MP3310EQ-LF-Z [MPS]

LED Driver, 40-Segment, PDSO10, 3 X 3 MM, ROHS COMPLIANT, MO-229VEED-5, QFN-10;


型号：	MP3310EQ-LF-Z
厂家：	MONOLITHIC POWER SYSTEMS
描述：	LED Driver, 40-Segment, PDSO10, 3 X 3 MM, ROHS COMPLIANT, MO-229VEED-5, QFN-10 驱动光电二极管接口集成电路
文件：	总10页 (文件大小：349K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MP3310

50V, 1.3A, Step-up

White LED Driver

with True PWM Dimming

The Future of Analog IC Technology

DESCRIPTION

FEATURES

•

Internal 0.3Ω Power MOSFET

The MP3310 is a monolithic step-up converter

designed for driving arrays of WLEDs from a

wide input supply range. The MP3310 uses

current mode, fixed frequency architecture to

regulate the LED current to user programmed

value set by an external current setting resistor.

The switching frequency is also programmable

with an external resistor.

Wide 4.5V to 25V Operating Input Range

Drives up to 12 Series White LEDs

Up to 93% Efficiency

True PWM Dimming

Adjustable Switching Frequency

Adjustable Open Load Shutdown Voltage

Internal 1.3A Current Limit

UVLO, Thermal Shutdown

Available in 3mm x 3mm QFN10 Package

The MP3310 features true PWM dimming,

which allows the flexible control of the

backlighting luminance under wide range of the

ambient brightness.

APPLICATIONS

•

LCD Panels

The MP3310 is turned off if an over-voltage

condition is present due to an open circuit

condition. Use one external resistor voltage

divider to program OVP threshold. The MP3310

also includes under-voltage lockout, current

limiting and thermal overload protection

preventing damage in the event of an output

overload.

Digital Picture Frames

Handheld Computers and PDAs

Digital Still Cameras

Small LCD Displays

For MPS green status, please visit MPS website under Quality Assurance.

“MPS” and “The Future of Analog IC Technology” are Registered Trademarks of

Monolithic Power Systems, Inc.

The MP3310 is available in small 10-pin QFN

3x3mm package.

TYPICAL APPLICATION

VIN vs. Efficiency

100

(V)

MP3310 Rev.1.0

7/5/2011

www.MonolithicPower.com

MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.

MP3310—50V, 1.3A, STEP-UP WHITE LED DRIVER WITH TRUE PWM DIMMING

ORDERING INFORMATION

Part Number*

Package

Top Marking

Free Air Temperature (T_A)

MP3310EQ

QFN10 (3mm x 3mm)

-20°C to +85°C

* For Tape & Reel, add suffix –Z (e.g. MP3310EQ–Z);

For RoHS Compliant Packaging, add suffix –LF (e.g. MP3310EQ–LF–Z)

PACKAGE REFERENCE

Thermal Resistance ⁽⁴⁾

θ_JA

θ_JC

ABSOLUTE MAXIMUM RATINGS ⁽¹⁾

QFN10 (3mm x 3mm) ...........50 ...... 12...°C/W

V_IN.................................................-0.3V to +30V

V_SW, V_LED.......................................-0.3V to +50V

All Other Pins...............................-0.3V to +6.3V

Notes:

1) Exceeding these ratings may damage the device.

2) The maximum allowable power dissipation is a function of the

maximum junction temperature T_J(MAX), the junction-to-

ambient thermal resistance θ_JA, and the ambient temperature

T_A. The maximum allowable continuous power dissipation at

any ambient temperature is calculated by P_D(MAX)=(T_J(MAX)-

T_A)/ θ_JA. Exceeding the maximum allowable power dissipation

will cause excessive die temperature, and the regulator will go

into thermal shutdown. Internal thermal shutdown circuitry

protects the device from permanent damage.

(2)

Continuous Power Dissipation

(T_A= +25°C)

............................................................. 2.5W

Junction Temperature...............................150°C

Lead Temperature ....................................260°C

Storage Temperature............... -65°C to +150°C

Recommended Operating Conditions ⁽³⁾

3) The device is not guaranteed to function outside of its

operation conditions.

Supply Voltage V_IN...........................4.5V to 25V

4) Measured on JESD51-7 4-layer board.

Operating Junc Temp T_J.......... -20°C to +125°C

MP3310 Rev.1.0

7/5/2011

www.MonolithicPower.com

MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.

