The Resource Robot building for beginners, David Cook

Robot building for beginners, David Cook

Label
Robot building for beginners
Title
Robot building for beginners
Statement of responsibility
David Cook
Creator
Author
Subject
Genre
Language
eng
Summary
"I wrote this book because I love building robots. I want you to love building robots, too. It took me a while to learn about many of the tools and parts in amateur robotics. Perhaps by writing about my experiences, I can give you a head start."--David Cook Robot Building for Beginners, Third Edition provides basic, practical knowledge on getting started in amateur robotics. There is a mix of content: from serious reference tables and descriptions to personal stories and humorous bits. The robot described and built in this book is battery powered and about the size of a lunch box. It is autonomous; that is, it isn't remote controlled. The book is broken up into small chapters, suitable for bedtime (or bathroom) reading. The characteristics and purposes of each major component (resistor, transistor, wire, and motor) are described, followed by a hands-on experiment to demonstrate. Not only does this help the reader to understand a particular piece, but it also prepares them with processes to learn new parts on their own. An appendix offers an introduction to 3D printing and parts of the robot can, as an alternative, be "printed" using a 3D printer. The master project of the book is a simple, entertaining, line-following robot
Member of
Cataloging source
N$T
http://library.link/vocab/creatorName
Cook, David
Dewey number
629.8/92
Index
index present
LC call number
TJ211.15
Literary form
non fiction
Nature of contents
dictionaries
Series statement
Technology in action
http://library.link/vocab/subjectName
  • Robots
  • Robotics
  • TECHNOLOGY & ENGINEERING
  • Robotics
  • Robots
  • Robots
  • Robotica
  • Computer Science
  • Computer Science, general
  • Computer hardware
Label
Robot building for beginners, David Cook
Link
https://ezproxy.lib.ou.edu/login?url=http://link.springer.com/10.1007/978-1-4842-1359-9
Instantiates
Publication
Distribution
Copyright
Note
Includes index
Antecedent source
unknown
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Body
  • Building Up
  • Taking Small Bites
  • Making Modules
  • Keeping It Fun and Keeping It Light
  • Finding Camaraderie and Support
  • Onward and Upward
  • Ordering Free Information
  • Discovering Hidden Messages
  • Considering Columns
  • Machine generated contents note:
  • Counting Parts
  • Comparing Prices
  • Saving Money
  • Benefiting from Age and Experience
  • Following Instructions
  • Reading Chemical Labels
  • Donning Safety Glasses
  • Hanging Glasses and Placing Them Face Up
  • Wearing Other Safety Clothes
  • Insuring Adequate Ventilation
  • Four Disciplines
  • Storing Properly
  • Talking About Your Activities, Materials, and Tools
  • Washing Before Eating
  • Avoiding Nasty Elements
  • Lead
  • Mercury
  • Cadmium
  • Purchasing Safer Parts Labeled RoHS
  • Shocking
  • AC vs
  • Anatomy of a Homemade Robot
  • Brains
  • Electrical Power
  • Sensors
  • Action and Feedback
  • Miscellaneous Components
  • Staying Rested and Level-Headed
  • Testing an Open Connection
  • Testing a Shorted Connection
  • Testing an Alligator Connection (Shorted)
  • Discovering Unintended Connections
  • Plumbing with Jumpers
  • Limiting Power with Resistors
  • Obtaining a Resistor Variety Pack
  • Understanding Size and Tolerance
  • Cut It Out
  • Obtaining a Wire Cutter Tool
  • Must-Have Features
  • Resistance and Ohms
  • Measuring Resistance
  • Interpreting the Resistance Displayed on the Meter
  • Experiencing Resistance Ranges
  • Looking Up Resistor Values Online
  • Labeling and Storing
  • Obtaining Storage Cases
  • Resisting the Temptation to Skip Ahead
  • Learning About LED Attributes
  • LED Sizes
  • Digital
  • LED Shapes
  • LED Lens Clarities
  • LED Viewing Angles
  • LED Colors
  • LED Brightness
  • LED Efficiency
  • Extreme Close Up of an LED
  • Identifying Multicolor LEDs
  • Bicolor
  • Tricolor or Tri-state
  • Digits
  • Full Color
  • Testing an LED
  • Setting Up a Multimeter for Diode Testing
  • Interpreting LED Test Results
  • Variety Pack
  • Brightening Your Way
  • Introducing the Parts List
  • Testing the Parts Before Assembly
  • Reading a Schematic
  • Building the Power Indicator Circuit
  • DC Voltage
  • Do You See The Light?
