ANALOGICTECH AAT3177IWP-T1

PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
General Description
Features
The AAT3177 is a high output current, high efficiency,
low noise, low profile charge pump DC/DC converter.
The device is ideal for multi-functional LED photo-flash
applications where solution cost, size, and efficiency are
critical.
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The AAT3177 is capable of driving a regulated output
current up to 800mA. Output current levels can be easily programmed in 16 steps through AnalogicTech’s
Simple Serial Control™ (S2Cwire™) interface controlled
by a single microcontroller GPIO line. This allows smooth
transitions and flexible adjustment of brightness in flash
or other lighting modes. The maximum output current
can also be set with an external RSET resistor.
Up to 800mA Output Current
Tri-Mode 1X/1.5X/2X in Current Mode
16 Current Level Steps Set by S2Cwire
Flash Auto-Timer (Active for High Current Levels
Only)
External RSET to Set Maximum Current
<1μA of Shutdown
Small Application Circuit
No Inductors
Automatic Soft Start
12-Pin TDFN 3x3mm Package
-40°C to +85°C Temperature Range
Applications
The tri-mode (1X/1.5X/2X) operation of the internal
charge pump offers excellent power efficiency throughout the output current range for both flash and movie
modes. Combined with a low external parts count (two
1μF flying capacitors and two small bypass capacitors at
VIN and OUT), the AAT3177 is ideally suited for small
battery-powered applications.
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Camcorders
Camera Phones
Digital Still Cameras
PDAs and Notebook PCs
Smart Phones
The AAT3177 has a thermal management system to protect the device in the event of a short-circuit condition at
the output pin. Built-in soft-start circuitry prevents
excessive inrush current during start-up. The shutdown
feature disconnects the load from VIN and reduces quiescent current to less than 1μA.
The AAT3177 is available in a Pb-free, thermallyenhanced 12-pin 3x3mm TDFN package and is specified
over the -40°C to +85°C temperature range.
Typical Application
1μF
C1+
2.7V
to 5.5V
1μF
C1-
C2+
CIN
4.7μF
EN
C2+
OUT
VIN
COUT
2.2μF
AAT3177
EN/SET
Flash
LED
FL
CT
RSET
GND
0.1μF
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PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Pin Descriptions
Pin #
Symbol
1
VIN
2
3
4
5
6
C1+
C1GND
FL
RSET
7
EN/SET
8
CT
9
10
C2C2+
11
OUT
12
EP
VIN
Function
Input power supply pin. Connect Pin 1 directly to Pin 12 and then to input supply voltage. Connect a 4.7μF or larger ceramic capacitor to ground.
Flying capacitor C1 positive terminal. Connect a 1μF ceramic capacitor between C1+ and C1-.
Flying capacitor C1 negative terminal.
Ground connection.
Controlled current sink. Connect the flash LED cathode to this pin.
Connect resistor here to set maximum output current.
Charge pump enable / set input control pin. When in the low state, the AAT3177 is powered down
and consumes less than 1μA. When connected to logic high level, the AAT3177 charge pump is
active. This pin should not be left floating.
Flash timeout capacitor. Connect a 0.1μF capacitor between this pin and GND for a flash timeout
of 1 second.
Flying capacitor C2 negative terminal.
Flying capacitor C2 positive terminal. Connect a 1μF ceramic capacitor between C2+ and C2-.
Charge pump output. Connect a 2.2μF or larger ceramic capacitor to ground. Connect to flash
LED anode to drive the LED.
Input power supply pin. Connect Pin 12 directly to Pin 1 and then to input supply voltage.
Exposed paddle (bottom). Connect to GND directly beneath package.
Pin Configuration
TDFN33-12
(Top View)
VIN
C1+
C1GND
FL
RSET
2
1
12
2
11
3
10
4
9
5
8
6
7
VIN
OUT
C2+
C2CT
EN/SET
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3177.2008.06.1.0
PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Absolute Maximum Ratings1
TA = 25°C, unless otherwise noted.
