LM3431EVAL National Semiconductor, LM3431EVAL Datasheet - Page 14

LM3431EVAL

Manufacturer Part Number

LM3431EVAL

Description

BOARD EVAL FOR LM3431 LED DRIVER

Manufacturer

National Semiconductor

Series

PowerWise®r

Datasheets

1.LM3431MHNOPB.pdf (24 pages)

2.LM3431EVAL.pdf (8 pages)

Specifications of LM3431EVAL

Current - Output / Channel

140mA

Outputs And Type

4, Non-Isolated

Features

Dimmable

Voltage - Input

8 ~ 18V

Utilized Ic / Part

LM3431

Kit Contents

Board, Datasheet

Svhc

No SVHC (15-Dec-2010)

Kit Features

Designed To Drive 4 Parallel Strings Of 8 Series LEDs At 140mA Per String From An Input 8V To 18V

Mcu Supported Families

LM3431

Rohs Compliant

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Voltage - Output

Lead Free Status / Rohs Status

Supplier Unconfirmed

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4.5V. It may also be necessary to add additional V

capacitance for low V

DIODE SELECTION

The average current through D1 is the average load current

(total LED current), and the peak current through the diode is

the peak inductor current. Therefore, the diode should be rat-

ed to handle more than the peak inductor current which was

calculated earlier. The diode must also be capable of handling

the peak reverse voltage, which is equal to the output voltage

(LED Anode voltage). To improve efficiency, a low Vf Schottky

diode is recommended. Diode power loss is calculated as:

NFET SELECTION

The drive pin of the LM3431 boost switcher, LG, must be

connected to the gate of an external NFET. The NFET drain

is connected to the inductor and the source is connected to

the sense resistor. The LG pin will drive the gate at 5V typi-

cally.

The critical parameters for selection of a MOSFET are:

1. Maximum drain current rating, I

2. Maximum drain to source voltage, V

3. On-resistance, R

4. Total gate charge, Q

In the on-state, the switch current is equal to the inductor cur-

rent. Therefore, the maximum drain current, I

higher than the current limit setting. The average switch cur-

rent (

ID(AVE)

) is given in the equation below:

DS(ON)

D(AVE)

DIODE

operation.

= I

= Vf x I

L(AVE)

D(MAX)

OUT

x D

DS(MAX)

, must be rated

and VCC

The off-state voltage of the NFET is approximately equal to

the output voltage plus the diode Vf. Therefore, V

the NFET must be rated higher than the maximum output

voltage. The power losses in the NFET can be separated into

conduction losses and switching losses. The conduction loss,

Pcond, is the I

duction loss is given by:

where D

tion and R

switching losses can be roughly calculated by the following

equation:

Where t

Power is also consumed in the LM3431 in the form of gate

charge losses, P

formula:

where Q

power dissipation of the LM3431 (See TSD section).

Fast switching FETs can cause noise spikes at the SW node

which may affect performance. To reduce these spikes a drive

resistor up to 10Ω can be placed between LG and the NFET

gate.

MAX

DS(ON)

is the NFET total gate charge. Pg adds to the total

and t

is the maximum duty cycle for the given applica-

COND

R loss across the NFET. The maximum con-

OFF

is the on resistance at high temperature. The

. These losses can be calculated using the

are the NFET turn-on and turn-off times.

= R

= f

DS(ON)

x Q

x D

MAX

x V

x I

L(AVE)

DS(MAX)

LM3431EVAL National Semiconductor, LM3431EVAL Datasheet - Page 14

LM3431EVAL

Specifications of LM3431EVAL

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