The present disclosure relates to an axial flux motor comprising a stator assembly and a rotor assembly. The axial flux motor rotor assembly also includes an air cooling arrangement to provide air cooling to the stator assembly. The axial flux motor includes stator cores having enlarged end plates. The axial flux motor also includes a cooling jacket including fins that extend between electromagnets of the stator assembly.

A power electronics arrangement for an externally excited synchronous machine, may include an inverter power module for each phase of the synchronous machine to form an inverter, an exciter power module including an exciter circuit as well as a common heat sink, to which the power modules are secured and thermally coupled for cooling. The heat sink may comprise a cavity including cooling structures for each inverter power module, each cooling structure being situated adjacent to a respective inverter power module. The cavity may receive a flow for active cooling of the power modules of a cooling fluid entering through an inflow opening of the heat sink to an outflow opening of the heat sink. A cooling structure may be associated with the exciter power module, the cooling structure being adjacent to the excited power module in the cavity.

A power electronics arrangement for an externally excited synchronous machine, may include an inverter power module for each phase of the synchronous machine to form an inverter, an exciter power module including an exciter circuit as well as a common heat sink, to which the power modules are secured and thermally coupled for cooling. The heat sink may comprise a cavity including cooling structures for each inverter power module, each cooling structure being situated adjacent to a respective inverter power module. The cavity may receive a flow for active cooling of the power modules of a cooling fluid entering through an inflow opening of the heat sink to an outflow opening of the heat sink. A cooling structure may be associated with the exciter power module, the cooling structure being adjacent to the excited power module in the cavity.