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MAX5099

Dual, 2.2MHz, Automotive Synchronous Buck

Converter with 80V Load-Dump Protection

24 ______________________________________________________________________________________

PCB Layout Guidelines

Careful PCB layout is critical to achieve low switching

losses and clean, stable operation. This is especially

true for dual converters where one channel can affect

the other. Refer to the MAX5098A/MAX5099 Evaluation

Kit data sheet for a specific layout example. Use a mul-

tilayer board whenever possible for better noise immu-

nity. Follow these guidelines for good PCB layout:

1) For SGND, use a large copper plane under the IC

and solder it to the exposed paddle. To effectively

use this copper area as a heat exchanger between

the PCB and ambient, expose this copper area on

the top and bottom side of the PCB. Do not make a

direct connection from the exposed pad copper

plane to SGND underneath the IC.

2) Isolate the power components and high-current

path from the sensitive analog circuitry.

3) Keep the high-current paths short, especially at the

ground terminals. This practice is essential for sta-

ble, jitter-free operation.

4) Connect SGND and PGND together at a single

point. Do not connect them together anywhere else

(refer to the MAX5099 Evaluation Kit data sheet for

more information).

5) Keep the power traces and load connections short.

This practice is essential for high efficiency. Use

thick copper PCBs (2oz vs. 1oz) to enhance full-

load efficiency.

6) Ensure that the feedback connection to C

OUT

short and direct.

7) Route high-speed switching nodes (BST_/VDD_,

SOURCE_) away from the sensitive analog areas

(BYPASS, COMP_, and FB_). Use the internal PCB

layer for SGND as an EMI shield to keep radiated

noise away from the IC, feedback dividers, and

analog bypass capacitors.

Layout Procedure

1) Place the power components first, with ground ter-

minals adjacent (inductor, C

IN_

, and C

OUT_

). Make

all these connections on the top layer with wide,

copper-filled areas (2oz copper recommended).

2) Group the gate-drive components (bootstrap

diodes and capacitors, and V

bypass capacitor)

together near the controller IC.

3) Make the DC-DC controller ground connections as

follows:

a) Create a signal ground plane underneath the IC.

b) Connect this plane to SGND and use this plane

for the ground connection for the reference

(BYPASS), enable, compensation components,

feedback dividers, and OSC resistor.

c) Connect SGND and PGND together (this is the

only connection between SGND and PGND).

Refer to the MAX5098A/MAX5099 Evaluation Kit

data sheet for more information.