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Our Handbook

The Department of Engineering Technology at Miami University offers a bachelor’s degree program, two associate degree programs, (accredited by the Engineering Technology Accreditation Commission of ABET, http://www.abet.org). The baccalaureate program offers majors in Electrical and Computer Engineering Technology; Electro-Mechanical Engineering Technology; Mechanical Engineering Technology and Robotics Engineering Technology, and is designed to enable graduates of the associate degree programs to complete the bachelor’s degree by taking 65 additional credit hours. Majors available in the associate degree programs include Electrical and Computer Engineering Technology or Mechanical Engineering Technology.

As a Miami student, you will enjoy excellent faculty, modern facilities, and other amenities associated with a fine university.

Engineering Technology students enjoy opportunities to co-op on an alternating or parallel basis.  Students who elect to co-op will be required to attend classes during the summer semester and the length of time to complete their degree will be extended by approximately one semester.

Graduates of the bachelor’s degree program are technologists prepared to fill industrial positions in areas related to industrial automation, mechanical design & analysis, electronic instrumentation, testing, manufacturing, sales, and service.  Graduates of the electrical and computer engineering technology program fill paraprofessional positions in electronic testing, network specialist, field service, electronic maintenance, and similar engineering technician roles. Mechanical engineering technology program graduates fill paraprofessional positions in computer-aided drafting, quality control, computer-aided manufacturing, design technician, product testing, maintenance, and similar engineering technician roles. 

For more information about these programs or courses and seminars in the field of Engineering Technology, please contact our department chair.

Contents

Statement of Good Teaching Practices

Statement of Good Teaching Practices

Read the University Statement of Good Teaching Practices in the university policy library

Earning A Living and Paying For College

How Much Will You Earn?

The following chart shows how much you can expect to earn with a high school diploma, associate degree, and baccalaureate degree.

Gross Annual Income based on Education Level
Education Level Gross Annual Income1
Associate Degree in Engineering Technology $37,000-60,000/year
Baccalaureate Degree in Engineering Technology $45,000-70,000/year
High School Diploma $13,000-25,000/year

1 Salary ranges based on graduate surveys and Ohio Department of Labor

How Can You Pay for College?

  • Loans, grants, and scholarships are available through the Financial Aid office
  • Engineering Technology offers some scholarships
  • Co-op - this is the best way to pay for school. You earn money while you learn--and we have more jobs than we can fill! Through co-op, you will find out quickly what you like and don’t like about your field of study. The following information was provided by our co-op/placement office:
  • Average co-op wage for Engineering Technology 15.93/hour
  • Co-op gross income per SEMESTER
    • 15 weeks@40hrs/wk@$15.93/hr $ 9,558.00
    • 15 weeks@20hrs/wk@$15.93/hr $4,779.00
  • Tuition Cost for a semester (including General Fee and Network & Technology Fee)
    • 2012-13 full-time rate, lower division, in-state $2,479.20
    • 2012-13 full-time rate, upper division, in-state $3,758.40
  • Typical Cost for books & supplies per semester $719.00

Miami Regional Career & Co-op/Internship Services

The office of Miami Regional Career Services & Professional Development helps students, graduates and alumni find work related to their academic major. Co-op or intern students can arrange to work while taking classes or alternate semesters between work and classes. ENT 220 (Professional Practice) is the class you can enroll in to do a co-op. It can be taken for credit or no credit. If you are interested in doing a co-op, please contact:

Doug Reichenberger
Regional Director, Career Services & Professional Development
122 Rentschler Hall (Hamilton campus) 513-785-3113
105 Johnston Hall (Middletown campus) 513-727-3390
reichedc@MiamiOH.edu
MiamiOH.edu/Regionals/Jobs

Grading Criteria

The Department of Engineering Technology (ENT) has adopted the following criteria for awarding the letter grades A, B, C, D, and F. An instructor may use the +/- designators to indicate the high or low end of each level. The ENT Department gratefully acknowledges the development of these descriptions by the CSE department and their generosity in letting us use them.

