Make Your Own PCBs with EAGLE: From Schematic Designs to Finished Boards

Author: Simon Monk,Duncan Amos

Publisher: McGraw-Hill Education TAB

ISBN: 9781260019193

Category: Technology & Engineering

Page: 352

View: 987

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Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. 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

Make Your Own PCBs with EAGLE: From Schematic Designs to Finished Boards

Author: Simon Monk,Duncan Amos

Publisher: McGraw Hill Professional

ISBN: 1260019209

Category: Science

Page: 352

View: 5526

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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

Make Your Own PCBs with EAGLE: From Schematic Designs to Finished Boards

Author: Simon Monk

Publisher: McGraw Hill Professional

ISBN: 0071819266

Category: Technology & Engineering

Page: 304

View: 8025

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Design custom printed circuit boards with EAGLE Learn how to make double-sided professional-quality PCBs from the ground up using EAGLE--the powerful, flexible design software. In this step-by-step guide, electronics guru Simon Monk leads you through the process of designing a schematic, transforming it into a PCB layout, and submitting standard Gerber files to a manufacturing service to create your finished board. Filled with detailed illustrations, photos, and screenshots, Make Your Own PCBs with EAGLE features downloadable example projects so you can get started right away. Install EAGLE Light Edition and discover the views and screens that make up an EAGLE project Create the schematic and board files for a simple LED project Find the right components and libraries for your projects Work with the Schematic Editor Lay out PCBs with through-hole components and with surface mount technology Build a sound level meter with a small amplifier and ten LEDs Generate Gerber design files to submit for fabrication Solder through-hole PCBs and SMD boards Design a plug-in Arduino shield Build a Raspberry Pi expansion board Automate repetitive tasks using scripts and User Language Programs Create your own libraries and parts and modify existing components

Build Your Own Printed Circuit Board

Author: Al Williams

Publisher: McGraw Hill Professional

ISBN: 007142783X

Category: Technology & Engineering

Page: 206

View: 7241

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Printed circuit boards are at the heart of just about every electronic device made today – PCs, cell phones, MP3 players, PDAs, telephones, stereos, TVs, remote controls, cameras, your car, and even small appliances. The reason these items have come down in price over the years is because of printed circuit boards. Whereas before you had to pay someone to physically connect (and repair!) wires for each component (a time-consuming and thus expensive prospect), now an error-proof, custom “PCB†is installed instead. Hobbyists and designers can now start their projects with a printed circuit board, rather than using it as a last step (and contracting it out to someone else, as was previously the norm). It not only makes a more professional-looking prototype, but also makes it easy to mass-produce. And the techniques are the same for the hobbyist working on a single project.This will be by far the most modern book on the market, with the latest and greatest techniques for producing intricate PCB’s at a fraction of the cost of sending them out.

Designing Circuit Boards with EAGLE

Make High-Quality PCBs at Low Cost

Author: Matthew Scarpino

Publisher: Prentice Hall

ISBN: 0133820017

Category: Technology & Engineering

Page: 408

View: 4402

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"Matt Scarpino has provided a great tool for the hobbyist starting out in the circuit board design world, demonstrating all the features you’ll need to create your own circuit board projects. However, the experienced engineer will also benefit from the book, as it serves as a complete reference guide to all EAGLE software configuration settings and features. His insightful guidance helps simplify difficult tasks, and his handy tips will help save you hours of trial-and-error experimentation." --Rich Blum, author, Sams Teach Yourself Arduino Programming in 24 Hours and Sams Teach Yourself Python Programming for Raspberry Pi in 24 Hours Powerful, flexible, and inexpensive, EAGLE is the ideal PCB design solution for every Maker/DIYer, startup, hobbyist, or student. Today, all open source Arduino designs are released in EAGLE format: If you want to design cost-effective new PCBs, this is the tool to learn. Matthew Scarpino helps you take full advantage of EAGLE’s remarkable capabilities. You won’t find any differential equations here: only basic circuit theory and hands-on techniques for designing effective PCBs and getting innovative new gadgets to market. Scarpino starts with an accessible introduction to the fundamentals of PCB design. Next, he walks through the design of basic, intermediate, and complex circuit boards, starting with a simple inverting amplifier and culminating in a six-layer single-board computer with hundreds of components and thousands of routed connections. As the circuits grow more complex, you’ll master advanced EAGLE features and discover how to automate crucial design-related tasks. Whatever your previous experience, Scarpino’s start-to-finish examples and practical insight can help you create designs of stunning power and efficiency. Understand single-sided, double-sided, and multilayer boards Design practical circuits with the schematic editor Transform schematics into physical board designs Convert board designs into Gerber output files for fabrication Expand EAGLE’s capabilities with new libraries and components Exchange designs with LTspice and simulate their responses to input Automate simple repetitive operations with editor commands Streamline circuit design and library generation with User Language programs (ULPs) Design for the advanced BeagleBone Black, with high-speed BGA devices and a 32-bit system on a chip (SoC) Use buses to draw complex connections between components Configure stackups, create/route BGA components, and route high-speed signals eagle-book.com provides an archive containing the design files for the book’s circuits. It also includes EAGLE libraries, scripts, and User Language programs (ULPs).

