N-M17 Electromagnetism Module

2.3.1.- GRUNDLEGENDE ELEKTRISCHE GESETZKONZEPTE 14.2.1.1.- GRUNDLEGENDE ELEKTRISCHE GESETZKONZEPTE
ELECTROMAGNETISM MODULE - N-M17

INNOVATIVE SYSTEME

With the Electromagnetism Module, "N-M17", designed by EDIBON, the operation of electromagnetic applications such as transformer, solenoid, relay, stepper motor operation or DC motors can be studied.

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Erweiterungen

ICAI

Interaktive Computerunterrichtssoftware
EMSK

EDIBON Development KIT for Circuits Simulation, Powered by NI LabVIEW™

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EDIBON and its commitment to European Skills
EDIBON and its commitment to European Skills
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Completion of the Small Laboratory Equipment Repair Course
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ALLGEMEINE BESCHREIBUNG

Electromagnetism is the interaction between electric charges. It is described in terms of charges interacting between of electric and magnetic fields.

With the Electromagnetism Module, "N-M17", designed by EDIBON, the operation of electromagnetic applications such as transformer, solenoid, relay, stepper motor operation or DC motors can be studied.

In addition, faults can be simulated in most of the circuits under study. The student must investigate what is happening in the circuit and why it is not working properly. These faults simulations can be of several types from damage components to a hypothetical incorrect circuit assembly.

ÜBUNGEN UND GEFÜHRTE PRAKTIKEN

GEFÜHRTE PRAKTISCHE ÜBUNGEN IM HANDBUCH ENTHALTEN

Magnetic fields:

  1. Magnetic fields measurement.
  2. Armature electromotive force. Coil reactance calculation.
  3. Theoretical/practical exercises.

Electromagnetic applications:

  1. Mutual Inductance.
  2. Basic operation of the transformer.
  3. Core effect in a transformer response.
  4. Failure 1. Fault study in circuit#1 (Coils. Hall effect probe. Materials).
  5. Basic operation of the solenoid.
  6. Failure 2. Faults study in the circuit#2 (Solenoid).
  7. Basic operation of a relay.
  8. Contacts position self-holding.
  9. Failure 3. Faults study in the circuit#3 (Excitation. Relays).
  10. Theoretical/practical exercises.

Direct current motor:

  1. Characteristic Speed/Voltage of a direct current motor.
  2. Motor used as DC generator.
  3. Counter-EMF.
  4. Theoretical/practical exercises.

Stepping Motor:

  1. Stepping motor working.
  2. Failure 4. Faults study in circuit#5 (Stepping motor).
  3. Theoretical/practical exercises.
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MEHR PRAKTISCHE ÜBUNGEN FÜR DAS GERÄT

  1. Several other exercises can be done and designed by the user.

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