Grade A Criteria

complete mastery of essential facts, concepts, principles, and theories; the ability to effectively use support tools and to correctly apply this knowledge to a wide variety of problems; demonstration of excellence that meets and exceeds course requirements

Grade B Criteria

very good knowledge of essential facts, concepts, principles, and theories; the ability to use support tools and to correctly apply this knowledge to the problems assigned in class

Grade C Criteria

knowledge of essential facts, concepts, principles, and theories, but there are recognizable areas of deficiency; some ability to use support tools and the ability to correctly apply this knowledge to some of the problems assigned in class

Grade D Criteria

some familiarity with the of essential facts, concepts, principles, and theories, but there are major areas of deficiency; little ability to properly use the support tools or to correctly apply this knowledge to the problems assigned in class

Grade F Criteria

missing or seriously incomplete work; little evidence of knowledge of essential facts, concepts, principles, and theories; little evidence of ability to use support tools or to correctly solve problems assigned in class

ENT Department Standard for awarding letter grades:

Each faculty member will use the following scale in assigning letter grades in their courses, with the following allowances:

  • the end (or ends) of any range can be adjusted by 1 point (+/-)
  • the assignment of the D- or F may deviate by a few points (2-3) from the values shown
  • faculty may elect to not use +/- grades

Letter grade and Percentage Range

Letter grade Percentage range
A+ 97-100%
A 93-96.9%
A- 90-92.9%
B+ 87-89.9%
B 83-86.9%
B- 80-82.9%
C+ 77-79.9%
C 73-76.9%
C- 70-72.9%
D+ 67-69.9%
D 63-66.9%
D- 60-62.9%
F below 60%

Degrees and Concentrations

Degree: Bachelor of Science in Applied Science

Major: Engineering Technology

Concentrations:

Electrical & Computer Engineering Technology (ECET) Electro-Mechanical Engineering Technology (EMET) Mechanical Engineering Technology (MET)
Robotics Engineering Technology (RET)

(A.A.S.) Associate in Applied Science

Electrical & Computer Engineering Technology (ECET)
Mechanical Engineering Technology (MET)

More about our Majors

Read more about the curriculum and requirements for each of our majors under Academics.

Math Sequence

Using the results of your Math Placement test, prior math courses, and life experience, an advisor (ENT or Math Department) can assist you with proper math placement. For ENT associate degree programs you are required to complete 8 - 10 hours of math and attain the level of MTH 151.

Order of Completion

(beginning with the course that you are placed in)

  1. Math Emporium
  2. MTH 125 | Pre-calculus (5 credit hours)
  3. MTH 151 | Calculus I (5 credit hours)

Course Substitutions

The following is a list of courses required by ENT majors which have departmentally approved substitutions for associate degree programs. Any or all other substitutions require specific advisor (department) approval.

Approved Course Substitutions

Required Course Approved Substitution
PHY 171, 172, 173, 174 PHY 181, 182, 183, 184
ENG 215 ENG 112
ECO 201 ECO 202
ENG 215 ENG 313 (prerequisites: ENG 111 & 112)

In addition to the above, the department will consider adjustment of technical course requirements (ENT courses) based on career goals or areas of special interest. Ask your advisor for assistance with these substitutions.

Transfer students may require substitutions not listed above. Transfer students should see a department advisor for assistance.

Course Descriptions

Note: One lecture hour is one contact hour. One lab hour is two contact hours.

