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MIG200Q2CSB1X Toshiba 1200V 200A Dual Intelligent Power Module

  • MIG200Q2CSB1X

MIG200Q2CSB1X IGBT Module In-stock / Toshiba: 1200V 200A Dual Intelligent Power Module (IPM). 90-day warranty, for high-performance motor drives. Global fast shipping. Request pricing now.

· Categories: IGBT
· Manufacturer: Toshiba
· Price:
Price Range: US$ 50 - US$ 200 (Estimated)
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· Date Code: Please Verify on Quote
. Available Qty: 101
90-Day Warranty
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Content last revised on July 6, 2026

MIG200Q2CSB1X: An Integrated Power Module for High-Performance Motor Control and Inverter Applications

The MIG200Q2CSB1X is a highly integrated Intelligent Power Module (IPM) engineered for demanding power switching applications. This module consolidates a dual IGBT half-bridge configuration into a compact package, delivering a robust 1200V | 200A rating. Key benefits include superior thermal management and integrated protection features. Designed to simplify the power stage in motor drives and inverters, the MIG200Q2CSB1X directly addresses the engineering challenge of balancing high power density with operational reliability. For applications requiring a robust, all-in-one power stage, the MIG200Q2CSB1X offers an optimal solution for simplifying design and enhancing system reliability.

Application Scenarios & Value

Enhancing Power Density and Efficiency in Compact Motor Drives

The MIG200Q2CSB1X excels in applications where space is at a premium and thermal efficiency is critical, such as in advanced Servo Drive and Variable Frequency Drive (VFD) systems. In a typical compact servo drive, designers face the challenge of dissipating heat effectively to prevent component degradation and ensure precise motion control. This module's integrated nature and optimized thermal design directly address this issue. By consolidating two 1200V / 200A IGBTs with super-fast recovery free-wheel diodes into a single isolated baseplate package, it simplifies thermal management, allowing for smaller heatsinks and a more compact overall system footprint. The module's built-in over-current and over-temperature protections further enhance system reliability, reducing the need for external monitoring circuitry and simplifying the overall design process, which is a critical advantage in complex motion control systems.

Key Parameter Overview

Decoding Electrical and Thermal Characteristics for Optimal Design

The performance of the MIG200Q2CSB1X is defined by its robust electrical and thermal specifications. These parameters are crucial for engineers to accurately model system performance, select appropriate peripheral components, and ensure long-term operational reliability.

Parameter Symbol Test Conditions Value
Absolute Maximum Ratings (Tj = 25°C)
Collector-Emitter Voltage VCES - 1200V
Collector Current (DC) IC - 200A
Collector Power Dissipation PC One Transistor 1040W
Isolation Voltage Viso Terminals to baseplate, AC 1 min. 2500V
Electrical Characteristics (Tj = 25°C)
Collector-Emitter Saturation Voltage VCE(sat) VGE = 15V, IC = 200A 2.7V (max)
Collector Cut-off Current ICES VCE = 1200V 1.0mA
Gate-Emitter Leakage Current IGES VGE = ±20V 0.5µA
Control Sector
Control Supply Voltage VD - 15V ± 1.5V
Over-Current Protection Trip Level OC VD = 15V, Tj = 125°C ~300A

Download the MIG200Q2CSB1X datasheet for detailed specifications and performance curves.

Application Vignette

System-Level Benefits in a High-Performance Servo Drive Application

Consider the design of a high-precision servo drive for a multi-axis CNC machine. The primary engineering challenge is to create a compact, highly reliable drive that can deliver precise torque and speed control under rapidly changing loads. Using discrete components would require complex gate drive circuits, multiple protection circuits, and a larger, more intricate heatsink design.

By implementing the MIG200Q2CSB1X, the design is significantly streamlined. The module's integrated gate drivers ensure optimal switching of the 1200V IGBTs, while the built-in over-current and over-temperature protection provide a robust safety net against fault conditions common in dynamic motor applications. The thermal resistance of the module acts as an efficient pathway for heat to move from the silicon to the heatsink. A lower thermal resistance is like a wider pipe for heat, allowing it to be removed more effectively. This superior thermal performance allows the servo drive to operate at higher power levels within a smaller enclosure without risking thermal runaway, directly contributing to a higher power density and enhanced long-term reliability of the CNC machine's motion control system.

Frequently Asked Questions

Engineering Insights on the MIG200Q2CSB1X Module

What is the primary benefit of the integrated protection features in the MIG200Q2CSB1X?

The primary benefit is enhanced system reliability and design simplification. By integrating over-current, short-circuit, over-temperature, and control voltage under-voltage protection, the module can autonomously protect the internal IGBTs from catastrophic failure. This reduces the external component count, simplifies the control board layout, and shortens the design and validation cycle for engineers creating motor control or UPS (Uninterruptible Power Supply) systems.

How does the module's 2500V isolation voltage impact system design and safety?

The 2500V isolation voltage provides a robust barrier between the high-power circuits and the heatsink, which is typically connected to the system chassis ground. This high level of isolation simplifies meeting safety agency requirements (such as UL or IEC standards) by ensuring user safety and protecting low-voltage control electronics from high-voltage faults. It also allows for a single heatsink to be used for multiple modules without the need for additional insulating materials, streamlining mechanical assembly and improving thermal management.

For engineers developing next-generation power conversion systems, the MIG200Q2CSB1X offers a compelling combination of performance, integration, and reliability. To further explore solutions for higher power requirements, consider the CM600DX-24T, which provides a higher current rating in a standard package. To evaluate this module for your upcoming project, please contact our technical sales team for a consultation.

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