Fairchild FAN7318BM Lcd backlight inverter drive ic Datasheet

FAN7318B
LCD Backlight Inverter Drive IC
Features
Description
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The FAN7318B is a LCD backlight inverter drive IC that
controls P-N half-bridge topology.
High-Efficiency Single-Stage Power Conversion
Wide Input Voltage Range: 6V to 30V
Backlight Lamp Ballast and Soft Dimming
Minimal External Components Required
Precision Voltage Reference Trimmed to 2%
Half-Bridge Topology
Soft-Start
PWM Control at Fixed Frequency
Analog Dimming Function
Burst Dimming Function
Programmable Striking Frequency
Open-Lamp Protection
Open-Lamp Regulation
Over-Voltage Protection
Short-Lamp Protection
CMP-High Protection
Thermal Shutdown
20-Pin SOIC
The FAN7318B provides a low-cost solution and reduces
external components by integrating proprietary wave
rectifiers for open-lamp protection and regulation. The
operating voltage range of the FAN7318B is wide, so an
external regulator isn’t necessary to supply the voltage to
the IC.
The FAN7318B provides various protections, such as
open-lamp regulation, over-voltage protection, openlamp protection, short-Lamp protection, CMP-high
protection, to increase the system reliability. The
FAN7318B provides burst dimming and analog dimming.
The FAN7318B is available in a 20-SOIC package.
Applications
ƒ
ƒ
LCD TV
LCD Monitor
Ordering Information
Part
Number
FAN7318BM
FAN7318BMX
Operating
Temperature
-25 to +85°C
Package
20-Lead, Small Outline Integrated Circuit (SOIC)
Packing
Method
Eco
Status
RoHS
Rail
Tape & Reel
For Fairchild’s definition of Eco Status, please visit: http://www.fairchildsemi.com/company/green/rohs_green.html.
Protected under U.S. patent no. 5,652,479.
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
FAN7318B — LCD Backlight Inverter Drive IC
August 2009
Short-Lamp Protection
OLR1
Min.
-
OLR2
Min. &
Max.
Detector
/Full Wave
Recifier
OLR3
50µA @ OVP,SLP
2µA @ OLP.CMP high
3V/1V @ striking/normal
+
0.3V
Over-Voltage Protection
Max.
TIMER
Protection
+
TSD 150oC
-
1.34V
+
2V
-
OUTA
0μA
OLR4
+
1.34V
-
OUTB
Error. Amp. source
current change
2.2V
Output Driver
3.2μA
Gm Amp.
+
Open-Lamp Regulation
Oscillator
max. 2V
Control
Logic
On @ striking
min. 0.5V
-
GND
+
CMP
Error. Amp. source
current change
Vref
-
Error Amp.
+
VIN
+
+
-
UVLO 5.5V
3.5V
-
High_CMP
Hys. 0.45V
-
ADIM
Negative
Analog
Dimming
High CMP Protection
disable @ striking
52μA burst
sink current on
1.35V
+
CT
FAN7318B — LCD Backlight Inverter Drive IC
Block Diagram
ENA
200k
OLP max.
Striking off
OLP1
OLP4
max. 2V
OLP
OLP min.
0.7V/0.5V
Striking/normal
+
150μs
Delay
52μA burst
sink current on
min. 0.5V
BCT
disable @ striking
+
OLP3
REF
17 Pulses Counter
And OLR<1.4V
Min. & Max.
Detector
/Full or Half
Wave
Rectifier
-
OLP2
5V, max. 3mA
Voltage Reference
& Internal Bias
BDIM
If ENA>2.5V, OLP & SLP disable.
If ENA<2.1V, OLP & SLP enable.
Figure 1. Internal Block Diagram
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
2
OLP1
OLR1
OLP2
OLR2
OLP3
OLR3
OLP4
OLR4
VIN
OUTA
20
19
18
17
16
15
14
13
12
11
1
2
3
4
5
6
7
8
9
10
TIMER
CMP
ADIM
CT
REF
BCT
BDIM
ENA
GND
OUTB
FAN7318B — LCD Backlight Inverter Drive IC
Pin Configuration
Figure 2. Package Diagram
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
3
Pin #
Name
1
TIMER
2
CMP
Error amplifier output. Typically, a compensation capacitor is connected to this pin from the
ground.
3
ADIM
This pin is the input for negative analog dimming.
4
CT
5
REF
This pin is 5V reference output. Typically, resistors are connected to this pin from the CT pin
and the BCT pin.
6
BCT
This pin is for programming the frequency of the burst dimming. Typically, a capacitor is
connected to this pin from ground and a resistor is connected to this pin from the REF pin.
