MICREL MIC2843AYMT

MIC2843A
High Efficiency 6 Channel Linear WLED
Driver with DAM™ and Ultra Fast
PWM™ Control
General Description
Features
The MIC2843A is a high efficiency linear White LED
• High Efficiency (no Voltage Boost losses)
(WLED) driver designed to drive up to six WLEDs, greatly
• Dynamic Average Matching (DAM™)
extending battery life for portable display backlighting
• Ultra Fast PWM™ control (200Hz to 500kHz)
keypad backlighting, and camera flash in mobile devices.
• Input voltage range: 3.0V to 5.5V
The MIC2843A provides the highest possible efficiency as
• Dropout of 40mV at 20mA
this architecture has no switching losses present in
traditional charge pumps or inductive boost circuits. The
• Matching better than ±1.5% (typical)
MIC2843A provides six linear drivers which maintain
• Current Accuracy better than ±1.5% (typical)
constant current for up to six WLEDs. It features a typical
• Maintains proper regulation regardless of how many
dropout of 40mV at 20mA. This allows the WLEDs to be
channels are utilized
driven directly from the battery eliminating switching
• Available in a 10-pin 2mm x 2mm Thin MLF® package
noise/losses present with the use of boost circuitry.
The MIC2843A features Dynamic Average Matching™
Applications
(DAM™) which is specifically designed to provide optimum
matching across all WLEDs. The six channels are
• Mobile handsets
matched better than ±1.5% typical, ensuring uniform
• LCD Handset backlighting
display illumination under all conditions. The brightness is
• Handset keypad backlighting
controlled through an Ultra Fast PWM™ interface
operating down to less than 1% duty cycle.
• Digital cameras
The MIC2843A is available in the 10-pin 2mm x 2mm Thin
• Portable media/MP3 players
MLF® leadless package with a junction temperature range
• Portable navigation devices (GPS)
of -40°C to +125°C.
• Portable applications
Datasheets and support documentation can be found on
Micrel’s web site at: www.micrel.com.
____________________________________________________________________________________________________________
Typical Application
U1 MIC2843AYMT
U1 MIC2843AYMT
VIN
VIN
C1
Low
Dropout
Linear
Driver
RSET
END
PWM
Control
C1
VIN
LCD Display Backlight with Six WLEDs
Low
Dropout
Linear
Driver
RSET
END
PWM
Control
High Current Flash Driver
Ultra Fast PWM, DAM and Dynamic Average Matching are trademark of Micrel, Inc.
MLF and MicroLeadFrame are registered trademark Amkor Technology Inc.
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1 (408) 944-0800 • fax + 1 (408) 474-1000 • http://www.micrel.com
June 2009
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MIC2843A
Ordering Information
Part Number
Mark Code(1)
Temperature Range
Package(2)
S3Y
–40°C to +125°C
10-Pin 2mm x 2mm Thin MLF®
MIC2843AYMT
Note:
®
1. Thin MLF ▲ = Pin 1 identifier.
®
2. Thin MLF is a GREEN RoHS compliant package. Lead finish is NiPdAu. Mold compound is halogen free.
Pin Configuration
VIN
1
10 D1
END
2
9
D2
RSET
3
8
D3
GND
4
7
D4
D6
5
6
D5
10-Pin 2mm x 2mm Thin MLF® (MT)
(Top View)
Pin Description
Pin Number
Pin Name
1
VIN
Voltage Input. Connect at least 1µF ceramic capacitor between VIN and GND.
2
END
Enable LED drivers. This pin can be used as a PWM input for dimming of WLEDs. Do not leave
floating.
3
RSET
An internal 1.27V reference sets the nominal maximum WLED current. Example, apply a 20.5kΩ
resistor between RSET and GND to set LED current to 20mA at 100% duty cycle.
4
GND
Ground.
5
D6
LED6 driver. Connect LED anode to VIN and cathode to this pin.
6
D5
LED5 driver. Connect LED anode to VIN and cathode to this pin.
7
D4
LED4 driver. Connect LED anode to VIN and cathode to this pin.
8
D3
LED3 driver. Connect LED anode to VIN and cathode to this pin.
