Computer Engineering Technology (BS)

Catalog Year

2019-2020

Degree

Bachelor of Science

Total Credits

128

Locations

Mankato

Accreditation

Engineering Technology Accreditation Commission of ABET

Accredited by the Engineering Technology Accreditation Commission of ABET.
https://www.abet.org/>

Program Requirements

Required General Education

Students in this degree must complete 18 additional general education course credit hours to meet university general education and diverse cultures requirements

A course in communication principles to develop skills in the analysis and presentation of speeches.

Prerequisites: none

Goal Areas: GE-1B

This course helps students develop a flexible writing process, practice rhetorical awareness, read critically to support their writing, research effectively, represent others ideas in multiple ways, reflect on their writing practices, and polish their work.

Prerequisites: none

Goal Areas: GE-1A

Prerequisites to the Major

his course presents algorithmic approaches to problem solving and computer program design using the C language. Students will explore Boolean expressions, implement programs using control structures, modular code and file input/output, and interface with external hardware using robots and sensors.

Prerequisites: EE 106

A course that teaches how to write computer assembly language programs, make subroutine calls, perform I/O operations, handle interrupts and resets, interface with a wide variety of peripheral chips to meet the requirements of applications.

Prerequisites: EE 106, EE 107

Use of development boards and assembly language programming to handle interrupts, interface with parallel I/O ports, memory, and timers. Experiments will involve signal and frequency measurements, data conversions, and interface design.

Prerequisites: EE 106, EE 107

A study of DC electrical circuits, Kirchhoff's laws, series and parallel circuits, inductors, capacitors, circuit response to RL, RC and RLC circuits. Thevenin's equivalent circuit theorem, and other network analysis theorems. Use of dependent sources in DC circuits. Prereq: MATH 115, or concurrent

Prerequisites: MATH 115, or concurrent 

A study of AC circuits, power, phasors, series and parallel AC networks, and network analysis theorems. Ohm's Laws and Kirchhoff's Laws for AC circuits. Use of dependent sources in AC circuits.

Prerequisites: EET 113 

This course covers digital circuit and logic needed for electronic and computer engineering technology. Covers binary arithmetic, timing anlaysis, TTL, CMOS, logic gates, Boolean algebra, multiplexer, counter, adder, comparator, logic simulation, flip-flops, registers, and use of digital test equipment. Students design and build a complex architecture from small-scale logic components. Coreq: EET 113 Fall

Prerequisites: none

Sequential cuircuits, logic timing, clock distribution, counter, LED display, shift register, transceiver, 555 timer, 555 oscillator, D/A converter, RAM, ROM, mass memory, synchronous logic, asynchronous logic, microprocessor-interfacing, testability, and simulation.

Prerequisites: EE 107, EET 142

Drafting principles involving use of computer electronic CAD software in laying out block diagrams, schematic diagrams, production drawings, graphical presentation of data, and printed circuit board layout and construction.

Prerequisites: EET 113

An introduction to semiconductor theory and circuits: includes characteristics curves, biasing techniques and small signal analysis of FETs and MOSFETs, feedback concept, BJT and FETs frequency response. Prereq: EET 114 or concurrent

Prerequisites: EET 113 

An introduction to differential amplifier, linear and nonlinear operational amplifiers, power amplifiers, linear digital ICs, oscillators, power supplies, D/A, A/D conversion, four layered devices and their applications.

Prerequisites: EET 222

This course will cover topics of precalculus mathematics. Topics covered will include functions, graphs of functions, exponential and logarithmic functions, conic sections, systems of equations and inequalities, matrices, trigonometric functions, circular functions, vectors and complex numbers, induction, series and probability.

Prerequisites: Satisfy Math Placement Table in this section, or grade of P in MATH 098.

Goal Areas: GE-04

Limits, continuity, the derivative and applications, transcendental functions, L'Hopital's Rule, and development of the Riemann integral.

Prerequisites: Satisfy Placement Table in this section, MATH 115 or both MATH 112 and MATH 113 with “C” (2.0) or better.

Goal Areas: GE-04

A continuation of the study of calculus from MATH 121 including transcendental functions, L'Hopital's rule, techniques of integration, and vectors in two and three dimensions. Content is intended for students enrolled in any engineering technology program. Credit for both MATH 127 and MATH 122 is not allowed.

