ON MUR3020PT Switchmode power rectifier Datasheet

MUR3020PT, MUR3040PT,
MUR3060PT
SWITCHMODEt
Power Rectifiers
These state−of−the−art devices are designed for use in switching
power supplies, inverters and as free wheeling diodes.
Features
•
•
•
•
•
•
•
•
•
Ultrafast 35 and 60 Nanosecond Recovery Time
175°C Operating Junction Temperature
High Voltage Capability to 600 V
Low Forward Drop
Low Leakage Specified @ 150°C Case Temperature
Current Derating Specified @ Both Case and Ambient Temperatures
Epoxy Meets UL 94 V−0 @ 0.125 in
High Temperature Glass Passivated Junction
Pb−Free Packages are Available*
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ULTRAFAST RECTIFIERS
30 AMPERES, 200−600 VOLTS
3
4
4
• Case: Epoxy, Molded
• Weight: 4.3 Grams (Approximately)
• Finish: All External Surfaces Corrosion Resistant and Terminal Leads
•
•
2
MARKING
DIAGRAM
Mechanical Characteristics:
are Readily Solderable
Lead Temperature for Soldering Purposes: 260°C Max for 10 Seconds
Shipped 30 Units Per Plastic Tube
1
1
AYWWG
MUR30x0PT
SOT−93
(TO−218)
CASE 340D
STYLE 2
2
3
A
=
Y
=
WW
=
G
=
MUR30x0PT =
Assembly Location
Year
Work Week
Pb−Free Package
Device Code
x = 2, 4, or 6
ORDERING INFORMATION
Device
MUR3020PT
MUR3020PTG
MUR3040PT
MUR3040PTG
MUR3060PT
*For additional information on our Pb−Free strategy and soldering details, please
download the ON Semiconductor Soldering and Mounting Techniques
Reference Manual, SOLDERRM/D.
© Semiconductor Components Industries, LLC, 2008
October, 2008 − Rev. 9
1
MUR3060PTG
Package
Shipping
SOT−93
30 Units/Rail
SOT−93
(Pb−Free)
30 Units/Rail
SOT−93
30 Units/Rail
SOT−93
(Pb−Free)
30 Units/Rail
SOT−93
30 Units/Rail
SOT−93
(Pb−Free)
30 Units/Rail
Publication Order Number:
MUR3020PT/D
MUR3020PT, MUR3040PT, MUR3060PT
MAXIMUM RATINGS (Per Leg)
Rating
Peak Repetitive Reverse Voltage
Working Peak Reverse Voltage
DC Blocking Voltage
Average Rectified Forward Current (Rated VR)
Per Leg
Per Device
Symbol
MUR3020PT
MUR3040PT
MUR3060PT
Unit
VRRM
VRWM
VR
200
400
600
V
IF(AV)
15 @ TC = 150°C
30 @ TC = 150°C
15 @ TC = 145°C
30 @ TC = 145°C
30 @ TC = 150°C
30 @ TC =145°C
A
Peak Rectified Forward Current, Per Leg
(Rated VR, Square Wave, 20 kHz)
IFRM
Nonrepetitive Peak Surge Current (Surge applied at rated
load conditions, halfwave, single phase, 60 Hz) Per Leg
IFSM
200
A
TJ, Tstg
− 65 to +175
°C
RqJC
RqJA
1.5
40
Operating Junction and Storage Temperature
A
THERMAL CHARACTERISTICS (Per Diode Leg)
Maximum Thermal Resistance,
− Junction−to−Case
− Junction−to−Ambient
°C/W
ELECTRICAL CHARACTERISTICS (Per Diode Leg)
Maximum Instantaneous Forward Voltage (Note 1)
(IF = 15 Amp, TC = 150°C)
(IF = 15 Amp, TC = 25°C)
VF
Maximum Instantaneous Reverse Current (Note 1)
(Rated DC Voltage, TJ = 150°C)
(Rated DC Voltage, TJ = 25°C)
iR
Maximum Reverse Recovery Time
(iF = 1.0 A, di/dt = 50 A/ms)
trr
V
0.85
1.05
1.12
1.25
1.2
1.5
500
10
35
1000
10
60
mA
ns
Maximum ratings are those values beyond which device damage can occur. Maximum ratings applied to the device are individual stress limit
values (not normal operating conditions) and are not valid simultaneously. If these limits are exceeded, device functional operation is not implied,
damage may occur and reliability may be affected.
