FOSLINK FSP3304CAD

WHITE LED/OLED STEP-UP CONVERTER
FSP3304
„
FEATURES
„
z
z
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Adjustable Output Voltage
Drives OLEDs or White LEDs
30V High Voltage Switch
1 MHz Switching Frequency
Tiny Inductors and Capacitors
Tiny SOT23-5L Package
„
APPLICATIONS
z
z
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OLED Applications
Cell Phones
Digital Cameras
PDAs, Laptops
MP3 Players
GPS
The FSP3304 step-up DC/DC converter is optimized
for driving OLEDs or white LEDs. It can provide an
output voltage up to 24V. The device is capable of
driving up to seven LEDs in series from a Lithium-Ion
battery, with inherent current matching and uniform
brightness.
The FSP3304 incorporates a 30V high voltage switch.
The device operates at 1 MHz and allows the use of
few external components. The FSP3304 is available
in the tiny SOT23-5L package.
„
PIN CONFIGURATION
GENERAL DESCRIPTION
(Top View)
Symbol
Name
1
SW
2
3
G
FB
4
5
„
SHDN
IN
Descriptions
Switch Output. Connect this pin to the inductor and the Schottky diode. To
reduce EMI, minimize the PCB trace path between this pin and the input bypass
capacitor.
Ground.
Feedback Input. This pin is referenced to 1.24V.
Shutdown Control. Connect to a logic high to enable the device. Connect to a
logic low to disable the device. Never leave the pin unconnected.
Supply Input. Bypass to G with a capacitor of 1 µF or higher.
TYPICAL APPLICATION CIRCUIT
(1) Application as OLED driver
1/9
(2) Application as White LED driver
2007-4-24
WHITE LED/OLED STEP-UP CONVERTER
FSP3304
„
ABSOLUTE MAXIMUM RATINGS (NOTE )
Parameter
SW voltage
IN, SHDN voltage
FB voltage
Maximum power dissipation (derate 5mW/℃ above TA=50℃)
Operating temperature range
Operating junction temperature
Junction to ambient thermal resistor
Lead temperature (Soldering, 10sec)
Note : Exceeding these ratings may damage the device.
„
Rating
-0.3to +30
-0.3 to +6
-0.3 to VIN + 0.3
0.4
-40 to +85
-40 to +150
190
300
Unit
V
V
W
℃
℃
℃/W
℃
ELECTRICAL CHARACTERISTICS
(VIN = VSHUT, TA = 25°C, unless otherwise noted.)
Parameters
Symbol
Condition
Input Voltage Range
Supply Current
Supply Current in shutdown
Switching Frequency
Maximum Duty Cycle
Min
Typ
2.5
SHDN=IN
SHDN=G
fSW
DMAX
0.8
80
SHDN
SHDN logic high threshold
SHDN logic low threshold
SHDN input current
0.7
0
1
85
Max
5..5
V
1.5
1
1.2
mA
µA
MHz
%
1.6
0
Units
0.4
1
V
V
uA
Feedback
FB Voltage
VFB
FB Input Current
Output Switch
SW On voltage
SW Current Limit
IL M
Switch leakage current
„
2/9
VI N = 3V
1.18
1.24
50
1.30
V
nA
IS W =200mA
350
mV
Duty Cycle =70%
VSW=20V, SHDN=G
320
mA
10
FUNCTIONAL BLOCK DIAGRAM
2007-4-24
µA
WHITE LED/OLED STEP-UP CONVERTER
FSP3304
„
FUNCTION DESCRIPTION
The FSP3304 is a high efficiency step-up DC/DC converter that employs a current-mode, fixed frequency
pulse-width modulation (PWM) architecture with excellent line and load regulation. The flip-flop is set at the start of
each oscillator cycle, and turns on the power switch. During this on time, the switch current level is sensed and
added to a ramp signal, and the resulting sum is compared with the output of the error amplifier. If the error
comparator output is high, the flip-flop is reset and the power switch turns off. Thus, the peak inductor current level is
controlled by the error amplifier output, which is integrated from the difference between FB input and the 1.24V
reference point.
The FSP3304 operates at a constant switching frequency for output current higher than 4mA. If the output current
decreases further, the IC will enter pulse skipping mode, resulting in some low frequency ripple.
„
APPLICATION INFORMATION
Inductor Selection
Table 1. Recommended Inductors
Part Number
Current Rating (mA)
CDRH3D16-220
ELJPC220KF
LQH3C220
LEM2520-220
350
160
250
125
DCR(>)
0.5
4.0
0.7
5.5
Supplier
Sumida
Panasonic
Murata
Taiyo Yuden
A 22µH inductor is typically used for the FSP3304. The inductor should have low DC resistance (DCR) and losses at
1 MHz. See Table 1 for examples of small size inductors.
Capacitor Selection
The FSP3304 only requires a 1µF input capacitor and a 1 µF output capacitor for most applications. Ceramic
capacitors are ideal for these applications. For best performance, use X5R and X7R type ceramic capacitors, which
possess less degradation in capacitance over voltage and temperature ranges.
Diode Selection
The FSP3304 requires a fast recovery Schottky diode as the rectifier. Select a low forward voltage drop Schottky
diode with a forward current (IF) rating of 100mA to 200mA and a sufficient peak repetitive reverse voltage (VRRM).
