LM3431AQMH/NOPB National Semiconductor, LM3431AQMH/NOPB Datasheet - Page 20

LM3431AQMH/NOPB

Manufacturer Part Number

LM3431AQMH/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 LM3431AQMH/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%

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

Other names

LM3431AQMH

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by the dimming duty cycle and any over-voltage condition will

cause DLY to charge.

Shorted LED

If an LED fails short circuit, the SC voltage will increase. When

SC reaches 3.1V, the same Type 1 fault as an open LED will

be triggered. Current in the affected string will continue to be

regulated, with the cathode clamped at one diode V

3.5V. As in the case of 1 LED open, the power dissipation will

increase in the external NPN regulator of the shorted string.

However, if enough LEDs or an entire string are shorted, the

SC pin will rise to the short circuit threshold of 6.0V. This will

cause a Type 2 fault, and the LM3431 will shut down when

the DLY threshold is reached.

When an LED string is shorted, the LM3431 will attempt to

reduce the SC voltage to 3.5V. As a result, switching will stop,

and the cathode voltage will be brought to the minimum level,

which is Vin. If Vin is less than approximately 6V and the DLY

time is long enough, SC will fall below the 6V short circuit fault

threshold. In this case, the shorted string fault will be detected

as an AFB under-voltage (UVP) fault.

When AFB falls below 0.85V (typical) a Type 2 fault will be

triggered. As is the case with OVP detection, the AFB UVP

threshold is monitored during both LED on and LED off cycles.

A UVP fault will cause DLY to charge, unaffected by the dim-

ming duty cycle. Figure 13 below shows the sudden cathode

voltage increase due to an LED string short. DLY begins

charging and charges continuously when an AFB under-volt-

age is detected, eventually causing a shutdown.

Shorted Cathode

At the end of softstart, the CFB voltage is monitored. In normal

startup, the LED strings are off and CFB voltage increases

with the output voltage. If the CFB voltage stays below ap-

proximately 1.9V, a cathode short to ground condition is

detected and a Type 2 fault is triggered. At the end of soft-

start, the DLY pin will begin sourcing current and it will con-

tinue sourcing until the shutdown threshold is reached, even

if the short condition is removed.

When a cathode short occurs, the LEDs in the affected string

will be driven on during the soft-start and DLY periods. There-

fore, the DLY and soft-start time should be set short enough

for the LED string to withstand the burst of unregulated cur-

rent.

FIGURE 13. LED String Short Fault and UVP Detection

30041155

above

THERMAL CONSIDERATIONS

To optimize performance under all conditions, the LM3431

controls the temperature coefficients of critical parameters

and provides over-temperature protection for both the IC and

LEDs.

THM

The THM pin is designed to monitor for over-temperature

conditions at the LED array. This is done with a negative TC

thermistor mounted at the LED panel. The THM circuit is a

resistor divider from a reference voltage to ground, shown in

Figure 14 as R17 and Rth. As the thermistor temperature in-

creases, the THM pin voltage will decrease. When THM drops

to 1.23V (typical), a Type 3 fault is triggered and the LM3431

will enter standby until the thermistor temperature decreases

and THM voltage increases. Thermistors are typically speci-

fied by their resistance at 25°C, and by their beta constant

which describes the temperature coefficient. The resistance

value at the desired shutdown temperature can be calculated

from the beta constant or found in the thermistor datasheet

table. Once the shutdown temperature resistance is known,

the R17 value can be calculated as shown below.

where Rth@T is the thermistor resistance at the desired shut-

down temperature. Although VCC is shown in the typical

application schematic, any regulated voltage source can be

used in its place, including V

In shutdown, THM sinks 10 µA to create some hysteresis. An

R17 value of at least 20 kΩ is recommended to create suffi-

cient hysteresis. Larger values of R17 (and Rth) will generate

larger hysteresis.

If more hysteresis is required, a resistor can be added in se-

ries with THM as shown below:

The THM hysteresis can be determined by calculating the

restart threshold as shown below. If R

culate Rth@restart using an R

Where 10 µA is the THM sink current, and Rth@restart is the

thermistor resistance at the restart temperature. Refer to the

manufacturer datasheet to find the restart temperature at the

FIGURE 14. THM Circuit with Hysteresis

REF

HYS

value of 0Ω.

HYS

30041157

is not installed, cal-

LM3431AQMH/NOPB National Semiconductor, LM3431AQMH/NOPB Datasheet - Page 20

LM3431AQMH/NOPB

Specifications of LM3431AQMH/NOPB

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