LM3406HVMHX/NOPB National Semiconductor, LM3406HVMHX/NOPB Datasheet - Page 20

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

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

LM3406HVMHX/NOPB

Manufacturer:

TI/德州仪器

Quantity:

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Company:

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Part Number:

LM3406HVMHX/NOPB

Current page: 20 of 32
Download datasheet (484Kb)

Extending the tangent line to the ends of the plot yields values

for ΔV

resistance is then:

The most filtering (and therefore the highest output capaci-

tance) is needed when r

only one LED. Inductor ripple current with one LED is 478

A ceramic capacitor will be used and the required capacitance

is selected based on the impedance at 362 kHz:

This calculation assumes that C

and therefore impedance due to the equivalent series resis-

tance (ESR) and equivalent series inductance (ESL) of of the

device is negligible. The closest 10% tolerance capacitor val-

ue is 4.7 µF. The capacitor used should be rated to 25V or

more and have an X7R dielectric. Several manufacturers pro-

duce ceramic capacitors with these specifications in the 1206

case size. A typical value for ESR of 3 mΩ can be read from

the curve of impedance vs. frequency in the product

datasheet.

Using the expression for R

Sub-1Ω resistors are available in both 1% and 5% tolerance.

A 1%, 0.13Ω device is the closest value, and a 0.33W, 1210

size device will handle the power dissipation of 290 mW. With

the resistance selected, the average value of LED current is

SNS

FIGURE 14. Calculating r

P-P

. The required impedance of C

and ΔI

= [0.15 / (0.478 - 0.15] x 0.35 = 0.114Ω

= 1/(2 x

= ΔV

of 0.7V and 2000 mA, respectively. Dynamic

SNS

/ ΔI

= 0.2 / 1.5 = 0.133Ω

x 0.16 x 3.62 x 10

SNS

is lowest, which is when there is

= 0.5V / 2A = 0.25Ω

= 0.2 / I

from the V

will be a ceramic capacitor,

is calculated:

) = 3.9 µF

vs. I

30020324

Curve

re-calculated to ensure that current is within the ±5% toler-

ance requirement. From the expression for average LED

current:

INPUT CAPACITOR

Following the calculations from the Input Capacitor section,

Δv

quired capacitance is calculated for the largest t

sponding to five LEDs:

As with the output capacitor, this required value is low enough

to use a ceramic capacitor, and again the effective capaci-

tance will be lower than the rated value with 24V across C

Reviewing plots of %C vs. DC Bias for several capacitors re-

veals that a 4.7 µF, 1812-size capacitor in X7R rated to 50V

loses about 40% of its rated capacitance at 24V, hence two

such caps are needed.

Input rms current is high in buck regulators, and the worst-

case is when the duty cycle is 50%. Duty cycle in a buck

regulator can be estimated as D = V

converter drives three LEDs the duty cycle will be nearly 50%.

Ripple current ratings for 1812 size ceramic capacitors are

typically higher than 2A, so two of them in parallel can tolerate

more than enough for this design.

RECIRCULATING DIODE

The input voltage of 24V ±5% requires Schottky diodes with

a reverse voltage rating greater than 30V. The next highest

standard voltage rating is 40V. Selecting a 40V rated diode

provides a large safety margin for the ringing of the switch

node and also makes cross-referencing of diodes from differ-

ent vendors easier.

The next parameters to be determined are the forward current

rating and case size. The lower the duty cycle the more ther-

mal stress is placed on the recirculating diode. When driving

one LED the duty cycle can be estimated as:

The estimated average diode current is then:

A 2A-rated diode will be used. To determine the proper case

size, the dissipation and temperature rise in D1 can be cal-

culated as shown in the Design Considerations section. V

for a case size such as SMB in a 40V, 2A Schottky diode at

1.5A is approximately 0.4V and the θ

sipation and temperature rise can be calculated as:

IN(MAX)

= 0.2 / 0.13 = 1.54A, 3% above the target current

will be 24V x 2%

IN(MIN)

IN-RMS

= (1.5 x 1.5 x 10

= 1.5 x Sqrt(0.5 x 0.5) = 750 mA

= (1 - 0.17) x 1.54 = 1.28A

RISE

= 1.28 x 0.4 = 512 mW

D = 4.1 / 24 = 0.17

= 0.51 x 75 = 38°C

P-P

= 480 mV. The minimum re-

-6

) / 0.48 = 4.7 µF

is 75°C/W. Power dis-

/ V

, and when this

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, corre-

LM3406HVMHX/NOPB National Semiconductor, LM3406HVMHX/NOPB Datasheet - Page 20

LM3406HVMHX/NOPB

Specifications of LM3406HVMHX/NOPB

Available stocks

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