ZXSC300(2001) Просмотр технического описания (PDF) - Zetex => Diodes

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Компоненты Описание

производитель

ZXSC300
(Rev.:2001)

SINGLE OR MULTI CELL LED DRIVER SOLUTION

Zetex => Diodes 

ZXSC300

APPLICATIONS INFORMATION

The following section is a design guide for optimum

converter performance.

Switching transistor selection

The choice of switching transistor has a major impact

on the converter efficiency. For optimum

performance, a bipolar transistor with low VCE(SAT) and

high gain is required.

The Zetex FMMT617 is an ideal choice of transistor,

having a low saturation voltage. A data sheet for the

FMMT617 is available on Zetex web site or through

your local Zetex sales office. Outline information is

included in the characteristics section of this data

sheet.

Schottky diode selection

For the maximum battery life solution a Schottky

rectifier diode is required. As with the switching

transistor the Schottky rectifier diode has a major

impact on the converter efficiency. A Schottky diode

with a low forward voltage and fast recovery time

should be used for this application.

The diode should be selected so that the maximum

forward current is greater or equal to the maximum

peak current in the inductor, and the maximum reverse

voltage is greater or equal to the output voltage.

The Zetex ZHCS1000 meets these needs. Datasheets

for the ZHCS Series are available on Zetex web site or

through your local Zetex sales office. Outline

information is included in the characteristics section of

this data sheet.

For the maximum brightness solution a pulsed current

is supplied to the LED therefore a Schottky rectifier

diode is not required.

Inductor selection

The inductor value must be chosen to satisfy

performance, cost and size requirements of the overall

solution. For the reference designs we recommend an

inductor value of 100uH with a core saturation current

rating greater than the converter peak current value

and low series resistance.

Inductor selection has a significant impact on the

converter performance. For applications where

efficiency is critical, an inductor with a series

resistance of 500mΩ or less should be used.

Peak current definition

The peak current rating is a design parameter whose

value is dependent upon the overall application. For

the high brightness reference designs, a peak current

of was chosen to ensure that the converter could

provide the required output power to the LED.

In general, the IPK value must be chosen to ensure that

the switching transistor, Q1, is in full saturation with

maximum output power conditions, assuming

worse-case input voltage and transistor gain under all

operating temperature extremes.

Once IPK is decided the value of RSENSE can be

determined by:

RSENSE =

VISENSE

IPK

where VISENSE=19mV

ISSUE 1 - JUNE 2001

8

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