MAX8647ETE+ Maxim Integrated Products, MAX8647ETE+ Datasheet - Page 8

MAX8647ETE+

Manufacturer Part Number

MAX8647ETE+

Description

IC LED DRVR WT/RGB BCKLGT 16TQFN

Manufacturer

Maxim Integrated Products

Type

Backlight, White LED, RGB (I²C Interface)r

Datasheet

1.MAX8647ETE.pdf (15 pages)

Specifications of MAX8647ETE+

Constant Current

Yes

Topology

PWM, Switched Capacitor (Charge Pump)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Backlight

Type - Secondary

RGB, White LED

Frequency

1MHz

Voltage - Supply

1.7 V ~ 5.5 V

Voltage - Output

Mounting Type

Surface Mount

Package / Case

16-TQFN Exposed Pad

Operating Temperature

-40°C ~ 85°C

Current - Output / Channel

24mA

Internal Switch(s)

Yes

Operating Supply Voltage

2.7 V to 5.5 V

Maximum Supply Current

1.6 mA

Maximum Power Dissipation

1667 mW

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Efficiency

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Ultra-Efficient Charge Pumps for

Six White/RGB LEDs in 3mm x 3mm Thin QFN

The MAX8647/MAX8648 have an inverting charge

pump and six current regulators capable of 24mA each

to drive six white LEDs or two sets of RGB LEDs. The

current regulators are matched to within ±0.4% (typ)

providing uniform white LED brightness for LCD back-

light applications. To maximize efficiency, the current

regulators operate with as little as 0.15V voltage drop.

Individual white LED current regulators conduct current

to GND or NEG to extend usable battery life. In the

case of mismatched forward voltage of white LEDs,

only the white LEDs requiring higher voltage are

switched to pull current to NEG instead of GND, further

raising efficiency and reducing battery current drain.

When V

white LED plus the 0.15V headroom of the current regu-

lator, the LED current returns through GND. If this con-

dition is satisfied for all six white LEDs, the charge

pump remains inactive. When the input voltage drops

so that the current-regulator headroom cannot be main-

tained for any of the individual white LEDs, the inverting

charge pump activates and generates a voltage on the

NEG pin that is no greater than 5V below V

rent regulator contains circuitry that detects when it is

in dropout and switches that current-regulator return

path from GND to NEG. Since this is done on an LED-

by-LED basis, the LED current is switched for only the

individual LED requiring higher voltage, thus minimizing

power consumption.

The MAX8647/MAX8648 internally generate a PWM sig-

nal to obtain higher resolution at lower currents. See

Single-Wire Pulse Dimming in the Typical Operating

Characteristics section. As the I

6.4mA, the IC adjusts not only I

duty cycle is controlled by the PWM signal. The fre-

quency of the PWM dimming signal is set at 1kHz with

a minimum duty cycle of 1/16 to avoid the LED flicking

effect to human eyes. Table 1 shows the current level

and the corresponding duty cycle.

An I

MAX8647 to control the LEDs. The serial interface

consists of a serial-data line (SDA) and a serial-clock

line (SCL). Standard I

_______________________________________________________________________________________

C 2-wire serial interface is provided on the

is higher than the forward voltage of the

Current-Regulator Switchover

Detailed Description

Low LED Current Levels

C write-byte commands are

C Interface (MAX8647)

LED

DC current, but the

setting is below

. Each cur-

used. Figure 2 shows a timing diagram for the I

tocol. The MAX8647 is a slave-only device, relying

upon a master to generate a clock signal. The master

(typically a microprocessor) initiates data transfer on

the bus and generates SCL to permit data transfer. A

master device communicates with the MAX8647 by

transmitting the proper 8-bit address (0x9A) followed

by the 8-bit control byte. Each 8-bit control byte con-

sists of a 3-bit command code and 5 bits of data (Table

1). Each transmit sequence is framed by a START (A)

condition and a STOP (L) condition (Figure 2). Each

word transmitted over the bus is 8 bits long and is

always followed by an ACKNOWLEDGE CLOCK

PULSE (K). The power-on default settings for D4 to D0

are all 0, which indicates that all LED_ are off.

When the LEDs are enabled by driving EN_ high, the

MAX8648 ramps LED current to 24mA. Dim the LEDs

by pulsing EN_ low (1µs to 500µs pulse width). Each

pulse reduces the LED current based on the LED dim-

ming table, Table 3. After the current reaches 0.1mA,

the next pulse restores the current to 24mA. Figure 3

shows a timing diagram for EN_. ENA controls LED1,

LED2, and LED3. ENB controls LED4 and LED5. ENC

controls LED6.

If dimming control is not required, EN_ work as simple

100% brightness or off controls. Drive EN_ high to enable

the LEDs, or drive EN_ low to disable. The IC is shut-

down when all three EN_ are low for 4ms or longer.

Table 1. Internal PWM Duty Cycle vs. LED

Set Current

Serial-Pulse Dimming Control (MAX8648)

(mA)

LED

6.4

5.6

4.8

4.0

3.2

2.8

2.4

2.0

1.6

1.4

DUTY CYCLE

(n/16)

(mA)

LED

1.2

1.0

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

DUTY CYCLE

(n/16)

C pro-

MAX8647ETE+ Maxim Integrated Products, MAX8647ETE+ Datasheet - Page 8

MAX8647ETE+

Specifications of MAX8647ETE+

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