®
RT4533/A
Asynchronous Boost Converter for 10 WLEDs
General Description
Features
The RT4533/A is a highly integrated LED driver IC capable
of driving 10 WLEDs in series. It is composed of a current
mode Boost converter integrated with a 36.5V/1.2A power
switch.
2.5V to 5.5V Input Voltage Range
36.5V Open LED Protection for 10 WLEDs
PWM Dimming Brightness Control
200mV / 300mV Reference Voltage with ± 2%
Accuracy
1.1MHz Switching Frequency
Built-In Soft-Start
Over-Temperature Protection
Internal Compensation
Current Limit
RoHS Compliant and Halogen Free
The RT4533/A supports a wide input voltage range from
2.5V to 5.5V and runs at a fixed frequency of 1.1MHz.
The LED current is set via an external resistor and the
feedback voltage is regulated to 200mV / 300mV.
For brightness dimming, the RT4533/A supports PWM
dimming which determines the feedback reference voltage.
Applications
Ordering Information
Cellular Phones
Digital Cameras
Probable Instruments
RT4533/A
Package Type
J6 : TSOT-23-6
Lead Plating System
G : Green (Halogen Free and Pb Free)
Marking Information
Feedback Voltage
RT4533 : 200mV
RT4533A : 300mV
RT4533GJ6
0R= : Product Code
0R=DNN
DNN : Date Code
Note :
Richtek products are :
RT4533AGJ6
1L= : Product Code
1L=DNN
DNN : Date Code
Simplified Application Circuit
RoHS compliant and compatible with the current requirements of IPC/JEDEC J-STD-020.
Suitable for use in SnPb or Pb-free soldering processes.
D
L
VOUT
LX
VIN
VIN
VOUT
RT4533/A
…
Enable
EN
GND
FB
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DS4533/A-02
September 2015
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RT4533/A
Pin Configurations
(TOP VIEW)
VIN VOUT EN
6
5
4
2
3
LX GND FB
TSOT-23-6
Functional Pin Description
Pin No.
Pin Name
Pin Function
1
LX
Switch Node.
2
GND
Ground.
3
FB
Feedback Voltage Input. Put a resistor to GND to setting the current.
4
EN
Enable Control Input (PWM Dimming).
5
VOUT
Output Voltage Pin.
6
VIN
Supply Voltage Input.
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DS4533/A-02
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RT4533/A
Function Block Diagram
LX
VIN
UVLO
VOUT
OCP
Internal
Compensation
Internal
Soft-Start
OVP
OTP
Logic Control,
Minimum On
Time
PWM
CurrentSense
+
+
EA
GM
Driver
GND
+
-
Slope
Compensation
LPF
Enable
Logic
Shutdown
20ms
PWM
Oscillator
Reference
Voltage
VREF
Bias
Current
FB
EN
Operation
The RT4533/A is a constant frequency, current mode
Boost LED driver. In normal operation, the N-MOSFET is
turned on when the PWM Control circuit is set by the
oscillator and is turned off when the current comparator
resets the PWM Control circuit. While the N-MOSFET is
turned off, the inductor current conducts through the
external diode.
OCP
The driver provides cycle-by-cycle current limit function
to control the current on power switch. The boost switch
turns off when the inductor current reaches this current
threshold and it remains off until the beginning of the next
switching cycle. This protects the RT4533/A and external
component under overload conditions.
UVLO
OVP
When the input voltage is lower than the UVLO threshold
(2.37V typ.), the driver will turn off. There is a 80mV for
the UVLO hysteresis control.
The Over Voltage Protection is detected by a resistor
divider circuit from VOUT.
Soft-Start
When the device is enabled, the Comp ramps up to the
target voltage in a specific time. This ensures that the
output voltage rises slowly to reduce the input inrush
current.
EN Dimming
The EN pin is used for the control input for both PWM
dimming mode and digital dimming mode. Shutdown delay
when the EN voltage is logic low for more than specific
time, the driver will be shut down.
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DS4533/A-02
September 2015
Once VOUT goes over the OVP voltage, LX pin stops
switching and the power N-MOSFET will be turned off.
Then, the VOUT will be discharged by external resistor.
OVP will be released until EN goes from Lo to Hi again.
OTP
As the die temperature is higher than 160°C, the chip
also will enter protection mode. The power MOSFET will
be turned off during protection mode to prevent abnormal
operation. The device is released from shutdown
automatically when the junction temperature decreases
by 15°C.