Symbol
VIN
VEN
VEN(MAX)
IOUT
TJ
TS
TLEAD
Description
Input Voltage
EN to GND Voltage
Maximum EN to Input Voltage
Maximum Output Current
Operating Temperature Range
Storage Temperature Range
Maximum Soldering Temperature (at leads, 10 sec)
Value
Units
-0.3 to 6.0
-0.3 to 6.0
VIN + 0.3
1000
-40 to 150
-65 to 150
300
V
V
V
mA
°C
°C
°C
Value
Units
50
2
°C/W
W
Thermal Information2
Symbol
θJA
PD
Description
Thermal Resistance
Maximum Power Dissipation3
1. Stresses above those listed in Absolute Maximum Ratings may cause permanent damage to the device. Functional operation at conditions other than the operating conditions
specified is not implied. Only one Absolute Maximum Rating should be applied at any one time.
2. Mounted on an FR4 board.
3. Derate 20mW/°C above 40°C ambient temperature.
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PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Electrical Characteristics1
CIN = 4.7μF, COUT = 2.2μF, C1 = C2 = 1.0μF; TA = -40°C to +85°C, unless otherwise noted. Typical values are TA = 25°C,
VIN = 3.6V.
Symbol
Description
Conditions
Power Supply
Input Voltage Range
VIN
ICC
ISHDN(MAX)
IOUT(MAX)2
IDX
TSS
VRSET
EN/SET
VEN(L)
VEN(H)
TEN/SET LO
TEN/SET HI
TEN/SET HI MAX
TOFF
TLAT
Input Current
Operating Current
VIN Pin Shutdown Current
Maximum Output Current
Output Current Accuracy
Soft-Start Time
RSET Pin Voltage
Enable Threshold Low
Enable Threshold High
EN/SET Low Time
Minimum EN/SET High Time
Maximum EN/SET High Time
EN/SET Off Timeout
EN/SET Latch Timeout
EN/SET Input Leakage
Min
Typ
2.7
1X, No Load Current
3.0 ≤ VIN ≤ 5.5, 1.5X Mode, No Load Current
3.0 ≤ VIN ≤ 5.5, 2X Mode, No Load Current
EN = 0
VF = 3.6V
Programmed for 600mA; RSET = 187kΩ
300
2.0
3.0
Max
Units
5.5
V
μA
4.0
6.0
1.0
800
540
660
200
0.7
VIN = 2.7V
VIN = 5.5V
0.4
1.4
0.3
75
50
-1
75
500
500
1
mA
μA
mA
mA
μs
V
V
V
μs
ns
μs
μs
μs
μA
1. The AAT3177 is guaranteed to meet performance specifications from 0°C to 70°C. Specification over the -40°C to +85°C operating temperature range is assured by design,
characterization, and correlation with statistical process controls.
2. Mounted on an FR4 board.
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3177.2008.06.1.0
PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Typical Characteristics
VIN = 3.6V, CIN = 4.7μF, COUT = 2.2μF, C1 = C2 = 1μF, TA = 25°C, unless otherwise noted.
Efficiency vs. Supply Voltage
Turn-On to 1X Mode
(VIN = 4.2V; ILED = 150mA)
100
90
EN
(2V/div)
Efficiency (%)
80
70
ILED = 300mA
60
VOUT
(2V/div)
ILED = 150mA
50
40
VSINK
(1V/div)
30
20
IIN
(200mA/div)
10
0
2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0 4.1 4.2
Time (200µs/div)
Supply Voltage (V)
Turn-On to 1.5X Mode
Turn-On to 1X Mode
(VIN = 3.2V; ILED = 150mA)
(VIN = 4.2V; ILED = 600mA)
EN
(2V/div)
EN
(2V/div)
VOUT
(2V/div)
VOUT
(2V/div)
VSINK
(1V/div)
VSINK
(1V/div)
IIN
(200mA/div)
IIN
(500mA/div)
Time (200µs/div)
Time (200µs/div)
Turn-On to 2X Mode
Turn-Off from 1.5X Mode
(VIN = 3.2V; ILED = 600mA)
(VIN = 3.2V; ILED = 150mA)
EN
(2V/div)
EN
(2V/div)
VOUT
(2V/div)
VF
(1V/div)
VSINK
(1V/div)
IIN
(200mA/div)
IIN
(500mA/div)
Time (200µs/div)
3177.2008.06.1.0
Time (200µs/div)
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PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Typical Characteristics
VIN = 3.6V, CIN = 4.7μF, COUT = 2.2μF, C1 = C2 = 1μF, TA = 25°C, unless otherwise noted.
