MIC4680_08 MICREL [Micrel Semiconductor], MIC4680_08 Datasheet - Page 11

MIC4680_08

Manufacturer Part Number

MIC4680_08

Description

1A 200kHz SuperSwitcher Buck Regulator

Manufacturer

MICREL [Micrel Semiconductor]

Datasheet

1.MIC4680_08.pdf (15 pages)

Current page: 11 of 15
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Thermal Considerations

The MIC4680 SuperSwitcher features the power-SOIC-

8. This package has a standard 8-pin small-outline

package profile but with much higher power dissipation

than a standard SOIC-8. The MIC4680 SuperSwitcher is

the first dc-to-dc converter to take full advantage of this

package.

The reason that the power SOIC-8 has higher power

dissipation (lower thermal resistance) is that pins 5

though 8 and the die-attach paddle are a single piece of

metal. The die is attached to the paddle with thermally

conductive adhesive. This provides a low thermal

resistance path from the junction of the die to the ground

pins. This design significantly improves package power

dissipation by allowing excellent heat transfer through

the ground leads to the printed circuit board.

One of the limitation of the maximum output current on

any MIC4680 design is the junction-to-ambient thermal

resistance (θ

plane).Examining θ

where:

the connection of pins 5 though 8 to the ground plane.

The purpose of the ground plane is to function as a heat

sink.

of the ground plane to which the power SOIC-8 is

attached.

Determining Ground-Plane Heat-Sink Area

There are two methods of determining the minimum

ground plane area required by the MIC4680.

Quick Method

Make sure that MIC4680 pins 5 though 8 are connected

to a ground plane with a minimum area of 6cm

ground plane should be as close to the MIC4680 as

possible. The area maybe distributed in any shape

around the package or on any pcb layer as long as there

is good thermal contact to pins 5 though 8. This ground

plane area is more than sufficient for most designs.

Micrel, Inc.

March 2008

is a relatively constant 20°C/W for a power SOIC-8.

is ideally 63°C/W but will vary depending on the size

is dependent on layout and is primarily governed by

= (θ

= junction-to-case thermal resistance

= case-to-ambient thermal resistance

) of the design (package and ground

+ θ

in more detail:

)

. This

Minimum Copper/Maximum Current Method

Using Figure 3, for a given input voltage range,

determine the minimum ground-plane heat-sink area

required for the application’s maximum output current.

Figure 3 assumes a constant die temperature of 75°C

above ambient.

When designing with the MIC4680, it is a good practice

to connect pins 5 through 8 to the largest ground plane

that is practical for the specific design.

Checking the Maximum Junction Temperature:

For this example, with an output power (P

output at 1A maximum with V

maximum ambient temperature, what is the maximum

junction temperature?

Referring to the “Typical Characteristics: 5V Output

Efficiency” graph, read the efficiency (η) for 1A output

current at V

The efficiency is used to determine how much of the

output power (P

Figure 3. Output Current vs. Ground Plane Area

η = 79%

Figure 2. Power SOIC-8 Cross Section

1.5

1.0

0.5

= 12V or perform you own measurement.

OUT

printed circuit board

Minimum Current Limit = 1.3A

SOIC-8

) is dissipated in the regulator circuit

24V

12V

34V

AREA (cm

)

= 50°C

= 12V) and 65°C

heat sink area

ground plane

OUT

M9999-032808

) of 5W, (5V

MIC4680

MIC4680_08 MICREL [Micrel Semiconductor], MIC4680_08 Datasheet - Page 11

MIC4680_08

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