Fundamentals of Industrial Robots

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• Electrical Systems

  Electrical Systems

  Explore the fundamentals of electrical control system voltages using DC and AC circuits involving resistors, capacitors, and inductors, for analog, discrete, signal, high power, and motor control systems.

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  Chapters

  • 1Basic Direct Current (DC) Theory

    Pages

    • Overview
    • Basics of Electrical Current
    • Electrical Sources and Electronic Load
    • What is Electrical Power?
    • Electrical Resistance and Ohm’s Law
    • The Difference Between Series and Parallel Circuits
    • Kirchhoff’s Current and Voltage Laws
    • Circuit Failure Analysis
    • Basics of Bridge Circuits
    • Null-balance Voltage Measurement
    • Electromagnetism Basics
    • Introduction to Capacitors and Capacitance
    • Introduction to Inductors and Inductance
  • 2Basic Alternating Current (AC) Theory

    Pages

    • Overview
    • Root Mean Square (RMS) Quantities
    • Resistance, Reactance and Impedance
    • Transformer Basics and Principles of Operation
    • Phasors, Phase Shift and Phasor Algebra
    • The s Variable: Euler’s Relation and Phasor Expressions of Waveforms
    • Transfer Function Analysis
    • Polyphase AC Power
    • Phasor Analysis of Transformer Circuits
    • Open-ended, Shorted and Properly Terminated Transmission Lines
    • Antennas and Resonant Circuits (Tank Circuits)
  • 3Understanding Analog Instrumentation

    Pages

    • Overview
    • 4 to 20 mA Analog Current Signals
    • Relating 4 to 20 mA Signals to Instrument Variables
    • Controller Output Current Loops
    • 4-wire (“self-powered”) Transmitter Current Loops
    • 2-wire (“loop-powered”) Transmitter Current Loops
    • 4-wire “Passive” Versus “Active” Output Transmitters
    • Troubleshooting Current Loops
  • 4Discrete Process Measurement

    Pages

    • Overview
    • “Normal” status of a Process Switch
    • Hand Switches and Stackable Switches
    • Limit Switches
    • Proximity Switches
    • Pressure Switches
    • Level Switches
    • Temperature Switches
    • Flow Switches
  • 5Electric Power Measurement and Control Systems

    Pages

    • Overview
    • Introduction to Power System Automation
    • Understanding Electrical Power Grids
    • Interconnected Generators
    • Single-line Electrical Diagrams
    • Circuit Breakers and Disconnects
    • Electrical Sensors: Potential Transformers (PTs) and Current Transformers (CTs)
    • Introduction to Protective Relaying
    • ANSI/IEEE Function Number Codes
    • Instantaneous and Time-overcurrent (50/51) Protection
    • Differential (87) Current Protection
    • Directional Overcurrent (67) Protection
    • Distance (21) Protection
    • Auxiliary and Lockout (86) Relays
  • 6Signal Characterization in Control Systems

    Pages

    • Overview
    • Flow Measurement from Differential Pressure
    • Flow Measurement in Open Channels
    • Material Volume Measurement
    • Radiative Temperature Measurement
    • Analytical Measurements of Chemical Compositions
  • 7Variable-speed Motor Controls and Drives

    Pages

    • Overview
    • DC Motor Speed Control
    • AC Motor Speed Control
    • AC Motor Braking
    • VSD and VFD Motor Drive Features
    • Use of Line Reactors
    • Metering Pumps
• Fluid Systems

  Fluid Systems

  Learn the theory and fundamentals of fluid system control using pumps, compressors, valves, and actuators, as well as measurement systems for fluid properties including pressure, level, temperature, and flow rate.

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  Chapters

  • 1Basics of Pneumatic Instruments

    Pages

    • Overview
    • Pneumatic Sensing Elements
    • Self-balancing Pneumatic Instruments Principles
    • Pilot Valves and Pneumatic Amplifying Relays
    • Comparison of Op-Amp Circuits With Analogous Pneumatic Mechanisms
    • Analysis of Practical Pneumatic Instruments
    • Proper Care and Feeding of Pneumatic Instruments
    • Advantages and Disadvantages of Pneumatic Instruments
  • 2Introduction to Continuous Pressure Measurement

