6.1.- MECHATRONICS

Mechatronics is the area of engineering that includes mechanical engineering, electronic engineering and computer engineering. The main objective of mechatronics is the automation of machines. To achieve this objective the Automation Industry has developed electromechanical and computerized systems to have an optimal control of their industrial processes. Mathematical models to develop systems with desired behaviors are obtained with the control electronics.

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Nowadays, mechatronics seeks to improve the mechanisms to obtain a controlled and autonomous operation, designing PID (Proportional-Integral-Derivative Controller) control algorithms to perform feedback control and applying optimal control, predictive control and non-linear control techniques. All these control techniques are applied to the control of variables of temperature, flow, pressure, etc. using industrial instrumentation.

The continuous innovation and improvement of technology is leading mechatronics to the design of more complex and sophisticated mechanisms, with better features and a great control capacity. They can perform automated processes through pneumatic and electropneumatic actuation, obtaining quick and repetitive movements, or hydraulic or electrohydraulic actuation, obtaining large torques, precise and fast motion control through servomotor technology, and low cost industrial instrumentation, with great features and applicable in a new Industry 4.0.

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MECHATRONICS EQUIPMENT

Showing 1-30 of 60 item(s)
PID CONTROL AND REGULATION FUNDAMENTALS UNIT - RYC/B
  • RYC/B
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC/B

PID Control and Regulation Fundamentals Unit

The regulation of dynamic systems is a fundamental component of engineering, as it allows process variables to be maintained within desired limits despite external disturbances or internal changes. To achieve this, control strategies such as the...
COMPUTER CONTROLLED MODULAR CONTROL AND REGULATION UNIT - RYC/T
  • RYC/T
Available
10.1.- THEORETICAL - PRACTICAL FUNDAMENTALS

RYC/T

Computer Controlled Modular Control and Regulation Unit

The Computer Controlled Modular Control and Regulation Unit, with SCADA and PID Control, "RYC/T", has been designed by EDIBON for the study of regulation and automatic control through experimentation with real processes and dynamic models. It...
PID CONTROL AND REGULATION OF A DC SERVOMOTOR UNIT - RYC-SM
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-SM

PID Control and Regulation of a DC Servomotor Unit

Accessory of RYC, RYC/T
The PID Control and Regulation of a DC Servomotor Unit, "RYC-SM", designed by EDIBON, allows studying speed and position control in a DC servomotor. It includes speed and position sensors, allowing analysis of the dynamic response of the motor and...
PID TEMPERATURE CONTROL AND REGULATION OF AIR FLOW UNIT - RYC-TAR
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-TAR

PID Temperature Control and Regulation of Air Flow Unit

Accessory of RYC, RYC/T
The PID Temperature Control and Regulation of Air Flow Unit, "RYC-TAR", designed by EDIBON, allows studying temperature control in an air flow using a fan and a heating element. It includes sensors distributed along the duct, allowing analysis of...
PID CONTROL AND REGULATION OF AN INVERTED PENDULUM UNIT - RYC-PI
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-PI

PID Control and Regulation of an Inverted Pendulum Unit

Accessory of RYC, RYC/T
The PID Control and Regulation of an Inverted Pendulum Unit, "RYC-PI", de­signed by EDIBON, allows studying a highly unstable process through the control of an inverted pendulum mounted on a moving carriage. It includes position and angle sensors...
PID MAGNETIC LEVITATION CONTROL AND REGULATION UNIT - RYC-CLM
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-CLM

PID Magnetic Levitation Control and Regulation Unit

Accessory of RYC, RYC/T
The PID Magnetic Levitation Control and Regulation Unit, "RYC-CLM", desig­ned by EDIBON, allows studying a highly nonlinear process through the levitation of a metallic ball using an electromagnet. It includes position and current sensors that...
PID TEMPERATURE CONTROL AND REGULATION UNIT - RYC-TE
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-TE

PID Temperature Control and Regulation Unit

Accessory of RYC, RYC/T
The PID Temperature Control and Regulation Unit, "RYC-TE", designed by EDI­BON, allows studying temperature control in a tank using a heating element and temperature sensors. It allows analyzing thermal dynamics, response time, and process stability.
PID CONTROL AND REGULATION OF PRESSURE LEVEL UNIT - RYC-P
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-P

PID Control and Regulation of Pressure Level Unit

Accessory of RYC, RYC/T
The PID Control and Regulation of Pressure Level Unit, "RYC-P", designed by EDIBON, allows the study of pressure control in a tank using compressed air. It includes a compressor, pressure sensors, and control valves. It allows analyzing the...
PID LEVEL CONTROL AND REGULATION UNIT - RYC-N
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-N

PID Level Control and Regulation Unit

Accessory of RYC, RYC/T
The PID Level Control and Regulation Unit, "RYC-N", designed by EDIBON, allows studying level control in a tank by regulating the inlet flow. It includes level sensors, a pump, and valves that allow modifying operating conditions. The unit allows...
PID FLOW CONTROL AND REGULATION UNIT - RYC-C
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-C

PID Flow Control and Regulation Unit

Accessory of RYC, RYC/T
The PID Flow Control and Regulation Unit, "RYC-C", designed by EDIBON, allows the study of flow control in a closed hydraulic circuit. It includes a pump, a flowmeter, and an electronic proportional valve that regulates the flow. The unit allows...
PID CONTROL AND REGULATION OF LIGHT INTENSITY UNIT - RYC-I
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-I

PID Control and Regulation of Light Intensity Unit

Accessory of RYC, RYC/T
The PID Control and Regulation of Light Intensity Unit, "RYC-I", designed by EDIBON, allows analyzing light intensity control in a closed environment. It includes a variable light source and several optical sensors, such as photodiodes or...
PID CONTROL AND REGULATION OF PH LEVEL UNIT - RYC-pH
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-pH