  • Experimenting with the Power Indicator Circuit
  • Understanding the Roles of Each Component
  • Measuring the Power Indicator Circuit
  • Measuring In-Circuit Voltage
  • Measuring Current Flow
  • Calculating Battery Life
  • Don't Measure Voltage with Probe in Current Terminal
  • Circuit Summary
  • Needing A Better Way
  • DC Current
  • Solderless Breadboards
  • Connecting with Holes
  • Binding Posts
  • Hungry for Breadboards
  • Solderless Breadboard Wire
  • Choosing Jumper Wire
  • Making Your Own Jumper Wire
  • Stripping the Insulation Off of the End of the Wire
  • Cutting the Wire to Length
  • Bending the End of the Wire
  • Resistance
  • Making The Connection
  • Considering Power Sources
  • Obtaining 9 V Battery Snap Connectors
  • Connecting Power to Binding Posts
  • Choosing a Power Switch
  • Understanding SPDT
  • Adding a Power Switch to the Breadboard
  • Connecting Power Buses
  • Adapting Multimeter Probes Using Jumper Wire
  • Connecting the Lower Bus
  • Probes or Leads
  • Split Down the Middle
  • Installing a Power Indicator LED
  • Checking Voltages at Certain Points
  • Trimming Leads
  • Demystifying the Robot's Power Switch
  • Ready for More
  • Potentiometers
  • Trimpot
  • Turning the Dial
  • Obtaining Assorted Trimpots
  • Overload/Fuse Protection
  • Testing Potentiometers
  • Variable Brightness LED Circuit
  • Building the Variable Brightness LED Circuit
  • Brightness Balancing Circuit
  • Building the Brightness Balanced LEDs Circuit
  • Cadmium-Sulfide Photoresistors
  • Obtaining Assorted Photoresistors
  • Experiencing the Variable Resistance of a Photoresistor
  • Light-Controlled Circuit
  • Balanced Brightness-Sensing Circuit
  • Nice-To-Have Features
  • Part List for Balanced Brightness-Sensing Circuit
  • Brightness-Sensing Pairs
  • Matching Photoresistors
  • Resistance-Balancing Potentiometer
  • Current-Limiting Resistor
  • Test Points
  • Converting Resistance to Voltage with a Voltage Divider
  • Building the Balanced Brightness-Sensing Circuit
  • Inability to Balance the Brightness-Sensing Circuit
  • Voltage Comparator
  • DC
  • Capacitance
  • Examining the LM393
  • Obtaining Comparators
  • Brightness Comparator Circuit
  • Comparing a Schematic with a Wiring Diagram
  • Labeling Parts
  • Drawing Connected and Unconnected Wire
  • Understanding the Brightness Comparator Circuit
  • Parts List for the Brightness Comparator Circuit
  • Building the Brightness Comparator Circuit
  • Adding Headlights
  • Diode
  • Understanding the Headlight Circuit's Two LEDs
  • Building the Headlight Circuit
  • Repeating the Multiple LED Trick
  • Appreciating a Simple Mind
  • Defining Negative Power
  • Focusing on the 2907A Transistor
  • Testing Bipolar Transistors with a Multimeter
  • Testing with a Multimeter that Has a Transistor Socket
  • Testing with a Multimeter that Has a Diode Test
  • Bipolar Transistor Test Circuits
  • Continuity
  • Examining the Schematic for the PNP Transistor Test Circuit
  • Building the PNP Transistor Test Circuit
  • Examining the Schematic for the NPN Transistor Test Circuit
  • Building the NPN Transistor Test Circuit
  • Brightness Comparator Circuit with Transistors
  • Calculating Current-Limiting Transistors
  • Building the Brightness Comparator Circuit with Transistors
  • Summarizing PNP and NPN Transistors
  • How DC Motors Work
  • Looking Inside an Iron-Core Permanent-Magnet DC Brush Motor
  • Frequency
  • Looking Inside an Iron-Core Permanent-Magnet DC Brushless Motor
  • Looking Inside a Coreless Permanent-Magnet DC Brush Motor
  • Simple DC Motor Circuit
  • Selecting a Motor for the Simple DC Motor Circuit
  • Selecting a Battery for the Simple DC Motor Circuit
  • Building the Simple DC Motor Circuit
  • Primary Characteristics of DC Motors
  • Rotational Speed Characteristic of DC Motors
  • Torque Characteristic of DC Motors
  • Voltage Characteristic of DC Motors
  • Duty Cycle
  • Current Characteristic of DC Motors
  • Efficiency Characteristic of DC Motors
  • Audible Noise Characteristic of DC Motors
  • Electrical Noise Characteristic of DC Motors
  • Mass Characteristic of DC Motors
  • Dimension Characteristic of DC Motors
  • Summarizing the Characteristics of DC Motors
  • DC Gearhead Motors
