Mitsubishi CM400HA1-34KA: High-Performance 1700V 400A IGBT Module for Heavy-Duty Industrial Power Systems
Mitsubishi CM400HA1-34KA 1700V 400A IGBT Module Switch
Optimized Heavy-Duty Efficiency for High-Voltage DC Link Systems
The CM400HA1-34KA is a high-performance single IGBT module engineered by Mitsubishi Electric specifically for heavy-duty industrial switching applications. By integrating advanced trench technology with a robust 1700V rating, this module provides engineers with an efficient solution for high-power conversion where conduction losses must be minimized without sacrificing voltage headroom. It serves as a cornerstone component in the realm of power semiconductors, designed to withstand the rigorous transients of modern electrical grids.
- Core Specifications: 1700V Collector-Emitter Voltage | 400A Continuous Collector Current | Isolated Baseplate.
- Key Advantages: Significantly reduced thermal strain through low saturation voltage and simplified high-voltage gate drive requirements.
For engineers asking how to select a 1700V IGBT for high-voltage DC link systems, the CM400HA1-34KA answers the need for a component that balances a high blocking voltage with a low conduction loss profile, ensuring stability in DC link voltages up to 1000V-1200V. Download Official Datasheet (PDF)

High-Voltage Trench Technology and Thermal Management
The technical core of the CM400HA1-34KA lies in its “KA” series designation, which represents a significant milestone in Trench Gate evolution. In traditional high-voltage modules, the thick drift region required to block 1700V typically leads to high internal resistance. Mitsubishi’s trench architecture increases cell density at the wafer level, allowing for a more efficient carrier distribution. This directly results in a lower Collector-Emitter Saturation Voltage ($V_{CE(sat)}$), meaning the device wastes less energy as heat during the “on” state. For high-current applications at 400A, even a fractional reduction in $V_{CE(sat)}$ translates to dozens of watts in saved dissipation.
Thermal management is the second pillar of this module’s reliability. To understand its importance, you can visualize the module’s thermal resistance ($R_{th(j-c)}$) as the width of a door through which heat must escape. A lower $R_{th}$ value effectively “widens the door,” allowing thermal energy generated at the silicon junction to flow more freely into the heatsink. The CM400HA1-34KA utilizes high-quality isolated baseplates, which provide the necessary dielectric strength to separate high-voltage silicon from the cooling system while maintaining a tight thermal coupling. This ensures that the junction temperature ($T_j$) remains within safe limits even during peak current surges.

Optimized Application Scenarios
Due to its high voltage rating and switching efficiency, the CM400HA1-34KA is particularly suited for industrial environments where electrical noise and high-load cycles are constant. Notable applications include:
- Wind Power Converters: The 1700V rating provides the necessary safety margin for fluctuating turbine outputs.
- High-Voltage Traction Drives: Reliable switching for large motor control systems in industrial transport.
- Solar Central Inverters: Optimized for high-efficiency energy harvest in large-scale PV plants.
- HVAC Systems: Large scale industrial chillers benefit from the module’s low conduction losses.
Best Match Conclusion: Ideal for megawatt-scale power systems requiring 1700V blocking and 400A switching within a compact, isolated single-switch industrial housing.
Critical Specification Table
| Category | Parameter | Rating / Value |
|---|---|---|
| Absolute Maximums | Collector-Emitter Voltage ($V_{CES}$) | 1700 V |
| Collector Current ($I_C$) | 400 A | |
| Junction Temperature ($T_j$) | -40 to +150 °C | |
| Electrical Characteristics | Saturation Voltage ($V_{CE(sat)}$) | 2.5 – 3.0 V (Typ) |
| Gate-Emitter Threshold ($V_{GE(th)}$) | 5.5 – 8.5 V | |
| Isolation & Package | Isolation Voltage ($V_{iso}$) | 3400 Vrms |
| Module Weight (Typical) | 550 g |
Engineer FAQ
Q1: What are the thermal management requirements for the 400A rating?
A: While the device can handle 400A continuously, thermal design must account for the power dissipation ($P_{tot}$). This requires a high-performance liquid or forced-air heatsink with low thermal contact resistance, ensuring the baseplate temperature stays well below the 150°C junction limit.
Q2: Can the CM400HA1-34KA be used in parallel for higher current?
A: Yes, the positive temperature coefficient of the $V_{CE(sat)}$ in the KA series helps in current sharing. However, engineers must use symmetrical busbars and matched gate resistors to prevent dynamic current imbalances during switching.
Q3: How does the 1700V rating impact DC link selection?
A: It allows for safe operation in DC link voltages up to 1200V. This provides a critical safety margin against voltage spikes and surges common in inductive load switching, which could otherwise lead to avalanche failure in 1200V-rated modules.
The Mitsubishi CM400HA1-34KA represents a high-reliability switching block for the most demanding power electronics applications. By combining superior trench gate architecture with a robust 1700V isolation platform, it empowers engineers to achieve high power density and longevity in their industrial converter designs.