microelectronics

microelectronics

1. February 17 2004,SHARP Microelectronics Corporation began to mass produce 32-bit ARM922T-Based LH7A404 SoC.

2004年2月17日，夏普微电子公司基于ARM922T内核的32位系统芯片LH7A404开始批量生产。

2. The foundation of Shanghai Belling Microelectronics Manufacture Co.,ltd. and Shanghai Leadchip Semiconductor Co.,ltd. set a new milestone for Belling's evolution.

2007年公司先后投资组建上海贝岭微电子制造有限公司和上海岭芯微电子有限公司树立了公司发展的一块新的里程碑。

3. On Sep.21, the agreement signing and unveiling ceremony for the Yale-PKU Joint Research Center for Microelectronics and Nanotechnology was held in Yingjie Exchange Center.

9月21日，北京大学-耶鲁大学微电子和纳米技术联合研究中心成立签字暨揭牌仪式在北京大学英杰交流中心举行。

4. FMI Fujitsu Microelectronics

inc. 富士通微电子

5. JEDEC Solid State Technology Association is the global leader in developing standards for the microelectronics industry.

JEDEC固态技术协会是微电子产业的全球领导性标准制定机构。

6. LED electronic display, with the computer and related microelectronics the rapid development of photonics technology and the formation of a new information display media.

LED电子显示屏是随着计算机及相关的微电子光电子技术的迅猛发展而形成的一种新型信息显示媒体。

7. MEMS brings together silicon-based microelectronics and micromachining technology, making possible a smaller, more highly integrated and lower power transducer than would have otherwise been possible.

MEMS带来了基于硅片的集成微电子和微机械元件的技术，使得相对于采用其他技术制造更小的，更高集成度的和更低能耗的传感器成为可能。

8. MX that faces portable equipment, the dactylogram that announces to had connected Motolora and Fuji microelectronics ministry to be developed jointly identifies technical union to apply in Long Zhu I.

MX系列产品,并宣布已经将摩托罗拉与富士通微电子部联合开发的指纹识别技术结合应用在龙珠i.

9. Papanastassiou said it might also be possible to use microelectronics to replace parts of the brains natural electrical circuitry if it is damaged.

Papanastassiou说,如果人脑的自然电路有损坏的部分,用微电子来替代也是很可能的。

10. PZT has been extensively used in many areas such as microelectronics, optoelectronics and microelectromechanical systems (MEMS).

PZT薄膜广泛应用于微电子学、光电子学、微电子机械系统等领域，可作为铁电存储器、传感器、声表面波器件和各种精密仪器控制部分的理想材料。

11. Sumikin SVA Microelectronics Co., Ltd.The main business of the module printed circuit board design, development, manufacture and sale of, the registered capital of 1,830 million.

上海广电住金微电子有限公司主要业务为印刷电路板模块的设计、开发、制造及销售，注册资本1,830万美元。

12. Shanghai Pudong Development Microelectronics Co., Ltd. (SPMC) 2002年the Shanghai Pudong New Area People's Government approved the establishment of a registered capital of 30.77 million yuan.

上海浦东微电子发展有限公司（SPMC）2002年经上海市浦东新区人民政府批准设立，注册资金3077万元。

13. Shanghai Goldenchip Microelectronics Technology Co., Ltd.

上海高奇微电子技术有限公司。

14. Many women have stepped into the frontiers of science and technology in areas such as high-energy physics, genetic engineering, microelectronics and satellite launching.

不少妇女跨进了高能物理、遗传工程、微电子技术、卫星发射等尖端科学技术领域，与男科学家一道取得了突破性成果。

15. He remains optimistic, though, and feels that the approach could scale up beyond microelectronics.

不过他依然相当乐观，并认为这种方式将超越微电子学的范畴。

16. Chen Deying Mao Pansong Yuan Jing （Microelectronics Center; Southeast Univ.; Nanjing; 210096; CHN）;

东南大学微电子中心;210096;

17. Zhang Zhongping Microelectronics Center; Southeast University; Nanjing 210096;

东南大学微电子中心南京市;

18. The institute is mainly engaged in the researching, developing and manufacturing of all kinds of devices in the fields of microelectronics, optoelectronics, vacuum electronics and MEMS.

