LM3431QMH/NOPB National Semiconductor, LM3431QMH/NOPB Datasheet - Page 12

LM3431QMH/NOPB

Manufacturer Part Number

LM3431QMH/NOPB

Description

IC LED DRVR HP CONS CURR 28TSSOP

Manufacturer

National Semiconductor

Series

PowerWise®r

Type

High Power, Constant Currentr

Datasheet

1.LM3431MHNOPB.pdf (24 pages)

Specifications of LM3431QMH/NOPB

Constant Current

Yes

Topology

PWM, Step-Up (Boost)

Number Of Outputs

Internal Driver

Type - Primary

Automotive

Type - Secondary

High Brightness LED (HBLED)

Frequency

651kHz ~ 1.1MHz

Voltage - Supply

4.5 V ~ 36 V

Mounting Type

Surface Mount

Package / Case

28-TSSOP Exposed Pad, 28-eTSSOP, 28-HTSSOP

Operating Temperature

-40°C ~ 125°C

Current - Output / Channel

200mA

Internal Switch(s)

Yes

Efficiency

88%

Operating Supply Voltage (typ)

5/9/12/15/18/24V

Number Of Segments

Operating Temperature (min)

-40C

Operating Temperature (max)

125C

Operating Temperature Classification

Automotive

Package Type

TSSOP EP

Pin Count

Mounting

Surface Mount

Power Dissipation

3.1W

Operating Supply Voltage (min)

4.5V

Operating Supply Voltage (max)

36V

Led Driver Application

Display Backlighting, Automotive Lighting

No. Of Outputs

Output Current

200mA

Output Voltage

40V

Input Voltage

5V To 37V

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Lead Free Status / Rohs Status

Compliant

Other names

LM3431QMH

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SS/SH voltage below its maximum. The AFB pin voltage at

the end of softstart is 1.85V typically, which determines the

ratio of the feedback resistors according to the following equa-

tion:

The AFB resistors also set the output over-voltage (OVP)

threshold. The OVP threshold is monitored during both LED

on and LED off states and protects against any over voltage

condition, including all LEDs open (See Open LED

section).The OVP threshold at Vout can be calculated as fol-

lows:

Because OVP has a fixed 2.0V threshold sensed at AFB, a

larger value for R19 will increase the OVP threshold of the

output voltage. During an open LED fault, the output voltage

will increase by 2.6V typically (see LED Protection section).

Therefore, at least this much headroom above the nominal

output voltage is required to avoid a false OVP error. Note

that because of the high output voltage setting at the end of

softstart, a brief open LED error may occur during the short

time it takes for the cathode voltage to drop to its nominal

level. Figure 2 shows a typical startup waveform, where both

Vout and the SS/SH voltage reach their peak before the LED

current turns on. Once LED current starts, SS/SH and Vout

drop to the nominal operating point.

While the LEDs are on, the AFB voltage is sampled to the SS/

SH pin. During LED-off time, this SS/SH voltage is used as

the reference voltage to regulate the output. This allows the

output voltage to remain stable between on and off dimming

cycles, even though there may be wide variation in the LED

string forward voltage. The SS/SH pin has a maximum volt-

age of 1.9V. Therefore, the AFB voltage when the LEDs are

on must be below this limit for proper regulation. This will be

ensured by setting the AFB resistors as described above.

During LED-off cycles, there is minimal loading on the output,

which forces the boost controller into pulse skipping mode. In

this mode, switching is stopped completely, or for multiple cy-

cles until the AFB feedback voltage falls below the SS/SH

reference level.

SWITCHING FREQUENCY

The switching frequency can be set between 200 kHz and 1

MHz with a resistor from the RT pin to ground. The frequency

setting resistor (R6 in Figure 1) can be determined according

to the following empirically derived equation:

Where the f

is in kHz and the R

= 35403 x f

result is in kohm.

-1.06

For a given application, the maximum switching frequency is

limited by the minimum on time. When the LM3431 reaches

its minimum on-time, pulse skipping will occur and output rip-

ple will increase. To avoid this, set the operating frequency

below the following maximum setting:

INDUCTOR SELECTION

Figure 4 shows how the inductor current, I

switching cycle.

The important quantities in determining a proper inductance

value are I

peak to peak inductor current ripple). If Δi

cycle and the converter will operate in discontinuous conduc-

tion mode. If Δi

stay above zero and the converter will operate in continuous

conduction mode.

To determine the minimum L, first calculate the I

minimum and maximum input voltage:

L(AVE)

FIGURE 4. Inductor Current, SW Voltage, and V

, the inductor current will drop to zero for a portion of the

FIGURE 3. Switching Frequency vs R

L(AVE)

is smaller than 2 x I

(the average inductor current) and Δi

, the inductor current will

is larger than 2 x

30041126

, varies during a

L(AVE)

30041124

at both

OUT

(the

LM3431QMH/NOPB National Semiconductor, LM3431QMH/NOPB Datasheet - Page 12

LM3431QMH/NOPB

Specifications of LM3431QMH/NOPB

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