60CTTN015 [INFINEON]

TRENCH SCHOTTKY RECTIFIER; TRENCH肖特基整流器


型号：	60CTTN015
厂家：	Infineon
描述：	TRENCH SCHOTTKY RECTIFIER TRENCH肖特基整流器整流二极管瞄准线局域网
文件：	总5页 (文件大小：75K)
中文：	中文翻译
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Bulletin PD-20489 rev. A 02/03

60CTTN015

60 Amp

TRENCH SCHOTTKY RECTIFIER

Description/ Features

Major Ratings and Characteristics

Characteristics Values Units

This center tap Schottky rectifier has been optimized for low

forward voltage drop. The proprietary sub-micron technology

allows for low power loss both in forward and reverse

conduction.

Rectangularwaveform

F(AV)

PerDevice

150 °C T operation

Centertapconfiguration

1800

0.3

RRM

@tp=5µssine

Lowforwardvoltagedrop

FSM

Highfrequencyoperation

@30Apk,T =125°C

(typical) per leg

High purity, high temperature epoxy encapsulation for

enhanced mechanical strength and moisture resistance

range

-55to150

°C

Case Styles

60CTTN015

Base

Common

Cathode

Common

Cathode

Anode

TO-220

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60CTTN015

Bulletin PD-20489 rev. A 02/03

Voltage Ratings

Partnumber

60CTTN015

V_RMax. DC Reverse Voltage (V) @ T_J= 150°C

Absolute Maximum Ratings

Parameters

Values Units

Conditions

I_F(AV)Max.AverageForward

Current

(PerLeg)

50%duty cycle@T_C=130°C,rectangular wave form

(PerDevice)

Following any rated

load condition and with

rated V_RRMapplied

I_FSMMax.PeakOneCycleNon-Repetitive

SurgeCurrent(PerLeg)

1800

340

5µs Sineor3µsRect.pulse

10msSineor6msRect.pulse

E_ASNon-RepetitiveAvalancheEnergy

(PerLeg)

9.0

T_J= 25°C, I_AS= 2Amps,L=4.5mH

I_AR

RepetitiveAvalancheCurrent

(PerLeg)

Current decaying linearly to zero in 1µsec

Frequency limited by T_Jmax.V_A=1.5xV_Rtypical

Electrical Specifications

Parameters

Typ

Max Units

Conditions

V_FMMax. Forward Voltage Drop

(PerLeg)

0.41

0.48

0.33

0.44

0.30

0.42

0.4

0.44

0.53

0.36

0.47

0.32

0.45

@ 30A

T_J= 25°C

T_J= 125°C

T_J= 150°C

(1)

@ 60A

@ 30A

@ 60A

@ 30A

@ 60A

I_RMMax.ReverseLeakageCurrent

(PerLeg)

mA T_J= 25 °C

mA T_J= 100°C

mA T_J= 125 °C

V_R= rated V_R

V_R= 5V

120

3000

8.0

250

V_R= rated V_R

C_T

L_S

Junction Capacitance (Per Leg)

Series Inductance (Per Leg)

pF V_R=10V_DC(test signal range100KHz to1MHz) 25°C

nH Measured lead to lead 5mm from package body

dv/dt Max. Voltage Rate of Change

(1) Pulse Width < 300µs, Duty Cycle < 2%

10000 V/µs (Rated V_R)

Thermal-Mechanical Specifications

Parameters

Values Units

Conditions

T_J

Max.JunctionTemperatureRange

-55 to150

1.2

°C

T_stgMax.StorageTemperatureRange

°C

R_thJCMax.ThermalResistanceJunction

toCase (Per Leg)

°C/W DCoperation

R_thCSTypicalThermalResistance,Case

toHeatsink

0.5

°C/W Mounting surface,smooth and greased

g(oz.)

ApproximateWeight

MountingTorque

2(0.07)

6(5)

Min.

Kg-cm

(Ibf-in)

Max.