主要从事微电子、光电子、真空电子和MEMS等领域的各种器件、电路、部件和整机系统的研发和生产。

19. This article describes the application of microelectronic plating in manufacture of semiconductor, IC packaging, micro-bumps, multichip modules and microelectronics mechanical systems.

介绍了微电子镀覆在半导体和IC封装、凸点制作、多芯片组件以及微电子机械系统中的应用。

20. Meanwhile he is in talks with several other states interested in hosting the next three institutes, whose specialty areas will likely be bioenergy, microelectronics and environmental science.

他同时也与其他有意愿争取未来三个研究所的州洽商，这些研究所专门的领域可能会是生质能源、微电子学和环境科学。

21. He has lots of original ideas about the research into microelectronics.

他对微电子学的研究很有创见。

22. Organic monolayers covalently attached on silicon surface present stable, reproducible and well-controlled solid surfaces, will make much more function relevant to Si-based microelectronics.

以共价键嫁接在硅表面的有机单分子层能形成稳定、高质量的杂化连接，将赋予传统的硅材料更多新的功能，具有许多其它表面难以比拟的优点。

23. Zhong Wei Hong, Assistant Director Of Test Department, NanTong Fujitsu Microelectronics Co., Ltd

仲伟宏,测试部部长助理,南通富士通微电子股份有限公司

24. But the microelectronics industry clearly would prefer to make advanced chips using extensions of familiar technology, so these methods are being actively developed.

但是微电子工业明显偏好从已熟习的技术加以延伸，来制造高级晶片，所以这些方法现在正加紧研发。

25. Fundamental Problems of Optoelectronics and Microelectronics

光电子学与微电子学的基础问题

26. Today, five years later, Fudan Microelectronics has been extended from 10 founders to 250 employees with customers all over the world.

八年后的今日，复旦微电子已从10多位创业者发展为拥有250位员工的公司，用户遍及全球各地。

27. Since then, Fudan Microelectronics has successfully taken a dominant position of the ASIC industry in China.

公司成立以来，已成功地确立了在国内集成电路设计行业中举足轻重的地位。

28. Single crystal gallium arsenide wafers are for applications that are extensively used in the opto-electronics and microelectronics industries.

公司注册地址在北京经济技术开发区，总占地面积24000平方米，注册资金1500万美元，总投资金额4500万美元。

29. Experimental results show that intrinsic conducting polymers can be applied widely in microelectronics and photoelectronics, as well as in intelligent materials.

具有共轭结构的导电聚合物在微电子学和光电子领域有着广泛的应用前景。

30. M. T. Lee and C. H. Liu. Transmission Line Pulse Method for Measuring Electrostatic Voltages. Patent Number: 6570388, Assignee: United Microelectronics Corp. Date Granted: 2003/5/27.

刘传玺。一种半导体产品可靠度的测量方法。证书号:199664。专利权人:联华电子股份有限公司。获权日：2004/4/1。

31. W.W. Lee, L.T. Nguyen, and G.S. Selvaduray, “Solder Joint Fatigue Models: Review and Applicability to Chip Scale Packages,” Microelectronics Reliability, Vol. 40, pp. 231-244, 2000.

刘宏毅，金属受随机负载作用下之疲劳分析模式与探讨，国立台湾大学机械工程研究所硕士论文，1998。

32. Accelerate breed electronic Information Industry, strive to be predicted in microelectronics technology obtain materiality breakthrough.

加快培育电子信息产业，力争在微电子技术卜取得实质性突破。

33. United Microelectronics Corp's

台湾联华电子公司

34. In the meantime, also be the bold attempt that the country vacates microelectronics to enter civil chip area.

同时，也是国腾微电子进入民用芯片区域的斗胆测验考试。

35. Glenn A. Rinne, “Issues in accelerated electromigration of solder bumps”, Microelectronics Reliability, 43, pp1975-1980, 2003.

