RGCL60TS60 [ROHM]
罗姆的IGBT(绝缘栅极型双极晶体管)产品为高电压、大电流应用的高效化和节能化作贡献。;
| 型号: | RGCL60TS60 |
| 厂家: | 
ROHM |
| 描述: | 罗姆的IGBT(绝缘栅极型双极晶体管)产品为高电压、大电流应用的高效化和节能化作贡献。 栅 双极性晶体管 栅极 |
| 文件: | 总11页 (文件大小:793K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
RGCL60TS60GC13
Datasheet
600V 30A Field Stop Trench IGBT
Outline
TO-247GE
VCES
IC(100°C)
VCE(sat) (Typ.)
PD
600V
30A
1.4V
111W
(1)(2)(3)
Features
Inner Circuit
1) Low Collector - Emitter Saturation Voltage
2) Soft Switching
(2)
(3)
(1) Gate
(2) Collector
(3) Emitter
3) Pb - free Lead Plating ; RoHS Compliant
(1)
Applications
Packaging Specifications
Partial Switching PFC
Packaging
Tube
Discharge Circuit
Brake for Inverter
Reel Size (mm)
-
Tape Width (mm)
Type
-
600
Basic Ordering Unit (pcs)
Taping Code
Marking
C13
RGCL60TS60
Absolute Maximum Ratings (at TC = 25°C unless otherwise specified)
Parameter
Collector - Emitter Voltage
Symbol
VCES
VGES
IC
Value
Unit
V
600
Gate - Emitter Voltage
V
30
TC = 25°C
48
30
A
Collector Current
TC = 100°C
IC
A
*1
Pulsed Collector Current
Power Dissipation
120
A
ICP
TC = 25°C
PD
PD
Tj
111
W
W
°C
°C
TC = 100°C
55
Operating Junction Temperature
40 to +175
55 to +175
Tstg
Storage Temperature
*1 Pulse width limited by Tjmax.
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© 2021 ROHM Co., Ltd. All rights reserved.
2021.09 - Rev.A
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Datasheet
RGCL60TS60GC13
Thermal Resistance
Values
Typ.
-
Parameter
Thermal Resistance IGBT Junction - Case
Symbol
Rθ(j-c)
Unit
Min.
-
Max.
1.34
°C/W
IGBT Electrical Characteristics (at Tj = 25°C unless otherwise specified)
Values
Typ.
Parameter
Symbol
Conditions
Unit
V
Min.
600
Max.
-
Collector - Emitter Breakdown
Voltage
BVCES IC = 10μA, VGE = 0V
-
-
ICES
VCE = 600V, VGE = 0V
Collector Cut - off Current
-
-
10
200
6.5
μA
nA
V
IGES
VGE = 30V, VCE = 0V
Gate - Emitter Leakage Current
-
Gate - Emitter Threshold
Voltage
VGE(th) VCE = 5V, IC = 18.9mA
4.5
5.5
IC = 30A, VGE = 15V
VCE(sat) Tj = 25°C
Tj = 175°C
Collector - Emitter Saturation
Voltage
-
-
1.4
1.6
1.8
-
V
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© 2021 ROHM Co., Ltd. All rights reserved.
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Datasheet
RGCL60TS60GC13
IGBT Electrical Characteristics (at Tj = 25°C unless otherwise specified)
Values
Typ.
1600
38
Parameter
Symbol
Conditions
Unit
pF
Min.
Max.
Cies
Coes
Cres
Qg
VCE = 30V
Input Capacitance
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
VGE = 0V
Output Capacitance
Reverse Transfer Capacitance
Total Gate Charge
Gate - Emitter Charge
Gate - Collector Charge
Turn - on Delay Time
Rise Time
f = 1MHz
29
VCE = 300V
68
Qge
Qgc
td(on)
tr
IC = 30A
13
nC
VGE = 15V
27
IC = 30A, VCC = 400V
VGE = 15V, RG = 10Ω
Tj = 25°C
44
27
ns
mJ
ns
td(off)
tf
Turn - off Delay Time
Fall Time
186
178
0.77
1.11
40
Inductive Load
*Eon includes diode
reverse recovery
IC = 30A, VCC = 400V
VGE = 15V, RG = 10Ω
Tj = 175°C
Eon
Eoff
td(on)
tr
Turn - on Switching Loss
Turn - off Switching Loss
Turn - on Delay Time
Rise Time
45
td(off)
tf
Turn - off Delay Time
Fall Time
207
272
0.97
1.54
Inductive Load
*Eon includes diode
reverse recovery
IC = 120A, VCC = 480V
VP = 600V, VGE = 15V
RG = 60Ω, Tj = 175°C
Eon
Eoff
Turn - on Switching Loss
Turn - off Switching Loss
mJ
-
Reverse Bias Safe Operating Area
RBSOA
FULL SQUARE
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© 2021 ROHM Co., Ltd. All rights reserved.
