TS19371CX6
Taiwan Semiconductor
Boost (Step-up) WLED Driver with OVP
DESCRIPTION
The
TS19371
is
FEATURES
a
step-up
DC/DC
● Inherently Matched LED Current
converter
specifically designed to drive white LEDs with a
● High Efficiency: 89% Typical
constant current. The device can drive up to 126 LEDs
● Drives Up to 9 LEDs Series @ Vin 9~15V
(9S14P) from a 12V supply. The output capacitor can
● Drives Up to 126 LEDs (9S14P) @ Vin 12~15V
be as small as 4.7µF, saving space versus alternative
● Drives Up to 6 (1W) LEDs Series @ Vin 12V
solutions. A low 95mV feedback voltage minimizes
● Over Output Voltage Protection 30V
power loss for better efficiency. Additional feature
● Fast 1.2MHz Switching Frequency
include over output voltage limiting when LEDs are
● Requires Only 4.7µF Output Capacitor
disconnected. The TS19371 switches at a fixed
● PWM Dimming Control 1kHz to 10kHz
● Analog Dimming Control
● Compliant to RoHS Directive 2011/65/EU and in
accordance to WEEE 2002/96/EC.
● Halogen-Free according to IEC 61249-2-21
frequency of 1.2MHz, allowing the use of tiny, low
profile inductors and capacitors to minimize footprint
and cost in space consideration applications for
cellular
phone backlighting or
other
hand held
equipment.
APPLICATION
● Cellular Phones
● Portable Electronics Devices PDA, GPS
● LCD Display Module
● White LED Backlighting
● MR-16 Lighting
SOT-26
Pin Definition:
1. SW
2. GND
3. FB
4. CTRL
5. OVP
6. VIN
Notes: MSL 1 (Moisture Sensitivity Level) per J-STD-020
TYPICAL APPLICATION CIRCUIT
1
Version: J1708
TS19371CX6
Taiwan Semiconductor
ABSOLUTE MAXIMUM RATINGS (TA = 25°C unless otherwise specified) (Note 1)
PARAMETER
SYMBOL
LIMIT
UNIT
Input Voltage
VIN
20
V
Supply Voltage (Recommended)
VIN
2.5 ~ 18
V
FB Voltage
VFB
10
V
SW Voltage
VSW
36
V
VCTRL
10
V
Ambient Temperature Range
TA
-40 to +85
°C
Junction Temperature Range
TJ
-40 to +125
°C
SYMBOL
LIMIT
UNIT
Thermal Resistance Junction to Case
RθJC
106
°C/W
Thermal Resistance Junction to Ambient
RθJA
220
°C/W
CTRL Voltage
THERMAL PERFORMANCE
(Note 3)
PARAMETER
ELECTRICAL SPECIFICATIONS (TA = 25°C unless otherwise specified)
PARAMETER
SYMBOL
Input Voltage Range
VIN
Feedback Voltage
VFB
FB Pin Bias Current
IB
Supply Current
IQ
CONDITION
ISW =180mA, VIN=5V
CTRL=0V
MIN
TYP
MAX
UNIT
2.5
--
18
V
80
95
110
mV
10
45
100
nA
--
2.1
3.0
mA
--
0.1
1.0
μA
Switching Frequency
FRSW
0.8
1.2
1.6
MHz
Switch Current Limit
ICL
--
650
--
mA
Maximum Duty Cycle
DTMX
85
90
--
%
Switch VCESAT
VSAT
At ISW = 250mA
--
350
--
mV
Switch Leakage Current
ILKG
VSW =5V
--
0.01
5
μA
Voltage Enable Control
VCTL
High
1.5
--
--
V
Low
--
--
0.4
V
CTRL Pin Bias Current
ICTL
CTRL=2V
--
65
--
μA
Over Voltage Protection
OVP
--
30
--
V
Note:
1. Absolute maximum ratings are limits beyond which damage to the device may occur.
2. The maximum allowable power dissipation is a function of maximum function temperature, T J(max), the junction to ambient
thermal resistance, RθJA, and the ambient temperature. The maximum allowable, power dissipation at any ambient
temperature is calculated using: PD(MAX)=[TJ(max)-TA]/RθJA. Exceeding the maximum allowable power dissipation will
cause excessive die temperature. All limits at temperature extremes are guaranteed via correlation using standard
statistical methods
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Version: J1708
TS19371CX6
Taiwan Semiconductor
ORDERING INFORMATION
PART NO.
