FOSLINK FSP3302QAD

4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
FSP3302/FSP3303
„
FEATURES
„
z
Two LED Configurations Available:
The FSP3302/FSP3303 are high performance, white
FSP3302: Up to 4 LEDs
LED bias generators for systems consisting of multiple
FSP3303: Up to 6 LEDs
white LEDs. The FSP3302/FSP3303 are identical
z
High Efficiency Proprietary Charge Pump
except for the number of LEDs they drive; FSP3302
z
Automatic 1x/1.5x Mode-Switching
supports up to four LEDs, while FSP3303 can supply up
Ensures Maximum Efficiency
to six LEDs.
z
Wide 2.7V to 5.2V Input Voltage Range
These devices integrate proprietary constant-frequency
z
0.3% White LED Brightness Matching
charge
z
Digitally Programmed 1dB Brightness Steps
mode-switching to maximize efficiency with accurate,
Up to 44mA per LED
matched current sources that drive the white LEDs.
z
Automatic Programming Finish Detection
Current matching is better than 0.3%, resulting in highly
z
1.2MHz Operation for Low Ripple
uniform brightness across different LED channels.
z
Simple Serial Interface
The FSP3302/FSP3303 feature adjustable LED bias
z
Thermal Shutdown Protection
currents, which are programmable through a simple
z
Tiny QFN16L and µQFN16L Packages
serial interface. Charge pump operation at 1.2MHz
GENERAL DESCRIPTION
pump
circuitry
that
includes
automatic
allows the use of small capacitors and minimizes ripple.
„
APPLICATIONS
The devices also feature soft-start circuitry to limit
z
Cell Phones
inrush current during startup, and thermal shutdown
z
Portable Devices
protection.
The FSP3302/FSP3303 are available in space saving
QFN16L and µQFN16L packages.
„
PIN CONFIGURATION
(Top View)
1/10
2007-4-10
4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
FSP3302/FSP3303
„
„
PIN DESCRIPTION
Pin Number
Pin Name
Pin Description
1
D2
LED Output 2
2
D3
LED Output 3
3
D4
LED Output 4
4
(D5)
LED Output 5 (FSP3303 only)
5
(D6)
LED Output 6 (FSP3303 only)
6
C1P
Flying Capacitor 1 Positive Terminal
7
C1N
Flying Capacitor 1 Negative Terminal
8
N/C
Not Connected
9
OUT
Charge Pump Output. Bypass to G with a 1µF ceramic capacitor.
10
C2P
Flying Capacitor 2 Positive Terminal
11
C2N
Flying Capacitor 2 Negative Terminal
12
G
13
N/C
14
IN
15
EN/PROG
16
D1
Ground
Not Connected
Input Supply. Bypass to G with a 1µF ceramic capacitor.
IC Enable and Current Programming Pin
LED Output 1
ABSOLUTE MAXIMUM RATINGS(NOTE )
Parameter
Value
Unit
IN Supply, OUT, EN/PROG to G
-0.3 to 6
V
D1, D2, D3, D4, D5, D6, C1P, C1N, C2P, C2N to G
-0.3 to VOUT + 0.3
V
C1N, C2N Voltage
-0.3 to VOUT + 1
V
D1, D2, D3, D4, (D5), (D6) Current
58
mA
Junction to Ambient Thermal Resistance (θJA)
QFN16L
66
µQFN16L
66
°C/W
Operating Junction Temperature
-40 to 150
°C
Storage Temperature
-55 to 150
°C
Lead Temperature (Soldering, 10 sec)
300
°C
Note : Exceeding these limits may damage the device. Exposure to absolute maximum rating conditions for long
periods may affect device reliability.
2/10
2007-4-10
4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
FSP3302/FSP3303
„
ELECTRICAL CHARACTERISTICS
(Circuit of the below Figure 1, VIN = 3.5V, TA = 25°C unless otherwise specified.)
Parameter
Symbol
Input Supply Range
VIN
Supply Current
IQ
Test Conditions
Min.
Typ.
2.7
Shutdown Supply Current
Full Scale Output Current
IDMAX
Output Current Matching
VIN = 3V to 5.5V,
4 LED channels active
38
44
Between any two channels
Output Current Line Regulation
Charge Pump Switching
Frequency
Soft-Start Time
fQP
1000
tSS
Thermal Shutdown Temperature
Hysteresis = 20°C
Max.
