Tesla had invented a kind of two-phase induction motor, but the three-phase induction motor that is the ancestor of the modern induction motors was invented in 1891 by Mikhail Dolivo-Dobrovolsky (working in Germany at AEG), who had also invented in 1888 the three-phase grid, the three-phase generator and the three-phase synchronous motor.
The Dolivo-Dobrovolsky motor is the ancestor of all high-power induction motors, while the Tesla motor can be considered the ancestor of the single-phase induction motors that have been used (more frequently in the past than today) for several household appliances, like washing machines (or reel-to-reel magnetic tape recorders, a half of century ago).
Other way round. He invented the induction motor (1887) which the three-phase grid was then demonstrated to drive (1891). That's how influential it was. There are other reasons a three-phase grid is handy but being able to drive these brushless contraptions must have seemed utterly wild at the time.
Rare earth magnet motors require software too if you want them to be maximally efficient. You could embody that software in e.g. an FPGA of course, but it's still software.
Synchronous motors: running on software since the 1880s. Nikola really was ahead of his time!
He invented the induction motor which runs right off the grid.
Tesla had invented a kind of two-phase induction motor, but the three-phase induction motor that is the ancestor of the modern induction motors was invented in 1891 by Mikhail Dolivo-Dobrovolsky (working in Germany at AEG), who had also invented in 1888 the three-phase grid, the three-phase generator and the three-phase synchronous motor.
The Dolivo-Dobrovolsky motor is the ancestor of all high-power induction motors, while the Tesla motor can be considered the ancestor of the single-phase induction motors that have been used (more frequently in the past than today) for several household appliances, like washing machines (or reel-to-reel magnetic tape recorders, a half of century ago).
Other way round. He invented the induction motor (1887) which the three-phase grid was then demonstrated to drive (1891). That's how influential it was. There are other reasons a three-phase grid is handy but being able to drive these brushless contraptions must have seemed utterly wild at the time.
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Rare earth magnet motors require software too if you want them to be maximally efficient. You could embody that software in e.g. an FPGA of course, but it's still software.
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