EMAK EDIBON Matlab Kit

EDIBON MATLAB KIT - EMAK

INNOVATIVE SYSTEMS

EDIBON MATLAB® Kit , "EMAK", is a software package, based on MATLAB® and Simulink® environment, offered as an optional itemtogether with EDIBON TECHNICAL TEACHING EQUIPMENT.

See general description

General Description

EDIBON MATLAB® Kit , "EMAK", is a software package, based on MATLAB® and Simulink® environment, offered as an optional itemtogether with EDIBON TECHNICAL TEACHING EQUIPMENT.

MATLAB® and Simulink® are two of the software tools most widely used in engineering schools around the world. Therefore, having a deepknowledge of these tools means a great step in the professional development of a competitive engineer, obtaining a clear advantage inindustrial environments.

The combination of these software with EDIBON TECHNICAL TEACHING EQUIPMENT results in one of the most powerful learning tools interms of the study, analysis, interpretation and modeling of real systems. The range of possibilities offered by this combination includes boththe measurement of the physical variables involved in a particular process and the design of own control algorithms for an unprecedentedoptimization of the processes carried out in the design.

Exercises and guided practices

GUIDED PRACTICAL EXERCISES INCLUDED IN THE MANUAL

  1. Basic practical exercises to get started with MATLAB® and Simulink® and build simple applications.
  2. Basic practical exercises to get started with EDIBON TECHNICAL TEACHING EQUIPMENT.
  3. Practical and theoretical exercises to perform complex mathematical operations, create and edit formulas, manipulate matrices and obtain variables and characteristic process parameters.
  4. Practical exercises for data acquisition and control.
  5. Practical exercises to develop customized SCADA applications, as well as to perform the main settings, such as sampling frequency, amount of data or the parameters of a PID control, among others.
  6. Practical exercises for signal processing, such as design of different digital filters or measurement performance (FFT, harmonics, etc.). Customized signal processing algorithms may be implemented.
  7. Practical exercises for signal filtering to study transients, refine data and remove non desired components, such as noise.
  8. Practical exercises to plot signals for the implementation of different graphic representations of acquired signals, calculations and process variables to observe trends, patterns and changes in real time.
  9. Practical exercises to study automatic regulation, such as implementing closed loop control algorithms. Examples: PID, ON/OFF control, PWM, Auto Tunning, etc.
  10. Development and assessment of different transfer functions of a control system from a theoretical point of view for later application in a real system.
  11. Practical exercises for the modelling of dynamic/kinematic systems. Practical exercises using the Hardware in the Loop technique applied to complex systems in real time.

Quality

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