Hi guys, does anybody has some info/link about MGU-K?
I want to know which motor they are using, is it squirrel cage? More detailed info is the best!
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Tim.Wright wrote:I think they are brush-less DC motors:
http://en.wikipedia.org/wiki/Brushless_ ... tric_motor
A brushless DC motor is really a three phase motor, the three phase "AC" is just generated from DC by electronics instead ofwuzak wrote:Tim.Wright wrote:I think they are brush-less DC motors:
http://en.wikipedia.org/wiki/Brushless_ ... tric_motor
I don't think they are DC motors. Quite sure that they are 3 phase AC motors.
Yes Brian. All in the local motor control software. FIA won't even discuss it, I've tried. So much for last seasons expression of worry, about tyres being shredded in a couple of laps by these new PU's. I think we both know which engine manufacturer has the best implementation.Brian Coat wrote:"There are some other inherent advantages, for these motor types, depending on how the FIA would interpret the rules."
Do you mean "passive" pseudo traction control?
In a PPMT motor the current in the stator field coil increases under load but at the same time provides an induced
bucking flux to reduce the motors retard force. Unlike a conventional VRM the back emf (BEMF) is generated by
the magnet flux switching back and forth through the field coil during rotation. The result is a generator action
internal to the motor that provides an additional energy source from the switching magnet flux to augment the
energy coming from the power supply. A PPMT motor will display an over-voltage condition at the output of the
power supply that will back bias the power supply rectification diodes and prevent power supply conduction
during the over-voltage condition. In other words, even when being driven as a motor, a PPMT device is also
simultaneously acting as a generator for part of each switching cycle. Proper design allows one to thus improve
motor efficiency compared to conventional motors by optimizing the operating point to make maximum use of the
switched magnet flux. Essentially the motor uses the combined flux from the load-induced current added to the
magnet flux to generate shaft torque. Similar benefits occur in applying the motor as a generator. In contrast a
conventional VRM has its BEMF generated by the change in inductance with rotation angle as the rotor passes
over the wound pole and does not have the same potential for increasing efficiency and torque.
why would we think that this type of machine/drive combo are as efficient as a suitable synchronous machine ?Vortex37 wrote:I think (almost certain) that current MGU are switched reluctance type motors. In particular the PPMT type. These give a major advantage, in that they operate in an 'attraction mode', which provides substantially more power density. A 6" diameter x 6" can easily produce 12kw. There are some other inherent advantages, for these motor types, depending on how the FIA would interpret the rules. Better leave that hornets nest, for another day. Easy to see where Mercedes get some of their advantage, (if) they also use this type in MGU-H.
http://dropcanvas.com/87g4e PPMT white paper.