Operating Characteristic
Operating Characteristic
(VIN = 3.3V; 1.5X Mode; ILED = 300mA)
(VIN = 2.9V; 2X Mode; ILED = 300mA)
VIN
(100mV/div)
VIN
(100mV/div)
VOUT
(200mV/div)
VOUT
(200mV/div)
VSINK
(200mV/div)
VSINK
(200mV/div)
Time (2µs/div)
Time (2µs/div)
LED Current vs. RSET
Flash Timer Duration
(Data = 1)
(CT = 0.1µF)
1000
1.8
900
Flash Time (s)
ILED (mA)
700
600
500
400
300
200
0
100
200
300
400
500
600
700
800
900
25°C
1.2
1.0
0.8
0.4
1000
85°C
2.7 2.9 3.1 3.3 3.5 3.7 3.9 4.1 4.3 4.5 4.7 4.9 5.1 5.3 5.5
RSET (kΩ
Ω)
Supply Voltage (V)
EN/SET Latch Timeout vs. Supply Voltage
EN/SET Off Timeout vs. Supply Voltage
350
350
EN/SET Off Timeout (µs)
EN/SET Latch Timeout (µs)
1.4
0.6
100
300
250
200
25°C
-40°C
150
100
85°C
50
300
250
200
150
25°C
-40°C
85°C
100
50
0
0
2.7 2.9 3.1 3.3 3.5 3.7 3.9 4.1 4.3 4.5 4.7 4.9 5.1 5.3 5.5
Supply Voltage (V)
6
-40°C
1.6
800
2.7 2.9 3.1 3.3 3.5 3.7 3.9 4.1 4.3 4.5 4.7 4.9 5.1 5.3 5.5
Supply Voltage (V)
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3177.2008.06.1.0
PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Typical Characteristics
VIN = 3.6V, CIN = 4.7μF, COUT = 2.2μF, C1 = C2 = 1μF, TA = 25°C, unless otherwise noted.
EN/SET High Threshold Voltage
vs. Supply Voltage and Temperature
EN/SET Low Threshold Voltage
vs. Supply Voltage and Temperature
1.0
0.9
0.8
0.7
25°C
0.6
VEN(L) (V)
VEN(H) (V)
0.9
1.0
-40°C
85°C
0.5
-40°C
0.8
0.7
0.6
25°C
85°C
0.5
0.4
0.4
2.7 2.9 3.1 3.3 3.5 3.7 3.9 4.1 4.3 4.5 4.7 4.9 5.1 5.3 5.5
2.7 2.9 3.1 3.3 3.5 3.7 3.9 4.1 4.3 4.5 4.7 4.9 5.1 5.3 5.5
Supply Voltage (V)
Supply Voltage (V)
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PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Functional Block Diagram
C1+
C1-
C2+
C2-
VIN
Charge Pump
Section 1
Charge Pump
Section 2
OUT
1MHz
Oscillator
Soft-Start
Control
FL
EN/SET
System Control;
S2Cwire;
Timing
RSET
CT
GND
Functional Description
The AAT3177 is a high efficiency, low noise, dual stage
tri-mode 1X/1.5X/2X charge pump device intended for
photo-flash LED applications. The device requires only
four external components: two ceramic capacitors for
the charge pump flying capacitors, one ceramic capacitor
for CIN, and one ceramic capacitor for COUT.
The charge pump is designed to deliver regulated load
currents up to 800mA. The dual stage charge pump section contains soft-start circuitry to prohibit excessive
inrush current during start-up. System efficiency is
maximized with a tri-mode, dual stage charge pump
topology. The internal clock oscillator at 1MHz allows the
use of small external components.
