STTH30RQ06-Y
Datasheet
Automotive turbo 2 ultrafast high voltage rectifier
Features
A
K
K
K
K A
NC
D²PAK
D²PAK HV
A A
NC
K
A
K
A
DO-247
K
•
•
•
•
•
•
•
•
•
AEC-Q101 qualified
High junction temperature capability
Ultrafast with soft recovery behavior
Low reverse current
Low thermal resistance
Reduce switching and conduction losses
PPAP capable
D²PAK HV creepage distance (anode to cathode) = 5.38 mm min. (with top
coating)
VRRM guaranteed from -40 °C to 175 °C
•
ECOPACK®2 compliant (DO-247, TO-220AC)
TO-220AC
Applications
•
•
•
•
•
Output rectification
PFC
UPS
Air conditioning
Charging station
Product status link
Description
STTH30RQ06-Y
Product summary
IF(AV)
30 A
VRRM
600 V
VF (typ.)
1.45 V
trr (max.)
30 ns
Tj
-40 °C to +175 °C
The STTH30RQ06-Y has been developed to be used in application requiring a highvoltage secondary rectification for LLC Full Bridge topology.
It is also suited for use in switching power supplies and automotive applications,
industrial applications, as rectification, freewheeling and clamping diode.
DS12165 - Rev 3 - November 2018
For further information contact your local STMicroelectronics sales office.
www.st.com
STTH30RQ06-Y
Characteristics
1
Characteristics
Table 1. Absolute ratings (limiting values, at 25 °C, unless otherwise specified)
Symbol
Parameter
VRRM
Repetitive peak reverse voltage
IF(RMS)
Forward rms current
Value
Unit
600
V
50
A
30
A
Tj = -40 °C to +175 °C
IF(AV)
Average forward current δ = 0.5, square wave
TC = 125 °C
IFSM
Surge non repetitive forward current
tp = 10 ms sinusoidal
Tstg
Storage temperature range
-65 to +175
°C
Operating junction temperature range
-40 to +175
°C
Tj
D²PAK, D²PAK HV
180
TO-220AC, DO-247
200
A
Table 2. Thermal parameters
Symbol
Rth(j-c)
Parameter
Max. value
Unit
0.7
°C/W
Junction to case
Table 3. Static electrical characteristics
Symbol
IR (1)
Parameter
Test conditions
Tj = 25 °C
Reverse leakage current
Tj = 150 °C
Tj = 25 °C
VF (2)
Tj = 150 °C
Forward voltage drop
Tj = 25 °C
Tj = 150 °C
VR = VRRM
IF = 15 A
IF = 30 A
Min.
Typ.
Max.
-
40
80
2.45
1.15
1.45
-
µA
800
-
Unit
V
2.95
1.45
1.85
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 = 1.05 x IF(AV) + 0.026 x IF 2 (RMS)
Table 4. Dynamic electrical characteristics
Symbol Parameter
trr
IRM
Reverse recovery current
QRR
Reverse recovery charge
trr
DS12165 - Rev 3
Reverse recovery time
Reverse recovery time
Tj = 25 °C
Tj = 125 °C
Test conditions
Min.
IF = 0.5 A, IR = 1 A, Irr = 0.25 A
-
IF = 1 A, VR = 30 V, dlF/dt = -50 A/µs
-
40
55
-
8
11
-
485
nC
-
95
ns
IF = 30 A, VR = 400 V, dlF/dt = -200 A/µs
Typ.
Max.
