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Электронный компонент: MURD620CTTR

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1
V
RRM
Peak Repetitive Peak Reverse Voltage
200
V
I
F(AV)
Average Rectified Forward Current
Per Device
6
A
Total Device, (Rated V
R
), T
C
= 146C
I
FSM
Non Repetitive Peak Surge Current
50
I
FM
Peak Repetitive Forward Current
Per Diode
6
(Rated V
R
, Square wave, 20 KHz), T
C
= 146C
T
J
,
T
STG
Operating Junction and Storage Temperatures
- 65 to 175
C
Parameters
Max
Units
MURD620CT
Bulletin PD-20737 rev. C 12/03
t
rr
= 25ns
I
F(AV)
= 6Amp
V
R
= 200V
Features
Description/ Applications
International Rectifier's MUR.. series are the state of the art Ultra
fast recovery rectifiers specifically designed with optimized
performance of forward voltage drop and ultra fast recovery time.
The planar structure and the platinum doped life time control,
guarantee the best overall performance, ruggedness and reliability
characteristics.
These devices are intended for use in the output rectification
stage of SMPS, UPS, DC-DC converters as well as free-wheeling
diode in low voltage inverters and chopper motor drives.
Their extremely optimized stored charge and low recovery
current minimize the switching losses and reduce over dissipation
in the switching element and snubbers.
Absolute Maximum Ratings
Ultrafast Rectifier
Ultrafast Recovery Time
Low Forward Voltage Drop
Low Leakage Current
175C Operating Junction Temperature
D-PAK
Package Outline
www.irf.com
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MURD620CT
Bulletin PD-20737 rev. C 12/03
2
www.irf.com
V
BR
,
V
r
Breakdown Voltage,
200
-
-
V
I
R
= 100A
Blocking Voltage
V
F
Forward Voltage
-
-
1.0
V
I
F
= 3A
-
-
0.96
V
I
F
= 3A, T
J
= 125C
-
-
1.2
V
I
F
= 6A
-
-
1.13
V
I
F
= 6A, T
J
= 125C
I
R
Reverse Leakage Current
-
-
5
A
V
R
= V
R
Rated
-
-
250
A
T
J
= 125C, V
R
= V
R
Rated
C
T
Junction Capacitance
-
12
-
pF
V
R
= 200V
L
S
Series Inductance
-
8.0
-
nH
.
Electrical Characteristics @ T
J
= 25C (unless otherwise specified)
Parameters
Min Typ Max Units Test Conditions
Measured lead to lead 5mm from package body
t
rr
Reverse Recovery Time
-
-
35
ns
I
F
= 1.0A, di
F
/dt = 50A/s, V
R
= 30V
-
-
25
I
F
= 0.5A, I
R
= 1.0A, I
REC
= 0.25A
-
19
-
T
J
= 25C
26
T
J
= 125C
I
RRM
Peak Recovery Current
-
3.1
-
A
T
J
= 25C
-
4.6
-
T
J
= 125C
Q
rr
Reverse Recovery Charge
-
30
-
nC
T
J
= 25C
-
60
-
T
J
= 125C
Dynamic Recovery Characteristics @ T
J
= 25C (unless otherwise specified)
I
F
= 3A
V
R
= 160V
di
F
/dt = 200A/s
Parameters
Min Typ Max Units Test Conditions
Parameters
Min
Typ
Max
Units
T
J
Max. Junction Temperature Range
-
-
- 65 to 175
C
T
Stg
Max. Storage Temperature Range
-
-
- 65 to 175
R
thJC
Thermal Resistance, Junction to Case
Per Leg
-
-
9.0
C/ W
R
thJA
Thermal Resistance, Junction to Ambient
Per Leg
-
-
80
R
thCS
Thermal Resistance, Case to Heatsink
-
-
-
Wt
Weight
