LM3431QMH/NOPB National Semiconductor, LM3431QMH/NOPB Datasheet - Page 18
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
3
Internal Driver
No
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
6
Operating Temperature (min)
-40C
Operating Temperature (max)
125C
Operating Temperature Classification
Automotive
Package Type
TSSOP EP
Pin Count
28
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
3
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
www.national.com
on-times. To ensure good linearity, select NPN regulators
with short and similar rise and fall times.
SETTING FF
To minimize voltage transients during LED dimming, the out-
put voltage is regulated via the AFB pin during LED off times.
However, because the control loop has a limited response
time, voltage transients can never be completely eliminated.
If these transients are large enough, LED current will be af-
fected and ceramic output capacitors may generate audible
noise. The FF pin speeds up the loop response time, and thus
minimizes output voltage transients during dimming.
A resistor connected from FF to ground, Rff, sets the FF cur-
rent which is injected into the control loop at the rising and
falling edge of the dimming signal. In this way, the FF pin cre-
ates a correction signal before the control loop can respond.
A smaller FF resistor will generate a larger correction signal.
The minimum recommended Rff value is 10k.
Since the amount of FF correction required for a given appli-
cation depends on many factors, it is best to determine a FF
resistor value through bench testing. Use the following pro-
cedure to determine an optimal Rff value:
An Rff value of approximately 20k is a good starting point. A
20 kΩ potentiometer in series with a 10 kΩ resistor works well
for bench testing.
The dimming frequency must be selected before setting Rff.
Confirm that boost switching operation is stable at 100% dim-
ming duty cycle.
Adjust Rff until the COMP pin voltage is between 0.8V and
0.9V. Next, monitor the cathode voltage response at a low
dimming duty cycle while adjusting Rff until the overshoot and
undershoot is minimal or there is a slight overshoot.
Check the cathode voltage response at the lowest input volt-
age and lowest dimming duty cycle and adjust Rff if neces-
sary. This is typically the worst case condition.
The curves in Figure 10 below show the variation in cathode
voltage with different Rff settings. Notice that at the ideal set-
ting, both the cathode voltage and COMP voltage are flat. For
clarity, the 3 cathode voltage curves in this figure have been
offset; all FF settings will result in the cathode voltage settling
at 1.2V typically.
Once an Rff value has been set, check the cathode voltage
over the input voltage range and dimming duty range. Some
further adjustment may be necessary.
FIGURE 10. FF Setting Example
30041151
18
In practice the FF pin also has a small effect on the control
loop response. As a final step, switching stability at 100%
dimming duty should be re-verified once the Rff value has
been selected. At the optimal Rff setting, output voltage tran-
sients will be minimized and the cathode voltage will be stable
across the range of input voltage and dimming duty cycle.
The ideal cathode response illustrated in Figure 10 may not
be achievable over the entire input voltage range. However,
LED current will not be affected as long as the cathode voltage
remains above the regulator saturation voltage and below the
open LED fault threshold (See Open LED section).
A wide input voltage range will cause a wider variation in the
feedforward effect, thus making duty cycles less than 1%
more difficult to achieve. For any given application there is a
minimum achievable dimming duty cycle. Below this duty cy-
cle, the cathode voltage will begin to drift higher, eventually
appearing as an open LED fault (See LED Protection section).
During an LED open fault condition, cathode voltage over-
shoot will tend to increase. If Rff is not set appropriately, high
overshoots may be detected as an LED short fault and lead
to shutdown.
LED PROTECTION
Fault Modes and Fault Delay
The LM3431 provides 3 types of protection against several
types of potential faults. The table below summarizes the fault
protections and groups the fault responses into three types
(the auto-restart option is described in the next section).
When Type 1 or Type 2 faults occur, the DLY pin begins
sourcing current (57 µA typical). A capacitor connected from
DLY to ground (C7) sets the DLY voltage ramp and shutdown
delay time. For a Type 1 fault, the LM3431 will continue to
LED short
All LEDs
Cathode
multiple
Multiple
VIN<6V
Current
voltage
Output
1 LED
1 LED
UVLO
short,
Fault
open
short
open
over-
short
THM
LED
TSD
limit
AFB < 0.85V
Mechanism
temperature
THM < 1.2V
AFB > 2.0V
AFB > 2.0V
CFB low at
VCC or EN
SC > 3.1V
SC > 3.1V
SC > 6.0V
COMP at
IC over
startup
max
low
Fault Mode Summary
charges
charges
charges
charges
charges
charges
charges
charges
No DLY
No DLY
No DLY
Action
DLY
DLY
DLY
DLY
DLY
DLY
DLY
DLY
flag
flag
flag
Shutdown or
Shutdown or
Shutdown or
Shutdown or
Shutdown or
Shutdown or
auto-restart
auto-restart
auto-restart
auto-restart
auto-restart
auto-restart
Response
continue to
continue to
stand by
stand by
stand by
regulate
regulate
Type
1
2
3
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