2021.09 - Rev.A
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Datasheet
RGCL60TS60GC13
Electrical Characteristic Curves
Fig.1 Power Dissipation vs. Case Temperature
Fig.2 Collector Current vs. Case Temperature
140
120
100
80
60
50
40
30
20
60
40
ꢀ
10
20
Tj≦175ºC
GE≧15V
V
0
0
0
25
50
75 100 125 150 175
0
25
50
75 100 125 150 175
Case Temperature : Tc [ºC]
Case Temperature : Tc [ºC]
Fig.3 Forward Bias Safe Operating Area
Fig.4 Reverse Bias Safe Operating Area
1000
160
140
120
100
80
100
10
10µs
100µs
1
60
40
0.1
0.01
TC= 25ºC
Single Pulse
Tj≦175ºC
VGE=15V
20
0
1
10
100
1000
0
200
400
600
800
Collector To Emitter Voltage : VCE[V]
Collector To Emitter Voltage : VCE[V]
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© 2021 ROHM Co., Ltd. All rights reserved.
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Datasheet
RGCL60TS60GC13
Electrical Characteristic Curves
Fig.5 Typical Output Characteristics
Fig.6 Typical Output Characteristics
120
120
Tj= 25ºC
Tj= 175ºC
VGE= 20V
100
80
60
40
20
0
100
80
60
40
20
0
VGE= 20V
VGE= 15V
VGE= 15V
VGE= 12V
VGE= 12V
VGE= 10V
VGE= 10V
VGE= 8V
4
VGE= 8V
0
1
2
3
5
0
1
2
3
4
5
Collector To Emitter Voltage : VCE[V]
Collector To Emitter Voltage : VCE[V]
Fig.7 Typical Transfer Characteristics
Fig.8 Typical Collector To Emitter Saturation Voltage
vs. Junction Temperature
4
60
VCE= 10V
VGE= 15V
50
40
30
20
10
0
3
IC= 60A
2
IC= 30A
IC= 15A
1
0
Tj= 175ºC
Tj= 25ºC
25
50
75
100
125
150
175
0
2
4
6
8
10
12
Gate To Emitter Voltage : VGE [V]
Junction Temperature : Tj [ºC]
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Datasheet
RGCL60TS60GC13
Electrical Characteristic Curves
Fig.9 Typical Collector To Emitter Saturation Voltage
Fig.10 Typical Collector To Emitter Saturation Voltage
vs. Gate To Emitter Voltage
vs. Gate To Emitter Voltage
20
20
Tj= 175ºC
Tj= 25ºC
15
15
10
5
IC= 60A
IC= 60A
IC= 30A
IC= 15A
10
IC= 30A
IC= 15A
5
0
0
5
10
15
20
5
10
15
20
Gate To Emitter Voltage : VGE [V]
Gate To Emitter Voltage : VGE [V]
Fig.12 Typical Switching Time
vs. Gate Resistance
Fig.11 Typical Switching Time
vs. Collector Current
1000
1000
tf
tf
td(off)
td(off)
100
100
tr
td(on)
td(on)
VCC=400V, VGE=15V
RG=10Ω, Tj=175ºC
Inductive load
VCC=400V, IC=30A
VGE=15V, Tj=175ºC
Inductive load
tr
10
10
0
10
20
30
40
50
60
0
10
20
30
40
50
Collector Current : IC [A]
Gate Resistance : RG [Ω]
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Datasheet
RGCL60TS60GC13
Electrical Characteristic Curves
Fig.13 Typical Switching Energy Losses
Fig.14 Typical Switching Energy Losses
vs. Collector Current
vs. Gate Resistance
10
10
Eoff
Eon
Eoff
1
1
Eon
0.1
0.01
0.1
VCC=400V, IC=30A
VGE=15V, Tj=175ºC
VCC=400V, VGE=15V
RG=10Ω, Tj=175ºC
Inductive load
Inductive load
0.01
0
10
20
30
40
50
0
10
20
30
40
50
60
Collector Current : IC [A]
Gate Resistance : RG [Ω]
Fig.15 Typical Capacitance
vs. Collector To Emitter Voltage
Fig.16 Typical Gate Charge
15
10
5
10000
1000
100
10
Cies
Coes
Cres
VCC=300V
IC=30A
Tj=25ºC
f=1MHz
VGE=0V
Tj=25ºC
0
1
0
10
20
30
40
50
60
70
0.01
0.1
1
10
100
Collector To Emitter Voltage : VCE[V]
Gate Charge : Qg [nC]
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Datasheet
RGCL60TS60GC13
Electrical Characteristic Curves
Fig.17 IGBT Transient Thermal Impedance
10
1
D= 0.5
0.2
0.1
PDM
Single Pulse
0.01
0.1
0.02
0.05
t1
t2
Duty=t1/t2
Peak Tj=PDM×ZthJCTC
0.01
0.0001
0.001
0.01
0.1
1
Pulse Width : t1[s]
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Datasheet
RGCL60TS60GC13
Inductive Load Switching Circuit and Waveform
Gate Drive Time
90%
VGE
D.U.T.