PACKAGE
PACKING
TS19371CX6 RFG
SOT-26
3,000pcs / 7”Reel
FUNCTION BLOCK
PIN DESCRIPTION
PIN NO.
NAME
1
SW
2
Ground
3
FB
4
CTRL
5
OVP
6
VIN
FUNCTION
Switching Pin. This is the collector of the internal NPN power switch.
Connect to inductor and diode. Minimize the metal trace area connected to
this pin to reduce EMI.
Ground Pin. Connect directly to local ground plane.
Feedback Pin. Reference voltage is 95mV. Connect LEDs and a resistor at
this pin. LED current is determined by the resistance and CTRL voltage.
Shutdown Pin and Dimming Control Pin.
VCTRL > 1.8V generates full-scale LED current.
VCTRL < 0.4V chip is off.
Switching from 04V to 2.0V, PWM duty cycle controls the LED current.
Over Voltage Protection, 30V.
Input Supply Pin. Bypass this pin with a capacitor as close to the device as
possible.
3
Version: J1708
TS19371CX6
Taiwan Semiconductor
APPLICATION INFORMATION
Operation
The TS19371 uses a constant frequency, current mode control scheme to provide excellent line and load
regulation. Operation can be best understood by referring to the block diagram. At the start of each oscillator cycle,
the RS latch is set, which turns on the power switch Q1. A voltage proportional to the switch current is added to a
stabilizing ramp and the resulting sum is fed into the positive terminal of the PWM comparator A2. When this
voltage exceeds the level at the negative input of A2, the RS latch is reset turning off the power switch. The level at
the negative input of A2 is set by the error amplifier A1, and is simply an amplified version of the difference
between the feedback voltage and the reference voltage of 95mV. In this manner, the error amplifier sets the
correct peak current level to keep the output in regulation. If the error amplifier’s output increases, more current is
delivered to the output; if it decreases, less current is delivered.
Soft Start and Current Limit
The internal soft start circuit minimizes the inrush current during turning on TS19371. The Typical switch current is
limited to about 650mA by the chip.
Over Voltage Protection
The TS19371 has design an internal latched off open-circuit protection circuit, the additional sense pin to detect the
voltage when the LEDs are disconnected from the circuit or fail open, the TS19371 will shutdown until input
condition changes to bring it out of the shutdown mode.
Inductor Selection
A 10μH inductor is recommended for most TS19371 applications. Although small size and high efficiency are major
concerns, the inductor should have low core losses at 1.2MHz and low DCR (copper wire resistance).
Diode Selection
Schottky diodes, with their low forward voltage drop and fast reverse recovery, are the ideal choices for TS19371
applications. The forward voltage drop of a Schottky diode represents the conduction losses in the diode while the
diode capacitance (CT or CD) represents the switching losses. For diode selection, both forward voltage drop and
diode capacitance need to be considered. Schottky diodes with higher current ratings usually have lower forward
voltage drop and larger diode capacitance, which can cause significant switching losses at the 1.2MHz switching
frequency of the TS19371. A Schottky diode rated at 1000mA is sufficient for most TS19371 applications.
Capacitor Selection
The small size of ceramic capacitors makes them ideal for TS19371 applications. X5R and X7R types are
recommended because they retain their capacitance over wider voltage and temperature ranges than other types
such as Y5V or Z5U. A 4.7µF input capacitor and a 4.7µF output capacitor are sufficient for most TS19371
applications.
LED Current Control
The LED current is controlled by the feedback resistor (R1). The feedback reference is 95mV. The LED current is
95mV/R1. The formula and table 3 for R1 selection are shown below. R1=95mV/I LED
ILED (mA)
R1(Ω)
5
19.1
10
9.53
12
7.87
15
6.34
20
4.75
4
Version: J1708
TS19371CX6
Taiwan Semiconductor
APPLICATION INFORMATION (CONTINUE)
Typical Application Circuit
Reference Design Information
VIN Range
(V)
5
9
12
15
VLED
(V)
19.8
29.7
29.7
29.7
L (μH)
22
33
47
68
LED
(Series)
6pcs
9pcs
9pcs
9pcs
LED
(Parallel)
14
14
14
14
Current
(Series/mA)
20
20
20
20
Resistor
(Ω)
4.75
4.75
4.75
4.75
Efficiency
(%)
81.2
83.6
87.2
88.4
Typical Application Circuit for 1W x 6pcs LEDs
Reference Design Information
VIN Range
(V)
12~15
VLED.