7
BDIM
This pin is the input for negative burst dimming. The voltage range of 0.5 to 2V at this pin
controls the burst-mode duty cycle from 0% to 100%.
8
ENA
This pin turns the IC on / off.
9
GND
This pin is the ground.
10
OUTB
This pin is NMOS gate-drive output.
11
OUTA
This pin is PMOS gate-drive output.
12
VIN
13
OLR4
This pin is for open-lamp regulation. Its functions are the same as the OLR1 pin.
14
OLP4
This pin is for open-lamp protection and feedback control of lamp currents. Its functions are
the same as the OLP1 pin.
15
OLR3
This pin is for open-lamp regulation. Its functions are the same as the OLR1 pin.
16
OLP3
This pin is for open-lamp protection and feedback control of lamp currents. Its functions are
the same as the OLP1 pin.
17
OLR2
This pin is for open-lamp regulation. Its functions are the same as the OLR1 pin.
18
OLP2
This pin is for open-lamp protection and feedback control of lamp currents. Its functions are
the same as the OLP1 pin.
OLR1
This pin is for open-lamp regulation and short-lamp protection. It has the same functions as
other OLR pins and is connected to the full-wave rectifier internally. When the maximum of
rectified OLR inputs is between 1.34V and 2V, the error amplifier output current is limited to
3.0µA. When the maximum of rectified OLR inputs reaches 2V, the error amplifier output
current is 0A and its output voltage maintains constant. The maximum of rectified OLR
inputs is inputted to the negative of another error amplifier for feedback control of lamp
voltage. When the maximum of rectified OLR inputs is more than 2.2V, another error
amplifier for OLR is operating and lamp voltage is regulated. In normal mode, if the
maximum of rectified OLR inputs is higher than 1.34V or if the minimum of rectified OLR
inputs is lower than 0.3V for a predetermined time by the TIMER pin capacitor and an
internal current source 50µA; the IC shuts down to protect the system in over-voltage
condition or short-lamp condition, respectively.
OLP1
This pin is for open-lamp protection and feedback control of lamp currents. It has the same
functions as other OLP pins and is connected to the half-wave rectifier and the full-wave
rectifier internally. In striking mode, if the minimum of rectified OLP inputs is less than 0.7V
for a time predetermined by the TIMER pin capacitor and an internal current source or; in
normal mode, if the minimum of rectified OLP inputs is less than 0.5V for another
predetermined time by the TIMER pin capacitor and another internal current source; the IC
shuts down to protect the system in open-lamp condition. The maximum of rectified OLP
inputs is inputted to the negative of the error amplifier for feedback control of lamp current.
19
20
Description
This pin is for protection delay time setting.
This pin is for programming the switching frequency. Typically, a capacitor is connected to
this pin from ground and a resistor is connected to this pin from the REF pin.
This pin is the supply voltage of the IC.
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
FAN7318B — LCD Backlight Inverter Drive IC
Pin Definitions
www.fairchildsemi.com
4
Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be
operable above the recommended operating conditions and stressing the parts to these levels is not recommended. In
addition, extended exposure to stresses above the recommended operating conditions may affect device reliability.
The absolute maximum ratings are stress ratings only.
Symbol
Parameter
VIN
IC Supply Voltage
TA
Operating Temperature Range
TJ
Operating Junction Temperature
TSTG
Storage Temperature Range
θJA
Thermal Resistance Junction-Air
PD
Power Dissipation
Min.
Max.
Unit
6
30
V
-25
+85
°C
+150
°C
+150
°C
90
°C/W
1.4
W
-65
(1,2)
Notes:
1. Thermal resistance test board; size: 76.2mm x 114.3mm x 1.6mm (1S0P); JEDEC standard: JESD51-2, JESD51-3.
2. Assume no ambient airflow.
Pin Breakdown Voltage
Pin #
Name
Value
1
TIMER
7
2
CMP
7
3
ADIM
7
4
CT
7
5
REF
7
6
BCT
7
7
BDIM
7
8
ENA
7
9
GND
10
OUTB
30
11
OUTA
30
12
VIN
30
13
OLR4
±7
14
OLP4
±7
15
OLR3
±7
16
OLP3
±7
17
OLR2
±7
18
OLP2
±7
19
OLR1
±7
20
OLP1
±7
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
Unit
FAN7318B — LCD Backlight Inverter Drive IC
Absolute Maximum Ratings
V
www.fairchildsemi.com
5
For typical values, TA=25°C, VIN=15V, and -25°C ≤ TA ≤ 85°C, unless otherwise specified. Specifications to -25°C ~
85°C are guaranteed by design based on final characterization results.
