Bachelor of Science (B.S.) Major in Engineering Technology (Electrical Engineering Technology Concentration) | Texas State University

Skills & Competencies

Skills developed through this program

Auto-populatedfrom O*NET via SOC 17-2071.00

Skills

WritingCritical ThinkingReading ComprehensionActive LearningActive ListeningSpeakingComplex Problem SolvingMonitoring

Knowledge

Engineering and TechnologyComputers and ElectronicsDesignEnglish LanguageMathematics

Abilities

Written ComprehensionWritten ExpressionOral ComprehensionOral ExpressionProblem SensitivityDeductive ReasoningInductive ReasoningInformation OrderingCategory FlexibilityNear Vision

Tasks

Design, implement, maintain, or improve electrical instruments, equipment, facilities, components, p
Oversee project production efforts to assure projects are completed on time and within budget.
Direct or coordinate manufacturing, construction, installation, maintenance, support, documentation,

Technology

Development environment softwareFile versioning softwareAnalytical or scientific softwareWAN switching software and firmwareComputer aided design CAD software

Tools

AccelerometersAnnealing furnacesAtomic force microscopesAuger electron spectrometersComputer serversCylindrical corona testersDiffractometersDiffusion furnacesDigital oscilloscopesDigital video camerasDigital voltmeters DVMDoping tubesElectrical flow metersElectrochemical CV dopant profilersElectrochemical etching devices

Work Values

AchievementWorking ConditionsRecognitionIndependenceRelationshipsSupport

Career Pathways

Occupations this program prepares you for

Auto-populatedfrom O*NET + BLS

Occupations matched to this program, with median wage, top wage, growth, and openings
SOC	Occupation	Method	Wage	Growth	Openings
Match confidence: high17-2071.00	Electrical Engineers	title_inference	—	—	—

Program Pathways

Credentials this program stacks toward

No program pathways.

What You'll Learn

Key competencies developed through this program

Auto-populatedfrom NSX Competency Framework

Mastery: proficient (Level 3)(based on Bachelor's Degree)

Complex electrical systems for commercial, industrial, or domestic applications — design end-to-end autonomously, integrating power distribution, control, and protection schemes.
Non-routine engineering problems — diagnose and resolve independently using advanced critical thinking, systems analysis, and physics-based reasoning across the full project lifecycle.
Manufacturing and construction standards — establish authoritative specifications through detailed engineering calculations, ensuring compliance with regulatory, safety, and customer requirements.
CAD, simulation, and analytical software — utilize across the full design workflow to model, validate, and optimize electrical systems before and during implementation.
Industrial control and SCADA software — configure and evaluate to verify system integration, operational safety, and compliance with process control specifications.
Inspection and operational observation programs — lead on-site reviews of completed installations, judging conformance to design, equipment, and environmental standards without external direction.
Customer and stakeholder technical consultations — drive discussions to clarify project requirements, resolve design conflicts, and communicate engineering trade-offs clearly and persuasively.
Vendor qualification and product testing programs — direct structured investigations that benchmark competing products against technical and cost criteria, producing defensible recommendations.
Project production oversight — manage scope, schedule, and budget across engineering phases, applying judgment to balance technical quality with delivery constraints.
Emerging technologies and industry research — pursue active learning independently to incorporate advances in power electronics, renewable integration, or grid modernization into current practice.

Course Pathway

35 courses in this program

Program Requirements

Courses required to complete this program

PHYS 2325Mechanics

3 cr

EE 3326Numerical and Scientific Data Analysis Using Python

3 cr

PHYS 2125Mechanics Laboratory

1 cr

MATH 2471Calculus I

4 cr

ENGR 2300Materials Engineering

3 cr

IE 3320Engineering Statistics

3 cr

CHEM 1335Engineering Chemistry

3 cr

MATH 2472Calculus II

4 cr

CHEM 1135Engineering Chemistry Laboratory

1 cr

US 1100University Seminar

1 cr

TECH 2370Electricity/Electronics Fundamentals

3 cr

TECH 3373Communication Systems

3 cr

EE 3320Microprocessors

3 cr

PHIL 1320Ethics and Society

3 cr

EE 3120Microprocessors Lab

1 cr

TECH 2351Statics and Strength of Materials

3 cr

TECH 3370Electronics

3 cr

TECH 3364Quality Assurance

3 cr

ENGR 3315Engineering Economic Analysis

3 cr

TECH 1311Engineering Design Graphics

3 cr

EE 2320Digital Logic

3 cr

TECH 2190Industrial Internship

1 cr

EE 2120Digital Logic Lab

1 cr

CS 1428Foundations of Computer Science I

4 cr

PHYS 2326Electricity and Magnetism

3 cr

PHYS 2126Electricity and Magnetism Laboratory

1 cr

MGT 4330Operations Management

3 cr

MGT 3301Introduction to Management

3 cr

TECH 4392Micro and Nano Manufacturing

3 cr

TECH 4372Electronic Devices and Circuits

3 cr

TECH 4382Senior Design II

3 cr

TECH 4381Senior Design I

3 cr

EE 4321Digital Systems Design Using HDL

3 cr

TECH 4373Control Systems and Instrumentation

3 cr

TECH 4380Industrial Safety

3 cr

Program Details

Detailed information about this program

No detailed information available.

Requirements

What you need to earn this credential

No requirements listed.

Financial Aid

Eligible funding programs

No funding information available.

Scholarships

No scholarships listed.