NSC LP5521YQ

LP5521
Programmable Three Channel LED Driver
General Description
Features
The LP5521 is a three channel LED driver designed to produce variety of lighting effects for mobile devices. High efficiency charge pump enables LED driving over full Li-Ion
battery voltage range. The device has a program memory for
creating variety of lighting sequences. When program memory has been loaded, LP5521 can operate independently
without processor control.
LP5521 maintains excellent efficiency over a wide operating
range by automatically selecting proper charge pump gain
based on LED forward voltage requirements. LP5521 is able
to automatically enter power-save mode, when LED outputs
are not active and thus lowering current consumption.
Three independent LED channels have accurate programmable current sources and PWM control. Each channel
has program memory for creating desired lighting sequences
with PWM control.
LP5521 has a flexible digital interface. Trigger I/O and 32 kHz
clock input allow synchronization between multiple devices.
Interrupt output can be used to notify processor, when LED
sequence has ended. LP5521 has four pin selectable I2C addresses. This allows connecting up to four parallel devices in
one I2C bus. GPO and INT pins can be used as a digital control pin for other devices.
LP5521 requires only four small and low cost ceramic capacitors.
LP5521 is available in tiny 2.1x1.7x0.6 mm microSMD-20
package and in 4.0x5.0x0.8 mm bumped LLP-24 package.
Comprehensive application tools are available, including
command compiler for easy LED sequence programming.
■ Adaptive charge pump with 1x and 1.5x gain provides up
to 95% LED drive efficiency
■ Charge pump with soft start and overcurrent/short circuit
■
■
■
■
■
■
■
■
■
■
■
■
■
protection
Low input ripple and EMI
Very small solution size, no inductor or resistors required
200 nA typical shutdown current
Automatic power save mode
I2C compatible interface
Independently programmable constant current outputs
with 8-bit current setting and 8-bit PWM control
Typical LED output saturation voltage 50 mV and current
matching 1%
Three program execution engines with flexible instruction
set
Autonomous operation without external control
Large SRAM program memory
Two general purpose digital outputs
microSMD-20 package, 0.4 mm pitch
Bumped LLP-24 package, 0.5 mm pitch
Applications
■
■
■
■
Fun / indicator lights
LCD sub-display backlighting
Keypad RGB backlighting and phone cosmetics
Vibra, speakers, waveform generator
Typical Application
20186270
© 2007 National Semiconductor Corporation
201862
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LP5521 Programmable Three Channel LED Driver
June 2007
LP5521
Connection Diagrams and Package Mark Information
Thin microSMD-20 Package (2.1 x 1.7 x 0.6 mm, 0.4 mm pitch)
NS Package Number TMD20ECA
20186271
20186272
Top View
Bottom View
Package Mark
20186296
Package Mark - Top View
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2
LP5521
Connection Diagrams and Package Mark Information
Bumped LLP-24 Package (5 x 4 x 0.8 mm, 0.5 mm pitch)
NS Package Number YQA24A
20186201
20186202
Package Mark - Top View
Bottom View
U = Fab
Z = Assembly
XY = 2 Digit Date Code
TT = Die Traceability
L5521YQ = Product Identification
Ordering Information
Order Number
Package
Package Marking
Supplied As
Spec/Flow
LP5521TM
µSMD
5521
250 units, Tape-and-Reel
NoPb
