16FL60MS02 [VISHAY]

Rectifier Diode, 1 Phase, 1 Element, 16A, 600V V(RRM), Silicon, DO-203AA, ROHS COMPLIANT, DO-4, 1 PIN;


型号：	16FL60MS02
厂家：	VISHAY
描述：	Rectifier Diode, 1 Phase, 1 Element, 16A, 600V V(RRM), Silicon, DO-203AA, ROHS COMPLIANT, DO-4, 1 PIN 快速恢复二极管
文件：	总12页 (文件大小：173K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

6FL(R), 12FL(R), 16FL(R) Series

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Vishay Semiconductors

Fast Recovery Diodes

(Stud Version), 6 A, 12 A, 16 A

FEATURES

• Short reverse recovery time

• Low stored charge

• Wide current range

• Excellent surge capabilities

• Standard JEDEC types

• Stud cathode and stud anode versions

• Fully characterized reverse recovery conditions

• Material categorization: For definitions of compliance

please see www.vishay.com/doc?99912

DO-203AA (DO-4)

TYPICAL APPLICATIONS

• DC power supplies

• Inverters

PRODUCT SUMMARY

• Converters

I_F(AV)

6 A, 12 A, 16 A

• Choppers

• Ultrasonic systems

• Freewheeling diodes

MAJOR RATINGS AND CHARACTERISTICS

SYMBOL

CHARACTERISTICS

6FL..

12FL..

16FL..

UNITS

I_F(AV)

T_C= 100 °C

I_F(RMS)

9.5

110

115

50 Hz

60 Hz

50 Hz

60 Hz

145

180

190

160

150

2290

I_FSM

150

103

I²t

A²s

I²t

V_RRM

t_rr

1452

50 to 1000

I²s

Range

See Recovery Characteristics table

- 65 to 150

°C

T_J

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6FL(R), 12FL(R), 16FL(R) Series

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ELECTRICAL SPECIFICATIONS

VOLTAGE RATINGS

V_RRM, MAXIMUM

REPETITIVE PEAK AND

OFF-STATE VOLTAGE

V_RSM, MAXIMUM

_RRMMAXIMUM I_RRMMAXIMUM I_RRMMAXIMUM

TYPE

NUMBER

VOLTAGE

CODE

NON-REPETITIVE

PEAK VOLTAGE

AT T_J= 25 °C

μA

AT T_J= 100 °C

AT T_J= 150 °C

100

200

400

600

800

1000

150

275

500

725

950

1250

6FL..

12FL..

16FL..

6.0

FORWARD CONDUCTION

PARAMETER

SYMBOL

I_F(AV)

TEST CONDITIONS

6FL..

12FL..

12 ⁽¹⁾

100

16FL..

UNITS

100

Maximum average forward current 

at case temperature

180° conduction, half sine wave

100

9.5

130

135

110

115

°C

Maximum RMS current

I_F(RMS)

t = 10 ms

t = 8.3 ms

t = 10 ms

t = 8.3 ms

t = 10 ms

t = 8.3 ms

t = 10 ms

t = 8.3 ms

170

215

225

180

190

230

210

160

150

2290

1.4

No voltage

reapplied

180

Maximum peak, one-cycle 

non-repetitive forward current

I_FSM

145

100 % V_RRM

reapplied



Sinusoidal

half wave,

initial

150 ⁽¹⁾

145

No voltage

reapplied

T_J= 150 °C

130

Maximum I²t for fusing

I²t

A²s

103

100 % V_RRM

reapplied

Maximum I²t for fusing

I²t

t = 0.1 ms to 10 ms, no voltage reapplied

856

1.4

1.5

1452

1.4 ⁽¹⁾

1.5 ⁽¹⁾

A²s

T_J= 25 °C; I_F= Rated I_F(AV)(DC)

Maximum forward voltage drop

V_FM

_C= 100 °C; I_FM=  x rated I_F(AV)

1.5

Note

(1)

JEDEC registered values

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6FL(R), 12FL(R), 16FL(R) Series

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RECOVERY CHARACTERISTICS

6FL..

12FL..

PARAMETER

SYMBOL

TEST CONDITIONS

UNITS

16FL..