Complete PCB Design Using OrCad Capture and Layout

Author: Kraig Mitzner

Publisher: Elsevier

ISBN: 9780080549200

Category: Technology & Engineering

Page: 528

View: 2061

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Complete PCB Design Using OrCad Capture and Layout provides instruction on how to use the OrCAD design suite to design and manufacture printed circuit boards. The book is written for both students and practicing engineers who need a quick tutorial on how to use the software and who need in-depth knowledge of the capabilities and limitations of the software package. There are two goals the book aims to reach: The primary goal is to show the reader how to design a PCB using OrCAD Capture and OrCAD Layout. Capture is used to build the schematic diagram of the circuit, and Layout is used to design the circuit board so that it can be manufactured. The secondary goal is to show the reader how to add PSpice simulation capabilities to the design, and how to develop custom schematic parts, footprints and PSpice models. Often times separate designs are produced for documentation, simulation and board fabrication. This book shows how to perform all three functions from the same schematic design. This approach saves time and money and ensures continuity between the design and the manufactured product. Information is presented in the exact order a circuit and PCB are designed Straightforward, realistic examples present the how and why the designs work, providing a comprehensive toolset for understanding the OrCAD software Introduction to the IPC, JEDEC, and IEEE standards relating to PCB design Full-color interior and extensive illustrations allow readers to learn features of the product in the most realistic manner possible

Complete PCB Design Using OrCAD Capture and PCB Editor

Author: Kraig Mitzner

Publisher: Newnes

ISBN: 9780080943541

Category: Technology & Engineering

Page: 488

View: 5296

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This book provides instruction on how to use the OrCAD design suite to design and manufacture printed circuit boards. The primary goal is to show the reader how to design a PCB using OrCAD Capture and OrCAD Editor. Capture is used to build the schematic diagram of the circuit, and Editor is used to design the circuit board so that it can be manufactured. The book is written for both students and practicing engineers who need in-depth instruction on how to use the software, and who need background knowledge of the PCB design process. Beginning to end coverage of the printed circuit board design process. Information is presented in the exact order a circuit and PCB are designed Over 400 full color illustrations, including extensive use of screen shots from the software, allow readers to learn features of the product in the most realistic manner possible Straightforward, realistic examples present the how and why the designs work, providing a comprehensive toolset for understanding the OrCAD software Introduces and follows IEEE, IPC, and JEDEC industry standards for PCB design. Unique chapter on Design for Manufacture covers padstack and footprint design, and component placement, for the design of manufacturable PCB's FREE CD containing the OrCAD demo version and design files

The Circuit Designer’s Companion

Author: Tim Williams

Publisher: Elsevier

ISBN: 1483102505

Category: Technology & Engineering

Page: 310

View: 5496

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The Circuit Designer’s Companion covers the theoretical aspects and practices in analogue and digital circuit design. Electronic circuit design involves designing a circuit that will fulfill its specified function and designing the same circuit so that every production model of it will fulfill its specified function, and no other undesired and unspecified function. This book is composed of nine chapters and starts with a review of the concept of grounding, wiring, and printed circuits. The subsequent chapters deal with the passive and active components of circuitry design. These topics are followed by discussions of the principles of other design components, including linear integrated circuits, digital circuits, and power supplies. The remaining chapters consider the vital role of electromagnetic compatibility in circuit design. These chapters also look into safety, design of production, testability, reliability, and thermal management of the designed circuit. This book is of great value to electrical and design engineers.