    Pages

    • Overview
    • Using Manometers for Measuring Pressure
    • Mechanical Pressure Elements
    • Electrical Pressure Elements
    • Force-balance Pressure Transmitters
    • Differential Pressure Transmitters
    • Pressure Sensor Accessories
    • Process/Instrument Suitability
  • 3Introduction to Continuous Level Measurement

    Pages

    • Overview
    • Level Gauges (Sightglasses)
    • Continuous Float Level Transmitters
    • What is Hydrostatic Pressure?
    • Displacement and Displacer Level Instrumentation
    • Ultrasonic (Sound) Echo Level Measurement
    • Weight-based Level Measurement
    • Capacitive Level Measurement
    • Radiation Level Measurement
    • Level Sensor Accessories
  • 4Introduction to Continuous Temperature Measurement

    Pages

    • Overview
    • Bi-metal Temperature Sensors
    • Filled-bulb Temperature Sensors
    • Thermistors and Resistance Temperature Detectors (RTDs)
    • Thermocouple Types, Junctions, Connector and Tip Styles
    • Non-contact Temperature Sensors
    • Temperature Sensor Accessories
  • 5Introduction to Continuous Fluid Flow Measurement

    Pages

    • Overview
    • Pressure-based Flowmeters
    • Laminar Flowmeters
    • Variable-area Flowmeters
    • Velocity-based Flowmeters
    • Positive Displacement Flowmeters
    • Standardized Volumetric Flow
    • True Mass Flowmeters
    • Weighfeeders
    • Change-of-quantity Flow Measurement
    • Insertion Flowmeters
  • 6Basic Principles of Control Valves and Actuators

    Pages

    • Overview
    • Sliding-stem Valves
    • Rotary-stem Valves
    • Dampers and Louvres
    • Valve Packing
    • Valve Seat Leakage
    • Control Valve Actuators
    • Valve Failure Modes
    • Actuator Bench-set
    • Pneumatic Actuator Response
    • Valve Positioners
    • Split-range Control
    • Control Valve Sizing
    • Control Valve Characterization
    • Common Control Valve Problems
  • 7Flow Measurements and Reynolds Numbers

    Pages
  • 8How to Disassemble a Sliding-stem Control Valve

    Pages

    • Overview
    • Disassembling a Globe Valve
• Control Systems

  Control Systems

  Learn control system architecture from open loop relay networks and basic PLCs, to advanced feedback for PID process and motion control, and the networks that interconnect modern systems.

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  Chapters

  • 1Digital Data Acquisition and Networks in Control Systems

    Pages

    • Overview
    • Digital Representation of Numerical Data
    • Digital Representation of Text
    • Analog to Digital Conversion and ADCs
    • Analog Signal Conditioning and Referencing
    • Digital Data Communication Theory
    • EIA/TIA-232, 422, and 485 Networks
    • Ethernet networks: Repeaters, Cabling and Switching Hubs
    • What is Internet Protocol (IP)?
    • Transmission Control Protocol (TCP) and User Datagram Protocol (UDP)
    • The HART Digital/Analog Hybrid Standard
    • Introduction to Modbus
  • 2Discrete Control System Elements

    Pages

    • Overview
    • On/off Shut-off Valves
    • Fluid Power Systems
    • Solenoid Valves
    • On/off Electric Motor Control Circuits
  • 3Relay Control Systems

    Pages

    • Overview
    • The Basics of Control Relays
    • Relay Circuits and Ladder Diagrams
    • Interposing Relays in PLCs
  • 4Basics of Programmable Logic Controllers (PLCs)

    Pages

    • Overview
    • Examples of PLC Systems
    • Input/Output (I/O) Capabilities of PLCs
    • Logic Programming in PLCs
    • Memory Maps and I/O Addressing
    • Ladder Diagram (LD) Programming Contacts and Coils
    • Ladder Diagram (LD) Structure Commands
    • Human-Machine Interfaces (HMIs)
    • How to Teach Yourself PLC Programming
  • 5Closed-loop Control Systems

    Pages

    • Overview
    • Basic Feedback Control Principles
    • Diagnosing Feedback Control Problems
    • On/off Control (Bang-bang Control)
    • Proportional-only Control
    • Proportional-only Offset
    • Integral (Reset) Control
    • Derivative (Rate) Control
    • PID Control Terminology
    • P, I, and D Responses Graphed
    • Different PID Equations
    • Pneumatic PID Controllers
    • Analog Electronic PID Controllers
    • Digital PID Controllers
    • Practical PID Controller Features
    • Digital PID Algorithms
  • 6Process Dynamics and PID Controller Tuning

