mic2291yd5 Micrel Semiconductor, mic2291yd5 Datasheet - Page 8

mic2291yd5

Manufacturer Part Number

mic2291yd5

Description

Mic2291 1.2a Pwm Boost Regulator Photo Flash Led Driver

Manufacturer

Micrel Semiconductor

Datasheet

1.MIC2291YD5.pdf (10 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MIC2291YD5

Manufacturer:

MICREL

Quantity:

1 144

Company:

Meier Automation Equipment Co., Limited

Part Number:

MIC2291YD5

Manufacturer:

MICREL/麦瑞

Quantity:

20 000

Current page: 8 of 10
Download datasheet (705Kb)

Output Capacitor

A 1µF or greater output capacitor is sufficient for most

designs. An X5R or X7R dielectric ceramic capacitors

are recommended for designs with the MIC2291. Y5V

values may be used, but to offset their tolerance over

temperature, more capacitance is required.

Diode Selection

The MIC2291 requires an external diode for operation. A

schottkey diode is recommended for most applications

due to their lower forward voltage drop and reverse

recovery time. Ensure the diode selected can deliver the

peak inductor cur-rent, the maximum output current and

the maximum reverse voltage is rated greater than the

output voltage.

Input Capacitor

A minimum 1µF ceramic capacitor is recommended for

designing

capacitance will improve performance and greater noise

immunity on the source. The input capacitor should be

as close as possible to the inductor and the MIC2291,

with short traces for good noise performance.

Feedback Resistors

The MIC2291 utilizes a feedback pin to compare the

output to an internal reference. The LED current is

adjusted by selecting the appropriate feedback resistor

value. The desired current can be calculated as follows;

Dimming Control

There are two techniques for dimming control. One is

PWM dimming, and the other is continuous dimming.

Micrel, Inc.

May 2007

1. PWM dimming control is implemented by

Where VREF is equal to 95mV.

applying a PWM signal on EN pin as shown in

Figure 1. The MIC2291 is turned on and off by

the PWM signal. With this method, the LEDs

operate with either zero or full current. The

average LED current is increased proportionally

to the duty-cycle of the PWM signal. This

technique has high-efficiency because the IC

and the LEDs consume no current during the off

cycle of the PWM signal. Typical PWM

frequency should be between 100Hz and 10kHz.

R2 =

with

LED

REF

the

MIC2291.

Increasing

input

2. Continuous dimming control is implemented by

applying a DC control voltage to the FB pin of

the MIC2291 through a series resistor as shown

in Figure 2. The LED intensity (current) can be

dynamically varied applying a DC voltage to the

FB pin. The DC voltage can come from a DAC

signal, or a ﬁltered PWM signal. The advantage

of this approach is that a high frequency PWM

signal (>10kHz) can be used to control LED

intensity.

Figure 3. PWM Dimming Method

PWM

Figure 4. Continuous Dimming

VIN

GND

VIN

GND

Equivalent

49.9k

5.11k

M9999-051507

MIC2291

mic2291yd5 Micrel Semiconductor, mic2291yd5 Datasheet - Page 8

mic2291yd5

Available stocks

Related parts for mic2291yd5