VS-6FL(R), VS-12FL(R), VS-16FL(R) Series
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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
TYPICAL APPLICATIONS
• DC power supplies
•Inverters
• Converters
• Choppers
• Ultrasonic systems
• Freewheeling diodes
ELECTRICAL SPECIFICATIONS
PRODUCT SUMMARY
IF(AV) 6 A, 12 A, 16 A
Package DO-203AA (DO-4)
Circuit configuration Single diode
DO-203AA (DO-4)
MAJOR RATINGS AND CHARACTERISTICS
PARAMETER TEST CONDITIONS 6FL.. 12FL.. 16FL.. UNITS
IF(AV)
61216A
TC100 100 100 °C
IF(RMS) 9.5 19 25 A
IFSM
50 Hz 110 145 180 A
60 Hz 115 150 190
I2t50 Hz 60 103 160 A2s
60 Hz 55 94 150
I2t 1452 1452 2290 I2s
VRRM Range 50 to 1000 50 to 1000 50 to 1000 V
trr See Recovery
Characteristics table
See Recovery
Characteristics table
See Recovery
Characteristics table ns
TJRange -65 to 150 -65 to 150 -65 to 150 °C
VOLTAGE RATINGS
TYPE
NUMBER
VOLTAGE
CODE
VRRM, MAXIMUM
REPETITIVE PEAK AND
OFF-STATE VOLTAGE
V
VRSM, MAXIMUM
NON-REPETITIVE
PEAK VOLTAGE
V
IRRM MAXIMUM
AT TJ = 25 °C
μA
IRRM MAXIMUM
AT TJ = 100 °C
mA
IRRM MAXIMUM
AT TJ = 150 °C
mA
VS-6FL..,
VS-12FL..,
VS-16FL..
550 75
50 - 6.0
10 100 150
20 200 275
40 400 500
60 600 725
80 800 950
100 1000 1250
VS-6FL(R), VS-12FL(R), VS-16FL(R) Series
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Note
(1) JEDEC registered values
Note
(1) JEDEC registered values
FORWARD CONDUCTION
PARAMETER SYMBOL TEST CONDITIONS 6FL.. 12FL.. 16FL.. UNITS
Maximum average forward current
at case temperature IF(AV)
180° conduction, half sine wave
DC
612 (1) 16 A
100 100 100 °C
Maximum RMS current IF(RMS) 9.5 19 25
A
Maximum peak, one-cycle
non-repetitive forward current IFSM
t = 10 ms No voltage
reapplied
Sinusoidal
half wave,
initial
TJ = 150 °C
130 170 215
t = 8.3 ms 135 180 225
t = 10 ms 100 % VRRM
reapplied
110 145 180
t = 8.3 ms 115 150 (1) 190
Maximum I2t for fusing I2t
t = 10 ms No voltage
reapplied
86 145 230
A2s
t = 8.3 ms 78 130 210
t = 10 ms 100 % VRRM
reapplied
60 103 160
t = 8.3 ms 55 94 150
Maximum I2t for fusing I2tt = 0.1 ms to 10 ms, no voltage reapplied 856 1452 2290 A2s
Maximum forward voltage drop VFM
TJ = 25 °C; IF = Rated IF(AV) (DC) 1.4 1.4 (1) 1.4 V
TC = 100 °C; IFM = x rated IF(AV) 1.5 1.5 (1) 1.5
RECOVERY CHARACTERISTICS
PARAMETER SYMBOL TEST CONDITIONS 6FL.., 12FL.., 16FL.. UNITS
S02 S05
Maximum reverse recovery time trr
TJ = 25 °C, IF = 1 A to VR = 30 V,
dIF/dt = 100 A/μs --
ns
TJ = 25 °C, dIF/dt = 25 A/μs,
IFM = x rated IF(AV)
200 500
Maximum peak recovery current IRM(REC) IFM = x rated IF(AV) --
Maximum reverse recovery charge Qrr
TJ = 25 °C, IF = 1 A to VR = 30 V,
dIF/dt = 100 A/μs --
nC
TJ = 25 °C, dIF/dt = 25 A/μs,
IFM = x rated IF(AV)
--
IFM trr
dir
dt
IRM(REC)
Qrr
t
THERMAL AND MECHANICAL SPECIFICATIONS
PARAMETER SYMBOL TEST CONDITIONS 6FL.. 12FL.. 16FL.. UNITS
Maximum junction operating
temperature range TJ- 65 to 150 °C
Maximum storage temperature range TStg - 65 to 175
Maximum thermal resistance, junction to case RthJC DC operation 2.5 2.0 1.6 °C/W
Maximum thermal resistance, case to heatsink RthCS Mounting surface, smooth, flat and greased 0.5
Allowable mounting torque
Not lubricated threads 1.5 + 0 - 10 %
(13) N · m
(lbf · in)
Lubricated threads 1.2 + 0 - 10 %
(10)
Approximate weight 7g
0.25 oz.