吴文发,秦玉龙,“电迁移效应对铜导线可靠度之影响”,奈米通讯,第六卷第一期。

36. It has a bright prospect in the applied domain of medical, biology, physical structure, and microelectronics.

因此在医疗、生物、物质结构、微电子等领域均具有广泛的应用前景。

37. Googol Technology Limited was founded in 1999 by a group of renowned experts, academics and professionals in motion control, and microelectronics.

固高科技是国内首家拥有自主知识产权运动控制器产品的公司。

38. NATIONAL MICROANALYSIS CENTER FOR MICROELECTRONICS MATERIALS AND DEVICES

国家微分析中心

39. The International Technology Roadmap for Semiconductors (ITRS) drives the incredible progress of the microelectronics industry by setting out goals for innovation and technology needs.

国际半导体技术蓝图（ITRS）通过为创新和技术需要设置目标，推动着了微电子工业的难以置信的进步。

40. At its Zurich Research Laboratory around 300 scientists representing over 20 nationalities concentrate on areas such as microelectronics, nanotechnology and computer security.

在其苏黎世研究实验室，来自20多个国家的约300位科学家主攻微电子学、纳米技术和计算机安全等领域。

41. ST Microelectronics has great power on multi-media, digital consumer electronics，communication, and industrial applications.

在多媒体、数字消费电子、通信和工业应用方面，意法半导体公司实力雄厚。

42. In microelectronics, the process of connecting wires from the leads on the package to the bonding pads on the chip. Part of the assembly process.

在微电子中，使用电线将数据包的引线与芯片上的结合区相连接的过程。装配过程的一部分。

43. We have accumulated a wealth of experience in industries like automobile, electronics, microelectronics, semi-conductor, machinery, home appliances and medical devices.

在汽车、电子、微电子、半导体、机械、家电、医疗等行业，我们积累了丰富的经验，客户遍布全国各地。

44. Applications in the automotive industry, chemical, textile, aerospace and microelectronics;

在汽车行业、化工、纺织、航天和微电子行业的应用电子技术和检测仪表;

45. Application of computing technique and microelectronics in textile machinery and technology of textile production.

在纺织机械和纺织生产工艺中应用电脑技术和微电子装置的问题

46. FED was the production of vacuum microelectronics which came out in the end of 1980's. Because it has the both advantages of active matrix liquid crystal display and CRT display, it will show powerful market potential.

场发射平面显示器(FED)是20世纪80年代末问世的真空微电子学的产物,兼有有源矩阵液晶显示器和传统阴极射线管(CRT)显示器的主要优点,显示出强大的市场潜力。

47. Study of Failure Mechanism and Evaluation Method for Plastic Encapsulated Microelectronics Devices

塑封器件失效机理及其快速评估技术研究

48. The establishment of ST Microelectronics R&D (China) Center means ST will enhance long-investments in China market and achieve great success in this fast growing economic zone.

大中国区的成立代表意法半导体公司将加强对中国市场的长期投入，是其为在这个全球增长最快的经济区取得更大成功而迈出的关键一步。

49. TEDA has set up three sub-zones, which are, the Microelectronics Industry Park, the Yat-sen Scientific Industry Park and the Chemical Industry Park.

天津开发区建立了三个小区，分别是微电子工业区、逸仙科学工业园和化学工业区。

50. It would be a natural evolution of microelectronics to become nanoelectronics.

它是从微电子学到纳米电子学的自然演进。

51. MSc Advanced Microelectronics for Industrialists

实业家高级微电子学硕士

52. Fujitsu Microelectronics in Asia is fast expanding in China with offices in Shanghai, Beijing and Shenzhen.

富士通微电子亚洲公司在中国的业务发展迅猛，目前在上海、北京和深圳均设有分支机构。

53. MCNC(microelectronics centre of north-carolina) standard cell benchmarks are experimented and the results show that the algorithm can make the longest path delay improvement up to 31%.

对MCNC标准单元测试电路中组合和时序电路的实验结果显示,电路经过时延驱动优化布局后的最大路径时延最多减少了31%.

