电气工程
B.S. 电气工程专业
Build on your passion for engineering at one of two locations.
Electrical Engineers develop innovative solutions and work with technology in a wide variety of applicable fields, such as computer networking and telecommunications. Students will gain experience and knowledge through our hands-on electrical engineering curriculum.
Our graduates are highly sought out and employed by companies such as the National Security Agency, 美国国家航空航天局, 诺斯罗普·格鲁曼公司, 凤凰科技, 和其他U.S. 政府机构.
澳门十大赌城官方网站的课程涵盖以下领域:
- Fundamentals Digital and Electric Circuits Lab
- 数字逻辑设计
- 模拟和数字电子学
- 信号与系统理论
- 计算机组织
- 机电与机器人设计
你有选择
The engineering program at FSU provides many options for meeting your individual needs. Partnering with institutions of higher education across the state of Maryland, FSU helps you choose how to best fulfill your personal goals. The 电气工程 Concentration offers two pathway options:
- 途径选项2:AACC位置
获得A.S. 或者一个.S.E. degree at a community college; then finish your B.S. 现场学位, interactive video and online courses at Anne Arundel 社区 College at the Arundel Mills Regional Higher Education Center.
课堂之外
In addition to coursework, you'll have a variety of ways to build your skill set and resume.
- Gain real-world experience with the technology you will use in your career through an internship or FSU work-study as a lab assistant. Past FSU engineering students have had internships with companies such as 美国国家航空航天局, J.F. Taylor, Jefferson Lab, Cardinal Scientific, and 诺斯罗普·格鲁曼公司.
- Prepare to join top companies in the region and beyond.
- 使用最先进的技术, 比如增材制造3D打印实验室, 材料测试实验室, 计算工程工作站, 机器人实验室和许多其他伟大的资源.
- Develop leadership skills by joining engineering clubs such as The American Society of Mechanical Engineers (ASME) and The National Society of Black Engineers and take part in volunteer and outreach events with fellow students.
关于工程学院
- Learn one-on-one with your professors in small classes that give you an abundance of re来源 and guidance.
- Discover your interest in engineering with professors who can provide you with unique hands-on learning, such as interdisciplinary capstone project development and collaboration opportunities in energy, 自主车辆, 传感, 防守队, 和更多的.
使命宣言
The mission of the 电气工程 Program at 澳门十大赌城官方网站 is to provide excellent undergraduate education in Electrical engineering; to establish close partnerships with and provide technical knowledge to industry, 政府, and local business; to contribute to 经济 development within the state of Maryland, specifically in the Western Maryland region; and to provide related services to the campus community and community at large.
- 教育目标
还有几年就要毕业了, the graduates of the 电气工程 Program at 澳门十大赌城官方网站 will:
- Perform as valuable employees or professionals in their career paths centered on 电气工程 skills.
- Apply their broader analytical skill set through finding innovative solutions to real-world problems and creating new knowledge, 的想法, 和产品.
- Demonstrate professionalism and an ability to think globally through constructive teamwork, 小组解决问题, and effective communication with others without an engineering background.
- Demonstrate ethical decision-making in their positions of responsibility and leadership.
- Engage in life-long learning by enhancing their technical knowledge and understanding of contemporary issues and taking advantage of professional development opportunities.
- 项目的结果
The students of the 电气工程 Program at 澳门十大赌城官方网站 will demonstrate the following throughout the curriculum:
- 识别能力, 制定, and solve complex engineering problems by applying principles of engineering, 科学, 和数学.
- An ability to apply engineering 设计 to produce solutions that meet specified needs with consideration of public health, 安全, 和福利, 以及全球, 文化, 社会, 环境, 经济因素.
- An ability to communicate effectively with a range of audiences.
- An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, 经济, 环境, 以及社会背景.
- An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, 建立目标, 计划任务, 达到目标.
- An ability to develop and conduct appropriate experimentation, 分析和解释数据, and use engineering judgment to draw conclusions.
