The FZ600R17KE3 IGBT module by Infineon Technologies is a powerful and reliable solution for high-demand industrial applications. With a 1700V voltage rating and 600A current capacity, it is perfect for motor drives, renewable energy systems, and power converters. Its compact design and advanced features make it a great choice for us seeking efficient and durable components.
Catalog
The FZ600R17KE3
is a high-power IGBT module designed by Infineon Technologies for demanding industrial applications like motor drives, renewable energy systems, and power converters. With a voltage rating of 1700V and a current capacity of 600A, it offers robust performance for medium-to-high switching frequencies. Its half-bridge configuration, coupled with a low inductance design, minimizes parasitic effects and ensures efficient operation. Integrated temperature sensors enhance system monitoring, while its compact EconoDUAL™ 3 package saves space without compromising reliability.
Ideal for use in renewable energy inverters, industrial motor drives, traction systems, and UPS solutions, the FZ600R17KE3 stands out with its high power density, low switching losses, and rugged design. This IGBT module ensures optimal performance in challenging environments.
Contact us today to place your bulk orders and power your next-generation systems with the unparalleled performance and reliability of the FZ600R17KE3!
• Voltage Rating: 1700V, ensuring high voltage handling capability.
• Current Rating: 600A, allowing for high-current operations.
• Configuration: Half-bridge design for flexible integration.
• Package: Compact EconoDUAL™ 3, optimizing space utilization.
• Temperature Sensor: Built-in for precise thermal monitoring.
• Switching Efficiency: Low switching losses for energy-efficient performance.
![FZ600R17KE3 Circuit Diagram](/upfile/images/52/20250110083726943.jpg)
The circuit diagram represents the internal configuration of the FZ600R17KE3 IGBT module. The device combines an Insulated Gate Bipolar Transistor (IGBT) and a freewheeling diode in a single module, making it highly efficient for switching and power conversion applications.
Pin 1 is the gate terminal used to control the IGBT, while pins 2, 3, and 5 represent the collector and emitter connections, forming the power terminals. The arrow inside the diagram signifies the gate-emitter voltage control mechanism that switches the IGBT on and off. The diode positioned in parallel with the IGBT serves as a freewheeling diode, allowing reverse current flow during inductive load switching, reducing power losses and protecting the circuit from voltage spikes.
Parameter
|
Conditions
|
Symbol
|
Value
|
Unit
|
Collector-emitter voltage
|
Tvj = 25°C
|
VCES
|
1700
|
V
|
Continuous DC collector
current
|
TC = 80°C, Tvj max = 150°C
|
IC nom
|
600
|
A
|
TC = 25°C, Tvj max = 150°C
|
IC
|
840
|
A
|
Repetitive peak collector
current
|
tp = 1 ms
|
ICRM
|
1200
|
A
|
Total power dissipation
|
TC = 25°C, Tvj max = 150°C
|
Ptot
|
3150
|
W
|
Gate-emitter peak voltage
|
-
|
VGES
|
±20
|
V
|
![FZ600R17KE3 Performance Curves](/upfile/images/0b/20250110083848338.jpg)
The performance curves of the FZ600R17KE3 IGBT module provide information into its electrical behavior under varying conditions. The left graph illustrates the relationship between the collector-emitter voltage (VCE) and the collector current (IC) at different junction temperatures Tvj. At Tvj = 25°C, the IGBT exhibits lower resistance, resulting in a steeper slope and higher current for a given VCE. As the temperature increases to Tvj = 125°C, the device's current handling capacity decreases slightly, indicating higher conduction losses due to increased temperature-dependent resistance.
The right graph demonstrates the dependence of the collector-emitter voltage (VCE) and collector current (IC) on the gate-emitter voltage (VGE). With higher VGE values, such as 20V, the IGBT achieves greater current conduction for a given VCE, showcasing its capability to handle larger loads efficiently. Conversely, at lower gate-emitter voltages like 8V or 9V, the conduction capability diminishes, reflecting a proportional relationship between gate drive voltage and current carrying capacity.
![FZ600R17KE3 Performance Curves](/upfile/images/cc/20250110083915317.jpg)
The left graph shows how the collector current (IC) increases with the gate-emitter voltage (VGE) at two different junction temperatures: Tvj= 25°C and Tvj = 125°C. At higher gate-emitter voltages, the device conducts more current, demonstrating its ability to handle increased load when sufficient gate drive is applied. The curves shift slightly with temperature, as higher temperatures (125°C) reduce the required VGE for a given IC, indicating enhanced carrier mobility at elevated temperatures.
The right graph illustrates the energy losses (Eon and Eoff) as a function of the collector current (IC) at Tvj = 125°C. These energy values represent the turn-on and turn-off losses during switching. As the collector current increases, both Eon and Eoff rise, reflecting the higher energy demand for switching at greater current levels. This information is for thermal and efficiency considerations in high-current applications.
