你在这里

学术报告(11月23日)

报告人: 
王朝欽教授(台湾bat365在线平台网站工程学院院长)
题目: 
高壓CMOS IC設計應用於BMS系統以及台灣中山大學IC設計研發現況
地点: 
bet亚洲登录官方网站物理楼二楼208室(广州市海珠区新港西路135号)
时间: 
2016年11月23日(周三)下午15:00-16:30

主持人:陈弟虎 教授

 

报告简介

A voltage monitoring IC with high-voltage multiplexer (HVMUX) and HV Transceiver for Battery Management Systems (BMS) is demonstrated. The voltage monitoring IC in a BIM (battery interconnect module) must be able to accommodate input voltage up to tens of volts, perhaps even hundreds of volts, which is difficult to be realized using a logic-based solution. To realize a solution on silicon, the voltage monitoring IC shall be fabricated using an advancedHV semiconductor process, which usually is constrained bythe voltage drop limitation between gate and source of HV devices.  To overcome such a limitation, a HV switch is proposed in this work, including a HV Gate Voltage Driver (HVGVD) driving the HV MOSwithout any over-voltage hazard.  Besides, a HV Transceiver is proposed using standard CMOS transistors without any isolator.

Besides the HV IC Design applied to BMS systems, another research area in NSYSU is bio-marker detection systems.  Besides the prevention of drug abuse, the bio-marker detection is widely used in many other medical applications, particularly the cancer identification and check-up recommended after the cancer surgery. ACEA (carcinoembryonic antigen) concentration analyzer prototype using a pair of two-port FPW (flexural plate-wave) sensors is demonstrated. The prototype utilizes a frequency-shift readout method based upon a peak detecting scheme to measure the resonant frequency shift. The frequency-shift readout circuit is integrated on silicon composed of a linear frequency generator, two peak detectors,two registers, and a subtractor.  The proposed frequency-shift readout circuit is verified by a PCB-based prototype, where the CEA serum titration is stabilized after 10 minutes and the linearity of the concentration vs. frequency shift is 97.72%.

报告人简介

Speaker : Chua-Chin Wang(王朝欽)

Dean & Chair Professor, National Sun Yat-Sen University

Dr. Chua-Chin Wang received the Ph.D. degree in electrical engineering from SUNY (State University of New York) at Stony Brook, USA, in 1992. He was Chairman of this department during 2009 - 2012. He was CEO of Operation Center of Industry-University Cooperation, NSYSU, in 2012-2014. He became Dean, Collegeg of Engineering, and VP of Office of Office of Industrial Collaboration and Continuing Education Affairs, from Aug. 2014 to date.

Dr. Wang’s research interests include memory and logic circuit design, communication circuit design, neural networks, and interfacing I/O circuits. In 2006, he won “Distinguished Engineering Professor” Award of Chinese Institute of Engineers and “Distinguished Engineer” Award of Chinese Institute of Electrical Engineering in the same year. He also won Distinguished Electrical Engineering Professor Award of Chinese Institute of Electrical Engineers in 2007. In 2010, he was honored to be Distinguished Professor of National Sun Yat-Sen University. In 2012, he won “Distinguished Engineering Professor” Award of Chinese Institute of Engineers and Outstanding Research Award of NSYSU. He won 3 times of Outstanding Industry-Academia Collaroration Award (2005, 2009, 2013). He became IET Fellow in 2012. He was named as Chair Professor in 2013.

Prof. Wang has devoted himself for many IEEE services. He was Tainan Chapter Chair of IEEE Circuits and Systems Society (CASS) in 2007-2008. He was also the founding Tainan Chair of IEEE Solid-State Circuits Society (SSCS) for 2007-2008, and the founding Consultant of IEEE NSYSU Student Branch. He was elected to be Vice Chair of IEEE Tainan Setion in 2012. He is a senior member of IEEE since 2004. He was Chair of IEEE CASS Nanoelectronics and Giga-scale Systems (NG) Technical Committee (2008~2009). He has been invited to be Associate Editors of IEEE Trans. on TCAS-I (2010-2013) and TCAS-II (2010-2011).

 

                         bat365在线平台网站电子与信息工程学院(bat365在线平台网站专用集成电路ASIC研究中心)

                                                  2016年11月22日