Instructional Material on Electromagnetic Compatibility, Signal Integrity, and High Speed Design

有关电磁兼容性、信号完整性和高速设计的教学材料

• 批准号: 0618494
• 负责人: James Drewniak
• 金额: $ 49.46万
• 依托单位: Missouri University of Science and Technology
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-09-01 至 2011-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0618494&HistoricalAwards=false
• 关键词: Instructional; Material; Electromagnetic; Compatibility; Signal

Engineering - Electrical (55)This project, a collaboration between the University of Missouri-Rolla and Rose-Hulman Institute of Technology, is developing and disseminating an undergraduate high-speed electronic circuit design program that emphasizes knowledge integration through a hardware design focus. Increases in electronic circuit functionality, density, and speeds have combined to require that graduates have new knowledge and skills. To work effectively in this environment, electrical and computer engineers in areas from design to application to installation will require a thorough understanding of electromagnetic foundations, electromagnetic compatibility, and signal integrity as well as hardware applications of the principles. The project is creating laboratory and classroom instructional modules that include background material, theoretical foundations, solution examples, extended discussion, modern applications, problem exercises, CAD simulations, and design problems. The modular structure provides flexibility and facilitates the dissemination not only to other universities but also to industry. A distance education course in signal integrity, a 2nd edition of the textbook on PCB design for real world EMI control, on-line web material repositories, conference presentations, journal articles, and faculty workshops will provide dissemination to a broad audience in education and industry. Special educational modules are also being developed specifically for use in an intensive three-week summer program for high school seniors. Evaluation instruments are being developed and used to assess the effectiveness, and the modules will be evaluated in three other settings at the University of Akron, Washington State University, and North Dakota State University. Broader impacts include the dissemination of the materials both in academia and in industry and the high school outreach effort.

工程-电气（55）该项目是密苏里大学罗拉分校和罗斯-休曼理工学院之间的合作，正在开发和传播一个本科高速电子电路设计课程，该课程强调通过硬件设计重点进行知识整合。电子电路功能，密度和速度的增加结合起来，要求毕业生拥有新的知识和技能。为了在这种环境中有效地工作，从设计到应用再到安装的电气和计算机工程师需要彻底了解电磁基础，电磁兼容性和信号完整性以及硬件应用的原理。 该项目正在创建实验室和课堂教学模块，包括背景材料，理论基础，解决方案示例，扩展讨论，现代应用，问题练习，CAD模拟和设计问题。模块化结构提供了灵活性，不仅有利于传播到其他大学，也有利于行业。信号完整性的远程教育课程、真实的世界EMI控制PCB设计教科书第二版、在线网络材料库、会议演示、期刊文章和教师研讨会将向教育和工业界的广泛受众提供传播。还专门为高中高年级学生制定了为期三周的强化暑期课程。 正在开发评价工具，用于评估效果，这些单元将在阿克伦大学、华盛顿州立大学和北达科他州州立大学的其他三个环境中进行评价。 更广泛的影响包括在学术界和工业界传播这些材料，以及在高中开展外联工作。