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RT4533/A
Absolute Maximum Ratings
(Note 1)
VIN ---------------------------------------------------------------------------------------------------------------------EN, FB to GND ------------------------------------------------------------------------------------------------------LX to GND ------------------------------------------------------------------------------------------------------------VOUT to GND ---------------------------------------------------------------------------------------------------------Power Dissipation, PD @ TA = 25°C
TSOT-23-6 ------------------------------------------------------------------------------------------------------------Package Thermal Resistance (Note 2)
TSOT-23-6, θJA ------------------------------------------------------------------------------------------------------Junction Temperature ----------------------------------------------------------------------------------------------Lead Temperature (Soldering, 10 sec.) ------------------------------------------------------------------------Storage Temperature Range -------------------------------------------------------------------------------------ESD Susceptibility (Note 3)
HBM (Human Body Model) ---------------------------------------------------------------------------------------MM (Machine Model) -----------------------------------------------------------------------------------------------
Recommended Operating Conditions
−0.3V to 6V
−0.3V to (VIN + 0.3V)
−0.3V to 38V
−0.3V to 40V
0.5W
197.4°C/W
150°C
260°C
−65°C to 150°C
2kV
200V
(Note 4)
Supply Input Voltage, VIN ------------------------------------------------------------------------------------------ 2.5V to 5.5V
Junction Temperature Range -------------------------------------------------------------------------------------- −40°C to 125°C
Ambient Temperature Range -------------------------------------------------------------------------------------- −40°C to 85°C
Electrical Characteristics
(VIN = 3.6V, CIN = 4.7μF, COUT = 1μF, L = 22μH, fSW = 1.1MHz, TA = 25°C, unless otherwise specified)
Parameter
Symbol
Test Conditions
Min
Typ
Max
Unit
VFB = 0V
0.25
0.8
1.5
mA
IC Quiescent Current (non-switching) IQ
VFB = 0.4V
0.25
0.35
0.5
mA
VIN Pin Shutdown Current
ISD
EN = GND
--
0.3
1
A
Under-Voltage Lockout Threshold,
UVLO
VIN Rising Edge
2.25
2.37
2.5
V
Under-Voltage Lockout Hysteresis
UVLO_hys
VIN Falling Edge
--
80
--
mV
Power Supply
IC Operating Current (switching)
IQ_SW
Enable and Reference Control
Logic-High
VIH
1.4
--
--
Logic-Low
VIL
--
--
0.4
EN Pull Low Resistance
REN
--
300
--
k
EN Minimum Shut down Pulse Width
Toff
20
--
--
ms
EN Minimum Logic High Pulse Width
THigh_Min
0.5
--
--
s
EN Minimum logic low pulse width
TLow
1
--
10000
s
Internal Comp Resistance
Rcomp
--
7
--
M
PWM Minimum Duty
Dpwm min
--
3
--
%
PWM Frequency
f PWM
5
--
100
kHz
EN Input Voltage
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V
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DS4533/A-02
September 2015
RT4533/A
Parameter
Symbol
Test Conditions
Min
Typ
Max
196
200
204
294
300
306
Unit
Voltage And Current Control
Feedback Regulation Voltage
RT4533
RT4533A
VFB
mV
Feedback Pin Bias Current
IFB
--
--
0.1
A
Oscillator Frequency
f SW
0.99
1.1
1.21
MHz
Maximum Duty Cycle
DMAX
--
93
--
%
--
0.4
0.7
Power Switch
N-MOSFET On-Resistance
RDS(ON)
VIN = 3.6V
OC and OLP
Peak N-MOSFET Current Limit
ILIM
1.0
1.2
1.4
A
Open LED Protection Threshold
OVP
35
36.5
38
V
Thermal Shutdown Threshold
TSD
--
160
--
°C
Thermal Shutdown Hysteresis
TSD
--
15
--
°C
Thermal Shutdown
Note 1. Stresses beyond those listed “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 may
affect device reliability.
Note 2. θJA is measured at TA = 25°C on a high effective thermal conductivity four-layer test board per JEDEC 51-7.
Note 3. Devices are ESD sensitive. Handling precaution is recommended.
Note 4. The device is not guaranteed to function outside its operating conditions.
Copyright © 2015 Richtek Technology Corporation. All rights reserved.
