MAX1570 DS

19-2526; Rev 1; 4/05
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
The MAX1570 fractional charge pump drives up to five
white LEDs with regulated constant current for uniform
intensity. The MAX1570 maintains the highest possible
efficiency over the full 1-cell lithium-ion (Li+) battery
input voltage range by utilizing a 1x/1.5x fractional
charge pump and very-low-dropout current regulators.
The MAX1570 operates with 1MHz fixed-frequency
switching, allowing for tiny external components. The
regulation scheme is optimized to ensure low EMI and
low input ripple.
An external resistor sets the full-scale LED current,
while two digital inputs control on/off and select
between three levels of brightness. A pulse-width modulation (PWM) signal can also be used to modulate LED
brightness.
The MAX1570 is available in 16-pin 4mm
QFN packaging (0.8mm max height).
✕
4mm Thin
Applications
White LED Backlighting
Features
♦ Excellent 0.3% LED-to-LED Current Matching
♦ 30mA/LED Drive Capability
♦ Proprietary 1x/1.5x Modes for Ultra-High
Efficiency
♦ Low Input Ripple and EMI
♦ Eliminates Ballast Resistors
♦ Digital or PWM LED Dimming Control
♦ 0.1µA Shutdown Current
♦ 2.7V to 5.5V Supply Voltage Range
♦ Soft-Start Limits Inrush Current
♦ Thermal-Shutdown Protection
♦ No External Inductor, Schottky, or Zener Diode
Required
♦ Tiny 16-Pin 4mm ✕ 4mm Thin QFN Package
♦2
Cell Phones and Smart Phones
Ordering Information
PDA and Palmtop Computers
Portable MP3 Players
Digital Cameras and Camcorders
PART
TEMP RANGE
PIN-PACKAGE
MAX1570ETE
-40°C to +85°C
16 Thin QFN
Typical Operating Circuit
PGND
EN1
SET
TOP VIEW
C1N
Pin Configuration
12
11
10
9
1µF
C1P
2.7V TO 5.5V
8
IN 13
IN
LED1
1µF
C1N C2P
C2N
1x/1.5x
REGULATING CHARGE PUMP
4.7µF
1µF
7
C2P 14
MAX1570
OUT 15
6
5
C2N 16
LED2
LED3
LED4
OUT
MAX1570
ON/OFF
AND
DIMMING
LED1
EN1
EN2
SET
REFERENCE
AND
CONTROL
LED2
LOW-DROPOUT
CURRENT
REGULATORS
LED3
LED4
2
3
4
GND
LED5
C1P
1
EN2
LED5
RSET
GND
PGND
THIN QFN
4mm x 4mm
________________________________________________________________ Maxim Integrated Products
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
1
MAX1570
General Description
MAX1570
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
ABSOLUTE MAXIMUM RATINGS
IN, OUT, EN1, EN2 to GND ......................................-0.3V to +6V
SET, LED1, LED2, LED3, LED4,
LED5 to GND ...........................................-0.3V to (VIN + 0.3V)
PGND to GND..........................................................-0.3 to +0.3V
C1N, C2N to GND ..........................................-0.3V to (VIN + 1V)
C1P, C2P to GND ..........................................-0.3V to the greater
(VOUT + 1V) or (VIN + 1V)
OUT Short Circuit to GND..............................................Indefinite
Continuous Power Dissipation (TA = +70°C)
16-Pin Thin QFN (derate 16.9 mW/°C) .......................1349mW
Operating Temperature Range ...........................-40°C to +85°C
Junction Temperature ......................................................+150°C
Storage Temperature Range .............................-65°C to +150°C
Lead Temperature (soldering, 10s) .................................+300°C
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
ELECTRICAL CHARACTERISTICS
(VIN = 3.6V, GND = PGND = 0, EN1 = EN2 = IN, CIN = C1 = C2 = 1µF, COUT = 4.7µF, TA = 0°C to +85°C, unless otherwise noted.
Typical values are at TA = +25°C.)