PID Control and Regulation of pH Level Unit

Accessory of RYC, RYC/T
The PID Control and Regulation of pH Level Unit, "RYC-pH", designed by EDIBON, allows studying pH control in a tank by dosing acidic and basic solutions. It includes pH sensors, dosing pumps, and a mixing tank. It allows analyzing dynamic chemical...
PID POSITION CONTROL AND REGULATION OF A MOTOR UNIT - RYC-CP
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

RYC-CP

PID Position Control and Regulation of a Motor Unit

Accessory of RYC, RYC/T
The PID Position Control and Regulation of a Motor Unit, "RYC-CP", designed by EDIBON, allows studying linear position control using a DC motor that moves a carriage. It includes position sensors that allow measuring the displacement of the...
COMPUTER CONTROLLED POWER PLANTS REGULATION AND CONTROL UNIT - SCE
  • SCE
Available
6.1.1.1.- THEORETICAL-PRACTICAL FUNDAMENTALS

SCE

Computer Controlled Power Plants Regulation and Control Unit

The Computer Controlled Power Plants Regulation and Control Unit, "SCE", has been designed by EDIBON to simulate and analyze the behavior of a power plant through two operating modes.Real mode: allows the analysis and data acquisition of the...
INDUSTRIAL CONTROLLERS UNIT - CECI
  • CECI
Available
6.1.1.2.- INDUSTRIAL CONTROLLERS

CECI

Industrial Controllers Unit

The Industrial Controllers Unit, "CECI", is based on a modular design structure whose functionality is divided into different modules toallow the student a better understanding of the unit. The modules included in the unit are: industrial...
INDUSTRIAL CONTROLLERS NETWORKING - CRCI
  • CRCI
Available
6.1.1.2.- INDUSTRIAL CONTROLLERS

CRCI

Industrial Controllers Networking

The Industrial Controllers Networking, "CRCI", unit is based on a modular design structure whose functionality is divided into different modules to allow the student a better understanding of the unit. The modules provided with the unit are: two...
COMPUTER CONTROLLED CONTROLLER TUNING UNIT - CEAC
  • CEAC
Available
6.1.1.2.- INDUSTRIAL CONTROLLERS

CEAC

Computer Controlled Controller Tuning Unit

The Computer Controlled Controller Tuning Unit, "CEAC", designed by EDIBON, unit is an advanced system that operates in conjunction with a computer, which allows to change the control parameters performed by the industrial controller.Through the...
FIELD BUS APPLICATIONS UNIT - CEAB
  • CEAB
Available
6.1.1.2.- INDUSTRIAL CONTROLLERS

CEAB

Field Bus Applications Unit

The Field Bus Applications Unit, "CEAB", designed by EDIBON, provides the components to conform a real Profibus DP Network where the PC is the master device and different components included with the unit are the slave devices. The "CEAB" unit...
COMPUTER CONTROLLED COUPLED TANKS SYSTEM - CTAC
  • CTAC
Available
6.1.1.3.- INDUSTRIAL SYSTEM APPLICATIONS

CTAC

Computer Controlled Coupled Tanks System

The Computer Controlled Coupled Tanks System, "CTAC", consists of four transparent tanks, each with a pressure sensor to measure the water level.The coupling configuration between tanks can be modified by the use of computer controlled solenoid...
COMPUTER CONTROLLED PROCESS CONTROL (ELECTRONIC VALVE) - UCP
  • UCP
Available
6.1.1.3.- INDUSTRIAL SYSTEM APPLICATIONS

UCP

Computer Controlled Process Control (Electronic Valve)

The Computer Controlled Process Control (Electronic Valve), "UCP", designed by EDIBON, allows the study of several types of automatic control and can be used to control different variables (flow, level, temperature, pressure, pH, conductivity and...
COMPUTER CONTROLLED PROCESS CONTROL (PNEUMATIC VALVE) - UCPCN
  • UCPCN
Available
6.1.1.3.- INDUSTRIAL SYSTEM APPLICATIONS

UCPCN

Computer Controlled Process Control (Pneumatic Valve)

The Computer Controlled Process Control (Pneumatic Valve), "UCPCN", designed by EDIBON, allows the study of several types of automatic control and can be used to control different variables (flow, level, temperature, pressure, pH, conductivity and...
COMPUTER CONTROLLED PROCESS CONTROL (SPEED CONTROLLER) - UCPCV
  • UCPCV
Available
6.1.1.3.- INDUSTRIAL SYSTEM APPLICATIONS

UCPCV

Computer Controlled Process Control (Speed Controller)

The Computer Controlled Process Control Unit (Speed Controller), "UCPCV", designed by EDIBON, allows the study of several types of automatic control and can be used to control different variables (flow, level, temperature, pressure, pH,...
COMPUTER CONTROLLED INDUSTRIAL PROCESS CONTROL PLANT - CPIC
  • CPIC
Available
6.1.1.3.- INDUSTRIAL SYSTEM APPLICATIONS

CPIC

Computer Controlled Industrial Process Control Plant

The Computer Controlled Industrial Process Control Plant, "CPIC", has been designed by EDIBON for the study of industrial process control through experimentation with variables such as flow, level, pressure, and temperature.This unit allows the...
TRANSDUCERS AND INSTRUMENTATION UNIT - SAIT
  • SAIT
Available
6.1.2.1.- SENSORS AND ELECTRONIC INSTRUMENTATION

SAIT

Transducers and Instrumentation Unit

The Transducers and Instrumentation Unit, "SAIT", has been designed by EDIBON to show most of the devices used in the industry that allow the electronic systems to communicate with the real world, to measure physical variables and to control...
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