A rotating electric machine drive unit includes a first rotating electric machine; a second rotating electric machine; a rotating electric machine housing having a rotating electric machine accommodation portion; a power control unit having a power conversion unit which controls at least one of the first rotating electric machine and the second rotating electric machine; and a connecting member which electrically connects at least one of the first rotating electric machine and the second rotating electric machine to the power conversion unit of the power control unit. When viewed from a rotation axis direction of the first rotating electric machine and the second rotating electric machine, a part of the power control unit is disposed so as to overlap with at least one of the rotating electric machine housing and the first rotating electric machine in a radial direction of the first rotating electric machine.

A rotating electric machine drive unit includes a first rotating electric machine; a second rotating electric machine; a rotating electric machine housing having a rotating electric machine accommodation portion; a power control unit having a power conversion unit which controls at least one of the first rotating electric machine and the second rotating electric machine; and a connecting member which electrically connects at least one of the first rotating electric machine and the second rotating electric machine to the power conversion unit of the power control unit. When viewed from a rotation axis direction of the first rotating electric machine and the second rotating electric machine, a part of the power control unit is disposed so as to overlap with at least one of the rotating electric machine housing and the first rotating electric machine in a radial direction of the first rotating electric machine.

According to an embodiment of the disclosure, a method of moving an item in a torus-like infinity pattern is provided. The method includes moving the item poloidally along a path with reference to a torus grid at least partially moving the item toroidally along the path with reference to the torus grid such that when the item substantially moves around a revolution around the torus grid when viewed from a cross section cut across the poloidal direction of movement, the item also moves poloidally.

A propulsive electric motor set for aircraft includes an electrical energy source and an electric motor provided with a drive shaft on which is mounted a propeller. The electric motor includes a first set of windings linked to the electrical energy source to provide a rotational drive function for the drive shaft. The electric motor further includes a second set of windings which, when the drive shaft is driven in rotation by an electric powering of the first set of windings, provides an electric generation function configured to supply non-propulsive loads of the aircraft. Thus, the non-propulsive loads of the aircraft can be electrically powered without any overload compromising the aerodynamics of the aircraft.

A propulsive electric motor set for aircraft includes an electrical energy source and an electric motor provided with a drive shaft on which is mounted a propeller. The electric motor includes a first set of windings linked to the electrical energy source to provide a rotational drive function for the drive shaft. The electric motor further includes a second set of windings which, when the drive shaft is driven in rotation by an electric powering of the first set of windings, provides an electric generation function configured to supply non-propulsive loads of the aircraft. Thus, the non-propulsive loads of the aircraft can be electrically powered without any overload compromising the aerodynamics of the aircraft.

According to an embodiment of the disclosure, a method of moving an item in a torus-like infinity pattern. The method includes moving the item poloidally along a path with reference to a torus grid at least partially moving the item toroidally along the path with reference to the torus grid such that when the item substantially moves around a revolution around the torus grid when viewed from a cross section cut across the poloidal direction of movement, the item also moves poloidally.

A propulsion channel for aircraft at least one first dual-fed polyphase asynchronous rotating electric machine configured to be mechanically coupled to a turbine engine. The propulsion channel further includes at least one second polyphase rotating electric machine electrically coupled to the first asynchronous rotating electric machine, and a control and storage module configured to control the first polyphase asynchronous rotating electric machine. The module is connected to the first dual-feed polyphase asynchronous rotating electric machine as well as to the at least second polyphase rotating electric machine. The at least second polyphase rotating electric machine includes a polyphase synchronous rotating electric machine with permanent magnet.

A propulsion channel for aircraft at least one first dual-fed polyphase asynchronous rotating electric machine configured to be mechanically coupled to a turbine engine. The propulsion channel further includes at least one second polyphase rotating electric machine electrically coupled to the first asynchronous rotating electric machine, and a control and storage module configured to control the first polyphase asynchronous rotating electric machine. The module is connected to the first dual-feed polyphase asynchronous rotating electric machine as well as to the at least second polyphase rotating electric machine. The at least second polyphase rotating electric machine includes a polyphase synchronous rotating electric machine with permanent magnet.

A gas turbine engine having a first pressure spool and a second pressure spool includes a power transfer system to transfer mechanical power between the first pressure spool and the second pressure spool. The first pressure spool can include a first electric machine to convert mechanical power from the first pressure spool to a first electric power. A coupled electric machine having a first coupled rotor and a second coupled rotor can be rotatingly coupled to the first pressure spool and the second pressure spool, respectively. The coupled electric machine is configured to receive an output power (e.g., an output power from an AC/AC converter) to drive a winding of the coupled electric machine to enable power transfer between the first pressure spool and the second pressure spool. An AC/AC converter can be electrically disposed between the first pressure spool and the second pressure spool.

A gas turbine engine having a first pressure spool and a second pressure spool includes a power transfer system to transfer mechanical power between the first pressure spool and the second pressure spool. The first pressure spool can include a first electric machine to convert mechanical power from the first pressure spool to a first electric power. A coupled electric machine having a first coupled rotor and a second coupled rotor can be rotatingly coupled to the first pressure spool and the second pressure spool, respectively. The coupled electric machine is configured to receive an output power (e.g., an output power from an AC/AC converter) to drive a winding of the coupled electric machine to enable power transfer between the first pressure spool and the second pressure spool. An AC/AC converter can be electrically disposed between the first pressure spool and the second pressure spool.