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
Under-Voltage Lockout Section (UVLO)
Vth
Start Threshold Voltage
Increase VIN
4.9
5.2
5.5
V
Start Threshold Voltage Hysteresis
Decrease VIN
0.20
0.45
0.60
V
Ist
Startup Current
VIN=4.5V
10
70
100
µA
Iop
Operating Supply Current
VIN=15V, Not Switching
0.5
2.0
3.5
mA
5.0
V
0.7
V
Vthhys
ON/OFF Section
Von
On-State Input Voltage
Voff
Off-State Input Voltage
Isb
Standby Current
ENA=0V
50
120
190
µA
Pull-Down Resistor
ENA=2V
120
200
280
kΩ
4.9
5.0
5.1
V
RENA
1.4
Reference Section (Recommend 1µF X7R Capacitor)
V5
5V Regulation Voltage
V5line
5V Line Regulation
6 ≤ VIN ≤ 30V
4
50
mV
V5load
5V Load Regulation
10µA ≤ I5 ≤ 3mA
4
50
mV
101.3
105.0
108.3
101
105
109
TA=25°C, CT=220pF,
RT=100kΩ
126.5
131.0
135.5
CT=20pF, RT=100kΩ
126
131
136
Striking
1.03
1.18
1.33
mA
Normal
770
870
970
μA
Striking
-15
-12
-9
μA
FAN7318B — LCD Backlight Inverter Drive IC
Electrical Characteristics
Oscillator Section (Main)
fosc
Oscillation Frequency
TA=25°C, CT=220pF,
RT=100kΩ
CT=220pF, RT=100kΩ
fstr
Ictdcs
Ictdc
Oscillator Frequency in Striking Mode
CT Discharge Current
kHz
kHz
Ictcs
CT Charge Current
Vcth
CT High Voltage
2
V
Vctl
CT Low Voltage
0.45
V
Oscillator Section (Burst)
foscb
Burst Oscillation Frequency
TA=25°C, BCT=4.7nF,
BRT=1.4MΩ
321
BCT=4.7nF,
BRT=1.4MΩ
317
330
343
20
26
32
330
342
Hz
Ibctdc
BCT Discharge current
μA
Vbcth
BCT High Voltage
2
V
Vbctl
BCT Low Voltage
0.5
V
Continued on the following page…
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
6
For typical values, TA=25°C, VIN=15V, and -25°C ≤ TA ≤ 85°C, unless otherwise specified. Specifications to -25°C ~
85°C are guaranteed by design based on final characterization results.
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
ADIM=0V, TA=25°C
1.225
1.310
1.402
ADIM=0V
1.212
1.310
1.408
Unit
Analog Dimming Section
AVrexx
Reference Voltage
ADIM=0.5V
1.16
ADIM=1.0V
0.99
V
Error Amplifier Section
lsin
Output Sink Current
OLP=2.5V, ADIM=2.5V
63
76
94
µA
lsur1
Output Source Current 1
OLP=0V, ADIM=0V
-65
-50
-35
µA
lsur2
Output Source Current 2
CMP=3V
-1.4
-1.0
-0.6
µA
Ibsin
Burst CMP Sink Current
BDIM=5V, BCT=0V
41
52
63
µA
Iolpi
OLP Input Current
OLP=2V
Iolpo
OLP Output Current
OLP=-2V
Vlpfx
Rectifiers Output of OLP
Volpr
OLP Input Voltage Range
0
-30
-20
µA
-10
µA
OLP=0.3V
0.34
V
OLP=1.5V
1.55
V
(3)
-4
4
V
-2.3
µA
FAN7318B — LCD Backlight Inverter Drive IC
Electrical Characteristics (Continued)
Open-Lamp Regulation Section
Iolr1
Striking, OLR=1.6V
-3.4
-2.8
Iolr2
Error Amplifier Source Current for
Open-Lamp Regulation
OLR Sweep
Volr1
Open-Lamp Regulation Voltage 1
OLR Sweep
1.24
1.34
1.44
V
Volr2
Open-Lamp Regulation Voltage 2
Striking, OLR Sweep
1.88
1.98
2.08
V
Volr3
Open-Lamp Regulation Voltage 3
2.1
2.2
2.3
V
OLR Error Amplifier
Trans-conductance
180
310
440
µmho
40
60
80
µA
GmOLR
Iors
OLR Error Amplifier Sink Current
Normal, OLR=2.5V
Iolri
OLR Input Current
OLR=2.5V
Iolro
OLR Output Current
Volrr
OLR Input Voltage Range
OLR=-2.5V
(3)
0
µA
0
-35
-4
-25
µA
-15
µA
4
V
Continued on the following page…
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
7
For typical values, TA=25°C, VIN=15V, and -25°C ≤ TA ≤ 85°C, unless otherwise specified. Specifications to -25°C ~
85°C are guaranteed by design based on final characterization results.
