between this pin and

ground.

11

12

GND

C2-

Ground.

Flying capacitor 2 negative terminal.

Pin Configuration

TSOPJW-12

(Top View)

1

2

3

4

5

6

12

11

10

9

C2+

OUT

C1-

C1+

N/C

D3

C2-

GND

IN

EN/SET

D1

D2

8

7

2

3120.2005.11.1.1

AAT3120

3-Channel Charge Pump

For White LED Applications

Absolute Maximum Ratings¹

T_A= 25°C, unless otherwise noted.

Symbol

Description

Value

Units

V_IN

V_OUT

Input Voltage

-0.3 to 6

0.3

V

Charge Pump Output

V_EN/SET

FB or EN/SET to GND Voltage

Maximum EN/SET to Input Voltage

Maximum DC Output Current

Operating Junction Temperature Range

Maximum Soldering Temperature (at leads, 10 sec)

V

V_EN/SET(MAX)

V

2

I_OUT

150

mA

°C

T_J

-40 to 150

300

T_LEAD

Thermal Information³

Symbol

Description

Value

Units

θ_JA

P_D

Thermal Resistance

Maximum Power Dissipation⁴

160

°C/W

W

0.625

1. Stresses above those listed in Absolute Maximum Ratings may cause permanent damage to the device. Functional operation at conditions

other than the operating conditions specified is not implied. Only one Absolute Maximum Rating should be applied at any one time.

2. Based on long-term current density limitation.

3. Mounted on an FR4 board.

4. Derate 6.25mW/°C above 25°C.

3120.2005.11.1.1

3

AAT3120

3-Channel Charge Pump

For White LED Applications

Electrical Characteristics¹

C_IN= C_OUT= C₁= C₂= 1.0µF; T_A= -40°C to +85°C, unless otherwise noted. Typical values are T_A= 25°C,

V_IN= 3.5V.

Symbol

Description

Conditions

Min Typ Max Units

Input Power Supply

V_IN

I_CC

Operation Range

2.7

5.5

3.0

V

Operating Current

3.0V ≤ V_IN≤ 5.5V, Active,

No Load Current

EN = 0

1.8

mA

I_SHDN

I_DX

Shutdown Current

Output Current

1.0

22

µA

mA

%

3.0 ≤ V_IN≤ 5.5

VD1:D3 = 3.6, V_IN= 3.5V

18

20

I_(D-Match)

Current Matching Between

Any Two Outputs

0.5

Charge Pump Section

T_SS

Soft-Start Time

200

µs

F_CLK

Clock Frequency

1000

kHz

EN/SET

V_EN(L)

V_EN(H)

Enable Threshold Low

Enable Threshold High

EN/SET Low Time

2.7V ≤ V_IN≤ 5.5V

0.4

75

V

1.4

0.3

T_{EN/SET LO}

T_{EN/SET HI}

T_OFF

µs

ns

µs

µA

Minimum EN/SET High Time

EN/SET Off Timeout

50

500

1

Input Current

EN/SET Input Leakage

-1

1. The AAT3120 is guaranteed to meet performance specifications over the -40°C to +85°C operating temperature range and is assured

by design, characterization, and correlation with statistical process controls.

4

3120.2005.11.1.1

AAT3120

3-Channel Charge Pump

For White LED Applications

Typical Characteristics

Turn-On to Full-Scale Load Switch

Turn-On to Full-Scale Charge Pump

ENSET

(2V/div)

ENSET

(2V/div)

CP

(2V/div)

CP

(2V/div)

V_DIODE

(2V/div)

V_DIODE

(2V/div)

I_IN

(200mA/div)

I_IN

(200mA/div)

Time (100µs/div)

I_DIODEvs. Input Voltage

(3x20mA)

Turn-Off from Full-Scale Charge Pump

65

62

59

56

53

50

ENSET

(2V/div)

V_F= 3.4V

V_DIODE

(2V/div)

V_F= 3.0V V_F= 3.2V

I_IN

(100mA/div)

2.7 2.9 3.1 3.3 3.5 3.7 3.9 4.1 4.3 4.5 4.7 4.9 5.1

Input Voltage (V)

Time (400µs/div)

I_DIODEvs. Input Voltage

(3x8.3mA)

30

27

24

21

18

15

V_F= 3.4V

V_F= 3.0V V_F= 3.2V

2.7 2.9 3.1 3.3 3.5 3.7 3.9 4.1 4.3 4.5 4.7 4.9 5.1

Input Voltage (V)

