Overview and Award Outcomes

Overview

A manufacturing engineering technician is a professional person who is flexible, self-motivated, team oriented, and capable of assigning as well as following instructions. Manufacturing engineering technicians are called upon to assist engineers in the research, development and the modification of new and current designs, products and processes. Many technicians are involved in the assembly, acceptance testing, and providing field service support for current products. The technician possesses an understanding of CAD drafting, engineering drawings, fluid power fundamentals, instrumentation and data acquisition, industrial electrical applications, machining and tooling principles and precision measurement.

The Manufacturing Engineering Technology A.A.S. degree program provides the student with a multi-discipline skill base and prepares the individual to perform the high level tasks that are required in today`s global manufacturing market. This degree is unique in that it allows the student to receive a broad-based education in the manufacturing environment along with a specialization in one or more of the many areas involved in this field. The student may choose to specialize in automated robotics, electronics, engineering CAD, fluid power, machine tool, plastics technology or welding. This degree is also intended for those seeking career advancement. Students may continue their education and proceed towards a Bachelors in Manufacturing degree which prepares the student for supervisory and management positions.

Award Outcomes

Follow safety guidelines and practices as mandated by O.S.H.A.

Apply electrical concepts as they relate to N.E.M.A. and I.E.C. electrical standards and equipment

Develop PLC programs using Boolean algebra and software methods

Produce engineering drawings and schematics using ANSI, ISO and industry symbols and standards

Problem solve by analyzing data using statistical process control (SPC) and quality assurance (QA) theory and methods

Utilize data acquisition systems and devices that are prevalent in the manufacturing industries

Generate drawings with a personal computer and computer aided design (CAD) software

Analyze fluid power applications in accordance with NFPA and industry standards and practices

Comprehend terms and methods that are used to communicate between manufacturing industry disciplines

Examine manufacturing engineering design concepts and processes

Use applied physics to investigate power transmission methods

Investigate production models using various data methods

Utilize software applications commonly found in the manufacturing industry

Career Opportunities

This is one of the fastest growing areas of employment in manufacturing occupations. There is an extensive shortage of individuals who possess a multi-discipline skill base. Global market competition has directed manufacturing companies to seek out the multi-facet candidate. As a result of these situations, demand for the graduate is extremely high. The employment positions offer excellent opportunities for personal and professional growth. Individuals who seek a career as a manufacturing engineering technician may find jobs in a variety of diverse areas such as: assembly, automation, manufacturing, quality assurance, research and development, design, and field service. Job duties may include supervision, engineering, and product development along with customer relations and travel. Manufacturing Engineering Technicians are in high demand in small to large companies and within various government agencies. The Manufacturing Engineering Technician is well positioned for advancement opportunities as well as long-term employment.

Program Requirements

Technical Studies Required 45 Credits

Course Number	Course Title	Course Credits
ENGC1011	Engineering Drawing	3
FLPW1101	Fluid Power Technology I	3
FLPW1231	Industrial Electricity I	3
METS1020	Industrial Manufacturing Processes	3
METS1050	Quality Control	3
METS1200	Industry Practices and Procedures	3
METS2000	Engineering Design Principles	3
METS2100	Statics and Strength of Materials	3
ARET1140	Computer Integrated Manufacturing	3
	and
ENGC1050	Additive Manufacturing	3
	or
MACH1205	Machine Tool Technology	3
	and
PLST1041	Introduction to Plastics Molding Processes	3

Choose one of the following specializations:

~Automation Robotics Engineering Technology Specialization 15 Credits

Course Number	Course Title	Course Credits
ARET1130	Maintenance Operations	2
ARET1155	Automation Controls	3
ARET1165	Vision Systems for QA/SPC	3
ARET1190	Programmable Logic Controllers	3
ARET1200	Introduction to Robotics	2
ARET2200	FANUC Robotics Operations	2

~Electronics Technology Specialization 15 Credits

Course Number	Course Title	Course Credits
ELEC1000	DC Circuits	4
ELEC1050	AC Circuits	4
ELEC1100	Complex AC Circuits	3
ELEC1150	Diodes and Rectifiers	2
ELEC1200	Soldering Skills	1
	Choose at least one additional credit in ELEC	1

~Engineering CAD Technology Specialization 15 Credits

Choose one of the following:

Course Number	Course Title	Course Credits
ENGC1100	AutoCAD	4
ENGC1160	Inventor	4
ENGC1250	SOLIDWORKS I	4
ENGC2100	Basic Creo Parametric	4

Choose at least 11 credits from the following:

Course Number	Course Title	Course Credits
ENGC1021	Working Drawings	3
ENGC1041	Geometric Dimensioning & Tolerancing	3
ENGC1201	Industrial CAD Project	3
ENGC1255	SOLIDWORKS II	4
ENGC2110	Advanced Creo Parametric	4

~Fluid Power Engineering Technology Specialization 15 Credits

Choose one of the following;

Course Number	Course Title	Course Credits
ENGC1100	AutoCAD	4
ENGC1160	Inventor	4
ENGC1250	SOLIDWORKS I	4
ENGC2100	Basic Creo Parametric	4

Choose at least 11 credits from the following:

Course Number	Course Title	Course Credits
FLPW1106	Fluid Power Technology II	4
FLPW1181	Pumps, Actuators, and Conductors	4
FLPW1191	Hydraulic Components	3
FLPW1236	Industrial Electricity II	3
FLPW1320	Hydraulic Circuits	2
FLPW1340	Pneumatic Circuits and Air Logic	4
FLPW2000	Programmable Logic Controllers	3

~Machine Tool Technology Specialization 15 Credits

Course Number	Course Title	Course Credits
MACH1056	Blueprint Reading I	3
MACH1110	Turning Technology I	3
MACH1125	Milling Technology I	3
MACH2400	CNC Setup and Operation	3
MACH2406	CNC Programming	3

~Plastics Engineering Technology Specialization 15 Credits

Course Number	Course Title	Course Credits
PLST1008	Fundamentals of Plastics/Chemistry/Ingredients	4
PLST2007	Properties and Tests of Selected Plastics	4
PLST2011	Extrusion Molding Processes I	3
PLST2017	Extrusion Molding Processes II	4
PLST2035	Medical Device Polymer Processes	3
PLST2128	Injection Molding Process I	4
PLST2138	Injection Molding Process II	4
PLST2143	Injection Molding Process III	4

~Welding and Metal Fabrication Specialization 15 Credits

Course Number	Course Title	Course Credits
WLDG1135	Gas Metal Arc Welding I	3
WLDG1182	Blueprint Reading for Welders	2
WLDG1220	Gas Tungsten Arc Welding I	3
WLDG1350	Flux Cored Arc Welding I	3
	Choose at least four additional credit in WLDG	4

General Education Required 9 Credits

Course Number	Course Title	Course Credits
ENGL1070	Technical Writing	3
	or
ENGL1100	Writing and Research	4
MATH1150	Applications of Quantitative Reasoning	3
	or
MATH1250	Introduction to Statistics	3
	or
MATH1400	College Algebra	4
	Choose one course from MnTC Goal Area 2	3

General Education Elective 6 Credits

Choose credits from Hennepin Technical College’s Minnesota Transfer Curriculum (MnTC) general education courses.

Technical Studies Elective 0 Credits

Total Associate in Applied Science Degree Credits 60

Semester Sequence

Offered at Brooklyn Park and Eden Prairie

Graduation (60 Credits)

Semester listings reflect the recommended sequence.  Due to circumstances beyond our control, the information herein is subject to change without notice.

 

2/10/2022: BP 4504 / EP 4505