MAX17127ETP+ Maxim Integrated Products, MAX17127ETP+ Datasheet - Page 19

MAX17127ETP+

Manufacturer Part Number

MAX17127ETP+

Description

IC WLED DVR SIX STRING 20TQFN

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX17127ETP.pdf (22 pages)

Specifications of MAX17127ETP+

Topology

PWM, Step-Up (Boost)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Automotive, Backlight

Type - Secondary

White LED

Frequency

250kHz ~ 1MHz

Voltage - Supply

5 V ~ 26 V

Mounting Type

Surface Mount

Package / Case

20-WFQFN Exposed Pad

Operating Temperature

-40°C ~ 85°C

Current - Output / Channel

30mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Lead Free Status / Rohs Status

Details

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The voltage rating and temperature characteristics of the

output capacitor must also be considered.

The MAX17127’s high switching frequency demands a

high-speed rectifier. Schottky diodes are recommended

for most applications because of their fast recovery time

and low forward voltage. The diode should be rated to

handle the output voltage and the peak switch current.

Make sure that the diode’s peak current rating is at least

that its breakdown voltage exceeds the output voltage.

The overvoltage-protection circuit ensures the circuit

safe operation; therefore, the controller should limit the

output voltage within the ratings of all MOSFET, diode,

and output capacitor components, while providing suf-

ficient output voltage for LED current regulation. The

OVP pin is connected to the center tap of a resistive

voltage-divider (R1 and R2 in Figure 1) from the high-

voltage output. When the controller detects the OVP pin

voltage reaching the threshold V

overvoltage protection is activated. Hence, the step-up

converter output overvoltage-protection point is:

each string and V

and where V

string.

In Figure 1, the output OVP voltage is set to:

The input capacitor (C

from the input supply and reduces noise injection into

the IC. A 4.7FF ceramic capacitor is used in the typical

operating circuit (Figure 1) because of the high source

impedance seen in typical lab setups. Actual applica-

tions usually have much lower source impedance since

the step-up regulator often runs directly from the output

of another regulated supply. In some applications, C

can be reduced below the values used in the typical

operating circuit. Ensure a low-noise supply at IN by

using adequate C

PEAK

OUT(OVP)

calculated in the Inductor Selection section and

Overvoltage-Protection Determination

OUT(OVP)

depends on how many LEDs are used for

OUT

OUT(OVP)

is the LED’s operating voltage for each

______________________________________________________________________________________

OUT(OVP)

. Alternatively, greater voltage varia-

1.25V (1

Six-String WLED Driver with Integrated

Input Capacitor Selection

Rectifier Diode Selection

) filters the current peaks drawn

× +

OVP_TH

= 1.25V x V

2.21M

71.5k

OVP_TH

× +

Ω

) 39.71V

, typically 1.25V,

OUT

)

, generally

tion can be tolerated on C

using an RC lowpass filter.

The series/parallel configuration of the LED load and

the full-scale bias current have a significant effect on

regulator performance. LED characteristics vary sig-

nificantly from manufacturer to manufacturer. Consult

the respective LED data sheets to determine the range

of output voltages for a given brightness and LED cur-

rent. In general, brightness increases as a function of

bias current. This suggests that the number of LEDs

could be decreased if higher bias current is chosen;

however, high current increases LED temperature and

reduces operating life. Improvements in LED technology

are resulting in devices with lower forward voltage while

increasing the bias current and light output.

LED manufacturers specify LED color at a given LED

current. With lower LED current, the color of the emit-

ted light tends to shift toward the blue range of the

spectrum. A blue bias is often acceptable for business

applications, but not for high-image-quality applications

such as DVD players. Direct-DPWM dimming is a viable

solution for reducing power dissipation while maintaining

LED color integrity. Careful attention should be paid to

switching noise to avoid other display-quality problems.

Using fewer LEDs in a string improves step-up converter

efficiency, and lowers breakdown voltage requirements

of the external MOSFET and diode. The minimum num-

ber of LEDs in series should always be greater than

maximum input voltage. If the diode voltage drop is

lower than maximum input voltage, the voltage drop

across the current-sense inputs (FB_) increases and

causes excess heating in the IC. Between 8 and 12

LEDs in series are ideal for input voltages up to 20V.

The forward voltage of each white LED may vary up

to 25% from part to part and the accumulated voltage

difference in each string equates to additional power

loss within the IC. For the best efficiency, the voltage

difference between strings should be minimized. The

difference between lowest voltage string and highest

voltage string should be less than 8V (typ). Otherwise,

the internal LED short-protection circuit disables the high

FB_ voltage string.

Step-Up Converter

Applications Information

LED Selection and Bias

if IN is decoupled from C

LED V

FB_

Variation

MAX17127ETP+ Maxim Integrated Products, MAX17127ETP+ Datasheet - Page 19

MAX17127ETP+

Specifications of MAX17127ETP+

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