PARAMETER
CONDITIONS
IN Operating Voltage
Undervoltage Lockout Threshold
MIN
TYP
MAX
UNITS
5.5
V
2.45
2.60
2.7
VIN rising or falling
2.25
Undervoltage Lockout Hysteresis
35
Supply Current
1MHz switching, no load
2.0
3.5
Shutdown Supply Current
EN1 = EN2 = GND
0.1
5
Soft-Start Done Time
SET Bias Voltage
SET Leakage in Shutdown
2.1
0.190
0.200
0.210
EN1 = IN, EN2 = GND, ISET = 67µA
0.380
0.400
0.420
EN1 = IN, EN2 = IN, ISET = 100µA
0.570
0.600
0.630
0.01
1.00
EN1 = EN2 = GND, VIN = 5.5V, VSET = 0 or 5.5V
SET to LED_ Current Ratio
20
ILED/ISET, ISET = 67µA, VLED_= 1V
+3
ISET = 67µA, VLED_= 1V
-3
0.3
28
30
ISET = 33µA (Note 1)
LED_ Dropout Voltage
LED1 Regulation Voltage
(1.5x Mode)
180
ISET = 67µA (Note 2)
200
360
ISET = 100µA (Note 2)
230
410
EN1 = GND, EN2 = IN, ISET = 33µA
185
200
215
EN1 = IN, EN2 = GND, ISET = 67µA
277
300
323
EN1 = IN, EN2 = IN, ISET = 100µA
360
400
440
0.01
1.00
EN1 = GND, EN2 = GND, VLED_= 5.5V
Maximum OUT Current
IN ≥ 3.4V, OUT ≥ 3.9V
Open-Loop OUT Resistance
150
1x mode (VIN - VOUT)/IOUT
EN1, EN2 High Voltage
1.5x mode (1.5VIN - VOUT)/IOUT
EN1, EN2 Low Voltage
IN = 2.7V to 5.5V
EN1, EN2 Input Current
EN_ = GND or 5.5V
2
1.75
8
1
IN = 2.7V to 5.5V
mV
mV
µA
mA
1.00
Switching Frequency
%
mA
100
LED Leakage in Shutdown
µA
µA
245
ISET = 130µA, VLED_= 1V
V
A/A
230
Maximum LED_ Sink Current
µA
130
215
LED_ to LED_ Current Matching
mA
ms
EN1 = GND, EN2 = IN, ISET = 33µA
SET Current Range
V
mV
Ω
MHz
1.6
V
0.01
_______________________________________________________________________________________
0.4
V
1.00
µA
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
(VIN = 3.6V, GND = PGND = 0, EN1 = EN2 = IN, CIN = C1 = C2 = 1µF, COUT = 4.7µF, TA = 0°C to +85°C, unless otherwise noted.
Typical values are at TA = +25°C.)
PARAMETER
CONDITIONS
LED1 Dual Mode™ Threshold
MIN
TYP
MAX
UNITS
50
75
100
mV
Thermal-Shutdown Threshold
160
°C
Thermal-Shutdown Hysteresis
20
°C
ELECTRICAL CHARACTERISTICS
(VIN = 3.6V, GND = PGND = 0, EN1 = EN2 = IN, CIN = C1 = C2 = 1µF, COUT = 4.7µF, TA = -40°C to +85°C, unless otherwise noted.)
