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FAN7318A Datasheet, PDF (16/24 Pages) Fairchild Semiconductor – LCD Backlight Inverter Drive IC
In full brightness, the maximum rms value of the lamp
current is calculated as:
[ ] i max = V
πA
rms
2 2R ref _max
S1
(4)
The lamp intensity is inversely proportional to VADIM. As
VADIM increases, the lamp intensity decreases and the
rms value of the lamp current is calculated as:
[ ] i max = V
π
A
rms
2 ref 2Rs
(5)
[ ] Vref = Vref _max − 0.30VADIM A
Figure 38 shows the lamp current waveform vs. VADIM in
an analog dimming mode.
2.0 VREF
1.5
1.0
0.5
0
0.5
0.5
1.0
1.5
1.0
1.5
2.0
2.5
ADIM
2.0
2.5
15mA
10mA
5mA
0
-5mA
-10mA
-15mA
Lamp Current
Figure 38. Analog Dimming Waveforms
Burst Dimming
Lamp intensity is controlled with the BDIM signal over a
wide range. FAN7318A provide polarity selection. When
BDIM is inputted, the DC voltage or PWM pulse signal
and BCT is setting sawtooth waveform or DC voltage,
respectively. This structure can be implemented as
negative dimming polarity. When BDIM voltage is lower
than BCT voltage, the lamp current is turned on; 0V on
BDIM commands full brightness. The duty cycle of the
PWM pulse determines the lamp brightness. The lamp
intensity is inversely proportional to BDIM voltage. As
BDIM voltage increases, the lamp intensity decreases.
Figure 39 shows the lamp current waveform vs. DIM in
negative burst dimming mode.
Figure 39. Negative Burst Dimming Waveform Using
DC Voltage
Burst dimming can be implemented, not only DC
voltage, but also using PWM pulse as the BDIM signal.
Figure 40 shows how to implement burst dimming using
PWM pulse as BDIM signal.
Figure 40. Negative Burst Dimming Implementation
Circuit Using an External Pulse
Figure 41 shows the lamp current waveform vs. an
external pulse in negative burst dimming mode.
Figure 41. Negative Burst Dimming Waveform Using
an External Pulse
© 2009 Fairchild Semiconductor Corporation
FAN7318A • 1.0.0
16
www.fairchildsemi.com