3120.2005.11.1.1

5

AAT3120

3-Channel Charge Pump

For White LED Applications

Typical Characteristics

Efficiency vs. Input Voltage

(3x20mA)

Efficiency vs. Input Voltage

(3x8.3mA)

95

90

85

80

75

70

65

60

55

50

95

90

85

80

75

70

65

60

55

50

V_F= 3.0V

V_F= 3.2V V_F= 3.4V

V_F= 3.0V V_F= 3.2V V_F= 3.4V

2.7 2.9 3.1 3.3 3.5 3.7 3.9 4.1 4.3 4.5 4.7 4.9 5.1

Input Voltage (V)

60mA Load Characteristics

Charge Pump to Load Switch (60mA)

V_IN

(20mV/div)

V_IN

(10mV/div)

OUT

(2V/div)

OUT

(20mV/div)

V_DIODE

(2V/div)

I_IN

(100mA/div)

V_DIODE

(20mV/div)

Time (500ns/div)

Time (100µs/div)

Load Switch to Charge Pump (60mA)

V_IN

(10mV/div)

OUT

(2V/div)

V_DIODE

(2V/div)

I_IN

(100mA/div)

Time (100µs/div)

6

3120.2005.11.1.1

AAT3120

3-Channel Charge Pump

For White LED Applications

Functional Block Diagram

VIN

Soft-Start

Control

C1+

C1-

1X / 1.5X

C2+

Charge

1MHz

Oscillator

Pump

C2-

Voltage

Reference

OUT

D1

D2

D3

Current

Reference

Quad

Output

DAC

Single-Wire

EN/SET

Interface

32 x 16 bit

ROM

GND

The AAT3120 requires only four external compo-

nents: two 1µF ceramic capacitors for the charge

pump flying capacitors (C1 and C2), one 1µF

ceramic input capacitor (C_IN), and one 0.33µF to

1µF ceramic output capacitor (C_OUT). The LDO /

1.5X charge pump output is converted into three

(D1 to D3) constant current outputs to drive three

individual LEDs with a maximum current of 20mA

each. The current source output magnitude is con-

trolled by the EN/SET serial data single-wire inter-

face. The interface records rising edges of the

EN/SET pin and decodes them into eight individual

current level settings (see Table 1, Current Level

Settings). Once the final clock cycle is input for the

desired brightness level, the EN/SET pin is held

high to maintain the device output current at the

programmed level. The device is disabled 500µs

after the EN/SET pin transitions to a logic low state.

Functional Description

The AAT3120 is a dual mode load switch (1X) and

high efficiency (1.5X) fractional charge pump

device intended for white LED backlight applica-

tions. The fractional charge pump consists of a low

dropout linear voltage regulator followed by a 1.5X

charge pump with multiple current source outputs.

To maximize power conversion efficiency, an inter-

nal feedback control sensing circuit monitors the

voltage required on the constant current source

outputs. This control circuit then sets the load

switch and charge pump functions based upon the

input voltage level versus the output voltage level

needed. The 1X load switch / 1.5X charge pump

mode is decided on the voltage sensed on the out-

put D1. Switchover between the 1.5X (charge-

pump) operating mode and the 1X (load switch)

mode occurs automatically (as a function of input

and output voltages) and does not require user

intervention to maintain maximum efficiency.

3120.2005.11.1.1

7

AAT3120

3-Channel Charge Pump

For White LED Applications

pin and decodes them into eight individual current

level settings. Code 8 is full scale.

Code

I_OUT, Each LED (mA)

1

2

3

4

5

6

7

8

0

The counter can be clocked at speeds up to 1MHz,

so intermediate states are not visible. The first rising

edge of EN/SET enables the IC and initially sets the

output LED current to zero. The next lowest setting

is equal to 525µA. Once the final clock cycle is input

for the desired brightness level, the EN/SET pin is

held high to maintain the device output current at

the programmed level. The device is disabled

500µs after the EN/SET pin transitions to a logic low

state. The EN/SET timing is designed to accommo-

date a wide range of data rates. After the first rising

edge of EN/SET, the charge pump is enabled and

reaches full capacity after the soft-start time (T_SS).

During the soft-start time, multiple clock pulses may

be entered on the EN/SET pin to set the final output

current level with a single burst of clocks.