(Note 3)
PARAMETER
CONDITIONS
IN Operating Voltage
Undervoltage Lockout Threshold
VIN rising or falling
Supply Current
1MHz switching, no load
Shutdown Supply Current
EN1 = EN2 = GND
SET Bias Voltage
SET Leakage in Shutdown
MAX
UNITS
2.7
5.5
V
2.25
2.60
V
3.5
mA
5
µA
EN1 = GND, EN2 = IN, ISET = 33µA
0.190
0.210
EN1 = IN, EN2 = GND, ISET = 67µA
0.380
0.420
EN1 = IN, EN2 = IN, ISET = 100µA
0.570
0.630
1
µA
20
130
µA
215
250
A/A
+3
EN1 = EN2 = GND, VIN = 5.5V, VSET = 0 or 5.5V
SET Current Range
SET to LED_ Current Ratio
MIN
ILED/ISET, ISET = 67µA, VLED_= 1V
LED_ to LED_ Current Matching
ISET = 67µA, VLED_= 1V
-3
Maximum LED_ Sink Current
ISET = 130µA, VLED_= 1V
28
LED_ Dropout Voltage
LED1 Regulation Voltage
(1.5x Mode)
180
ISET = 67µA (Note 2)
360
ISET = 100µA (Note 2)
410
EN1 = GND, EN2 = IN, ISET = 33µA
185
215
EN1 = IN, EN2 = GND, ISET = 67µA
277
323
EN1 = IN, EN2 = IN, ISET = 100µA
360
440
EN1 = GND, EN2 = GND, VLED_= 5.5V
Maximum OUT Current
IN ≥ 3.4V, OUT ≥ 3.9V
Open-Loop OUT Resistance
1
150
1x mode (VIN - VOUT)/IOUT
EN1, EN2 High Voltage
IN = 2.7V to 5.5V
EN1, EN2 Low Voltage
IN = 2.7V to 5.5V
EN1, EN2 Input Current
EN_ = GND or 5.5V
LED1 Dual Mode Threshold
8
1.6
mV
µA
Ω
V
0.4
50
mV
mA
1.75
1.5x mode (1.5VIN - VOUT)/IOUT
%
mA
ISET = 33µA (Note 1)
LED Leakage in Shutdown
V
V
1
µA
100
mV
Note 1: Dropout voltage is defined as the LED_ to GND voltage at which current sink into LED_ drops 20% from the value at LED_ = 1V.
Note 2: Dropout voltage is defined as the LED_ to GND voltage at which current sink into LED_ drops 10% from the value at LED_ = 1V.
Note 3: Specifications to -40°C are guaranteed by design and not production tested.
Dual Mode is a trademark of Maxim Integrated Products, Inc.
_______________________________________________________________________________________
3
MAX1570
ELECTRICAL CHARACTERISTICS (continued)
Typical Operating Characteristics
(EN1 = EN2 = IN, CIN = 1µF, C1 = C2 = 1µF, COUT = 4.7µF, RSET = 9.09kΩ, TA = +25°C, unless otherwise noted.)
80
75
70
65
250
200
150
10mA/LED, EN1 = VIN,
EN2 = GND
100
60
70
60
MAX1570 toc03
10mA/LED, EN1 = VIN,
EN2 = GND
50
40
5mA/LED, EN1 = GND,
EN2 = VIN
30
3.4
3.6
5mA/LED, EN1 = GND,
EN2 = VIN
0
3.8
4.0
2.5
4.2
3.0
3.5
4.0
4.5
5.0
10
0
5.5
SUPPLY VOLTAGE (V)
SUPPLY VOLTAGE (V)
LED EFFICIENCY vs. SUPPLY VOLTAGE
(5 LEDs)
SUPPLY POWER vs. SUPPLY VOLTAGE
(5 LEDs)
85
80
75
70
65
15mA/LED,
EN1 = EN2 = VIN
400
SUPPLY POWER (mW)
90
450
60
350
300
250
200
10mA/LED, EN1 = VIN,
EN2 = GND
150
100
3.0
3.2
3.4
3.6
0
3.8
4.0
4.2
EFFICIENCY vs. LED CURRENT
(4 LEDs, EN1 = PWM AT 1kHz)
VIN = 3.9V
75
70
VIN = 3V
65
18
12
10
8
6
55
2
6
7
8
9
10 11 12 13 14 15
LED CURRENT (mA)
5mA/LED, EN1 = GND,
EN2 = VIN
40
2.5
3.0
3.5
4.0
4.5
SUPPLY VOLTAGE (V)
120
100
5.0
15mA/LED,
EN1 = EN2 = VIN
80
60
10mA/LED, EN1 = VIN,
EN2 = GND
40
5mA/LED, EN1 = GND,
EN2 = VIN
20
0
5
10mA/LED, EN1 = VIN,
EN2 = GND