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RT4533/A
Typical Application Circuit
L
10µH to 22µH
D
VOUT
1
LX
VIN
6
CIN
4.7µF
VOUT
5
COUT
1µF / 50V
RT4533/A
2
…
4
Enable
VIN
EN
10 WLEDs
GND
FB 3
RSET
Timing Diagram
Period1
EN
Period2
5kHz < FPWM < 100kHz
TSHDN > 20ms
on-time1
on-time2
Duty1 x 200mV
Duty1 x 300mV
Duty2 x 200mV
Duty2 x 300mV
FB
Duty1 : on-time1/Period1
Duty2 : on-time2/Period2
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RT4533/A
Typical Operating Characteristics
Efficiency vs. Input Voltage
Efficiency vs. Output Current
100
100
90
90
80
5.5V
4.2V
3.7V
70
60
Efficiency (%)
Efficiency (%)
80
50
40
30
Load = 30mA
Load = 20mA
70
60
50
40
30
20
20
10
10
VOUT = 30V
0
VOUT = 30V
0
0
0.005
0.01
0.015
0.02
0.025
0.03
2.5
3
3.5
Output Current (A)
4.5
5
5.5
Input Voltage (V)
ILED vs. Duty
Operating Quiescent Current vs. Input Voltage
1.20
35
1.10
30
25
1.00
I LED (mA)
Quiescent Current (mA)
4
0.90
20
15
0.80
10
0.70
5
Switching Quiescent Current
RT4533A PWM Frequency = 10kHz
0.60
0
2.5
2.8
3.1
3.4
3.7
4
4.3
4.6
4.9
5.2
5.5
0
10
20
30
Input Voltage (V)
40
50
60
70
80
90
100
Duty (%)
Oscillator Frequency vs. Temperature
Reference Voltage vs. Output Current
200.5
1.25
Reference Voltage (mV)
Oscillator Frequency (MHz)1
3.7V
1.20
1.15
1.10
1.05
200.4
200.3
200.2
4.2V
200.1
200
199.9
RT4533
1.00
199.8
-50
-25
0
25
50
75
100
Temperature (°C)
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125
0
3
6
9
12
15
18
21
24
27
30
Output Current (mA)
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RT4533/A
Application Information
Soft-Start
The RT4533/A includes a soft-start function to avoid high
inrush current during start-up. The soft-start function is
achieved by clamping the output voltage of the error
amplifier with another voltage source that is increased
slowly from zero to near VIN.
analog dimming. This eliminates the audible noise which
often occurs when the LED current is pulsed in replica of
the frequency and duty cycle of PWM control. For optimum
performance, use the PWM dimming frequency in the
range of 5kHz to 100kHz, and the PWM dimming frequency
is strongly suggested to be over than 20kHz to avoid audio
noise.
LED Current
The loop control of the Boost converter keeps VFB equal
to a reference voltage, VREF. Therefore, when RSET is
connected between the FB pin and GND, the LED current
will be determined by the current through RSET, which is
equal to VFB / RSET.
Current Limit
The current flowing through the inductor during a charging
period is detected by a current sensing circuit. If the value
exceeds the current limit, the N-MOSFET will be turned
off. The inductor will then be forced to leave charging stage
and enter discharging stage. Therefore, the inductor current
will not increase to reach current limit.
Inductor Selection
The recommended value of inductor for 10 LEDs or high
brightness LED applications is 10μH to 22μH. Smaller
size and better efficiency are the major concerns for
portable devices. The inductor should have low core loss
at 1MHz and low DCR for better efficiency. The inductor
saturation current rating should be considered to cover
the inductor peak current. Table 1 lists the recommended
inductor for the RT4533/A.
Table 1
Part Number
DCR
Saturation Size (L x
L
Vendor
MAX
(H)
Current (A) W x H mm)
(m)
NR4018T100M 10
216
1.2
4 x 4 x 1.8 TAIYO
NR4018T220M 22
432
0.8
4 x 4 x 1.8 TAIYO
Shutdown Delay
When the EN voltage is in logic low for 20ms during PWM
dimming, the system will enter shutdown.
Capacitor Selection
PWM Dimming
When the EN pin is constantly high, the FB voltage is
regulated to 200mV / 300mV typically. The RT4533/A
allows a PWM signal from EN pin to reduce the regulation
voltage; and achieve LED brightness dimming. The
relationship between the duty cycle and FB voltage is
given by
VFB = Duty VREF
Where
Duty = duty cycle of the PWM signal VREF = internal
reference voltage (200mV / 300mV typ.)