Symbol
Parameter
Test Conditions
Min.
Typ.
Max.
Unit
Striking
0.65
0.70
0.75
V
Protection Section
(3)
Volp0
Open-Lamp Protection Voltage 0
Volp1
Open-Lamp Protection Voltage 1
Sweep OLP
0.42
0.49
0.56
V
Vcmpr
CMP-High Protection Voltage
Sweep CMP
3.4
3.5
3.6
V
Vhfbp
High-FB Protection Voltage
3.4
3.5
3.6
V
Vslp
Short-Lamp Protection Voltage
Sweep TIMER
0.22
0.30
0.38
V
Vtmr1
Timer Threshold Voltage 1
Striking, Sweep TIMER
2.87
3.02
3.17
V
Vtmr2
Timer Threshold Voltage 2
Sweep TIMER
1.0
1.1
1.2
V
Itmr1
Timer Current 1
OLP=0V
1.7
2.1
2.5
µA
Itmr2
Timer Current 2
OLR=1.8V
40
50
60
µA
1.24
1.34
1.44
V
2.1
2.3
2.5
V
(3)
(3)
TSD
Thermal Shutdown
Vovp
Over-Voltage Protection Voltage
150
dcr
ENA2.3V OLP Disable/Enable Change
Voltage
Sweep OLR
°C
Output Section
(3)
Vpdhv
PMOS Gate High Voltage
Vpdlv
PMOS Gate Low Voltage
Vndhv
NMOS Gate High Voltage
Vndlv
Vpuv
Vnuv
Ipdsur
Ipdsin
Indsur
Indsin
NMOS Gate Low Voltage
VIN=15V
(3)
PMOS Gate Drive Source Current
VIN-9.0
VIN-7.5
VIN-6.5
V
VIN=15V
7.5
8.5
10.0
V
VIN=4.5V
(3)
NMOS Gate Drive Source Current
NMOS Gate Drive Sink Current
(3)
0
(3)
V
VIN-0.3
V
VIN=4.5V
(3)
V
VIN=15V
VIN=15V
PMOS Gate Voltage with UVLO
Activated
NMOS Gate Voltage with UVLO
Activated
PMOS Gate Drive Sink Current
VIN
FAN7318B — LCD Backlight Inverter Drive IC
Electrical Characteristics (Continued)
0.3
V
VIN=15V
-300
mA
VIN=15V
400
mA
VIN=15V
300
mA
VIN=15V
-400
mA
0
%
Maximum / Minimum Duty Cycle
DCMIN
DCMAX
Minimum Duty Cycle
(3)
Maximum Duty Cycle
(3)
fosc=100kHz
fosc=100kHz
45
49
%
Note:
3. These parameters, although guaranteed, are not 100% tested in production.
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
8
Figure 3. Start Threshold Voltage vs. Temperature
Figure 4. Start Threshold Voltage Hysteresis
vs. Temperature
Figure 5. Startup Current vs. Temperature
Figure 6. Operating Current vs. Temperature
Figure 7. Standby Current vs. Temperature
Figure 8. 5V Regulation Voltage vs. Temperature
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
FAN7318B — LCD Backlight Inverter Drive IC
Typical Performance Characteristics
www.fairchildsemi.com
9
Figure 9. Oscillation Frequency vs. Temperature
Figure 10. Oscillation Frequency in Striking
vs. Temperature
Figure 11. CT High Voltage vs. Temperature
Figure 12. CT Low Voltage vs. Temperature
Figure 13. Burst Dimming Frequency vs. Temperature
Figure 14. BCT Discharge Current vs. Temperature
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
FAN7318B — LCD Backlight Inverter Drive IC
Typical Performance Characteristics (Continued)
www.fairchildsemi.com
10
Figure 15. BCT High Voltage vs. Temperature
Figure 16. BCT Low Voltage vs. Temperature
Figure 17. Analog Dimming Reference Voltage 0
vs. Temperature
Figure 18. Analog Dimming Reference Voltage 05
vs. Temperature
Figure 19. Error Amplifier Source Current 1
vs. Temperature
Figure 20. Error Amplifier Source Current 2
vs. Temperature
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
FAN7318B — LCD Backlight Inverter Drive IC
Typical Performance Characteristics (Continued)
www.fairchildsemi.com
11
Figure 21. Error Amplifier Source Current for OLR
vs. Temperature
Figure 22. Error Amplifier Sink Current
vs. Temperature
Figure 23. Burst CMP Sink Current vs. Temperature
Figure 24. OLR Error Amplifier Sink Current
vs. Temperature
Figure 25. Open-Lamp Protection Voltage 1
vs. Temperature
Figure 26. High-CMP Protection Voltage