100 Level Courses

ENT 135 | Computer-aided Drafting (3)

A study of drafting as the graphic language of industry and application of Computer-aided Technology to two and three-dimensional Engineering drawings. Microcomputers are used.
1 Lecture, 2 Labs

ENT 137 | Introduction to Engineering Technology (1)

An introductory course for students entering Engineering Technology. This course covers broad elementary Engineering concepts to include a definition of Engineering Technology, the distinction between the various areas of focus in Engineering Technology, introduction to Engineering "terminology," and a survey of current issues (problems, research efforts, recent developments, etc.) in the Engineering field.
Prerequisite: high school algebra

ENT 151 | Engineering Materials (3)

A study of basic Engineering materials; metals, plastics, ceramics and composites. Structure, properties, and applications emphasized. (Mechanical Technology)
2 Lectures, 1 Lab
Prerequisite: 2 years of high school algebra

ENT 152 | Computer-aided Manufacturing (3)

An introduction to manufacturing processes and the use of the computer as a tool in those processes. Students will be introduced to computer numerical control programming, statistical process and control, and topics related to the "automated factory." (Mechanical Technology)
2 Lectures, 1 Lab
Prerequisite: 2 years of high school algebra
Co-requisite: MTH 125

ENT 177, 277, 377, 477 | Independent Study (1 - 5)

Independent study courses are available to undergraduate students. You can register for one to five hours of Independent study each semester (no more than 10 per year). Registration for each course will be in accordance with the level of instruction. Independent study projects must be approved by the instructor and the department chair.

ENT 181 | Managing & Troubleshooting PCs (3)

This course provides an in-depth study of personal computer hardware and operating systems. Focus is on identification, installation, configuration, and troubleshooting of field replaceable components. The knowledge and skills obtained in this course will prepare the student for the CompTIA A+ Certification Technician Exam.
2 Lectures, 1 Lab

ENT 192 | Circuit Analysis I (3)

A detailed study of d-c electric circuits and related bilateral devices. Conventional and computer circuit Analysis will be used.
2 Lectures, 1 Lab
Prerequisite: High School Algebra

ENT 193 | Circuit Analysis II (3)

A detailed study of the Analysis of a-c electric networks, including resistive, reactive, and combinations thereof. Analysis techniques include conventional and computerized modeling.
2 Lectures, 1 Lab
Prerequisites: ENT 192, MTH 125

ENT 196 | Electronics (3)

Detailed study of analog electronic circuits and devices. Emphasis placed on operating parameters of linear (analog) circuits; techniques of circuit Analysis applied as an integral part of the course. The use of computerized data Analysis encouraged. (Electrical Technology)
2 Lectures, 1 Lab
Prerequisites: ENT 192
Co-requisite: ENT 193

200 Level Courses

ENT 202 | Special Problems (.5 - 3)

An intensive concentration of a problem or set of problems in an approved area of study in Technology to be determined in consultation with the instructor. May be used as an elective for ENT Associate Degree Programs. offered infrequently.
Prerequisite: Sophomore standing and departmental approval

ENT 220 | Professional Practice (0 - 2) (co-op/internship)

Students participating in the Engineering Technology co-op program register for this course during semesters when they are on work assignment. This enables students to remain in good standing with the University registrar. Cross listed with CIT 220
Prerequisite: Permission of departmental internship coordinator

ENT 235 | Computer-aided Design (3)

A computerized graphic design study of industrial related Engineering problems with emphasis on three-dimensional data base. The laboratory portion of the course uses microcomputers. (Mechanical Technology
2 Lectures, 1 Lab
Prerequisites: ENT 135, MTH 125

ENT 252 | Computer-aided Manufacturing II (3)

This course covers topics related to the "automated factory" including: computer numerical control and computer-assisted part programming, distributive numerical control (DNC), computer-assisted process planning, flexible manufacturing systems and robotics. (Mechanical Technology)
2 Lectures, 1 Lab
Prerequisites: ENT 152, CSE 153, 163 or equivalent recommended

ENT 271 | Mechanics I: Statistics (3)

This course is an introduction to the application of the equations of equilibrium to the solution of two and three-dimensional problems involving rigid body structures. The concept of friction and mechanical work is introduced. (Mechanical Technology)
Prerequisite: MTH 125
Co-requisite: PHY 171 or equivalent recommended

