flynfrog wrote:A DC motor can also act as a generator. And wont require the AC to DC conversion twice. Ultra effeceient Solar EVs all use DC motors and have regenerative braking.
Those systems use tiny power levels compared to F1. Weight and electric efficiency of the machine in Solar EV is of relatively low priority compared to aero efficiency and chassis weight. Electric machines in F1 use typically 100 times the power of a solar EV. If I'm not mistaken electric efficiency of small brushless DC machines is 80% compared to 98% of big AC machines.
AC is used in all high power applications where efficiency is essential. The list is endless: Elevators, robotics, machine tools, automotive, presses, metal and plastic casting machines and even in construction equipment AC machines are starting to replace hydraulics. You do not find any DC in those high power apps. Why should F1 be different?
Wikipedia wrote:Brushless DC electric motor (BLDC motors, BL motors) also known as electronically commutated motors (ECMs, EC motors) are synchronous motors that are powered by a DC electric source via an integrated inverter/switching power supply, which produces an AC electric signal to drive the motor. In this context, AC, alternating current, does not imply a sinusoidal waveform, but rather a bi-directional current with no restriction on waveform.
I also consider that we have a misunderstanding. By AC I'm always referring to the type of current the machine is using not to the power supply. The AC machines we are speaking off in F1 all use DC power supply but AC in the machine. Hence the need to use an inverter.
http://en.wikipedia.org/wiki/Brushless_ ... tric_motor
A Brushless AC electric motor is an electric motor driven by an AC electrical input, which lacks any form of commutator or slip ring. Generally the term 'brushless AC motor' will refer to a permanent-magnet synchronous motor (PMSM) or permanent-magnet motor (PMM), a synchronous motor which uses permanent magnets rather than windings in the rotor. PMSMs are either axial flux, radial flux, transverse flux, or flux switching depending on the arrangement of components, with each topology having different tradeoffs among efficiency, size, weight, and operating speed.
Alternative designs may use reluctance rather than magnets. Asynchronous induction motors are also brushless AC motors.
The brushless DC motor is a brushless AC motor with integrated inverter and rectifier, sensor, and inverter control electronics.
The bolded sentence could indicate that we are talking about the same thing here. We may be using different definitions in the US and EU.