S02

S05

T_J= 25 °C, I_F= 1 A to V_R= 30 V,

dI_F/dt = 100 A/μs

Maximum reverse

recovery time

t_rr

I_FM

T_J= 25 °C, dI_F/dt = 25 A/μs,

200

500

t_rr

I_FM=  x rated I_F(AV)

Maximum peak 

recovery current

dir

I_RM(REC)

I_FM=  x rated I_F(AV)

Q_rr

T_J= 25 °C, I_F= 1 A to V_R= 30 V,

dI_F/dt = 100 A/μs

I_RM(REC)

Maximum reverse

recovery charge

Q_rr

T_J= 25 °C, dI_F/dt = 25 A/μs,

I_FM=  x rated I_F(AV)

Note

(1)

JEDEC registered values

THERMAL AND MECHANICAL SPECIFICATIONS

PARAMETER

SYMBOL

TEST CONDITIONS

6FL..

12FL..

- 65 to 150

- 65 to 175

2.0

16FL..

UNITS

Maximum junction operating

temperature range

T_J

°C

Maximum storage temperature range

T_Stg

Maximum thermal resistance,

junction to case

R_thJC

DC operation

2.5

1.6

°C/W

Maximum thermal resistance,

case to heatsink

Mounting surface, smooth,

flat and greased

R_thCS

0.5

1.5 ^{+ 0 - 10 %}

(13)

1.2 ^{+ 0 - 10 %}

(10)

Not lubricated threads

Lubricated threads

N · m

(lbf · in)

Allowable mounting torque

Approximate weight

Case style

0.25

oz.

JEDEC

DO-203AA (DO-4)

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6FL(R), 12FL(R), 16FL(R) Series

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Vishay Semiconductors

R_thJCCONDUCTION

6FL..

12FL..

16FL..

6FL..

12FL..

16FL..

CONDUCTION ANGLE

TEST CONDITIONS

UNITS

SINUSOIDAL CONDUCTION

RECTANGULAR CONDUCTION

180°

120°

60°

0.58

0.60

1.28

2.20

0.46

0.48

1.02

1.76

0.37

0.39

0.82

1.41

0.33

0.58

1.28

2.20

0.26

0.46

1.02

1.76

0.21

0.37

0.82

1.41

T_J= 150 °C

K/W

30°

Note

•

The table above shows the increment of thermal resistance R_thJCwhen devices operate at different conduction angles than DC

160

150

160

150

140

130

120

110

100

130

120

110

100

180 °C

120 °C

60 °C

180 °C

120 °C

60 °C

Average Forward Current (A)

Fig. 1 - Average Forward Current vs.

Fig. 3 - Average Forward Current vs.

Maximum Allowable Case Temperature, 6FL Series

Maximum Allowable Case Temperature, 16FL Series

160

150

140

130

I_F

dI_F

I_FM

t_rr

120

110

%I_RM(REC)

100

180 °C

Q_rr

I_RM(REC)

180 °C

120 °C

60 °C

I_F, I_FM- Peak forward current prior to commutation

-dI_F/dt - Rate of fall of forward current

_RM(REC)- Peak reverse recovery current

t_rr- Reverse recovery time

Q_rr- Reverse recovered charge

10 12 14 16 18 20

Average Forward Current (A)

Fig. 2 - Average Forward Current vs.

Fig. 4 - Reverse Recovery Time Test Waveform

Maximum Allowable Case Temperature, 12FL Series

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6FL(R), 12FL(R), 16FL(R) Series

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Vishay Semiconductors

6FL...

T_J= 150 °C

Ø = 180°

120°

60°

30°

180°

120°

60°

0.58

0.60

1.28

2.20

RMS limit

Conduction angle

30°

10 20 30 40 50 60 70 80 90 100

Average Forward Current (A)

Maximum Allowable

Ambient Temperature (°C)

Fig. 5 - Current Rating Nomogram (Sinusoidal Waveforms), 6FL Series

6FL...

T_J= 150 °C

Ø = 180°

120°

60°

30°

180°

120°

60°

0.33

0.58

1.28

2.20

RMS limit

Conduction angle

30°

10 10 20 30 40 50 60 70 80 90 100

Average Forward Current (A)

Maximum Allowable

Ambient Temperature (°C)

Fig. 6 - Current Rating Nomogram (Rectangular Waveforms), 6FL Series

12FL...

T_J= 150 °C

Ø = 180°

120°

60°

30°

180°

120°

60°

0.46

0.48

1.02

1.76

RMS limit

Conduction angle

30°

10 11 12 10 20 30 40 50 60 70 80 90 100

Average Forward Current (A)

Maximum Allowable

Ambient Temperature (°C)

Fig. 7 - Current Rating Nomogram (Sinusoidal Waveforms), 12FL Series

Revision: 08-Apr-13

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6FL(R), 12FL(R), 16FL(R) Series

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12FL...

