SLUSDD5A April 2019 – December 2020 UC1825B-SP
PRODUCTION DATA
Make all of the power (high current) traces as
short, direct, and thick as possible. It is good practice on a standard PCB board to make
the traces an absolute minimum of 15 mils (0.381 mm) per Ampere. The inductor, output
capacitors, and output diode must be as close as possible to each other. This helps reduce
the EMI radiated by the power traces due to the high switching currents through them. This
will also reduce lead inductance and resistance as well, which in turn reduces noise spikes,
ringing, and resistive losses that produce voltage errors. The grounds of the IC, input
capacitors, output capacitors, and output diode (if applicable) must be connected close
together directly to a ground plane. It would also be a good idea to have a ground plane on
both sides of the PCB. This will reduce noise as well by reducing ground loop errors as well
as by absorbing more of the EMI radiated by the inductor. For multilayer boards with more
than two layers, a ground plane can be used to separate the power plane (where the power
traces and components are) and the signal plane (where the feedback, compensation, and
components are) for improved performance. On multilayer boards, the use of vias will be
required to connect traces and different planes. It is good practice to use one standard via
per
200 mA of current if the trace must conduct a significant
amount of current from one plane to the other. Arrange the components so that the switching
current loops curl in the same direction. Due to the way switching regulators operate, there
are two power states. One state when the switch is on and one state when the switch is off.
During each state there will be a current loop made by the power components that are
currently conducting. Place the power components so that during each of the two states the
current loop is conducting in the same direction. This prevents magnetic field reversal
caused by the traces between the two half-cycles and reduces radiated EMI.