EXAR SP7612EC6-L

SP7612 SP7614
Low Dropout Linear LED Driver
N/C
FEATURES
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3
LED Drivers for parallel connected LEDs
No EMI, no switching noise
Integrated current matching
PWM and Analog brightness control
Enable/Shutdown control
Shutdown current < 0.01µA
Tiny, RoHS Compliant Lead-Free
Packages: SC-70
Part #
Channels
Maximum Steady
State Current per LED
SP7612
3
40mA
SP7614
2
80mA
VLED1
CTRL
2
1
SP7614A
SP7614
6 Pin SC70
4
5
6
GND
VLED2
ON/OFF
Pin outs for SP7611A and SP7612A on page 3
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APPLICATIONS
Ultra low cost Handsets
PDA, DSC, MP3 players
Handheld Computers
LCD Display Modules
Keyboard Backlight
LCD Backlight
DESCRIPTION
The SP7612/4 provides a simple solution for a matched current source for any color LED. The current in the
LEDs can be programmed by an external resistor. The SP7612 is capable of driving three LEDs, while the
SP7614 can drive two LEDs. LED1 should always be connected to an LED and never left open in order to
have the other LEDs driven with a matched current to LED1. The SP7612 and SP7614 feature Enable pins
for flexible on/off control and PWM dimming. SP7612/4 has extremely low (0.01uA typical) shutdown current,
prolonging the battery life and giving the longest standby period possible in today's modern design. It is
available in a small footprint 6-pin SC-70 package.
TYPICAL APPLICATION SCHEMATIC
SP7612 Typical application
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
ABSOLUTE MAXIMUM RATINGS
These are stress ratings only and functional operation of the device at these ratings or any other above those indicated in the operation
sections of the specifications below is not implied. Exposure to absolute maximum rating conditions for extended periods of time may affect
reliability.
VLED1, VLED2, VLED3, VLED4 and ENABLE Voltage to GND............................................................................... -0.3V to 6V
CTRL Voltage to GND . ..................................................................................................................................... .-0.5V
Output Current (IOUT) (SP7612)……………....................................................................................................... 40mA
Output Current (IOUT) (SP7614)…..................................................................................................................... 80mA
Power Dissipation per Package - 6-pin SC-70 at TA =85°C.............................................................................. 190mW
Junction Temperature ...................................................................................................................................... +150°C
Storage Temperature.......................................................................................................................... -55°C to +150°C
ESD Level........................................................................................................................................................................................................ 4kV HBM
ESD Level........................................................................................................................................................................................................ 1kV CDM
ELECTRICAL SPECIFICATIONS
Specifications are at TA=25°C, VIN = 3.3 to 5.5, ENABLE =VIN, ♦ denotes the specifications which apply over the
full operating temperature range, unless otherwise specified.
PARAMETER
PART #
MIN
TYP
LED Cathode Voltage
(VLED)
Ambient Temperature
Output Current
Multiplication Ratio in
Linear Region (Note1)
Output Current
Multiplication Ratio in
Saturation (Note1)
LED to LED Current
Matching
Current in OFF Mode
Min. ENABLE ""ON
Voltage" (Note 2)
Max. ENABLE ""OFF
Voltage" (Note 2)
-40
MAX
UNITS
5.5
V
85
ºC
♦
CONDITIONS
See graph for LED
Current vs. Cathode
Voltage
ISET = 100µA
VLED = 300mV
ISET = 100µA
VLED = 150mV
SP7612
140
200
260
SP7612
365
435
505
SP7614
730
870
1010
-3
0.8
3
%
♦
0.01
1
µA
♦
ISET = 100µA
VLED = 300mV
VENABLE = 0.0V
V
♦
ISET = 150µA
V
♦
SP7614
3
0.5
ISET = 25µA
VLED = 0.5V
Note 1: Output current Multiplication Ratio (ILED/ISET) is not linear. For actual ratio and ILED please refer to typical
performance characteristics on pages 4 through 7.
Note 2: ENABLE "ON" is VON/OFF where ILED1 > 20mA @ VLED1 = 0.3V.
ENABLE "OFF" is V where I < 1μA @ V > 0.3V.