vs. Temperature
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
FAN7318B — LCD Backlight Inverter Drive IC
Typical Performance Characteristics (Continued)
www.fairchildsemi.com
12
Figure 27. Short-Lamp Protection Voltage
vs. Temperature
Figure 28. Open Lamp Regulation Voltage 1
vs. Temperature
Figure 29. Open Lamp Regulation Voltage 2
vs. Temperature
Figure 30. Open Lamp Regulation Voltage 3
vs. Temperature
Figure 31. TIMER Threshold Voltage 1
vs. Temperature
Figure 32. TIMER Threshold Voltage 2
vs. Temperature
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
FAN7318B — LCD Backlight Inverter Drive IC
Typical Performance Characteristics (Continued)
www.fairchildsemi.com
13
Figure 33. TIMER Current 1 vs. Temperature
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
Figure 34. TIMER Current 2 vs. Temperature
FAN7318B — LCD Backlight Inverter Drive IC
Typical Performance Characteristics (Continued)
www.fairchildsemi.com
14
The under-voltage lockout (UVLO) circuit guarantees
stable operation of the IC control circuit by stopping and
starting it as a function of the VIN value. The UVLO
circuit turns on the control circuit when VIN exceeds
5.2V. When VIN is lower than 4.75V, the IC startup
current is less than 100µA.
1
[Hz]
⎛ 13.65 + ( 3I1 − 4.55I2 ) RT ⎞
⎜
⎟
⎜ −I1 ⋅ I2 ⋅ RT 2
⎟
RT ⋅ CT ⋅ ln ⎜
13.65 + ( 4.55I1 − 3I2 ) RT ⎟
⎜
⎟
⎜ −I ⋅ I ⋅ RT 2
⎟
⎝ 1 2
⎠
Q I1 = 12 × 10-6 A, I2 = 1.128 × 10-3 A
ENA
Burst Dimming Oscillator
Applying voltage higher than 1.4V to the ENA pin
enables the IC. Applying voltage lower than 0.7V to the
ENA pin disables the IC. In terms of the protections,
applying voltage higher than 2.5V to the ENA pin
disables OLP and SLP. Applying voltage lower than
2.1V to the ENA pin enables the OLP and the SLP.
The burst dimming timing capacitor (BCT) is charged by
the current flowing from the reference voltage source,
which is formed by the burst dimming timing resistor
(BRT) and the burst dimming timing capacitor (BCT).
The sawtooth waveform charges up to 2V. Once the
BCT voltage reaches 2V, the capacitor begins
discharging down to 0.5V. Next, the BCT starts charging
again and a new burst dimming cycle begins, as shown
in Figure 36. The burst dimming frequency is
programmed by adjusting the BCT and BRT values. The
burst dimming frequency is calculated as:
fstr =
UVLO
Main Oscillator
In normal mode, the external timing capacitor (CT) is
charged by the current flowing from the reference
voltage source, which is formed by the timing resistor
(RT) and the timing capacitor (CT). The sawtooth
waveform charges up to 2V. Once CT voltage reaches
2V, the CT begins discharging down to 0.4V. Next, the
CT starts charging again and a new switching cycle
begins, as shown in Figure 35. The main frequency is
programmed by adjusting the RT and CT value. The
main frequency is calculated as:
fOSC =
1
[Hz]
⎛ 3.9585 ⋅ RT − 13650 ⎞
RT ⋅ CT ⋅ ln ⎜
⎟
⎝ 2.61⋅ RT − 13650 ⎠
(2)
1
[Hz]
(3)
⎛ 0.039 ⋅ BRT − 4500 ⎞
BRT ⋅ BCT ⋅ ln⎜
⎟
⎝ 0.026 ⋅ BRT − 4500 ⎠
To avoid visible flicker, the burst dimming frequency
should be greater than 120Hz.
fOSCB =
FAN7318B — LCD Backlight Inverter Drive IC
Functional Description
(1)
Figure 36. Burst Dimming Oscillator Circuit
Analog Dimming
For analog dimming, the lamp intensity is controlled with
the external dimming signal (VADIM) and resistors. Figure
37 shows how to implement an analog dimming circuit.