60
SUPPLY CURRENT vs. SUPPLY VOLTAGE
(4 LEDs, LED1 OPEN FOR 1.5X ONLY MODE)
14
4
50
fPWM = 1kHz
VIN = 3.3V
16
60
80
5.0
SUPPLY CURRENT (mA)
85
80
3.5
4.0
4.5
SUPPLY VOLTAGE (V)
20
LED CURRENT (mA)
90
3.0
LED CURRENT vs. PWM DIMMING
DUTY CYCLE INTO EN1 (5 LEDs)
MAX1570 toc07
95
15mA/LED,
EN1 = EN2 = VIN
0
2.5
SUPPLY VOLTAGE (V)
100
5.0
20
5mA/LED, EN1 = GND,
EN2 = VIN
50
MAX1570 toc08
50
15mA/LED,
EN1 = EN2 = VIN
3.5
4.0
4.5
SUPPLY VOLTAGE (V)
120
100
5mA/LED, EN1 = GND,
EN2 = VIN
55
3.0
SUPPLY CURRENT vs. SUPPLY VOLTAGE
(5 LEDs)
MAX1570 toc05
10mA/LED, EN1 = VIN, EN2 = GND
95
500
MAX1570 toc04
100
2.5
MAX1570 toc06
3.2
50
MAX1570 toc09
3.0
15mA/LED,
EN1 = EN2 = VIN
SUPPLY CURRENT (mA)
50
4
15mA/LED,
EN1 = EN2 = VIN
80
20
5mA/LED, EN1 = GND,
EN2 = VIN
55
EFFICIENCY PLED/PSUPPLY (%)
300
90
SUPPLY CURRENT (mA)
85
15mA/LED,
EN1 = EN2 = VIN
350
SUPPLY POWER (mW)
EFFICIENCY PLED/PSUPPLY (%)
90
100
MAX1570 toc02
10mA/LED, EN1 = VIN, EN2 = GND
95
400
MAX1570 toc01
100
SUPPLY CURRENT vs. SUPPLY VOLTAGE
(4 LEDs)
SUPPLY POWER vs. SUPPLY VOLTAGE
(4 LEDs)
LED EFFICIENCY vs. SUPPLY VOLTAGE
(4 LEDs)
EFFICIENCY PLED/PSUPPLY (%)
MAX1570
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
0
0
10 20 30 40 50 60 70 80 90 100
PWM DUTY CYCLE (%)
2.5
3.0
3.5
4.0
4.5
SUPPLY VOLTAGE (V)
_______________________________________________________________________________________
5.0
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
LED CURRENT vs. TEMPERATURE
(VIN = 3.3V, RSET = 7.5kΩ)
11.9
11.8
EN1 = EN2 = VIN
LED CURRENT (mA)
14
12
EN1 = VIN, EN2 = GND
10
8
EN1 = GND, EN2 = VIN
6
25
11.7
LED CURRENT (mA)
16
LED CURRENT vs. RSET
30
MAX1570 toc11
18
LED CURRENT (mA)
12.0
MAX1570 toc10
20
11.6
11.5
11.4
11.3
11.0
0
2.5
3.0
3.5
4.0
4.5
5.0
-15
SUPPLY VOLTAGE (V)
10
35
TEMPERATURE (°C)
10
85
60
5.0
= IN
= EN
, EN2
GN D, E N
2=I
2 = IN
7.5
10.0
MAX1570 toc15
IIN
50mA/div
IIN
AC-COUPLED
10mA/div
IIN
AC-COUPLED
10mA/div
15.0
12.5
STARTUP RESPONSE (VIN = 3.3V)
(5 LEDs AT 15mA/LED)
MAX1570 toc14
MAX1570 toc13
VIN
AC-COUPLED
20mV/div
VIN
AC-COUPLED
1mV/div
VOUT
2V/div
VOUT
AC-COUPLED
5mV/div
VOUT
AC-COUPLED
1mV/div
400ns/div
2µs/div
DIMMING RESPONSE USING
PWM INTO EN1
400µs/div
LINE-TRANSIENT RESPONSE
MAX1570 toc16
100µs/div
N
= GND
RSET (kΩ)
TYPICAL OPERATING WAVEFORM
IN 1.5X MODE (ILOAD = 90mA, VIN = 3.6V)
TYPICAL OPERATING WAVEFORM
IN 1X MODE
EN1
0
-40
5.5
E N1
15
5
EN1 = IN
EN2 = GND
11.1
2
20
EN1 =
11.2
4
MAX1570 toc12
LED CURRENT vs. SUPPLY VOLTAGE
MAX1570 toc17
ILED
15mA TO 5mA
5mA/div
ILED
15mA
5mA/div
VOUT
AC-COUPLED
500mV/div
VOUT
AC-COUPLED
500mV/div
EN1
0 TO 2V
2V/div
VIN
4 TO 3.6V
500mV/div
100µs/div
_______________________________________________________________________________________
5
MAX1570
Typical Operating Characteristics (continued)
(EN1 = EN2 = IN, CIN = 1µF, C1 = C2 = 1µF, COUT = 4.7µF, RSET = 9.09kΩ, TA = +25°C, unless otherwise noted.)
