This thesis develops two types of new claw rotors with elliptical cycloids and elliptical arcs respectively. For claw rotors with elliptical cycloids, the profile is defined by four parameters: pitch radius, rotor radius, number of claws, and conformity angle. The profile of each claw consists of an epitrochoid, two circular arcs, an elliptical cycloid, and a conjugate curve of the elliptical cycloid. For claw rotors with elliptical arcs, the profile is defined by five parameters: pitch radius, rotor radius, major axis of ellipse, number of claws, and conformity angle. The profile of each claw consists of an epitrochoid, two circular arcs, an elliptical arc, and a conjugate curve of the elliptical arc. Moreover, the mathematical models of the two claw rotor types are established and their geometric constraints are also derived. Furthermore, performances such as area efficiencies and sealing properties are analyzed and compared with previous claw rotor types. For claw rotors with the same number of claws, pitch radius, and rotor radius, the result indicates that the claw rotor with elliptical cycloids provides better sealing property than previous claw rotor types. It also indicates that the claw rotor with elliptical arcs provides higher area efficiency and better sealing property.