ENT 272 | Mechanics II: Strength of Materials (3)

Elastic relationships between external forces acting on deformable bodies and resulting stresses and deformations are studied. Industrial applications of these relationships to the solutions of Engineering design problems are emphasized. (Mechanical Technology)
2 Lectures, 1 Lab
Prerequisite: ENT 271

ENT 177, 277, 377, 477 | Independent Study (1 - 5)

Independent study courses are available to undergraduate students. You can register for one to five hours of Independent study each semester (no more than 10 per year). Registration for each course will be in accordance with the level of instruction. Independent study projects must be approved by the instructor and the department chair.

ENT 278 | Mechanics III: Analysis of Machine Components (3)

An introduction to the use of statics and strength of materials to the Analysis of individual machine components. The application of these principles of overall machine Analysis will be presented. (Mechanical Technology)
2 Lectures, 1 Lab
Prerequisite: ENT 272

ENT 291 | Industrial Electronics (3)

A study of the basic components and systems used in industrial electronics including operational amplifiers, linear integrated circuits, brushless and stepper dc motors, control devices, optoelectronics, pulse modulation, sequential process control and programmable logic controllers. (Electrical Technology)
2 Lectures, 1 Lab
Prerequisite: ENT 196

ENT 293 | Digital Systems (3)

Principles and applications of digital systems. Emphasis is placed on the study of combinational and sequential logic from a systems approach. Actual ICs are used as well as digital timing diagrams and waveforms. (Electrical Technology)
2 Lectures, 1 Lab
Prerequisite: ENT 192

ENT 294 |Local Area Networks (3)

This course provides an introduction to Networking fundamentals, OSI model, LAN and WAN Networking standards, TCP/IP, Routing and other protocols. The knowledge and skills obtained in this course will prepare the student for the Network+ Certification Exam. (Electrical Technology)
2 Lectures, 1 Lab

ENT 295 | Microprocessor Technology I (3)

An introductory study of the architecture, operation, and application of microprocessors for commercial and industrial use. Emphasis is placed on understanding internal architecture, segmentation, arithmetic instructions, and the role I/O ports, memory, and machine language play in putting the microprocessor to work. (Electrical Technology)
2 Lectures, 1 Lab
Prerequisite: CSE 153

ENT 296 | Programmable Logic Controllers (3)

Study of the principles and applications of Programmable Logic Controllers including ladder logic, program control, data manipulation, math instructions, sequencers, shift registers, networking, PLC-mechanism interfacing and human-machine interfacing.
2 Lectures, 1 Lab
Prerequisites: ENT 192

ENT 297 | Microprocessor Technology II (3)

Advanced study of microprocessor application for commercial and industrial use. Emphasis on microcomputer architecture interface to personal computers and peripheral devices such as printers, modems, D to A and A to D converters, and programmable logic devices. Applications of specific devices such as single chip embedded controllers, USB interface devices, wireless interface devices, Parallel Peripheral Interfaces, and Industrial Machine Controllers.
2 Lectures, 1 Lab
Prerequisites: ENT 293, 295

ENT 298 | Data Communications (3)

This course provides an introduction to data communications, computer networks, and media. It will include transmission basics, digital representations, data link concepts, and other networking issues. A networking Data Communications project is assigned as a significant part of the course requirement.
Prerequisite: CSE 153 or 174

300 Level Courses

ENT 301 | Dynamics (3)

The basic concepts of force, mass, and acceleration; work and energy; and impulse and momentum are introduced and applied to problems involving particles and rigid bodies. Topics include displacement, velocity, and acceleration of a particle; relations between forces acting on a particle or rigid body; and the changes in motion produced.
2 Lectures, 1 Lab
Prerequisites: MTH 151, ENT 271

ENT 303 | Digital Signal Processing (3)

Study of how digital signal processing is used in industry, including spectral analyzers, analog and digital filtering, Fourier series and transforms, data compression, image processing, and DSP hardware design issues.
2 Lectures, 1 Lab
Prerequisites: ENT 295, MTH 151, STA 301

