ZXLD1370_1103 DIODES [Diodes Incorporated], ZXLD1370_1103 Datasheet - Page 22

ZXLD1370_1103

Manufacturer Part Number

ZXLD1370_1103

Description

60V HIGH ACCURACY BUCK/BOOST/BUCK-BOOST LED DRIVER-CONTROLLER WITH AEC-Q100

Manufacturer

DIODES [Diodes Incorporated]

Datasheet

1.ZXLD1370_1103.pdf (36 pages)

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ZXLD1370

Document number: DS32165 Rev. 4 - 2

Applications Information

DIODE SELECTION

For maximum efficiency and performance, the rectifier (D1) should be a fast low capacitance Schottky diode* with low

reverse leakage at the maximum operating voltage and temperature. The Schottky diode also provides better efficiency

than silicon PN diodes, due to a combination of lower forward voltage and reduced recovery time.

It is important to select parts with a peak current rating above the peak coil current and a continuous current rating higher

than the maximum output load current. In particular, it is recommended to have a voltage rating at least 15% higher than

the maximum transistor voltage to ensure safe operation during the ringing of the switch node and a current rating at least

10% higher than the average diode current. The power rating is verified by calculating the power loss through the diode.

The higher forward voltage and overshoot due to reverse recovery time in silicon diodes will increase the peak voltage on

the Drain of the external MOSFET. If a silicon diode is used, care should be taken to ensure that the total voltage appearing

on the Drain of the external MOSFET, including supply ripple, does not exceed the specified maximum value.

*A suitable Schottky diode would be PDS3100 (Diodes Inc).

OUTPUT CAPACITOR

An output capacitor may be required to limit interference or for specific EMC purposes.

regulators, the output capacitor provides energy to the load when the freewheeling diode is reverse biased during the first

switching subinterval. An output capacitor in a buck topology will simply reduce the LED current ripple below the inductor

current ripple. In other words, this capacitor changes the current waveform through the LED(s) from a triangular ramp to a

more sinusoidal version without altering the mean current value.

In all cases, the output capacitor is chosen to provide a desired current ripple of the LED current (usually recommended to

be less than 40% of the average LED current).

Buck:

Boost and Buck-boost

The output capacitor should be chosen to account for derating due to temperature and operating voltage. It must also have

the necessary RMS current rating. The minimum RMS current for the output capacitor is calculated as follows:

Buck

Boost and Buck-boost

Ceramic capacitors with X7R dielectric are the best choice due to their high ripple current rating, long lifetime, and

performance over the voltage and temperature ranges.

where:

•

COUTPUT

OUTPUT

ΔI

datasheet of the LED manufacturer).

LED

is the switching frequency (From graphs and calculator)

is the ripple of the inductor current, usually ± 20% of the average sensed current

is the dynamic resistance of the LEDs string (n times the dynamic resistance of the single LED from the

is the ripple of the LED current, it should be <40% of the LEDs average current

−

RMS

f x

r x

LED

r x

I x

LED

L I

−

(Continued)

−

LED

MAX

LED

MAX

−

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For boost and buck-boost

ZXLD1370

March 2011

ZXLD1370_1103 DIODES [Diodes Incorporated], ZXLD1370_1103 Datasheet - Page 22

ZXLD1370_1103

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