The tri-mode charge pump operation further optimizes
power conversion efficiency. Depending upon the variance of load current (at different modes), input voltage,
and nominal LED forward voltage, the charge pump will
operate in a 1X, 1.5X, or 2X mode to generate the output
voltage required to power the load for a given controlled
8
constant current. This results in significant power savings over voltage doubling architectures, especially when
the LEDs are also operated at lower current levels in
movie, viewing, or flashlight modes.
S2Cwire Serial Interface
The AAT3177 utilizes Analogic Tech’s single wire S2Cwire
interface to enable/disable the charge pump and adjust
the output current at 16 current levels. Each code defines
the output current to be a percentage of the maximum
current set by the resistor at the RSET pin (see Table 1).
The S2Cwire interface records rising edges of the EN/SET
pin and decodes them into 16 individual current level
settings with Code 1 reserved for maximum current.
Once EN/SET has been held in the logic high state for
time TLAT (500μs), the programmed current is seen at the
current source outputs and the internal data register is
reset to 0. For subsequent current level programming,
the number of rising edges corresponding to the desired
code must be applied on the EN/SET pin.
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3177.2008.06.1.0
PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
THI
TLO
TOFF
T LAT
EN/SET
1
2
n-1
n ≤ 16
0
Data Reg
n-1
0
Figure 1: S2Cwire Serial Interface Timing.
Data
Output Current
(% of IMAX)
Flash Auto-Timer
Enabled
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
100.01
89.11
79.41
70.81
63.1
56.2
50.1
44.7
39.8
35.5
31.6
28.2
25.1
22.4
20.0
0.0
Yes
Yes
Yes
Yes
No
No
No
No
No
No
No
No
No
No
No
No
Application Information
Selecting a Timer Capacitor for CT
The CT pin must be configured according to the desired
flash function1. There are two options: connect a small
valued capacitor or connect the pin to GND.
Configure the timer feature for the AAT3177 by connecting a small valued capacitor between the CT pin and
GND. The value of the capacitor will determine the timeout duration according to the following formula:
T = CT · 10
Table 1: Current Level Settings.
When EN/SET is held low for an amount of time longer
than TOFF (500μs), the AAT3177 enters into shutdown
mode and draws less than 1μA from VIN. Data and
address registers are reset to 0 during shutdown.
The flash timer is active for DATA values 1 through 41.
For lower current settings (DATA 5 through 16) the flash
timer is turned off to allow extended LED on time for
movie mode applications. When changing from high current (DATA = 1-4) to lower current (DATA = 5-16) the
timer will be ignored. When changing from low current
to high current the timer will be reset and restarted.
The charge pump will be reset during current level
changes to allow the system to operate in the most efficient mode.
s
µF
As an example, the result of connecting a 0.1μF capacitor between the CT pin and GND will be a 1 second timeout duration. Operationally, when the AAT3177 is
enabled, it will automatically disable itself after 1 second. When using the auto-timer feature, select a CT
capacitor value according to the formula above.
To disable the auto-timer feature, connect the CT pin to
ground. The result will be a small bias current of approximately 3μA. A large valued pull-down resistor should not
be used for connecting the CT pin to GND. The CT pin can
be connected directly to GND. If a pull-down resistor is
preferred, it should be of low value (i.e., less than 10K).
The primary considerations for selecting the capacitor
type are leakage current and tolerance of the capacitor
value. The auto-timer duration is determined by charging and discharging the timing capacitor with a small
charging/discharging current of approximately 3μA.
Avoid leaky capacitor types as they will distort the timeout duration. Select the capacitor value’s tolerance
according to the desired time-out tolerance.
1. Flash Timer is enabled only for the four highest current level settings (DATA = 1, 2, 3, and 4).
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PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Real-Time Control of the CT Pin
Flash/Torch Control Using the RSET Pin
To achieve flash and torch mode control, the auto-timer
can be enabled or disabled in real-time. This can be done
by connecting a microcontroller or microprocessor GPIO
port to the CT pin.
