Expect a bright future with an education in electronics technology.
Major Details
Electronic equipment is everywhere: in our homes, businesses, factories, vehicles. Continuing advances in electronics have made possible the sweeping technological changes we see all around us. That's why there will always be a high demand for individuals with the training to build, design, and maintain electronic devices.
When you earn a diploma in Electronics Technology at Minnesota State College Southeast in Winona, you will learn both the theory and practical aspects of electronics. Coursework and hands-on lab experience cover:
- DC and AC Electricity
- Digital Electronics
- Instrumentation and Controllers
- Electronic Fabrication Technology
- Solid State Devices
- Networking
- Microcontroller Applications
Equipped with knowledge of electric and electronic principles, our graduates may work in design, repair, or installation of industrial, automotive or home electronics, and maintenance of these devices.
A member of the Electronics Technician Association (ETA)
Apply now for admission to Minnesota State College Southeast
Cluster/Pathway
Career Field: Engineering, Manufacturing & Technology
Cluster: Science, Technology, Engineering & Mathematics
Pathway: Engineering & Technology
Download the Program Plan
Courses
1) 1000 level (minimum) General Education courses required unless specified.
GENERAL EDUCATION REQUIREMENTS
Math Requirement
Choose one 2-credit - or greater - Math course. MATH 1025 Algebra is suggested. (If transferring to a 4-year college, MATH 1220 College Algebra is preferred.)
2 cr
ELEC1202
Introduction to DC Electricity
This course covers the general information, theory, and problem-solving techniques required for an analysis of DC circuits with emphasis on the meter measurements, current flow, and voltage division. (Prerequisite: Proficient in basic math) (2 credits: 1 lecture/1 lab)
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2 cr
ELEC1204
Introduction to AC Electricity
This course covers the general information, theory, and problem-solving techniques required for an analysis of AC circuits. Topics include: AC waveforms, oscilloscope operation, meter measurements, and AC vs. DC comparisons. (Prerequisites or Concurrent: ELEC1202, proficiency in basic math)
(2 credits: 1 lecture/1 lab)
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2 cr
ELEC1209
DC Theory & Circuits
This course covers the study of Ohm's Law, Kirchoff's Law and network theorems, with an emphasis on the theoretical concepts as related to electricity/electronics. The application of DC theory through laboratory experiments are also examined. Instruction in the operation of basic test equipment is used to provide verification of topics and to reinforce the theory. (Prerequisite or Concurrent: ELEC1202) (2 credits: 1 lecture/1 lab)
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2 cr
ELEC1212
Digital Electronics I
Students will learn about basic digital gates and how to use those gates to develop combinational logic circuits. Experimentation with digital circuits will aid in the reinforcement of the fundamental digital concepts. (Prerequisite: None) (3 credits: 2 lecture/1 lab)
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3 cr
ELEC1214
Electronic Fabrication Technology
In this course students will study the proper techniques necessary for placement of components on PCB's, with emphasis on THM and SMT technologies. Proper use of standard and specialized tools and equipment will be demonstrated. Soldering techniques will be critiqued in accordance with IPC-A-610 and J-STD-001 soldering standards. (Prerequisite: None) (2 credits: 1 lecture/1 lab)
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2 cr
ELEC1220
Electronic Communications
This course presents an overview of electronic communication systems and principles. Amplitude Modulation, Frequency Modulation, and Multiplexing Fundamentals. Practical experiments will reinforce many points presented in Electronics Communications. (Prerequisites: ELEC1202, ELEC1204) (2 credits: 1 lecture/1 lab)
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2 cr
ELEC1250
Introduction to Solid State
A theoretical understanding of solid-state devices, which includes diodes, bipolar transistors, field effect transistors and others, and their operation in both DC and AC circuits will be covered. Analysis of these operations will be demonstrated through the lab exercises and proper use of test equipment. Proper biasing of solid-state devices is stressed. (Prerequisites: ELEC1202, ELEC1204, ELEC1209) (4 credits: 2 lecture/2 lab)
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4 cr
ELEC1251
Solid State Devices
An in-depth understanding of solid state circuit configurations and operations will be enhanced through both theoretical and experimental exercises. Topics of interest will be Transistor amplifiers, Mosfets, Solid State switching circuits and Voltage regulators. (Prerequisite: ELEC1250) (4 credits: 2 lecture/2 lab)
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4 cr
ELEC1330
Introduction to Instrumentation & Control