MP3310—50V, 1.3A, STEP-UP WHITE LED DRIVER WITH TRUE PWM DIMMING

ELECTRICAL CHARACTERISTICS

V_IN= 12V, V_EN= 5V, T_A= +25°C, unless otherwise noted.

Parameters

Symbol

V_IN

Condition

Min

Typ Max Units

Operating Input Voltage

Supply Current (Shutdown)

Supply Current (Quiescent)

4.5

I_{IN_SD}

I_{IN_QS}

V_EN= 0V

µA

V_EN= 5V, V_LED= 1V

V_EN= 5V, 6V < V_IN< 25V,

0 < I_VCC< 10mA

LDO Output Voltage

Switching Frequency

V_CC

4.3

5.0

5.5

R_FSET= 50kΩ

470

0.8

560

650

1.2

kHz

MHz

f_SW

R_FSETOpen

Maximum Duty Cycle

D_MAX

Under Voltage Lockout

IN Under Voltage Lockout

V_{CC_UVLO}

V_INRising

V_OVRising

3.6

3.9

4.2

Under Voltage Lockout

Hysteresis

450

Open Load Shutdown

Threshold

V_OVP

1.18 1.24 1.30

Enable & Dimming

EN Low Threshold

EN High Threshold

EN Disable Timer

Current Regulation Delay

LED Current Regulation

LED Current

V_{EN_LOW}

V_{EN_HIGH}

V_ENFalling

V_ENRising

0.6

1.6

µs

From V_ENRising Edge

I_LED

R_ISET= 60kΩ

74.1 76.8 79.5

500

LED Regulation Voltage

Output Switch

V_LED

I_LED= 80mA

SW On-Resistance

SW Current Limit

R_ON

0.3

1.3

Ω

Duty Cycle = 90%

Thermal Shutdown

150

°C

LED Switch (M2, refer block

diagram) On Resistance

Ω

MP3310 Rev.1.0

7/5/2011

www.MonolithicPower.com

MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.

MP3310—50V, 1.3A, STEP-UP WHITE LED DRIVER WITH TRUE PWM DIMMING

PIN FUNCTIONS

Pin #

Name

Pin Function

Open Load Protection Programming Pin. Connect a resistor divider from output to this

pin to program the OVP threshold. When this pin voltage reaches the shutdown

threshold 1.24V, the switch will be turned off and latch up until the IC is turned off and

enabled again.

OVP

LED Current Set. Tie a current setting resistor from this pin to ground to program the

whole LED current.

ISET

Step-up Converter Compensation Pin. This pin is used to compensate the regulation

control loop. Connect a capacitor or a series RC network from COMP to GND.

COMP

LED Current Input. This pin is the open-drain output of an internal dimming

control switch. Connect the LED cathode to this pin. With internal 500mV

reference, the current flows into LED pin should be less than 120mA for normal

operation.

LED

GND,

Exposed Pad

Ground. Connect exposed pad to GND plane for proper thermal performance.

Power Switch Output. SW is the drain of the internal MOSFET switch. Connect the

power inductor and output rectifier to SW.

ON/OFF Control and Dimming Command Input. To use PWM dimming, add a 200Hz to

2kHz square wave signal to this pin.

EN/DIM

VIN

Input Supply Pin. Must be locally bypassed.

The Internal 5V Linear Regulator Output. VCC provides power supply for the internal

MOSFET switch gate driver and the internal control circuitry. Bypass VCC to GND with a

ceramic capacitor. If VIN is less than 5.5V, apply an external 5V supply directly on VCC.

VCC

Switching Frequency Programming Pin. Connect a resistor to ground to set the switching

frequency.

FSET

MP3310 Rev.1.0

7/5/2011

www.MonolithicPower.com

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MP3310—50V, 1.3A, STEP-UP WHITE LED DRIVER WITH TRUE PWM DIMMING

TYPICAL PERFORMANCE CHARACTERISTICS

V_IN= 12V, V_EN= 5V, I_LED= 80mA, 10WLEDs 4Strings, unless otherwise noted.

PWM Dimming Duty vs.

WLED Current

vs. f

vs. Efficiency

FSET

100

1300

1200

1100

1000

900

800

700

200Hz

2kHz

600

500

400

300

200

20 40 60 80 100 120

0 10 20 30 40 50 60 70 80 90100

PWM DIMMING DUTY (%)

(V)

Steady State

Enable Shutdown

Enable Startup

20V/div.

5V/div.

/AC

OUT

200mV/div.

CMOP

IEST

500mV/div.

LED

50mA/div.