An alternative method can be used for flash/torch control that eliminates the need to use the S2Cwire singlewire interface. By using any typical digital I/O port, an
additional enable can be created (see Figure 3).
To set up flash mode in real-time, enable the auto-timer
by tri-stating the GPIO port. Do not drive the port high. It
can only be set to high-impedance so that the CT capacitor can be charged and discharged by the AAT3177.
The I/O port output configuration can be an open-drain
NMOS or open-drain PMOS, but not a push-pull type. The
control will always act as an active-low flash enable or,
equivalently, an active-high torch enable (see Table 2).
To set up torch mode in real-time, disable the autotimer by driving the GPIO port low so that the CT pin will
be pulled to GND through the GPIO port.
AAT3177
EN/SET
Tri-state = TMR ON
Low = TMR OFF
EN
ENFL
Mode
0
0
1
1
0
1
0
1
Off
Off
Flash
Torch
Table 2: Flash/Torch Control Modes.
According to I/O port type, the following equations can
be used to calculate appropriate resistor values.
CT
For an open-drain NMOS I/O port output configuration,
the line is pulled low to GND or left floating, according to
state. To calculate the appropriate R1 and R2 resistor
values, first calculate the R1 resistor value needed for the
desired torch level LED current:
0.1μF = 1 sec
Figure 2: Enable or Disable the Auto-Timer in
Real-Time for Flash/Torch Control.
R1 =
C1
1μF
C1+
600mA · 187kΩ
ILED (torch)
C2
1μF
C1-
C2+
2.7V
to 5.5V
C2+
VOUT
CIN
4.7μF
EN
COUT
2.2μF
AAT3177
EN/SET
Flash
LED
F1
R2
CT
ENCT
RSET
ENF
GND
CT
R1
Figure 3: Flash/Torch Control Using the RSET Pin.
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3177.2008.06.1.0
PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Next, choose R2 based on the desired flash level LED
current:
R2 =
R1 · 600mA · 187kΩ
R1 · ILED (flash) - 600mA · 187kΩ
The current and resistance values used in the equations
come from the conditions placed on the IDX parameter of
the Electrical Characteristics table.
For examples of standard 1% values where the LED flash
current level is targeted for 700mA, see Table 3.
R1 (kΩ)
R2 (kΩ)
ILED Torch
(mA)
ILED Flash
(mA)
920
732
649
562
193
205
210
223
122
153
173
200
703
701
707
703
Table 3: Open-Drain I/O Example Resistor Values.
If the I/O port must be configured as an open-drain PMOS
type output, the appropriate equations can be generated
from these same concepts. As done in the previous example, the necessary values can then be calculated.
When the input voltage is sufficiently greater than the
LED forward voltage, the device optimizes efficiency by
operating in 1X mode. In 1X mode, the device is working
as a bypass switch and passing the input supply directly
to the output. The power conversion efficiency can be
approximated by:
η=
Due to the very low 1X mode quiescent current, the
input current nearly equals the current delivered to the
LED. Further, the low-impedance bypass switch introduces negligible voltage drop from input to output.
The AAT3177 further maintains optimized performance
and efficiency by detecting when the input voltage is not
sufficient to sustain LED current. The device automatically switches to 1.5X mode when the input voltage
drops too low in relation to the LED forward voltage.
In 1.5X mode, the output voltage can be boosted to 3/2
the input voltage. The 3/2 conversion ratio introduces a
corresponding 1/2 increase in input current. For ideal
conversion, the 1.5X mode efficiency is given by:
As a reference, the equations applicable to the PMOS
case are:
R1 =
600mA · 187kΩ
ILED (flash)
VIO
-1
0.7
R2 =
ILED (torch)
1
R1 600mA · 187kΩ
The value to use for VIO must come from the I/O supply
voltage used in the system. 0.7V is the typical value of
the VRSET parameter found in the Electrical Characteristics
section of this datasheet.
The AAT3177 power conversion efficiency depends on
the charge pump mode. By definition, device efficiency
is expressed as the output power delivered to the LED
divided by the total input power consumed.