10%
VG
90%
IC
10%
Fig.18 Inductive Load Circuit
td(off)
tf
td(on)
tr
ton
toff
VCE
10%
VCE(sat)
Eon
Eoff
Fig.19 Inductive Load Waveform
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Notice
N o t e s
1) The information contained herein is subject to change without notice.
2) Before you use our Products, please contact our sales representative and verify the latest specifica-
tions.
3) Although ROHM is continuously working to improve product reliability and quality, semicon-
ductors can break down and malfunction due to various factors.
Therefore, in order to prevent personal injury or fire arising from failure, please take safety
measures such as complying with the derating characteristics, implementing redundant and
fire prevention designs, and utilizing backups and fail-safe procedures. ROHM shall have no
responsibility for any damages arising out of the use of our Poducts beyond the rating specified by
ROHM.
4) Examples of application circuits, circuit constants and any other information contained herein are
provided only to illustrate the standard usage and operations of the Products. The peripheral
conditions must be taken into account when designing circuits for mass production.
5) The technical information specified herein is intended only to show the typical functions of and
examples of application circuits for the Products. ROHM does not grant you, explicitly or implicitly,
any license to use or exercise intellectual property or other rights held by ROHM or any other
parties. ROHM shall have no responsibility whatsoever for any dispute arising out of the use of
such technical information.
6) The Products specified in this document are not designed to be radiation tolerant.
7) For use of our Products in applications requiring a high degree of reliability (as exemplified
below), please contact and consult with a ROHM representative : transportation equipment (i.e.
cars, ships, trains), primary communication equipment, traffic lights, fire/crime prevention, safety
equipment, medical systems, servers, solar cells, and power transmission systems.
8) Do not use our Products in applications requiring extremely high reliability, such as aerospace
equipment, nuclear power control systems, and submarine repeaters.
9) ROHM shall have no responsibility for any damages or injury arising from non-compliance with
the recommended usage conditions and specifications contained herein.
10) ROHM has used reasonable care to ensure the accuracy of the information contained in this
document. However, ROHM does not warrants that such information is error-free, and ROHM
shall have no responsibility for any damages arising from any inaccuracy or misprint of such
information.
11) Please use the Products in accordance with any applicable environmental laws and regulations,
such as the RoHS Directive. For more details, including RoHS compatibility, please contact a
ROHM sales office. ROHM shall have no responsibility for any damages or losses resulting
non-compliance with any applicable laws or regulations.
12) When providing our Products and technologies contained in this document to other countries,
you must abide by the procedures and provisions stipulated in all applicable export laws and
regulations, including without limitation the US Export Administration Regulations and the Foreign
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General Precaution
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ROHM shall not be in an y way responsible or liable for failure, malfunction or accident arising from the use of a ny
ROHM’s Products against warning, caution or note contained in this document.
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notice. Before purchasing or using ROHM’s Products, please confirm the la test information with a ROHM sale s
representative.
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information contained in this document is accurate an d/or error-free. ROHM shall not be in an y way responsible or
liable for any damages, expenses or losses incurred by you or third parties resulting from inaccuracy or errors of or
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