LM3406HVMHX/NOPB National Semiconductor, LM3406HVMHX/NOPB Datasheet - Page 10

LM3406HVMHX/NOPB

Manufacturer Part Number

LM3406HVMHX/NOPB

Description

IC LED DRVR HP CONS CURR 14TSSOP

Manufacturer

National Semiconductor

Series

PowerWise®r

Type

High Power, Constant Currentr

Datasheet

1.LM3406HVMHXNOPB.pdf (32 pages)

Specifications of LM3406HVMHX/NOPB

Constant Current

Yes

Topology

PWM, Step-Down (Buck)

Number Of Outputs

Internal Driver

Yes

Type - Primary

Automotive

Type - Secondary

White LED

Frequency

1MHz

Voltage - Supply

6 V ~ 75 V

Mounting Type

Surface Mount

Package / Case

14-TSSOP Exposed Pad, 14-eTSSOP 14-HTSSOP

Operating Temperature

-40°C ~ 125°C

Current - Output / Channel

1.5A

Internal Switch(s)

Yes

Efficiency

96%

For Use With

876-1003 - LM3406 LED DRIVER EVAL BOARDLM3406MHEVAL - BOARD EVAL FOR LM3406MH

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Other names

LM3406HVMHX

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these pins are not violated during the ringing or else damage

to the device may occur.

INTERNAL MOSFET AND DRIVER

The LM3406/06HV features an internal power MOSFET as

well as a floating driver connected from the SW pin to the

BOOT pin. Both rise time and fall time are 20 ns each (typical)

and the approximate gate charge is 9 nC. The high-side rail

for the driver circuitry uses a bootstrap circuit consisting of an

internal high-voltage diode and an external 22 nF capacitor,

MOSFET is off. When the MOSFET turns on, the internal

diode reverse biases. This creates a floating supply equal to

the V

when its source voltage is equal to V

FAST LOGIC PIN FOR PWM DIMMING

The DIM pin is a TTL compatible input for PWM dimming of

the LED. A logic low (below 0.8V) at DIM will disable the in-

ternal MOSFET and shut off the current flow to the LED array.

While the DIM pin is in a logic low state the support circuitry

(driver, bandgap, VCC) remains active in order to minimize

the time needed to turn the LED array back on when the DIM

PARALLEL MOSFET FOR HIGH-SPEED PWM DIMMING

For applications that require dimming at high frequency or

with wide dimming duty cycle range neither the VINS com-

parator or the DIM pin are capable of slewing the LED current

from 0 to the target level fast enough. For such applications

the LED current slew rate can by increased by shorting the

LED current with a N-MOSFET placed in parallel to the LED

or LED array, as shown in

on the output current flows through it, effectively reducing the

output voltage to equal the CS pin voltage of 0.2V. This dim-

. V

charges C

voltage minus the diode drop to drive the MOSFET

through the internal diode while the power

Figure

3. While the parallel FET is

FIGURE 2. Typical Application using Two-Wire Dimming

pin sees a logic high (above 2.2V). A 75 µA (typical) pull-up

current ensures that the LM3406/06HV is on when DIM pin is

open circuited, eliminating the need for a pull-up resistor.

Dimming frequency, f

the LED current rise time and fall time and the delay from

activation of the DIM pin to the response of the internal power

MOSFET. In general, f

magnitude lower than the steady state switching frequency in

order to prevent aliasing.

INPUT VOLTAGE COMPARATOR FOR PWM DIMMING

Adding an external input diode and using the internal VINS

comparator allows the LM3406/06HV to sense and respond

to dimming that is done by PWM of the input voltage. This

method is also referred to as "Two-Wire Dimming", and a typ-

ical application circuit is shown in

voltage falls 70% below the VIN pin voltage, the

LM3406/06HV disables the internal power FET and shuts off

the current to the LED array. The support circuitry (driver,

bandgap, VCC) remains active in order to minimize the time

needed to the turn the LED back on when the VINS pin volt-

age rises and exceeds 70% of VIN. This minimizes the re-

sponse time needed to turn the LED array back on.

ming method maintains a continuous current through the

inductor, and therefore eliminates the biggest delay in turning

the LED(s) or and off. The trade-off with parallel FET dimming

is that more power is wasted while the FET is on, although in

most cases the power wasted is small compared to the power

dissipated in the LEDs. Parallel FET circuits should use no

output capacitance or a bare minimum for noise filtering in

order to minimize the slew rate of output voltage. Dimming

FET Q1 can be driven from a ground-referenced source be-

cause the source stays at 0.2V along with the CS pin.

DIM

, and duty cycle, D

should be at least one order of

Figure

30020304

2. If the VINS pin

DIM

, are limited by

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LM3406HVMHX/NOPB National Semiconductor, LM3406HVMHX/NOPB Datasheet - Page 10

LM3406HVMHX/NOPB

Specifications of LM3406HVMHX/NOPB

Available stocks

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