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AAT2512 Schematic ( PDF Datasheet ) - AAT

Teilenummer AAT2512
Beschreibung Dual 400mA High Frequency Buck Converter
Hersteller AAT
Logo AAT Logo 




Gesamt 20 Seiten
AAT2512 Datasheet, Funktion
AAT2512
Dual 400mA High Frequency Buck Converter
General Description
Features
SystemPower
The AAT2512 is a member of AnalogicTech's Total
Power Management IC™ (TPMIC™) product fam-
ily. It is a dual channel synchronous buck convert-
er operating with an input voltage range of 2.7V to
5.5V, making it ideal for applications with single-
cell lithium-ion/polymer batteries.
Both regulators have independent input and
enable pins. Offered with fixed or adjustable out-
put voltages, each channel is designed to operate
with 27µA (typical) of quiescent current, allowing
for high efficiency under light load conditions.
The AAT2512 requires only three external compo-
nents (CIN, COUT, and LX) for each converter, mini-
mizing cost and real estate. Both channels are
designed to deliver 400mA of load current and
operate with a switching frequency of 1.4MHz,
reducing the size of external components.
• VIN Range: 2.7V to 5.5V
• Output Current:
— Channel 1: 400mA
— Channel 2: 400mA
• 98% Efficient Step-Down Converter
• Integrated Power Switches
• 100% Duty Cycle
• 1.4MHz Switching Frequency
• Internal Soft Start
• 150µs Typical Turn-On Time
• Over-Temperature Protection
• Current Limit Protection
• Available in TDFN33-12 Package
• -40°C to +85°C Temperature Range
Applications
The AAT2512 is available in
TDFN33 package and is rated
+85°C temperature range.
a Pb-free, 12-pin
over the -40°C to
www.DataSheet4U.com
Cellular Phones
Digital Cameras
Handheld Instruments
Microprocessor / DSP Core/ IO Power
PDAs and Handheld Computers
Typical Application
V BAT
CIN
VIN1
LX1
VIN2
FB1
AAT2512
EN1 LX2
EN2 FB2
GND
L1
4.7µH
V OUT1
VOUT2
L2
4.7µH
4.7µF
COUT
4.7µF
2512.2006.06.1.4
1






AAT2512 Datasheet, Funktion
AAT2512
Dual 400mA High Frequency Buck Converter
Typical Characteristics
EN1 = VIN; EN2 = GND.
Soft Start
(VIN = 3.6V; VOUT = 1.8V; IOUT = 400mA)
5.0
4.0 VEN
3.0
2.0
1.0
0.0
-1.0
-2.0
-3.0
-4.0
-5.0
VO
IL
Time (100μs/div)
1.6
1.4
1.2
1.0
0.8
0.6
0.4
0.2
0.0
-0.2
-0.4
Line Regulation
(VOUT = 1.8V)
0.40
0.30
0.20 IOUT = 10mA
0.10
0.00
-0.10
-0.20
-0.30
IOUT = 1mA
IOUT = 400mA
-0.40
2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0
Input Voltage (V)
Output Voltage Error vs. Temperature
(VIN = 3.6V; VO = 1.8V; IOUT = 400mA)
2.0
1.0
0.0
-1.0
-2.0
-40
-20
0 20 40 60
Temperature (°C)
80 100
Switching Frequency vs. Temperature
(VIN = 3.6V; VOUT = 1.8V)
15.0
12.0
9.0
6.0
3.0
0.0
-3.0
-6.0
-9.0
-12.0
-15.0
-40
-20
0
20 40 60 80 100
Temperature (°C)
Frequency vs. Input Voltage
2.0
1.0 VOUT = 1.8V
0.0
-1.0
VOUT = 2.5V
VOUT = 3.3V
-2.0
-3.0
-4.0
2.7 3.1 3.5 3.9 4.3 4.7 5.1 5.5
Input Voltage (V)
No Load Quiescent Current vs. Input Voltage
50
45
40
35 85°C 25°C
30
25
20
15 -40°C
10
2.7 3.1 3.5 3.9 4.3 4.7 5.1 5.5
Input Voltage (V)
6 2512.2006.06.1.4

6 Page









AAT2512 pdf, datenblatt
AAT2512
Dual 400mA High Frequency Buck Converter
The output voltage droop due to a load transient is
dominated by the capacitance of the ceramic out-
put capacitor. During a step increase in load cur-
rent the ceramic output capacitor alone supplies
the load current until the loop responds. As the loop
responds, the inductor current increases to match
the load current demand. This typically takes two
to three switching cycles and can be estimated by:
COUT
=
3 · ΔILOAD
VDROOP · FS
Once the average inductor current increases to the
DC load level, the output voltage recovers. The
above equation establishes a limit on the minimum
value for the output capacitor with respect to load
transients.
The internal voltage loop compensation also limits
the minimum output capacitor value to 4.7µF. This
is due to its effect on the loop crossover frequency
(bandwidth), phase margin, and gain margin.
Increased output capacitance will reduce the
crossover frequency with greater phase margin.
The maximum output capacitor RMS ripple current
is given by:
I =RMS(MAX)
1
·
3
VOUT · (VIN(MAX) - VOUT)
L · F · VIN(MAX)
Dissipation due to the RMS current in the ceramic
output capacitor ESR is typically minimal, resulting in
less than a few degrees rise in hot spot temperature.
Adjustable Output Resistor Selection
For applications requiring an adjustable output volt-
age, the 0.6V version can be programmed exter-
nally. Resistors R1 through R4 of Figure 2 program
the output to regulate at a voltage higher than 0.6V.
To limit the bias current required for the external
feedback resistor string, the minimum suggested
value for R2 and R4 is 59kΩ. Although a larger
value will reduce the quiescent current, it will also
increase the impedance of the feedback node,
making it more sensitive to external noise and
interference. Table 2 summarizes the resistor val-
ues for various output voltages with R2 and R4 set
to either 59kΩ for good noise immunity or 221kΩ
for reduced no load input current.
R1
=
VOUT
VREF
-1⎞⎠
·
R2
=
1.5V
0.6V
-
1⎞⎠
·
59kΩ
=
88.5kΩ
The adjustable version of the AAT2512 in combina-
tion with an external feedforward capacitor (C4 and
C5 of Figure 2) delivers enhanced transient
response for extreme pulsed load applications. The
addition of the feedforward capacitor typically
requires a larger output capacitor (C1 and C2) for
stability.
VOUT (V)
0.8
0.9
1.0
1.1
1.2
1.3
1.4
1.5
1.8
1.85
2.0
2.5
3.3
R2, R4 = 59kΩ
R1, R3 (kΩ)
19.6
29.4
39.2
49.9
59.0
68.1
78.7
88.7
118
124
137
187
267
R2, R4 = 221kΩ
R1, R3
75K
113K
150K
187K
221K
261K
301K
332K
442K
464K
523K
715K
1.00M
Table 2: Adjustable Resistor Values
For Use With 0.6V Version.
12 2512.2006.06.1.4

12 Page





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