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2025-04-02 214

The CM900HG-130X is a powerful IGBT module made by Mitsubishi Electric. It is used in machines that need high voltage and strong performance, like trains and industrial systems. This module is small, safe, and very reliable. In this article, we will look at its features, uses, design, pros and cons, and how it compares with other similar products.

Catalog

CM900HG-130X Overview

The CM900HG-130X is a high-performance HVIGBT module from Mitsubishi Electric, design for demanding applications such as traction systems and large industrial machinery. Featuring 7th-generation CSTBT™ and RFC diode technology, it ensures lower power loss and superior switching efficiency. With a 6500V collector-emitter voltage and 900A collector current, this module delivers robust performance in high-voltage environments. Its compact design—33% smaller than previous models—allows for efficient space usage without compromising power handling. Enhanced thermal performance, improved humidity resistance, and high flame retardance further extend its reliability. The CM900HG-130X also boasts a high isolation voltage of 10,200Vrms, ensuring safety in high-power setups. This module is part of Mitsubishi’s X-Series, offering cutting-edge power density and efficiency in a 140 mm x 190 mm package, ideal for next-generation power systems.

For those seeking reliability, performance, and compact design, the CM900HG-130X is a top-tier choice—place your bulk orders today for competitive pricing and fast delivery.

CM900HG-130X Manufacturer

The CM900HG-130X is manufactured by Mitsubishi Electric, a global leader in electrical and electronic equipment. This high-voltage Insulated Gate Bipolar Transistor (HVIGBT) module is designed for high-power switching applications, making it ideal for use in power electronics equipment such as traction systems and large industrial machinery. For detailed specifications and purchasing options, please refer to the manufacturer's product page.

CM900HG-130X Circuit Diagram

This circuit diagram for the CM900HG-130X shows the internal structure of a high-power IGBT module comprising three IGBT units connected in parallel. Each IGBT is paired with an anti-parallel freewheeling diode to handle inductive load currents and ensure safe operation during switching. The module has three emitter terminals (1, 3, and 5) and three corresponding collector terminals (2, 4, and 6), representing the three parallel IGBT-diode pairs. These are internally connected to share the current evenly, improving thermal performance and current handling capability.

The gate terminal (G) is common for all three IGBT units, allowing them to be controlled simultaneously. Similarly, the emitters are connected to a common emitter pin (E), simplifying external circuit design. This configuration is optimized for high-efficiency switching applications, such as inverters, motor drives, and power conversion systems, where high current handling and fast switching are critical. The integrated layout also enhances reliability and reduces the need for external wiring.

CM900HG-130X Features

• High Voltage and Current Ratings: Capable of handling a collector-emitter voltage (V_CES) of up to 6,500 V and a continuous collector current (I_C) of 900 A.

• Advanced Semiconductor Technology: Incorporates Mitsubishi Electric's seventh-generation Carrier Stored Trench-Gate Bipolar Transistor (CSTBT™) and Relaxed Field of Cathode (RFC) diode technologies, reducing power loss by approximately 20% compared to previous generations.

• Enhanced Thermal Performance: Features an optimized internal structure that improves heat dissipation, contributing to a reduction in thermal resistance by 28% compared to earlier models.

• Compact and Robust Package: Housed in a package measuring 190 mm x 140 mm, the module offers a 50% increase in current rating over previous series within the same footprint, facilitating more compact converter designs.

• High Isolation Voltage: Provides an isolation voltage of 10.2 kVrms, ensuring reliable operation in high-voltage environments.

• Wide Operating Temperature Range: Supports a junction temperature range from -50°C to +150°C, accommodating various demanding applications.

• Improved Reliability: The module's design enhancements lead to increased power cycling lifetime, contributing to overall system reliability.

CM900HG-130X Applications

• Traction Drives: Ideal for railway and locomotive propulsion systems, the CM900HG-130X efficiently manages the high power requirements essential for traction applications.

• High-Reliability Converters/Inverters: The module's reliability and performance are well-suited for converters and inverters that demand consistent and efficient power conversion.

• DC Choppers: In applications requiring voltage regulation and conversion, such as DC choppers, the CM900HG-130X offers precise control and high efficiency.

