Question
Question About Using EVALSTGAP4S for a 7-Level Cascaded H-Bridge Motor Drive
I am currently considering the EVALSTGAP4S evaluation board for a laboratory prototype, and I would like to ask a few technical questions about its possible use in a motor-drive application.
My goal is to build a 7-level cascaded H-bridge (CHB) multilevel inverter for motor driving. Since the EVALSTGAP4S includes isolated gate drivers, I am wondering whether it can be used as a building block for a CHB inverter cell.
I would like to ask the following:
- What is the practical current capability of the EVALSTGAP4S board?
I would especially like to know the recommended continuous current range, and whether it depends on thermal conditions, switching frequency, or cooling method. - Would this board be suitable for use in a 7-level cascaded H-bridge multilevel inverter for motor-drive applications?
If not, what would be the main limitations or concerns? - Since the board has isolated gate drivers, can multiple boards be used in a cascaded configuration with floating DC sources?
If there are any important precautions regarding insulation, grounding, protection, or gate-drive operation in CHB applications, I would appreciate your advice. - If available, could you share more detailed technical information about this evaluation board?
For example: detailed schematics, thermal design guidelines, practical current limits, layout recommendations, or any application notes related to multilevel converters or motor drives.
If this board is not suitable for this purpose, I would also appreciate any recommendation for a more appropriate ST solution for CHB-based motor-drive experiments.
Thank you in advance.