Case style JEDEC DO-203AA (DO-4)
VS-6FL(R), VS-12FL(R), VS-16FL(R) Series
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Note
• The table above shows the increment of thermal resistance RthJC when devices operate at different conduction angles than DC
Fig. 1 - Average Forward Current vs.
Maximum Allowable Case Temperature, 6FL Series
Fig. 2 - Average Forward Current vs.
Maximum Allowable Case Temperature, 12FL Series
Fig. 3 - Average Forward Current vs.
Maximum Allowable Case Temperature, 16FL Series
Fig. 4 - Reverse Recovery Time Test Waveform
RthJC CONDUCTION
CONDUCTION ANGLE 6FL.. 12FL.. 16FL.. 6FL.. 12FL.. 16FL.. TEST CONDITIONS UNITS
SINUSOIDAL CONDUCTION RECTANGULAR CONDUCTION
180° 0.58 0.46 0.37 0.33 0.26 0.21
TJ = 150 °C K/W
120° 0.60 0.48 0.39 0.58 0.46 0.37
60° 1.28 1.02 0.82 1.28 1.02 0.82
30° 2.20 1.76 1.41 2.20 1.76 1.41
Average Forward Current (A)
Maximum Allowable
Case Temperature (°C)
160
150
140
130
120
110
100
90
80
70
60
0123 4 567 8910
DC
180 °C
120 °C
60 °C
180 °C
Average Forward Current (A)
Maximum Allowable
Case Temperature (°C)
160
150
140
130
120
110
100
90
80
70
60
02 4 6 810 12 14 16 1820
DC
180 °C
180 °C
120 °C
60 °C
Average Forward Current (A)
Maximum Allowable
Case Temperature (°C)
160
150
140
130
120
110
100
90
80
70
60
010515202530
DC
180 °C
180 °C
120 °C
60 °C
IF, IFM - Peak forward current prior to commutation
-dIF/dt - Rate of fall of forward current
IRM(REC) - Peak reverse recovery current
trr - Reverse recovery time
Qrr - Reverse recovered charge
%IRM(REC)
IRM(REC) Qrr
trr
t
IF
IIFM
dIF
dt
VS-6FL(R), VS-12FL(R), VS-16FL(R) Series
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Fig. 5 - Current Rating Nomogram (Sinusoidal Waveforms), 6FL Series
Fig. 6 - Current Rating Nomogram (Rectangular Waveforms), 6FL Series
Fig. 7 - Current Rating Nomogram (Sinusoidal Waveforms), 12FL Series
Maximum Average Forward
Power Loss (W)
Average Forward Current (A) Maximum Allowable
Ambient Temperature (°C)
123 6 100
180° 0.58
120° 0.60
60° 1.28
30° 2.20
908070605040302010
45
0
0
7
8
9
10
6
5
4
3
1
2
Conduction angle
Ø
RMS limit
No heatsink
30 - ΔR
20 - ΔR
15 - ΔR
12 - ΔR
R
thSA
= 10 - ΔR K/W
8 - ΔR
7 - ΔR
6 - ΔR
5 - ΔR
Conduction
angle - Ø
ΔR - K/W
6FL...
TJ = 150 °C
Ø = 180°
120°
60°
30°
Maximum Average Forward
Power Loss (W)
Average Forward Current (A) Maximum Allowable
Ambient Temperature (°C)
135 10 100
180° 0.33
120° 0.58
60° 1.28
30° 2.20
908070605040302010
79
2468
0
0
14
12
10
8
6
2
4
DC 0
Conduction
angle - Ø
ΔR - K/W
RMS limit
6FL...
TJ = 150 °C
Ø = 180°
120°
60°
30°
DC
Conduction angle
Ø
No heatsink
30 - ΔR
20 - ΔR
15 - ΔR
12 - ΔR
RthSA = 8 - ΔR K/W
10 - ΔR
4 - ΔR
3 - ΔR
6 - ΔR
5 - ΔR
Maximum Average Forward
Power Loss (W)
Average Forward Current (A) Maximum Allowable
Ambient Temperature (°C)
135 12 100
180° 0.46
120° 0.48
60° 1.02
30° 1.76
908070605040302010
7 9 10 11
2468
0
0
14
16
18
20
12
10
8
6
2
4
Conduction
angle - Ø
ΔR - K/W
Conduction angle
Ø
RMS limit
12FL...