CM900HG-130X Outline Drawing

This outline dimension diagram of the CM900HG-130X IGBT module provides a detailed mechanical layout necessary for proper mounting, integration, and thermal management. The overall module measures approximately 190 mm in length, 140 mm in width, and 38.6 mm in height, indicating a compact yet robust design suitable for high-power applications. The diagram clearly marks the positions of the main electrical terminals (collectors and emitters), labeled 1 through 6, which are symmetrically placed to facilitate balanced current flow and simplify busbar design.

Mounting holes are provided at the corners and along the edges, with detailed screw hole sizes (M4 and M6 nuts) and specified minimum screwing depths (7.7 mm and 16.5 mm), ensuring secure mechanical attachment to heatsinks or baseplates. The top view illustrates the terminal layout, aiding in precise connection to external circuits, while the side views offer height references and show the layered structure of the package for efficient heat dissipation. This dimensional data is crucial for engineers when designing enclosures, heatsinks, or assemblies involving the CM900HG-130X, ensuring a safe and stable installation in demanding power electronic systems.

CM900HG-130X Advantages and Disadvantages

Advantages

• High Power Handling: With a collector-emitter voltage rating of 6,500 V and a collector current capacity of 900 A, the CM900HG-130X is suitable for demanding high-power applications.

• Compact Design: The module's dimensions are 140 mm x 190 mm, facilitating more compact inverter designs and contributing to overall system downsizing.

• Enhanced Thermal Performance: An optimized internal structure improves heat dissipation, contributing to the module's reliability and longevity.

Disadvantages

• Complex Integration: The advanced features and high power capabilities of the CM900HG-130X may require sophisticated drive circuitry and careful thermal management, potentially increasing design complexity and costs.

• Specialized Applications: Due to its high voltage and current ratings, the module is tailored for specific high-power applications, limiting its versatility for lower power systems.

CM900HG-130X Maximum Ratings

Parameter Name and Symbol	Value and Unit
Collector-emitter voltage at Tj = 150°C (VCES)	6500 V
Collector-emitter voltage at Tj = 25°C (VCES)	6300 V
Collector-emitter voltage at Tj = -50°C (VCES)	5700 V
Gate-emitter voltage at Tj = 25°C (VGES)	±20 V
Collector current at Tc = 115°C (IC)	900 A
Collector current - pulse (ICRM)	1800 A
Emitter current at Tc = 95°C (IE)	900 A
Emitter current - pulse (IERM)	1800 A
Maximum power dissipation at Tc = 25°C (Ptot)	12500 W
Isolation voltage at 60Hz, 1 min (VISO)	10200 V
Partial discharge at 6900Vrms / 5100Vrms, 60Hz (QPD)	10 pC
Junction temperature (Tj)	-50 to +150 °C
Operating junction temperature (Tjop)	-50 to +150 °C
Storage temperature (Tstg)	-55 to +150 °C
Short circuit pulse width at VCC = 4500V, VGE = 15V, Tj = 150°C (tpsc)	10 µs

CM900HG-130X Electrical and Thermal Characteritics

CM900HG-130X Common Issues and Solution

• Overheating Issues

Ensure proper cooling—such as heat sinks or liquid cooling—to prevent overheating and maintain optimal performance.

• Electrical Overstress

Protect the module from voltage and current surges by integrating fuses, circuit breakers, and proper control circuitry.

• Mechanical Stress During Installation

Avoid module damage by carefully mounting and handling the unit without applying excessive force.

• Insufficient Gate Drive Control

Use a compatible and well-designed gate driver circuit to ensure reliable switching and minimize switching losses.

• Poor Solder Joint Reliability

Maintain recommended soldering conditions and use thermal interface materials to ensure long-term connection stability.

CM900HG-130X Alternatives Products

Comparison: CM900HG-130X vs CM900DXLE-24A

Feature	CM900HG-130X	CM900DXLE-24A
Collector-Emitter Voltage (VCES)	6,500 V	1,200 V
Collector Current (IC)	900 A	900 A
Connection Type	Single	Dual
Isolation Voltage (Viso)	10,200 Vrms	Not specified
Package Type	Standard type	Not specified
Dimensions	140 mm x 190 mm	Not specified
Applications	Traction drives, high-reliability converters/inverters, DC choppers	Not specifi

Conclusion

The CM900HG-130X is a smart choice for high-power applications. It offers strong voltage and current performance in a compact size, with advanced features for better cooling and reliability. While it may need careful handling and setup, it works great for special uses like traction and power converters. For those looking for a reliable and high-quality IGBT module, the CM900HG-130X is a top pick.