    Pages

    • Overview
    • Self-regulating, Integrating, and Runaway Process Characteristics
    • the Negative Consequences of Poor PID Controller Tuning
    • Quantitative PID Tuning Procedures
    • Heuristic PID Tuning Procedures
    • A Comparison of PID Controller Tuning Techniques
    • Tuning PID Controllers
  • 7Basic Process Control Strategies and Control System Configurations

    Pages

    • Overview
    • Supervisory Control
    • Cascade Control
    • Ratio Control
    • Relation Control
    • Feedforward Control
    • Feedforward with Dynamic Compensation
    • Limit, Selector, and Override Controls
    • Techniques for Analyzing Control Strategies
• Measurement

  Measurement

  Examine the networks that collect critical process data through instrumentation systems and monitor the machines and conditions for safety and effective equipment lifespan, including heat, vibration, and other analyses.

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  Chapters

  • 1Introduction to Industrial Instrumentation

    Pages

    • Overview
    • Boiler Water Level Control System Example
    • Wastewater Disinfection Example
    • Chemical Reactor Temperature Control Example
    • Indicators, Recorders, Process Switches and Alarms
    • Industrial Instrumentation Summary for Teachers
    • Fundamental Principles of Industrial Instrumentation
  • 2Control and Instrumentation Documentation

    Pages

    • Overview
    • Process Flow Diagrams
    • Process and Instrument Diagrams
    • Loop Diagrams (Loop Sheets)
    • Functional Diagrams: the Flow of Information within a Control System
    • Instrument and Process Equipment Symbols
    • Instrument Identification Tags
  • 3Instrument Connection and Communication

    Pages

    • Overview
    • Pipe and Pipe Fittings
    • Tube and Tube Fittings
    • Electrical Signal and Control Wiring
    • Fiber Optic Data Communication
  • 4 Basics of FOUNDATION Fieldbus (FF) Instrumentation

    Pages

    • Overview
    • FOUNDATION Fieldbus Design Philosophy
    • FOUNDATION Fieldbus H1 Protocol Physical Layer
    • FOUNDATION Fieldbus H1 Protocol Data Link Layer
    • FOUNDATION Fieldbus Function Blocks
    • FOUNDATION Fieldbus H1 Protocol Device Configuration and Commissioning
    • FOUNDATION Fieldbus H1 Protocol Segment Troubleshooting
  • 5Wireless Field Instruments and Long-range Wireless Data Links

    Pages

    • Overview
    • Basic Components Common to all Radio Systems
    • WirelessHART Radio Communication Standard
  • 6Basic Principles of Instrument Calibration and Ranging

    Pages

    • Overview
    • Difference Between Calibration and Re-ranging
    • Zero and Span Adjustments (Analog Instruments)
    • Calibration Errors and Testing
    • Transmitter Damping Adjustments
    • LRV and URV Settings, Digital Trim (Digital Transmitters)
    • An Analogy for Calibration Vs Ranging
    • Calibration Procedures in Linear, Non-Linear and Discrete Instruments
    • Instrument Turndown (Rangedown)
    • National Institute of Standards and Technology (NIST) Traceability
    • Calibration Standards to Produce and Measure Physical Quantities
  • 7Industrial Process Safety and Instrumentation

    Pages

    • Overview
    • Classified Areas and Electrical Safety Measures
    • Concepts and Laws of Probability
    • Practical Measures of Reliability
    • High-reliability Control Systems
    • Overpressure Protection Devices
    • Safety Instrumented Functions and Systems
  • 8Introduction to Continuous Analytical Measurement

    Pages

    • Overview
    • Measuring Electrical Conductivity
    • Colorimetric and Potentiometric pH Measurement
    • Chromatography: Methods, Detectors and Species
    • Introduction to Optical Analysis
    • Dispersive Spectroscopy
    • Non-dispersive Luft Detector Spectroscopy
    • Gas Filter Correlation (GFC) Spectroscopy
    • Laser Spectroscopy
    • Fluorescence Measurement
    • Chemiluminescence Measurement
    • Analyzer Sample Systems
    • Safety Gas Analyzers
  • 9Introduction to Machine Vibration Measurement

    Pages

    • Overview
    • Vibration Physics
    • Vibration Sensors
    • Vibration Monitoring Hardware
    • Mechanical Vibration Switches
• Advanced Theory

  Advanced Theory

  Expand learning in critical engineering topics including multivariable calculus, basic physics, chemistry of materials and energy, cyber security, and the various educational principles and concepts to enhance and build problem-solving strategies.

