ETC 40HAR120

Bulletin I20201 rev. A 09/98
40HF(R) SERIES
STANDARD RECOVERY DIODES
Stud Version
Features
40 A
High surge current capability
Designed for a wide range of applications
Stud cathode and stud anode version
Leaded version available
Types up to 1600V VRRM
TypicalApplications
Battery charges
Converters
Power supplies
Machine tool controls
Major Ratings and Characteristics
40HF(R)
Parameters
IF(AV)
@ TC
140 to 160
40
40
A
140
110
°C
62
A
@ 50Hz
570
A
@ 60Hz
595
A
@ 50Hz
1600
A2s
@ 60Hz
1450
A2s
IF(RMS)
IFSM
I2t
Units
10 to 120
VRRM
range
100 to 1200
1400 to 1600
V
TJ
range
- 65 to 190
- 65 to 160
°C
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case style
DO-203AB (DO-5)
1
40HF(R) Series
Bulletin I20201 rev. A 09/98
ELECTRICAL SPECIFICATIONS
Voltage Ratings
Type number
Voltage
Code
VRRM, maximum
repetitive peak
reverse voltage
V
VRSM, maximum nonrepetitive peak
reverse voltage
V
10
100
200
--
20
200
300
--
40
60
400
600
500
720
500
725
80
800
960
950
100
1000
1200
1150
120
1200
1440
1350
140
1400
1650
1550
160
1600
1900
1750
40HF(R)
VR(BR), minimum
avalanche
voltage
V
(1)
IRRM max.
@ TJ = TJ max.
mA
15
9
4.5
(1) Avalanche version only available from VRRM 400V to 1600V.
Forward Conduction
40HF(R)
Units Conditions
10 to 120 140 to 160
Parameter
IF(AV)
Max. average forward current
IF(RMS)
@ Case temperature
Max. RMS forward current
40
40
A
140
110
62
°C
A
11
K·W
180° conduction, half sine wave
PR
Maximum non-repetitive
peak reverse power
IFSM
Max. peak, one-cycle forward,
570
t = 10ms
non-repetitive surge current
595
t = 8.3ms
reapplied
t = 10ms
100% VRRM
500
t = 8.3ms
reapplied
1600
t = 10ms
No voltage
1450
t = 8.3ms
reapplied
t = 10ms
100% VRRM
t = 8.3ms
reapplied
480
2
I t
2
Maximum I t for fusing
1150
A
A2 s
1050
I √t
2
Maximum I √t for fusing
2
V F(TO)1 Low level value of threshold
16000
voltage
r
f1
Low level value of forward
f2
VFM
Max. forward voltage drop
Initial TJ = TJ max.
t = 0.1 to 10ms, no voltage reapplied
(I > π x I F(AV)), TJ = TJ max.
0.70
(16.7% x π x IF(AV) < I < π x IF(AV)), TJ = TJ max.
4.29
mΩ
High level value of forward
slope resistance
Sinusoidal half wave,
V
slope resistance
r
No voltage
(16.7% x π x IF(AV) < I < π x IF(AV)), TJ = TJ max.
0.65
voltage
V F(TO)2 High level value of threshold
A √s
2
10µs square pulse, TJ = T J max.
see note (2)
(I > π x I F(AV)), TJ = TJ max.
3.98
1.30
V
Ipk= 125A, T J = 25°C, tp = 400µs rectangular wave
(2) Available only for Avalanche version, all other parameters the same as 40HF.
2
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40HF(R) Series
Bulletin I20201 rev. A 09/98
Thermal and Mechanical Specifications
40HF(R)
10 to 120
140 to 160
Parameter
TJ
Max. junction operating temperature range
-65 to 190
-65 to 160
Tstg
Max. storage temperature range
-65 to 190
-65 to 160
RthJC
Max. thermal resistance, junction to case
RthCS
Max. thermal resistance, case
to heatsink
T
Max. allowed mounting torque ±10%
wt
Units
°C
1.0
DC operation
K/W
0.25
Approximate weight
Case style
Conditions
2.3 - 3.4
Nm
20 - 30
lbf · in
17 (0.6)
g (oz)
DO-203AB (DO5)
Mounting surface, smooth, flat and
greased
Not lubricated threads
See Outline Table
∆RthJC Conduction
(The following table shows the increment of thermal resistence RthJC when devices operate at different conduction angles than DC)
Conduction angle
Sinusoidal conduction
180°
0.14
Rectangular conduction Units
0.10
120°
0.16
0.17
90°
0.21
0.22
60°
0.30
0.31
30°
0.50
0.50
Conditions
TJ = TJ max.
