"微电子器件"课程思政改革探索

"微电子器件"是微电子相关专业的核心基础课程,通过课程的学习能够使学生掌握各种微电子器件的原理和特性,为学生后续学习和深造打下了理论基础.课程思政是新形势下高校专业课程教学改革的主要目标之一.本课程组深入探讨了在"微电子器件"课程中融入思政元素的可行性,提出实施课程思政的基本思路和具体措施.改革有效地提高了课程教学质量...     

微电子专业"半导体材料"课程的教学改革

为适应新形势下对微电子人才培养的要求,本文对"半导体材料"的课程内容、教学方法和考核方式进行了多方面的改革.此次改革的目的在于培养学生在主动学习、独立思考和解决问题等多方面的能力,从而探索出为微电子领域和半导体工业界培养高素质综合型人才的教学方案.     

微电子领域科技领军人才引进工作的"瓶颈"与改善

大力引进科技领军人才是我国微电子业目前阶段快速提高竞争力的最有效手段.调查表明,机制、待遇以及子女教育问题是制约我国微电子领域引进科技领军人教授"瓶颈".本文最后给出了一些政策建议.     

同济大学微电子中心吸引"外"援

日前在同济大学99周年校庆之际,同济大学微电子中心和Mentor Graphics共建的“SoC硬件仿真及验证联合实验室”正式揭牌,Mentor Graphics向同济大学微电子中心捐赠了总价值1．8亿美元的EDA设计软件。同时,Mentor Graphics还以35万美元的低价格(市价约为128万美元)向同济大学提供了Vstation ASIC硬件仿真器。     

大类培养模式下"半导体物理与器件"的教学改革

本文分析了在大类培养模式下"半导体物理与器件"课程存在的问题,并基于大类培养方针,结合微电子专业的特点,对"半导体物理与器件"课程提出了教学改革方案.通过合理安排教学内容,采用多样化教学手段,从而改善教学效率,提高学生的学习兴趣和自主性,促进高校高质量地培养微电子领域人才.     

新技术"通过鉴定"后的悲哀

由西北工业大学航空微电子中心研制的、名为龙腾T1芯片的手机用TFT彩色液晶显示驱动控制电路芯片,日前通过陕西省科技厅组织的成果鉴定.这种芯片是国内首家研发成功具有完全自主知识产权的我国首款手机用TFT彩色液晶显示驱动芯片.     

"光谷"现状与展望

上个世纪,硅谷作为微电子技术发展的摇篮,成为高科技的代名词.今天,一个新的词汇--"光谷"开始流行,光谷的全称是"光电子信息产业基地".正如硅谷代表的是微电子产业一样,光谷代表的是一个更加巨大的产业--光电子产业.科学界预测,以光电子信息技术为主导的信息产业将成为21世纪的最大产业,到2010年,在世界范围内将形成5万亿美元的产业规模.     

RoHS指令"战役"开战在即聚焦Nepcon China 2006行业盛会

第十六届中国国际电子生产设备暨微电子工业展(NEPCON China/EMT China 2006)于2006年4月4～7日在上海光大会展中心顺利举行,来自22个国家和地区的650余家展商报名参加了展会.本次展会全方位涵盖了表面贴装装配服务、微电子系统、元器件技术和电子制造服务等众多领域,无铅化指令脚步的日益临近更使得各厂商无不纷纷推出符合无铅化标准的设备、工艺等军中国市场.     

"半导体器件物理"的教学探讨

"半导体器件物理"是微电子专业和电子科学与技术专业的核心基础课,是联系半导体物理和集成电路的关键环节.在工程教育背景下,本文从教学内容、教学方法和手段、实践教学等方面进行了深入的探讨.该教学模式可以降低理论学习的难度,实现理论教学和自主学习相结合,提高教学质量.     

集微控制器核心、外设和4A电动机驱动器于一身的"机械电子"汽车单片系统

采用BCD独有技术,集成了完整的汽车微电子系统,实现了机械部件的内部集成化     

关于在非微电子专业开设微电子技术概论课程的思考与实践

分析了微电子技术发展对当代电子系统设计的影响,讨论了在非微电子专业开设“微电子技术概论”课程的必要性和紧迫性,并对该课程的课程特点、教学内容及教学方法进行了探讨。     

One for all, all for one [microelectronics research funding]

Is European microelectronics R&D on the breadline? Money is the key thing European microelectronics firms want from their governments to keep Europe in the lead in microelectronics and nanotechnology research. Innovation requires funding, and the EU is not injecting enough money into microelectronics R&D, including programmes such as MEDEA+ (Microelectronics Development of European Applications). That's not to say that EU member-states do not invest at all. They do, just not in the areas that offer long and sustained returns on investment, such as electronics and energy, claim MEDEA+ board members. MEDEA+ is a pan-European microelectronics R&D programme. All the funding MEDEA+ receives is seen as a very important EU collaborative project that will keep Europe in the lead in the microelectronics and nanotechnology fields.     

