SI1499DH-T1-GE3 Datasheet SI1499DH-T1-E3, SI1499DH-T1-GE3 | P7-P9

AN815

Vishay Siliconix

Document Number: 71334

12-Dec-03

www.vishay.com

Single-Channel LITTLE FOOTR SC-70 6-Pin MOSFET

Copper Leadframe Version

Recommended Pad Pattern and Thermal Performance

INTRODUCTION

The new single 6-pin SC-70 package with a copper leadframe

enables improved on-resistance values and enhanced

thermal performance as compared to the existing 3-pin and

6-pin packages with Alloy 42 leadframes. These devices are

intended for small to medium load applications where a

miniaturized package is required. Devices in this package

come in a range of on-resistance values, in n-channel and

p-channel versions. This technical note discusses pin-outs,

package outlines, pad patterns, evaluation board layout, and

thermal performance for the single-channel version.

BASIC PAD PATTERNS

See Application Note 826, Recommended Minimum Pad

Patterns With Outline Drawing Access for Vishay Siliconix

MOSFETs, (http://www.vishay.com/doc?72286) for the basic

pad layout and dimensions. These pad patterns are sufficient

for the low to medium power applications for which this

package is intended. Increasing the drain pad pattern yields a

reduction in thermal resistance and is a preferred footprint.

The availability of four drain leads rather than the traditional

single drain lead allows a better thermal path from the package

to the PCB and external environment.

PIN-OUT

Figure 1 shows the pin-out description and Pin 1

identification.The pin-out of this device allows the use of four

pins as drain leads, which helps to reduce on-resistance and

junction-to-ambient thermal resistance.

FIGURE 1.

SOT-363

SC-70 (6-LEADS)

Top View

For package dimensions see outline drawing SC-70 (6-Leads)

(http://www.vishay.com/doc?71154)

EVALUATION BOARDS  SINGLE SC70-6

The evaluation board (EVB) measures 0.6 inches by

0.5 inches. The copper pad traces are the same as in Figure 2.

The board allows examination from the outer pins to 6-pin DIP

connections, permitting test sockets to be used in evaluation

testing. See Figure 3.

FIGURE 2. SC-70 (6 leads) Single

52 (mil)

96 (mil)

13 (mil)

71 (mil)

0, 0 (mil)

18 (mil)

16 (mil)

26 (mil)

654

321

The thermal performance of the single 6-pin SC-70 has been

measured on the EVB, comparing both the copper and

Alloy 42 leadframes. This test was first conducted on the

traditional Alloy 42 leadframe and was then repeated using the

1-inch

PCB with dual-side copper coating.

AN815

Vishay Siliconix

www.vishay.com

Document Number: 71334

12-Dec-03

FIGURE 3.

Front of Board SC70-6

Back of Board SC70-6

vishay.com

THERMAL PERFORMANCE

Junction-to-Foot Thermal Resistance

(Package Performance)

The junction to foot thermal resistance is a useful method of

comparing different packages thermal performance.

A helpful way of presenting the thermal performance of the

6-Pin SC-70 copper leadframe device is to compare it to the

traditional Alloy 42 version.

Thermal performance for the 6-pin SC-70 measured as

junction-to-foot thermal resistance, where the “foot” is the

drain lead of the device at the bottom where it meets the PCB.

The junction-to-foot thermal resistance is typically 40_C/W in

the copper leadframe and 163_C/W in the Alloy 42 leadframe

— a four-fold improvement. This improved performance is

obtained by the enhanced thermal conductivity of copper over

Alloy 42.

Power Dissipation

The typical Rq

for the single 6-pin SC-70 with copper

leadframe is 103_C/W steady-state, compared with 212_C/W

for the Alloy 42 version. The figures are based on the 1-inch

FR4 test board. The following example shows how the thermal

resistance impacts power dissipation for the two different

leadframes at varying ambient temperatures.

ALLOY 42 LEADFRAME

Room Ambient 25 _C Elevated Ambient 60 _C

J(max)

* T

150

C * 25

212

CńW

+ 590 mW

J(max)

* T

150

C * 25

212

CńW

+ 425 mW

COOPER LEADFRAME

Room Ambient 25 _C Elevated Ambient 60 _C

J(max)

* T

150

C * 25

124

CńW

+ 1.01 W

J(max)

* T

150

C * 60

124

CńW

+ 726 mW

As can be seen from the calculations above, the compact 6-pin

SC-70 copper leadframe LITTLE FOOT power MOSFET can

handle up to 1 W under the stated conditions.

Testing

To further aid comparison of copper and Alloy 42 leadframes,

Figure 5 illustrates single-channel 6-pin SC-70 thermal

performance on two different board sizes and two different pad

patterns. The measured steady-state values of Rq

for the

two leadframes are as follows:

LITTLE FOOT 6-PIN SC-70

Alloy 42 Copper

1) Minimum recommended pad pattern on

the EVB board V (see Figure 3.

329.7_C/W 208.5_C/W

2) Industry standard 1-inch

PCB with

maximum copper both sides.

211.8_C/W 103.5_C/W

The results indicate that designers can reduce thermal

resistance (Rq

) by 36% simply by using the copper

leadframe device rather than the Alloy 42 version. In this

example, a 121_C/W reduction was achieved without an

increase in board area. If increasing in board size is feasible,

a further 105_C/W reduction could be obtained by utilizing a

1-inch

square PCB area.

The copper leadframe versions have the following suffix:

Single: Si14xxEDH

Dual: Si19xxEDH

Complementary: Si15xxEDH

AN815

Vishay Siliconix

Document Number: 71334

12-Dec-03

www.vishay.com

Time (Secs)

FIGURE 4. Leadframe Comparison on EVB

Thermal Resistance (C/W)

400

160

100 1000

240

1010

-1

-2

-3

-4

-5

Alloy

320

Time (Secs)

FIGURE 5. Leadframe Comparison on Alloy 42 1-inch

PCB

Thermal Resistance (C/W)

250

100

100 1000

150

1010

-1

-2

-3

-4

-5

200

Copper

Alloy

P1-P3 P4-P6 P7-P9 P10-P11

SI1499DH-T1-GE3

Mfr. #:

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Manufacturer:

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Description:

MOSFET -8V -1.6A 2.78W

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SI1499DH-T1-GE3

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