Datasheet
Data Sheet ADP5052
Rev. 0 | Page 31 of 40
CIRCUIT BOARD LAYOUT RECOMMENDATIONS
Good circuit board layout is essential to obtain the best perfor-
mance from the ADP5052 (see Figure 53). Poor layout can affect
the regulation and stability of the part, as well as the electro-
magnetic interference (EMI) and electromagnetic compatibility
(EMC) performance. Refer to the following guidelines for a good
PCB layout.
• Place the input capacitor, inductor, MOSFET, output
capacitor, and bootstrap capacitor close to the IC.
• Use short, thick traces to connect the input capacitors
to the PVINx pins, and use dedicated power ground to
connect the input and output capacitor grounds to
minimize the connection length.
• Use several high current vias, if required, to connect
PVINx, PGNDx, and SWx to other power planes.
• Use short, thick traces to connect the inductors to the
SWx pins and the output capacitors.
• Ensure that the high current loop traces are as short and wide
as possible. Figure 52 shows the high current path.
• Maximize the amount of ground metal for the exposed pad,
and use as many vias as possible on the component side to
improve thermal dissipation.
• Use a ground plane with several vias connecting to the com-
ponent side ground to further reduce noise interference on
sensitive circuit nodes.
• Place the decoupling capacitors close to the VREG and
VDD pins.
• Place the frequency setting resistor close to the RT pin.
• Place the feedback resistor divider close to the FBx pin. In
addition, keep the FBx traces away from the high current
traces and the switch node to avoid noise pickup.
• Use Size 0402 or 0603 resistors and capacitors to achieve
the smallest possible footprint solution on boards where
space is limited.
V
IN
V
OUT
PVINx
ENx
GND
BSTx
SWx
ADP5052
DLx
FBx
10900-055
Figure 52. Typical Circuit with High Current Traces Shown in Blue
10900-163
Figure 53. Typical PCB Layout for the ADP5052