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
PIN DESCRIPTION
SC70 Package
Pin #
1
2
3
4
5
6
Pin Name
SP7612
CTRL
LED2
LED1
GND
LED3
ENABLE
SP7614
CTRL
LED1
NC
GND
LED2
ENABLE
DESCRIPTION
Sets L E D Current
Connect to Cathode of L E D
Connect to Cathode of L E D
Ground
Connect to Cathode of L E D
Chip ON/ OFF Disable
PINOUTS
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
SP7612 TYPICAL PERFORMANCE CHARACTERISTICS
LED current vs Rset for LED voltage (Vcathode)
Vcontrol set to 3V
LED current vs Cathode voltage (VLED)
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
SP7612 TYPICAL PERFORMANCE CHARACTERISTICS
Iset vs Control pin voltage
LED current vs Enable voltage
Iset at .5V VLED(cathode voltage)
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
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© 2008 EXAR Corporation
SP7612 SP7614
SP7614 TYPICAL PERFORMANCE CHARACTERISTICS
Iset vs Control pin voltage
LED current vs Cathode voltage (VLED)
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
LED current vs Enable voltage
Iset at .5V VLED(cathode voltage)
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
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© 2008 EXAR Corporation
SP7612 SP7614
APPLICATION INFORMATION
necessary.
Setting the LED Current
The LED current is controlled by ICONTROL and
RSET according to the following formula:
ILED = Gain X (VCONTROL - VCTRL) / RSET
Gain depends on mode of operation
VCONTROL is the voltage going into RSET
VCTRL is the voltage at the pin of the device
The voltage VCTRL can be determined using the
ISET vs Control voltage graph located in the typical
performance characteristics section. As an
example, to set the LED current for an SP761x the
procedure is:
Take the LED current and divide it by the Gain to
get ISET = ILED / Gain.
Look up the VCTRL pin voltage using ISET on the
graph “Ctrl Current vs. Control Voltage”.
Once VCTRL is known, use the following formula to
find RSET. The gain is not linear, the LED current
vs. Cathode voltage graph needs to be used to
determine gain. Typically, the gain is ~870 for
SP7614 and ~435 for SP7612 when the part is
operating in the linear region.
RSET = (VCONTROL - VCTRL) / ISET
RSET Example
For an SP7614 with VCONTROL of 3V and LED
current of 20mA.
ISET = 20mA/870 (870 is the typical gain in linear
operation) = 22uA.
Using the graph on page 5 in the typical
performance section, the VCTRL voltage on the
control pin will be about 1.1V, then RSET will be
determined by:
RSET = (3V - 1.1V) / 22uA
RSET = 86KΩ
PWM FUNCTION
The LED's brightness can also be
adjusted by driving either the ENABLE or the
CTRL pin with a PWM signal. The driving signal
frequency should be greater than 100Hz to avoid
flickering, increasing to more than 1MHz, if
Jan 09 -08 RevT
Temperature Considerations
LEDs are very sensitive to temperature. In most
cases the maximum allowed junction temperature
is 100ºC. The case of overtemperature due to
power dissipation is de-scribed by the following:
TJ = TA + ӨJA x I x VF
where TJ is the LED junction temperature,
TA is the ambient temperature,
ӨJA is the junction to ambient thermal resistance,
I is the LED current and
VF is the LED forward voltage.
When the temperature rises and the cathode
voltage increases, SP7612/4 reduces the current
through LEDs. Refer to "LED Current vs. LED
Cathode Voltage" graph under the Typical
Performance Characteristics section.
Efficiency
The system efficiency, defined as the ratio
between the LED's power and the input supplied
power can be calculated as follows:
Efficiency = (VIN - VCATHODE) / VIN
The lower the VCATHODE , the higher the system
efficiency. Efficiency can be further improved
using a higher VIN with more LEDs as shown in
example 3. The SP7612/4 driver's low dropout
architecture can significantly improve the
efficiency compared to using simple ballast
resistors.
Application Information
The ultra-low voltage drop across the SP7612/4
series of LED drivers allows the devices to drive
white, blue, and other color LEDs in a wide range
of input voltages. The driver can be used in many
applications. Any of the SP7612/4 series of LED
drivers can be used in the applications presented
in this document, due to their similar operation.
Example 1:
Drive low VF white or blue LEDs directly from
single cell Li-Ion
SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
When using white or blue low VF LEDs, and
utilizing the driver's low voltage drop, only 3.4V VIN
is needed for the full 20mA LED current. At 3.1V,
there is still 5mA of typical current available for the
LEDs.