K/W
Ordering Information Table
Device Code
1
-
40
HF
R
160
M
1
2
3
4
5
40 = Standard device
41 = Not isolated lead
42 = Isolated lead with silicone sleeve
(Red = Reverse polarity)
(Blue = Normal polarity)
2
-
HF
= Standard diode
HA
= Avalanche diode
3
-
None = Stud Normal Polarity (Cathode to Stud)
4
-
Voltage code: Code x 10 = VRRM (See Voltage Ratings table)
5
-
None = Stud base DO-203AB (DO-5) 1/4" 28UNF-2A
R
M
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= Stud Reverse Polarity (Anode to Stud)
= Stud base DO-203AB (DO-5) M6 X 1 - (Not available for Avalanche diodes)
3
40HF(R) Series
Bulletin I20201 rev. A 09/98
Outlines Table
40HF(R)
Case Style DO-203AB (DO-5)
All dimensions in millimeters (inches)
41HF(R)
Case Style DO-203AB (DO-5)
All dimensions in millimeters (inches)
4
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40HF(R) Series
40HF(R) Series (100V to 1200V)
RthJC (DC) = 1.0 K/W
180
170
Conduction Angle
160
150
90°
140
60°
30°
Maximum Allowable Case Temperature (°C)
120°
180°
130
0
5
10 15
20
25 30 35
40HF(R) Series (100V to 1200V)
RthJC (DC) = 1.0 K/W
180
170
160
Conduction Period
150
140
90°
60°
130
180°
DC
120
0
40 45
10
20
30
40
50
60
Average Forward Current (A)
Fig. 1 - Current Ratings Characteristics
Fig. 2 - Current Ratings Characteristics
40HF(R) Series (1400V to 1600V)
R thJC (DC) = 1.0 K/W
150
140
Conduction Angle
130
120
90°
110
60°
120°
180°
30°
100
5
10 15 20
25 30
35
40HF(R) Series (1400V to 1600V)
R thJC (DC) = 1.0 K/W
150
140
130
Conduction Period
120
110
60°
100
30°
40 45
0
10
40
50
60
70
K/W
aR
elt
-D
7K
/W
20
Conduction Angle
=1
25
10
30
A
5K
/W
RMS Limit
15
20
R thS
K/
W
K/W
3
W
K/
1.5
30
DC
Fig. 4 - Current Ratings Characteristics
2
35
180°
Average Forward Current (A)
180°
120°
90°
60°
30°
40
90°
120°
90
Fig. 3 - Current Ratings Characteristics
45
70
160
Average Forward Current (A)
Maximum Average Forward Power Loss (W)
120°
30°
Average Forward Current (A)
160
0
190
Maximum Allowable Case Temperature (°C)
190
Maximum Allowable Case Temperature (°C)
Maximum Allowable Case Temperature (°C)
Bulletin I20201 rev. A 09/98
10
K/W
40HF(R) Series
(100V to 1200V)
TJ = 190°C
5
0
0
5
10
15
20
25
30
Average Forward Current (A)
35
0
40
25
50
75 100 125 150 175 200
Maximum Allowable Ambient Temperature (°C)
Fig. 5 - Forward Power Loss Characteristics
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5
40HF(R) Series
60
SA
=1
K/W
3
R th
W
K/
K/
W
aR
elt
-D
40
W
K/
50
5
1.
DC
180°
120°
90°
60°
30°
2
Maximum Average Forward Power Loss (W)
Bulletin I20201 rev. A 09/98
5K
/W
30 RMS Limit
20
7K
/W
10
K/W
Conduction Period
40HF(R) Series
(100V to 1200V)
TJ = 190°C
10
0
0
10
20
30
40
50
60
0
70
Average Forward Current (A)
25
50
75 100 125 150 175 200
Maximum Allowable Ambient Temperature (°C)
45
A
R thS
=1
K/W
30
K/
W
W
K/
1.5
35
3
W
K/
180°
120°
90°
60°
30°
40
2
5K
/W
RMS Limit
25
aR
elt
-D
Maximum Average Forward Power Loss (W)
Fig. 6 - Forward Power Loss Characteristics
7K
/W
20
10
K/W
15
Conduction Angle
10
40HF(R) Series
(1400V to 1600V)
TJ = 160°C
5
0
0
5
10
15
20
25
30
35
Average Forward Current (A)
40
0
25
50
75 100 125 150 175 200
Maximum Allowable Ambient Temperature (°C)
60
SA
R th
=1
K/W
3
W
K/
K/
W
aR
elt
-D
40
/W
K
50
5
1.
DC
180°
120°
90°
60°
30°
2
Maximum Average Forward Power Loss (W)
Fig. 7 - Forward Power Loss Characteristics
5K
/W
30 RMS Limit
20
Conduction Period
7K
/W
10
K/W
40HF(R) Series
(1400V to 1600V)
TJ = 160°C
10
0
0
10
20
30
40
50
60
Average Forward Current (A)
70
0
25
50
75
100 125 150 175 200
Maximum Allowable Ambient Temperature (°C)
Fig. 8 - Forward Power Loss Characteristics
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40HF(R) Series
550
At Any Rated Load Condition And With
Rated V RRM Applied Following Surge.
Initial TJ = TJ Max.
@ 60 Hz 0.0083 s
@ 50 Hz 0.0100 s
500
450
400
350
300
250
200
150
40HF(R) Series
Peak Half Sine Wave Forward Current (A)
Peak Half Sine Wave Forward Current (A)
Bulletin I20201 rev. A 09/98
100
1
10
600
Maximum Non Repetitive Surge Current
Versus Pulse Train Duration.
Initial TJ = TJ Max.
No Voltage Reapplied
Rated VRRMReapplied
550
500
450
400
350
300
250
200
40HF(R) Series
150
100
0.01
100
Number Of Equal Amplitude Half Cycle Current Pulses (N)
Instantaneous Forward Current (A)
100
TJ = 25°C
TJ = TJ Max.
10
40HF(R) Series
1
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5
1
Fig. 10 - Maximum Non-Repetitive Surge Current
Transient Thermal Impedance ZthJC (K/W)
Fig. 9 - Maximum Non-Repetitive Surge Current
1000
0.1
Pulse Train Duration (s)
10
Steady State Value
RthJC = 1.0 K/W
(DC Operation)
1
0.1
40HF(R) Series
0.01
0.0001
0.001
0.01
0.1
1
10
Instantaneous Forward Voltage (V)
Square Wave Pulse Duration (s)
Fig. 11 - Forward Voltage Drop Characteristics
Fig. 12 - Thermal Impedance ZthJC Characteristics
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Data and specifications subject to change without notice.
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