Prerequisites: MATH 121 with “C” (2.0) or better or consent

General background in physical concepts for those who do not plan advanced study in physics or engineering. Topics include mechanics, fluids, heat and thermodynamics. Lecture and laboratory.

Prerequisites: Either MATH 112 and MATH 113, or MATH 115; and high school physics or PHYS 101. 

Goal Areas: GE-02, GE-03

Includes waves and sound, electricity and magnetism, light and optics, and topics in modern physics. Lecture and laboratory.

Prerequisites: PHYS 211 

Major Common Core

Three (3) credits of EET 497 may be used to satisfy major common core requirements.

This course is an introduction to general chemistry. It is a non-laboratory class designed to prepare students for CHEM 201 or to be utilized as a general education course. This course will address more mathematical relationships than CHEM 106. Credit will not be given to students who have previously taken a chemistry course at or above Chem 111 and received a passing grade.

Prerequisites: none

Goal Areas: GE-03

The features, data rate, frequency range, and operation of several wireless networking protocols such as Wi-Fi, Low Energy Bluetooth, Near Field Communication, Radio frequency Identifier (RFID), Threads, and ZigBee that can be used to implement Internet of Things (IoT) are introduced. The electrical, functional, and procedural specifications of Wi-Fi are then examined in detail. The programming and data transfer using the hardware Wi-Fi kit are carried out to demonstrate the versatility of this protocol.

Prerequisites: none

Several programming tools and their use in creating electronic hardware systems are covered in this course. Creating special-purpose hardware using numerical analysis programs written in C. Creating hardware utilizing Visual applications written in C. Use of scripting languages in hardware applications. Using Excel for input-output functions.

Prerequisites: EET 143, EET 222. EE 234 or EET 254

An introduction to tools, equipment, materials, and techniques used in fabrication of electronic projects and printed circuit boards.

Prerequisites: EE 107, EET 142

An introduction to the basic foundations of computer networking. The course will encompass telecommunications, local area networks, wide area networks and wireless communication. Topics covered include OSI model, the TCP/IP MODEL, different network topologies and associated hardware, error detection and correction, protocols, and security.

Prerequisites: EET 223. EE 234 or EET 254

Design and prototyping of embedded systems including both hardware and software components. A variety of hardware, software, sensors and displays will be used depending on the embedded system requirements. Issues related to hardware and software specifications will be studied as well as appropriate documentation standards.

Prerequisites: EET 143

Automation components and subsystems involving sensors, transistors, logic, amplifiers, software, microprocessors, PLC's, actuators, encoders, stages, motors, controllers and drives. Students design, simulate, build, test and document automation systems for Capstone projects.

Prerequisites: EET 223. EE 234 or EET 254

Continues building skills in automation components and subsystems involving sensors, transistors, logic, amplifiers, software, microprocessors, PLC's, actuators, encoders, stages, motors, controllers and drives. Students design, simulate, build, test and document automation systems for Capstone projects.

Prerequisites: EET 461 

A study of a high performance microprocessor architecture. Applications of a microprocessor for monitoring and controlling systems will be studied. Optimal utilization of a microprocessors resources will be stressed. PC programming in assembly and a high level language.

Prerequisites: EET 143 

Should be taken at end of junior year. Permission required. Pre: 40 hrs EET credits or written permission from program coordinator.

Prerequisites: none

This course is an introduction to the mathematical concepts needed in computer science, including sets, logic, representations of numbers, counting techniques, discrete functions, matrices, trees and graphs, and algorithm analysis.

Prerequisites: MATH 112 or equivalent, with “C” (2.0) or better, or consent

Goal Areas: GE-04

This course is focused on quality assurance systems, management philosophies, methodology, function and impact of quality systems in manufacturing operations. Development and application of statistical process control tools.

Prerequisites: STAT 154

Major Restricted Electives

Choose a minimum of 4 credits from 300-level and 400-level courses with Advisor's approval.

Major Unrestricted Electives

May be substituted with STAT 154 (4) or STAT 354 (4).

An introduction to statistics with emphasis on the applied probability models used in Science and Engineering. Topics covered include samples, probability, probability distributions, estimation, one and two samples hypotheses tests, correlation, simple and multiple linear regressions.

Prerequisites: MATH 112 with grade of “C” (2.0) or better 

Minor

None Required.