Figure 35. Main Oscillator Circuit
CMP
In striking mode, the external timing capacitor (CT) is
charged by the current flowing from the reference
voltage source and 12μA current source, which
increases the frequency. If the product of RT and CT
value is constant, the striking frequency depends on CT
and is calculated as:
V ADIM
ADIM
Negative
Analog
Dimm ing
VREF
+
Error Amp.
-
OLP max .
Figure 37. Analog Implementation Circuit
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
15
max
i rms
= Vref _ max
π
2 2RS1
[ A]
(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:
max
i rms
= Vref
π
2 2Rs
[ A]
(5)
Vref = Vref _ max − 0.30VADIM [ A]
Figure 38 shows the lamp current waveform vs. VADIM in
an analog dimming mode.
2.0
Figure 39. Negative Burst Dimming Waveform Using
DC Voltage
V REF
Burst dimming can be implemented, not only with 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.
1.5
1.0
0.5
0
0.5
1.0
1.5
2.0
2.5
ADIM
0.5
1.0
1.5
2.0
2.5
15mA
10mA
FAN7318B — LCD Backlight Inverter Drive IC
In full brightness, the maximum rms value of the lamp
current is calculated as:
5mA
0
-5mA
-10mA
-15mA
Lamp Current
Figure 40. Negative Burst Dimming Implementation
Circuit Using an External Pulse
Figure 38. Analog Dimming Waveforms
Burst Dimming
Figure 41 shows the lamp current waveform vs. an
external pulse in negative burst dimming mode.
Lamp intensity is controlled with the BDIM signal over a
wide range. FAN7318B provides polarity selection.
When BDIM is inputted, DC voltage or PWM pulse
signal and BCT sets the 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 41. Negative Burst Dimming Waveform Using
an External Pulse
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
16
Soft-Start
A soft-start circuit ensures a gradual increase in the
input and output power. FAN7318B has no soft-start pin,
but provides soft-start function using the first BCT
waveform. The first BCT waveform limits CMP voltage at
initial operation, so lamp current increases gradually, as
shown in Figure 45 and Figure 46
2.5
2
1.5
1
0.5
0
2
3
4
5
6
7
8
9
10
11
12
-3
x 10
2
1.5
1
0.5
0
2
3
4
5
6
7
8
9
10
11
12
-3
x 10
0.01
0.005
0
-0.005
-0.01
-0.015
2
3
4
5
6
7
8
9
10
11
Figure 45. Soft-Start in Normal Mode
12
-3
x 10
Figure 42. Burst Dimming During Striking Mode
When BDIM is setting over 2.2VDC and BCT is inputted
PWM pulse signal, positive dimming polarity can be
implemented. Figure 43 shows how to implement burst
dimming using PWM pulse as the BDIM signal.
FAN7318B — LCD Backlight Inverter Drive IC
During striking mode, burst dimming operation is
disabled to guarantee continuous striking time. Figure
42 shows burst dimming disabled during striking mode.
Figure 46. Soft-Start in Burst Dimming Mode
Output Drives
FAN7318B is designed to drive P-N half-bridge
MOSFETs with symmetric duty cycle. FAN7318B can
drive P-MOSFET directly without a level-shift capacitor
and a Zener diode. A fixed dead time of 500ns is
introduced between two outputs at maximum duty cycle,
as shown in Figure 47.
Figure 43. Positive Burst Dimming Implementation
Circuit Using an External Pulse
Dead time
500ns at max. duty
Figure 44 shows the lamp current waveform vs. an
external pulse in positive burst dimming mode.
CT
CMP
SYNC
T
OUTA
OUTB
Figure 47. MOSFETs Gate Drive Signal
Figure 44. Positive Burst Dimming Waveform Using
an External Pulse
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
17
FAN7318B has four OLP pins for lamp current feedback
and protections. The inputs of four OLP pins are
connected to the internal half-wave and full-wave
rectifier circuits. The half-wave rectified signals of four
OLP inputs are connected to the maximum detector
circuit. The full-wave rectified signals of four OLP inputs
are connected to the minimum detector circuit.
Two inputs of the four OLP pins should be inverse
phase with the other two inputs.
Lamp Voltage Feedback Circuit
FAN7318B has four OLR pins for lamp voltage feedback
and protections. The inputs of four OLR pins are
connected to the internal full-wave rectifier circuit. The
full-wave rectified signals of the four OLR inputs are
connected to the maximum detector circuit.
Furthermore, they are connected to the minimum
detector circuit for protections.
Protections
The FAN7318B provides the following latch-mode
protections: Open-Lamp Regulation (OLR), Open-Lamp
Protection (OLP), Short-Lamp Protection (SLP), CMPHigh Protection and Thermal Shutdown (TSD). The latch
is reset when VIN falls to the UVLO voltage or ENA is
pulled down to GND.