3177.2008.06.1.0
POUT
PIN
η=
VF
VF · ILED
=
VIN · 1.5IIN 1.5 · VIN
Similarly, when the input falls further, such that 1.5X
mode can no longer sustain LED current, the device will
automatically switch to 2X mode. In 2X mode, the output voltage can be boosted to twice the input voltage.
The doubling conversion ratio introduces a corresponding doubling of the input current. For ideal conversion,
the 2X mode efficiency is given by:
η=
VF
VF · ILED
=
VIN · 2IIN
2 · VIN
LED Selection
Device Power Efficiency
η=
VF · ILED VF
≈
VIN · IIN
VIN
The AAT3177 is designed to drive high-intensity white
LEDs. It is particularly suitable for LEDs with an operating forward voltage in the range of 4.2V to 1.5V.
The charge pump device can also drive other loads that
have similar characteristics to white LEDs. For various
load types, the AAT3177 provides a high-current, programmable ideal constant current source.
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PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Capacitor Selection
Careful selection of the four external capacitors CIN, C1,
C2, and COUT is important because they will affect turn-on
time, output ripple, and transient performance. Optimum
performance will be obtained when low equivalent series
resistance (ESR) ceramic capacitors are used. In general, low ESR may be defined as less than 100mΩ. A value
of 1μF for the flying capacitors is a good starting point
when choosing capacitors. If the LED current sinks are
only programmed for light current levels, then the
capacitor size may be decreased.
These larger devices can improve circuit transient
response when compared to an equal value capacitor in
a smaller package size.
Thermal Protection
The AAT3177 has a thermal protection circuit that will
shut down the charge pump if the die temperature rises
above the thermal limit, as is the case during a shortcircuit of the OUT pin.
PCB Layout
Ceramic composition capacitors are highly recommended over all other types of capacitors for use with the
AAT3177. Ceramic capacitors offer many advantages
over their tantalum and aluminum electrolytic counterparts. A ceramic capacitor typically has very low ESR, is
lowest cost, has a smaller PCB footprint, and is nonpolarized. Low ESR ceramic capacitors help maximize
charge pump transient response. Since ceramic capacitors are non-polarized, they are not prone to incorrect
connection damage.
To achieve adequate electrical and thermal performance,
careful attention must be given to the PCB layout. In the
worst-case operating condition, the chip must dissipate
considerable power at full load. Adequate heat-sinking
must be achieved to ensure intended operation.
Equivalent Series Resistance
The junction-to-ambient thermal resistance (θJA) for the
package can be significantly reduced by following a
couple of important PCB design guidelines.
ESR is an important characteristic to consider when
selecting a capacitor. ESR is a resistance internal to a
capacitor that is caused by the leads, internal connections, size or area, material composition, and ambient
temperature. Capacitor ESR is typically measured in milliohms for ceramic capacitors and can range to more
than several ohms for tantalum or aluminum electrolytic
capacitors.
Ceramic Capacitor Materials
Ceramic capacitors less than 0.1μF are typically made
from NPO or C0G materials. NPO and C0G materials generally have tight tolerance and are very stable over temperature. Larger capacitor values are usually composed
of X7R, X5R, Z5U, or Y5V dielectric materials. Large
ceramic capacitors are often available in lower-cost
dielectrics, but capacitors greater than 4.7μF are not
typically required for AAT3177 applications.
Capacitor area is another contributor to ESR. Capacitors
that are physically large will have a lower ESR when
compared to an equivalent material smaller capacitor.
12
Figure 4 illustrates an example of an adequate PCB layout. The bottom of the package features an exposed
metal paddle. The exposed paddle acts, thermally, to
transfer heat from the chip and, electrically, as a ground
connection.
The PCB area directly underneath the package should be
plated so that the exposed paddle can be mated to the
top layer PCB copper during the re-flow process. This
area should also be connected to the top layer ground
pour when available. Further, multiple copper plated
thru-holes should be used to electrically and thermally
connect the top surface paddle area to additional ground
plane(s) and/or the bottom layer ground pour.
The chip ground is internally connected to both the paddle
and the GND pin. The GND pin conducts large currents
and it is important to minimize any differences in potential
that can result between the GND pin and exposed paddle.