9
D2
LED2 driver. Connect LED anode to VIN and cathode to this pin.
10
D1
EPAD
HS PAD
June 2009
Pin Function
LED1 driver. Connect LED anode to VIN and cathode to this pin.
Heat sink pad. Not internally connected. Connect to ground.
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MIC2843A
Absolute Maximum Ratings(1)
Operating Ratings(2)
Main Input Voltage (VIN) .................................. –0.3V to +6V
Enable Input Voltage (VEND) ............................ –0.3V to +6V
LED Driver Voltage (VD1-D6) ............................ –0.3V to +6V
Power Dissipation .....................................Internally Limited
Lead Temperature (soldering, 10sec.)....................... 260°C
Storage Temperature (Ts) .........................–65°C to +150°C
ESD Rating(3) ................................................. ESD Sensitive
Supply Voltage (VIN)..................................... +3.0V to +5.5V
Enable Input Voltage (VEND) .................................. 0V to VIN
LED Driver Voltage (VD1-D6) ................................... 0V to VIN
Junction Temperature (TJ) ........................ –40°C to +125°C
Junction Thermal Resistance
2mm x 2mm Thin MLF-10L (θJA) .......................90°C/W
Electrical Characteristics
VIN = VEND = 3.8V, RSET = 20.5kΩ; VD1-D6 = 0.6V; TJ = 25°C, bold values indicate –40°C ≤ TJ ≤ 125°C; unless noted.
Parameter
Conditions
Min
(4)
Current Accuracy
Typ
Max
1.5
(5)
Matching
Units
%
1.5
3.6
%
40
80
mV
IOUT = 20mA
1.4
1.8
mA
VEND = 0V
0.01
1
µA
0.2
V
Drop-out
Where ILED = 90% of LED current seen at
VDROPNOM = 0.6V, 100% brightness level
Ground/Supply Bias Current
Shutdown Current
PWM Dimming
Enable Input Voltage (VEND)
Logic Low
Logic High
V
1.2
Enable Input Current
VIH > 1.2V
0.01
1
µA
Current Source Delay
(50% levels)
Shutdown to on
Standby to on
On to Standby
40
2
0.3
80
µs
µs
µs
Current Source Transient Time
(10%-90%)
TRISE
TFALL
1
0.3
Stand-by to Shutdown Time
VEND = 0V
10
24
µs
µs
40
ms
Notes:
1. Exceeding the absolute maximum rating may damage the device.
2. The device is not guaranteed to function outside its operating rating.
3. Devices are ESD sensitive. Handling precautions recommended. Human body model, 1.5kΩ in series with 100pF.
4. As determined by average current of all channels in use and all channels loaded.
5. The current through each LED meets the stated limits from the average current of all LEDs.
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MIC2843A
Typical Characteristics
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MIC2843A
Functional Characteristics
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MIC2843A
Functional Diagram
VDD
VDD
V-to-I
D1...D6
BG
1.27V
6
DIG
CTRL
& PWM
END
POR
TSD
OSC
GND
RSET
Figure 1. MIC2843A Functional Block Diagram
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MIC2843A
RSET
The peak current of the linear drivers is set by
connecting a resistor from the RSET pin to ground. The
average LED current can be calculated by equation (1)
below:
ILED (mA) = 410 * D / RSET (kΩ)
(1)
D is the duty cycle of the LED current during PWM
dimming. When the device is fully on the duty cycle
equals 100% (D = 1). A plot of ILED versus RSET is shown
in Figure 2.
Functional Description
The MIC2843A is a six channel linear WLED driver. The
WLED driver is designed to maintain proper current
regulation with LED current accuracy of 1.5%, and
typical matching of 1.5% across the six channels. The
WLEDs are driven independently from the input supply
and will maintain regulation with a dropout of 40mV at
20mA. The low dropout allows the WLEDs to be driven
directly from the battery voltage and eliminates the need
for large and inefficient charge pumps. The maximum
WLED current for each channel is set by the external
RSET resistor. Dimming is controlled by applying a PWM
signal to the END pin. The MIC2843A accommodates a
wide PWM frequency range as outlined in the application
information section.