TJ = 150 °C
Ø = 180°
120°
60°
30°
No heatsink
30 - ΔR
20 - ΔR
15 - ΔR
12 - ΔR
10 - ΔR
R
thSA
= 4 - ΔR K/W
8 - ΔR
3 - ΔR
2 - ΔR
1 - ΔR
6 - ΔR
5 - ΔR
VS-6FL(R), VS-12FL(R), VS-16FL(R) Series
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Fig. 8 - Current Rating Nomogram (Rectangular Waveforms), 12FL Series
Fig. 9 - Current Rating Nomogram (Sinusoidal Waveforms), 16FL Series
Fig. 10 - Current Rating Nomogram (Rectangular Waveforms), 16FL Series
Maximum Average Forward
Power Loss (W)
Average Forward Current (A) Maximum Allowable
Ambient Temperature (°C)
2610 20 100
180° 0.26
120° 0.46
60° 1.02
30° 1.76
908070605040302010
14 18
4812 16
0
0
30
25
20
15
10
5
DC 0
Conduction
angle - Ø
ΔR - K/W
RMS limit
12FL...
TJ = 150 °C
Ø = 180°
120°
60°
30° DC
Conduction angle
Ø
No heatsink
20 - ΔR
15 - ΔR
R
thSA
= 2 - ΔR K/W
10 - ΔR
4 - ΔR
3 - ΔR
1.0 - ΔR
0.5 - ΔR
6 - ΔR
8 - ΔR
5 - ΔR
Maximum Average Forward
Power Loss (W)
Average Forward Current (A) Maximum Allowable
Ambient Temperature (°C)
16 100
180° 0.37
120° 0.39
60° 0.82
30° 1.41
908070605040302010
10 12 14
2468
0
0
20
25
15
10
5
Conduction
angle - Ø
ΔR - K/W
Conduction angle
Ø
RMS limit
16FL...
TJ = 150 °C
Ø = 180°
120°
60°
30°
20 - ΔR
15 - ΔR
10 - ΔR
R
thSA
= 3 - ΔR K/W
8 - ΔR
4 - ΔR
2 - ΔR
1.5 - ΔR
1 - ΔR
6 - ΔR
5 - ΔR
Maximum Average Forward
Power Loss (W)
Average Forward Current (A) Maximum Allowable
Ambient Temperature (°C)
510 25 100
180° 0.21
120° 0.37
60° 0.82
30° 1.41
908070605040302010
15 20
0
0
35
30
25
20
15
10
5
DC 0
Conduction
angle - Ø
ΔR - K/W
RMS limit
16FL...
TJ = 150 °C
Ø = 180°
120°
60°
30°
DC
Conduction angle
Ø
15 - ΔR
RthSA = 3 - ΔR K/W
10 - ΔR
4 - ΔR
2 - ΔR
1.0 - ΔR
1.5 - ΔR
0.5 - ΔR
6 - ΔR
8 - ΔR
5 - ΔR
VS-6FL(R), VS-12FL(R), VS-16FL(R) Series
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Fig. 11 - Maximum Forward Voltage vs. Forward Current,
6FL Series
Fig. 12 - Maximum High Level Forward Power Loss vs.
Average Forward Current, 6FL Series
Fig. 13 - Maximum Forward Voltage vs. Forward Current,
12FL Series
Fig. 14 - Maximum High Level Forward Power Loss vs. Average
Forward Current, 12FL Series
Fig. 15 - Maximum Forward Voltage vs. Forward Current,
16FL Series
Fig. 16 - Maximum High Level Forward Power Loss vs.
Average Forward Current, 16FL Series
Instantaneous Forward Current (A)
Instantaneous Forward Voltage (V)
0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0
TJ = 150 °C
TJ = 25 °C
6FL...
1
10
103
102
Maximum Average Forward
Power Loss (W)
Average Forward Current (A)
10 103
102
1
1
103
102
10
Ø
Ø
Ø = 180°
120°
60°
30°
Ø = DC
180°
120°
60°
30°
TJ = 150 °C
6FL...