30
Unit
ns
A
page 2/17
STTH30RQ06-Y
Characteristics (curves)
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
1.1
Characteristics (curves)
Figure 1. Average forward power dissipation versus
average forward current (square waveform)
100
PF( AV )(W)
Figure 2. Average forward power dissipation versus
average forward current (sinusoidal waveform)
100
δ = 0.05
δ = 0.1
δ = 0.2
δ = 0.5
PF( AV )(W)
δ = 0.2
δ = 0.1
δ= 1
80
80
60
60
40
40
δ= 1
δ = 0.5
δ = 0.05
T
20
20
IF( AV ) (A)
0
0
0
5
10
15
20
25
30
35
0
40
Figure 3. Forward voltage drop versus forward current
(typical values)
100.0
IF( AV ) (A)
tp
δ=tp/T
5
10
15
20
25
30
35
40
Figure 4. Forward voltage drop versus forward current
(maximum values)
I F (A)
I F (A)
100.0
TjJ=150°C
= 175°C
TjJ=150°C
= 175°C
150°C
TjJ=
=150°C
TjJ=
=150°C
150°C
10.0
TjJ=150°C
= 25°C
TjJ=150°C
= 25°C
1.0
10.0
TjJ=150°C
= -40 °C
TjJ=150°C
= -40 °C
1.0
VF (V)
0.1
0.0
DS12165 - Rev 3
0.5
1.0
1.5
2.0
2.5
3.0
VF (V)
3.5
0.1
0.0
1.0
2.0
3.0
4.0
page 3/17
STTH30RQ06-Y
Characteristics (curves)
Figure 5. Relative variation of thermal impedance junction
to case versus pulse duration
1.0
Figure 6. Peak reverse recovery current versus dIF/dt
(typical values)
IRM(A)
Zth (j-c)/Rt h(j-c)
20
0.9
VR = 400 V
Tj = 125°C
Single pulse
0.8
15
0.7
0.6
0.5
IF = 30 A
10
0.4
IF = 15 A
0.3
5
IF = 7.5 A
0.2
0.1
t p( s )
0.0
1.E-04
1.E-03
1.E-02
1.E-01
1.E+00
Figure 7. Reverse recovery time versus dIF/dt (typical
values)
240
dI F / dt(A/ µs)
0
tRR(ns)
0
50
150
200
250
300
350
400
450
500
Figure 8. Reverse recovery charges versus dIF/dt (typical
values)
800
QRR(nC)
VR = 400 V
Tj = 125°C
VR = 400 V
Tj = 125°C
200
100
600
IF = 30 A
160
IF = 15 A
IF = 30 A
400
120
80
IF = 7.5 A
200
IF = 15 A
40
IF = 7.5 A
dI F /dt(A/µs)
0
50
100
150
200
250
300
350
400
450
dI F /dt(A/µs)
0
0
0
500
Figure 9. Reverse recovery softness factor versus dIF/dt
(typical values)
Sfactor
50
100
150
200
250
300
350
400
450
500
Figure 10. Relative variations of dynamic parameters
versus junction temperature
2.0
IF = IF(AV)
VR = 400 V
Reference :Tj = 125 °C
2.0
VR = 400 V
Tj = 125°C
1.6
1.6
1.2
SFACTOR
1.2
0.8
0.8
IRM
0.4
0.4
QRR
dI F /dt(A/µs)
0
50
DS12165 - Rev 3
100
150
200
250
300
Tj(°C)
0.0
0.0
350
400
450
500
25
50
75
100
125
page 4/17
STTH30RQ06-Y
Characteristics (curves)
Figure 11. Junction capacitance versus reverse voltage
applied (typical values)
Figure 12. Thermal resistance junction to ambient versus
copper surface under tab (typical values, epoxy printed
board FR4, eCu = 35 µm)(D²PAK and D²PAK HV)
C(pF)
1000
Rth(j-a) (°C/W)
80
F=1MHz
VOSC=30mVRMS
Tj=25°C
70
60
50
100
40
30
20
10
VR(V)
SCu (cm²)
10
0
1
10
100
1000
Figure 13. Relative variation of non-repetitive peak surge
forward current versus pulse duration (sinusoidal
waveform)
4.0
IFSM(tp) / IFSM(10 ms)
0
1.2
1.0
3.0
0.8
2.5
0.6
2.0
0.4
1.5
0.2
tp(ms)
0.1
DS12165 - Rev 3
1.0
10
15
25
30
35
40
IFSM(Tj) / IFSM(25 °C)
Tj(°C)
0.0
10.0
20
Figure 14. Relative variation of non-repetitive peak surge
forward current versus initial junction temperature
(sinusoidal waveform)
3.5
1.0
5
25
50
75
100
125
150
175
page 5/17
STTH30RQ06-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 15. DO-247 package outline
V
Dia
V
A
H
0.10
L5
L
L2
L4
F2
L1
F3
L3
D
V2
F
G
DS12165 - Rev 3
M
E
page 6/17
STTH30RQ06-Y
DO-247 package information
Table 5. 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.
