Principles of Industrial Instrumentation: A Review of the Third Edition by D. Patranabis
Principles of Industrial Instrumentation: A Review of the Third Edition by D. Patranabis
Industrial instrumentation is the science and art of measuring and controlling physical variables such as pressure, temperature, flow, level, force, and speed in industrial processes. It is essential for ensuring the quality, efficiency, safety, and reliability of various industrial operations. Principles of Industrial Instrumentation is a comprehensive textbook that covers the fundamental concepts and principles of industrial instrumentation, as well as the latest developments and applications in the field.
The third edition of this book, written by D. Patranabis, a professor emeritus of applied electronics and instrumentation engineering at Heritage Institute of Technology Kolkata, is a thoroughly revised and updated version that incorporates the recent advances in technology and standards. The book consists of 12 chapters that cover topics such as:
Principles Of Industrial Instrumentation Third Edition D Patranabis Pdf 666
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Basic concepts and terminology of industrial instrumentation
Classification and characteristics of sensors and transducers
Signal conditioning and data acquisition systems
Measurement of pressure, temperature, flow, level, force, torque, and speed
Calibration and error analysis
Hazards and safety in industrial instrumentation
Metrology and standards
Virtual instrumentation and wireless I/O
Instrumentation system design and selection
The book is well-organized and written in a clear and concise style. It provides ample examples, diagrams, tables, and solved problems to illustrate the theoretical concepts and practical applications. It also includes review questions, exercises, and references at the end of each chapter to test the understanding of the readers and to encourage further exploration. The book is suitable for undergraduate and postgraduate students of engineering, as well as for professionals and practitioners who want to update their knowledge and skills in industrial instrumentation.
Principles of Industrial Instrumentation is a valuable resource for anyone who wants to learn about the principles and practices of industrial instrumentation. It is a comprehensive and authoritative guide that covers both the basics and the advanced topics in a coherent and accessible manner.In this section, we will review some of the key features and highlights of the book in more detail.
Basic Concepts and Terminology of Industrial Instrumentation
The first chapter of the book introduces the basic concepts and terminology of industrial instrumentation, such as measurement, instrumentation, control, accuracy, precision, resolution, sensitivity, range, span, linearity, hysteresis, repeatability, reproducibility, drift, noise, interference, and signal-to-noise ratio. It also explains the difference between analog and digital signals, and between open-loop and closed-loop control systems. The chapter provides a clear and concise overview of the fundamental aspects of industrial instrumentation that are essential for understanding the subsequent chapters.
Classification and Characteristics of Sensors and Transducers
The second chapter of the book discusses the classification and characteristics of sensors and transducers, which are the devices that convert one form of energy into another for measurement and control purposes. The chapter covers various types of sensors and transducers based on their input-output characteristics, such as active and passive, contact and non-contact, self-generating and modulating, resistive, capacitive, inductive, piezoelectric, thermoelectric, photoelectric, magnetic, ultrasonic, optical, and chemical. The chapter also describes the performance parameters and specifications of sensors and transducers, such as accuracy, precision, resolution, sensitivity, range, span, linearity, hysteresis, repeatability, reproducibility, drift, noise, interference, signal-to-noise ratio, response time, frequency response, dynamic range, stability, reliability, durability,
and cost. The chapter provides a comprehensive and systematic overview of the various types of sensors and transducers that are used in industrial instrumentation. 29c81ba772
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