​美国百琞律师事务所

吴倍铭(Paul Wu)博士

专利专家

办公电话: +1 (703) 995-9887

美国手机: +1 (513) 237-4786

电邮: paul.wu@bayes.law

地址: 1765 Greensboro Station Place, Suite 900

          McLean, VA 22102, United States

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教育背景

辛辛那提大学,电子工程,博士

国立成功大学,电子工程,硕士

国立成功大学,电子工程,学士

执业经验

吴倍铭(Paul)博士擅长在电子和计算机领域为客户提供专利撰写和申请服务。他的技术专长包括半导体器件和制造、模拟和混合信号电路设计、微控制器编程以及传感器和执行器相关技术。

 

在加入百琞(Bayes)律师事务所之前,Paul拥有十多年电子仪器研发相关的工业界经验。Paul在一家医疗器械公司担任电子工程师,主要负责板级混合信号电路设计。Paul还曾在一家大型医学研究机构担任电子工程师,领导研发了用于新型多传感器导管的精密电子设备,涉及研发的各个方面包括设计、电路、布局、组装、测试及调试。

 

Paul在美国辛辛那提大学获得博士学位,他的博士论文是关于设计和制造全集成磁传感器系统,包括了和CMOS工艺兼容的低功耗磁通门微传感器和混合信号专用集成电路。Paul还有六年的半导体制造经验,包括光刻、沉积和刻蚀等工艺的实际操作经验。他在同行评审的期刊上发表过三十余篇科学论文。Paul能说流利的使用英语、普通话和闽南语。

执业领域

专利局业务

  • 专利撰写

  • 专利申请

技术专长

通过多年的学术培训和工作经验,Paul具备了扎实的技术专长。他擅长在以下技术领域协助客户处理与专利有关的事务:

 

  • 半导体器件和制造

  • 模拟和混合信号电路设计

  • 传感器和执行器

  • 微控制器

  • 显示

  • 无线通信

发表文献精选

C. Li, P. -M. Wu, et al., “Highly accurate thermal flow microsensor for continuous and quantitative measurement of cerebral blood flow,” Biomedical Microdevice, vol 17, no. 5, pp. 1-7, Oct. 2015

 

C. Li, P. -M. Wu, et al., “Brain temperature measurement: A study of in vitro accuracy and stability of smart catheter temperature sensors,” Biomedical Microdevice, vol 14, no. 1, pp. 109-118, Feb. 2012

 

C. Li, P. -M. Wu, L. A. Shutter and R. K. Narayan, “Dual-mode operation of flexible piezoelectric polymer diaphragm for intracranial pressure measurement,” Appl. Phys. Lett. 96, Feb. 2010

 

C. Li, P. -M. Wu, W. Jung, C. H. Ahn, L. A. Shutter and R. K. Narayan, “A novel lab-on-a-tube for multimodality neuromonitoring of patients with traumatic brain injury (TBI),” Lab on a Chip, Mar. 2009

 

Z. Zou, A. Jang, E. T. MacKnight, P. -M. Wu, J. Do, J. S. Shim, P. L. Bishop, and C. H. Ahn, “An On-Site Heavy Metal Analyzer with Polymer Lab-on-a-Chips for Continuous Sampling and Monitoring,” IEEE Sensors, May 2009

 

C. Li, P. -M. Wu, S. Lee, A. Gorton, M.J. Schulz and C. H. Ahn “Flexible dome and bump shape piezoelectric tactile sensors using PVDF-TrFE copolymer,” IEEE/ASME Journal of Microelectromechanical Systems, vol. 17, no. 2, pp. 334-341, 2008

C. Li, P. -M. Wu, J. Han and C.H. Ahn, “A Flexible Polymer Tube Lab-Chip Integrated with Microsensors for Smart Microcatheter”, Biomedical Microdevices, pp.1-9, 2008

P. -M. Wu and C. H. Ahn, "Design of a Low-Power Micromachined Fluxgate Sensor Using Localized Core Saturation Method," IEEE Sensors Journal, vol. 8, no.3, pp.308-313, Mar. 2008

P. -M. Wu and C. H. Ahn, "A Fully Integrated Ring-Type Fluxgate Sensor Based on a Localized Core Saturation Method," IEEE Trans. Magnetics, vol. 43, no.3, pp.1040-1043, Mar. 2007

M. C. Hsieh, Y. K. Fang, P. -M. Wu, W. D. Wang, “Crystal SiGeC Far infrared sensor with temperature isolation improvement structure”, Electronics Letters, Vol. 39, No. 8, pp. 656-658, 2003 SCI NSC90-2215 -E-006-031

 

M. C. Hsieh, Y. K. Fang, P. -M. Wu, C. C. Yang, Y. C. Lin, W. D. Wang, S. F. Ting, J. J. Ho, “Design and Fabrication of a Novel Crystal SiGeC Far Infrared Sensor with Wavelength 8-14 Micrometer”, IEEE Sensors Journal, Vol. 2, No. 4, pp. 360-365, 2002

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