Keep the input switching current loop as small as possible.
Keep the SW node as physically small and short as possible to minimize parasitic capacitance and inductance and to minimize radiated emissions. Kelvin connections should be brought from the output to the feedback pin of the device.
Keep analog and non-switching components away from switching components.
Make a single point connection from the signal ground to power ground.
Do not allow switching current to flow under the device.
VREG5 capacitor should be placed near the device, and connected PGND.
Output capacitor should be connected to a broad pattern of the PGND.
Voltage feedback loop should be as short as possible, and preferably with ground shield.
Lower resistor of the voltage divider which is connected to the VFB pin should be tied to AGND.
Providing sufficient via is preferable for VIN, SW and PGND connection.
PCB pattern for VIN and SW should be as broad as possible.
VIN Capacitor should be placed as near as possible to the device.
The top side power ground (PGND) copper fill area near the IC should be as large as possible. This will aid in thermal dissipation as well lower conduction losses in the ground return
Exposed pad of device must be connected to PGND with solder. The PGND area under the IC should be as large as possible and completely cover the exposed thermal pad. The bottom side of the board should contain a large copper area under the device that is directly connected to the exposed area with small diameter vias. Small diameter vias will prevent solder from being drawn away from the exposed thermal pad. Any additional internal layers should also contain copper ground areas under the device and be connected to the thermal vias.