LP5521TM X
µSMD
5521
3000 units, Tape-and-Reel
NoPb
LP5521YQ
bumped LLP
L5521YQ
1000 units, Tape-and-Reel
NoPb
LP5521YQ X
bumped LLP
L5521YQ
4500 units, Tape-and-Reel
NoPb
3
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LP5521
Pin Descriptions LP5521TM
Pin #
Name
Type
1A
B
A
Current source output
Description
1B
G
A
Current source output
1C
R
A
Current source output
1D
SCL
I
I2C Serial interface clock input
1E
SDA
I/OD
2A
VOUT
A
Charge pump output
2B
ADDR_SEL1
I
I2C address select input
2C
ADDR_SEL0
I
I2C address select input
2D
GPO
O
General purpose output
2E
EN
I
Chip enable
3A
CFLY2N
A
Negative terminal of charge pump fly capacitor 2
3B
CFLY1N
A
Negative terminal of charge pump fly capacitor 1
3C
GND
G
Ground
3D
CLK_32K
I
32 kHz clock input
3E
INT
OD/O
4A
CFLY2P
A
Positive terminal of charge pump fly capacitor 2
I2C Serial interface data input/output
Interrupt output / General Purpose Output
4B
CFLY1P
A
Positive terminal of charge pump fly capacitor 1
4C
VDD
P
Power supply pin
4D
GND
G
Ground
4E
TRIG
I/OD
Trigger input/output
A: Analog Pin, G: Ground Pin, P: Power Pin, I: Input Pin, I/O: Input/Output Pin, O: Output Pin, OD: Open Drain Pin
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4
LP5521
Pin Descriptions LP5521YQ
Pin #
Name
Type
1
CFLY2P
A
Positive terminal of charge pump fly capacitor 2
Description
2
CFLY1P
A
Positive terminal of charge pump fly capacitor 1
3
VDD
P
Power supply pin
4
GND
G
Ground
5
CLK_32K
I
32 kHz clock input
6
INT
OD/O
Interrupt output / General purpose output
7
TRIG
I/OD
Trigger input/output
8
N/C
9
N/C
10
N/C
11
N/C
12
N/C
13
SDA
I/OD
I2C Serial interface data input/output
14
EN
I
Chip enable
15
SCL
I
I2C Serial interface clock input
16
GPO
O
General purpose output
17
R
A
Current source output
18
G
A
Current source output
19
B
A
Current source output
20
ADDR_SEL0
I
I2C address select input
21
ADDR_SEL1
I
I2C address select input
22
VOUT
A
Charge pump output
23
CFLY2N
A
Negative terminal of charge pump fly capacitor 2
24
CFLY1N
A
Negative terminal of charge pump fly capacitor 1
A: Analog Pin, G: Ground Pin, P: Power Pin, I: Input Pin, I/O: Input/Output Pin, O: Output Pin, OD: Open Drain Pin, N/C:
Not Connected
5
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LP5521
Operating Ratings
Absolute Maximum Ratings (Notes 1, 2)
(Notes 1, 2)
VDD
2.7 to 5.5V
Recommended Charge Pump
Load Current IOUT
0 to 100 mA
Junction Temperature (TJ) Range
-30°C to +125°C
Ambient Temperature (TA) Range
(Note 6)
-30°C to +85°C
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
V(VDD , VOUT, R, G, B)
Voltage on Logic Pins
Continuous Power Dissipation
(Note 3)
Junction Temperature (TJ-MAX)
Storage Temperature Range
Maximum Lead Temperature
(Soldering)
ESD Rating (Note 5)
Human Body Model:
Machine Model:
-0.3V to +6.0V
-0.3V to VDD +0.3V
with 6.0V max
Internally Limited
Thermal Properties
Junction-to-Ambient Thermal
Resistance (θJA), TMD20 Package
(Note 7)
Junction-to-Ambient Thermal
Resistance (θJA), YQA24A Package
(Note 7)
125°C
-65°C to +150°C
(Note 4)
2 kV
200V
50 - 90°C/W
37 - 90°C/W
Electrical Characteristics
(Notes 2, 8)
Limits in standard typeface are for TJ = 25°C. Limits in boldface type apply over the operating ambient temperature range (-30°C
< TA < +85°C). Unless otherwise noted, specifications apply to the LP5521 Block Diagram with: 2.7V ≤ VDD ≤ 5.5V, COUT= CIN =
1 μF, CFLY1 = CFLY2 = 0.47 μF. (Note 9).
