STBR6008-Y
Datasheet
Automotive 800 V, 60 A bridge rectifier diode
A
Features
K
A
K
DO-247
•
•
•
•
•
AEC-Q101 qualified
Ultra low conduction losses
Ultra-low reverse losses
High junction temperature capability (+175 °C)
VRRM guaranteed from -40 to +175 °C
•
•
PPAP capable
ECOPACK2 compliant
Applications
•
•
•
On board charger (OBC)
Charging stations
Bridge function
Description
The high quality design of this diode has produced a device with consistently
reproducible characteristics and intrinsic ruggedness. These characteristics make it
ideal for heavy duty applications that demand long term reliability like automotive
applications.
Product status link
STBR6008-Y
Thanks to its ultra-low conduction losses, the STBR6008-Y is especially suitable for
use as input bridge diode in battery chargers and charging stations.
Product summary
Symbol
Value
IF(AV)
60 A
VRRM
800 V
Tj
-40 to +175 °C
VF (typ.)
1.00 V
DS13045 - Rev 1 - June 2019
For further information contact your local STMicroelectronics sales office.
www.st.com
STBR6008-Y
Characteristics
1
Characteristics
Table 1. Absolute ratings (limiting values at 25 °C, unless otherwise specified)
Symbol
Parameter
Value
Unit
VRRM
Repetitive peak reverse voltage
Tj = -40 °C to +175 °C
800
V
VRSM
Non-repetitive surge reverse voltage
tp = 10 ms square
900
V
90
A
IF(RMS)
Forward rms current
IF(AV)
Average forward current
TC = 160 °C, δ = 0.5 square wave
60
A
IFSM
Surge non repetitive forward current
tp = 10 ms sinusoidal
500
A
Tstg
Storage temperature range
-65 to +175
°C
Operating junction temperature
-40 to +175
°C
Tj
Table 2. Thermal parameters
Symbol
Rth(j-c)
Parameter
Junction to case
Typ.
value
Unit
0.20
°C/W
Max.
Unit
For more information, please refer to the following application note :
•
AN5088 : Rectifiers thermal management, handling and mounting recommendations
Table 3. Static electrical characteristics
Symbol
Parameter
IR
Reverse leakage current
VF
Forward voltage drop
Test conditions
Tj = 25 °C
Tj = 150 °C
Tj = 25 °C
Tj = 150 °C
VR = VRRM
IF = 60 A
Min.
Typ.
-
5
-
25
250
-
1.00
1.10
-
0.88
0.97
µA
V
1. Pulse test: tp = 5 ms, δ < 2%
2. Pulse test: tp = 380 µs, δ < 2%
To evaluate the conduction losses, use the following equation:
P = 0.75 x IF(AV) + 0.0036 x IF2(RMS)
For more information, please refer to the following application notes related to the power losses:
•
AN604: Calculation of conduction losses in a power rectifier
•
AN4021: Calculation of reverse losses in a power diode
DS13045 - Rev 1
page 2/9
STBR6008-Y
Characteristics (curves)
1.1
Characteristics (curves)
Figure 1. Average forward power dissipation versus
average forward current
Figure 2. Forward voltage drop versus forward current
(typical values)
IF (A)
P(W)
100
1.0E+03
δ = 0.5
80
1.0E+02
δ = 0.2
60
Tj=150 °C
1.0E+01
δ = 0.1
δ=1
δ = 0.05
40
Tj=25 °C
1.0E+00
T
1.0E-01
20
IF(AV)(A)
δ =tp/T
VF (V)
tp
1.0E-02
0
0
10
20
30
40
50
60
70
0.0
80
Figure 3. Forward voltage drop versus forward current
