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CS5157HGD16G

CPU 5−Bit Synchronous Buck Controller

ON Semiconductor 

CS5157H

A heatsink may be added to TO−220 components to

reduce their thermal impedance. A number of PC board

layout techniques such as thermal vias and additional copper

foil area can be used to improve the power handling

capability of surface mount components.

EMI Management

As a consequence of large currents being turned on and off

at high frequency, switching regulators generate noise as a

consequence of their normal operation. When designing for

compliance with EMI/EMC regulations, additional

components may be added to reduce noise emissions. These

components are not required for regulator operation and

experimental results may allow them to be eliminated. The

input filter inductor may not be required because bulk filter and

bypass capacitors, as well as other loads located on the board

will tend to reduce regulator di/dt effects on the circuit board

and input power supply. Placement of the power component to

minimize routing distance will also help to reduce emissions.

2.0 mH

33 W

1000 pF

Figure 20. Filter Components

2.0 mH

+

1200 pF × 3.0/16 V

Figure 21. Input Filter

Layout Guidelines

1. Place 12 V filter capacitor next to the IC and connect

capacitor ground to pin 11 (PGND).

2. Connect pin 11 (PGND) with a separate trace to the

ground terminals of the 5.0 V input capacitors.

3. Place fast feedback filter capacitor next to pin 8 (VFFB)

and connect it’s ground terminal with a separate, wide

trace directly to pin 14 (LGND).

4. Connect the ground terminals of the Compensation

capacitor directly to the ground of the fast feedback

filter capacitor to prevent common mode noise from

effecting the PWM comparator.

5. Place the output filter capacitor(s) as close to the load

as possible and connect the ground terminal to pin 14

(LGND).

6. Connect the VFB pin directly to the load with a separate

trace (remote sense).

7. Place 5.0 V input capacitors close to the switching

MOSFET and synchronous MOSFET.

Route gate drive signals VGATE(H) (pin 10) and VGATE(L)

(pin 12 when used) with traces that are a minimum of 0.025

inches wide.

1.0 mF

VCOMP

VCC

0.1 mF

15

To the negative terminal

of the input capacitors

11

8

100 pF

5

VFFB

Soft−Start

OFF TIME

To the negative terminal of the output capacitors

Figure 22. Layout Guidelines

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