  • Looking Inside a Spur Gearhead Motor
  • Describing Gear Ratios
  • Autoranging
  • Imperfect Speed to Torque Conversion
  • Disadvantages of Gearheads
  • Comparing Planetary Versus Spur Gearhead Motors
  • Choosing a Gearhead Motor
  • Moving Forward
  • Selecting Gearhead Motors
  • Obtaining the Gearhead Motors
  • Inspecting the Gearhead
  • Auto Power Off
  • Transistor
  • Dual Display
  • Maximum
  • Using Rechargeable Batteries and Professional Transformers
  • Minimum
  • Stand
  • Optional Features
  • Inductance
  • Data Interface
  • Scope
  • Backlight
  • Stopwatch/Single Pulse Width
  • Temperature
  • Sound
  • Connecting Through Circuit Breakers and GFCI Outlets
  • Count
  • Bar Graph
  • Data Hold
  • Data Auto
  • High/Low/Logic
  • Memory
  • Relative
  • Offset
  • Limit Testing/Compare
  • Holster or Rubber Boot
  • Saving the Ground Prong
  • AC Features
  • AC Voltage
  • True RMS
  • AC Current
  • Obtaining Hook Probe Adaptors
  • Comparing Actual Multimeters
  • Understanding the Features of a Low-End Multimeter
  • Understanding the Features of a Mid-Range Multimeter
  • Understanding the Features of a Higher-End Multimeter
  • Comparing Prices with Features
  • Disconnecting Power
  • Examining Other Meters
  • Do Not Proceed Without a Meter
  • Choosing the Metric System
  • Reducing Powers of a Thousand
  • M & m
  • Alternative for Greek Micro
  • Abbreviating Units
  • Too Little
  • Guessing Missing Units
  • Expanding from Three Digits
  • Steering Clear of Dangerous Robots
  • Converting Colors to Numbers
  • Determining Component Values with a Multimeter
  • Base Subjects Covered
  • Defining the Course Conditions
  • Surface Materials
  • Course Lighting
  • Defining the Line
  • Curving and Crossing Lines
  • Summarizing Course Conditions
  • Picking the Robot's Size
  • Sizing Up Motors
  • Seeing Sandwich
  • Examining Sandwich
  • Sandwich Body
  • Obtaining a Kit
  • Building Up
  • Testing Battery Voltage
  • Setting Up a Multimeter for Voltage Testing
  • Interpreting Test Results
  • 9 V Battery Characteristics
  • 9 V Battery Recommendations
  • Lighting Up
  • Recommended
  • Not Recommended
  • Battery Brand Names
  • Using 9 V Batteries in Robots
  • Mounting Batteries
  • Powering Forward
  • Gators Are Hungry Tonight
  • Obtaining Hook Clips
  • Testing Jumpers
  • Setting Up a Multimeter for Continuity Testing
  • Tire Shapes
  • Tire Width
  • Tread Designs
  • Tire Diameter
  • Selecting Robot Wheels
  • Wheel Choice for Sandwich
  • Determining Minimum and Maximum Diameter
  • Determining the Maximum Diameter Based on Speed
  • My Choice of Wheels for Sandwich
  • Alternative Choices of Wheels for Sandwich
  • Motor
  • Cleaning Tires
  • Rolling Along
  • Alternatives
  • Making Couplers If You Have Metal-Working Equipment
  • Printing Couplers
  • Tubing
  • Adding Motors to the Brightness Comparator Circuit
  • Introducing the Diode
  • Building the Motors onto the Brightness Comparator Circuit
  • Completing the Electronics
  • Anatomy of a Wheel
  • Characteristics of Robot Wheels
  • Creamy Air Filling
  • LEGO Cross Axles
  • Temperature Sensors
  • Touch Sensors
  • Object Detection and Infrared Remote Control
  • Distance and Object Sensor
  • Oscillators and Crystals
  • Sound
  • Relays
  • Adding Gears
  • Servos
  • Encoders[--]Determining Wheel Speed
  • Selecting a LEGO Cross Axle Length
  • Displays
  • Wireless Data and Control
  • Everyday Challenges
  • Houseplant-Watering Robot
  • Compost Cart
  • Trash Emptier
  • Window Washer
  • Roof Rat
  • Micro Snowplow
  • Slug Squisher
  • Obtaining LEGO Cross Axles
  • Automatic Street mailbox
  • Contests
  • Worldwide Robot Sumo
  • Trinity College Fire-Fighting
  • Atlanta Robot Vacuuming
  • Seattle Robotics Society Robothon
  • Dallas Personal Robotics Group Roborama
  • Central Illinois Robotics Club
  • Chicago Area Robotics Group (Chibots)
  • Great Wide Open
  • Gluing the Coupler Together
  • Magical Ohm's Law
  • Ohm's Law is Helpful in Selecting a Current-Limiting Resistor
  • Help in Determining Current from a Voltage
  • Key Point of Ohm's Law
  • Larger Implication of Ohm's Law
  • Things I've Accidentally Destroyed While Writing This Book
  • Which Way Does a 9 V Battery Get Installed?
