EN6337QI3 ENPIRION [Enpirion, Inc.], EN6337QI3 Datasheet - Page 14

EN6337QI3

Manufacturer Part Number

EN6337QI3

Description

3A Voltage Mode Synchronous Buck PWM DC-DC Converter with Integrated Inductor

Manufacturer

ENPIRION [Enpirion, Inc.]

Datasheet

1.EN6337QI3.pdf (17 pages)

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The

Characteristics table on page 3 is for free

convection with the device heat sunk (through

the thermal pad) to a copper plated four-layer

PC board with a full ground and a full power

plane

Layout Recommendations

Figure 7 shows critical components and layer 1

traces of a recommended minimum footprint

EN6337QI layout with ENABLE tied to V

PWM mode. Alternate ENABLE configurations,

and other small signal pins need to be

connected and routed according to specific

customer application. Please see the Gerber

files on the Enpirion website

for exact dimensions and other layers. Please

refer to this Figure while reading the layout

recommendations in this section.

Recommendation 1: Input and output filter

capacitors should be placed on the same side

of the PCB, and as close to the EN6337QI

package

connected to the device with very short and

wide traces. Do not use thermal reliefs or

spokes when connecting the capacitor pads to

the respective nodes. The +V and GND traces

between the capacitors and the EN6337QI

should be as close to each other as possible

so that the gap between the two nodes is

minimized, even under the capacitors.

Recommendation 2: Three PGND pins are

dedicated to the input circuit, and three to the

output circuit. The slit in Figure 7 separating

the input and output GND circuits helps

minimize noise coupling between the converter

input and output switching loops.

Recommendation 3: The system ground

plane should be the first layer immediately

below the surface layer. This ground plane

should be continuous and un-interrupted below

the converter and the input/output capacitors.

Please see the Gerber files on the Enpirion

website www.enpirion.com.

Recommendation 4: The large thermal pad

underneath the component must be connected

to the system ground plane through as many

vias as possible.

05800

following

value

possible.

shown

EIA/JEDEC

They

www.enpirion.com

the

should

JESD51-7

Thermal

6/17/2011

Standard. The θ

of forced air convection. Because of the strong

dependence on the thermal effectiveness of

the PCB and the system design, the actual θ

value will be a function of the specific

application.

Figure 7: Top PCB Layer Critical Components

The drill diameter of the vias should be

0.33mm, and the vias must have at least 1 oz.

copper plating on the inside wall, making the

finished hole size around 0.20-0.26mm. Do not

use thermal reliefs or spokes to connect the

vias to the ground plane. This connection

provides the path for heat dissipation from the

converter. Please see Figures: 7, 8, and 9.

Recommendation 5: Multiple small vias (the

same size as the thermal vias discussed in

recommendation 4 should be used to connect

ground terminal of the input capacitor and

output capacitors to the system ground plane.

It is preferred to put these vias under the

capacitors along the edge of the GND copper

closest to the +V copper. Please see Figure 7.

These vias connect the input/output filter

capacitors to the GND plane, and help reduce

parasitic inductances in the input and output

current loops. If the vias cannot be placed

under C

the capacitors along the GND slit separating

the two components. Do not use thermal reliefs

or spokes to connect these vias to the ground

plane.

and Copper for Minimum Footprint

and C

OUT

can be reduced with the use

, then put them just outside

www.enpirion.com

EN6337QI

Rev: B

EN6337QI3 ENPIRION [Enpirion, Inc.], EN6337QI3 Datasheet - Page 14

EN6337QI3

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