INDUCTOR

OUT

10V/div.

200mA/div.

4msdiv.

1usdiv.

20usdiv.

PWM Dimming

Open Load Protection

=2kHz, DPWM=50%

=200Hz, DPWM=50%

PWM

20V/div.

PWM

2V/div.

PWM

2V/div.

OUT

10V/div.

LED

50mA/div.

OUT

10V/div.

2msdiv.

200usdiv.

40usdiv.

MP3310 Rev.1.0

7/5/2011

www.MonolithicPower.com

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MP3310—50V, 1.3A, STEP-UP WHITE LED DRIVER WITH TRUE PWM DIMMING

FUNCTION DIAGRAM

Figure 1—MP3310 Function Block Diagram

MP3310 Rev.1.0

7/5/2011

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MP3310—50V, 1.3A, STEP-UP WHITE LED DRIVER WITH TRUE PWM DIMMING

OPERATION

The MP3310 employs a constant frequency,

peak current mode step-up converter and internal

regulated current source to regulate the array of

white LEDs. The operation of the MP3310 can be

understood by referring to the block diagram of

Figure 1.

error amplifier (V_COMP) the power FET is turned

off.

The COMP voltage at the output of the internal

error amplifier is an amplified signal of the

difference between the 500mV reference voltage

and the feedback voltage. The converter

automatically provides enough bus voltage to

power the LED array.

Internal 5V Regulator

The MP3310 includes an internal linear regulator

(VCC). When VIN is greater than 5.5V, this

regulator offers a 5V power supply for the internal

MOSFET switch gate driver and the internal

control circuitry. The VCC voltage drops to 0V

when the chip shuts down. In the application of

VIN smaller than 5.5V, tie VCC and VIN together.

The MP3310 features Under Voltage Lockout.

The chip is disabled until VCC exceeds the

UVLO threshold. And the hysteresis of UVLO is

approximately 450mV.

If the feedback voltage drops below the 500mV

reference, the output of the error amplifier

increases. It results in more current flowing

through the power FET, thus increasing the

power delivered to the output. In this way it forms

a close loop to make the LED current in

regulation.

At light-load or VOUT near to VIN operation, the

converter runs into the pulse-skipping mode, the

FET is turned on for a minimum on-time, and

then the converter discharges the power to the

output in the remnant period. The FET will keep

off until the output voltage needs to be boosted

again.

System Startup

When the MP3310 is enabled and VCC exceeds

the UVLO threshold, the capacitor on COMP pin

is charged. Once the COMP level reaches to

about 750mV, the switching begins and the

MP3310 starts boosting the step-up converter.

Dimming Control

The MP3310 incorporates both Enable and PWM

dimming onto a single control pin. The part

features true PWM dimming which results in

PWM chopping of the current in the LEDs to

provide flexible LED brightness control.

Step-up Converter

The converter operation frequency is adjustable

by FSET setting resistor, which is helpful for

optimizing the external components sizes and

improving the efficiency.

Open Load Protection

The open load protection is achieved through the

over voltage protection. If LED array is open, the

LED pin is pulled to ground and the IC keeps

charging the output voltage until it reach OVP

threshold. Then the MP3310 shuts down the

step-up converter.

At the beginning of each cycle, the power FET is

turned on with the internal clock. To prevent sub-

harmonic oscillations at duty cycles greater than

50 percent, a stabilizing ramp is added to the

output of the current sense amplifier and the

result is fed into the PWM comparator. When this

result voltage reaches the output voltage of the

MP3310 Rev.1.0

7/5/2011

www.MonolithicPower.com

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MP3310—50V, 1.3A, STEP-UP WHITE LED DRIVER WITH TRUE PWM DIMMING

APPLICATION INFORMATION

Setting the Switching Frequency

Selecting the Inductor

The resistor on FSET pin is used to set the

switching frequency. The relationship of the

operating frequency vs. the FSET resistor is

showed as the curve in page 5. A 20kΩ to 100kΩ

FSET resistor, which sets the operating

frequency from around 1.2MHz to 300kHz, is

recommended. Leaving the FSET pin open sets

the switching frequency to 1MHz as default.

A 10μH to 22µH inductor with a DC current rating

of at least 40% higher than the maximum input

current is recommended for most applications at

wide input range. For highest efficiency, the

inductor’s DC resistance should be as small as

possible.