  • Melting Switches
  • Popping Multimeter Fuses
  • Fool Me, Twice
  • Coming Unglued
  • Voltage's Real Name
  • Ground, Not Negative Voltage
  • V Double Letter
  • Getting Into 3D Printing
  • Leaping Not Very Far
  • Rapidly Improving
  • Printing the Motor Coupler
  • Designing the Model
  • Preparing to Print
  • Printing in 3D
  • Using Epoxy
  • Finishing the Coupler
  • Printing a 3D Wheel
  • Treading Lightly
  • Compromising with a Hybrid Wheel
  • Designing a Robot Body
  • Cover
  • Trying It Yourself
  • Adding a Setscrew to the Coupler
  • Marking a Hole for the Setscrew
  • Drill Press
  • Drill-Press Vise
  • Note continued:
  • Drilling the Hole for the Setscrew
  • Tapping the Hole for the Setscrew
  • Inserting the Setscrew
  • Admiring the Coupler
  • Solder Wire
  • Flux
  • Soldering Iron
  • Soldering Stand
  • Soldering Sponge
  • Helping-Hand Tool
  • Choosing Between Brass and Aluminum Tubing
  • Desoldering Vacuum Tools
  • Steps of a Typical Soldering Session
  • Get Ready to Solder
  • Putting Together the Motors and Switches
  • Putting Together the Motors
  • Putting Together the Line-Following Switch
  • Putting Together the Tube LED Circuit
  • Finishing Up
  • Soldering Experience
  • Line-Following Circuit
  • Specifying and Obtaining Tubing Sizes
  • Tweaking For Better Performance
  • Point-to-Point Soldering Versus a Printed Circuit Board
  • Point-to-Point Soldering the Line-Following Circuit
  • Testing the Robot's Electronics
  • Dangers of a Low-Resistance Circuit
  • Checking for Unsoldered Leads
  • Checking All Leads that Connect Directly to Positive Voltage
  • Measuring the Resistance of the Entire Circuit
  • Measuring the Voltage Drop
  • Reheating Solder Joints
  • Measuring and Cutting the Tubing
  • Holding Your Breath
  • Approaching Robot Bodies
  • Ethereal Drafting[--]Thinking About the Robot
  • Vision Revision[--]Accepting Constraints Based on Available Parts
  • Designing Custom Bodies
  • Printing in 3D
  • Embracing Prefabricated Platforms
  • Transforming the Sandwich Container
  • Creating Motor Holes
  • Mounting the Motors
  • Determining and Marking Tube Lengths
  • Creating the Motor Tube
  • Installing the Motors and Tube
  • Adding the Switches and Battery Holder
  • Adding the Circuit Board
  • Drilling Holes for the Trimpots
  • Carving Out a Window in the Container Lid
  • Finishing Touches
  • Ready to Roll
  • Correcting and Tweaking
  • Preliminary Examination
  • Cutting Tubing
  • Trial Run: Following a Straight Line
  • Correcting Common Problems
  • Does This Look Straight to You?
  • Maiden Voyage
  • Solving Steering Problems
  • Potential Improvements Line-following robot:
  • Protecting Against a Reversed Battery
  • Eliminating Surges with Capacitors
  • Improving Line-Following
  • Final Bow
  • Finishing the Cut by Sanding
  • Playing with Sensor Circuitry
  • Lowering Light Sensor Resistance
  • Driving Straight
  • Revising or Leaping?