Manufacturer
|
Model
|
Voltage Rating
|
Current Rating
|
Key Features/Applications
|
Infineon Technologies
|
FZ600R33KL2C
|
3300V
|
600A
|
High-voltage applications like
railway systems.
|
Infineon Technologies
|
FZ400R12KE3
|
1200V
|
400A
|
Suitable for applications
requiring lower current.
|
Infineon Technologies
|
FZ800R17KE3
|
1700V
|
800A
|
Higher current capacity for
demanding uses.
|
Mitsubishi Electric
|
CM600DU-24NFH
|
1200V
|
600A
|
Compact design for industrial
and renewable systems.
|
Mitsubishi Electric
|
CM800DU-34NF
|
1700V
|
800A
|
Rugged design for high power
applications.
|
ABB
|
5SNA1200E330100
|
3300V
|
1200A
|
High-voltage,
current-intensive applications.
|
Fuji Electric
|
2MBI600VN-170
|
1700V
|
600A
|
Excellent thermal performance
for compact systems.
|
Semikron
|
SKM600GB176D
|
1700V
|
600A
|
Optimized for renewable energy
and motor drives.
|
Advantages of FZ600R17KE3
• Handles High Voltage and Current: With a 1700V rating and 600A capacity, it works well in high-power systems like industrial motors and renewable energy setups.
• Energy Efficient: Designed for low switching losses, it saves energy even in demanding operations.
• Space-Saving Design: The compact EconoDUAL™ 3 package provides high power output while reducing system size.
• Built-In Temperature Monitoring: The integrated sensor ensures accurate heat tracking, boosting safety and reliability.
• Durable and Reliable: Built to handle tough electrical and thermal conditions, ensuring long-term performance.
• Versatile Use: Its half-bridge setup fits a range of applications, from motor drives to power converters.
• Trusted Brand: Manufactured by Infineon, a leader in power electronics, guaranteeing quality and dependability.
Disadvantages of FZ600R17KE3
• Higher Price: Its advanced features and performance come with a higher cost than simpler modules.
• Cooling Needs: Its high power density requires efficient cooling systems to avoid overheating.
• Not Ideal for Small Projects: Best suited for high-power uses; it may be overkill for low-power or budget-sensitive applications.
• Requires Expertise: Installing and optimizing it in high-frequency systems can be challenging without technical knowledge.
• Limited Scalability: For future upgrades, higher capacity modules like 800A or 3300V options may be better suited.
• Industrial Motor Drives
- Powers and controls heavy machinery in industries like manufacturing, mining, and automation.
- Provides smooth operation and energy savings for motors requiring high power.
• Renewable Energy Systems
- Used in wind turbine and solar inverters for efficient DC-to-AC power conversion.
- Supports green energy initiatives by enabling reliable energy generation and distribution.
• Power Converters
- High-voltage DC and AC power converters benefit from its robust design and efficiency.
- Commonly found in industrial power supply systems.
• Traction Systems
- Powers electrified railways, metro systems, and electric vehicles.
- Withstands the high demands of transportation systems with reliable performance.
• Uninterruptible Power Supplies (UPS)
- Ensures continuous power in applications like hospitals, data centers, and communication systems.
- Handles high loads effectively during power outages.
• HVAC Systems: Powers large-scale heating, ventilation, and air conditioning systems in industrial and commercial settings.
• Energy Storage Systems: Works in battery storage systems to manage energy flow efficiently in grid and off-grid setups.
![FZ600R17KE3 Packaging](/upfile/images/17/20250110083939062.jpg)
The packaging diagram of the FZ600R17KE3 IGBT module provides the mechanical dimensions and mounting specifications for integration into power electronics systems. The module features a compact and robust design with dimensions precisely indicated for mounting and assembly purposes.
The top view shows the positions of the main terminals (collector, emitter, and gate) and the screw holes, which are securing the module onto a heatsink or baseplate. The side view indicates the maximum screw insertion depths (8 mm and 10 mm) and the tolerances for proper alignment, ensuring structural stability during installation.
The diagram also highlights the spacing and placement of mounting holes, which follow standardized measurements (e.g., 50.5 ± 0.5 mm spacing for the main terminals).
The FZ600R17KE3 is a trusted option for powering industrial systems with efficiency and reliability. Its robust design and wide applications make it ideal for businesses looking to upgrade their systems. Contact us today to place bulk orders and power your success!
Datasheet PDF
FZ600R17KE3 Datasheets
FZ600R17KE3 Details PDF
FZ600R17KE3 Details PDF for KR.pdf
FZ600R17KE3 Details PDF for IT.pdf
FZ600R17KE3 Details PDF for DE.pdf
FZ600R17KE3 Details PDF for FR.pdf
FZ600R17KE3 Details PDF for ES.pdf
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