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MAX15053_1107 Datasheet, PDF (19/21 Pages) Maxim Integrated Products – High-Efficiency, 2A, Current-Mode Synchronous, Step-Down Switching Regulator
High-Efficiency, 2A, Current-Mode
Synchronous, Step-Down Switching Regulator
INPUT
2.7V TO 5.5V
CIN
22µF
RPULL
20kI
ENABLE
ON
OFF
CSS
22nF
IN
LX
MAX15053
PGOOD
GND
EN
SKIP
SS/REFIN
FB
COMP
LOUT
1µH
1.2I
1nF
RC
2.32kI
CC
3.3nF
OUTPUT
1.8V AT 2A
COUT
22µF
CFF
R1
100pF 8.06kI
R2
4.02kI
Figure 5. Application Circuit for PWM Mode Operation
Power Dissipation
The MAX15053 is available in a 9-bump WLP package
and can dissipate up to 1127mW at TA = +70NC. When
the die temperature exceeds +150NC, the thermal-shut-
down protection is activated (see the Thermal-Shutdown
Protection section).
Layout Procedure
Careful PCB layout is critical to achieve clean and stable
operation. It is highly recommended to duplicate the
MAX15053 Evaluation Kit layout for optimum perfor-
mance. If deviation is necessary, follow these guidelines
for good PCB layout:
1) Connect the signal and ground planes at a single
point immediately adjacent to the GND bump of the
IC.
2) Place capacitors on IN and SS/REFIN as close as
possible to the IC and the corresponding pad using
direct traces.
3) Keep the high-current paths as short and wide as
possible. Keep the path of switching current short
and minimize the loop area formed by LX, the output
capacitors, and the input capacitors.
4) Connect IN, LX, and GND separately to a large cop-
per area to help cool the IC to further improve effi-
ciency.
5) Ensure all feedback connections are short and
direct. Place the feedback resistors and compensa-
tion components as close as possible to the IC.
6) Route high-speed switching nodes (such as LX)
away from sensitive analog areas (such as FB and
COMP).
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