A8430EEK Allegro Microsystems Inc, A8430EEK Datasheet - Page 7

A8430EEK

Manufacturer Part Number

A8430EEK

Description

IC LED DRVR WHITE BCKLGHT 5-MLPD

Manufacturer

Allegro Microsystems Inc

Type

Backlight, White LEDr

Datasheet

1.A8430EEK.pdf (11 pages)

Specifications of A8430EEK

Constant Current

Yes

Topology

PWM, Step-Up (Boost)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Backlight

Type - Secondary

White LED

Frequency

1.2MHz

Voltage - Supply

2.5 V ~ 10 V

Voltage - Output

36V

Mounting Type

Surface Mount

Package / Case

5-WDFN Exposed Pad

Operating Temperature

-40°C ~ 85°C

Current - Output / Channel

20mA

Internal Switch(s)

Yes

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Efficiency

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Component Selection

The component values shown in schematic 1 are sufficient

for most applications. To reduce the output ripple the

inductor may be increased, but in most cases this results in

excessive board area and cost.

Inductor Selection

1.2 MHz, the optimal inductor value for most cases is 22 µH.

The inductor should have low winding resistance, typically

< 1 Ω, and the core should have low losses when operating

at 1.2 MHz. For worst case conditions, high output voltage

and current and low input voltage, the inductor should be

rated at the switch current limit, I

operation is required a derating factor will have to be

considered. In some cases, where lower inductor currents

are expected, the current rating can be decreased. Several

inductor manufacturers have and are developing suitable

small-size inductors, including: Murata, Panasonic, Sumida,

Taiyo Yuden, and TDK.

Diode Selection

voltage to reduce conduction losses. In addition, it should

have a low capacitance to reduce switching losses. Schottky

diodes can provide both these features, if carefully

selected. The forward voltage drop is a natural advantage

for Schottky diodes, and it reduces as the current rating

increases. However, as the current rating increases, the

diode capacitance also increases. As a result, the optimal

selection is usually the lowest current rating above the circuit

maximum. With the A8430, a current rating in the range from

100 mA to 200 mA is usually sufficient.

Capacitor Selection

low, ceramic capacitors are the best choice for use with the

A8430. To reduce performance variation as temperature

changes, low drift capacitor types, such as X7R and X5R,

should be used. Suitable capacitors are available from: Taiyo

Yuden, Murata, Kemet, and AVX.

Dimming Control

LED brightness can be controlled either by modifying the

voltage at the top of the sense resistor (R1) to control the

LED current, I

the EN pin to chop the output.

White LED Driver Constant Current Step-up Converter

LOAD

. The diode should have a low forward

. With an internal PWM frequency of

, directly, or by using a PWM signal on

. Because the capacitor values are

SWLIM

. If high temperature

Application Information

www.allegromicro.com

115 Northeast Cutoff, Box 15036

Worcester, Massachusetts 01615-0036 (508) 853-5000

Feedback modulation

between the FB pin and R1 (the sense resistor), as shown

in schematic 2, the LED current, I

decrease. As V

across R2 also increases. This causes the voltage at FB to

increase, and the A8430 reduces I

increases further, the current drops to zero, and R2 maintains

the full 95 mV on FB. Reducing V

across R2 until, at 95 mV on V

and the current level is defined by R1. Reducing V

95 mV causes I

drop across R2 in the reverse direction. This continues until,

at zero volts on V

At that point, I

where R1 is the resistance of the sense resister (Ω).

PWM Control

by a filtered PWM signal as shown in schematic 3. In this

case, a 0% duty cycle (PWM = 0 V) corresponds to full

brightness and a 100% duty cycle causes the LED current,

LOAD

, to go to zero.

Schematic 2. Dimming control with dc voltage

feedback modulation

Li-ion

2.5V to

4.2V

. LED dimming control can also be generated

LOAD

(control voltage) increases, the voltage drop

1µF

, there is approximately 5 mV across R2.

(mA), is defined as:

to increase further, due to the voltage

LOAD

VIN

. By adding a voltage drop

Enable

= 100 mV / R1

A8430

GND

22µH

, there is no drop across R2

LOAD

diminishes the voltage

90kΩ

5kΩ

, can be made to

to compensate. As V

6.3Ω

A8430

0.22µF

below

A8430EEK Allegro Microsystems Inc, A8430EEK Datasheet - Page 7

A8430EEK

Specifications of A8430EEK

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