ENT 310 | Fluid Mechanics (3)

The application of fluid statics and fluid dynamics to the solution of fundamental Engineering fluid problems. The one dimensional energy and momentum equations are introduced and applied to the solution of fluid flow problems.
2 Lectures, 1 Lab
Prerequisites: MTH 151, ENT 271

ENT 311 | Process Control Interface Design (3)

An introduction to data acquisition and control with a graphical user interface (GUI). Topics include parallel, serial and network access. Data transfer Technology such as Object Linking and Embedding and Dynamic Data Exchange are also covered.
2 Lectures, 1 Lab
Prerequisites: CSE 153, ENT 193 or equivalent and completion of an Engineering Technology associate degree or permission of instructor.

ENT 312 | Thermodynamics and Heat Power (3)

Introduction to fundamental concepts of energy transformation and transport. The First and Second Laws of thermodynamics are applied to process and cycle Analysis. Heat conduction, convection, and radiation modes are introduced and applied to simple heat balance problems.
Prerequisites: MTH 151, PHY 172 and completion of an Engineering Technology associate degree or permission of instructor.

ENT 313 | Introduction to Robotics Systems (3)

This course provides an overview of robot components, mechanisms, dynamics, and intelligent control algorithms. Topics include planar and spatial kinematics, and motion planning; mechanism design for manipulators and mobile robots, multi-rigid-body dynamics. Weekly laboratories provide experience with servo drives, real-time control, and embedded software.
Prerequisites: ENT 301 and ENT 192.

ENT 314 | Mechanisms for Machine Design (3)

Rigid body kinematics is applied to the Analysis and design of mechanisms used in machines. The course includes motion and force transference from power source, motion characteristics of real-world machinery, and Analysis and design concepts to facilitate optimization of the machine arrangement.
Prerequisite: ENT 301

ENT 316 | Project Management (3)

A course of upper-level students in Engineering Technology. This course covers background, techniques, and case studies in project management particularly focused on Engineering Technology applications. The student will develop a fundamental understanding of the concepts for managing both small and large projects. Discussion, evaluation, and presentation skills will be enhanced. Some of the specific topics to be covered include: Gantt charts, PERT charts, projects life-cycle, budgeting, cost Analysis, breakeven Analysis, conflict resolution, organization tools, project planning, statistical process control, and other selected quality improvement tools. Microsoft Project and Microsoft Excel will be used as software tools throughout the course.
Prerequisite: ECO 201 or 202 or permission of instructor
Co-requisite: STA 301, 368, or equivalent

ENT 333 | Computational Methods for Engineering Tech (4)

An in-depth study of Engineering Analysis techniques with emphasis on mathematical Analysis of mechanical and electrical subsystems. Detailed study of a variety of situations using techniques based on state-variable Analysis and state-transition matrix; convolution and circuit response in the time domain; system function and response in the frequency domain; and time shift and periodic functions.
3 Lectures, 1 Lab
Co-requisite: MTH 251

ENT 355 | Introduction to Finite Element Analysis (3)

An application of the basic concepts of finite element modeling and Analysis to various types of Engineering Technology problems including structural and machine component Analysis, conduction and convection heat-transfer Analysis, and fluid mechanics Analysis. Selected analytical aspects of finite element Analysis are introduced throughout the course without becoming too theoretical. ANSYS® computer software is an integral part of the course and is used within the laboratory program portion.
2 Lectures, 1 Lab
Prerequisite: ENT 333

ENT 177, 277, 377, 477 | Independent Study (1 - 5)

Independent study courses are available to undergraduate students. You can register for one to five hours of Independent study each semester (no more than 10 per year). Registration for each course will be in accordance with the level of instruction. Independent study projects must be approved by the instructor and the department chair.

