Abstract: An electromechanical power converter that has a rotor assembly with a conductive shell, a first conductor made from superconducting material that is in series electrical contact with the conductive shell and a second conductor made from superconducting material and in series electrical contact with said conductive shell, thus providing an internal impedance converting electromechanical power converter.

Abstract: An electromechanical power converter that has a rotor assembly with a conductive shell, a first conductor made from superconducting material that is in series electrical contact with the conductive shell and a second conductor made from superconducting material and in series electrical contact with said conductive shell, thus providing an internal impedance converting electromechanical power converter.

Abstract: An acyclic homopolar electromechanical power converter that uses superconducting series connected rotor elements for series summation of magnetomotive and electromotive force. The novel rotor assembly comprises a plurality of conductor elements connected in series by superconducting series connections. The behavior of the superconducting series connections provides a form of flux isolation and series summation of forces that has heretofore been impossible in electromechanical power converters. The superconducting series connections further modify the rotor impedance of an acyclic homopolar electromechanical power converter to provide long needed improvements to acyclic homopolar electromechanical power converter designs.

Abstract: An acyclic homopolar electromechanical power converter that uses superconducting series connected rotor elements for series summation of magnetomotive and electromotive force. The novel rotor assembly comprises a plurality of conductor elements connected in series by superconducting series connections. The behavior of the superconducting series connections provides a form of flux isolation and series summation of forces that has heretofore been impossible in electromechanical power converters. The superconducting series connections further modify the rotor impedance of an acyclic homopolar electromechanical power converter to provide long needed improvements to acyclic homopolar electromechanical power converter designs.