This course is an introduction to sensing, instrumentation and control using The BASIC Stamp microcontroller. Pre-built applets will be used to input and output data from digital and analog interfaces, make logical decisions based upon the inputs. Devices interfacing with this tool may include, but are not limited to photo-electric sensors, servos, and LEDs. Upon completion, students should have a fundamental understanding of how The BASIC Stamp can be used for data input, control, and monitory environments. (Prerequisite: none) (2 credits: 1 lecture/1 lab)
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2 cr
ELEC2211
Digital Electronics II
Digital electronics are so widely used that it is almost impossible to think of electronic equipment without them. Digital circuits have greatly improved electronic methods and have given practical electronic equipment amazing compatibility. In this course you will learn how advancements in digital IC technology reduce the size of complex circuits. We will explore counters, shift registers, and others to build complex digital circuits. (Prerequisite: ELEC1212) (4 credits: 2 lecture/2 lab)
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4 cr
ELEC2227
PC Hardware & OS
This course will explore the personal computer. Emphasis will be placed on the hardware and assembly of the PC. Basic troubleshooting techniques will be discussed as it relates to the Personal Computer. The use of diagnostic and monitoring software will be explored. Topics covered provide a preparation for a possible A+ certification. (Prerequisite: NWAT1641 or Instructor Approval ) (4 credits: 3 lecture/1 lab)
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4 cr
ELEC2230
Microcontroller Applications
This course will introduce the student to Raspberry Pi. The student will configure the Raspberry Pi microcontroller to read switches and drive output devices. Students will explore the features and benefits of single chip systems. The student will build, an instructor approved, final project. (Prerequisites: ELEC2211, NWAT1641 or Instructor Approval) (5 credits: 3 lecture/2 lab)
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5 cr
ELEC2260
Linear Integrated Circuits
This course covers linear integrated circuits. In this course a wide variety of amplifiers, oscillators and generators will be analyzed, which use the op amp. The op amp is one of the most versatile integrated circuits; it provides high gain and wideband width in a simple configuration. (Prerequisite: ELEC1251 ) (4 Credits: 2 lecture/2 lab)
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4 cr
NWAT1641
Networking Fundamentals
This course will provide students with the technical skills necessary to securely establish, maintain, and troubleshoot networks that businesses rely on. Students will gain experience with networking fundamentals, network implementations, network operations, network security, and network troubleshooting. This curriculum is aligned with CompTIA Network+ industry certification. (Prerequisite: None) (3 credits: 2 lecture/1 lab)
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3 cr
Total Credits Required for this Major: 47 Credits
Estimated Costs for this Major
Approximate Tuition/Fees: | $10,425 |
Minimum Tool Cost: | $50 |
Books/Supplies: | $1,160 |
Estimated Total: | $11,635 |
Career Opportunities
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Electronic System Installation/Maintenance
- Manufacturing System Installation/Maintenance
- Electronic Engineering Technician
- Computer Equipment Repair/Maintenance
- Computer Network Installation/Maintenance
- Wireless Communication Systems Installation/Maintenance
- Technical Field Service
- Technical Sales
- Security System Technician
- Residential Electronics Systems Integrator
Career Information
Use the MN DEED Career and Education Explorer Data Tool to learn about wages, job growth, and much more in this career field.
Outcomes
Program graduates will be able to:
- Use knowledge and skills to analyze, troubleshoot, measure and/or program systems and devices used in the Electronics industries.
- Repair systems and equipment by applying logic and knowledge to solve complex problems.
- Demonstrate the use of software, programming, and interfacing to troubleshoot micro and personal computers.
- Demonstrate an ability to communicate effectively.
- Demonstrate an ability to apply knowledge of mathematics, science, and engineering to the analysis of electronic problems.
- Apply acquired skills and learn new skills by engaging in lifelong learning.
- Work as a productive and responsible team member.
- Function with a respect for diversity and knowledge or professional, social, and global issues.
Highlights
- Broad spectrum of career opportunities
- Current technology is implemented in the curriculum
- 50% of class work is hands-on
- Our instructors stay current in the electronics field
- Electronic technicians play a critical role in technology
Instructors
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Marc Kalis
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Marc Kalis received his Electronics Diploma from Austin Technical Institute (Riverland Community College, Austin Campus) and currently holds a license in Electronics Technology for the State of Minnesota. Marc has experience in a variety of electronic areas which include but are not limited to: medical equipment repair, industrial controllers, networking, computers and mobile electronics. He is an IPC-A-610 Class “A” Instructor (solder joint inspection), a J-STD-001 class “A” Instructor (Solder Application Specialist, and a Mobile Electronics Certified Professional.