• Fermion@feddit.nl
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    25 days ago

    I believe this type of motor could have very low power consumption while holding position without relying on non-backdriveable mechanics. That isn’t stated in the article so I could be wrong. If that’s the case, I could see this type of motor being valuable in servo/stepper type applications. Servos and especially steppers, run hot even when just holding torque since the coils have to stay energized.

    A major concern would be ensuring no contamination. Any FOD, or metal filings generated from wear and tear could ruin such a motor.

    • SomeoneSomewhere@lemmy.nz
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      24 days ago

      That’s an interesting point. It also implies much better efficiency at low speeds than most motors.

      Given a few generations of better semiconductor, it could end up being very interesting for (railway mostly?) traction motors.

      • Low speed high torque means you don’t need a further reduction gearbox.

      • Good performance near zero speeds mean you might not need to use braking at all aside from parking and emergencies.

      • High voltages are already widely used and available - 1500VDC nominal is an older standard for metro trains; 3kVDC is common both for older overhead and as an intermediate DC bus voltage for AC overhead. Future semiconductor generations could allow direct use of 25kV overhead (~40kVDC rectified at maximum line level) without the need for an intermediate bus, assuming the dielectric fluid was good enough.