-
0.3
-
g
-
0.01
-
(oz)
Mounting Torque
6.0
-
12
Kg-cm
5.0
-
10
lbf.in
Thermal - Mechanical Characteristics
Mounting Surface, Flat, Smooth and Greased
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Bulletin PD-20737 rev. C 12/03
3
MURD620CT
www.irf.com
Fig. 2 - Typical Values Of Reverse Current
Vs. Reverse Voltage
Fig. 1 - Typical Forward Voltage Drop Characteristics
Reverse Voltage - V
R
(V)
Fig. 3 - Typical Junction Capacitance
Vs. Reverse Voltage
Forward Voltage Drop - V
FM
(V)
Instantaneous Forward Current - I
F
(A)
Reverse Current - I
R
(A)
Reverse Voltage - V
R
(V)
Junction Capacitance - C
T
(pF)
Fig. 4 - Max. Thermal Impedance Z
thJC
Characteristics
t
1
, Rectangular Pulse Duration (Seconds)
Thermal Impedance Z
thJC
(C/W)
0.001
0.01
0.1
1
10
100
0
50
100
150
200
25C
T = 175C
J
100C
125C
150C
0.1
1
10
100
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
T = 175C
T = 150C
T = 25C
J
J
J
10
100
1
10
100
1000
T = 25C
J
0.01
0.1
1
10
0.00001
0.0001
0.001
0.01
0.1
1
Single Pulse
(Thermal Resistance)
D = 0.50
D = 0.20
D = 0.10
D = 0.05
D = 0.02
D = 0.01
Notes:
1. Duty factor D = t1
/ t 2
2. Peak Tj = Pdm x ZthJC + Tc
2
t
1
t
P
DM
background image
MURD620CT
Bulletin PD-20737 rev. C 12/03
4
www.irf.com
Fig. 5 - Max. Allowable Case Temperature
Vs. Average Forward Current
Fig. 6 - Forward Power Loss Characteristics
(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
R1
x I
R
(1 - D); I
R
@ V
R1
= rated V
R
Average Power Loss ( Watts )
trr ( nC )
Qrr ( nC )
Average Forward Current - I
F
(AV)
(A)
Allowable Case Temperature (C)
Average Forward Current - I
F
(AV)
(A)
Fig. 8 - Typical Stored Charge vs. di
F
/dt
Fig. 7 - Typical Reverse Recovery vs. di
F
/dt
di
F
/dt (A/s )
di
F
/dt (A/s )
120
130
140
150
160
170
180
0
1
2
3
4
5
DC
Square wave (D = 0.50)
Rated Vr applied
see note (2)
0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
0
1
2
3
4
5
DC
RMS Limit
D = 0.01
D = 0.02
D = 0.05
D = 0.10
D = 0.20
D = 0.50
10
20
30
40
50
100
1000
IF = 3 A
IF = 6 A
R
J
J
V = 30V
T = 125C
T = 25C
0
20
40
60
80
100
120
140
100
1000
R
J
J
V = 30V
T = 125C
T = 25C
IF = 6 A
IF = 3 A
background image
Bulletin PD-20737 rev. C 12/03
5
MURD620CT
www.irf.com
Fig. 10 - Reverse Recovery Waveform and Definitions
IRFP250
D.U.T.
L = 70H
V = 200V
R
0.01
G
D
S
dif/dt
ADJUST
t
a
t
b
t
rr
Q
rr
I
F
I
RRM
I
RRM
0.5
di(rec)M/dt
0.75 I
RRM
5
4
3
2
0
1
di /dt
f
Fig. 9- Reverse Recovery Parameter Test Circuit
Reverse Recovery Circuit
di
F
/dt
di
F
/dt
4. Q
rr
- Area under curve defined by t
rr
and I
RRM
5. di(rec)M/dt - Peak rate of change of
current during tb portion of trr
1. di
F
/dt - Rate of change of current through zero
crossing
2. I
RRM
- Peak reverse recovery current
3. t
rr
- Reverse recovery time measured from zero
crossing point of negative going I
F
to point where
a line passing through 0.75 I
RRM
and 0.50 I
RRM
extrapolated to zero current
Q rr =
t rr x I RRM
2