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  Chapters

  • 1Calculus in Industrial Process Measurement and Control

    Pages

    • Overview
    • Introduction to Calculus
    • The Concept of Differentiation
    • The Concept of Integration
    • How Derivatives and Integrals Relate to One Another
    • Symbolic Versus Numerical Calculus
    • Numerical Differentiation
    • Numerical Integration
  • 2Physics in Industrial Instrumentation

    Pages

    • Overview
    • Physics and Chemistry Terminology and Definitions
    • Metric Prefixes and Prefix Scale
    • Understanding Area, Volume and Common Geometry
    • Unit Conversions and Physical Constants
    • Dimensional Analysis
    • The International System of Units
    • Conservation Laws
    • Classical Mechanics
    • What are Simple Machines?
    • Elementary Thermodynamics
    • Fluid Mechanics
  • 3Chemistry in Industrial Instrumentation

    Pages

    • Overview
    • Physics and Chemistry Terminology and Definitions
    • Atomic Theory and Chemical Symbols
    • Periodic Table of the Elements
    • Electronic Structure
    • Applications of Spectroscopy for Analytical Measurement
    • Formulae for Common Chemical Compounds
    • Molecular Quantities
    • Stoichiometry and the Law of Mass Conservation
    • Energy in Chemical Reactions
    • Periodic Table of the Ions
    • Ions in Liquid Solutions
    • Basics of pH Measurement in Industrial Control
  • 4Problem-solving and Diagnostic Strategies in Control System Analysis

    Pages

    • Overview
    • Learn Fundamental Principles, not Procedures
    • Active Reading and Outlining Documentation
    • General Problem-solving Techniques
    • Mathematical Problem-solving Techniques
    • Problem-solving by Simplification
    • Scientific System diagnosis and Scientific Reasoning
    • Common Diagnostic Mistakes in Control Systems
    • Digital Multimeter (DMM) Tips and Tricks
  • 5Cyber-security in Industrial Measurement and Control Systems

    Pages

    • Overview
    • The Stuxnet Virus
    • Motives for Compromising the Security of an Industrial Control System
    • Glossary of Cyber-security Terms
    • Design-based Fortifications
    • Policy-based Fortifications
  • 6More Principles of Industrial Instrumentation (Animated)

    Pages

    • Overview
    • Understanding How Three-phase Electric Motors Work
    • Rotating Magnetic Fields in Three-phase AC Induction Motors
    • Rotating Phasor in Three-dimensional Form
    • Understanding the Calculus Concepts of Differentiation and Integration
    • Radio-energy Pulse in Guided-wave Radar Level Measurement
    • Basic Operation of a Gas Chromatograph
  • 7Educational Concepts and Models for the Field of Instrumentation - Advice for Teachers

    Pages

    • Overview
    • Teaching Technical Theory
    • Teaching Technical Practices (Labwork)
    • Teaching Diagnostic Principles and Practices
    • Practical Topic Coverage
    • Principles, not Procedures
    • Assessing Student Learning
    • Common Educational Fallacies
    • Industrial Instrumentation Summary for Teachers
  • 8Contributors

    Pages

    • Overview
    • References
    • Error Corrections
    • New Content
  • 9Creative Commons Attribution License

    Pages

    • Overview
    • Legal Code

• Advanced Textbooks

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  Fundamentals of Industrial Robots

  Fundamentals of Industrial Robots

  Robots are used in nearly every automated industry and find applications spanning from agricultural to production environments. This textbook provides a fundamental understanding of the various types of industrial, collaborative, and mobile robotics and the key factors of motion and programming that can determine which robot is the proper fit for various applications.

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  Chapters

  • 1Fundamentals of Industrial Robots

    Pages

    • Overview
    • Introduction to Robotics
    • Industrial Robots
    • Collaborative Robots
    • End of Arm Tooling (EoAT)
    • Robot Kinematics
    • Mobile Robots
    • Robot Safety