12(10)

CaseStyle

TO-220AB

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60CTTN015

Bulletin PD-20489 rev. A 02/03

1000

100

1000

100

Tj = 150˚C

125˚C

100˚C

75˚C

50˚C

25˚C

0.1

10 12 14 16

ReverseVoltage-V_R(V)

= 150˚C

= 125˚C

Fig.2-Typical Values Of Reverse Current

Vs. Reverse Voltage (PerLeg)

10000

25˚C

= 25˚C

1000

0.4

0.8

1.2

1.6

ForwardVoltageDrop-V_FM(V)

ReverseVoltage-V_R(V)

Fig.1-Max. Forward Voltage Drop Characteristics

(PerLeg)

Fig.3-Typical Junction Capacitance

Vs. Reverse Voltage (PerLeg)

D = 0.75

D = 0.50

D = 0.33

D = 0.25

D = 0.20

0.1

Single Pulse

(Thermal Resistance)

Notes:

1. Duty factor D = t1 / t2

2. Peak Tj = Pdm x ZthJC + Tc

0.01

0.00001

0.0001

0.001

t1,Rectangular Pulse Duration (Seconds)

Fig.4-Max. Thermal Impedance Z_thJCCharacteristics (PerLeg)

0.01

0.1

100

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60CTTN015

Bulletin PD-20489 rev. A 02/03

155

150

145

140

135

D = 0.20

D = 0.25

D = 0.33

D = 0.50

D = 0.75

RMS Limit

130

Square wave (D = 0.50)

80% Vr applied

125

see note (2)

120

10 15 20 25 30 35 40 45

AverageForwardCurrent-I_F(AV)(A)

Fig.5-Max. Allowable CaseTemperature

Vs. Average Forward Current (PerLeg)

Fig.6-Forward Power Loss Characteristics

(PerLeg)

10000

At Any Rated Load Condition

And With Rated Vrrm Applied

Following Surge

1000

100

1000

10000

SquareWavePulseDuration-t_p(microsec)

Fig.7-Max. Non-Repetitive Surge Current (PerLeg)

HIGH-SPEED

SWITCH

IRFP460

DUT

FREE-WHEEL

DIODE

Rg = 25 o hm

Vd = 25 Volt

CURRENT

MONITOR

40HFL40S02

Fig.8-Unclamped Inductive Test Circuit

(2) Formula used: T_C= T_J- (Pd + Pd_REV) x R_thJC

;

Pd = Forward Power Loss = I_F(AV)x V_FM@ (I_F(AV)/ D) (see Fig. 6);

Pd_REV= Inverse Power Loss = V_R1x I_R(1 - D); I_R@ 80% V_Rapplied

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60CTTN015

Bulletin PD-20489 rev. A 02/03

Outline Table

10.54 (0.41)

MAX.

1.32 (0.05)

3.78 (0.15)

3.54 (0.14)

1.22 (0.05)

DIA.

6.48 (0.25)

6.23 (0.24)

2.92 (0.11)

2.54 (0.10)

15.24 (0.60)

14.84 (0.58)

TERM 2

2°

14.09 (0.55)

13.47 (0.53)

3.96 (0.16)

3.55 (0.14)

0.10 (0.004)

2.04 (0.080) MAX.

1.40 (0.05)

1.15 (0.04)

2.89 (0.11)

2.64 (0.10)

Base

Common

Cathode

0.94 (0.04)

0.69 (0.03)

0.61 (0.02) MAX.

4.57 (0.18)

4.32 (0.17)

Common

Cathode

5.08 (0.20) REF.

Anode

Conform to JEDEC outline TO-220AB

Dimensions in millimeters and (inches)

Data and specifications subject to change without notice.

This product has been designed for Industrial Level.

Qualification Standards can be found on IR's Web site.

IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245, USA Tel: (310) 252-7105

TAC Fax: (310) 252-7309

Visit us at www.irf.com for sales contact information. 02/03

www.irf.com

60CTTN015 [INFINEON]

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