fluxeb's comments

fluxeb · 2024-12-11T08:21:06 1733905266

I would love a local-run version of this on my windows machine! Same subscription price is fine.

udev4096 · 2024-12-11T12:10:12 1733919012

https://github.com/remote-android/redroid-doc

t1tech · 2024-12-11T08:28:57 1733905737

On my TODO list! Might take a while though!

fluxeb · 2024-09-10T06:34:34 1725950074

Call me old fashioned but who needs the FTC when you can just not buy the thing (or sell it) if you don't like it? Remove regulation and more competition will spring up to make every type of customer happy.

namlem · 2024-09-10T07:11:46 1725952306

In this case the manufacturer is destroying the value of an item after you bought it. So you can't just not buy it and no one will pay you for it.

I agree that regulation should be used sparingly, but I could see a justification for some regulation here.

Or tbh perhaps this could be solved by deregulation: remove DMCA protection for drivers and firmware.

fragmede · 2024-09-10T06:43:06 1725950586

you're old fashioned. that clearly isn't and hasn't been working.

7jjjjjjj · 2024-09-10T07:00:49 1725951649

Who needs the FDA when you can just choose to buy the canned meat without maggots in it?

fluxeb · on Sept 10, 2023

It's more than that.

A great write-up by Tesla (2007) [1]

  In an ideal brushless drive, the strength of the magnetic field produced by the permanent magnets would be adjustable. When maximum torque is required, especially at low speeds, the magnetic field strength (B) should be maximum – so that inverter and motor currents are maintained at their lowest possible values. This minimizes the I² R (current² resistance) losses and thereby optimizes efficiency. Likewise, when torque levels are low, the B field should be reduced such that eddy and hysteresis losses due to B are also reduced. Ideally, B should be adjusted such that the sum of the eddy, hysteresis, and I² losses is minimized. Unfortunately, there is no easy way of changing B with permanent magnets.

Essentially, this new tech combines the best of Permanent Magnet Brushless DC and Induction motors. It allows you to change the magnetic field B without contact.

The losses in the shaft coils are low when B is low so the gains in efficiency for an "eco mode" would be excellent as you modulate B for low torque and you would still retain the ability to crank up the power in a "sport mode" at the cost of efficiency.

[1]https://www.tesla.com/blog/induction-versus-dc-brushless-mot...

addaon · on Sept 11, 2023

> Unfortunately, there is no easy way of changing B with permanent magnets.

There’s the old semi-permanent magnet trick, although this only allows a couple of discrete field strengths, not continuous tuning. Basically, a neodymium (or other hard) magnet and alnico (or other soft) magnet are put in parallel, surrounded by a pulse winding. A pulse can flip the magnetization of the alnico, but not neodymium, so you get field strengths of either neo + alnico or neo - alnico. (This is most often used sized for similar strengths to turn a “permanent” magnet on or off, but can be used in non-equal strengths as desired.)

sitkack · on Sept 10, 2023

Exactly. The B field can be cranked up for short a duration to maximize torque. The rotor could also have much lower inertia.

I sketched out this same topology, with inductively coupled coils for the rotor's magnetic field. If you don't need the fields to reverse (they wouldn't with a magnetic field). Then you could still have small PMs in the rotor with a coil to provide boost field for additional torque during acceleration.