400 Level Courses

ENT 401 | Computerized Instrumentation and Feedback Control (3)

Overview of the requirements for the design of servo-mechanisms including stability, transfer functions, loop dynamics, and digital signal processing. Covers digital and analog signal conditioning, transducers, and controllers.
2 Lectures, 1 Lab
Prerequisites: ENT 311, MTH 151

ENT 402 | Industrial Automation Lab (3)

This course uses lab based experiences to investigate common electrical and mechanical instrumentation including hydraulic and pneumatic equipment, programmable logic controllers (PLC), microcontrollers, and industrial SQL databases.
Prerequisites: ENT 311

ENT 403 | Wireless Communication and Networks (3)

Wireless and mobile networks experienced a continuous growth during the last years and are expected to provide more and more services in the near future. Development of wireless communication systems requires solving several challenging problems. This course covers both theoretical issues related to wireless networking and practical systems for both wireless data networks and wireless telecommunication systems.
2 Lectures, 1 Lab
Prerequisites: ENT 298/303 (Digital Signal Processing)

ENT 404 | Experimentation Techniques (3)

Coverage of experimentation techniques pertaining to mechanical Engineering Technology measurement methods and performance testing. Emphasis is on basic principles involved in measurement techniques. Topics range from mechanical systems to air pollution measurement techniques.
2 Lectures, 1 Lab
Prerequisites: ENT 333

ENT 407 | Topics in Electro-Mechanical Engineering Technology (3)

Coverage of topics related to the manufacturing environment including metal deflection and tolerance, robotics, programmable controller applications, and manufacturing cells.
2 Lectures, 1 Lab
Prerequisites: ENT 151, ENT 272

ENT 412 | Industrial Apps. of Neural Networks and Fuzzy Logic (3)

An introduction to fundamentals and industrial applications of neural networks and fuzzy logic. Emphasizes studies in process control and manufacturing systems are included.
2 Lectures, 1 Lab
Prerequisites: CSE 153, STA 368, and MTH 251

ENT 413 |  Industrial Robotics Lab (3)

Lab intensive course covering the fundamental and advanced topics on common industrial robotics systems. Provides detailed definitions and classifications of industrial robot systems. Discusses grippers and other end-of-arm tooling for robots. robot teach/pro Programming, program languages, robot arm, robot controller, workstation and safety systems. There is a significant lab-based component in which teams of students compete in several main industrial robotics areas to optimize mission performance under real world time constraints.
Prerequisites: ENT 313.

ENT 415 | Heat Transfer with Applications (3)

Concepts of the three modes of heat transfer, conduction, convection, and radiation, discussed separately and in combination. Each mode of heat transfer is presented by relating fundamental principles and computational methods to practical, real-world thermal systems and applications. Practical application projects from such industries as aerospace, automotive, and chemical processing are assigned to reinforce these principles.
Prerequisite: ENT 312

ENT 416 | Topics in Engineering Vibrations (3)

This course provides a study of mechanical vibrations topics with emphasis on mathematical Analysis methods that may be applied to the solution of industrial Engineering Technology problems. Computer Analysis software and experimental methods are introduced within the laboratory portion of the course.
2 Lectures, 1 Lab
Prerequisite: ENT 301, ENT 333

ENT 417 | Integrated Robotics Systems Engineering (3)

This course combines the components of Fundamentals of Robotics into the design, testing and deployment of fully working interdisciplinary robotic systems. This course discusses the history and development of industrial collaborative robots, programming and integration of robotic work cells and other computer, and robot-integrated systems used in industrial applications. The course explores the interrelations of automation and robotics equipment via communication and networking. The course discusses intelligent control algorithms, sensors and vision systems and their value in expanding the potential application for robots. The course also covers topics related to computer integrated manufacturing, flexible manufacturing, automated material handling, smart warehousing. Weekly laboratory modules are given for design, integration and programming of integrated robotics cells.
Prerequisites: ENT 313 and ENT 296.

