PECASE: Integrated Antennas and Circuits for Mixed-Technology Single-Chip Systems

PECASE：用于混合技术单芯片系统的集成天线和电路

• 批准号: 9876056
• 负责人: Sanjay Raman
• 金额: $ 21万
• 依托单位: Virginia Polytechnic Institute and State University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 1999
• 资助国家: 美国
• 起止时间: 1999-05-15 至 2006-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=9876056&HistoricalAwards=false
• 关键词: PECASE; Integrated; Antennas; Circuits; Mixed

9876056RamanThe primary objective of this research plan is to investigate methods for the direct integration of PCS band antennas on mixed-technology ICs. The PI has extensive experience with the development of integrated antennas at millimeter-wave frequencies, where the short wavelengths result in small physical dimensions allowing relatively straightforward on-chip antenna integration. However, it is a different matter to integrate an antenna on-chip at the lower PCS frequencies since antenna size cannot be arbitrarily reduced; physical laws rather than technological limits govern the performance of the antenna. Still, if some degradation of antenna performance can be accepted, very small antennas with respect to the wavelength of interest (electrically small antennas) can be realized. The proposed research effort will focus on three basic problem areas: (1) technology/material issues for integration of electrically small antennas on mixed-signal ICs; (2) interconnections, transitions and baluns; and (3) electromagnetic radiation coupling from the antenna into mixed-signal circuitry. Full-wave electromagnetic simulations will be used to analyze various antenna geometries prior to fabrication. Fabricated antennas will be characterized using a combination of on-wafer (input impedance) and anechoic chamber (patterns, gain, polarization purity) measurements. Sacrifices made in antenna performance to achieve on-chip integration will be evaluated.The major thrusts of the educational efforts over the next several years will include: (1) a revitalization of the existing microwave engineering curriculum; and (2) the development of a graduate level course sequence in modernRFIC design. With these curriculum improvements, the ECE department at Virginia Tech will offer one of the most comprehensive programs in communications engineering in the country. These courses will also benefit the PI's research efforts in mixed-signal and mixed-technology integrated circuits, exposing students to the implementation of RF/microwave functions on a semiconductor chip, and complementing the digital VLSI design curriculum. In the long term, the PI is interested in developing an integrated design experience in single-chip systems for senior ECE students, in lieu of the traditional elective and capstone design coursework. The principal investigator will also endeavor to actively involve undergraduates in meaningful research experiences, and to contribute to the retention of women and underrepresented minorities in science and engineering.

9876056 RamanThe本研究计划的主要目标是调查的PCS波段天线的混合技术集成电路的直接集成方法。PI在毫米波频率集成天线的开发方面拥有丰富的经验，其中短波长导致较小的物理尺寸，允许相对简单的片上天线集成。然而，在较低的PCS频率下集成片上天线是另一回事，因为天线尺寸不能任意减小;物理定律而不是技术限制决定了天线的性能。尽管如此，如果可以接受天线性能的一些降级，则可以实现相对于感兴趣的波长非常小的天线（电小天线）。拟议的研究工作将集中在三个基本问题领域：（1）在混合信号IC上集成电小型天线的技术/材料问题;（2）互连，过渡和平衡-不平衡变换器;以及（3）从天线到混合信号电路的电磁辐射耦合。全波电磁模拟将用于分析各种天线的几何形状之前，制造。将使用晶片上（输入阻抗）和电波暗室（模式，增益，极化纯度）测量的组合来表征制造的天线。在天线性能的牺牲，以实现片上integration.The主要推力的教育工作，在未来几年将包括：（1）现有的微波工程课程的振兴;（2）在modernRFIC设计的研究生水平的课程序列的发展。随着这些课程的改进，弗吉尼亚理工大学的ECE部门将提供全国最全面的通信工程课程之一。这些课程也将有利于PI在混合信号和混合技术集成电路方面的研究工作，使学生能够在半导体芯片上实现RF/微波功能，并补充数字VLSI设计课程。从长远来看，PI有兴趣为高级ECE学生开发单芯片系统的集成设计经验，以代替传统的选修和顶点设计课程。首席研究员还将奋进积极参与有意义的研究经验的本科生，并有助于妇女和代表性不足的少数民族在科学和工程的保留。