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ME 106 Day 1

ME 106 Day 1. B. Furman 23JAN2014. ME 106 Fundamentals of Mechatronics. Objectives Get registration stuff solid Get oriented as to how the class will run Understand where the class is headed and what is expected of you Get a handle on what mechatronics is all about

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ME 106 Day 1

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  1. ME 106 Day 1 B. Furman 23JAN2014

  2. ME 106 Fundamentals of Mechatronics • Objectives • Get registration stuff solid • Get oriented as to how the class will run • Understand where the class is headed and what is expected of you • Get a handle on what mechatronics is all about • Get the big picture as to what mechatronics comprises • Get refreshed on fundamental concepts in electronics • The Plan • Roll call • Pre-req sig. list • Questionnaire • My background • Syllabus & Resources • Success in ME 106 • Assignments • What is mechatronics? • Concept map • Review of basic concepts in electronics

  3. Syllabus and Learning Resources • Canvas: https://sjsu.instructure.com • Look under Modules and under Files • Resources • www.engr.sjsu.edu/bjfurman/courses/ME106 • Bookmark it! • Check it out • Use it as a resource to help you learn the subject

  4. How to be successful in ME 106 • Turn in all the assignments • Do the reading • Prepare for lab • 1) read the lab manual,2) highlight action items in one color,3) highlight data to collect in another color,4) write any code that can be done before the lab session • Participate in the lab • Dig into the subject!

  5. Assignments • Read the syllabus carefully • Go to Canvas course shell • Update your email forwarding • Fill out the Questionnaire • Download from the ME 106 website • Don’t forget to include your picture! • Due Thursday, 1/30/14 • Hardcopy at the beginning of lecture • Softcopy in Canvas • Get started on Homework 1 – Due 1/30/14 hardcopy and softcopy • Access from Canvas Assignments • Read the Introduction to the Mechatronic Engineering Laboratory experiment guideline • Take pre-lab quiz 1 in Canvas (in Quizzes)

  6. Networking • Introduce yourself to someone nearby whom you have not met • Name • What you did over the break • Hobbies

  7. What is Mechatronics? • The integration of: • Sensors • Actuators • Intelligence with a system to produce: • More capable, versatile, and robust performance My dishwasher. Is it mechatronic? This is not mechatronic!

  8. Applications of Mechatronics http://www.accuray.com/

  9. Applications of Mechatronics, cont. 2005 DARPA Grand Challenge • 150 miles off-road • Autonomous Stanford Racing Team ‘Stanley’ 6 hrs 54 min

  10. Applications of Mechatronics, cont.

  11. Applications of Mechatronics, cont. • SawStop – smart tablesaw (www.sawstop.com) • Prevents injuries to fingers! • Electrical signal applied to bladeand DSP monitors signal • Signal changes if flesh touchesblade • Stop mechanism activated within3-5 ms via fuseable link and spring http://www.sawstop.com/how-it-works/videos/ http://www.sawstop.com/howitworks/sawstop_whitepaper.pdf

  12. PowerSource Controller(Hardware & Software) SignalConditioning PowerInterface UserInterface Actuator Sensor System toControl ME 110 ME 136 ME 154 ME 157 ME 182 ME 189 ME 195 Mechatronics Concept Map ME 106 ME 120 ME 30 ME 106 ME 190 ME 187 ME 106 INTEGRATION ME 106 ME 120 ME 106 ME 154 ME 157 ME 195 ME 120 ME 284 BJ Furman 22JAN2011

  13. My Background • Almost native SJ • Willow Glen High School class of ’76 • Education – first round • UC Davis • BSME – 1980 • MEME – 1982 • Industry experience – first round • IBM GPD – 1982 - 1986 • 3390 actuator development • Education – second round • Stanford University 1986-1991 • Non-contact rotor balancing • Industry experience – second round • IBM SSD 1991 – 1993 • 3390 product engineering • Spindle motor development • Academia • SJSU MAE – 1994 to pres. • Personal • Married • 14-year old daughter • Hobbies: build things, fix things, garden, read, hike, amateur radio (ARES) • Most significant: relationship to God through Jesus Christ • www.leaderu.com Faculty Offices (under Academics) Back

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