The machine used in this application note is a salient pole synchronous generator, equipped with 10 rotor poles and 30 stator slots . The stator slot is wounded in a double-layer winding configuration having a winding factor of 0.866. . In general, machines used in aircraft applications have small size and are designed for higher operating frequency. Hence the base speed of the machine considered under study is set at 12000 rpm.
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Application Note
Synchronous Generator Performance Evaluation Under Different Loads Using EMWorks 2D
The machine used in this application note is a salient pole synchronous generator, equipped with 10 rotor poles and 30 stator slots . The stator slot is wounded in a double-layer winding configuration having a winding factor of 0.866. . In general, machines used in aircraft applications have small size and are designed for higher operating frequency. Hence the base speed of the machine considered under study is set at 12000 rpm.

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Blog Post
An Antenna Simulator to Study Microwave Hyperthermia for Breast Cancer Treatment

HFWorks for Hyperthermia Antenna Design

To meet the design challenges posed by Hyperthermia Antenna Design, EMWorks offers you, an accurate and powerful solution, HFWorks. Based on the frequency domain finite element, HFWorks, has no limitation on the shape or number of the antenna elements. Equipped with an integrated steady-state and transient thermal solvers, HFWorks computes the temperature distribution in the tumors and the surrounding tissue straight from the electromagnetic losses in the tissue and the applicator antenna. The results below are obtained by HFWorks for a Tapered Slot Antenna (TSA) array made of 12 elements. The antennas are vertically placed forming a circular arrangement around an artificial cylindrical breast phantom including cancer tumors; both the SAR and temperature distribution are shown.

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