Fritzing for Inventors: Take Your Electronics Project from Prototype to Product

Author: Simon Monk

Publisher: McGraw-Hill Education TAB

ISBN: 9780071844635

Category: Technology & Engineering

Page: 240

View: 7101

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In this TAB book, bestselling electronics author Simon Monk shows maker-entrepreneurs how to use Fritzing’s open-source software and services to create electronics prototypes, design and manufacture printed circuit boards (PCBs), and bring professional-quality electronic products to market. Fritzing for Inventors: Take Your Electronics Project from Prototype to Product explains how to use this set of free, open-source electronics prototyping tools to lay out breadboards, create schematics, and design professional-quality printed circuit boards (PCBs). No engineering skills needed! Whether you’re a hobbyist, artist, inventor, or student, you’ll be able to develop a product from schematic to prototype to professional-quality printed circuit board, all from one easy-to-use software package. Fritzing works well with prototyping boards such as Arduino, Raspberry Pi, and BeagleBone. This DIY guide covers the whole lifecycle of product development for a hobbyist entrepreneur. It takes you from initial concept, to prototyping, to PCB production, to distribution. Along the way, it examines the sourcing of components, product testing, and even how to price products for wholesale and retail. Simon Monk is a bestselling TAB electronics author and popular presenter at MakerFaires Well-illustrated tutorial with screen captures, easy-to-follow instructions, and step-by-step projects Describes an up-to-date contemporary approach to PCB design, including surface-mount designs Explains how to become a maker entrepreneur by using crowdfunding and indie marketplaces for technical products

Making Printed Circuit Boards

Author: Jan Axelson

Publisher: TAB/Electronics

ISBN: 9780830639519

Category: Technology & Engineering

Page: 327

View: 932

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Learn the latest PC-board fabrication techniques with this learn-by-example guide. The book includes 25 projects and experiments that teach you how to: Draw circuit designs; Transfer artwork to pc blanks; Etch copper patterns and drill lead holes; Solder components repair and modify boards. Master all the latest techniques for low-cost, speedy construction and discover applications for surface-mount components, computer-aided design, safety, and environmental protection.

The Art of PCB Reverse Engineering (Standard Edition)

Unravelling the Beauty of the Original Design

Author: Keng Ng

Publisher: Createspace Independent Publishing Platform

ISBN: 9781518800535

Category:

Page: 372

View: 9272

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PCB reverse-engineering is a skill that requires more than just an acquaintance with electronics. We're not talking about recreating the PCB artwork here, but the schematic diagram itself. To the uninitiated, it is a difficult if not impossible undertaking reserved only for the determined and qualified. The author, however, believes that having a right mindset and being equipped with the right knowledge will enable even an average electronics engineer to do it. This book will not teach you to use electronic automation design (EDA) tools to produce or reproduce PCBs nor give you a formal study on PCB structural design and fabrication. It does, however, impart knowledge on PCBs that relate to reverse-engineering and teaches you how to create PCB layouts and schematic diagrams using Microsoft Visio in a technical capacity. This standard edition illustration-rich book covers things which you'll need to take note before you begin, the necessary basic preparation work to perform, creating layout shapes prior to drafting the PCB artwork, knowing what is a good schematic diagram and the right strategies to use for the type of PCBs (analog, digital, mixed-signals). You will also learn advanced topics such as layering, shape data and shapesheet, generating reports for bill of materials, and even deciphering programmable logic devices!

PCB Design for Real-World EMI Control

Author: bruce archambeault,James Drewniak

Publisher: Springer Science & Business Media

ISBN: 1475736401

Category: Technology & Engineering

Page: 244

View: 2822

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Proper design of printed circuit boards can make the difference between a product passing emissions requirements during the first cycle or not. Traditional EMC design practices have been simply rule-based, that is, a list of rules-of-thumb are presented to the board designers to implement. When a particular rule-of-thumb is difficult to implement, it is often ignored. After the product is built, it will often fail emission requirements and various time consuming and costly add-ons are then required. Proper EMC design does not require advanced degrees from universities, nor does it require strenuous mathematics. It does require a basic understanding of the underlying principles of the potential causes of EMC emissions. With this basic understanding, circuit board designers can make trade-off decisions during the design phase to ensure optimum EMC design. Consideration of these potential sources will allow the design to pass the emissions requirements the first time in the test laboratory. A number of other books have been published on EMC. Most are general books on EMC and do not focus on printed circuit board is intended to help EMC engineers and design design. This book engineers understand the potential sources of emissions and how to reduce, control, or eliminate these sources. This book is intended to be a 'hands-on' book, that is, designers should be able to apply the concepts in this book directly to their designs in the real-world.