Alternatively, the EN/SET clock pulses may be

entered one at a time to gradually increase the LED

brightness over any desired time period. A constant

current is sourced as long as EN/SET remains in a

logic high state. The current source outputs are

switched off after EN/SET has remained in a low

state for at least the T_OFFtimeout period.

0.5

1.3

3.3

8.3

11.1

15

20

Table 1: Current Level Settings.

Constant Current Output Level Settings

The constant current source output amplitude for

output D1 to D3 is set via the serial interface.

Because the outputs D1 to D3 are true independent

constant current sources, the voltage observed on

any single given output will be determined by the

actual forward voltage (V_F) for the LED being driven.

Since the output current of the AAT3120 is pro-

grammable through its simple single-wire serial

interface, no PWM (pulse width modulation) or

additional control circuitry is needed to control LED

brightness. This feature greatly reduces the burden

on a microcontroller or system IC to manage LED

or display brightness, allowing the user to "set it

and forget it."

Test Current/Channel Disable

Each channel of the output is equipped with a test

current function. A small amount of current (~2µA)

is injected into each output current source to detect

the presence of load (LED). For unused channels

that are tied to ground or load LED fail short, those

channels will be automatically disabled instead of

wasting the programmed output current.

EN/SET Serial Interface

The current source output magnitude is controlled

by the EN/SET serial data single-wire interface.

The interface records rising edges of the EN/SET

EN/SET Timing

t_HI

t_OFF

t_LO

EN/SET

Code

OFF

1

2

3

8

3120.2005.11.1.1

AAT3120

3-Channel Charge Pump

For White LED Applications

Since the AAT3120 outputs are pure constant cur-

rent sources and typically drive individual loads, it is

difficult to measure the output voltage for a given

output (D1 to D3) to derive an overall output power

measurement. For any given application, white LED

forward voltage levels can differ, yet the output drive

current will be maintained as a constant. This makes

quantifying output power a difficult task when taken

in the context of comparing to other white LED driv-

er circuit topologies. A better way to quantify total

device efficiency is to observe the total input power

to the device for a given LED current drive level. The

best white LED driver for a given application should

be based on trade-offs of size, external components

count, reliability, operating range, and total energy

usage...not just % efficiency.

Applications Information

LED Selection

The AAT3120 is specifically intended for driving

white LEDs. However, the device design will allow

the AAT3120 to drive most types of LEDs with for-

ward voltage specifications ranging from 2.0V to

4.3V. LED applications may include main and sub-

LCD display backlighting, camera photo-flash appli-

cations, color (RGB) LEDs, infrared (IR) diodes for

remotes, and other loads benefiting from a controlled

output current generated from a varying input volt-

age. Since the D1 to D3 output current sources are

matched with negligible voltage dependence, the

LED brightness will be matched regardless of the

specific LED forward voltage (V_F) levels.

The AAT3120 efficiency may be quantified under

very specific conditions and is dependent upon the

input voltage versus the output voltage seen

across the loads applied to outputs D1 through D3

for a given constant current setting. Depending

upon the case of V_INbeing greater than the specif-

ic voltage seen across the load on D1, the device

will operate in "load switch" mode. If the voltage

seen on the constant current source output is less

than V_IN, then the device will operate in 1.5X

charge pump mode. Each of these two modes will

yield different efficiency values. One should refer

to the following two sections for explanations of

each operational mode.

In some instances (e.g., in high-luminous-output

applications such as photo-flash) it may be neces-

sary to drive high-V_Ftype LEDs. The low-dropout

current-sources in the AAT3120 make it capable of

driving LEDs with forward voltages as high as 4.3V

at full current from an input supply as low as 3.0V.

Outputs can be paralleled to drive high current

LEDs without complication.

Device Switching Noise Performance

The AAT3120 operates at a fixed frequency of

approximately 1MHz to control noise and limit har-

monics that can interfere with the RF operation of

cellular telephone handsets or other communica-

tion devices. Back-injected noise appearing on the

input pin of the charge pump is 20mV peak-to-

peak, typically ten times less than inductor-based

DC/DC boost converter white LED backlight solu-

tions. The AAT3120 soft-start feature prevents

noise transient effects associated with in-rush cur-

rents during start up of the charge pump circuit.