ENT 418 | Electro-Mechanical Control Systems (3)

This course covers advanced control topics including state variable models, higher order system response, transient response, and stability Analysis.
Prerequisites: ENT 301, ENT 401, MTH 251

ENT 177, 277, 377, 477 | Independent Study (1 - 5)

Independent study courses are available to undergraduate students. You can register for one to five hours of Independent study each semester (no more than 10 per year). Registration for each course will be in accordance with the level of instruction. Independent study projects must be approved by the instructor and the department chair.

ENT 497-498 | Senior Design Project (2, 2)

Student teams conduct major open-ended research and design projects. Elements of the design process including establishment of objectives, synthesis, Analysis, and evaluation are integral parts. Real-world constraints such as economical and societal factors, marketability, ergonomics, safety, aesthetics, and ethics are also integral parts. 497: feasibility studies performed. 498: implementation, testing, and production of design. Includes guest lecturers, team presentations, team building sessions, team meetings, and guided discussions relating to design. Continuous interaction with faculty and outside professionals.
Prerequisite: ENT 316 and senior standing in Engineering Technology or permission of instructor.

Faculty and Advisory Councils

Electrical and Computer Engineering Technology Advisory Council

Brendan Kuhl
5948 Penelope Drive
Hamilton, OH 45011
513-737-2378
KOP_Kuhlio@hotmail.com

Tracey Dykes PHR
Human Resources
EPIC Technologies LLC
1151 W. Mason-Morrow Lebanon, OH  45036-9699
513-494-5599
tracey.dykes@epictech.com

Rick Mack
Duke Energy
513-520-2939
richard.mack@duke-energy.com

Dave Musson
Musson’s Industrial
Services, Inc.
1976 Jackson Road
Hamilton, OH  45011
513-623-0004
dwmusson@yahoo.com

Bill Franer 
Sr. Network Engr. & Service Specialist 
Siemens Building Technologies 
1310 Kemper Dr. Suite 500 
Cincinnati, OH 45240 
513-742-5590 Ext. 190 
wfraner@cinci.rr.com

Rick Adams
Controls Engineer
Valeo - Climate Control
3620 Symmes Road amilton, OH 45015 
513-682-6304 
rick.adams@valeo.com

Paul Reed 
3509 Murphy Ct. 
Middletown, OH 45044 
Paul_Reed@aksteel.com

Mike Smith
Hamilton High School
1165 Eaton Avenue
Hamilton, OH 45013
Mike_Smith@fc.hamilton-city.k12.oh.us

Donald Meineke Jr.
Western States
513-863-4758 x148
dmeineke@westernstates.com

Tom Kissner
Mound Technical Solutions
720 Mound Avenue
Miamisburg, OH 45343
937-865-3851
kisstj@aol.com
Ron Sorrell
gh Package/Product Testing and Consulting, Inc.
4090 Thunderbird Lane
Fairfield, OH 45014
513-870-0080 ext. 112
rsorrell@ghtesting.com

Greg Kramer 
Lead Engineering Technician
Campbell Hausfeld
New Product Devlp. - Nailers Div.
100 Production Drive
Harrison, OH 45030 
513-202-8659 
gkramer@ campbellhausfeld.com

Mike Flaherty 
tekWorx. LLC 
513-678-4584 
Mike@tekworx.us

Tim VonDerHaar 
VP of Technology 
Force Control Industries 
3660 Dixie Hwy. 
Fairfield, OH 45014 
513-868-0900 
tvonderhaar@forcecontrol.com

Electro/Mechanical Engineering Technology Advisory Council

David Ryan
Director of Engineering
RIXAN Associates
7560 Paragon Road
Dayton, OH 45459
937.623.8773
dryan@rixan.com

Greg Pollitt
513-646-4135
greg.pollitt@intelligrated.com

Ken Ekegren
Assistant Professor
North Central State College
2441 Kenwood Circle
PO Box 698
Mansfield, OH 44901-0698
888-755-4899
kekegren@ncstatecollege.edu