It is good practice to connect the GND pin to the exposed
paddle area using a trace as shown in Figure 4.
The flying capacitors C1 and C2 should be connected
close to the chip. Trace length should be kept short to
minimize path resistance and potential coupling. The
input and output capacitors should also be placed as
close to the chip as possible.
www.analogictech.com
3177.2008.06.1.0
PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Evaluation Board User Interface
The user interface for the AAT3177 evaluation board is
provided by 3 buttons and a couple of connection terminals. The board is operated by supplying external power
and pressing individual buttons or button combinations.
The table below indicates the function of each button or
button combination.
To power-on the evaluation board, connect a power supply
or battery to the DC- and DC+ terminals. Make the board’s
supply connection by positioning the J1 jumper to the ON
position. A red LED indicates that power is applied.
The evaluation board is made flexible so that the user
can disconnect the enable line from the microcontroller
and apply an external enable signal. By removing the
jumper from J2, an external enable signal can be applied
to the board. Apply the external enable signal to the ON
pin of the J2 terminal.
Figure 4: Example PCB Layout.
3177.2008.06.1.0
When applying an external enable signal, consideration
must be given to the voltage level. The externally
applied voltage cannot exceed the supply voltage that is
applied to the VIN pins of the device (i.e., DC+).
www.analogictech.com
13
PRODUCT DATASHEET
AAT3177
ChargePumpTM
Button(s) Pushed1, 2
DATA
MOVIE+DATA
FLASH
MOVIE
DATA+FLASH+MOVIE
High Current, High Efficiency Charge Pump with Auto-Timer
Description
Increments through the 16 data settings. Hold down to auto-cycle.
Decrement the data setting. Hold down to auto-cycle.
Generate a flash pulse. Current level determined by the DATA setting (defaults to DATA 1). Trim-pot
VR4 sets timeout duration. Flash will not time out for low current settings (DATA=5-16).
Toggle on/off movie mode illumination. Current level determined by the DATA setting. Leave on to see
effects of changing DATA. Movie mode will time out for high current settings (DATA=1-4).
Reset, shutdown.
Table 5: Evaluation Board User Interface.
Figure 5: AAT3177 Evaluation Board
Top Side Layout.
Figure 6: AAT3177 Evaluation Board
Bottom Side Layout.
1. The ‘+’ sign indicates that these buttons are all pressed and released together.
2. Flash timeout duration is adjustable from 10ms to 2 seconds. Rotate trim pot VR4 clockwise to reduce the duration. When the timeout duration determined by the value of CT
is set to be less than the VR4 setting, it will supersede.
14
www.analogictech.com
3177.2008.06.1.0
PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Evaluation Board Schematic
DC-
DC+
J1
VIN
C4
4.7μF
C1
1μF
OSRAM OPTO
Ceramos Flash LED
LW C9SP
D1
R8
187K
U1
AAT3177
1
2
3
4
5
6
VIN
VIN
C1+
VOUT
C1C2+
GND
C2F1
CT
RSET EN/SET
12
11
10
9
8
7
C2
1μF
R8 = 187K
for 600mA
C3
2.2μF
C5
0.1μF
R6
100K
J2
DC+
R7
220
R3
1K
DATA
SW3
FLASH
SW2
MOVIE
SW1
R2
1K
R1
1K
U2
1
VDD
2
GP5
3
GP4
4
GP3
VSS
GP0
GP1
GP2
8
7
6
5
VR4
POT10K
C6
1uF
R5
330
LED7
RED
PIC12F675
Figure 7: AAT3177 Evaluation Board Schematic.
