MAX1986ETE+T Maxim Integrated Products, MAX1986ETE+T Datasheet - Page 12

MAX1986ETE+T

Manufacturer Part Number

MAX1986ETE+T

Description

IC LED DRVR WHITE BCKLGT 16-TQFN

Manufacturer

Maxim Integrated Products

Type

Backlight, White LEDr

Datasheet

1.MAX1986ETET.pdf (17 pages)

Specifications of MAX1986ETE+T

Topology

PWM, Step-Up (Boost)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Backlight

Type - Secondary

White LED

Frequency

800kHz ~ 1.2MHz

Voltage - Supply

2.7 V ~ 5.5 V

Mounting Type

Surface Mount

Package / Case

16-TQFN Exposed Pad

Operating Temperature

-40°C ~ 85°C

Current - Output / Channel

25mA

Internal Switch(s)

Yes

Efficiency

90%

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Lead Free Status / Rohs Status

Details

Current page: 12 of 17
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for an LED’s presence. The current regulators are

enabled and any regulator with an output voltage less

than 45mV is detected and is ignored, preventing out-

puts left open or shorted to ground from dominating the

step-up regulation loop. Outputs shorted to IN, OUT, or

any voltage above 45mV resemble valid LEDs and are

regulated at the current set point.

As the LEDs draw current, the step-up regulator’s out-

put voltage gradually falls and the voltage drop across

each of the current regulators reduces. Eventually, the

voltage drop across whichever current regulator drives

the LED with the highest forward voltage reaches the

step-up regulator’s threshold (100mV, typ) and step-up

switching starts again (see the Startup Waveform in the

Typical Operating Characteristics).

The step-up regulator employs a fixed-frequency cur-

rent-mode control method to generate the bias voltage

for the white LEDs. The regulator takes the minimum

value of all the LD_ pin voltages as the feedback signal

to ensure that the output voltage is high enough to

drive all the LEDs. The heart of the controller is a multi-

input, open-loop comparator that sums three signals:

the feedback error signal with respect to the 100mV ref-

erence, the current-sense signal, and the slope com-

pensation ramp (Figure 4).

In normal operation, the controller starts a new cycle by

turning on the N-channel MOSFET and turning off the

P-channel MOSFET on the rising edge of the internal

oscillator if all of the following three conditions are satis-

fied: the summing comparator output is low, the switch

current does not exceed the overcurrent threshold, and

the output voltage does not exceed the overvoltage

threshold. The controller turns off the N-channel

Ultra-High-Efficiency White

LED Drivers

Figure 3. Current Regulator Functional Diagram

______________________________________________________________________________________

IREF

EN_

Step-Up Regulator

1Ω

LD_

LDG

MOSFET and turns on the P-channel MOSFET when

one of the following three conditions occurs: the sum-

ming comparator output becomes high, the switch cur-

rent exceeds the overcurrent threshold, or the falling

edge of the oscillator occurs.

Both the N-channel MOSFET and the P-channel

MOSFET turn off if the output voltage exceeds the over-

voltage rising threshold. Both switches stay off until all

of the following three conditions are satisfied: the out-

put voltage is below the overvoltage falling threshold,

the summing comparator output is low, and the next ris-

ing edge of the oscillator occurs.

The light intensity of the white LEDs can be easily

adjusted from 15% to 100% of the full-scale LED current

chosen by SETI. The MAX1984/MAX1985/MAX1986

support DPWM control, analog control, and 2-bit or 3-bit

parallel control.

To use the DPWM control mode, connect MODE and

BITC to IN, leave BITB unconnected, and connect the

DPWM signal to BITA. The LED current is given by the

following equation:

where I

and D is the duty cycle of the DPWM signal. The aver-

age voltage of the DPWM signal is obtained through an

internal RC filter (Figure 5). The 0.1ms filter time con-

stant allows the use of DPWM frequencies from 10kHz

to 2MHz. If lower frequencies are preferred, an external

Figure 4. Step-Up Regulator Functional Diagram

CURRENT

SENSE

OUT

LED(FS)

100mV

SLOPE

COMP

is the full-scale LED current set by SETI,

Brightness Control Interface

LED

COMPARATOR

SUMMING

= D

OSCILLATOR

THRESHOLD

5.3V

LED(FS)

OSC

OC COMP

OV COMP

LOGIC

DPWM Control

DRIVERS

GATE

MAX1986ETE+T Maxim Integrated Products, MAX1986ETE+T Datasheet - Page 12

MAX1986ETE+T

Specifications of MAX1986ETE+T

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