Instantaneous Forward Current (A)
Instantaneous Forward Voltage (V)
0 0.5 1.0 1.5 2.0 3.02.5 3.5 4.0
1
10
103
102
12FL..
TJ = 150 °C
TJ = 25 °C
Maximum Average Forward
Power Loss (W)
Average Forward Current (A)
10 103
102
1
1
103
102
10
Ø
Ø = DC
180°
120°
60°
30°
TJ = 150 °C
Ø
Ø = 180°
120°
60°
30°
12FL...
Instantaneous Forward Current (A)
Instantaneous Forward Voltage (V)
0 0.5 1.0 1.5 2.0 3.02.5 3.5 4.0
1
10
103
102
16FL..
TJ = 150 °C
TJ = 25 °C
Maximum Average Forward
Power Loss (W)
Average Forward Current (A)
10 103
102
1
1
103
102
10
Ø
Ø = DC
180°
120°
60°
30°
TJ = 150 °C
Ø
Ø = 180°
120°
60°
30°
16FL...
VS-6FL(R), VS-12FL(R), VS-16FL(R) Series
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Fig.17a - Typical Reverse Recovery Time vs.
Rate of Fall of Forward Current, All Series ...S02
Fig. 17b - Typical Recovered Charge vs.
Rate of Fall of Forward Current, All Series ...S02
Fig. 18a - Typical Reverse Recovery Time vs.
Rate of Fall of Forward Current, All Series ...S05
Fig. 18b - Typical Recovered Charge vs.
Rate of Fall of Forward Current, All Series ...S05
Fig. 19a - Typical Reverse Recovery Time vs.
Rate of Fall of Forward Current, All Series ...S10
Fig. 19b - Typical Recovered Charge vs.
Rate of Fall of Forward Current, All Series ...S10
10
20
30
40
60
50
100
200
300
400
500
600
1 3 10 30
Rate of Fall of Forward Current (A/µs)
Reverse Recovery Time (ns)
100
TJ = 150 °C
6FL...
12FL... 16FL...
TJ = 25 °C
IF = π x rated IF(AV)
IF = 1 A
6FL...S02
12FL...S02
16FL...S02
1
104
103
102
10
1 3 10 30
Rate of Fall of Forward Current (A/µs)
Recovered Charge (nC)
100
IF = π x rated IF(AV)
6FL...S02
12FL...S02
16FL...S02
TJ = 150 °C
6FL...
12FL...
16FL...
TJ = 25 °C
IF = 1 A
100
200
300
400
600
500
1000
2000
3000
1 3 10 30
Rate of Fall of Forward Current (A/µs)
Reverse Recovery Time (ns)
100
TJ = 150 °C
6FL...
12FL... 16FL...
TJ = 25 °C
IF = π x rated IF(AV)
IF = 1 A
6FL...S05
12FL...S05
16FL...S05
10
105
104
103
102
1 3 10 30
Rate of Fall of Forward Current (A/µs)
Recovered Charge (nC)
100
IF = π x rated IF(AV)
6FL...S05
12FL...S05
16FL...S05 TJ = 150 °C
6FL...
12FL...
16FL...
TJ = 25 °C
IF = 1 A
100
200
300
400
600
500
1000
2000
3000
4000
5000
6000
1 3 10 30
Rate of Fall of Forward Current (A/µs)
Reverse Recovery Time (ns)
100
TJ = 150 °C
IF = π x rated IF(AV)
6FL...S10
12FL...S10
16FL...S10
6FL...
12FL... 16FL...
TJ = 25 °C
IF = 1 A
10
105
104
103
102
1 3 10 30
Rate of Fall of Forward Current (A/µs)
Recovered Charge (nC)
100
IF = π x rated IF(AV)
6FL...S10
12FL...S10
16FL...S10
TJ = 150 °C
6FL... 12FL... 16FL...
TJ = 25 °C
IF = 1 A
VS-6FL(R), VS-12FL(R), VS-16FL(R) Series
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Fig. 20 - Maximum Non-Repetitive Surge Current vs.
Number of Current Pulses, 6FL Series
Fig. 21 - Maximum Non-Repetitive Surge Current vs.
Number of Current Pulses, 12FL Series
Fig. 22 - Maximum Non-Repetitive Surge Current vs.
Number of Current Pulses, 16FL Series
Fig. 23 - Maximum Transient Thermal Impedance,
Junction to Case vs. Pulse Duration, All Series
Peak Half Sine Wave
Forward Current (A)
Number of Equal Amplitude Half
Cycle Current Pulses (N)
10 20 40 6012 468
0
40
60
20
140
120
100
80
50 Hz
60 Hz
At any rated load condition and with
rated VRRM applied following surge.