  • Reducing Cost and Improving Capabilities
  • Shrinking Packages
  • Increasing Functionality
  • Shrinking Costs
  • Ever Changing
  • Robot Components
  • Testing the Cut Pieces
  • Logic Chips
  • Microcontrollers
  • Voltage Regulators
  • Capacitors
  • Solar Power
  • Resistor Networks
  • Pushbuttons
  • DIP Switches
  • Jumpers and Shorting Blocks
  • Tilt Sensor
Dimensions
unknown
Edition
Third edition.
Extent
1 online resource.
File format
unknown
Form of item
online
Isbn
9781484213599
Level of compression
unknown
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
Note
SpringerLink
Other control number
10.1007/978-1-4842-1359-9
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
  • (OCoLC)920465969
  • (OCoLC)ocn920465969
Label
Robot building for beginners, David Cook
Link
https://ezproxy.lib.ou.edu/login?url=http://link.springer.com/10.1007/978-1-4842-1359-9
Publication
Distribution
Copyright
Note
Includes index
Antecedent source
unknown
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Body
  • Building Up
  • Taking Small Bites
  • Making Modules
  • Keeping It Fun and Keeping It Light
  • Finding Camaraderie and Support
  • Onward and Upward
  • Ordering Free Information
  • Discovering Hidden Messages
  • Considering Columns
  • Machine generated contents note:
  • Counting Parts
  • Comparing Prices
  • Saving Money
  • Benefiting from Age and Experience
  • Following Instructions
  • Reading Chemical Labels
  • Donning Safety Glasses
  • Hanging Glasses and Placing Them Face Up
  • Wearing Other Safety Clothes
  • Insuring Adequate Ventilation
  • Four Disciplines
  • Storing Properly
  • Talking About Your Activities, Materials, and Tools
  • Washing Before Eating
  • Avoiding Nasty Elements
  • Lead
  • Mercury
  • Cadmium
  • Purchasing Safer Parts Labeled RoHS
  • Shocking
  • AC vs
  • Anatomy of a Homemade Robot
  • Brains
  • Electrical Power
  • Sensors
  • Action and Feedback
  • Miscellaneous Components
  • Staying Rested and Level-Headed
  • Testing an Open Connection
  • Testing a Shorted Connection
  • Testing an Alligator Connection (Shorted)
  • Discovering Unintended Connections
  • Plumbing with Jumpers
  • Limiting Power with Resistors
  • Obtaining a Resistor Variety Pack
  • Understanding Size and Tolerance
  • Cut It Out
  • Obtaining a Wire Cutter Tool
  • Must-Have Features
  • Resistance and Ohms
  • Measuring Resistance
  • Interpreting the Resistance Displayed on the Meter
  • Experiencing Resistance Ranges
  • Looking Up Resistor Values Online
  • Labeling and Storing
  • Obtaining Storage Cases
  • Resisting the Temptation to Skip Ahead
  • Learning About LED Attributes
  • LED Sizes
  • Digital
  • LED Shapes
  • LED Lens Clarities
  • LED Viewing Angles
  • LED Colors
  • LED Brightness
  • LED Efficiency
  • Extreme Close Up of an LED
  • Identifying Multicolor LEDs
  • Bicolor
  • Tricolor or Tri-state
  • Digits
  • Full Color
  • Testing an LED
  • Setting Up a Multimeter for Diode Testing
  • Interpreting LED Test Results
  • Variety Pack
  • Brightening Your Way
  • Introducing the Parts List
  • Testing the Parts Before Assembly
  • Reading a Schematic
  • Building the Power Indicator Circuit
  • DC Voltage
  • Do You See The Light?