DS12165 - Rev 3
Inches
3.55
3.65
0.139
0.143
page 7/17
STTH30RQ06-Y
D²PAK package information
2.2
D²PAK package information
•
•
Epoxy meets UL94, V0.
Cooling method: by conduction (C)
Figure 16. D²PAK package outline
DS12165 - Rev 3
page 8/17
STTH30RQ06-Y
D²PAK package information
Table 6. D²PAK package mechanical data
Dimensions
Ref.
Millimeters
Min.
Typ.
Inches (for reference only)
Max.
Min.
Typ.
Max.
A
4.40
4.60
0.173
0.181
A1
0.03
0.23
0.001
0.009
b
0.70
0.93
0.028
0.037
b2
1.14
1.70
0.045
0.067
c
0.45
0.60
0.018
0.024
c2
1.23
1.36
0.048
0.053
D
8.95
9.35
0.352
0.368
D1
7.50
7.75
8.00
0.295
0.305
0.315
D2
1.10
1.30
1.50
0.043
0.051
0.060
E
10.00
10.40
0.394
E1
8.30
8.50
8.70
0.335
0.343
0.346
E2
6.85
7.05
7.25
0.266
0.278
0.282
e
0.409
2.54
0.100
e1
4.88
5.28
0.190
0.205
H
15.00
15.85
0.591
0.624
J1
2.49
2.69
0.097
0.106
L
2.29
2.79
0.090
0.110
L1
1.27
1.40
0.049
0.055
L2
1.30
1.75
0.050
0.069
R
V2
0.40
0°
0.015
8°
0°
8°
Figure 17. D²PAK recommended footprint (dimensions are in mm)
Footprint
DS12165 - Rev 3
page 9/17
STTH30RQ06-Y
TO-220AC package information
2.3
TO-220AC package information
•
•
•
•
Epoxy meets UL 94,V0
Cooling method: by conduction (C)
Recommended torque value: 0.55 N·m
Maximum torque value: 0.70 N·m
Figure 18. TO-220AC package outline
A
H2
0.10
ØI
C
Gate note (1)(2)
L5
L7
L6
L2
F1
D
L9
Gate note (1)(2)
L4
F
M
G
E
(1) :Max resin gate protusion 0.5 mm
(2) :Resin gate position is accepted in each of the two positions shown on the drawings or their symmetrical
DS12165 - Rev 3
page 10/17
STTH30RQ06-Y
TO-220AC package information
Table 7. TO-220AC package mechanical data
Dimensions
Ref.
Millimeters
Min.
Max.
Min.
Max.
A
4.40
4.60
0.173
0.181
C
1.23
1.32
0.048
0.051
D
2.40
2.72
0.094
0.107
E
0.49
0.70
0.019
0.027
F
0.61
0.88
0.024
0.034
F1
1.14
1.70
0.044
0.066
G
4.95
5.15
0.194
0.202
H2
10.00
10.40
0.393
0.409
L2
16.40 typ.
0.645 typ.
L4
13.00
14.00
0.511
0.551
L5
2.65
2.95
0.104
0.116
L6
15.25
15.75
0.600
0.620
L7
6.20
6.60
0.244
0.259
L9
3.50
3.93
0.137
0.154
M
Diam
DS12165 - Rev 3
Inches (for reference only)
2.60 typ.