Evaluation Board Component Listing
Component
Part Number
Description
Manufacturer
U1
U2
D1
R1-R3
C1-C2
C3
C4
C5
C6
R5
R6
R7
R8
VR4
LED7
J1-J2
SW1-SW3
AAT3177
PIC12F675
LW C9SP
Chip Resistor
GRM18x
GRM18x
GRM18x
GRM18x
GRM31x
Chip Resistor
Chip Resistor
Chip Resistor
Chip Resistor
EVN-5ESX50B14
CMD15-21SRC/TR8
PRPN401PAEN
PTS645TL50
Tri-Mode High Eff. CP for White LED Flash; DFN33-12 Package
8-bit CMOS, FLASH-based μC; 8-pin PDIP Package
Ceramos TopLooker, High Brightness Flash LED
1K, 5%, 1/4W; 1206
1.0μF, 10V, X5R, 0603, Ceramic
2.2μF, 10V, X5R, 0603, Ceramic
4.7μF, 6.3V, X5R, 0603, Ceramic
0.1μF, 16V, X7R, 0603, Ceramic
1.0μF, 10V, X5R, 1206, Ceramic
330, 5%, 1/4W; 1206
100K, 5%, 1/4W; 1206
220, 5%, 1/4W; 1206
187K, 1%, 1/10W; 0603
10K POT; 3mm Squared SMD
Red LED; 1206
Conn. Header, 2mm
Switch Tact, SPST, 5mm
AnalogicTech
Microchip
OSRAM OPTO
Vishay
Murata
Murata
Murata
Murata
Murata
Vishay
Vishay
Vishay
Vishay
Panasonic-ECG
Chicago Miniature Lamp
Sullins Electronics
ITT Industries
3177.2008.06.1.0
www.analogictech.com
15
PRODUCT DATASHEET
AAT3177
ChargePumpTM
High Current, High Efficiency Charge Pump with Auto-Timer
Ordering Information
Package
Marking1
Part Number (Tape and Reel)2
TDFN33-12
4AXYY
AAT3177IWP-T1
All AnalogicTech products are offered in Pb-free packaging. The term “Pb-free” means semiconductor
products that are in compliance with current RoHS standards, including the requirement that lead not exceed
0.1% by weight in homogeneous materials. For more information, please visit our website at
http://www.analogictech.com/about/quality.aspx.
Package Information3
TDFN33-12
Index Area
0.43 ± 0.05
0.1 REF
C0.3
0.45 ± 0.05
2.40 ± 0.05
3.00 ± 0.05
Detail "A"
3.00 ± 0.05
1.70 ± 0.05
Top View
Bottom View
0.23 ± 0.05
Pin 1 Indicator
(optional)
0.05 ± 0.05
0.23 ± 0.05
0.75 ± 0.05
Detail "A"
Side View
All dimensions in millimeters.
1. XYY = assembly and date code.
2. Sample stock is generally held on part numbers listed in BOLD.
3. The leadless package family, which includes QFN, TQFN, DFN, TDFN and STDFN, has exposed copper (unplated) at the end of the lead terminals due to the manufacturing
process. A solder fillet at the exposed copper edge cannot be guaranteed and is not required to ensure a proper bottom solder connection.
Advanced Analogic Technologies, Inc.
3230 Scott Boulevard, Santa Clara, CA 95054
Phone (408) 737-4600
Fax (408) 737-4611
© Advanced Analogic Technologies, Inc.
AnalogicTech cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in an AnalogicTech product. No circuit patent licenses, copyrights, mask work rights, or other intellectual
property rights are implied. AnalogicTech reserves the right to make changes to their products or specifications or to discontinue any product or service without notice. Except as provided in AnalogicTech’s terms and
conditions of sale, AnalogicTech assumes no liability whatsoever, and AnalogicTech disclaims any express or implied warranty relating to the sale and/or use of AnalogicTech products including liability or warranties
relating to fitness for a particular purpose, merchantability, or infringement of any patent, copyright or other intellectual property right. In order to minimize risks associated with the customer’s applications, adequate
design and operating safeguards must be provided by the customer to minimize inherent or procedural hazards. Testing and other quality control techniques are utilized to the extent AnalogicTech deems necessary to
support this warranty. Specific testing of all parameters of each device is not necessarily performed. AnalogicTech and the AnalogicTech logo are trademarks of Advanced Analogic Technologies Incorporated. All other
brand and product names appearing in this document are registered trademarks or trademarks of their respective holders.
16
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3177.2008.06.1.0