Last Updated on December 24, 2022
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Product design describes the process of imagining, creating, and iterating products that solve users’ problems or address specific needs in a given market. The key to successful product design is an understanding of the end-user customer, the person for whom the product is being created
Product design engineers create and develop new and innovative products across several industries, including home appliances and manufacturing technology. Those interested in this field often pursue a bachelor’s or master’s degree. Bachelor’s degree students learn how to take a product idea from the conception stage to a finished item, as they spend practical course hours sketching and laying out designs, performing dynamic product analyses and creating prototypes and models. Lectures focus on business, communication and management principles. Discussed topics include material properties and kinematics.
A graduate studies curriculum is 2 years long and covers advanced mechanical engineering, design and drafting, state-of-the-art technologies, human needs analyzation, commercial and industrial engineering, patent law and design software. Applicants must have a bachelor’s in mathematics, science, design or engineering and acceptable Graduate Records Examination (GRE) scores. At both levels, a product design project must be completed for graduation.
Bachelor of Science in Product Design Engineering Technology
Undergraduate product design engineering programs are interdisciplinary, combining elements of science, mathematics, technology and design. General education courses include English composition, physics and material science. Examples of core subjects are:
- Fundamentals of electrical systems
- Material selection
- Product design
- Manufacturing design
- Applied mechanics
Master of Science in Product Design Engineering
Most master’s courses focus on advanced principles and practices related to product development and design. Specific courses include:
- Design and manufacturing
- Design strategy
- Advanced product design
- Design innovation
- Design research
Popular Career Options
Graduates are qualified for a number of positions in the of manufacturing, engineering and industrial technology fields. Some popular job titles are:
- Design technician
- Product designer
- Product research technician
- Project leader
Central Michigan University
Product Design Engineering Technology
You look at cars, home appliances and even toys, and you can’t help but admire the combination of engineering, design, style and function. The product design engineering technology major at CMU is just the program to fuel that curiosity. CMU’s product design engineering technology program helps you prepare for a career that emphasizes technology applications and their management. You’ll learn to conceptualize design sketches and drawings, create complex design layouts, models and prototypes, and integrate manufacturing principles into product designs.
Points of Pride
- CMU’s undergraduate engineering programs are ranked 86th among the nation’s universities that offer bachelor’s and master’s degrees in engineering by U.S. News & World Report for their 2015 rankings.
- CMU offers state-of-the-art labs for computer-aided design and manufacturing, electronics, robotics, manufacturing systems, and more.
- CMU students have internship opportunities with leading Michigan industries and gain professional development, resources and contacts through student organizations such as the Industrial Engineering Technology Club.
The course listings below are a representation of what this academic program requires. For a full review of this program in detail please see our official online academic bulletin AND consult with an academic advisor. This listing does not include the General Education courses required for all majors and may not include some program specific information, such as admissions, retention, and termination standards.
Product Design Engineering Technology Major
Engineering Technology Student Outcomes All Engineering Technology programs share the following Student Outcomes : By the time of graduation from any of the Engineering Technology programs, students are expected to have: 1. An ability to apply knowledge, techniques, skills, and modern tools of mathematics, science, engineering, and technology to solve broadly-defined engineering problems appropriate to the discipline 2. An ability to design systems, components, or processes meeting specified needs for broadly-defined engineering problems appropriate to the discipline 3. An ability to apply written, oral, and graphical communication in broadly-defined technical and non-technical environments; and an ability to identify and use appropriate technica literature 4. An ability to conduct standard tests, measurements , and experiments and to analyze and interpret the results to improve processes 5. An ability to function effectively as a member as well as a leader on technical teams. This major offers a program of coursework for students planning careers in Product Design and Development. Product design as a process is the efficient and effective development of ideas and concepts that lead to new products. Product Design Engineering Technology as a discipline overlaps the conceptual talents of industrial designers and the analytical knowledge required of engineers. All Product Design Engineering Technology students are required to complete 60 hours of required courses. They also need to select and complete 6 credit hours of Technical Electives in consultation with an advisor Product Design Engineering Technology Mission Statement The mission of the Product Design Engineering Technology program in the BS in Engineering Technology degree is to prepare students to be competent in the area of product design with the potential for growth in management and leadership.
Program Educational Objectives for Product Design Engineering Technology The Program Educational Objectives (PEOs) of BSET-Product Design Engineering Technology (PDET) program at CMU describe the expected accomplishments of the BSET-PDET graduates during their first few years after graduation. The main goal of the BSET-Product Design Engineering Technology program at CMU is to provide a competitive curriculum and learning environment that prepare graduates who will be able to: 1. Attain employment and practice successfully in a product design engineering technology related profession; 2. Work in multi-disciplinary teams providing technical knowledge and effective communication as engineering technologists; 3. Remain technically current through continuous learning and self-improvement; 4. Understand and exhibit professional, ethical and social responsibility as they pursue their careers.