T_J= 150 °C

Ø = 180°

120°

60°

30°

180°

120°

60°

0.26

0.46

1.02

1.76

RMS limit

Conduction angle

30°

10 12 14 16 18 20 10 20 30 40 50 60 70 80 90 100

Average Forward Current (A)

Maximum Allowable

Ambient Temperature (°C)

Fig. 8 - Current Rating Nomogram (Rectangular Waveforms), 12FL Series

16FL...

T_J= 150 °C

Ø = 180°

120°

60°

30°

180°

120°

60°

0.37

0.39

0.82

1.41

RMS limit

Conduction angle

30°

16 10 20 30 40 50 60 70 80 90 100

Average Forward Current (A)

Maximum Allowable

Ambient Temperature (°C)

Fig. 9 - Current Rating Nomogram (Sinusoidal Waveforms), 16FL Series

16FL...

T_J= 150 °C

Ø = 180°

120°

60°

30°

180°

120°

60°

15 RMS limit

0.21

0.37

0.82

1.41

Conduction angle

30°

15 20

25 10 20 30 40 50 60 70 80 90 100

Average Forward Current (A)

Maximum Allowable

Ambient Temperature (°C)

Fig. 10 - Current Rating Nomogram (Rectangular Waveforms), 16FL Series

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6FL(R), 12FL(R), 16FL(R) Series

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Vishay Semiconductors

10³

12FL...

6FL...

Ø = 180°

120°

60°

30°

10²

Ø = DC

180°

120°

60°

30°

T_J= 150 °C

T_J= 25 °C

T_J= 150 °C

10²

10³

0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0

Instantaneous Forward Voltage (V)

Average Forward Current (A)

Fig. 11 - Maximum Forward Voltage vs. Forward Current,

6FL Series

Fig. 14 - Maximum High Level Forward Power Loss vs. Average

Forward Current, 12FL Series

10³

6FL...

16FL..

Ø = 180°

120°

60°

30°

10²

Ø = DC

180°

120°

60°

T_J= 150 °C

30°

T_J= 25 °C

T_J= 150 °C

10²

10³

0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0

Average Forward Current (A)

Instantaneous Forward Voltage (V)

Fig. 12 - Maximum High Level Forward Power Loss vs.

Average Forward Current, 6FL Series

Fig. 15 - Maximum Forward Voltage vs. Forward Current,

16FL Series

10³

16FL...

Ø = 180°

12FL..

120°

60°

30°

10²

Ø = DC

180°

120°

60°

30°

T_J= 150 °C

T_J= 25 °C

T_J= 150 °C

10²

10³

0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0

Average Forward Current (A)

Instantaneous Forward Voltage (V)

Fig. 13 - Maximum Forward Voltage vs. Forward Current,

12FL Series

Fig. 16 - Maximum High Level Forward Power Loss vs.

Average Forward Current, 16FL Series

Revision: 08-Apr-13

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6FL(R), 12FL(R), 16FL(R) Series

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10⁵

T_J= 150 °C

6FL...S05

I_F= π x rated I_F(AV)

600

500

400

300

12FL...S05

T_J= 150 °C

16FL...S05

10⁴

I_F= π x rated I_F(AV)

200

T_J= 25 °C

6FL...

10³

100

12FL...

I_F= 1 A

16FL...

12FL...

6FL...

10²

6FL...S02

12FL...S02

16FL...S02

I_F= 1 A

T_J= 25 °C

100

Rate of Fall of Forward Current (A/µs)

Fig.17a - Typical Reverse Recovery Time vs.

Rate of Fall of Forward Current, All Series ...S02

Fig. 18b - Typical Recovered Charge vs.

Rate of Fall of Forward Current, All Series ...S05

10⁴

6FL...S02

12FL...S02

16FL...S02

T_J= 150 °C

6000

T_J= 150 °C

I_F= π x rated I_F(AV)

5000

4000

3000

10³

I_F= π x rated I_F(AV)

2000

1000

T_J= 25 °C

10²

16FL...

600

6FL...

500

12FL...

6FL...

400

300

12FL...

16FL...

I_F= 1 A

6FL...S10

12FL...S10

16FL...S10

I_F= 1 A

200

T_J= 25 °C

100

Rate of Fall of Forward Current (A/µs)

Fig. 17b - Typical Recovered Charge vs.

