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  • Practical Control Engineering for Mechatronics and Automation
    Practical Control Engineering for Mechatronics and Automation

    Production processes and engineered systems use continuous and discrete variables, as well as the combination of continuous and sequential operations.This volume covers both aspects, thus providing knowledge in continuous and discrete control, logic control, and hybrid control systems.It is a compilation of selected control strategies to automate processes and systems with a practical approach to ease their design, analysis and implementation.The selection of the control schemes is based on the capability to provide desired dynamical response or real time performance.Practicality is required for achieving faster development times of automation projects or system prototypes by comprehensive presentation and direct application of methodologies and techniques for efficient and structured programming of control algorithms.Considered methodologies include model-based design, hardware in the loop simulations and structured programming.Fundamental signals and systems concepts are explained.Systems and controllers are analyzed using discrete-time equations, which ease their implementation in most programmable platforms without requiring sophisticated software.PID based control, internal model control and model reference control are viewed as powerful schemes in terms of performance and suitability for mechatronics systems because of the use of the model in their architecture as a key control element.Finite state machines are presented to solve sequential requirements of direct and supervisory control of many processes and machines.Cyberphysical systems are an industrial technology and an education trend, distinguished by visual and dynamic models or digital twins of the physical systems.The discussed analysis, design and implementation practices are integrated and applied in the context of cyberphysical systems.This book aims to provide multidisciplinary support to engineers and practitioners in the design of control systems, and is a valuable tool for automation teaching and self-learning.

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  • Sensors for Mechatronics
    Sensors for Mechatronics

    Sensors for Mechatronics, Second Edition, offers an overview of the sensors and sensor systems required and applied in mechatronics.Emphasis lies on the physical background of the operating principles that is illustrated with examples of commercially available sensors and recent developments.Chapters discuss the general aspects of sensors, with a special section on quantities, notations and relations.In addition, the book includes a section devoted to sensor errors and error minimization that apply to most of the sensors discussed.Each subsequent chapter deals with one class of sensors, pursuing a classification according to physical principles rather than measurands. Categories discussed include resistive, capacitive, inductive and magnetic, optical, piezoelectric and acoustic sensors.For each category of sensors, a number of applications is given.Where appropriate, a section is added on the interfacing of the sensor.

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  • Laboratory Exercises in Mechatronics
    Laboratory Exercises in Mechatronics

    Jouaneh's FUNDAMENTALS OF MECHATRONICS, contains mechatronics laboratory exercises designed to give the student hands-on experience with applications of the concepts covered in a mechatronics course. 14 laboratory exercises are included, plus a section that has a list of suggested extended or final projects.The first five laboratory exercises are designed to illustrate basic measurements, electrical circuits, and electronic concepts.Later exercises focus on microcontrollers, timing and event-driven software, system response, sensors, DC and stepper motors, and feedback control.

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  • Electrical Systems and Mechatronics
    Electrical Systems and Mechatronics

    The aim of this work, consisting of 9 individual, self-contained booklets, is to describe commercial vehicle technology in a way that is clear, concise and illustrative.Compact and easy to understand, it provides an overview of the technology that goes into modern commercial vehicles.Starting from the customer's fundamental requirements, the characteristics and systems that define the design of the vehicles are presented knowledgeably in a series of articles, each of which can be read and studied on their own.This volume, Electrical Systems and Mechatronics, offers an introduction to the mechatronics in a commercial vehicle.The electrical and electronic systems are presented, up to and including the advanced driver assistance systems.The compressed air system and the commercial vehicle brake are explained to give the reader a comprehensive overview, such as is helpful for understanding in training and in practice.

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  • What is the difference between automation technology and mechatronics?

    Automation technology focuses on the use of control systems to operate equipment and processes with minimal human intervention. It involves the use of sensors, actuators, and controllers to automate tasks. Mechatronics, on the other hand, is a multidisciplinary field that combines elements of mechanical engineering, electrical engineering, and computer science to design and create intelligent systems. Mechatronics integrates mechanical systems with electronics and computer control to create advanced automated systems that can perform complex tasks. In summary, automation technology is a subset of mechatronics, which is a broader field encompassing a wider range of technologies and disciplines.

  • Is the profession of mechatronics engineer replaceable by automation?