  • Experimenting with the Power Indicator Circuit
  • Understanding the Roles of Each Component
  • Measuring the Power Indicator Circuit
  • Measuring In-Circuit Voltage
  • Measuring Current Flow
  • Calculating Battery Life
  • Don't Measure Voltage with Probe in Current Terminal
  • Circuit Summary
  • Needing A Better Way
  • DC Current
  • Solderless Breadboards
  • Connecting with Holes
  • Binding Posts
  • Hungry for Breadboards
  • Solderless Breadboard Wire
  • Choosing Jumper Wire
  • Making Your Own Jumper Wire
  • Stripping the Insulation Off of the End of the Wire
  • Cutting the Wire to Length
  • Bending the End of the Wire
  • Resistance
  • Making The Connection
  • Considering Power Sources
  • Obtaining 9 V Battery Snap Connectors
  • Connecting Power to Binding Posts
  • Choosing a Power Switch
  • Understanding SPDT
  • Adding a Power Switch to the Breadboard
  • Connecting Power Buses
  • Adapting Multimeter Probes Using Jumper Wire
  • Connecting the Lower Bus
  • Probes or Leads
  • Split Down the Middle
  • Installing a Power Indicator LED
  • Checking Voltages at Certain Points
  • Trimming Leads
  • Demystifying the Robot's Power Switch
  • Ready for More
  • Potentiometers
  • Trimpot
  • Turning the Dial
  • Obtaining Assorted Trimpots
  • Overload/Fuse Protection
  • Testing Potentiometers
  • Variable Brightness LED Circuit
  • Building the Variable Brightness LED Circuit
  • Brightness Balancing Circuit
  • Building the Brightness Balanced LEDs Circuit
  • Cadmium-Sulfide Photoresistors
  • Obtaining Assorted Photoresistors
  • Experiencing the Variable Resistance of a Photoresistor
  • Light-Controlled Circuit
  • Balanced Brightness-Sensing Circuit
  • Nice-To-Have Features
  • Part List for Balanced Brightness-Sensing Circuit
  • Brightness-Sensing Pairs
  • Matching Photoresistors
  • Resistance-Balancing Potentiometer
  • Current-Limiting Resistor
  • Test Points
  • Converting Resistance to Voltage with a Voltage Divider
  • Building the Balanced Brightness-Sensing Circuit
  • Inability to Balance the Brightness-Sensing Circuit
  • Voltage Comparator
  • DC
  • Capacitance
  • Examining the LM393
  • Obtaining Comparators
  • Brightness Comparator Circuit
  • Comparing a Schematic with a Wiring Diagram
  • Labeling Parts
  • Drawing Connected and Unconnected Wire
  • Understanding the Brightness Comparator Circuit
  • Parts List for the Brightness Comparator Circuit
  • Building the Brightness Comparator Circuit
  • Adding Headlights
  • Diode
  • Understanding the Headlight Circuit's Two LEDs
  • Building the Headlight Circuit
  • Repeating the Multiple LED Trick
  • Appreciating a Simple Mind
  • Defining Negative Power
  • Focusing on the 2907A Transistor
  • Testing Bipolar Transistors with a Multimeter
  • Testing with a Multimeter that Has a Transistor Socket
  • Testing with a Multimeter that Has a Diode Test
  • Bipolar Transistor Test Circuits
  • Continuity
  • Examining the Schematic for the PNP Transistor Test Circuit
  • Building the PNP Transistor Test Circuit
  • Examining the Schematic for the NPN Transistor Test Circuit
  • Building the NPN Transistor Test Circuit
  • Brightness Comparator Circuit with Transistors
  • Calculating Current-Limiting Transistors
  • Building the Brightness Comparator Circuit with Transistors
  • Summarizing PNP and NPN Transistors
  • How DC Motors Work
  • Looking Inside an Iron-Core Permanent-Magnet DC Brush Motor
  • Frequency
  • Looking Inside an Iron-Core Permanent-Magnet DC Brushless Motor
  • Looking Inside a Coreless Permanent-Magnet DC Brush Motor
  • Simple DC Motor Circuit
  • Selecting a Motor for the Simple DC Motor Circuit
  • Selecting a Battery for the Simple DC Motor Circuit
  • Building the Simple DC Motor Circuit
  • Primary Characteristics of DC Motors
  • Rotational Speed Characteristic of DC Motors
  • Torque Characteristic of DC Motors
  • Voltage Characteristic of DC Motors
  • Duty Cycle
  • Current Characteristic of DC Motors
  • Efficiency Characteristic of DC Motors
  • Audible Noise Characteristic of DC Motors
  • Electrical Noise Characteristic of DC Motors
  • Mass Characteristic of DC Motors
  • Dimension Characteristic of DC Motors
  • Summarizing the Characteristics of DC Motors
  • DC Gearhead Motors