The RT4533/A choose the internal 200mV reference voltage
via the duty cycle of the PWM signal. Therefore, although
a PWM signal is used for brightness dimming, only the
LED DC current is modulated, which is often referred as
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For low ripple voltage, ceramic capacitors with low ESR
are recommended. X5R and X7R types are suitable
because of their wide voltage range and good operating
temperature characteristics. For the application of the
RT4533/A to drive 10 LEDs in series, a 4.7μF for input
capacitor, an 1μF / 50V for output capacitor.
Thermal Considerations
For continuous operation, do not exceed absolute
maximum operation junction temperature. The maximum
power dissipation depends on the thermal resistance of
IC package, PCB layout, the rate of surroundings airflow
and temperature difference between junction to ambient.
The maximum power dissipation can be calculated by
following formula :
PD(MAX) = ( TJ(MAX) − TA ) / θJA
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RT4533/A
Where T J(MAX) is the maximum operation junction
temperature, TA is the ambient temperature and the θJA is
the junction to ambient thermal resistance.
Layout Consideration
For recommended operating condition specifications, the
maximum junction temperature is 125°C. The junction to
ambient thermal resistance, θJA, is layout dependent. For
TSOT-23-6 package, the thermal resistance, θJA, is
197.4°C/W on the standard JEDEC 51-7 four-layer thermal
test board. The maximum power dissipation at TA = 25°C
can be calculated by following formula :
Input and Output capacitors should be placed close to
the IC and connected to ground plane to reduce noise
coupling.
The GND and Exposed Pad should be connected to a
strong ground plane for heat sinking and noise protection.
Keep the main current traces as possible as short and
wide.
LX node of DC/DC converter is with high frequency
voltage swing. It should be kept at a small area.
Place the feedback components as close as possible
to the IC and keep away from the noisy devices.
PD(MAX) = (125°C − 25°C) / (197.4°C/W) = 0.5W for
TSOT-23-6 package
The maximum power dissipation depends on operating
ambient temperature for fixed T J(MAX) and thermal
resistance θJA. The derating curve in Figure 1 of derating
curves allows the designer to see the effect of rising
ambient temperature on the maximum power allowed.
Maximum Power Dissipation (W)1
0.6
For best performance of the RT4533/A, the following guide
lines must be strictly followed.
Four-Layer PCB
0.5
0.4
0.3
0.2
0.1
0.0
0
25
50
75
100
125
Ambient Temperature (°C)
Figure 1. Derating Curve of Maximum Power Dissipation
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RT4533/A
The inductor should be placed as close as
possible to the switch pin to minimize the
noise coupling into other circuits.
LX node copper area should be minimized
for reducing EMI.
GND
The COUT should be connected
directly from the output schottky
diode to ground rather than
across the WLEDs
COUT
VIN
CIN should be placed
as closed as possible
to VIN pin for good
filtering.
D
L
LX
1
6
VIN
GND
2
5
VOUT
3
4
EN
CIN
RSET
FB
FB node copper area should be
minimized and keep far away
from noise sources (LX pin) and
RS should be as close as
possible to FB pin.
WLEDs
It recommended to add 100 Ohm
between IC's VOUT and WLED's
anode for improving system ESD
level.
Figure 2. PCB Layout Guide
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RT4533/A
Outline Dimension
H
D
L
C
B
b
A
A1
e
Symbol
Dimensions In Millimeters
Dimensions In Inches
Min
Max
Min
Max
A
0.700
1.000
0.028
0.039
A1
0.000
0.100
0.000
0.004
B
1.397
1.803
0.055
0.071
b
0.300
0.559
0.012
0.022
C
2.591
3.000
0.102
0.118
D
2.692
3.099
0.106
0.122
e
0.838
1.041
0.033
0.041
H
0.080
0.254
0.003
0.010
L
0.300
0.610
0.012
0.024
TSOT-23-6 Surface Mount Package
Richtek Technology Corporation
14F, No. 8, Tai Yuen 1st Street, Chupei City
Hsinchu, Taiwan, R.O.C.
Tel: (8863)5526789
Richtek products are sold by description only. Richtek reserves the right to change the circuitry and/or specifications without notice at any time. Customers should
obtain the latest relevant information and data sheets before placing orders and should verify that such information is current and complete. Richtek cannot
assume responsibility for use of any circuitry other than circuitry entirely embodied in a Richtek product. Information furnished by Richtek is believed to be
accurate and reliable. However, no responsibility is assumed by Richtek or its subsidiaries for its use; nor for any infringements of patents or other rights of third
parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Richtek or its subsidiaries.
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