Printed Circuits Handbook

Author: Clyde Coombs

Publisher: McGraw Hill Professional

ISBN: 9780071510790

Category: Technology & Engineering

Page: 1000

View: 3951

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The World's #1 Guide to Printed Circuit Boards_Now Completely Updated with the Latest Information on Lead-Free Manufacturing! The best reference in the field for over 30 years, the Printed Circuits Handbook equips you with definitive coverage of every facet of printed circuit assemblies_from design methods to fabrication processes. Now completely revised and updated, the Sixth Edition presents the latest information on lead-free manufacturing, including lead-free PCB design and fabrication techniques, lead-free materials, and lead-free reliability models. The new edition also explores best practices for High Density Interconnect (HDI), as well as flexible printed circuits. Written by a team of experts from around the world, the Sixth Edition of this renowned handbook contains cutting-edge material on engineering and design of printed circuits fabrication methods...assembly processes... solders and soldering...test and repair...waste minimization and treatment ...quality and reliability of printed circuit processes...and much more. The updated Printed Circuits Handbook provides you with: Unsurpassed guidance on printed circuits_from design to manufacturing Over 500 illustrations, charts, and tables for quick access to essential data New to this edition: New coverage of lead-free PCB design and manufacturing techniques, lead-free materials, lead-free reliability models, best practices for High Density Interconnect (HDI), and flexible printed circuits Inside This State-of-the-Art Printed Circuits Guide • Introduction to Printed Circuits • Engineering and Design of Printed Circuits Fabrication Processes • Assembly Processes • Solders and Soldering • Test and Repair • Waste Minimization and Treatment • Quality and Reliability of Printed Circuit Processes • Flexible Circuits

Building Your Own Electronics Lab

A Guide to Setting Up Your Own Gadget Workshop

Author: Dale Wheat

Publisher: Apress

ISBN: 1430243864

Category: Technology & Engineering

Page: 184

View: 1711

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What should an electronics hackerspace look like? Is it in your bedroom, garage, a classroom, or even a suitcase? And where do you start? What parts are essential, and which are just nice to have? And how do you organize it all? Dale Wheat, the author of Arduino Internals, will show you how to build your own electronics lab complete with tools, parts, and power sources. You'll learn how to create a portable lab, a small lab to save space, and even a lab for small groups and classrooms. You'll learn which parts and tools are indispensable no matter what type projects you're working on: which soldering irons are best, which tools, cables, and testing equipment you'll need. You'll also learn about different chips, boards, sensors, power sources, and which ones you'll want to keep on hand. Finally, you'll learn how to assemble everything for the type of lab best suited to your needs. If you need to carry everything to your local makerspace, you can build the Portable Lab. If you plan to tinker at home or in the garage, there is the Corner Lab. If you're going to run your own local makerspace or you need to set up a lab to teach others, there is the Small-Group Lab. No matter what your gadgeteering needs may be, Building Your Own Electronics Lab will show you exactly how to put it all together so you have what you need to get started. What you’ll learn Essential components of every electronics lab, and how to get them without going broke The differences between types of electronics parts, accessories, and tools you may need Designing a lab for portability Designing a lab to save space Designing a lab to share space and resources Who this book is for Electronics hobbyists, Arduino enthusiasts, hardware hackers, ham radio tinkerers, or anyone wanting to build their own makerspace. Table of Contents Planning Your Electronics Workshop Building Your Tool Chest Parts – Both Spare and Not-so-Spare Portable Mini-Lab The Corner Lab The Small-Group Lab Appendix: Getting Started with Tool-Building

Radio-Frequency Electronics

Circuits and Applications

Author: Jon B. Hagen

Publisher: Cambridge University Press

ISBN: 052188974X

Category: Technology & Engineering

Page: 438

View: 1926

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Covering the fundamentals applying to all radio devices, this is a perfect introduction to the subject for students and professionals.