Rate of Fall of Forward Current, All Series ...S02

Fig. 19a - Typical Reverse Recovery Time vs.

Rate of Fall of Forward Current, All Series ...S10

10⁵

6FL...S05

12FL...S05

16FL...S05

T_J= 150 °C

I_F= π x rated I_F(AV)

3000

10⁴

T_J= 150 °C

I_F= π x rated I_F(AV)

2000

1000

600

10³

16FL...

12FL...

500

400

T_J= 25 °C

6FL...

I_F= 1 A

300

6FL...

I_F= 1 A

T_J= 25 °C

10²

200

12FL... 16FL...

6FL...S10

12FL...S10

16FL...S10

100

Rate of Fall of Forward Current (A/µs)

Fig. 18a - Typical Reverse Recovery Time vs.

Rate of Fall of Forward Current, All Series ...S05

Fig. 19b - Typical Recovered Charge vs.

Rate of Fall of Forward Current, All Series ...S10

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6FL(R), 12FL(R), 16FL(R) Series

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140

120

100

200

At any rated load condition and with

rated V_RRMapplied following surge.

At any rated load condition and with

rated V_RRMapplied following surge.

150

60 Hz

100

60 Hz

50 Hz

8 10

40 60

8 10

40 60

Number of Equal Amplitude Half

Cycle Current Pulses (N)

Number of Equal Amplitude Half

Cycle Current Pulses (N)

Fig. 20 - Maximum Non-Repetitive Surge Current vs.

Number of Current Pulses, 6FL Series

Fig. 22 - Maximum Non-Repetitive Surge Current vs.

Number of Current Pulses, 16FL Series

At any rated load condition and with

rated V_RRMapplied following surge.

150

100

6FL...

16FL...

60 Hz

50 Hz

12FL...

10^-1

10^-3

10^-2

10^-1

8 10

40 60

Number of Equal Amplitude Half

Cycle Current Pulses (N)

Square Wave Pulse Duration (s)

Fig. 21 - Maximum Non-Repetitive Surge Current vs.

Number of Current Pulses, 12FL Series

Fig. 23 - Maximum Transient Thermal Impedance,

Junction to Case vs. Pulse Duration, All Series

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6FL(R), 12FL(R), 16FL(R) Series

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ORDERING INFORMATION TABLE

Device code

S02

Current code I_(AVG)= Exact current rating

F = Diode

Omit = Standard recovery diode

L = Only for fast diode

Omit = Stud forward polarity

R = Stud reverse polarity

Voltage code x 10 = V_RRM(see Voltage Ratings table)

Outlines:

Omit = Stud base UNF thread

M = Stud base metric thread

t_rrcode only for fast diode (see Recovery Characteristics table)

LINKS TO RELATED DOCUMENTS

Dimensions

www.vishay.com/doc?95311

Revision: 08-Apr-13

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Outline Dimensions

Vishay Semiconductors

DO-203AA (DO-4)

DIMENSIONS in millimeters (inches)

0.8 0.1

(0.03 0.004)

3.30 (0.13)

4.00 (0.16)

2^{+ 0.3}

(0.08 ^{+ 0.01}

)

5.50 (0.22) MIN.

R 0.40

R (0.02)

Ø 1.80 0.20

(Ø 0.07 0.01)

20.30 (0.80) MAX.

Ø 6.8 (0.27)

10.20 (0.40)

MAX.

3.50 (0.14)

11.50 (0.45)

10.70 (0.42)

10/32" UNF-2A

For metric devices: M5 x 0.8

11 (0.43)

Document Number: 95311

Revision: 30-Jun-08

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provided in datasheets and/or specifications may vary in different applications and performance may vary over time. All

operating parameters, including typical parameters, must be validated for each customer application by the customer’s

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including but not limited to the warranty expressed therein.

Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining

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definitions and restrictions defined under Directive 2011/65/EU of The European Parliament and of the Council

of June 8, 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment

(EEE) - recast, unless otherwise specified as non-compliant.

Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that

all the products identified as being compliant to Directive 2002/95/EC conform to Directive 2011/65/EU.

Vishay Intertechnology, Inc. hereby certifies that all its products that are identified as Halogen-Free follow Halogen-Free

requirements as per JEDEC JS709A standards. Please note that some Vishay documentation may still make reference

to the IEC 61249-2-21 definition. We confirm that all the products identified as being compliant to IEC 61249-2-21

conform to JEDEC JS709A standards.

Revision: 02-Oct-12

Document Number: 91000

16FL60MS02 [VISHAY]

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