Unit
5.2
V
3.5
mA
1
µA
49
mA
0.3
%
0.4
%/V
1200
1700
kHz
330
µs
160
°C
EN/PROG
Logic Low Threshold
VIL
Logic High Threshold
VIH
1.4
Programming Low Time
tLOW
0.3
75
µs
tLOW1
5
75
µs
Programming Low Time to
Reinitialize DAC after Finish
Programming Minimum High Time
tHIGHMIN
Programming High Time
tHIGH
Finish High Time
tFINISH
Off Timeout
tOFF
0.5
V
50
500
µs
µs
300
TYPICAL APPLICATION CIRCUIT
Figure 1
3/10
ns
75
Input Current
„
V
2007-4-10
500
µs
1
µA
4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
FSP3302/FSP3303
„
FUNCTIONAL BLOCK DIAGRAM
C1P
C1N
IN
1x /1.5x
CHARGE
PUMP
THERMAL
SHUTDOWN
REFERENCE
C2N
C2P
OUT
D1
DISCHARGE
OSCILLATOR
CHARGE
D2
CHARGE
FEEDBACK
MATCHED
CURRENT
SOURCES
EN/
PROG
INTERFACE
CONTROL
32-LEVEL
LOGARITHMIC
DAC
D3
D4
D5
D6
G
FUNCTIONAL DESCRIPTION
As shown in the Functional Block Diagram, the FSP3302/FSP3303 incorporate proprietary charge pump technology
that includes automatic 1x/1.5x mode-switching to maximize efficiency. Accurate matched current sources are
controlled by a 32-level logarithmic DAC in order to provide an accurate, efficient, and programmable bias supply for
white LEDs.
CHARGE PUMP
The FSP3302/FSP3303 charge pump operates at 1.2MHz, and alternately charges and discharges the flying
capacitors at C1P, C1N, C2P and C2N to generate sufficient output voltage at OUT to allow accurate biasing of white
LEDs. These devices feature an automatic 1x/1.5x mode-switching charge pump architecture to ensure the highest
possible efficiency for a charge pump solution. These devices utilize a proprietary regulation technique that
minimizes the output impedance of the charge pump, allowing operation that is superior to competing products down
to lower input voltages.
EN/PROG PIN
EN/PROG is a multi-function pin, providing both an enable/disable function as well as permitting the user a simple
means to digitally program the LED current
ENABLE/DISABLE
If EN/PROG is driven low for more than 500µs (tOFF), a DISABLE condition is detected and the IC is disabled.
Conversely, if EN/PROG remains high for more than 500µs (tFINISH), an ENABLE condition is detected, and the DAC
is initialized to -31dB upon the next high to low transition of EN/PROG.
To properly reset the DAC upon enabling the IC, the input voltage should be applied first while EN/PROG is driven
low. A subsequent low to high transition on EN/PROG pin turns the IC on.
PROGRAMMING LED CURRENT
The interface control block decodes the digital serial input signal at EN/PROG and produces a programming code
for the 32-level logarithmic DAC. The logarithmic DAC sets the output currents to one of 32 different levels, in 1dB
steps, with the highest level of 0dB corresponding to the full-scale current of 44mA. Logarithmic current scaling
results in linear increments in LED brightness. When enabled (on an EN/PROG rising edge), the DAC initializes to
its -31dB level. Thereafter, each high to low transition of the EN/PROG pin that occurs within 75µs increments the
4/10
2007-4-10
4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
FSP3302/FSP3303
DAC, and therefore the LED current, by 1dB. Once the maximum current level of 0dB is reached, an additional high
to low transition on EN/PROG resets the DAC level to its minimum value of -31dB. Figure 2 demonstrates the
EN/PROG serial protocol.
tHIGH
OFF
31dB
t > tFINISH
tLOW
30dB
tOFF
29dB
OFF
tLOW1
31dB
30dB
29dB
28dB
Figure2. EN/PROG Serial Protocol
To ensure proper DAC initialization, the first low pulse after programming is completed should be at least 5µs.
SOFT START
When enabled, the FSP3302/FSP3303 operate in a low power state for 330µs (tSS) to limit inrush current. After this
time has expired, the devices operate in full-power mode.
THERMAL SHUTDOWN
In order to protect themselves under thermal overload and short circuit conditions, the FSP3302/FSP3303
incorporate thermal shutdown circuitry that monitors the die temperature and disables the IC if it exceeds 160°C.