Mark Miller
G.E. Schmidt
mdmiller@fuse.net

Ken Warfield
Shawnee State University
940 Second Street
Portsmouth, OH 45662
740-351-3465
kwarfield@shawnee.edu
Mike Weeks
Instrumentation Engineer
Miami University
Oxford, OH 45056
513-529-2035
weeksmr@MiamiOH.edu

Chris Bautista
Sr. Engineer
American Showa
960 Cherry Street
Blanchester, OH 45044
513-571-7784
cbautista@amshowa.com

Mike Armocida
Manufacturing Engineer
ADVICS M.O.
1650 Kingsview Drive
Lebanon, OH 45036
513-696-5310
armocida_ma@hotmail.com

Scott W. Lessing
Miami University
Electrical Systems
Operation Manager
Cole Service Bldg. - Rm.135
Oxford,  Ohio   45056
513.529.8036
lessinsw@MiamiOH.edu
Randy Adams
Information Systems & Engineering
Jungle Jim's International Mrkt., Inc.
5440 Dixie Highway
Fairfield, Ohio  45014-4108
Phone:  513-674-6000
Ext: 6500
adamscr@MiamiOH.edu

Jesse James
Systems Engineer
Aethon Inc.
Campbells Run Business Cntr.
100 Business Center Drive
Pittsburgh, PA 15205
740-317-5433
jjames@aethon.com

Eric Seebohm
ATW Automation
Dayton, OH 45402
513-518-0328
seebohew@MiamiOH.edu

Steven Daviaux
G.E. Schmidt
steven@geschmidt.com

Mechanical Engineering Technology Advisory Council

Asbury, Steven
513-320-3238
stevenrasbury@gmail.com

Beischel, Thomas
Cincinnati Test Systems
45002
513-202-5167
tbeischel@cincinnati-test.com

Breidenbach, Vince
P&G
45069
513-634-8506
breidenbach.vs@pg.com

Clark, Ron
Ford Motor Company
rclark8@ford.com

DiGiovanna, Mike
General Electric & Adjunct Professor at Miami University
mdigiov@outlook.com
digiovmt@miamioh.edu

Lippert, Dave
Hamilton Caster
45011
513-863-3300
dave.lippert@hamiltoncaster.com

May, Eric
Vanderlande Industries
513-304-3422
May.Eric@hotmail.com

Myers, Randy
P&G
45224
513-945-4377
myers.ra@pg.com

Pakdel, Farnaz
Winegardner & Hammons
& Adjunct Professor at Miami University
farnaz.pakdel@gmail.com
pakdelf@miamioh.edu

Premec, Kerry
P&G- R&D Process Design
45217
513-693-5534
murray.ke@pg.com

Ranatunga, Vipul
Wright-Patterson AFB
43433
937-656-8809
miamivipul@gmail.com

Schumacher, Andy
P&G-Pet Care Research & Development
45050
513-622-1545
schumacher.la@pg.com

Thesing, Wyatt
45002
513-633-0244
thesinwe@miamioh.edu

Williams, Ken
Honeywell - Intelligrated
45320
937-456-8883
willi192@miamioh.edu
kencwilliamskw@yahoo.com

Womeldorf, Carole
STEM education

Erwin, Michael
513-257-3353
erwinma@Miamioh.edu

Greenberg, Rachel
Student
502-415- 8273
greenbre@miamioh.edu

Tingke, Fang
GE Appliance
tingke.fang@geappliances.com

Tuba Bayraktar
GE Aviation
Tuba.bayraktar@ge.com

Rentong Wang
Cummins, Inc.
47201
812-657-4465
Renting.wang@cummins.com

Ryan, David
Production Control Units, Inc.
dryan@pcuinc.com

Outside of Thesken Hall
CONTACT INFORMATION

Department of Engineering Technology

Hamilton Campus Phelps Hall 207
Middletown Campus Thesken Hall
513-785-1804 Follow us on Facebook