Symbol
IVDD
Parameter
Standby supply
current
Normal mode
supply current
Powersave mode
supply current
fOSC
Typ
Max
Units
EN = 0 (pin), CHIP_EN = 0 (bit), external 32 kHz clock running or not
running
Condition
Min
0.2
2
μA
EN = 1 (pin), CHIP_EN = 0 (bit), external 32 kHz clock not running
1.0
EN = 1 (pin), CHIP_EN = 0 (bit), external 32 kHz clock running
1.4
μA
Charge pump and LED drivers disabled
0.25
mA
Charge pump in 1x mode, no load, LED drivers disabled
0.70
mA
Charge pump in 1.5x mode, no load, LED drivers disabled
1.5
mA
Charge pump in 1x mode, no load, LED drivers enabled
1.2
mA
External 32 kHz clock running
10
μA
0.25
mA
Internal oscillator running
Internal oscillator
frequency accuracy
-4
-7
Charge Pump Electrical Characteristics
Symbol
ROUT
Parameter
Charge pump output resistance
4
7
Condition
Min
Gain = 1.5x
Switching frequency
Typ
Units
Ω
1
Ω
MHz
%
1.25
7
Gain = 1.5x
1.2
mA
Gain = 1x
0.5
mA
tON
VOUT turn-on time from charge pump VDD = 3.6V, CHIP_EN = H
off to 1.5x mode
IOUT = 60 mA
100
μs
VOUT
Charge pump output voltage
4.55
V
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Ground current
Max
3.5
-7
IGND
%
(Note 10)
Gain = 1x
fSW
μA
VDD = 3.6V, no load, Gain = 1.5x
6
LP5521
LED Driver Electrical Characteristics (R, G, B Outputs)
Symbol
Parameter
Condition
Min
Typ
Max
Units
0.1
1
µA
ILEAKAGE
R, G, B pin leakage current
IMAX
Maximum Source Current
Outputs R, G, B
IOUT
Accuracy of output current
Output current set to 17.5 mA, VDD = 3.6V
IMATCH
Matching (Note 11)
IOUT = 17.5 mA, VDD = 3.6V
fLED
LED PWM switching frequency
PWM_HF = 1
Frequency defined by internal oscillator
558
Hz
PWM_HF = 0
Frequency defined by 32 kHz clock (internal or
external)
256
Hz
IOUT set to 17.5 mA
50
VSAT
Saturation voltage (Note 12)
25.5
mA
-4
-5
1
4
5
%
2
%
100
mV
Logic Interface Characteristics
(V(EN) = 1.65V...VDD unless otherwise noted)
Symbol
Parameter
Conditions
Min
Typ
Max
Units
0.5
V
LOGIC INPUT EN
VIL
Input Low Level
VIH
Input High Level
1.2
II
Logic Input Current
−1.0
tDELAY
Input delay
V
µA
1.0
2
µs
LOGIC INPUT SCL, SDA, TRIG, CLK_32K
VIL
Input Low Level
VIH
Input High Level
II
Input Current
fCLK_32K
Clock frequency
fSCL
Clock frequency
0.2xV(EN)
V
V
0.8xV(EN)
-1.0
µA
1.0
32
kHz
kHz
400
LOGIC OUTPUT SDA, TRIG, INT
VOL
Output Low Level
IL
Output Leakage Current
IOUT = 3 mA (pull-up current)
0.3
0.5
V
1.0
µA
0.2xVDD
V
LOGIC INPUT ADDR_SEL0, ADDR_SEL1
VIL
Input Low Level
VIH
Input High Level
II
Input Current
0.8xVDD
V
–1.0
1.0
µA
0.5
V
LOGIC OUTPUT GPO, INT (in GPO state)
VOL
Output Low Level
IOUT = 3 mA
VOH
Output High Level
IOUT = -2 mA
IL
Output leakage current
0.3
VDD - 0.5
VDD - 0.3
V
1.0
7
µA
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LP5521
I2C Timing Parameters (SDA, SCL)
Symbol
fSCL
(Note 13)
Limit
Parameter
Min
Clock Frequency
Max
400
Units
kHz
1
Hold Time (repeated) START Condition
0.6
µs
2
Clock Low Time
1.3
µs
3
Clock High Time
600
ns
4
Setup Time for a Repeated START Condition
600
ns
5
Data Hold Time
50
ns
6
Data Setup Time
7
Rise Time of SDA and SCL
20+0.1Cb
300
ns
8
Fall Time of SDA and SCL
15+0.1Cb
300
ns
100
ns
9
Set-up Time for STOP condition
600
ns
10
Bus Free Time between a STOP and a START Condition
1.3
µs
Cb
Capacitive Load for Each Bus Line
10
200
pF
20186298
Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the component may occur. Operating Ratings are conditions under which operation
of the device is guaranteed. Operating Ratings do not imply guaranteed performance limits. For guaranteed performance limits and associated test conditions,
see the Electrical Characteristics tables.