Block Diagram
As shown in Figure 1, the MIC2843A consists of six
current mirrors set to copy a master current determined
by the RSET resistor. The linear drivers have a
designated control block for enabling and dimming the
WLEDs.
VIN
The input supply (VIN) provides power to the linear
drivers and the control circuitry. The VIN operating range
is 3V to 5.5V. A bypass capacitor of 1µF should be
placed close to input (VIN) pin and the ground (GND)
pin. Refer to the layout recommendations section for
details on placing the input capacitor (C1).
Figure 2. Peak LED Current vs. RSET
D1-D6
The D1 through D6 pins are the linear driver inputs for
WLED 1 through 6, respectively. Connect the anodes of
the WLEDs to VIN and each cathode of the WLEDs to D1
through D6. When operating with less than six WLEDs,
leave the unused D pins unconnected. The linear drivers
are extremely versatile in that they may be used in any
combinations, for example D1 thru D6 leaving D5
unconnected or paralleled for higher current
applications.
END
The END pin is equivalent to the enable pin for the linear
drivers on the MIC2843A. It can also be used for
dimming using a PWM signal. See the PWM Dimming
Interface in the Application Information section for
details. Pulling the END low for more than 24ms puts the
MIC2843A into a low Iq sleep mode. The END pin cannot
be left floating; a floating enable pin may cause an
indeterminate state on the outputs. A 200kΩ pull down
resistor is recommended when using a high impedance
control signal.
June 2009
GND
The ground pin is the ground path for the linear drivers.
The current loop for the ground should be as small as
possible. The ground of the input capacitor should be
routed with low impedance traces to the GND pin and
made as short as possible. Refer to the layout
recommendations for more details.
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MIC2843A
Application Information
Dynamic Average Matching (DAM™)
The Dynamic average matching architecture multiplexes
four voltage references to provide highly accurate LED
current and channel matching. The MIC2843A achieves
industry leading LED channel matching of 1.5% across
the entire dimming range.
Ultra Fast PWM™ Dimming Interface
The MIC2843A supports a wide range of PWM control
signal frequencies from 200Hz to 500kHz. This
extremely wide range of control provides ultimate
flexibility for handheld applications using high frequency
PWM control signals.
Figure 4. Channel Current Response to PWM Control
Signal Frequencies from 50kHz to 500kHz
WLED dimming is achieved by pulse width modulating
the linear drivers which are controlled by a PWM signal
to the END pin. For PWM frequencies between 200Hz –
20kHz the MIC2843A supports a duty cycle range from
1% to 100%, see Figure3. The MIC2843A incorporates
an internal shutdown delay to ensure that the internal
control circuitry remains active during PWM dimming.
This feature prevents the possibility of backlight
flickering when using low frequency PWM control
signals. The MIC2843A also supports Ultra Fast PWM™
frequencies from 20kHz to 500kHz. Due to input signal
propagation delay, PWM frequencies above 20kHz have
a non-linear relationship between the duty cycle and the
average LED current, see Figures 4 and 5. Figures 6
through 10 show the WLED current response when a
PWM signal is applied to the END pin (1).
Figure 5. Minimum Duty Cycle
for Varying PWM Frequency
(1)
From the low Iq sleep mode PWM frequencies above
15kHz may require a logic high enable signal for 80μs to
first enable the MIC2843A prior to PWM dimming.
Figure 3. Average Current per LED Dimming
by Changing PWM Duty Cycle for PWM Frequencies
up to 20kHz
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MIC2843A
Figure 6. PWM Signal at 1% Duty Cycle (Iavg = 0.2mA)
Figure 9. PWM Signal at 80% Duty Cycle (Iavg = 16mA)
Figure 10. PWM Signal at 100% Duty Cycle (Iavg = 20mA)
Figure 7. PWM Signal at 20% Duty Cycle (Iavg = 4mA)
Figure 8. PWM Signal at 50% Duty Cycle (Iavg = 10mA)
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MIC2843A
High Current Parallel Operation
U1 MIC2843AYMT
VIN
C1
Low
Dropout
Linear
Driver
RSET
END
PWM
Control
Figure 12. Current Response to a Rising Enable Signal
(Six Paralleled Channels)
Figure 11. High Current LED Driver Circuit
The linear drivers are independent of each other and can
be used individually or paralleled in any combination for
higher current applications. A single WLED can be
driven with all 6 linear drivers by connecting D1 through
D6] in parallel to the cathode of the WLED as shown in
Figure 11. This will generate a current 6 times the
individual channel current and can be used for higher
current WLEDs such as those used in flash or torch
applications. The current is set by the RSET resistor, and
can be calculated by the following equation.