(V)
19.8
L (μH)
68
1W LED
(Series)
6pcs
Current
(mA)
350
5
Resistor
(Ω)
0.22
Efficiency
(%)
88
Version: J1708
TS19371CX6
Taiwan Semiconductor
APPLICATION INFORMATION (CONTINUE)
LED Dimming Control
There are some different types of dimming control circuits:
1. Using a PWM Signal to CTRL Pin
With the PWM signal applied to the CTRL pin, the TS19371 is turned on or off by the PWM signal. The LEDs
operate at either zero or full current. The average LED current increases proportionally with the duty cycle of the
PWM signal. A 0% duty cycle will turn off the TS19371 and corresponds to zero LED current. A 100% duty cycle
corresponds to full current. The typical frequency range of the PWM signal is 1kHz to 10kHz.
The magnitude of the PWM signal should be higher than the minimum VCTRL high.
For some applications, the preferred method of brightness control is a variable DC voltage to adjust the LED
current. The dimming control using a DC voltage is shown in below figure. As the DC voltage increases, the voltage
drop on R2 increases and the voltage drop on R1 decreases. Thus, the LED current decreases. The selection of
R2 and R3 will make the current from the variable DC source much smaller than the LED current and much larger
than the FB pin bias current. For VDC range from 0V to 2V, the selection of resistors in Figure 4 gives dimming
control of LED current from 0mA to 20mA.
VDC(V)
2
1.8
1.6
1.4
1.2
1
0.8
0.6
0.4
0.2
0
Dimming Control using a DC Voltage
VFB
0
2.2
9.2
19.6
31.1
43.4
63
74
86.4
96.9
102
IOUT(mA)
0
0.43
1.8
3.6
6
8.5
12.3
14.5
16.9
19
20
2. Using a Filtered PWM Signal
The filtered PWM signal can be considered as an adjustable DC voltage. It can be used to replace the variable DC
voltage source in dimming control. The circuit is shown as follow:
Duty
IOUT ( mA)
0%
20
20%
17.4
30%
15
40%
12.4
50%
10
60%
8
70%
6.4
80%
4.07
100%
0
PWM : 2V ; 1kHz ; Vin=3.6V
Dimming Control using a Filtered PWM Signal
3. Using Control pin for dimming
The PWM signal can be considered as TTL signal to control pin to change the power on/off time.
6
Version: J1708
TS19371CX6
Taiwan Semiconductor
PACKAGE OUTLINE DIMENSIONS (Unit: Millimeters)
SOT-26
SUGGESTED PAD LAYOUT (Unit: Millimeters)
MARKING DIAGRAM
71 = Device Code
Y = Year Code
M = Month Code for Halogen Free Product
O =Jan P =Feb Q =Mar R =Apr
S =May T =Jun U =Jul
V =Aug
W =Sep X =Oct
Y =Nov Z =Dec
L = Lot Code
7
Version: J1708
TS19371CX6
Taiwan Semiconductor
Notice
Specifications of the products displayed herein are subject to change without notice. TSC or anyone on its behalf,
assumes no responsibility or liability for any errors or inaccuracies.
Information contained herein is intended to provide a product description only. No license, express or implied, to
any intellectual property rights is granted by this document. Except as provided in TSC’s terms and conditions of
sale for such products, TSC assumes no liability whatsoever, and disclaims any express or implied warranty,
relating to sale and/or use of TSC products including liability or warranties relating to fitness for a particular
purpose, merchantability, or infringement of any patent, copyright, or other intellectual property right.
The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications.
Customers using or selling these products for use in such applications do so at their own risk and agree to fully
indemnify TSC for any damages resulting from such improper use or sale.
8
Version: J1708
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