Infineon optimizes MIPAQ Pro for the fields of energy storage and smart grid

Infineon Technologies has optimized its high power intelligent power module (IPM) MIPAQ Pro for the fields of energy storage and smart grid. Customers now profit from complete monitoring and easy scalability of the IPM.

Additional features comprise of higher power density, true real time junction temperature detection and secure authentication. According to the company an upgraded smart protection and greater design flexibility drastically reduce efforts for the powerstage development and the running system. Thus, also small and medium enterprises are empowered to implement semiconductors for existing and emerging applications.

The company notes intelligent wiring of the MIPAQ Pro helps to overcome restriction that customers often face in available space. With its smart feature-set, it allows for replacing power units and sub-systems which are nominally 50 percent higher rated. Thus, the real time condition monitoring makes safety buffers towards e.g. 150°C semiconductor junction temperature just a surplus.(Read Cree, Inc. Announces Long-Term Silicon Carbide Wafer Supply Agreement with Infineon)

Installing the MIPAQ Pro at the heart of an inverter makes changing topology very easy. At the end of their production line, customers can choose between chopper- and half-bridge modes via Modbus. This is especially helpful for manufacturers of inverters for the energy storage and smart grid industry. Very clearly, the software adaption helps in optimizing the supply chain said Infineon in a statement.  (Read Infineon, SAIC Motor establishes power module JV SIAPM in China to power the largest EV market in the world)

The safe operation area of the IPM has also been improved with more robust boards and a software-upgrade leading to higher system availability. This is supported by different warning levels which can easily be adapted to specific use-cases helping system-operators to generate counter-measures before a potential fault-triggered system shutdown.