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
MAX1570
Pin Description
6
PIN
NAME
FUNCTION
1
C1P
Transfer Capacitor 1 Positive Connection
2
EN2
Enable, Dimming Control Input 2. EN2 and EN1 control shutdown, 1/3 current, 2/3 current, and full
current (see Table1).
3
GND
Analog Ground. Connect directly to the exposed paddle underneath the IC.
4
LED5
LED5 Cathode Connection. Current flowing into LED5 is 230 times the current flowing out of SET.
When using fewer than five LEDs, this pin can be left unconnected. LED5 is high impedance during
shutdown.
5
LED4
LED4 Cathode Connection. Current flowing into LED4 is 230 times the current flowing out of SET.
When using fewer than five LEDs, this pin can be left unconnected. LED4 is high impedance during
shutdown.
6
LED3
LED3 Cathode Connection. Current flowing into LED3 is 230 times the current flowing out of SET.
When using fewer than five LEDs, this pin can be left unconnected. LED3 is high impedance during
shutdown.
7
LED2
LED2 Cathode Connection. Current flowing into LED2 is 230 times the current flowing out of SET.
When using fewer than five LEDs, this pin can be left unconnected. LED2 is high impedance during
shutdown.
8
LED1
LED1 Cathode Connection and Charge-Pump Feedback. Current flowing into LED1 is 230 times the
current flowing out of SET. The charge pump regulates the voltage on LED1 to various voltages
depending upon the status of EN1 and EN2 (see Table 1). Grounding LED1 forces OUT to operate at
5V while LED2–LED5 regulate the LED current to 230 x VSET/RSET. LED1 is high impedance during
shutdown.
9
SET
Bias Current Set Input. The current flowing out of SET programs the bias current into each LED by
ILED_ = 230 x ISET. VSET is internally biased to various voltages (see Table 1). Connect a resistor to
GND to set the bias current as VSET/RSET. SET is high impedance during shutdown.
10
EN1
Enable, Dimming Control Input 1. EN1 and EN2 control shutdown, 1/3 current, 2/3 current, and full
current (see Table 1).
11
PGND
12
C1N
13
IN
14
C2P
Transfer Capacitor 2 Positive Connection
15
OUT
Charge-Pump Output. Bypass to PGND with a 4.7µF ceramic capacitor as close to the IC as possible.
Connect to the anodes of all the LEDs. OUT is high impedance during shutdown.
16
C2N
—
EP
Power Ground. Charge-pump switching current flows through this pin. Connect to GND and system
ground as close to the MAX1570 and the input bypass capacitor as possible.
Transfer Capacitor 1 Negative Connection
Supply Voltage Input. Bypass IN to PGND with a 1µF ceramic capacitor. The input voltage range is
2.7V to 5.5V. IN is high impedance during shutdown.
Transfer Capacitor 2 Negative Connection
Exposed paddle. Connect to GND.
_______________________________________________________________________________________
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
The MAX1570 is a complete charge-pump buck/boost
converter requiring only four small ceramic capacitors.
The MAX1570 utilizes a proprietary 1x/1.5x fractional
charge-pump topology to drive up to five white LEDs
with regulated constant current for uniform intensity.
The MAX1570 operates with a 1MHz fixed frequency.
An external resistor (RSET) programs the full-scale LED
current, while two digital inputs control on/off and provide brightness control.
Output Regulation
The MAX1570 operates in 1x charge-pump mode until
just above dropout. Then the MAX1570 switches to 1.5x
charge-pump mode to regulate the voltage at LED1
and maintain constant LED brightness even at very low
battery voltages. Using this topology, there is no LED
brightness change during the 1x/1.5x switchover,
which guarantees no flicker on the display. The
switchover scheme has low hysteresis, minimizing
operation in the less efficient 1.5x mode. The 1x mode
produces almost no ripple, while the 1.5x mode regulates the output voltage by controlling the rate at which
the transfer capacitors are charged. In this way, the
switching frequency remains constant for reduced
input ripple and stable noise spectrum.
