Corso su macchine elettriche: motore asincrono
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LUCAS NUELLE

Corso su macchine elettriche: motore asincrono

LUCAS NUELLE
Corso su macchine elettriche: motore asincrono
Richiede l'utilixzzo dell'interfaccia Unitrain
COD: 327259
COD.MEPA: 327259CS

Descrizione

Includes:

1 Experiment card with stator and three-phase winding, run-up and operating capacitor and temperature sensor with constant current source

3 Rotors: squirrel-cage, permanent-magnet, rotor with open winding

Stroboscope with extra-bright LED

Labsoft browser and course software



Course contents:

Identifying the most common applications of rotating field machines

Explanation of the principles of electromagnetic induction

Explanation of the design and function of rotating field machines

Explanation of the differences between motor and generator operation

Introduction to the key components of a rotating field machine, the rotor and stator

Experimental demonstration of how torque arises and of the generator principle

Creation of a rotating magnetic field by rotating field machines: experimental demonstration of a rotating magnetic field in the stator

Introduction to the principle of a 3-phase transformer

Investigation by measurement of three-phase machines in star and delta configurations.

Measurement of phase-to-phase and line-to-line voltage and current

Measurement of rotor voltage and current

Interpreting a rating plate

Nominal data and characteristic parameters, power factor, pole-pairs, torque, speed and slip

Design and function of asynchronous machines

Investigation of a squirrel-cage rotor, frequency response characteristics, reversal of rotation

Investigation by measurement of the operating response of a synchronous machine with a permanent magnet rotor

Introduction to the principle of a capacitor motor (Steinmetz circuit)

Investigation by measurement of the operating response of a capacitor motor

Explanation of the importance of temperature monitoring in electrical machines

Measurement of winding temperature in running machines

Fault simulation (4 simulated faults activated by relay)

Course duration. 5.5 h approx.
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Descrizione

Includes:

1 Experiment card with stator and three-phase winding, run-up and operating capacitor and temperature sensor with constant current source

3 Rotors: squirrel-cage, permanent-magnet, rotor with open winding

Stroboscope with extra-bright LED

Labsoft browser and course software



Course contents:

Identifying the most common applications of rotating field machines

Explanation of the principles of electromagnetic induction

Explanation of the design and function of rotating field machines

Explanation of the differences between motor and generator operation

Introduction to the key components of a rotating field machine, the rotor and stator

Experimental demonstration of how torque arises and of the generator principle

Creation of a rotating magnetic field by rotating field machines: experimental demonstration of a rotating magnetic field in the stator

Introduction to the principle of a 3-phase transformer

Investigation by measurement of three-phase machines in star and delta configurations.

Measurement of phase-to-phase and line-to-line voltage and current

Measurement of rotor voltage and current

Interpreting a rating plate

Nominal data and characteristic parameters, power factor, pole-pairs, torque, speed and slip

Design and function of asynchronous machines

Investigation of a squirrel-cage rotor, frequency response characteristics, reversal of rotation

Investigation by measurement of the operating response of a synchronous machine with a permanent magnet rotor

Introduction to the principle of a capacitor motor (Steinmetz circuit)

Investigation by measurement of the operating response of a capacitor motor

Explanation of the importance of temperature monitoring in electrical machines

Measurement of winding temperature in running machines

Fault simulation (4 simulated faults activated by relay)

Course duration. 5.5 h approx.

Recensioni

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