- An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
- 必修课程
ENES 100:工程设计入门
课程描述:FSU课程, 工程设计过程导论, 用于文字处理的计算机软件, 电子表格, 计算机辅助设计, 沟通技巧. Students work as teams to 设计 and build a project. 两个小时. 讲座和两个HRS. 每周复习课. 每学期. 3学分.数字逻辑
先决条件: ENES 100 Introduction to Engineering 设计.课程描述: 门、触发器、寄存器和计数器. 门网络的卡诺图简化. 交换代数. 同步顺序系统. 塑料. 二进制算术单位的元素. 四个小时. 前提条件:enes100. 秋天. 4个学分.
ENME 272: C入门.A.D
先决条件: ENES 100,数学237得C或以上.课程描述: Fundamentals of 计算机辅助设计, using solid modeling packages (Pro/E, SolidWorks, and Autodesk Inventor). 二维和三维绘图. 尺寸和规格. 介绍基于cad的分析工具. 学生将完成一个设计项目.
基本电路理论
先决条件: PHYS 262 and co-requisite MATH 237.课程描述: 基本电路元件:电阻器, 电容器, 电感器, 来源, 互感, and transformers; their I-V relationships. 基尔霍夫定律. 直流和交流稳态分析. Phasors, node and mesh analysis, superposition, theorems of Thevenin and Norton. Transient analysis for first- and second-order circuits. 每周上四个小时的课. 春天.
电路实验室
先决条件:ENEE 244. 要求:ENEE 204.实验说明: Introduction to basic measurement techniques and electrical laboratory equipment (power supplies, 示波器, 电压表, 等.). 设计, 建设, and characterization of circuits containing passive elements, 运算放大器, 数字集成电路. 瞬态和稳态响应. This course is a prerequisite to all upper-level ENEE laboratories. 一个人力资源. 讲座和三个HRS. 每周实验班. 春天.
数值方法
先决条件:物理261,数学237.课程描述: Develop the skills to generate readable, 紧凑的, and verifiably correct scripts and functions in MATLAB and C++ to obtain numerical solutions to a wide range of engineering models and to display the results with fully annotated graphics. 学习结构化编程. 3学分.前苏联的课程. 两节课,两个小时. 每周实验班. 春天.
模拟和数字电子学
先决条件: C or better in each of ENEE 204, ENEE 206, and ENEE 244. 共同要求:ENEE 307.课程描述: Introduction to the conceptual physical operation of PN-junction diodes, 场效电晶体, 双极晶体管(BJTs). Large signal terminal characteristics of PN junction diodes, bipolar, and MOSFET transistors. Digital electronics is covered at the transistor level, including the inverter, NAND, and NOR gates. 半导体存储器. 晶体管的基本电路结构, including the BJT common emitter (CE) and common collector (CC) circuits, and the MOSFET common source (CS) and common drain (CD) configurations. DC bias and small-signal analysis of BJTs and 场效电晶体. Simple multitransistor circuits, including the differential amplifier and the current mirror. 简单放大器的频率响应. 秋天.
电子电路设计
先决条件: C or better in each of ENEE 204, ENEE 206, and ENEE 244. 必要条件:ENEE 303.课程描述: I-V properties of diodes and transistors through simple experiments. 分析, 设计, and 建设 of digital and analog electronic circuits at the transistor and integrated circuit levels. Operation and 设计 of relevant multi-transistor circuits. BJT forward active operation by study of CE 设计, bias, and small-signal operation. MOS common source operation, the study of inverters, NAND, and NOR gates. Simulation and analysis of Random Access Memory (RAM). Study of basic transistor configurations and frequency response by building a high-fidelity audio amplifier. 差动放大器, 活跃的负载, 当前的镜子, and principles of feedback through the 建设 of opamps from discrete components. Experiments will be tightly aligned to the ENEE 303 lectures. Not open to students who have credit for former ENEE 306. 每周一小时的课,三小时的实验. 秋天.