  • Looking Inside a Spur Gearhead Motor
  • Describing Gear Ratios
  • Autoranging
  • Imperfect Speed to Torque Conversion
  • Disadvantages of Gearheads
  • Comparing Planetary Versus Spur Gearhead Motors
  • Choosing a Gearhead Motor
  • Moving Forward
  • Selecting Gearhead Motors
  • Obtaining the Gearhead Motors
  • Inspecting the Gearhead
  • Auto Power Off
  • Transistor
  • Dual Display
  • Maximum
  • Using Rechargeable Batteries and Professional Transformers
  • Minimum
  • Stand
  • Optional Features
  • Inductance
  • Data Interface
  • Scope
  • Backlight
  • Stopwatch/Single Pulse Width
  • Temperature
  • Sound
  • Connecting Through Circuit Breakers and GFCI Outlets
  • Count
  • Bar Graph
  • Data Hold
  • Data Auto
  • High/Low/Logic
  • Memory
  • Relative
  • Offset
  • Limit Testing/Compare
  • Holster or Rubber Boot
  • Saving the Ground Prong
  • AC Features
  • AC Voltage
  • True RMS
  • AC Current
  • Obtaining Hook Probe Adaptors
  • Comparing Actual Multimeters
  • Understanding the Features of a Low-End Multimeter
  • Understanding the Features of a Mid-Range Multimeter
  • Understanding the Features of a Higher-End Multimeter
  • Comparing Prices with Features
  • Disconnecting Power
  • Examining Other Meters
  • Do Not Proceed Without a Meter
  • Choosing the Metric System
  • Reducing Powers of a Thousand
  • M & m
  • Alternative for Greek Micro
  • Abbreviating Units
  • Too Little
  • Guessing Missing Units
  • Expanding from Three Digits
  • Steering Clear of Dangerous Robots
  • Converting Colors to Numbers
  • Determining Component Values with a Multimeter
  • Base Subjects Covered
  • Defining the Course Conditions
  • Surface Materials
  • Course Lighting
  • Defining the Line
  • Curving and Crossing Lines
  • Summarizing Course Conditions
  • Picking the Robot's Size
  • Sizing Up Motors
  • Seeing Sandwich
  • Examining Sandwich
  • Sandwich Body
  • Obtaining a Kit
  • Building Up
  • Testing Battery Voltage
  • Setting Up a Multimeter for Voltage Testing
  • Interpreting Test Results
  • 9 V Battery Characteristics
  • 9 V Battery Recommendations
  • Lighting Up
  • Recommended
  • Not Recommended
  • Battery Brand Names
  • Using 9 V Batteries in Robots
  • Mounting Batteries
  • Powering Forward
  • Gators Are Hungry Tonight
  • Obtaining Hook Clips
  • Testing Jumpers
  • Setting Up a Multimeter for Continuity Testing
  • Tire Shapes
  • Tire Width
  • Tread Designs
  • Tire Diameter
  • Selecting Robot Wheels
  • Wheel Choice for Sandwich
  • Determining Minimum and Maximum Diameter
  • Determining the Maximum Diameter Based on Speed
  • My Choice of Wheels for Sandwich
  • Alternative Choices of Wheels for Sandwich
  • Motor
  • Cleaning Tires
  • Rolling Along
  • Alternatives
  • Making Couplers If You Have Metal-Working Equipment
  • Printing Couplers
  • Tubing
  • Adding Motors to the Brightness Comparator Circuit
  • Introducing the Diode
  • Building the Motors onto the Brightness Comparator Circuit
  • Completing the Electronics
  • Anatomy of a Wheel
  • Characteristics of Robot Wheels
  • Creamy Air Filling
  • LEGO Cross Axles
  • Temperature Sensors
  • Touch Sensors
  • Object Detection and Infrared Remote Control
  • Distance and Object Sensor
  • Oscillators and Crystals
  • Sound
  • Relays
  • Adding Gears
  • Servos
  • Encoders[--]Determining Wheel Speed
  • Selecting a LEGO Cross Axle Length
  • Displays
  • Wireless Data and Control
  • Everyday Challenges
  • Houseplant-Watering Robot
  • Compost Cart
  • Trash Emptier
  • Window Washer
  • Roof Rat
  • Micro Snowplow
  • Slug Squisher
  • Obtaining LEGO Cross Axles
  • Automatic Street mailbox
  • Contests
  • Worldwide Robot Sumo
  • Trinity College Fire-Fighting
  • Atlanta Robot Vacuuming
  • Seattle Robotics Society Robothon
  • Dallas Personal Robotics Group Roborama
  • Central Illinois Robotics Club
  • Chicago Area Robotics Group (Chibots)
  • Great Wide Open
  • Gluing the Coupler Together
  • Magical Ohm's Law
  • Ohm's Law is Helpful in Selecting a Current-Limiting Resistor
  • Help in Determining Current from a Voltage
  • Key Point of Ohm's Law
  • Larger Implication of Ohm's Law
  • Things I've Accidentally Destroyed While Writing This Book
  • Which Way Does a 9 V Battery Get Installed?