Figure 49. Open-Lamp Regulation in Striking Mode
FAN7318B — LCD Backlight Inverter Drive IC
Open-Lamp Regulation
When the maximum of the rectified OLR input voltages
max
( VOLR
) is more than 2V, the IC enters regulation mode
and controls CMP voltage. The IC limits the lamp
max
voltage by decreasing CMP source current. If VOLR
is
between 1.34V and 2V, CMP source current decreases
max
to 3.0µA. Then, if VOLR
reaches 2V, CMP source current
decreases to 0µA, so the CMP voltage remains constant
and the lamp voltage also remains constant, as shown
in Figure 49.
Lamp Current Feedback Circuit
max
Finally, if VOLR
is more than 2.2V, the error amplifier for
OLR is operating and CMP sink current increases, so
CMP voltage decreases and the lamp voltage maintains
the determined value, as shown in Figure 50.
The protection delay time can be adjusted by a capacitor
between the TIMER pin and GND.
CMP
2V OLR
2.2V OLR
0
2.2V
2V
OLR
0
-2V
Figure 48. Protection Timing Delay
-2.2V
Assume that the TIMER pin capacitor is 1µF.
iCMP
0
The striking time is calculated as:
tstrike =
C ΔVstr 1μ F • 3V
=
= 1.5s
Isur 1
2μ A
(6)
Figure 50. 2.2V Open-Lamp Regulation
The OVP and SLP delay time are calculated as:
tOVP _ SLP =
C ΔVnor 1μ F • 1V
=
= 20ms
Isur 2
50 μ A
Over-Voltage Protection
V max
In normal mode, while OLR is higher than 1.34V, the
TIMER pin capacitor is charged by an internal current
source of 50µA. Once the TIMER reaches 1V, the IC
enters shutdown, as shown in Figure 51. This protection
is disabled in striking mode to ignite lamps reliably.
(7)
The CMP high protection and OLP delay time are
calculated as:
tOLP _ CMPH =
C ΔVnor 1μF • 1V
=
= 500ms
Isur 1
2μ A
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
(8)
www.fairchildsemi.com
18
Figure 51. Over-Voltage Protection in Normal Mode
max
In burst dimming mode, while VOLR
is higher than 1.34V,
burst dimming is disabled, so that the TIMER pin
capacitor is charged continuously by an internal current
source of 50µA. Once the TIMER reaches 1V, the IC
enters shutdown, as shown in Figure 52.
FAN7318B — LCD Backlight Inverter Drive IC
The IC starts operating in striking mode and remains in
min
striking mode until 17 pulses of VOLP
higher than 0.7V
and OLR < 1.34V occur. If more than 17 pulses and
OLR < 1.34V, the IC changes from striking mode into
normal mode, as shown in Figure 54.
Figure 54. Mode Change from Striking to Normal
min
After ignition, if VOLP
is less than 0.5V for a time
predetermined by the TIMER pin capacitor and an
internal current source, 2µA in normal mode, the IC is
shut down, as shown in Figure 55 and Figure 56.
Figure 52. Over-Voltage Protection in Burst
Dimming Mode
OLP1
OLP
Open-Lamp Protection
min
If the minimum of the rectified OLP voltages ( VOLP
) is
less than 0.7V during initial operation, the IC operates in
striking mode for a time predetermined by the TIMER pin
capacitor and an internal current source, 2µA, as shown
in Figure 53.
OLP2
OLP3
Min. & Max.
Detector
/Full or Half
Wave
Rectifier
OLP min.
-
0.5V
+
150μs
Delay
OLP4
Figure 55. OLP in Normal Mode (Configuration)
Figure 53. Open-Lamp Protection in Striking Mode
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
19
FAN7318B — LCD Backlight Inverter Drive IC
Figure 56. OLP in Normal Mode
Figure 58. OLP Disable in DCR Mode
min
OLP
In burst dimming mode, if V
is less than 0.5V for
another time predetermined by the TIMER pin capacitor
and an internal current source, 2µA; the IC is shut down,
as shown in Figure 57. The open-lamp protection delay
in burst dimming mode is shorter than in full brightness
because a short-lamp condition is detected at rising
interval of lamp voltage in burst dimming, then another
internal current source is turned on during the interval.
Short-Lamp Protection
min
If the minimum of the rectified OLR voltages ( VOLR
) is
less than 0.3V for a time predetermined by the TIMER
pin capacitor and a internal current source of 50µA in
normal mode, the IC is shut down, as shown in Figure
59. This protection is disabled in striking mode to ignite
lamps reliably.