Peak Half Sine Wave
Forward Current (A)
Number of Equal Amplitude Half
Cycle Current Pulses (N)
10 20 40 6012 468
0
50
150
100
50 Hz
60 Hz
At any rated load condition and with
rated VRRM applied following surge.
Peak Half Sine Wave
Forward Current (A)
Number of Equal Amplitude Half
Cycle Current Pulses (N)
10 20 40 6012 468
0
50
200
100
150
50 Hz
60 Hz
At any rated load condition and with
rated VRRM applied following surge.
10-1
1
10
10-3 10-2 10-1 1
Square Wave Pulse Duration (s)
Transient Thermal Impedance
Junction to Case (°C/W)
10
16FL...
6FL...
12FL...
VS-6FL(R), VS-12FL(R), VS-16FL(R) Series
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ORDERING INFORMATION TABLE
4- Omit = Standard recovery diode
L = Only for fast diode
7- Outlines:
Omit = Stud base UNF thread
M = Stud base metric thread
5- Omit = Stud forward polarity
R = Stud reverse polarity
2- Current code I(AVG) = Exact current rating
3- F = Diode
- Vishay Semiconductors product
6- Voltage code x 10 = VRRM (see Voltage Ratings table)
8-t
rr code only for fast diode (see Recovery Characteristics table)
Device code
5
132 4 6 7 8
16VS- F L R 60 M S02
1
LINKS TO RELATED DOCUMENTS
Dimensions www.vishay.com/doc?95311
Document Number: 95311 For technical questions, contact: indmodules@vishay.com www.vishay.com
Revision: 30-Jun-08 1
DO-203AA (DO-4)
Outline Dimensions
Vishay Semiconductors
DIMENSIONS in millimeters (inches)
3.30 (0.13)
4.00 (0.16)
5.50 (0.22) MIN.
10.20 (0.40)
MAX.
11.50 (0.45)
10.70 (0.42)
10/32" UNF-2A
For metric devices: M5 x 0.8
0.8 ± 0.1
(0.03 ± 0.004)
R 0.40
R (0.02)
Ø 6.8 (0.27)
Ø 1.80 ± 0.20
(Ø 0.07 ± 0.01)
3.50 (0.14)
20.30 (0.80) MAX.
11 (0.43)
2
+ 0.3
0
(0.08 )
+ 0.01
0
Legal Disclaimer Notice
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Revision: 02-Oct-12 1Document Number: 91000
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any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.
Material Category Policy
Vishay Intertechnology, Inc. hereby certifies that all its products that are identified as RoHS-Compliant fulfill the
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.
Mouser Electronics
Authorized Distributor
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Vishay:
VS-1N3879 VS-1N3892R VS-1N3889 VS-6FL60S02 VS-6FLR60S05 VS-6FL40S02 VS-6FLR20S02 VS-
6FLR80S05 VS-6FLR100S05 VS-6FLR60S02 VS-12FLR60S05 VS-12FL100S10 VS-12FL10S05 VS-16FL40S02
VS-12FLR10S02 VS-16FLR10S02 VS-12FL40S05 VS-12FLR20S02 VS-16FL40S05 VS-12FL100S05 VS-
12FL10S02 VS-12FL40S02 VS-12FL60S02 VS-12FLR100S05 VS-12FLR40S02 VS-12FLR60S02 VS-16FL100S05
VS-16FL60S02 VS-16FLR100S05 VS-16FLR20S05 VS-16FLR60S02 VS-1N3880 VS-1N3890R VS-1N3891 VS-
1N3891R VS-6FL100S05 VS-6FLR10S02 VS-6FLR40S02 VS-12FL20S02 VS-16FLR40S05 VS-16FLR80S05 VS-
16FLR60S05 VS-1N3883 VS-1N3882R VS-16FL100S10 VS-12FL60S05 VS-6FL80S05 VS-1N3882 VS-
16FL20S05 VS-16FLR40S02 VS-16FLR20S02 VS-1N3881R VS-1N3893 VS-1N3879R VS-1N3880R VS-
12FLR40S05 VS-12FLR80S05 VS-1N3892 VS-1N3881 VS-12FL20S05 VS-6FL20S02 VS-16FL10S02 VS-
16FL60S05 VS-1N3890 VS-1N3893R VS-6FL60S05 VS-16FL20S02 VS-12FL80S05