3.75
0.102 typ.
3.85
0.147
0.151
page 11/17
STTH30RQ06-Y
D²PAK high voltage package information
2.4
D²PAK HV package information
Figure 19. D²PAK high voltage package outline
A
H
C
L1
L
R
L4
R
M
L2
0.25 gauge plane
F (x2)
E
e
H1
L3
A1
V
DS12165 - Rev 3
page 12/17
STTH30RQ06-Y
D²PAK high voltage package information
Table 8. D²PAK high voltage package mechanical data
Ref.
Dimensions
Min.
Typ.
Max.
A
4.30
4.70
A1
0.03
0.20
C
1.17
1.37
e
4.98
5.18
E
0.50
0.90
F
0.78
0.85
H
10.00
10.40
H1
7.40
7.80
L
15.30
15.80
L1
1.27
1.40
L2
4.93
5.23
L3
6.85
7.25
L4
1.5
1.7
M
2.6
2.9
R
0.20
0.60
V
0°
8°
Figure 20. D²PAK High Voltage footprint in mm
10,58
7,46
15,95
5,10
3,40
1,20
5,08
DS12165 - Rev 3
page 13/17
STTH30RQ06-Y
D²PAK high voltage package information
2.4.1
Creepage distance between anode and cathode
Table 9. Creepage distance between anode and cathode
Symbol
Note:
Parameter
CdA-K1
Minimum creepage distance between A and K1 (with top coating)
CdA-K2
Minimum creepage distance between A and K2 (without top coating)
Value
D²PAK HV
5.38
3.48
Unit
mm
D²PAK HV creepage distance (anode to cathode) = 5.38 mm min. (refer to IEC 60664-1)
Figure 21. Creepage with top coating
Figure 22. Creepage without top coating
DS12165 - Rev 3
page 14/17
STTH30RQ06-Y
Ordering information
3
Ordering information
Table 10. Ordering information
DS12165 - Rev 3
Order code
Marking
Package
Weight
Base qty.
Delivery mode
STTH30RQ06GY-TR
STTH30RQ06GY
D²PAK
1.48 g
1000
Tape and reel
STTH30RQ06DY
STTH30RQ06DY
TO-220AC
1.86 g
50
Tube
STTH30RQ06WY
STTH30RQ06WY
DO-247
4.40 g
30
Tube
STTH30RQ06G2Y-TR
TH30RQ06G2Y
D²PAK HV
1.48 g
1000
Tape and reel
page 15/17
STTH30RQ06-Y
Revision history
Table 11. Document revision history
Date
Revision
Changes
12-Jun-2017
1
Initial release.
09-Oct-2018
2
Added D²PAK HV package.
20-Nov-2018
3
Updated Features and Table 9. Creepage distance between anode and
cathode.
added Figure 22. Creepage without top coating.
DS12165 - Rev 3
page 16/17
STTH30RQ06-Y
IMPORTANT NOTICE – PLEASE READ CAREFULLY
STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, enhancements, modifications, and improvements to ST
products and/or to this document at any time without notice. Purchasers should obtain the latest relevant information on ST products before placing orders. ST
products are sold pursuant to ST’s terms and conditions of sale in place at the time of order acknowledgement.
Purchasers are solely responsible for the choice, selection, and use of ST products and ST assumes no liability for application assistance or the design of
Purchasers’ products.
No license, express or implied, to any intellectual property right is granted by ST herein.
Resale of ST products with provisions different from the information set forth herein shall void any warranty granted by ST for such product.
ST and the ST logo are trademarks of ST. All other product or service names are the property of their respective owners.
Information in this document supersedes and replaces information previously supplied in any prior versions of this document.
© 2018 STMicroelectronics – All rights reserved
DS12165 - Rev 3
page 17/17
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