Figure 59. Short-Lamp Protection in Normal Mode
Figure 57. OLP in Burst Dimming Mode
min
In burst dimming mode, if VOLR
is less than 0.3V for a
time predetermined by the TIMER pin capacitor and a
internal current source of 50µA turned on only burst
dimming on time, the IC is shut down, as shown in
Figure 60. SLP protection delay changes, depending on
burst dimming on duty ratio.
Applying voltage lower than 2.1V to the ENA pin enables
OLP. Applying voltage higher than 2.5V to the ENA pin
disables OLP and is called as DCR mode. Regardless of
DCR mode, OLP is enabled in striking mode.
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
20
Figure 60. SLP in Burst Dimming Mode
Applying voltage higher than 2.5V to the ENA pin
disables SLP. Applying voltage lower than 2.1V to the
ENA pin enables SLP.
Figure 63. CMP-High Protection Disable by a PullDown Resistor
Thermal Shutdown
The IC provides the function to detect abnormal overtemperature. If the IC temperature exceeds
approximately 150°C, the thermal shutdown triggers.
FAN7318B — LCD Backlight Inverter Drive IC
This protection is disabled by a pull-down resistor (a few
MΩ) between CMP and GND. If CMP voltage reaches
2.5V, CMP source current decreases to 2µA. Determine
a pull-down resistor value such that the whole of this
current can flow through the resistor. If so, CMP-high
protection can be disabled, as shown Figure 63. This
protection is disabled in striking mode to ignite the
lamps reliably.
Figure 61. Short-Lamp Protection Disable in DCR
Mode
CMP-High Protection
If CMP is more than 3.5V for a time predetermined by
the TIMER pin capacitor and a internal current source of
50µA in normal mode, the IC is shut down, as shown in
Figure 62.
Figure 62. CMP-High Protection
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
21
Application
Device
Input Voltage Range
Number of Lamps
22-Inch LCD Monitor
FAN7318B
15V±10%
4
1. Features
20
19
18
17
16
15
14
13
12
11
OLP1
OLR1
OLP2
OLR2
OLP3
OLP3
OLP4
OLR4
VIN
OUTA
TIMER
CMP
ADIM
CT
REF
BCT
BDIM
ENA
GND
OUTB
2
3
4
5
6
7
8
9
10
BDIM
1
High-Efficiency, Single-Stage Power Conversion
P-N Half-Bridge Topology
Reduces Required External Components
Enhanced System Reliability through Protection Functions
IC1
ƒ
ƒ
ƒ
ƒ
FAN7318B — LCD Backlight Inverter Drive IC
Typical Application Circuit (LCD Backlight Inverter)
Figure 64. Typical Application Circuit
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
22
13.00
12.60
A
11.43
20
11
B
9.50
10.65 7.60
10.00 7.40
2.25
1
0.51
0.35
PIN ONE
INDICATOR
1.27
0.25
M
10
0.65
1.27
C B A
LAND PATTERN RECOMMENDATION
2.65 MAX
FAN7318B — LCD Backlight Inverter Drive IC
Physical Dimensions
SEE DETAIL A
0.33
0.20
C
0.75
0.25
X 45°
SEATING PLANE
NOTES: UNLESS OTHERWISE SPECIFIED
(R0.10)
GAGE PLANE
(R0.10)
0.10 C
0.30
0.10
0.25
8°
0°
1.27
0.40
SEATING PLANE
(1.40)
DETAIL A
A) THIS PACKAGE CONFORMS TO JEDEC
MS-013, VARIATION AC, ISSUE E
B) ALL DIMENSIONS ARE IN MILLIMETERS.
C) DIMENSIONS DO NOT INCLUDE MOLD
FLASH OR BURRS.
D) CONFORMS TO ASME Y14.5M-1994
E) LANDPATTERN STANDARD: SOIC127P1030X265-20L
F) DRAWING FILENAME: MKT-M20BREV3
SCALE: 2:1
Figure 65. 20-Lead, Small Outline Integrated Circuit (SOIC) Package
Package drawings are provided as a service to customers considering Fairchild components. Drawings may change in any manner
without notice. Please note the revision and/or date on the drawing and contact a Fairchild Semiconductor representative to verify or
obtain the most recent revision. Package specifications do not expand the terms of Fairchild’s worldwide terms and conditions,
specifically the warranty therein, which covers Fairchild products.
Always visit Fairchild Semiconductor’s online packaging area for the most recent package drawings:
http://www.fairchildsemi.com/packaging/.
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
23
FAN7318B — LCD Backlight Inverter Drive IC
© 2009 Fairchild Semiconductor Corporation
FAN7318B • 1.0.0
www.fairchildsemi.com
24
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