1. Pulse Test: Pulse Width = 300 ms, Duty Cycle ≤ 2.0%.
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2
MUR3020PT, MUR3040PT, MUR3060PT
MUR3020PT
100
100
100°C
IR , REVERSE CURRENT ( μ A)
TJ = 150°C
25°C
50
30
10
100°C
2
1
0.5
25°C
0.2
0.1
0.05
0.02
0.01
5
0
40
60
80 100 120 140 160
VR, REVERSE VOLTAGE (VOLTS)
180
200
2
1
0.5
0.3
0.2
0.1
0.2
0.4
0.6
0.8
1
1.2
vF, INSTANTANEOUS VOLTAGE (VOLTS)
1.4
1.6
16
14
dc
12
10
SQUARE WAVE
8
6
4
RATED VOLTAGE APPLIED
2
0
140
Figure 1. Typical Forward Voltage (Per Leg)
14
dc
12
RqJA = 15°C/W AS OBTAINED
USING A SMALL FINNED
HEAT SINK.
10
8
6
SQUARE WAVE
dc
4
SQUARE WAVE
2 RqJA = 40°C/W
AS OBTAINED IN FREE AIR
WITH NO HEAT SINK.
0
0
20
40
60
80
100 120 140
160
TA, AMBIENT TEMPERATURE (5C)
180
150
160
170
TC, CASE TEMPERATURE (5C)
180
Figure 3. Current Derating, Case (Per Leg)
200
P F(AV) , AVERAGE POWER DISSIPATION (WATTS)
I F(AV) , AVERAGE FORWARD CURRENT (AMPS)
20
Figure 2. Typical Reverse Current (Per Leg)
3
I F(AV) , AVERAGE FORWARD CURRENT (AMPS)
i F , INSTANTANEOUS FORWARD CURRENT (AMPS)
20
TJ = 150°C
50
20
10
5
16
I
(RESISTIVE LOAD) PK = π
IAV
14
I
(CAPACITIVE LOAD) PK = 5
IAV
12
10
dc
10
8
20
6
SQUARE WAVE
4
TJ = 125°C
2
0
0
Figure 4. Current Derating, Ambient (Per Leg)
2
4
6
8
10
12
14
IF(AV), AVERAGE FORWARD CURRENT (AMPS)
Figure 5. Power Dissipation (Per Leg)
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3
16
MUR3020PT, MUR3040PT, MUR3060PT
MUR3040PT
100
50
50
20
10
5
100°C
TJ = 150°C
30
25°C
10
5
TJ = 150°C
100°C
25°C
2
1
0.5
0.2
0.1
0.05
0.02
0.01
0
50
3
1
0.5
0.3
0.2
0.4
0.6
0.8
1
1.2
vF, INSTANTANEOUS VOLTAGE (VOLTS)
1.4
1.6
dc
12
RqJA = 15°C/W AS OBTAINED
USING A SMALL FINNED
HEAT SINK.
10
SQUARE WAVE
dc
4
SQUARE WAVE
2 RqJA = 40°C/W
AS OBTAINED IN FREE AIR
WITH NO HEAT SINK.
0
0
20
40
60
80
100
120
140
160
180
200
P F(AV) , AVERAGE POWER DISSIPATION (WATTS)
I F(AV) , AVERAGE FORWARD CURRENT (AMPS)
250
300
350
400
450 500
14
dc
12
10
SQUARE WAVE
8
6
4
RATED VOLTAGE APPLIED
2
0
140
150
160
170
TC, CASE TEMPERATURE (5C)
180
Figure 8. Current Derating, Case (Per Leg)
14
6
200
16
Figure 6. Typical Forward Voltage (Per Leg)
8
150
Figure 7. Typical Reverse Current (Per Leg)
2
0.1
0.2
100
VR, REVERSE VOLTAGE (VOLTS)
I F(AV) , AVERAGE FORWARD CURRENT (AMPS)
i F , INSTANTANEOUS FORWARD CURRENT (AMPS)
20
IR , REVERSE CURRENT ( μ A)
100
16
I
(RESISTIVE-INDUCTIVE LOAD) PK = π
IAV
I
(CAPACITIVE LOAD) PK = 5
IAV
14
12
dc
10
10
20
SQUARE WAVE
8
6
4
TJ = 125°C
2
0
0
2
4
6
8
10
12
14
TA, AMBIENT TEMPERATURE (5C)
IF(AV), AVERAGE FORWARD CURRENT (AMPS)
Figure 9. Current Derating, Ambient (Per Leg)
Figure 10. Power Dissipation (Per Leg)
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4
16
MUR3020PT, MUR3040PT, MUR3060PT
MUR3060PT
100
IR , REVERSE CURRENT ( μ A)
200
100
50
50
TJ = 150°C
30
100°C
25°C
10
25°C
0.2
0.1
0.05
0.02
150
5
200
250 300 350 400 450 500
VR, REVERSE VOLTAGE (VOLTS)
550
600 650
Figure 12. Typical Reverse Current (Per Leg)
3
2
1
0.5
0.3
0.2
0.1
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
SQUARE WAVE
10
8
6
4
RATED VOLTAGE APPLIED
2
0
140
150
160
170
Figure 13. Current Derating, Case (Per Leg)
dc
RqJA = 16°C/W AS OBTAINED
FROM A SMALL TO-220
HEAT SINK.
