Texas Instruments TPS54810 User Manual

TPS54810

SLVS420B − MARCH 2002 − R EVISED FEBRUARY 2005

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9

PCB LAYOUT

Figure 10 shows a generalized PCB layout guide for the

TPS54810

The VIN pins are connected together on the printed-circuit

board (PCB) and bypassed with a low-ESR

ceramic-bypass capacitor. Care should be taken to
minimize the loop area formed by the bypass capacitor

connections, the VIN pins, and the TPS54810 ground

pins. The minimum recommended bypass capacitance is

10-µF ceramic capacitor with a X5R or X7R dielectric and

the optimum placement is closest to the VIN pins and the

PGND pins.

The TPS54810 has two internal grounds (analog and

power). Inside the TPS54810, the analog ground ties to all

of the noise sensitive signals, while the power ground ties

to the noisier power signals. Noise injected between the

two grounds can degrade the performance of the

TPS54810, particularly at higher output currents. Ground

noise on an analog ground plane can also cause problems
with some of the control and bias signals. For these

reasons, separate analog and power ground traces are

recommended. There is an area of ground on the top layer

directly under the IC, with an exposed area for connection

to the PowerPAD. Use vias to connect this ground area to

any internal ground planes. Additional vias are also used
at the ground side of the input and output filter capacitors.

The AGND and PGND pins are tied to the PCB ground by

connecting them to the ground area under the device as

shown. The only components that tie directly to the power

ground plane are the input capacitors, the output

capacitors, the input voltage decoupling capacitor, and the

PGND pins of the TPS54810. Use a separate wide trace

for the analog ground signal path. The analog ground is

used for the voltage set point divider, timing resistor RT,

slow-start capacitor and bias capacitor grounds. Connect
this trace directly to AGND (Pin 1).

The PH pins are tied together and routed to the output

inductor. Since the PH connection is the switching node,

the inductor is located close to the PH pins. The area of the

PCB conductor is minimized to prevent excessive

capacitive coupling.

Connect the boot capacitor between the phase node and

the BOOT pin as shown Keep the boot capacitor close to

the IC and minimize the conductor trace lengths.

Connect the output filter capacitor(s) as shown between
the VOUT trace and PGND. It is important to keep the loop

formed by the PH pins, L

OUT

, C

OUT

and PGND as small as

practical.

Place the compensation components from the VOUT trace

to the VSENSE and COMP pins. Do not place these

components too close to the PH trace. Due to the size of

the IC package and the device pin-out, they must be routed

close, but maintain as much separation as possible while
still keeping the layout compact.

Connect the bias capacitor from the VBIAS pin to analog

ground using the isolated analog ground trace. If a

slow-start capacitor or RT resistor is used, or if the SYNC

pin is used to select 350-kHz operating frequency, connect

them to this trace.