Selecting the Input Capacitor

The input capacitor reduces the surge current

drawn from the input supply and the switching

noise from the device. The input capacitor

impedance at the switching frequency should be

less than the input source impedance to prevent

high frequency switching current from passing

through the input. Ceramic capacitors with X5R

or X7R dielectrics are highly recommended

because of their low ESR and small temperature

coefficients. For most applications, two 4.7μF

capacitors paralleled is sufficient.

Setting the LED Current

The regulated total LED current is identical and

set through the current setting resistor on the

ISET pin through the use of the equation:

_LED= 4605V / R_ISET

For R_ISET=60.4kΩ, the LED current is set to about

76.2mA. The ISET pin can not be open.

With internal 500mV reference, the current flows

into LED pin should be less than 120mA for

normal operation.

Selecting the Output Capacitor

The output capacitor keeps the output voltage

ripple small and ensures feedback loop stability.

The output capacitor impedance should be low at

the switching frequency. Ceramic capacitors with

X7R dielectrics are recommended for their low

ESR characteristics. For most applications, a 1μF

ceramic capacitor is sufficient.

PWM Dimming

Apply a 200Hz to 2kHz square waveform to the

EN pin to implement PWM dimming of the LEDs.

The minimum recommended amplitude of the

PWM signal is 2V.

Setting the Over Voltage Protection

Layout Considerations

The open load protection is achieved through the

over voltage protection (OVP) setting. In some

cases, LED strings failure results in the feedback

voltage is always zero. The part then keeps

boosting the output voltage higher and higher. If

the output voltage reaches the programmable

OVP threshold, the protection will be triggered.

Careful attention must be paid to the PCB board

layout and components placement. Proper layout

of the high frequency switching path is critical to

prevent noise and electromagnetic interference

problems. The loop of MP3310 SW to GND pin,

output diode, and output capacitor is flowing with

high frequency pulse current. It must be as short

as possible. The IC exposed pad is internally

connected to GND pin. Lay the GND plane

widely for proper thermal performance. The VCC

pin is the power supply input for the internal

MOSFET switch gate driver and the internal

control circuitry. It must be locally bypassed.

To make sure the chip functions properly in

normal operation, the OVP setting resistor divider

must be set with

proper value. The

recommended OVP point is about 1.3 times

higher than the output voltage for normal

operation.

V_OV=1.24V x (R1+R2)/R2

MP3310 Rev.1.0

7/5/2011

www.MonolithicPower.com

MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.

MP3310—50V, 1.3A, STEP-UP WHITE LED DRIVER WITH TRUE PWM DIMMING

TYPICAL APPLICATION CIRCUIT

Figure 2—Step-up White LED Driver Application for Driving 4 Strings of 10 WLEDs

Figure 3—Step-up White LED Driver Application for Driving 3 Strings of 12 WLEDs

Figure 4—Step-up White LED Driver Application for Driving 3 Strings of 7 WLEDs

MP3310 Rev.1.0

7/5/2011

www.MonolithicPower.com

MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.

MP3310—50V, 1.3A, STEP-UP WHITE LED DRIVER WITH TRUE PWM DIMMING

PACKAGE INFORMATION

QFN10 (3mm x 3mm)

2.90

3.10

0.30

0.50

1.45

1.75

PIN 1 ID

SEE DETAIL A

PIN 1 ID

MARKING

0.18

0.30

2.25

2.55

2.90

3.10

PIN 1 ID

INDEX AREA

0.50

BSC

TOP VIEW

BOTTOM VIEW

PIN 1 ID OPTION A

R0.20 TYP.

PIN 1 ID OPTION B

R0.20 TYP.

0.80

1.00

0.20 REF

0.00

0.05

SIDE VIEW

DETAIL A

NOTE:

2.90

1.70

1) ALL DIMENSIONS ARE IN MILLIMETERS.

0.70

0.25

2) EXPOSED PADDLE SIZE DOES NOT INCLUDE MOLD FLASH.

3) LEAD COPLANARITY SHALL BE 0.10 MILLIMETER MAX.

4) DRAWING CONFORMS TO JEDEC MO-229, VARIATION VEED-5.

5) DRAWING IS NOT TO SCALE.

2.50

0.50

RECOMMENDED LAND PATTERN

NOTICE: The information in this document is subject to change without notice. Users should warrant and guarantee that third

party Intellectual Property rights are not infringed upon when integrating MPS products into any application. MPS will not

assume any legal responsibility for any said applications.

MP3310 Rev. 1.0

7/5/2011

www.MonolithicPower.com

MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited.

MP3310EQ-LF-Z [MPS]

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