MIC94043YFL TR Micrel Inc, MIC94043YFL TR Datasheet - Page 11

MIC94043YFL TR

Manufacturer Part Number

MIC94043YFL TR

Description

High-side Load Switch 3A, 28mohm

Manufacturer

Micrel Inc

Type

High Sider

Datasheet

1.MIC94040YFL_TR.pdf (13 pages)

Specifications of MIC94043YFL TR

Input Type

Non-Inverting

Number Of Outputs

On-state Resistance

28 mOhm

Current - Output / Channel

Current - Peak Output

Voltage - Supply

1.7 V ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

4-MLF®, QFN

Switch Type

High Side

Power Switch Family

MIC94043

Input Voltage

1.7 to 5.5V

Power Switch On Resistance

82mOhm

Output Current

Mounting

Surface Mount

Supply Current

Package Type

Thin MLF

Operating Temperature (min)

-40C

Operating Temperature Classification

Automotive

Pin Count

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

576-3228-2

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Application Information

Power Dissipation Considerations

As with all power switches, the current rating of the

switch is limited mostly by the thermal properties of the

package and the PCB it is mounted on. There is a

simple ohms law type relationship between thermal

resistance, power dissipation and temperature, which

are analogous to an electrical circuit:

From this simple circuit we can calculate Vx if we know

Isource, Vz and the resistor values, Rxy and Ryz using

the equation:

Thermal circuits can be considered using these same

rules and can be drawn similarly by replacing current

sources with power dissipation (in Watts), resistance

with thermal resistance (in

with temperature (in

Now replacing the variables in the equation for Vx, we

can find the junction temperature (T

dissipation, ambient temperature and the known thermal

resistance of the PCB (Rq

the operating ratings section of the datasheet and Rq

(the PCB thermal resistance) values for various PCB

copper areas is discussed in the document “Designing

with Low Dropout Voltage Regulators” available from the

Micrel website (LDO Application Hints).

Micrel, Inc.

May 2008

DISS

is calculated as I

= P

Isource

DISS

Figure 1. Simple Electrical Circuit

Figure 2. Simple Thermal Circuit

x (Rq

◊

(

Rxy

C).

+ Rq

SWITCH

Ryz

) and the package (Rq

)

) + T

C/W) and voltage sources

x R

SWmax

. Rq

) from power

is found in

Example:

A switch is intended to drive a 2A load and is placed on

a printed circuit board which has a ground plane area of

at least 25mm by 25mm (625mm

is a Li-ion battery with a lower operating threshold of 3V

and the ambient temperature of the assembly can be up

to 50

Summary of variables:

The worst case switch resistance (R

lower value of V

If this were a figure for worst case R

additional consideration is to allow for the maximum

junction temperature of 125

resistance in this case can be 30% higher (See R

variance vs. temperature graph). However, 90mΩ is the

maximum over temperature.

Therefore:

This is below the maximum 125

of 3V is not available in the datasheet, so the next

DISS

SWmax

= 2

= 101

= 50

= 2A

= 3V to 4.2V

= 90

= 53

= I

Figure 3. Excerpt from the LDO Book

x 0.090 x (90+53) + 50

@ 2.5v = 90mW

C/W from Datasheet

C/W Read from Graph in Figure 3

x R

is used.

SWmax

C, the actual worst case

). The Voltage source

SWmax

M9999-053008-A

MIC94040/1/2/3

) at the lowest

for 25

C, an

DSON

MIC94043YFL TR Micrel Inc, MIC94043YFL TR Datasheet - Page 11

MIC94043YFL TR

Specifications of MIC94043YFL TR

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