ENEE 322:信号和系统理论
先决条件: ENEE 204和MATH 432.课程描述:线性系统的概念, 线性系统的状态空间方程, 信号的时域和频域分析, 线性系统. 傅里叶变换,拉普拉斯变换和Z变换. Application of theory to problems in electrical engineering. 秋天.
电磁理论
先决条件: 物理263和初级地位. 先决条件:数学432.课程描述: Study of electromagnetic fields, 库仑定律, 高斯定律, 电势, 图像法, 边值问题, 多极展开, 毕奥萨伐尔定律, 安培定律, 洛伦兹力方程, 法拉第定律, 和麦克斯韦方程. 秋天.
ENES 310:机电一体化和机器人
先决条件: ENME 350或ENEE 204.课程描述: Components of mechatronics systems and robotics. 机电系统控制. Material handling systems, numerically controlled tools, flexible manufacturing systems. Sensors, transducers, actuators, data acquisition, and computer interfacing. 过程控制系统. Dynamics of electromechanical systems, 设计 considerations, and contemporary practical issues. 两个小时. 讲座和两个HRS. 每周实验活动. 秋天.
ENEE 445:通信系统
先决条件: ENEE 322.课程描述: Introduction to continuous waveform modulation techniques. 数字调制技术概论, random processes in communication systems analysis, understanding of analog-to-digital and digital-to-analog conversions, 采样和量化技术, lab experience using instrumentation equipment commonly used in industry, 比如示波器, 频谱分析仪, 射频信号发生器, analog-to-digital and digital-to-analog converters, 等. 两个小时. 讲座和两个HRS. 每周实验班. 春天. 4 cr.
能源工程
先决条件: 263年物理.课程描述: Principles of thermodynamics; conventional and alternative energy 来源 and storage systems. Integration of alternative 来源 of energy and distributed generation. Energy conservation, 环境 impacts of energy use, energy sustainability. 春天.
计算机组织
先决条件: ENEE 204、206和244的“C”或更高.课程描述: Structure and organization of digital computers. 寄存器、内存、控制和I/O. Data and instruction formats, addressing modes, assembly language programming. Elements of system software, subroutines, and their linkages. 每周上四个小时的课. 秋天.
ENEE 481:项目开发
先决条件: Completion of ENEE 204, ENEE 206, and ENEE 244 with a “C” or better.课程描述: Introduction to product development in the field of electrical engineering. Selection of a subject for the Capstone 设计 Project course. 设计概念的发展. Preliminary 设计 to prepare of a list of materials, 部分, and equipment needed to build and test a prototype. Codes and standards related to manufacturing and testing of the selected product. 团队合作准备项目提案. Preparation of technical reports and oral presentations to discuss technical, 经济, 环境, 以及拟议设计的伦理方面. Preparation of a proposal for a capstone 设计 project. 秋天.
ENEE 408:顶点
先决条件: ENEE 481及系主任许可.课程描述:高潮 之前的电气工程课程. Utilization of modern 设计 tools and methodologies for the 设计 of components or systems under realistic constraints, with particular emphasis on teamwork and oral/written communication. 设计 problems in contemporary and emerging areas of electrical engineering are assigned to project teams. 春天.
信号处理
共同要求:ENEE 350.课程描述: Selected topics in signal processing. 只适用于电气工程专业. 变量. 可修读6个学分.
ENEE 475:电力电子
先决条件: 在ENEE 303或ENME 350中“C”或更高.课程描述: Basic principles of power electronics and its applications. 分析方法, 规范电路拓扑, 功率半导体基础, 冷落的电路, 驱动电路, 以及控制方法. 春天.
电气工程师的职业前景
电气工程 is an in-demand field of engineering, with many electrical engineers employed in telecommunication industries, 半导体/电子制造业, 联邦政府, including research and development for aviation, 卫星, 雷达, 以及通信系统. 欲了解更多信息,请访问 Bureau of Labor Statistics - 电气工程.