4-Year Plan

The 4-Year Plan is a model for completing your degree in a timely manner. Your individual 4-Year plan may change based on a number of variables including transfer courses and the semester/year you start your major. Carefully work with your academic advisors to devise your own unique plan.
* Please meet with your advisor on appropriate course selection to meet your educational and degree goals.

First Year

Fall - 15 Credits

This course helps students develop a flexible writing process, practice rhetorical awareness, read critically to support their writing, research effectively, represent others ideas in multiple ways, reflect on their writing practices, and polish their work.

Prerequisites: none

Goal Areas: GE-1A

A study of DC electrical circuits, Kirchhoff's laws, series and parallel circuits, inductors, capacitors, circuit response to RL, RC and RLC circuits. Thevenin's equivalent circuit theorem, and other network analysis theorems. Use of dependent sources in DC circuits. Prereq: MATH 115, or concurrent

Prerequisites: MATH 115, or concurrent 

This course will cover topics of precalculus mathematics. Topics covered will include functions, graphs of functions, exponential and logarithmic functions, conic sections, systems of equations and inequalities, matrices, trigonometric functions, circular functions, vectors and complex numbers, induction, series and probability.

Prerequisites: Satisfy Math Placement Table in this section, or grade of P in MATH 098.

Goal Areas: GE-04

This course covers digital circuit and logic needed for electronic and computer engineering technology. Covers binary arithmetic, timing anlaysis, TTL, CMOS, logic gates, Boolean algebra, multiplexer, counter, adder, comparator, logic simulation, flip-flops, registers, and use of digital test equipment. Students design and build a complex architecture from small-scale logic components. Coreq: EET 113 Fall

Prerequisites: none

Spring - 16 Credits

A course in communication principles to develop skills in the analysis and presentation of speeches.

Prerequisites: none

Goal Areas: GE-1B

his course presents algorithmic approaches to problem solving and computer program design using the C language. Students will explore Boolean expressions, implement programs using control structures, modular code and file input/output, and interface with external hardware using robots and sensors.

Prerequisites: EE 106

A study of AC circuits, power, phasors, series and parallel AC networks, and network analysis theorems. Ohm's Laws and Kirchhoff's Laws for AC circuits. Use of dependent sources in AC circuits.

Prerequisites: EET 113 

Limits, continuity, the derivative and applications, transcendental functions, L'Hopital's Rule, and development of the Riemann integral.

Prerequisites: Satisfy Placement Table in this section, MATH 115 or both MATH 112 and MATH 113 with “C” (2.0) or better.

Goal Areas: GE-04

General Education Course * 3 credits

Second Year

Fall - 17 Credits

A continuation of the study of calculus from MATH 121 including transcendental functions, L'Hopital's rule, techniques of integration, and vectors in two and three dimensions. Content is intended for students enrolled in any engineering technology program. Credit for both MATH 127 and MATH 122 is not allowed.

Prerequisites: MATH 121 with “C” (2.0) or better or consent

Sequential cuircuits, logic timing, clock distribution, counter, LED display, shift register, transceiver, 555 timer, 555 oscillator, D/A converter, RAM, ROM, mass memory, synchronous logic, asynchronous logic, microprocessor-interfacing, testability, and simulation.

Prerequisites: EE 107, EET 142

General background in physical concepts for those who do not plan advanced study in physics or engineering. Topics include mechanics, fluids, heat and thermodynamics. Lecture and laboratory.

Prerequisites: Either MATH 112 and MATH 113, or MATH 115; and high school physics or PHYS 101. 

Goal Areas: GE-02, GE-03

Drafting principles involving use of computer electronic CAD software in laying out block diagrams, schematic diagrams, production drawings, graphical presentation of data, and printed circuit board layout and construction.

Prerequisites: EET 113

An introduction to semiconductor theory and circuits: includes characteristics curves, biasing techniques and small signal analysis of FETs and MOSFETs, feedback concept, BJT and FETs frequency response. Prereq: EET 114 or concurrent

Prerequisites: EET 113 

Spring - 17 Credits

Includes waves and sound, electricity and magnetism, light and optics, and topics in modern physics. Lecture and laboratory.

Prerequisites: PHYS 211 

An introduction to differential amplifier, linear and nonlinear operational amplifiers, power amplifiers, linear digital ICs, oscillators, power supplies, D/A, A/D conversion, four layered devices and their applications.