Soft-Start
The MAX1570 includes soft-start circuitry to limit inrush
current at turn-on. When starting up with an output voltage that is not near the input voltage, the output capacitor is charged directly from the input with a DAC
ramped current source (with no charge-pump action)
until the output voltage is near the input voltage. Once
this occurs, the charge pump determines if 1x or 1.5x
mode is required. In the case of 1x mode, the soft-start
is terminated and normal operation begins. In the case
of 1.5x mode, soft-start operates until LED1 reaches
regulation. In case of an overload condition, soft-start
repeats every 2.1ms. If the output is shorted to ground,
the output current is limited by the MAX1570 fractionalswitching technique and then the device hits thermal
shutdown once the die temperature reaches -160°C.
True Shutdown Mode
When EN1 and EN2 are grounded, the MAX1570 is in
shutdown, and the charge pump examines whether the
input voltage is greater than or less than the output voltage and shorts the transfer capacitor nodes to either IN
or OUT as necessary. The output is high impedance in
either case.
Thermal Shutdown
The MAX1570 includes a thermal-limit circuit that shuts
down the IC at about 160°C. Turn-on occurs after the
IC cools by approximately 20°C.
Setting the Output Current
SET controls the LED bias current. Current flowing into
LED1, LED2, LED3, LED4, and LED5 is 230 times
greater than the current flowing out of SET. Set the output current as follows:
V

ILED _ = 230 ×  SET 
 RSET 
where VSET = 0.2V, 0.4V, or 0.6V (depending upon EN1
and EN2, see Table 1), and RSET is the resistor connected between SET and GND (see the Typical
Operating Circuit).
Applications Information
Dimming Using EN1 and EN2
Use EN1 and EN2 inputs as a digital 2-bit number to
control on/off, 1/3, 2/3, and full current (see Table 1).
EN1 and EN2 control the voltage at SET (V SET ).
Adjusting the SET voltage controls the current (I SET)
through the SET resistor (R SET). Increasing V SET or
reducing RSET increases ISET, which then increases the
LED current (ILED_).
The charge-pump feedback threshold at LED1 is
increased as the current is increased to prevent
dropout in the current regulators while improving efficiency at lower current settings. LED1 is regulated at
0.2V, 0.3V, or 0.4V when EN1 and EN2 are adjusted for
1/3, 2/3, or full current, respectively (see Table 1). A
higher threshold improves LED-to-LED current matching, while a lower threshold improves efficiency by
allowing the 1x mode at lower input voltages.
Dimming Using PWM into EN1
Use EN2 for shutdown and drive EN1 with a PWM signal.
Current can be varied from 1/3 to full. The waveforms in
the Typical Operating Characteristics show the response
time of dimming. EN2 keeps the part on, eliminating any
soft-start delay that would impede PWM control, allowing
a PWM frequency up to 5kHz (Figure 1).
Dimming Using a Filtered-PWM Signal
Use a high-frequency PWM signal to drive an R-C-R filter
on the SET pin (Figure 2). A 0% PWM duty cycle corresponds to 20mA/LED, while a 100% PWM duty cycle
corresponds to 0mA/LED. At PWM frequencies above
5kHz, C3 may be reduced.
_______________________________________________________________________________________
7
MAX1570
Detailed Description
MAX1570
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
Table 1. Enable Input Modes
EN_ INPUT LOGIC LEVELS
MODE
LED CURRENT
EN1 = 0, EN2 = 0
Shutdown mode
0
EN1 = 0, EN2 = 1
On, VSET = 200mV, LED1 threshold = 200mV
EN1 = 1, EN2 = 0
On, VSET = 400mV, LED1 threshold = 300mV
2/3
EN1 = 1, EN2 = 1
On, VSET = 600mV, LED1 threshold = 400mV
Full
1/3
Table 2. Capacitor Selection
OUTPUT
(mA)
CIN
(µF)
C1
(µF)
C2
(µF)
COUT
(µF)
40
1
0.22
0.22
4.7
80
1
0.47
0.47
4.7
150
1
1.0
1.0
4.7
Table 3. Capacitor Manufacturers
COMPONENT NAME
MANUFACTURER
PART NO.
