IGBT Modules
Concepts providing electrical performance and highest reliability without limiting the design flexibility
Our portfolio comprises cutting-edge IGBT power modules in different product families, configurations, current ratings as well as IGBT chip generations for an almost infinite number of applications. The well-known 62 mm, Easy and Econo families, IHM / IHV B-series, PrimePACK™ and XHP™ power modules are all equipped with the latest IGBT technologies. They come in chopper, dual, PIM, fourpack, sixpack, twelvepack, 3-level, booster or single switch configuration with a current rating between 6 A and 3600 A. IGBT modules cover a range from only hundreds of watts to several megawatts. General purpose drives, traction, servo-units and renewable energy applications like solar inverters or wind applications benefit from the outstanding performance, efficiency and longevity of these highly reliable products.
IGBT modules are also available with pre-applied thermal interface material (TIM) for a reproducible thermal performance of power electronic applications. In addition, IGBT modules can be mounted with the help of PressFIT pins for a solder-less and lead-free mounting of power modules.
Select one of our product highlights for detailed information
The changing face of CAV – how electrification is changing the commercial vehicles business
This whitepaper reviews the e-CAV market‘s applications and takes a look at the solutions Infineon has on offer meeting the extreme demands placed on the electronic systems.
Webinar about driving the electrification of commercial vehicles
Join our webinar and learn about trends and semiconductor system solutions in the electrification of commercial vehicles.
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Features
A thermal interface material, especially developed for and pre-applied to Infineon`s power modules outperforms the general purpose materials available.
Customers of power electronics require ever more modern, easy connection technologies, which also provide a higher reliability to meet the trends to higher temperatures and new applications.
Applications
KEWAZO teamed up with Infineon to develop the world’s first on-site construction robot. The KEWAZO scaffolding robot eliminates personal safety risks, realizes significant savings on labor costs and accelerates assembly by 40% or more.
Thyristors have dominated this application for many decades. Nowadays thyristors as well as IGBTs are used in HVDC systems and FACTS to fulfill different needs.
Today, electrification is revolutionizing transportation. But commercial, construction and agricultural vehicles, pose challenges for power electronics. Machines operate anywhere from the artic to the desert, have a long operating life and minimum down time – and are constantly exposed to shock and vibration. Electrification brings a world of new opportunity to CAV – and Infineon equips your designs with expert solutions destined for the future.
The Future of EV Charging – Infineon’s One-Stop-Shop, See how Infineon as the market leader and global frontrunner in power electronics, enable you to bring energy-efficient DC EV charger designs to life. With our highly-efficient components and in-depth technical support.
The Future of EV Charging – Infineon’s One-Stop-Shop, See how we as the market leader and global frontrunner in power electronics, enable you to bring energy-efficient DC EV charger designs to life. With our highly-efficient components and in-depth technical support.
Infineon provides a comprehensive portfolio of high-power products for Power Conversion, to help its customers to achieve their aims.
Energy means life: It heats houses, powers cars and lights megacities. The global appetite for energy is voracious, while resources are dwindling. One third of the energy consumed worldwide is electricity and the trend is rising.
New technology from Infineon promotes the adoption of renewables by enabling solar energy to be stored efficiently
In this video, you will see how H2S can harm your system and what is the Infineon solution to avoid this. You will also get to know the standards for measuring harsh environments and the HV-H2S test.
With this training, you will learn how to calculate a gate resistance value for an IGBT application, how to identify suitable gate driver ICs based on peak current and power dissipation requirements, and how to fine-tune the gate resistance value in laboratory environment based on worst case conditions.