Some suitable Schottky diodes are listed in Table 2.
Table 2. Recommended Schottky Diodes
Part Number
IF (mA)
VRRM (V)
Supplier
CMDSH-3
CMDSH2-3
BAT54
100
200
200
30
30
30
Central
Central
Zetex
OLED Application
Figure 1 shows the feedback network necessary to set the output voltage. Select the proper ratio of the two feedback
resistors R1 and R2 based on the desired output voltage. Typically choose R1 = 20kΩ and determine R2 from the
output voltage:
White LED Application
The LED current is determined by the value of the feedback resistor R1. Because the FB input of the IC is regulated to
1.24V, the LED current is determined by ILED = 1.24V / R1. The value of R1 for different LED currents is shown in Table 3.
Table 3. R1 Resistor Value Selection
R1 (>)
ILED (mA)
5
246
10
124
12
103.3
15
82.7
20
62
3/9
2007-4-24
WHITE LED/OLED STEP-UP CONVERTER
FSP3304
To improve efficiency, resistors R2 and R3 can be connected as shown in Figure 4 to lower the effective feedback
voltage.
The following are dimming control methods for the FSP3304 series white LED application.
1. PWM Signal Driving SHDN
When a PWM signal is connected to the SHDN pin, the FSP3304 is turned on and off alternately under the control of
the PWM signal. The current through the LEDs is either zero or full scale. By changing the duty cycle of the PWM
signal (typically 1 kHz to 10kHz), a controlled average current is obtained.
2. DC Voltage Control
Figure 5 shows an application in which a DC voltage is used to adjust the LED current. The LED current increases
when VDC is lower than VFB and decreases when VDC is higher than VFB.
In Figure 5, the LED current range of 15mA to 0mA is controlled by VDC = 0V to 2V.
3. Filtered PWM Control
Figure 6 shows an application using a filtered PWM signal to control dimming.
4. Logic Control
A logic signal can be used to adjust the LED current in a discrete step, as shown in Figure 7.
Figure 4: Current setting for white LED application
Figure 6: Filtered PWM controlled dimming
4/9
Figure 5: DC voltage controlled dimming
Figure 7: Logic controlled dimming
2007-4-24
WHITE LED/OLED STEP-UP CONVERTER
FSP3304
Start-up and Inrush current
In order to facilitate quick startup, a soft-start circuit is not incorporated into the FSP3304. When the IC is first turned
on with no external soft-start circuit, the peak inrush current is about 400mA. Figure 8 shows an implementation for
soft-start. When soft-start and dimming controls are used simultaneously, a low frequency PWM signal (less than
10kHz) or the methods in Figures 5, 6, and 7 should be used.
Open circuit protection (white LEDs)
If one of the LEDs is disconnected, the FB voltage drops to zero and the IC switches at maximum duty cycle. This
results in a high voltage that may exceed the SW voltage rating. To limit this voltage, use a Zener diode as shown in
Figure 9. The Zener voltage must be larger than the total forward voltage of the LEDs and the current rating should be
higher than 0.1 mA.
Board layout
To reduce EMI, minimize the area and path length of all traces connected to SW. Use a ground plane under the
switching regulator and connect R1 directly to the G pin of the IC.
Figure 8: Soft-start circuit
5/9
Figure 9: Open-circuit protection
2007-4-24
WHITE LED/OLED STEP-UP CONVERTER
FSP3304
„
TYPICAL PERFORMANCE CHARACTERISTICS
(circuit of figure 1, unless otherwise noted)
6/9
2007-4-24
WHITE LED/OLED STEP-UP CONVERTER
FSP3304
„
TYPICAL PERFORMANCE CHARACTERISTICS (CONTINUED)
(circuit of figure 1, unless otherwise noted)
7/9
2007-4-24
WHITE LED/OLED STEP-UP CONVERTER
FSP3304
„
ORDERING INFORMATION
FSP3304X X X
Package:
C: SOT23-5L
„
Packing:
A: Tape & Reel
Temperature Grade:
D: -40~85℃
Marking Information
LCYM
Date Code:
Y: Year (1=2001)
M: Month (1~9,O,N,D)
Part Number: FSP3304
8/9
2007-4-24
WHITE LED/OLED STEP-UP CONVERTER
FSP3304
„
PACKAGE INFORMATION
D
e1
2
e
A2
E
3
A1
1
A
4
E1
5
b
C
θ
L
L1
Symbol
A
A1
A2
b
C
D
E
E1
L
L1
e
e1
θ
9/9
Dimensions In Millimeters
Min.
Max.
1.050
1.250
0.000
0.100
1.050
1.150
0.300
0.400
0.100
0.200
2.820
3.020
2.650
2.950
1.500
1.700
0.300
0.600
0.700REF
0.95 Bsc.
1.90 Bsc.
0º
8º
Dimensions In Inches
Min.
Max.
0.041
0.050
0.000
0.004
0.041
0.045
0.012
0.016
0.004
0.008
0.111
0.119
0.104
0.116
0.060
0.068
0.012
0.024
0.028REF
0.038 Bsc.
0.076 Bsc.
0º
8º
2007-4-24