To our valued customers,
JMAG

This email provides you with the most up-to-date information on JMAG!

Webinar with subtitles in multilingual:
“Brush up on Motor Design!” Vol.62 has been released!

“Brush up on Motor Design!” by Prof. Miller, an authority on motor design is available on our website.
From beginners in motor design to experts in design and analysis, this content can be of reference to everyone.

The following webinars have been published this month.
You can view it not only in English but also in many languages!

[Vol.062] Flummoxed by Flux-waves? – I
The 62nd seminar will explore the true nature of the flux waves essential to electric machine design. We will unveil the secrets to the 3rd harmonic and examine various possibilities, such as the potential of 5-phase/7-phase multi-phase drives. This video interweaves theory with practical examples of design concepts that capitalize on the space-harmonics that are of particular interest in special applications and high-performance drives.

Webinar

On-demand Webinar

In addition, we have published columns on various themes.
We recommend first taking a look at “An engineer’s diary”.

Read the column

Webinar: Keeping the Motor Cool with JMAG

Thermal limits directly affect the performance, efficiency, and durability of electric machines. In this webinar, we explore how JMAG integrates detailed electromagnetic loss modeling with advanced thermal simulations to predict coil, magnet, and core temperatures under real-world duty cycles. See how JMAG helps engineers evaluate thermal behavior, compare cooling strategies, and design motors that meet performance goals without overheating.

We will also highlight the new capabilities in JMAG 24.1, which include estimating continuous output rating conditions by automatically accounting for the allowable temperature limits of the coil and magnet. We’ll walk through real-world applications across automotive, aerospace, and industrial sectors, showing how thermal analysis drives smarter design decisions.

Dates: 10 July 2025