SQUARE WAVE
6
5
4
dc
12
Figure 11. Typical Forward Voltage (Per Leg)
8
7
14
TC, CASE TEMPERATURE (5C)
10
9
16
vF, INSTANTANEOUS VOLTAGE (VOLTS)
P F(AV) , AVERAGE POWER DISSIPATION (WATTS)
I F(AV) , AVERAGE FORWARD CURRENT (AMPS)
100°C
2
1
0.5
I F(AV) , AVERAGE FORWARD CURRENT (AMPS)
i F , INSTANTANEOUS FORWARD CURRENT (AMPS)
20
TJ = 150°C
20
10
5
dc
3
SQUARE WAVE
RqJA = 60°C/W
1 AS OBTAINED IN FREE AIR
0 WITH NO HEAT SINK.
20
40
60
80
100 120 140
0
TA, AMBIENT TEMPERATURE (5C)
2
160
180
200
16
I
(CAPACITIVE LOAD) PK = 5
IAV
14
dc
10
12
10
20
SQUARE WAVE
8
(RESISTIVE-INDUCTIVE LOAD)
IPK = π
IAV
TJ = 125°C
6
4
2
0
0
Figure 14. Current Derating, Ambient (Per Leg)
2
4
6
8
10
12
14
IF(AV), AVERAGE FORWARD CURRENT (AMPS)
Figure 15. Power Dissipation (Per Leg)
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5
180
16
r(t), TRANSIENT THERMAL RESISTANCE (NORMALIZED)
MUR3020PT, MUR3040PT, MUR3060PT
1
D = 0.5
0.5
0.2
0.1
0.1
0.05
0.01
0.05
P(pk)
t1
t2
SINGLE PULSE
DUTY CYCLE, D = t1/t2
0.02
0.02
0.05
0.1
0.2
0.5
1
2
5
t, TIME (ms)
10
20
50
Figure 16. Thermal Response
1K
500
C, CAPACITANCE (pF)
0.01
0.01
ZqJC(t) = r(t) RqJC
RqJC = 1.5°C/W MAX
D CURVES APPLY FOR POWER
PULSE TRAIN SHOWN
READ TIME AT T1
TJ(pk) - TC = P(pk) ZqJC(t)
TJ = 25°C
200
100
50
20
10
1
2
5
10
20
VR, REVERSE VOLTAGE (VOLTS)
50
Figure 17. Typical Capacitance (Per Leg)
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6
100
100
200
500
1K
MUR3020PT, MUR3040PT, MUR3060PT
PACKAGE DIMENSIONS
SOT−93 (TO−218)
CASE 340D−02
ISSUE E
NOTES:
1. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.
2. CONTROLLING DIMENSION: MILLIMETER.
C
Q
B
U
S
E
DIM
A
B
C
D
E
G
H
J
K
L
Q
S
U
V
4
A
L
1
K
2
3
D
J
H
MILLIMETERS
MIN
MAX
--20.35
14.70
15.20
4.70
4.90
1.10
1.30
1.17
1.37
5.40
5.55
2.00
3.00
0.50
0.78
31.00 REF
--16.20
4.00
4.10
17.80
18.20
4.00 REF
1.75 REF
STYLE 2:
PIN 1.
2.
3.
4.
V
G
INCHES
MIN
MAX
--0.801
0.579
0.598
0.185
0.193
0.043
0.051
0.046
0.054
0.213
0.219
0.079
0.118
0.020
0.031
1.220 REF
--0.638
0.158
0.161
0.701
0.717
0.157 REF
0.069
ANODE 1
CATHODE(S)
ANODE 2
CATHODE(S)
SWITCHMODE is a trademark of Semiconductor Components Industries, LLC.
ON Semiconductor and
are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice
to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.
“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All
operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights
nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications
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associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal
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MUR3020PT/D
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