FDI3632 Fairchild Semiconductor, FDI3632 Datasheet - Page 7

FDI3632

Manufacturer Part Number

FDI3632

Description

MOSFET N-CH 100V 80A TO-262AB

Manufacturer

Fairchild Semiconductor

Series

PowerTrench®r

Datasheet

1.FDB3632.pdf (11 pages)

Specifications of FDI3632

Fet Type

MOSFET N-Channel, Metal Oxide

Fet Feature

Standard

Rds On (max) @ Id, Vgs

9 mOhm @ 80A, 10V

Drain To Source Voltage (vdss)

100V

Current - Continuous Drain (id) @ 25° C

80A

Vgs(th) (max) @ Id

4V @ 250µA

Gate Charge (qg) @ Vgs

110nC @ 10V

Input Capacitance (ciss) @ Vds

6000pF @ 25V

Power - Max

310W

Mounting Type

Through Hole

Package / Case

I²Pak, TO-262 (3 straight leads + tab)

Configuration

Single

Transistor Polarity

N-Channel

Resistance Drain-source Rds (on)

7.5 m Ohms

Drain-source Breakdown Voltage

100 V

Gate-source Breakdown Voltage

+/- 20 V

Continuous Drain Current

80 A

Power Dissipation

310 W

Maximum Operating Temperature

+ 175 C

Mounting Style

Through Hole

Minimum Operating Temperature

- 55 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

FDI3632

Manufacturer:

FAIRCHILD

Quantity:

12 500

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Thermal Resistance vs. Mounting Pad Area

The maximum rated junction temperature, T

thermal resistance of the heat dissipating path determines

the maximum allowable device power dissipation, P

application.

temperature, T

must be reviewed to ensure that T

Equation 1 mathematically represents the relationship and

serves as the basis for establishing the rating of the part.

In using surface mount devices such as the TO-263

package, the environment in which it is applied will have a

significant influence on the part’s current and maximum

power dissipation ratings. Precise determination of P

complex and influenced by many factors:

1. Mounting pad area onto which the device is attached and

2. The number of copper layers and the thickness of the

3. The use of external heat sinks.

4. The use of thermal vias.

5. Air flow and board orientation.

6. For non steady state applications, the pulse width, the

Fairchild provides thermal information to assist the

designer’s preliminary application evaluation. Figure 21

defines the R

copper (component side) area. This is for a horizontally

positioned FR-4 board with 1oz copper after 1000 seconds

of steady state power with no air flow. This graph provides

the necessary information for calculation of the steady state

junction

applications can be evaluated using the Fairchild device

Spice thermal model or manually utilizing the normalized

maximum transient thermal impedance curve.

Thermal resistances corresponding to other copper areas

can be obtained from Figure 21 or by calculation using

Equation 2 or 3. Equation 2 is used for copper area defined

in inches square and equation 3 is for area in centimeters

square. The area, in square inches or square centimeters is

the top copper area including the gate and source pads.

R θ JA

whether there is copper on one side or both sides of the

board.

duty cycle and the transient thermal response of the part,

the board and the environment they are in.

(

-----------------------------

temperature

26.51

θ JA

θJA

–

(

Therefore

for the device as a function of the top

C), and thermal resistance R

)

------------------------------------ -

(

--------------------------------- -

(

0.262

1.69

19.84

128

Area

the

power

)

Area in Centimeters Squared

application’s

dissipation.

is never exceeded.

Area in Inches Squared

θJA

, and the

(EQ. 1)

(EQ. 2)

(EQ. 3)

ambient

(

, in an

Pulse

C/W)

Figure 21. Thermal Resistance vs Mounting

(0.645)

0.1

AREA, TOP COPPER AREA in

Pad Area

θJA

= 26.51+ 19.84/(0.262+Area) EQ.2

= 26.51+ 128/(1.69+Area) EQ.3

(6.45)

FDB3632 / FDP3632 / FDI3632 / FDH3632 Rev. C2

(cm

)

(64.5)

FDI3632 Fairchild Semiconductor, FDI3632 Datasheet - Page 7

FDI3632

Specifications of FDI3632

Available stocks

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