(maximum values)
0.2
0.4
0.6
0.8
1.0
1.2
1.4
Figure 4. Relative variation of thermal impedance junction
to case versus pulse duration
Zth(j-c) /Rth(j-c)
IF (A)
1.0
1.0E+03
0.9
0.8
1.0E+02
Tj=150 °C
0.7
0.6
1.0E+01
0.5
Tj=25 °C
0.4
1.0E+00
0.3
0.2
1.0E-01
0.1
VF (V)
DS13045 - Rev 1
t p (s)
0.0
1.0E-02
0.0
Single pulse
0.4
0.8
1.2
1.6
1.E-03
1.E-02
1.E-01
1.E+00
page 3/9
STBR6008-Y
Characteristics (curves)
Figure 5. Junction capacitance versus reverse voltage
applied (typical values)
Figure 6. Relative variation of non-repetitive peak surge
forward current versus pulse duration (sinusoidal
waveform)
C(pF)
1000
F=1 MHz
VOSC=30 mVRMS
Tj=25 °C
IFSM(t p ) / IFSM(10ms)
4.0
3.5
3.0
100
2.5
2.0
1.5
VR(V)
10
1
10
100
1000
10000
Figure 7. Relative variation of non-repetitive peak surge
forward current versus initial junction temperature
(sinusoidal waveform)
t p (ms)
1.0
0.1
1.0
10.0
Figure 8. Non repetitive surge peak forward current
versus number of cycles
IFSM( A)
1.2
IFSM(T j) / IFSM(25°C)
600
F = 50 Hz
T initial = 25 °C
j
500
1.0
400
0.8
300
0.6
200
0.4
100
0.2
T j(°C)
0.0
25
DS13045 - Rev 1
50
75
100
125
150
175
tp=10ms
One cycle
0
1
Number of cycles
10
100
page 4/9
STBR6008-Y
Package information
2
Package information
In order to meet environmental requirements, ST offers these devices in different grades of ECOPACK packages,
depending on their level of environmental compliance. ECOPACK specifications, grade definitions and product
status are available at: www.st.com. ECOPACK is an ST trademark.
2.1
DO-247 package information
•
•
•
•
Epoxy meets UL94, V0
Cooling method: by conduction (C)
Recommended torque value: 0.8 N·m (DO-247)
Maximum torque value: 1.0 N·m (DO-247)
Figure 9. DO-247 package outline
V
Dia
V
A
H
0.10
L5
L
L2
L4
F2
L1
F3
L3
D
V2
F
G
DS13045 - Rev 1
M
E
page 5/9
STBR6008-Y
DO-247 package information
Table 4. DO-247 package mechanical data
Dimensions
Ref.
Millimeters
Min.
Max.
Min.
Max.
A
4.85
5.15
0.191
0.203
D
2.20
2.60
0.086
0.102
E
0.40
0.80
0.015
0.031
F
1.00
1.40
0.039
0.055
F2
F3
2.00 typ.
2.00
G
0.078 typ.
2.40
0.078
10.90 typ.
0.094
0.429 typ.
H
15.45
15.75
0.608
0.620
L
19.85
20.15
0.781
0.793
L1
3.70
4.30
0.145
0.169
L2
L3
18.50 typ.
14.20
0.728 typ.
14.80
0.559
0.582
L4
34.60 typ.
1.362 typ.
L5
5.50 typ.
0.216 typ.
M
2.00
3.00
0.078
0.118
V
5°
5°
V2
60°
60°
Dia.
DS13045 - Rev 1
Inches
3.55
3.65
0.139
0.143
page 6/9
STBR6008-Y
Ordering information
3
Ordering information
Table 5. Ordering information
DS13045 - Rev 1
Order code
Marking
Package
Weight
Base qty.
Delivery mode
STBR6008WY
STBR6008WY
DO-247
4.4 g
30
Tube
page 7/9
STBR6008-Y
Revision history
Table 6. Document revision history
DS13045 - Rev 1
Date
Revision
10-Jun-2019
1
Changes
First issue.
page 8/9
STBR6008-Y
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© 2019 STMicroelectronics – All rights reserved
DS13045 - Rev 1
page 9/9
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