DESCRIPTION
CIN
1
Taiyo Yuden
JMK107BJ105MA
1µF ±20%, 6.3V X5R ceramic capacitor (0603)
COUT
4.7
Taiyo Yuden
JMK212BJ475MG
4.7µF ±20%, 6.3V X5R ceramic capacitor (0805)
1
Taiyo Yuden
JMK107BJ105MA
1µF ±20%, 6.3V X5R ceramic capacitor (0603)
0.47
Taiyo Yuden
LMK107BJ474MA
0.47µF ±20%, 10V X5R ceramic capacitor (0603)
0.22
Taiyo Yuden
LMK107BJ224KA
0.22µF ±10%, 10V X7R ceramic capacitor (0603)
C1 and C2
8
VALUE
(µF)
_______________________________________________________________________________________
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
Component Selection
Typical external component values are shown in Table
2 and Table 3.
PC Board Layout and Routing
Maximum power dissipation occurs around 4.2V on IN
and 4.0V at OUT with maximum load current.
PD =
[((1.5 × V
)
IN
At higher IN voltages this device switches to 1x mode
and power dissipation is lowered.
The MAX1570 is a high-frequency switched-capacitor
voltage regulator. For best circuit performance, use a
solid ground plane and place CIN and COUT as close
to the MAX1570 as possible. Also, place their ground
tails close together. Connect PGND and GND directly
under the IC to the exposed paddle, and connect CIN
and COUT as close as possible to PGND. The input
supply connections should be short; if this is not possible, an additional input supply filter capacitor (tantalum
or electrolytic) may be required. Refer to the MAX1570
EV kit for a good layout example.
1µF
C1P
C2P
0 TO 20mA/LED
4.7µF
LED1
MAX1570
LED2
EN2
R1
14.3kΩ
LED3
R2
14.3kΩ
LED4
SET
LED5
RSET
9.09kΩ
GND
PGND
Figure 2. Dimming Using Filtered-PWM Signal
1µF
C1P
LED1
LED2
PWM INPUT
OUT
EN1
4.7µF
EN2
C2N
C2N
1µF
MAX1570
C2P
1µF
C3
1µF
OUT
IN
VIN
C1N
IN
VIN
1µF
C1N
1µF
C1P
PWM INPUT
0 TO 25V
1µF
]
)
− VOUT + 0.4 V × 120mA = 324mW
1Ω
VIN
1µF
C1N
C2P
C2N
OUT
IN
EN1
LED3
SET
4.7µF
2.2µF
2.2µF
LED4
LED5
EN1
RSET
MAX1570
LED1
LED2
GND
EN2
PGND
LED3
SET
LED4
Figure 1. Dimming Using PWM Signal into EN1
LED5
RSET
GND
PGND
Figure 3. C-R-C Filter Reduces Input Ripple
Chip Information
TRANSISTOR COUNT: 3187
_______________________________________________________________________________________
9
MAX1570
Input Ripple
For LED drivers, input ripple is more important than output ripple. Input ripple depends on the source supply’s
impedance. Adding a lowpass filter to the input further
reduces input ripple. Figure 3 shows a C-R-C filter used
to reduce input ripple to less than 2mVP-P when driving
a 75mA load. Alternately, increasing CIN to 2.2µF or
4.7µF yields input ripple of 17mVP-P or 9mVP-P, respectively, with only a small increase in footprint. The 1x
mode has very low input ripple.
Package Information
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,
go to www.maxim-ic.com/packages.)
24L QFN THIN.EPS
MAX1570
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
PACKAGE OUTLINE,
12, 16, 20, 24, 28L THIN QFN, 4x4x0.8mm
21-0139
10
______________________________________________________________________________________
D
1
2
White LED Current Regulator with 1x/1.5x
High-Efficiency Charge Pump
PACKAGE OUTLINE,
12, 16, 20, 24, 28L THIN QFN, 4x4x0.8mm
21-0139
D
2
2
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 11
© 2005 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products, Inc.
MAX1570
Package Information (continued)
(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,
go to www.maxim-ic.com/packages.)