    While some aspects of a mechatronics engineer's job may be automated, such as routine tasks or data analysis, the profession as a whole is not easily replaceable by automation. Mechatronics engineers require a combination of technical skills, problem-solving abilities, and creativity to design and maintain complex systems. They also need to work closely with other professionals and understand the broader context of the projects they are working on. These human-centric skills are difficult to replicate with automation, making the profession of mechatronics engineer less likely to be fully replaced by technology.

  • Is the HTL Mechatronics and Information Technology difficult?

    The difficulty of the HTL Mechatronics and Information Technology program can vary depending on the individual's background, study habits, and interest in the subject matter. Some students may find the program challenging due to its technical nature and the need to understand both mechanical and information technology concepts. However, with dedication, hard work, and support from teachers and peers, students can successfully navigate the program and excel in their studies. It is important to stay organized, seek help when needed, and actively engage in the coursework to succeed in this field.

  • Who has more mechatronics content: mechatronics technicians or automotive mechatronics technicians?

    Automotive mechatronics technicians have more mechatronics content compared to regular mechatronics technicians. This is because automotive mechatronics technicians specialize in the application of mechatronics principles to automotive systems, such as electronic control units, sensors, and actuators in vehicles. They receive specific training and education tailored to the automotive industry, which includes a deeper understanding of mechatronics as it applies to automotive technology. Regular mechatronics technicians, on the other hand, have a broader scope of knowledge and may work in various industries beyond automotive.

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  • Control Basics for Mechatronics
    Control Basics for Mechatronics

    Mechatronics is a mongrel, a crossbreed of classic mechanical engineering, the relatively young pup of computer science, the energetic electrical engineering, the pedigree mathematics and the bloodhound of Control Theory. All too many courses in control theory consist of a diet of ‘Everything you could ever need to know about the Laplace Transform’ rather than answering ‘What happens when your servomotor saturates?’ Topics in this book have been selected to answer the questions that the mechatronics student is most likely to raise.That does not mean that the mathematical aspects have been left out, far from it.The diet here includes matrices, transforms, eigenvectors, differential equations and even the dreaded z transform.But every effort has been made to relate them to practical experience, to make them digestible.They are there for what they can do, not to support pages of mathematical rigour that defines their origins. The theme running throughout the book is simulation, with simple JavaScript applications that let you experience the dynamics for yourself.There are examples that involve balancing, such as a bicycle following a line, and a balancing trolley that is similar to a Segway.This can be constructed ‘for real’, with components purchased from the hobby market.

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  • Control Basics for Mechatronics
    Control Basics for Mechatronics

    Mechatronics is a mongrel, a crossbreed of classic mechanical engineering, the relatively young pup of computer science, the energetic electrical engineering, the pedigree mathematics and the bloodhound of Control Theory. All too many courses in control theory consist of a diet of ‘Everything you could ever need to know about the Laplace Transform’ rather than answering ‘What happens when your servomotor saturates?’ Topics in this book have been selected to answer the questions that the mechatronics student is most likely to raise.That does not mean that the mathematical aspects have been left out, far from it.The diet here includes matrices, transforms, eigenvectors, differential equations and even the dreaded z transform.But every effort has been made to relate them to practical experience, to make them digestible.They are there for what they can do, not to support pages of mathematical rigour that defines their origins. The theme running throughout the book is simulation, with simple JavaScript applications that let you experience the dynamics for yourself.There are examples that involve balancing, such as a bicycle following a line, and a balancing trolley that is similar to a Segway.This can be constructed ‘for real’, with components purchased from the hobby market.