  • Melting Switches
  • Popping Multimeter Fuses
  • Fool Me, Twice
  • Coming Unglued
  • Voltage's Real Name
  • Ground, Not Negative Voltage
  • V Double Letter
  • Getting Into 3D Printing
  • Leaping Not Very Far
  • Rapidly Improving
  • Printing the Motor Coupler
  • Designing the Model
  • Preparing to Print
  • Printing in 3D
  • Using Epoxy
  • Finishing the Coupler
  • Printing a 3D Wheel
  • Treading Lightly
  • Compromising with a Hybrid Wheel
  • Designing a Robot Body
  • Cover
  • Trying It Yourself
  • Adding a Setscrew to the Coupler
  • Marking a Hole for the Setscrew
  • Drill Press
  • Drill-Press Vise
  • Note continued:
  • Drilling the Hole for the Setscrew
  • Tapping the Hole for the Setscrew
  • Inserting the Setscrew
  • Admiring the Coupler
  • Solder Wire
  • Flux
  • Soldering Iron
  • Soldering Stand
  • Soldering Sponge
  • Helping-Hand Tool
  • Choosing Between Brass and Aluminum Tubing
  • Desoldering Vacuum Tools
  • Steps of a Typical Soldering Session
  • Get Ready to Solder
  • Putting Together the Motors and Switches
  • Putting Together the Motors
  • Putting Together the Line-Following Switch
  • Putting Together the Tube LED Circuit
  • Finishing Up
  • Soldering Experience
  • Line-Following Circuit
  • Specifying and Obtaining Tubing Sizes
  • Tweaking For Better Performance
  • Point-to-Point Soldering Versus a Printed Circuit Board
  • Point-to-Point Soldering the Line-Following Circuit
  • Testing the Robot's Electronics
  • Dangers of a Low-Resistance Circuit
  • Checking for Unsoldered Leads
  • Checking All Leads that Connect Directly to Positive Voltage
  • Measuring the Resistance of the Entire Circuit
  • Measuring the Voltage Drop
  • Reheating Solder Joints
  • Measuring and Cutting the Tubing
  • Holding Your Breath
  • Approaching Robot Bodies
  • Ethereal Drafting[--]Thinking About the Robot
  • Vision Revision[--]Accepting Constraints Based on Available Parts
  • Designing Custom Bodies
  • Printing in 3D
  • Embracing Prefabricated Platforms
  • Transforming the Sandwich Container
  • Creating Motor Holes
  • Mounting the Motors
  • Determining and Marking Tube Lengths
  • Creating the Motor Tube
  • Installing the Motors and Tube
  • Adding the Switches and Battery Holder
  • Adding the Circuit Board
  • Drilling Holes for the Trimpots
  • Carving Out a Window in the Container Lid
  • Finishing Touches
  • Ready to Roll
  • Correcting and Tweaking
  • Preliminary Examination
  • Cutting Tubing
  • Trial Run: Following a Straight Line
  • Correcting Common Problems
  • Does This Look Straight to You?
  • Maiden Voyage
  • Solving Steering Problems
  • Potential Improvements Line-following robot:
  • Protecting Against a Reversed Battery
  • Eliminating Surges with Capacitors
  • Improving Line-Following
  • Final Bow
  • Finishing the Cut by Sanding
  • Playing with Sensor Circuitry
  • Lowering Light Sensor Resistance
  • Driving Straight
  • Revising or Leaping?
  • Reducing Cost and Improving Capabilities
  • Shrinking Packages
  • Increasing Functionality
  • Shrinking Costs
  • Ever Changing
  • Robot Components
  • Testing the Cut Pieces
  • Logic Chips
  • Microcontrollers
  • Voltage Regulators
  • Capacitors
  • Solar Power
  • Resistor Networks
  • Pushbuttons
  • DIP Switches
  • Jumpers and Shorting Blocks
  • Tilt Sensor
Dimensions
unknown
Edition
Third edition.
Extent
1 online resource.
File format
unknown
Form of item
online
Isbn
9781484213599
Level of compression
unknown
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
Note
SpringerLink
Other control number
10.1007/978-1-4842-1359-9
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
  • (OCoLC)920465969
  • (OCoLC)ocn920465969

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