"Dry" lithography using liquid and supercritical carbon dioxide based chemistries and processes

Novel carbon dioxide (CO/sub 2/) soluble photoresists were synthesized based on random copolymers of 1,1-dihydroperfluorooctylmethacrylate and 2-tetrahyrdopyranyl methacrylate. These resins, along with specially designed CO/sub 2/-soluble photoacid generators, were utilized to demonstrate the potential for a new "dry" lithographic process. Photoresist spin casting, development, and stripping were all carried out using only liquid and supercritical CO/sub 2/ as the processing medium. A novel high-pressure spin coating process was used to deposit the photoresist films. Parameters such as resist sensitivity, contrast, and resolution were investigated. Wafers were imaged using both 248and 193-nm radiation, demonstrating the potential of this new photoresist platform for use as a sustainable technology for the microelectronics industry.     

The personal computer in "C & C"

Three areas underpin the developing role of the personal computer: first, the integration of computer and communications technology; second, the developments in microelectronics technology; and third, the packing of software and intelligence into VLSIs resulting in the feasibility of improved man--machine interface. These issues are discussed in this paper. In addition, this paper describes the PC-100 personal computer which provides high-quality graphics capability. This 16-bit personal computer also has a Kanji (Chinese characters used in writing the Japanese language) processing function, which is indispensable in the Japanese market.     

微电子封装技术的发展与展望

微电子技术的发展,推动着微电子封装技术的不断发展、封装形式的不断出新。介绍了微电子封装的基本功能与层次,微电子坟技术发展的三个阶段,并综述了微电子封装技术的历史、现状、发展及展望。     

Correlation between chemistry of polymer building blocks and microelectronics reliability

Among various materials, polymers are widely used in microelectronics as different product constituents, such as encapsulants, conductive or non-conductive adhesives, underfills, molding compounds, insulators, dielectrics, and coatings. The behavior of these polymer constituents determines the performance, such as functionality and reliability, of the final products. Therefore, the successful development of microelectronics depends on, to some extent, the optimal design and processing of polymer materials. Due to the development trends of microelectronics, characterized mainly by ongoing miniaturization down to the nano scale, technology and functionality integration, eco-designing, shorter-time-to-market, development and application of polymers become one of the bottlenecks for microelectronic industry. Aiming at optimizing the product/process development, we have been spending a lot of effort to understand and design polymer behavior in microelectronics, such as material pre-selection, processing, characterization and modeling. Although these efforts are necessary, the ultimate benefits can only be realized if the relationship between chemistry and the behavior can be understood and predicted. This paper presents some results of our effort to establish the links between chemical details of the polymers and microelectronics reliability.     

Microelectronics R&D blossoms in Taiwan

Microelectronics development has progressed rapidly during the past 30 years. Unlike several leading Western countries, with long standing microelectronics facilities, Taiwan's microelectronics industry has grown in a very short time. In 1994, Taiwan's IC production was 3.5 percent of the world's semiconductor market. Based on the current growth rate, Taiwan will account for about 8 percent of the world's semiconductor market in 2000. Taiwan's rapidly growing microelectronics industry is the result of the unprecedented progress in microelectronics education in academic institutions, the strong infrastructure which has been designed for the country's semiconductor industry, and its strong ties to both Japanese as well as western cultures. In order to compete in the IC industry, three basic elements are required-capital, manpower, and determination. Unlike other major industries, the microelectronics industry relies heavily on research and development (R&D). Thus, for an advanced IC company, high quality manpower is the key to success. Microelectronics education, therefore, is ultimately one of the most important factors for determining that success     

微电子技术发展的新领域

介绍"微电子"及其微电子技术的主要内容,对微电子技术和其它学科结合而衍生出一系列新的交叉学科,如微机电系统,生物芯片等进行论证,展望微电子技术的发展方向。     

发展中的GaN微电子(一)

GaN微电子是继GaAs微电子之后在21世纪新发展起来微电子领域的国际战略制高点.从功率密度、高频性能、增强型器件与数字电路等方面阐述了GaN微电子最新的关键技术突破,并介绍了GaN微电子从UHF频段到3 mm波段在通讯、雷达和电子对抗等领域的应用研究进展.从GaN HEMT器件的电流崩塌、栅漏电流、逆压电效应、热电子...     

微电子制造业人才需求与培养模式研究

人才短缺、质量不高和层次结构不合理等问题成为制约我国微电子制造业发展的重要瓶颈之一,其产生原因是微电子制造业人才需求与培养存在严重脱节.通过对台积电、中芯国际等微电子制造企业进行深入访谈调研,结合我国微电子制造业发展现状和趋势,提出一种互动式的,高校、企业和政府共同参与的微电子制造业人才需求与培养新模式,并探讨了新模式下的动态平衡及运行机制.