Note 2: All voltages are with respect to the potential at the GND pins.
Note 3: Internal thermal shutdown circuitry protects the device from permanent damage. Thermal shutdown engages at TJ = 150°C (typ.) and disengages at TJ
= 130°C (typ.).
Note 4: For detailed soldering specifications and information, please refer to National Semiconductor Application Note AN1112 : Micro SMD Wafer Level Chip
Scale Package or AN1187 : Leadless Leadframe Package (LLP).
Note 5: The Human body model is a 100 pF capacitor discharged through a 1.5 kΩ resistor into each pin. The machine model is a 200 pF capacitor discharged
directly into each pin. MIL-STD-883 3015.7
Note 6: In applications where high power dissipation and/or poor package thermal resistance is present, the maximum ambient temperature may have to be
derated. Maximum ambient temperature (TA-MAX) is dependent on the maximum operating junction temperature (TJ-MAX-OP = 125°C), the maximum power
dissipation of the device in the application (PD-MAX), and the junction-to ambient thermal resistance of the part/package in the application (θJA), as given by the
following equation: TA-MAX = TJ-MAX-OP – (θJA × PD-MAX).
Note 7: Junction-to-ambient thermal resistance is highly application and board-layout dependent. In applications where high maximum power dissipation exists,
special care must be paid to thermal dissipation issues in board design.
Note 8: Min and Max limits are guaranteed by design, test, or statistical analysis. Typical numbers are not guaranteed, but do represent the most likely norm.
Note 9: Low-ESR Surface-Mount Ceramic Capacitors (MLCCs) used in setting electrical characteristics.
Note 10: Input, output, and fly capacitors should be of the type X5R or X7R low ESR ceramic capacitor.
Note 11: Matching is the maximum difference from the average of the three output's currents.
Note 12: Saturation voltage is defined as the voltage when the LED current has dropped 10% from the value measured at VOUT - 1V.
Note 13: Guaranteed by design.
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LP5521
Typical Performance Characteristics
Unless otherwise specified: VDD = 3.6V
LED Drive Efficiency vs. Input Voltage
Automatic Gain Change
LED Current vs. Output Pin Headroom Voltage
20186222
20186221
LED Current vs. Current Register Code
LED Current vs. Supply Voltage
20186223
20186207
Charge Pump Efficiency vs. Load Current
Charge Pump Efficiency vs. Input Voltage
1.5x Mode
20186208
20186209
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LP5521
Charge Pump Output Voltage vs. Load Current
Charge Pump Output Voltage vs. Input Voltage
Automatic Gain Change from 1x to 1.5x
20186210
20186211
Charge Pump Automatic Gain Change Hysteresis
Charge Pump Startup in 1.5x Mode
No Load
20186212
20186213
Charge Pump Load Transient Response
in 1.5x Mode (0 to 25.5 mA)
Charge Pump Line Transient Response
1.5x Mode (VIN 3.5V to 4.0V)
20186214
20186215
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LP5521
Charge Pump Automatic Gain Change (LED VF = 3.6V)
Standby Current vs. Input Voltage
20186217
20186216
For full LP5521 datasheet please contact nearest National Semiconductor
sales office.
11
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LP5521
Physical Dimensions inches (millimeters) unless otherwise noted
The dimension for X1 ,X2 and X3 are as given:
X1=1.717 mm ± 0.03 mm
X2=2.066 mm ± 0.03 mm
X3=0.600 mm ± 0.075 mm
TMD20ECA: Thin microSMD-20, Small Bump
YQA24A: Bumped LLP-24
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12
LP5521
Notes
13
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LP5521 Programmable Three Channel LED Driver
Notes
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