Prerequisites: EET 222

A course that teaches how to write computer assembly language programs, make subroutine calls, perform I/O operations, handle interrupts and resets, interface with a wide variety of peripheral chips to meet the requirements of applications.

Prerequisites: EE 106, EE 107

Use of development boards and assembly language programming to handle interrupts, interface with parallel I/O ports, memory, and timers. Experiments will involve signal and frequency measurements, data conversions, and interface design.

Prerequisites: EE 106, EE 107

An introduction to tools, equipment, materials, and techniques used in fabrication of electronic projects and printed circuit boards.

Prerequisites: EE 107, EET 142

General Education Course * 3 credits

Third Year

Fall - 17 Credits

This course is an introduction to general chemistry. It is a non-laboratory class designed to prepare students for CHEM 201 or to be utilized as a general education course. This course will address more mathematical relationships than CHEM 106. Credit will not be given to students who have previously taken a chemistry course at or above Chem 111 and received a passing grade.

Prerequisites: none

Goal Areas: GE-03

Several programming tools and their use in creating electronic hardware systems are covered in this course. Creating special-purpose hardware using numerical analysis programs written in C. Creating hardware utilizing Visual applications written in C. Use of scripting languages in hardware applications. Using Excel for input-output functions.

Prerequisites: EET 143, EET 222. EE 234 or EET 254

A study of a high performance microprocessor architecture. Applications of a microprocessor for monitoring and controlling systems will be studied. Optimal utilization of a microprocessors resources will be stressed. PC programming in assembly and a high level language.

Prerequisites: EET 143 

General Education Course * 3 credits

General Education Course * 3 credits

Spring - 14 Credits

This course is an introduction to the mathematical concepts needed in computer science, including sets, logic, representations of numbers, counting techniques, discrete functions, matrices, trees and graphs, and algorithm analysis.

Prerequisites: MATH 112 or equivalent, with “C” (2.0) or better, or consent

Goal Areas: GE-04

An introduction to statistics with emphasis on the applied probability models used in Science and Engineering. Topics covered include samples, probability, probability distributions, estimation, one and two samples hypotheses tests, correlation, simple and multiple linear regressions.

Prerequisites: MATH 112 with grade of “C” (2.0) or better 

General Education Course * 3 credits

Fourth Year

Fall - 16 Credits

This course is focused on quality assurance systems, management philosophies, methodology, function and impact of quality systems in manufacturing operations. Development and application of statistical process control tools.

Prerequisites: STAT 154

Automation components and subsystems involving sensors, transistors, logic, amplifiers, software, microprocessors, PLC's, actuators, encoders, stages, motors, controllers and drives. Students design, simulate, build, test and document automation systems for Capstone projects.

Prerequisites: EET 223. EE 234 or EET 254

The features, data rate, frequency range, and operation of several wireless networking protocols such as Wi-Fi, Low Energy Bluetooth, Near Field Communication, Radio frequency Identifier (RFID), Threads, and ZigBee that can be used to implement Internet of Things (IoT) are introduced. The electrical, functional, and procedural specifications of Wi-Fi are then examined in detail. The programming and data transfer using the hardware Wi-Fi kit are carried out to demonstrate the versatility of this protocol.

Prerequisites: none

Should be taken at end of junior year. Permission required. Pre: 40 hrs EET credits or written permission from program coordinator.

Prerequisites: none

General Education Course * 3 credits

Spring - 16 Credits

An introduction to the basic foundations of computer networking. The course will encompass telecommunications, local area networks, wide area networks and wireless communication. Topics covered include OSI model, the TCP/IP MODEL, different network topologies and associated hardware, error detection and correction, protocols, and security.

Prerequisites: EET 223. EE 234 or EET 254

Design and prototyping of embedded systems including both hardware and software components. A variety of hardware, software, sensors and displays will be used depending on the embedded system requirements. Issues related to hardware and software specifications will be studied as well as appropriate documentation standards.

Prerequisites: EET 143

Continues building skills in automation components and subsystems involving sensors, transistors, logic, amplifiers, software, microprocessors, PLC's, actuators, encoders, stages, motors, controllers and drives. Students design, simulate, build, test and document automation systems for Capstone projects.

Prerequisites: EET 461 

Elective Course in Major * 4 credits