LM3424BSTEVAL/NOPB National Semiconductor, LM3424BSTEVAL/NOPB Datasheet - Page 21

LM3424BSTEVAL/NOPB

Manufacturer Part Number

LM3424BSTEVAL/NOPB

Description

BOARD EVAL BOOST LM3424

Manufacturer

National Semiconductor

Series

PowerWise®r

Datasheets

1.LM3424MHNOPB.pdf (50 pages)

2.LM3424BSTEVALNOPB.pdf (12 pages)

Specifications of LM3424BSTEVAL/NOPB

Current - Output / Channel

Outputs And Type

1, Non-Isolated

Features

Dimmable

Voltage - Input

10 ~ 26 V

Utilized Ic / Part

LM3424

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Other names

LM3424BSTEVAL

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MAIN MosFET / DIMMING MosFET

The LM3424 requires an external NFET (Q1) as the main

power MosFET for the switching regulator. Q1 is recommend-

ed 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. In practice, all switching regu-

lators have some ringing at the switch node due to the diode

parasitic capacitance and the lead inductance. The current

rating is recommended to be at least 10% higher than the

average transistor current. The power rating is then verified

by calculating the power loss given the RMS transistor current

and the NFET on-resistance (R

When PWM dimming, the LM3424 requires another MosFET

(Q2) placed in series (or parallel for a buck regulator) with the

LED load. This MosFET should have a voltage rating equal

to the output voltage (V

higher than the nominal LED current (I

is simply V

cycle (continuous operation) will occur.

In general, the NFETs should be chosen to minimize total gate

charge (Q

This will minimize the dominant power losses in the system.

Frequently, higher current NFETs in larger packages are cho-

sen for better thermal performance.

RE-CIRCULATING DIODE

A re-circulating diode (D1) is required to carry the inductor

current during t

Schottky diode due to low forward voltage drop and near-zero

reverse recovery time. Similar to Q1, D1 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. This is ac-

complished by checking the typical diode forward voltage

from the I-V curve on the product datasheet and multiplying

by the average diode current. In general, higher current

diodes have a lower forward voltage and come in better per-

forming packages minimizing both power losses and temper-

ature rise.

) when f

multiplied by I

OFF

. The most efficient choice for D1 is a

is high and minimize R

) and a current rating at least 10%

LED

, assuming 100% dimming duty

DS-ON

LED

) . The power rating

DS-ON

otherwise.

CIRCUIT LAYOUT

The performance of any switching regulator depends as much

upon the layout of the PCB as the component selection. Fol-

lowing a few simple guidelines will maximimize noise rejection

and minimize the generation of EMI within the circuit.

Discontinuous currents are the most likely to generate EMI,

therefore care should be taken when routing these paths. The

main path for discontinuous current in the LM3424 buck reg-

ulator contains the input capacitor (C

diode (D1), the N-channel MosFET (Q1), and the sense re-

sistor (R

ous current flows through the output capacitor (C

and R

tinuous and should be carefully layed out. These loops should

be kept as small as possible and the connections between all

the components should be short and thick to minimize para-

sitic inductance. In particular, the switch node (where L1, D1

and Q1 connect) should be just large enough to connect the

components. To minimize excessive heating, large copper

pours can be placed adjacent to the short current path of the

switch node.

The RT, COMP, CSH, IS, TSENSE, TREF, HSP and HSN

pins are all high-impedance inputs which couple external

noise easily, therefore the loops containing these nodes

should be minimized whenever possible.

In some applications the LED or LED array can be far away

(several inches or more) from the LM3424, or on a separate

PCB connected by a wiring harness. When an output capac-

itor is used and the LED array is large or separated from the

rest of the regulator, the output capacitor should be placed

close to the LEDs to reduce the effects of parasitic inductance

on the AC impedance of the capacitor.

LIM

. In the buck-boost regulator both loops are discon-

). In the LM3424 boost regulator, the discontinu-

), the recirculating

www.national.com

), D1, Q1,

LM3424BSTEVAL/NOPB National Semiconductor, LM3424BSTEVAL/NOPB Datasheet - Page 21

LM3424BSTEVAL/NOPB

Specifications of LM3424BSTEVAL/NOPB

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