    Price: 27.99 £ | Shipping*: 0.00 £
  • Mechatronics : A Foundation Course
    Mechatronics : A Foundation Course

    Now that modern machinery and electromechanical devices are typically being controlled using analog and digital electronics and computers, the technologies of mechanical engineering in such a system can no longer be isolated from those of electronic and computer engineering.Mechatronics: A Foundation Course applies a unified approach to meet this challenge, developing an understanding of the synergistic and concurrent use of mechanics, electronics, computer engineering, and intelligent control systems for everything from modeling and analysis to design, implementation, control, and integration of smart electromechanical products.This book explains the fundamentals of integrating different types of components and functions, both mechanical and electrical, to achieve optimal operation that meets a desired set of performance specifications.This integration will benefit performance, efficiency, reliability, cost, and environmental impact.With useful features that distinguish it from other comparable books, this solid learning tool: Prioritizes readability and convenient reference Develops and presents key concepts and formulas, summarizing them in windows, tables, and lists in a user-friendly format Includes numerous worked examples, problems, and exercises related to real-life situations and the practice of mechatronics Describes and employs MATLAB®, Simulink®, LabVIEW®, and associated toolboxes, providing various illustrative examples for their use Explores the limitations of available software tools and teaches the reader how to choose proper tools to solve a given problem and interpret and assess the validity of the results The text conveys the considerable experience that author Clarence de Silva gained from teaching mechatronics at the graduate and professional levels, as well as from his time working in industry for organizations such as IBM, Westinghouse Electric, and NASA.It systematically and seamlessly incorporates many different underlying engineering fundamentals into analytical methods, modeling approaches, and design techniques for mechatronics—all in a single resource.

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  • Mechatronics and Control of Electromechanical Systems
    Mechatronics and Control of Electromechanical Systems

    Due to the enormous impact of mechatronics systems, we encounter mechatronics and micromechatronic systems in our daily activities.Recent trends and novel technologies in engineering have increased the emphasis on integrated analysis, design, and control.This book examines motion devices (actuators, motors, transducers and sensors), power electronics, controllers, and electronic solutions with the main emphasis placed on high-performance mechatronic systems.Analysis, design, optimization, control, and implementation issues, as well as a variety of enabling mechatronic systems and devices, are also covered.The results extend from the scope of mechatronic systems to the modern hardware-software developments, utilizing enabling solutions and placing the integrated system perspectives in favor of consistent engineering solutions. Mechatronics and Control of Electromechanical Systems facilitates comprehensive studies and covers the design aspects of mechatronic systems with high-performance motion devices.By combining traditional engineering topics and subjects with the latest technologies and developments, new advances are stimulated in design of state-of-the-art mechatronic systems.This book provides a deep understanding of the engineering underpinnings of integrated technologies.

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  • What experience does a mechatronics technician for refrigeration technology need?

    A mechatronics technician for refrigeration technology needs a combination of mechanical, electrical, and computer skills. They should have experience working with refrigeration systems, understanding how they operate, and being able to troubleshoot and repair any issues that may arise. Additionally, knowledge of automation and control systems is important in order to effectively maintain and optimize refrigeration equipment. Strong problem-solving skills and the ability to work well under pressure are also valuable traits for this role.

  • Can mechatronics engineers also work as automotive mechatronics engineers?

    Yes, mechatronics engineers can work as automotive mechatronics engineers. Mechatronics engineering involves the integration of mechanical, electrical, and computer engineering to design and create intelligent systems and products. Automotive mechatronics engineers specifically focus on applying these principles to the design and development of automotive systems, such as advanced driver assistance systems, engine control systems, and vehicle electrification. With their expertise in mechatronics, engineers can easily transition to the automotive industry and contribute to the advancement of automotive technology.

  • How is the entry into refrigeration technology as a mechatronics technician?

    Entering into refrigeration technology as a mechatronics technician can be a rewarding career path. As a mechatronics technician, you will have the opportunity to work with a variety of systems and components, including those related to refrigeration. This field offers a blend of mechanical, electrical, and computer engineering skills, allowing you to troubleshoot, repair, and maintain refrigeration systems. With the increasing demand for energy-efficient and environmentally friendly refrigeration solutions, there are ample opportunities for growth and specialization in this field.

  • What overlaps do mechatronics engineers and automotive mechatronics engineers have?

    Mechatronics engineers and automotive mechatronics engineers both work with the integration of mechanical, electrical, and computer engineering principles. They both design and develop systems that involve the interaction of these disciplines, such as control systems, sensors, and actuators. Additionally, both types of engineers often work on the development of autonomous and semi-autonomous systems, such as self-driving cars or advanced driver assistance systems. Finally, they both need to have a strong understanding of mechanical and electrical systems, as well as programming and control theory, in order to effectively design and troubleshoot complex mechatronic systems.

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