N-M16 Electric Networks Module

2.3.1.- 基本的な電気法の概念 14.2.1.1.- 基本的な電気法の概念
ELECTRIC NETWORKS MODULE - N-M16

革新的なシステム

With the Electric Networks Module, "N-M16", designed by EDIBON, it is possible to understand the principles of Ohm’s Law, Norton’s and Thévenin’s Theorem, Wheatstone bridge operation, superposition theorems or star/delta transformation and vice versa.

一般的な説明を表示

拡張

ICAI

対話型コンピューター支援命令ソフトウェア
EMSK

NI LabVIEW™を搭載した回路シミュレーション用EDIBON開発キット

関連ニュース

Completion of the Small Laboratory Equipment Repair Course
Completion of the Small Laboratory Equipment Repair Course
On December 1st, the Repair Course for Small Laboratory Equipment, taught by our engineers at the EDIBON facilities, was completed, lasting 4 days. The attendees, (Laboratory technicians and maintenance of the Rey Juan Carlos University of Madrid) had the opportunity to perform multiple...
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概要

After studying the basic knowledge of electrical networks, we must understand and investigate the dependence between current and voltage applied to different electrical devices.

With the Electric Networks Module, "N-M16", designed by EDIBON, it is possible to understand the principles of Ohm’s Law, Norton’s and Thévenin’s Theorem, Wheatstone bridge operation, superposition theorems or star/delta transformation and vice versa.

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.

演習と指導の慣行

マニュアルに含まれるガイド付き実習

Ohm’s law:

  1. Calculation of the internal resistance of a continuous source.
  2. Faults study in an internal resistance.
  3. Internal resistance calculation of an alternating source.
  4. Theoretical/practical exercises.

Electrical power:

  1. Power transferred by a DC source to load.
  2. Power transferred to a load by an AC source.
  3. Theoretical/practical exercises.

Power supplies combination:

  1. DC+AC assembly.
  2. Error study in the circuit, DC assembly.
  3. DC+AC assembly.
  4. Theoretical/practical exercises.

Thèvenin’s and Norton’s theorems:

  1. Thèvenin and Norton equivalent circuits.
  2. Theoretical/practical exercises.

Superposition theorem:

  1. Application of the Superposition theorem.
  2. Faults study in the Superposition circuit.
  3. Theoretical/practical exercises.

Star-triangle transformation:

  1. Resistance measurement between terminals.
  2. Theoretical/practical exercises.

Wheatstone bridge:

  1. Calibration of a Wheatstone bridge fed by a DC source.
  2. Faults study in the Wheatstone bridge circuit.
  3. Wheatstone bridge calibration fed by an AC source.
  4. Theoretical/practical exercises.
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より実用的な練習をして、ユニットを完成させる

  1. Millman’s Theorem.
  2. Several other exercises can be done and designed by the user.

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