Part Number: IXGH72N60A3

Manufacturer: IXYS

Description: IGBT 600V 75A 540W TO247

Shipped from: Shenzhen/HK Warehouse

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Technical Specifications of IXGH72N60A3

Datasheet  IXGH72N60A3 datasheet
Category Discrete Semiconductor Products
Family Transistors – IGBTs – Single
Manufacturer IXYS
Series GenX3?, XPT?
Packaging Tube
Voltage – Collector Emitter Breakdown (Max) 600V
Current – Collector (Ic) (Max) 75A
Current – Collector Pulsed (Icm) 400A
Vce(on) (Max) @ Vge, Ic 1.35V @ 15V, 60A
Power – Max 540W
Switching Energy 1.38mJ (on), 3.5mJ (off)
Input Type Standard
Gate Charge 230nC
Td (on/off) @ 25°C 31ns/320ns
Test Condition 480V, 50A, 3 Ohm, 15V
Reverse Recovery Time (trr)
Package / Case TO-247-3
Mounting Type Through Hole
Supplier Device Package TO-247AD (IXGH)


IGBT (Insulated Gate Bipolar Transistor) transistors are important parts of modern technology and power systems. They can switch quickly and handle high voltages and currents. The IXGH72N60A3 is a great example of an IGBT type. It can handle 72 amps of current and 600 volts of voltage and has a low on-state resistance (Rds) of only 1.35 ohms. This guide is meant to teach you everything you need to know about the IXGH72N60A3 IGBT transistor. Whether you’re a fan, an expert, or a student, this guide gives you the information you need to work well with this IGBT. It goes over its principles, uses, benefits, integration, and more. Let’s learn more about IXGH72N60A3 and how it affects technology today.

Introducing the IXGH72N60A3

The IXGH72N60A3 is an IGBT transistor made by IXYS Corporation that is on the cutting edge. The IXGH72N60A3 was made by this world leader in power semiconductors and integrated circuits as part of its commitment to making high-performance parts for modern power systems.

Key Specifications

The IXGH72N60A3 has great specs that make it a great choice for a wide range of power electronics applications:

  • Current Rating:With a large current handling ability of 72 amps, the IXGH72N60A3 can handle large electrical loads. This makes it good for systems that need to give power reliably, like motor drives, industrial equipment, and systems that use renewable energy.
  • Voltage Rating:Up to 600 V can be put through the IXGH72N60A3. This voltage grade makes sure that it works with systems that use higher voltage levels, like high-power inverters, charging stations for electric vehicles, and solar inverters that are connected to the power grid.
  • On-State Resistance (Rds):The low resistance of 1.35 ohms in the “on” state helps keep power losses to a minimum during operation. This feature makes the IXGH72N60A3 work better in situations where saving energy is the most important thing.

Significance in different applications

The specs of the IXGH72N60A3 are very important for a wide range of uses:

  • Motor Drives:In electric car propulsion systems or industrial machinery, a high current rating makes sure that motors are controlled well, which means that the system works reliably and quickly.
  • Inverters:When used in inverters for converting solar energy or variable frequency drives, the 600V voltage grade can handle a wide range of input voltages, and the low RDS keeps energy loss to a minimum. This makes power conversion more efficient.
  • Renewable Energy Systems:The IXGH72N60A3 is well-suited for converting and controlling renewable energy sources like wind turbines and solar inverters because it can handle a lot of current and voltage.
  • Industrial Equipment:Applications like welding equipment, uninterruptible power supplies (UPS), and industrial automation can use the IXGH72N60A3 because it has strong specs that make it work reliably even when it’s under a lot of stress.

In short, the IXGH72N60A3’s great specs allow it to do well in a wide range of power electronics uses, helping to improve performance, efficiency, and reliability in many different fields.

Basic Operation of an IGBT Transistor

An insulated gate bipolar transistor (IGBT) takes the best parts of MOSFETs and bipolar transistors and puts them together. It works as a high-power switch that can handle big currents and high voltages while being controlled by a low-power signal. The IGBT has a control input (called a “gate”), an N-type drift area, and a P-type well. This gives it the ability to control and increase the amount of electrical current.

Three Main Regions of an IGBT

  • N-Drift Region:This area is made up of high-resistivity N-type semiconductor material. It is the main area where the stream flows. When a positive voltage is given to the collector terminal with respect to the emitter, the N-drift region is fully depleted. This lets the IGBT handle high voltage.
  • P-Well Region:The P-well is a P-type semiconductor material that is in the N-drift area. It controls the flow of current by making a path between the collection and emitter terminals. When a positive voltage is applied to the gate contact, an electric field is created that changes how well this channel lets current flow or stops it.
  • N+ Buffer Layer:The P-well and the collection terminal are on different sides of the N+ buffer layer. It helps stop the energy from going between the collector and the emitter, making sure the transistor works in a safe and controlled way.

Switching Characteristics and Performance

IGBTs are known for having good switching properties, which have a big effect on how well they work.

  • Turn-On Speed:IGBTs have a slower turn-on speed than MOSFETs because the P-well area needs to be made into a conducting channel. But because the device turns on more slowly, voltage spikes and overshoots during switches are less likely to happen. This makes the device more reliable.
  • Turn-Off Speed:IGBTs also have slower speeds when they turn off. This is because the P-well area stores charge, which needs to be removed before the transistor can fully stop the current. High voltage spikes can happen when a device turns off too quickly, so a controlled turn-off is better for the device and the connection.
  • Switching Losses:The switching process in IGBTs involves transient periods where the device is not fully on or off. These transient states contribute to switching losses, which manifest as heat and energy dissipation. Designers need to balance switching speed with minimizing these losses.

Applications of IXGH72N60A3

The IXGH72N60A3 IGBT transistor’s outstanding features and performance qualities make it useful in a variety of systems and sectors. Here are a few noteworthy examples:

  • Motor Drives
  • Inverters
  • Industrial Automation
  • Electric vehicle charging stations

Benefits and Features

  • High Current Capacity:The IXGH72N60A3 can withstand heavy loads thanks to its current rating of 72 amps, which makes it appropriate for applications demanding high power delivery.
  • Voltage Handling:The IXGH72N60A3 can be used in systems with diverse voltage requirements, from standard industrial systems to higher voltage applications, thanks to its 600V voltage rating.
  • Low On-State Resistance (Rds):The system’s efficiency is increased overall thanks to the low Rds of 1.35 ohms, which also limits heat dissipation.
  • Fast Switching Capabilities:The IXGH72N60A3’s regulated switching guarantees that voltage spikes and overshoots during transitions are reduced, even if it is slower than certain other transistor types. This helps to maintain system stability.
  • Integrated Protection Features:Some IGBT versions, like the IXGH72N60A3, may have safety features like temperature monitoring and short-circuit protection, further boosting system dependability and safety.
  • Versatility:Because of its adaptable features and capabilities, the IXGH72N60A3 may be used in a variety of applications and systems and opens up a wide range of design options.


As technology continues to evolve, the IXGH72N60A3 paves the way for further innovations, offering engineers and designers a potent tool to create high-performance systems that impact our lives. Whether it’s achieving energy efficiency, enhancing industrial processes, or propelling the electric revolution, the IXGH72N60A3 is a cornerstone in the progress of modern electronics.

Embark on a journey with the IXGH72N60A3. Connect with ICRFQ, a leading electronic component distributor in China renowned for offering top-quality products at competitive prices. Elevate your projects and embrace the potential of the IXGH72N60A3 in shaping the landscape of modern electronics. Contact ICRFQ today to learn more and secure the key to unlocking innovation in your designs.

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