TY - BOOK AU - Monk, Simon AU - Amos, Duncan TI - Make your own PCBs with Eagle from schematic designs to finish boards SN - 978-1-260-01919-3 AV - TK 7868 M66 2017 PY - 2017/// CY - New York : PB - McGraw-Hill Education, KW - PRINTED CIRCUITS -- COMPUTER-AIDED DESIGN. KW - PRINTED CIRCUITS -- COMPUTER PROGRAMS N1 - Includes appendix and index; Cover Title Page Copyright Page Contents About the Second Edition Acknowledgments 1 Introduction Printed Circuit Boards Surface Mount and Through Hole Prototyping Installing EAGLE Express Edition (Formerly Light Edition) First Run Load an Example Project Install Third-Party Software Express Edition Limitations Summary 2 Quickstart Creating a New Project Drawing the Schematic Electrical Rule Check Laying Out the Board Summary 3 Components and Libraries U.S. Versus European Circuit Symbols Resistors Capacitors Transistors and Diodes Integrated Circuits Connectors Other Components Buying Components Paper PCB Summary 4 Editing Schematics The Anatomy of the Schematic Editor The Command Toolbar Nets Buses Worked Example Summary 5 Laying Out a Printed Circuit Board Experimenting Layers The Command Toolbar The Grid Sound Meter Layout (Through-Hole) Sound Meter Layout (Surface-Mount) Manual Layout Summary 6 Printed Circuit Board Fabrication Gerber Files Loading a CAM Job Running a CAM Job Measure Twice, Cut Once Submitting a Job to a PCB Service Follow the Instructions Photoetching Milling PCBs Toner Transfer Summary 7 Soldering Tools Soldering Through-Hole PCBs SMD Hand Soldering SMT with Hot-Air Gun Using a Reflow Oven Summary 8 Example: An Arduino Shield Introducing Arduino Shield Design Arduino R3 Shield Template A Four-Digit LED Example Fabrication Summary 9 A Raspberry Pi Expansion Board Design Considerations The Schematic The Board Summary 10 Commands, Scripts, and User-Language Programs Commands Scripts User-Language Programs Summary 11 Creating Libraries and Parts Creating a Library Copying a Device from Another Library The Part Editor Devices, Symbols, and Packages Editing a Part Creating a New Part Summary 12 Tips for Better PCBs Working Motto Know What You Want Before You Start Stay Practical Get to Know Layers Aesthetics Conventions Mountings Angles Junctions Changing Direction Relocating Components Necking Design Rule Checker Metric Versus Imperial Consider Using 0-O Resistors Remember, Not Every Board Works the First Time Summary 13 Shaping Up Your PCBs Not All Boards Are Square or Rectangular Internal Slots and Millings True Double-Sided Boards Two-Part Boards (Pseudo-Panelization) Summary 14 Advanced PCB Features More than Just Ground Planes Mixed Grids Custom Graphics Automated Component Positioning Boards as Modules Summary 15 Getting the Best from Your Suppliers Weight of Copper Board Thickness Board Material Surface Finishes Board, Solder Resist, and Silkscreen Color Additional Services The "Info" File Summary A Resources Official Documentation Forums Tutorials Sources of Library Parts B EAGLE Layers Layers Commonly Used in the Layout Editor Layers Commonly Used in the Schematic Editor C User-Language Program Reference Data Types Strings Arrays Logical and Bitwise Operators Control Structures Special Constants Dialog Functions Other Built-in Functions D Track Width Versus Current Chart N2 - Fully updated coverage of PCB design and construction with EAGLE This thoroughly revised, easy-to-follow guide shows, step-by-step, how to create your own professional-quality PCBs using the latest versions of EAGLE. Make Your Own PCBs with EAGLE: From Schematic Designs to Finished Boards, Second Edition, guides you through the process of developing a schematic, transforming it into a PCB layout, and submitting Gerber files to a manufacturing service to fabricate your finished board. Four brand-new chapters contain advanced techniques, tips, and features. Downloadable DIY projects include a sound level meter, Arduino shield, Raspberry Pi expansion board, and more! Install and configure EAGLE--including EAGLE v7.7.0 Explore EAGLE's screens and create schematic and board files Select the right components and launch your own projects Create scripts and User Language Programs that automate repetitive tasks Build your own libraries and parts and modify existing components Generate Gerber design files to submit for fabrication Solder through-hole PCBs and SMD boards Learn how to streamline your design thinking and workflow Design non-rectangular and custom-shaped boards Learn advanced techniques and take your boards to the next level ER -