ME 216B: Advanced Product Design: Implementation 1
Summary project using knowledge, methodology, and skills obtained in Product Design major. Students implement an original design concept and present it to a professional jury. Prerequisite: 216A.
Terms: Win
| Units: 4
| Repeatable
4 times
(up to 16 units total)
ME 216C: Advanced Product Design: Implementation 2
ME216C: Implementation II is a continuation of
ME216B. Students would develop project from ME216B to a further state of completion. Design will be completed, details about manufacturing, cost and production will be developed. Students will validate their projects by making them real in the world. Prerequisites for class are ME216A and
ME216B.Prerequisite: 216A and 216B.
Terms: Spr
| Units: 4
ME 217: Design & Construction in Wood
Explore the design and construction of objects using wood. Taught in the Product Realization Lab. Enrollment by consent of instructor.
Terms: Win, Spr
| Units: 1-3
Instructors:
Milroy, J. (PI)
ME 218A: Smart Product Design Fundamentals
Lecture/Lab. Team design project series on programmable electromechanical systems design. Topics: transistors as switches, basic digital and analog circuits, operational amplifiers, comparators, software design, state machines, programming in C. Lab fee. Limited enrollment.
Terms: Aut
| Units: 4-5
Instructors:
Carryer, J. (PI)
ME 218B: Smart Product Design Applications
Lecture/lab. Second in team design project series on programmable electromechanical systems design. Topics: user I/O, timer systems, interrupts, signal conditioning, software design for embedded systems, statecharts, sensors, actuators, noise, and power supplies. Lab fee. Limited enrollment. Prerequisite: 218A or passing the smart product design fundamentals proficiency examination.
Terms: Win
| Units: 4-5
Instructors:
Carryer, J. (PI)
ME 218C: Smart Product Design Practice
Lecture/lab. Advanced level in series on programmable electromechanical systems design. Topics: inter-processor communication, system design with multiple microprocessors, architecture and assembly language programming for the PIC microcontroller, controlling the embedded software tool chain, A/D and D/A techniques, electronic manufacturing technology. Team project. Lab fee. Limited enrollment. Prerequisite: 218B.
Terms: Spr
| Units: 4-5
Instructors:
Carryer, J. (PI)
ME 218D: Smart Product Design: Projects
Lecture/lab. Industrially sponsored project is the culmination of the Smart Product Design sequence. Student teams take on an industrial project requiring application and extension of knowledge gained in the prior three quarters, including prototyping of a final solution with hardware, software, and professional documentation and presentation. Lectures extend the students' knowledge of electronic and software design, and electronic manufacturing techniques. Topics: chip level design of microprocessor systems, real time operating systems, alternate microprocessor architectures, and PCB layout and fabrication. Prerequisite: 218C.
Terms: Aut
| Units: 3-4
Instructors:
Carryer, J. (PI)
ME 219: The Magic of Materials and Manufacturing
Intended for design-oriented students who anticipate imagining and then creating new products with a focus on materiality and brand or design and business. Assumes basic knowledge of materials and manufacturing processes which results from taking
ENGR 50,
ME 203, or equivalent course/life experience. Goal is to acquire professional foundation information about materials and materiality from a product design point-of-view, manufacturing processes and business systems inside a factory, and story-telling by book authorship, essay writing, and multimedia presentation. Goal is for students to exhibit a deep and life-long love of materials and manufacturing in order to make great products and tell a good story about each one.
Terms: Aut
| Units: 3
Instructors:
Beach, D. (PI)
;
Switky, A. (PI)
ME 220: Introduction to Sensors
Sensors are widely used in scientific research and as an integral part of commercial products and automated systems. The basic principles for sensing displacement, force, pressure, acceleration, temperature, optical radiation, nuclear radiation, and other physical parameters. Performance, cost, and operating requirements of available sensors. Elementary electronic circuits which are typically used with sensors. Lecture demonstration of a representative sensor from each category elucidates operating principles and typical performance. Lab experiments with off-the-shelf devices.
Terms: Spr
| Units: 3-4
Instructors:
Kenny, T. (PI)
ME 225: Mystery of Manufacturing
Mystery of Manufacturing is intended for design- and engineering-oriented students who anticipate or have an interest in launching products. Where the cousin of this class,
ME219, is an overview of fabrication and factory systems, this course will look at manufacturing systems more holistically: what does it take to get a product from your idea into peoples' hands? We'll look at factors that drive location, distribution, and supply chain decisions, and we'll look closely at the inner workings of factories. nnnThis course assumes basic knowledge of materials and manufacturing processes resulting from
ENGR 50,
ME 203,
ME 219 or equivalent course/life experience. The goal is to acquire a professional foundation in factory manufacturing systems and the business of manufacturing through story-telling, essay writing, and multimedia presentation. We hope students will exhibit a deep and life-long love of the complexity and flexibility of manufacturing systems in order to launch great products into the world.
Terms: Spr
| Units: 3
Instructors:
Switky, A. (PI)
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