The single cell Li-Ion battery is utilized in many
applications like cell phones or digital still
cameras. In most cases, the Li-Ion battery voltage
level only goes down to 3.0V, and not down to the
full discharge level (2.7V) before requesting the
charger.
VDROP < 0.3V. This is the dropout voltage for the
SP7611A.
- VF = 3.1V. Low VF white LED forward voltage
drop
- VIN (at 20mA) needs to be greater than
(VDROP+VF)
3.1V+.3V= 3.4V
Key Advantages
1) No boost circuit needed for the LCD or
keyboard backlight.
2) Drivers utilize existing bus.
3) Ultra-low voltage drop provides the full 20mA
LED current at the lowest possible voltage level.
LED Brightness Control
The SP7612/4 LED Drivers feature analog and
PWM controls to give designers flexible
brightness control. To determine the value of
RSET , use the "ISET vs. VCRTL" graph under
the Typical Performance Characteristics.
1. SP7612/4
- Analog using VCONTROL
Set VCONTROL and RSET for LED current
SETTING THE LED CURRENT – page 8
Key Advantages
1) No boost circuit needed for the LCD or
keyboard backlight.
2) Drivers directly connected to a Li-Ion battery.
3) No EMI, no switching noise, no boost converter
efficiency loss, 1 capacitor, and no inductor.
Example 2:
Drive high VF white or blue LEDs from existing
bus ~ 4.0V to 5.5V
High VF LEDs have a forward voltage drop in the
range of 3.2V to 4.0V. In order to drive these LEDs
with the maximum current of 20mA, enabling
maximum brightness usually requires a boost
circuit for a single cell Li-Ion power supply. The
SP761X series is capable of driving high VF white
or blue LEDs with its ultra-low dropout feature.
The VIN needs to be only 300mV higher than the
highest VF in the circuit.
- PWM - Vcontrol
-Amplitude of PWM signal sets maximum LED
current
-Pulse width controls current between 0 and
maximum LED Set current
-
PWM using Enable
- Set VCONTROL and RSET for LED current
SETTING THE LED CURRENT – page 6
ENABLE = PWM
-Amplitude has no effect on current
-Pulse width controls current between 0 and
maximum LED set current
- VDROP < 0.3V. Dropout voltage of the SP7611A
- VF (at 20mA) < 3.3V to 4.0V (High VF)
- VIN (at 20mA) = VDROP + VF = 3.6V to 4.3V
- VIN (at 5mA typical) ~ 3.3V
Where VIN = Existing bus = 3.3V to 4.3V
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
BLOCK DIAGRAMS
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
PACKAGE: 6 PIN SC-70
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation
SP7612 SP7614
ORDERING INFORMATION
Part Number
SP7612EC6-L
SP7612EC6-L/TR
SP7614EC6-L
SP7614EC6-L/TR
Temperature
Range
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
-40°C to +85°C
Package
RoHS
Pack Type
Pack
Quantity
Status
6 Pin SC70
6 Pin SC70
6 Pin SC70
6 Pin SC70
Yes
Yes
Yes
Yes
Canister
Tape & Reel
Canister
Tape & Reel
Any
3000
Any
3000
Active
Active
Active
Active
/TR = Tape and Reel
Pack quantity is 2500 for SC70
For further assistance:
Email:
EXAR Technical Documentation:
[email protected]
http://www.exar.com/TechDoc/default.aspx?
Exar Corporation
Headquarters and
Sales Office
48720 Kato Road
Fremont, CA 94538
main: 510-668-7000
fax: 510-668-7030
EXAR Corporation reserves the right to make changes to the products contained in this
publication in order to improve design, performance or reliability. EXAR Corporation assumes
no responsibility for the use of any circuits described herein, conveys no license under any
patent or other right, and makes no representation that the circuits are free of patent
infringement. Charts and schedules contained here in are only for illustration purposes and may
vary depending upon a user’s specific application. While the information in this publication has
been carefully checked; no responsibility, however, is assumed for inaccuracies.
EXAR Corporation does not recommend the use of any of its products in life support
applications where the failure or malfunction of the product can reasonably be expected to
cause failure of the life support system or to significantly affect its safety or effectiveness.
Products are not authorized for use in such applications unless EXAR Corporation receives, in
writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized;
(b) the user assumes all such risks; (c) potential liability of EXAR Corporation is adequately
protected under the circumstances.
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SP7612/7614 Low Dropout Linear LED driver
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© 2008 EXAR Corporation