Load Switch Mode Efficiency

The AAT3120 load switch mode is operational at all

times. It functions alone to enhance device power

conversion efficiency when the condition exists

where V_INis greater than the voltages at the con-

stant current source outputs. When in "load switch"

mode, the voltage conversion efficiency is defined

as output power divided by input power:

Power Efficiency and Device

Evaluation

P_OUT

P_IN

The charge pump efficiency discussion in the fol-

lowing sections only accounts for efficiency of the

charge pump section itself. Due to the unique circuit

architecture and design of the AAT3120, it is very

difficult to measure efficiency in terms of a percent

value comparing input power over output power.

η =

3120.2005.11.1.1

9

AAT3120

3-Channel Charge Pump

For White LED Applications

The expression to define the ideal efficiency (η)

close agreement for output load conditions from

1mA to 100mA. Efficiency will decrease as load

current drops below 0.05mA or when level of V_IN

approaches V_OUT. Refer to the Typical Character-

istics section of this document for measured plots

of efficiency versus input voltage and output load

current for the given charge pump output voltage

options.

can be rewritten as:

P_OUTV_OUT× I_OUTV_OUT

η =

=

P_IN

V_IN× I_OUT

V_IN

-or-

V_OUT

Ballast Resistors for Current Matching

⎛

⎞

⎠

η(%) = 100

V_IN

⎝

In some applications, white LED forward voltages

can vary significantly. Ballast resistors between

the LED cathodes and ground are recommended

for balancing the forward voltage differences. The

ballast resistor value may be approximated by the

following equation:

Charge Pump Section Efficiency

The AAT3120 contains a fractional charge pump

which will boost the input supply voltage in the

event where V_INis less than the voltage required

on the constant current source outputs. The effi-

ciency (η) can be simply defined as a linear voltage

regulator with an effective output voltage that is

equal to one and one half times the input voltage.

Efficiency (η) for an ideal 1.5X charge pump can

typically be expressed as the output power divided

by the input power.

V_SOURCE- V_F

I_F

R_B=

Capacitor Selection

Careful selection of the four external capacitors

C_IN, C₁, C₂, and C_OUTis important because they will

affect turn-on time, output ripple, and transient per-

formance. Optimum performance will be obtained

when low Equivalent Series Resistance (ESR)

ceramic capacitors are used. In general, low ESR

may be defined as less than 100mΩ. A value of

1µF for all four capacitors is a good starting point

when choosing capacitors. If the LED current

sources are only programmed for light current lev-

els, then the capacitor size may be decreased.

P_OUT

P_IN

η =

In addition, with an ideal 1.5X charge pump, the

output current may be expressed as 2/3 of the

input current. The expression to define the ideal

efficiency (η) can be rewritten as:

P_OUT

P_IN

V_OUT× I_OUT

=

V_OUT

Capacitor Characteristics

η =

=

V_IN× 1.5I_OUT1.5V_IN

Ceramic composition capacitors are highly recom-

mended over all other types of capacitors for use with

the AAT3120. Ceramic capacitors offer many advan-

tages over their tantalum and aluminum electrolytic

counterparts. A ceramic capacitor typically has very

low ESR, is lowest cost, has a smaller PCB footprint,

and is non-polarized. Low ESR ceramic capacitors

help maximize charge pump transient response.

Since ceramic capacitors are non-polarized, they are

not prone to incorrect connection damage.

-or-

V_OUT

⎛

⎝

⎞

⎠

η(%) = 100

1.5V

IN

For a charge pump with an output of 5 volts and a

nominal input of 3.5 volts, the theoretical efficiency

is 95%. Due to internal switching losses and IC

quiescent current consumption, the actual efficien-

cy can be measured at 93%. These figures are in

Equivalent Series Resistance

10

3120.2005.11.1.1

AAT3120

3-Channel Charge Pump

For White LED Applications

ESR is an important characteristic to consider when

selecting a capacitor. ESR is a resistance internal

to a capacitor, which is caused by the leads, inter-

nal connections, size or area, material composition,

and ambient temperature. Capacitor ESR is typi-

cally measured in milliohms for ceramic capacitors

and can range to more than several ohms for tan-

talum or aluminum electrolytic capacitors.

Capacitor area is another contributor to ESR.

Capacitors that are physically large will have a lower

ESR when compared to an equivalent material

smaller capacitor. These larger devices can improve

circuit transient response when compared to an

equal value capacitor in a smaller package size.

