: For motors, current in a wire creates a magnetic field that interacts with a second field (usually from a permanent magnet or electromagnet), producing a Lorentz force that turns the rotor.
: The stationary outer part, often containing field magnets or windings. Rotor : The rotating inner part supported by bearings.
: Run on direct current. They often use a commutator to periodically reverse the current flow in rotor windings to maintain rotation.
: Most rotating machines consist of two main parts:
: Electrically, machines are divided into the armature (where the main power is generated or consumed) and the field (which produces the necessary magnetic flux). Classification of Electrical Machines
: Convert electrical energy into mechanical motion.
: For motors, current in a wire creates a magnetic field that interacts with a second field (usually from a permanent magnet or electromagnet), producing a Lorentz force that turns the rotor.
: The stationary outer part, often containing field magnets or windings. Rotor : The rotating inner part supported by bearings. Elektricne masine
: Run on direct current. They often use a commutator to periodically reverse the current flow in rotor windings to maintain rotation. : For motors, current in a wire creates
: Most rotating machines consist of two main parts: : For motors
: Electrically, machines are divided into the armature (where the main power is generated or consumed) and the field (which produces the necessary magnetic flux). Classification of Electrical Machines
: Convert electrical energy into mechanical motion.