Product Design Engineering Technology Program Criteria In addition to the Engineering Technology Student Outcomes, graduates of the Product Design Engineering Technology program will demonstrate knowledge and technical competency in: 1. use of 3D parametric computer-aided drafting and design software for a variety of mechanical drawing techniques (such as orthographic, section, auxiliary, assembly models, detailed working drawings and rendered images), 2. application of principals of geometric dimensioning and toleracing, 3. application of principles of engineering materials and applied mechanics, 4. application of principles of manufacturing methods, 5. applications of calculus and statistics, 6. use of advanced 3D parametric modeling tools for design and analysis, 7. application of physics, materials, manufacturability, environmental and economic concepts to design of machine or mechanical elements, 8. use of industry codes, specifications, and standards (ASME, ANSI, or others), 9. technical communications typically used in preparation of engineering proposals, reports, and specifications.
Total: 69 semester hours
Required Courses(63 hours)ART 106Introduction to Drawing3EGR 200Computer Aided Problem Solving for Engineers3EGR 489WISenior Design I3EGR 499WISenior Design II3IET 130Industrial Materials and Testing3IET 154Engineering Design Graphics3IET 170Manufacturing Processes I3IET 181QRAlternative Energy Analysis3IET 226Parametric Design and Modeling3IET 279Applied Statics3IET 324WIProduct Design and Development3IET 350Mechanism Design3IET 365Manufacturing Processes II3IET 379Mechanics of Materials3IET 424Human Factors and Ergonomics3IET 450Mechanical Computer-Aided Engineering3IET 451Geometric Dimensioning and Tolerancing3IET 458Surface Modeling3IET 466Advanced Surface Modeling3MTH 223Linear Algebra and Matrix Theory3STA 282QRIntroduction to Statistics3Technical Electives(6 hours)Select 6 semester hours of coursework from the following:ART 119Design Foundations3EGR 120Introduction to Engineering3IET 281Dynamics3IET 291Applied Circuits3IET 377Computer Numerical Control Programming3IET 454Machine Design3MTH 133Calculus II4
Ferris State University
Product Design Engineering Technology
If you like to invent or create, Product Design Engineering Technology is for you. The program bridges the gap between art and science, and only one other program of its kind exists in the nation.
The Product Design Engineering Technology program prepares you to effectively participate as a member of a design team, create robust mechanical designs, analyze and optimize the economics of design, create and define complex surfaces or shapes using cutting-edge computer modeling software, perform static and dynamic analyses on a design, and much more.
The program encompasses the third and fourth years of college study and culminates in a baccalaureate degree. You must complete an approved two-year associate in applied science degree within the College of Engineering Technology or an equivalent associate in applied science degree from another institution.
Employment opportunities exist across the spectrum of the product design field. Specific job titles might include product designer, layout drafter, project manager, product developer, computer-aided designer, mechanical designer or design engineering technologist.
The Bachelor of Science in Product Design Engineering Technology offers a unique blend of industrial design, mechanical engineering, and manufacturing skills. Students learn to apply the principles of Design Thinking to guide the development of new products.
Most learning takes place in an active classroom environment founded on team collaboration and hands-on prototyping. Students will frequently use tools such as CAD, 3D printing, and computer analysis. Specific emphasis is placed on skills such as Designing for Manufacturing, Geometric Dimensioning & Tolerancing, ergonomics, and technical communication.
Graduates of the program will be prepared to work in a wide range of industries, including consumer products, furniture, automotive, outdoor power equipment, defense & aerospace, manufacturing, and more.
NEW STUDENT ADMISSION REQUIREMENTS
- Minimum 2.70 GPA (on a 4.00 scale)
- Composite ACT Score of 20 or Post-2016 SAT Score of 1030
- Math ACT Score of 19 or Post-2016 Math SAT Score of 500
- English ACT Score of 14 or Post-2016 ERW SAT Score of 450
- Reading ACT Score of 17 or Post-2016 ERW SAT Score of 450
TRANSFER STUDENT ADMISSION REQUIREMENTS
- Completion of a minimum 60 credits with a 2.50 GPA (on a 4.00 scale)
- The following specific courses are required for third year transfer students:
- English Composition 1 and 2
- Public Speaking
- Mathematics through Pre-Calculus o General Physics 1; With Lab
- Basic Material Science o Introductory Computer Aided Design (CAD)
- Culture Competency; 3 Credits
- Self and Society Competency; 3 Credits
In order to graduate from Ferris State University, students must meet both University and Programmatic Graduation Requirements.
UNIVERSITY GRADUATION REQUIREMENTS
These are the minimum graduation requirements for a graduate degree at Ferris State University:
- All requirements as specified in the University Requirements section must be met.
- A minimum of 120 credits must be earned.
- A 2.00 or higher cumulative Ferris State University GPA is required.
- A minimum of 30 credits must be earned from Ferris State University to meet the Residency requirement.
- A minimum of 40 credits of 300 level or higher courses must be earned.
PROGRAMMATIC GRADUATION REQUIREMENTS
These are the additional graduation requirements mandated by the program:
- All requirements as specified in the College Requirements section must be met.