Thermal Protection

The AAT3120 has a thermal protection circuit that

will shut down the internal LDO and charge pump

if the die temperature rises above the thermal limit,

as is the case during a short circuit of the OUT pin.

Ceramic Capacitor Materials

Ceramic capacitors less than 0.1µF are typically

made from NPO or C0G materials. NPO and C0G

materials typically have tight tolerance and are sta-

ble over temperature. Large capacitor values are

typically composed of X7R, X5R, Z5U, or Y5V

dielectric materials. Large ceramic capacitors, typ-

ically greater than 2.2µF, are often available in low-

cost Y5V and Z5U dielectrics, but capacitors

greater than 1µF are typically not required for

AAT3120 applications.

Charge Pump Compatibility

The AAT3120 is pin-compatible with the AAT3113

in TSOPJW-12 packages, with no D4 output.

Compared to the AAT3113, the AAT3120 offers an

improved overall efficiency, wider operating range,

and the ability to drive high-V_Ftype LEDs (up to

4.3V) at full current from a 3V input condition. The

AAT3120 is well suited for battery-powered appli-

cations using single-cell Lithium-Ion (Li-Ion) batter-

ies (4.2V to 2.8V), Lithium Polymer batteries, and

3-series connected dry cells (3.6V).

3120.2005.11.1.1

11

AAT3120

3-Channel Charge Pump

For White LED Applications

Additional Application Circuits

VIN

C1+

C1

1µF

C1-

C2+

VOUT

C_IN

1µF

C_OUT

1µF

C2

1µF

V_BATTERY

AAT3120

C2-

D1

D2

D3

Display Module

EN/SET

GND

D1

D2

R

D3

R

AAT3120 Driving a Display Module with Three Paralleled White LEDs.

VIN

C1+

C1

1µF

C1-

C2+

VOUT

C

C_OUT

1µF

IN

C2

V_BATTERY

AAT3120

1µF

C2-

Common-Anode

RGB Color LED

D1

D2

D3

EN/SET

GND

RED

R

GRN

R

BLU

R

Enable Red

Enable Green

Enable Blue

AAT3120 Driving Common-Anode RGB Color LED.

12

3120.2005.11.1.1

AAT3120

3-Channel Charge Pump

For White LED Applications

Ordering Information

Package

Marking¹

Part Number (Tape and Reel)²

AAT3120ITP-T1

TSOPJW-12

NGXYY

All AnalogicTech products are offered in Pb-free packaging. The term “Pb-free” means

semiconductor products that are in compliance with current RoHS standards, including

the requirement that lead not exceed 0.1% by weight in homogeneous materials. For more

information, please visit our website at http://www.analogictech.com/pbfree.

Package Information

+ 0.10

- 0.05

0.20

0.50 BSC 0.50 BSC 0.50 BSC 0.50 BSC 0.50 BSC

7° NOM

0.04 REF

3.00 0.10

4° 4°

0.45 0.15

0.055 0.045

0.010

2.75 0.25

All dimensions in millimeters.

1. XYY = assembly and date code.

2. Sample stock is generally held on part numbers listed in BOLD.

3120.2005.11.1.1

13

AAT3120

3-Channel Charge Pump

For White LED Applications

AnalogicTech cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in an AnalogicTech product. No circuit patent licenses, copyrights, mask work rights,

or other intellectual property rights are implied. AnalogicTech reserves the right to make changes to their products or specifications or to discontinue any product or service without notice.

Customers are advised to obtain the latest version of relevant information to verify, before placing orders, that information being relied on is current and complete. All products are sold

subject to the terms and conditions of sale supplied at the time of order acknowledgement, including those pertaining to warranty, patent infringement, and limitation of liability. AnalogicTech

warrants performance of its semiconductor products to the specifications applicable at the time of sale in accordance with AnalogicTech’s standard warranty. Testing and other quality con-

trol techniques are utilized to the extent AnalogicTech deems necessary to support this warranty. Specific testing of all parameters of each device is not necessarily performed.

Advanced Analogic Technologies, Inc.

830 E. Arques Avenue, Sunnyvale, CA 94085

Phone (408) 737-4600

Fax (408) 737-4611

14

3120.2005.11.1.1


型号：	AAT3120ITP-T1
厂家：	ADVANCED ANALOGIC TECHNOLOGIES
描述：	3-Channel Charge Pump For White LED Applications 3通道电荷泵白光LED应用泵
文件：	总14页 (文件大小：258K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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