LM3423MHBSTEVAL National Semiconductor, LM3423MHBSTEVAL Datasheet - Page 17
LM3423MHBSTEVAL
Manufacturer Part Number
LM3423MHBSTEVAL
Description
BOARD, EVALUATION, FOR LM3423MHBST
Manufacturer
National Semiconductor
Datasheet
1.LM3423MHBSTEVAL.pdf
(48 pages)
Specifications of LM3423MHBSTEVAL
Kit Contents
LM3423 Assembled Evaluation Board, LM3423 Datasheet, Application Note
Svhc
No SVHC (15-Dec-2010)
Kit Features
Cycle-by-Cycle Current Limit, LED Ready Flag, Fault Flag, Programmable
PWM DIMMING
The active low nDIM pin can be driven with a PWM signal
which controls the main NFET and the dimming FET (dim-
FET). The brightness of the LEDs can be varied by modulat-
ing the duty cycle of this signal. LED brightness is approxi-
mately proportional to the PWM signal duty cycle, (i.e. 30%
duty cycle ~ 30% LED brightness). This function can be ig-
nored if PWM dimming is not required by using nDIM solely
as a V
Lockout section or by tying it directly to V
Figure 15
1.
2.
The DDRV pin is a PWM output that follows the nDIM PWM
input signal. When the nDIM pin rises, the DDRV pin rises and
the PWM latch reset signal is removed allowing the main
MosFET Q1 to turn on at the beginning of the next clock set
pulse. In boost and buck-boost topologies, the DDRV pin is
used to control a N-channel MosFET placed in series with the
LED load, while it would control a P-channel MosFET in par-
allel with the load for a buck topology.
The series dimFET will open the LED load, when nDIM is low,
effectively speeding up the rise and fall times of the LED cur-
rent. Without any dimFET, the rise and fall times are limited
by the inductor slew rate and dimming frequencies above
1 kHz are impractical. Using the series dimFET, dimming fre-
quencies up to 30 kHz are achievable. With a parallel dimFET
(buck topology), even higher dimming frequencies are
achievable.
When using the PWM functionality in a boost regulator, the
PWM signal can drive a ground referenced FET. However,
with buck-boost and buck topologies, level shifting circuitry is
necessary to translate the PWM dim signal to the floating
dimFET as shown in
dimming is necessary in a boost regulator using the LM3423,
level shifting can be added providing the polarity inverting
DPOL pin is pulled low (see LM3423 ONLY: DPOL, FLT,
TIMR, and LRDY section) as shown in
Connect the dimming MosFET (Q
the nDIM pin and the source to AGND. Apply an external
logic-level PWM signal to the gate of Q
Connect the anode of a Schottky diode (D
nDIM pin. Apply an inverted external logic-level PWM
signal to the cathode of the same diode.
IN
UVLO input as described in the Input Under-Voltage
shows how the PWM signal is applied to nDIM:
FIGURE 15. PWM Dimming Circuit
Figure 16
and
Figure
DIM
Figure
CC
) with the drain to
DIM
or V
17. If high side
18.
300673a6
.
DIM
IN
) to the
.
17
When using a series dimFET to PWM dim the LED current,
more output capacitance is always better. A general rule of
thumb is to use a minimum of 40 µF when PWM dimming. For
most applications, this will provide adequate energy storage
at the output when the dimFET turns off and opens the LED
load. Then when the dimFET is turned back on, the capaci-
tance helps source current into the load, improving the LED
current rise time.
A minimum on-time must be maintained in order for PWM
dimming to operate in the linear region of its transfer function.
Because the controller is disabled during dimming, the PWM
pulse must be long enough such that the energy intercepted
from the input is greater than or equal to the energy being put
into the LEDs. For boost and buck-boost regulators, the min-
imum dimming pulse length in seconds (t
Even maintaining a dimming pulse greater than t
serving linearity at low dimming duty cycles is difficult.
The second helpful modification is to remove the C
itor and R
sation pole. This should not affect stability, but it will speed up
the response of the CSH pin, specifically at the rising edge of
the LED current when PWM dimming, thus improving the
achievable linearity at low dimming duty cycles.
FIGURE 16. Buck-boost Level-Shifted PWM Circuit
FIGURE 17. Buck Level-Shifted PWM Circuit
FS
resistor, eliminating the high frequency compen-
PULSE
) is:
30067331
www.national.com
PULSE
FS
capac-
300673a0
, pre-
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