„
TYPICAL PERFORMANCE CHARACTERISTICS
(Circuit of Figure 1, VIN = 3.5V, TA = 25°C unless otherwise specified.)
5/10
2007-4-10
4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
„
FSP3302/FSP3303
TYPICAL PERFORMANCE CHARACTERISTICS (CONTINUED)
(Circuit of Figure 1, VIN = 3.5V, TA = 25°C unless otherwise specified.)
6/10
2007-4-10
4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
„
FSP3302/FSP3303
TYPICAL PERFORMANCE CHARACTERISTICS (CONTINUED)
(Circuit of Figure 1, VIN = 3.5V, TA = 25°C unless otherwise specified.)
„
APPLICATION INFORMATION
CAPACITOR SELECTION
For best performance, use only ceramic capacitors, as they offer small size, low ESR, low cost, and high reliability.
Since the dropout resistance is dependent on the ESR of the capacitors, lower ESR also allows the circuit to supply
the required output currents at lower input voltage. X7R and X5R ceramic types are most stable (±15%) over bias
voltage and temperature ranges and thus are highly recommended. Lower cost Y5V and Z5U ceramic types vary
widely with voltage and temperature, and they should only be used after careful verification of the effects the
capacitance degradation has on the application.
Choose values for the flying capacitors of at least 1µF. For best results choose input and output capacitors of at least
1µF.
WHITE LED SELECTION
The FSP3302/FSP3303 are designed to bias multiple parallel white LEDs. The LED currents are internally matched
and change very little with each LED's forward voltage. For best operation, ensure that the maximum LED forward
voltage is 4.2V.
The FSP3302/FSP3303 utilizes a proprietary design that results in significantly better dropout performance than
competing products. Whereas other products maintain constant current for input voltages down to 3.0V, the
FSP3302/FSP3303 are capable of providing constant output current for input voltages extending down to as low as
2.7V.
EFFICIENCY
The FSP3302/FSP3303 automatically adjust their operating mode to ensure the highest possible efficiency for a
given set of operating conditions. The theoretical maximum efficiency of a charge pump is a function of its operating
mode, and is given by ηMAX = VLED / KVIN where K is equal to 1 for a 1x operating mode and 1.5 for a 1.5x operating
mode. Compared to this theoretical maximum efficiency, the FSP3302/FSP3303 achieve efficiency that is within just
2% of the theoretical maximum for full scale output currents. This ensures the lowest possible battery current and
the maximum possible battery life in portable applications.
7/10
2007-4-10
4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
„
FSP3302/FSP3303
ORDERING INFORMATION
FSP3302/FSP3303XXX
Package:
Q: QFN16L
μQ: μQFN 16L
„
8/10
Packing:
A: Tape & Reel
Temperature Grade:
D: -40~85℃
MARKING INFORMATION
2007-4-10
4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
„
FSP3302/FSP3303
PACKAGE INFORMATION
(1) QFN16L
Symbol
Dimensions In Millimeters
Min.
Max.
Min.
Max.
A
0.700
0.800
0.028
0.031
A1
0.000
0.050
0.000
0.002
A2
0.200 REF
0.008 REF
D
2.900
3.100
0.114
0.122
E
2.900
3.100
0.114
0.122
D1
1.500
1.700
0.059
0.067
E1
1.500
1.700
0.059
0.067
b
0.180
0.280
0.007
0.011
e
9/10
Dimensions In Inches
0.500 BSC
0.020 BSC
L
0.350
0.450
0.014
0.018
K
0.200
0.400
0.008
0.016
2007-4-10
4 & 6 CHANNEL CHARGE PUMPS FOR WHITE LED BIAS
FSP3302/FSP3303
(2) µQFN16L
Symbol
Dimensions In Millimeters
Min.
Max.
A
Min.
Max.
0.900
0.035
A1
0.010
0.090
0.0004
0.0035
D
2.900
3.100
0.114
0.122
E
2.900
3.100
0.114
0.122
D1
1.700
0.067
E1
1.700
0.067
b
0.150
e
10/10
Dimensions In Inches
0.250
0.006
0.500 BSC
0.010
0.020 BSC
L
0.350
0.450
0.014
0.018
L1
0.000
0.050
0.000
0.002
2007-4-10