ILED (mA) = 6 * 410 * D / RSET (kΩ).
D is the duty cycle of the LED current during PWM
dimming. When the device is fully on the duty cycle
equals 100% (D = 1). Figure 12 shows the response
time of the six paralleled linear drivers configured for
800mA to the enable signal, while Figure 13 shows the
turn off response. With a RSET resistor of 1.65kΩ, each
linear driver is set to 250mA, with all 6 linear drivers
connected in parallel, the MIC2843A is capable of
driving a total current of 1.5A.
June 2009
Figure 13. Current Response to a Falling Enable Signal
(Six Paralleled Channels)
Input Capacitor
The MIC2843A is a high-performance, high bandwidth
device. Stability can be maintained using a ceramic input
capacitor of 1µF. Low-ESR ceramic capacitors provide
optimal performance at a minimum amount of space.
X5R or X7R dielectrics are recommended for the input
capacitor. Y5V dielectrics lose most of their capacitance
over temperature and are therefore, not recommended.
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MIC2843A
U1 MIC2843AYMT
VIN
D1
LED
1
C1
2.2µF/6.3V
VIN
D1
10
2
END
D2
9
PWM
Control
R2
200K
D2
LED
D3
8
D4
7
D5
6
D3
LED
D4
LED
D5
LED
D6
LED
3
R1
20.5K
RSET
GND
D6
4
5
VIN
Bill of Materials
Item
C1
Part Number
R2
U1
C1608X5R0J225K
TDK
AVX(2)
GRM188R60J225KE19D
Murata(3)
VJ0603G225KXYAT
Vishay(4)
SWTS1007
Seoul Semiconductor(5)
99-116UNC
EverLight(6)
CRCW060320K5F5EA
Vishay(4)
CRCW06032003FKEA
(4)
MIC2843AYMT
Description
Qty.
Ceramic Capacitor, 2.2µF, 6.3V, X5R, Size 0603
1
WLED
6
Resistor, 20.5k, 1%, 1/16W, Size 0603
1
Resistor, 200k, 1%, 1/16W, Size 0603
1
High Efficiency 6 Channel Linear WLED Driver
with DAM™ and Ultra Fast PWM™ Control
1
(1)
06036D225KAT2A
D1 – D6
R1
Manufacturer
Vishay
Micrel, Inc.(7)
Notes:
1. TDK: www.tdk.com
2. AVX: www.avx.com
3. Murata: www.murata.com
4. Vishay: www.vishay.com
5. Seoul Semiconductor: www.seoulsemicon.com
6. EverLight: www.everlight.com
7. Micrel, Inc.: www.micrel.com
June 2009
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MIC2843A
PCB Layout Recommendations
Top Layer
Bottom Layer
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MIC2843A
Package Information
10-Pin (2mm x 2mm) Thin MLF® (MT)
MICREL, INC. 2180 FORTUNE DRIVE SAN JOSE, CA 95131 USA
TEL +1 (408) 944-0800 FAX +1 (408) 474-1000 WEB http://www.micrel.com
The information furnished by Micrel in this data sheet is believed to be accurate and reliable. However, no responsibility is assumed by Micrel for its
use. Micrel reserves the right to change circuitry and specifications at any time without notification to the customer.
Micrel Products are not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a product
can reasonably be expected to result in personal injury. Life support devices or systems are devices or systems that (a) are intended for surgical implant
into the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a significant injury to the user. A
Purchaser’s use or sale of Micrel Products for use in life support appliances, devices or systems is a Purchaser’s own risk and Purchaser agrees to fully
indemnify Micrel for any damages resulting from such use or sale.
© 2009 Micrel, Incorporated.
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