柔性无线驱动LED器件的教学实验设计与研究
Teaching Experiment Design and Research of Flexible Wireless Driven LED Devices
秦国峰 1唐刘燕 1雷昇 1乔禹润 1王高彬 1张榆果 1贾庆岩 1李鹏1
作者信息
- 1. 西北工业大学 柔性电子研究院(柔性电子前沿科学中心),陕西 西安 710072
- 折叠
摘要
电磁感应作为无线供电技术的重要理论基础,利用磁通量变化产生感应电动势,为电子产品提供更加便捷和安全的无接触式供电方式.为提升学生的实验兴趣和实验技能,进一步培养其科研和创新意识,设计基于磁耦合共振原理的柔性无线驱动LED器件制作实验.通过对柔性无线驱动LED器件全流程的参与实践,让学生充分了解和学习磁耦合共振原理、电路设计、电路仿真模拟、电路板打印与制作、电学性能检测等相关知识,同时培养学生实验数据分析和解决问题的能力.
Abstract
Electromagnetic induction,as an important theoretical basis of wireless power technology,uses magnetic flux changes to generate induced electromotive force,providing a more convenient and secure contactless power supply for electronic products.In order to enhance students'experimental interest and skills,as well as further cultivate their awareness of scientific research and innovation,a flexible wireless driven LED device manufacturing experiment based on the principle of magnetic coupling resonance was designed.Through actively participating in the whole process of fabricating the flexible wireless LED device,students can fully understand and learn the principle of magnetic coupling resonance,circuit design,circuit simulation modeling,circuit board printing and production,electrical performance detection,and other related knowledge.Meanwhile,this experiment aims to develop students'abilities in analyzing experimental data and problem-solving.
关键词
磁共振/无线供电/柔性电子/微电子打印/印刷电路Key words
magnetic resonance/wireless power supply/flexible electronics/microelectronic printing/printed circuit引用本文复制引用
基金项目
国家自然科学基金(52273302)
陕西省大学生创新创业训练计划项目(S202310699733)
出版年
2024
NETL
NSTL
万方数据