54. Palomar Microelectronics is a fast growing segment of the company created by the demand for quick-turn product development, prototyping, test, and contract assembly services.

帕洛马微电子是一个快速增长的部分公司所创造的需求迅速把产品开发，原型，测试和组装服务的合同。

55. Plana parallel vacuum microelectronics diode

平面平行真空微电子二极管

56. The microelectronics technology, which contain tens of millions of components of the Integrated Circuits (IC) has been able to survey the plot produced, the real SoC (System on a Chip) is a reality.

当今微电子学技术的发展，使得含有数千万元件的集成电路已经能够大批量地生产出来，真正的SoC(System on a Chip)正在成为现实。

57. Current Japan is mixed in microelectronics, robot, photoelectron, superconduction the respect such as biology technology is in world ability..

当今日本在微电子、机器人、光电子、超导和生物技术等方面都处于世界技...

58. The development of the microprocessor and microelectronics lead to the increasing maturing of the variable frequency control systems.

微处理器和微电子技术的发展，使变频调速控制系统日趋成熟。

59. THE DEVELOPMENT OF MICROELECTRONICS AND OPTOELE CTRONICS FROM BASIC ENERGY BAND THEORY

微电子、光电子高技术的发展源于固体能带的基础性研究

60. Delft Institute of Microelectronics and Submicron Technology, DIMES

微电子与亚微米技术研究所

61. Purification of Silica Sols Used for Technique of Microelectronics

微电子专用硅溶胶的纯化机理探究

62. Aluminum Etchants for Aluminum Metallizations in Microelectronics

微电子中镀铝用的铝蚀刻剂

63. Microelectronics and Photonics Testbed

微电子和光子试验台

64. Microelectronics and Solid State Electronics

微电子学与固体电子学

65. Program for Master Degree of Microelectronics and Solid State Electronics

微电子学与固体电子学硕士点

66. Postgraduate Courses for Microelectronics and Solid State Electronics

微电子学与固体电子学硕士研究生课程设置

67. In microelectronics, a logic circuit with diodes performing the logic function and the transistor providing amplification and inversion action.

微电子学中的一种逻辑电路,其二极管完成逻辑功能,而晶体管完成放大和反相作用。

68. Microelectronics rests on techniques that routinely fabricate structures almost as small as 100 nanometers across (that is, 100 billionths of a meter).

微电子学依赖的，是能够反覆制造出结构小至100奈米（一公尺的千万分之一）的技术。

69. Microelectronics rests on techniques that routinely fabricate structures almost as small as100 nanometers across( that is,100 billionths of a meter).

微电子学依赖的，是能够反覆制造出结构小至100奈米（公尺的千万分之一）技术。

70. Microelectronics Manufacturing Science and Technology

微电子学制造科学与技术

71. CEMOP - Excellence Centre for Microelectronics and Optoelectronics of Processes

微电子学和光电子学研究中心

72. microelectronics packaging and assembly

微电子封装与组装

73. Interconnecting Technology for Microelectronics Packaging and Assembly Precision Welding and Microjoining Technology

微电子封装与组装互连技术、精密焊接技术

74. An Overview of Current Research Status of Micro-Experimental Mechanics Methodology in Microelectronics Packaging

微电子封装实验技术的回顾及发展现状

75. Gold-Tin Alloy Solder for the Package of Microelectronics

微电子封装用金锡合金钎料

76. Cleaning technology for silicon substrate in microelectronics

微电子工艺中硅衬底的清洗技术

77. Reliability Study of Microelectronics Process

微电子工艺可靠性研究

78. Evolution from Microelectronics to Nanoelectronics

微电子技术向纳电子技术的进化

79. The development of microelectronics has been driving the lithography development.

微电子技术的发展一直是光刻设备和技术发展与变革的动力。

80. MEMS(Microelectronics Machine System) is a compositive system which has such functions as sensor, info processing and execution.

微电子机械系统(MEMS)是集传感、信息处理和执行于一体的集成微系统。