The behavior of a distributed anisotropy linear reluctance motor is investigated from the viewpoint of its magnetic characteristics, d-q parameters, thrust production, and cross d-q axis coupling due to saturation phenomena. It is shown that, accounting for quadrature air gap induction, the mathematical model of the linear reluctance motor cannot be immediately deduced from that of the rotating motor, as is the case for the induction motor. Therefore, a dedicated mathematical modeling of the linear anisotropic structure is presented. The air gap inductance versus relative position is determined by solving a system of differential equations with variable coefficients. The reluctance thrust is then evaluated, taking into account the static end effects. The coupling between d and q-axis reactances, due to saturation phenomena, is numerically evaluated. The test results for a four-pole prototype motor are presented
A distributed anisotropy linear reluctance motor / Locci, N.; Marongiu, I.; Perfetto, Aldo; Serri, A.. - STAMPA. - 1:(1993), pp. 258-265. (Intervento presentato al convegno Industry Applications Society Annual Meeting, 1993 tenutosi a Toronto nel 3-8 Oct 1993).
A distributed anisotropy linear reluctance motor
PERFETTO, ALDO;
1993
Abstract
The behavior of a distributed anisotropy linear reluctance motor is investigated from the viewpoint of its magnetic characteristics, d-q parameters, thrust production, and cross d-q axis coupling due to saturation phenomena. It is shown that, accounting for quadrature air gap induction, the mathematical model of the linear reluctance motor cannot be immediately deduced from that of the rotating motor, as is the case for the induction motor. Therefore, a dedicated mathematical modeling of the linear anisotropic structure is presented. The air gap inductance versus relative position is determined by solving a system of differential equations with variable coefficients. The reluctance thrust is then evaluated, taking into account the static end effects. The coupling between d and q-axis reactances, due to saturation phenomena, is numerically evaluated. The test results for a four-pole prototype motor are presentedI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