Hacking Electronics: An Illustrated DIY Guide for Makers and Hobbyists

Author: Simon Monk

Publisher: McGraw Hill Professional

ISBN: 0071802371

Category: Technology & Engineering

Page: 304

View: 1962

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Bring your electronic inventions to life! "This full-color book is impressive...there are some really fun projects!" -GeekDad, Wired.com Who needs an electrical engineering degree? This intuitive guide shows how to wire, disassemble, tweak, and re-purpose everyday devices quickly and easily. Packed with full-color illustrations, photos, and diagrams, Hacking Electronics teaches by doing--each topic features fun, easy-to-follow projects. Discover how to hack sensors, accelerometers, remote controllers, ultrasonic rangefinders, motors, stereo equipment, microphones, and FM transmitters. The final chapter contains useful information on getting the most out of cheap or free bench and software tools. Safely solder, join wires, and connect switches Identify components and read schematic diagrams Understand the how and why of electronics theory Work with transistors, LEDs, and laser diode modules Power your devices with a/c supplies, batteries, or solar panels Get up and running on Arduino boards and pre-made modules Use sensors to detect everything from noxious gas to acceleration Build and modify audio amps, microphones, and transmitters Fix gadgets and scavenge useful parts from dead equipment

Digital Logic and State Machine Design

Author: David J. Comer

Publisher: Oxford University Press on Demand

ISBN: 9780195107234

Category: Computers

Page: 573

View: 4115

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From one of the best-known and successful authors in the field comes this new edition of Digital Logic and State Machine Design. The text is concise and practical, and covers the important area of digital system design specifically for undergraduates. Comer's primary goal is to illustrate that sequential circuits can be designed using state machine techniques. These methods apply to sequential circuit design as efficiently as Boolean algebra and Karnaugh mapping methods apply to combinatorial design. After presenting the techniques, Comer proceeds directly into designing digital systems. This task consists of producing the schematic or block diagram of the system based on nothing more than a given set of specifications. The design serves as the basis for the construction of the actual hardware system. In the new Third Edition, Comer introduces state machines earlier than in previous editions, and adds entire chapters on programmable logic devices and computer organization.

Digital Logic and Microprocessor Design with VHDL

Author: Enoch O. Hwang

Publisher: Cl-Engineering

ISBN: 9780534465933

Category: Computers

Page: 588

View: 8651

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This book will teach students how to design digital logic circuits, specifically combinational and sequential circuits. Students will learn how to put these two types of circuits together to form dedicated and general-purpose microprocessors. This book is unique in that it combines the use of logic principles and the building of individual components to create data paths and control units, and finally the building of real dedicated custom microprocessors and general-purpose microprocessors. After understanding the material in the book, students will be able to design simple microprocessors and implement them in real hardware.

Microcontroller Programming

The Microchip PIC

Author: Julio Sanchez,Maria P. Canton

Publisher: CRC Press

ISBN: 1420006614

Category: Computers

Page: 824

View: 7703

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From cell phones and television remote controls to automobile engines and spacecraft, microcontrollers are everywhere. Programming these prolific devices is a much more involved and integrated task than it is for general-purpose microprocessors; microcontroller programmers must be fluent in application development, systems programming, and I/O operation as well as memory management and system timing. Using the popular and pervasive mid-range 8-bit Microchip PIC® as an archetype, Microcontroller Programming offers a self-contained presentation of the multidisciplinary tools needed to design and implement modern embedded systems and microcontrollers. The authors begin with basic electronics, number systems, and data concepts followed by digital logic, arithmetic, conversions, circuits, and circuit components to build a firm background in the computer science and electronics fundamentals involved in programming microcontrollers. For the remainder of the book, they focus on PIC architecture and programming tools and work systematically through programming various functions, modules, and devices. Helpful appendices supply the full mid-range PIC instruction set as well as additional programming solutions, a guide to resistor color codes, and a concise method for building custom circuit boards. Providing just the right mix of theory and practical guidance, Microcontroller Programming: The Microchip PIC® is the ideal tool for any amateur or professional designing and implementing stand-alone systems for a wide variety of applications.

Analog Circuit Design

A Tutorial Guide to Applications and Solutions

Author: Bob Dobkin,Jim Williams

Publisher: Elsevier

ISBN: 0123851858

Category: Technology & Engineering

Page: 932

View: 7157

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"A textbook for 4th year undergraduate/first year graduate electrical engineering students"--