亚洲知识产权资讯网为知识产权业界提供一个一站式网上交易平台，协助业界发掘知识产权贸易商机，并与环球知识产权业界建立联系。无论你是知识产权拥有者正在出售您的知识产权，或是制造商需要购买技术以提高操作效能，又或是知识产权配套服务供应商，你将会从本网站发掘到有用的知识产权贸易资讯。

返回搜索结果

Multi-sensor (Multi-sensing) Surface Acoustic Wave Network Utilizing Orthogonal Frequency Coding for Increased Performance and Security

技术优势: Can operate in harsh environments: -270┬░C to 1000┬░C and in radiation up to 400MRads Rapid response ΓÇô less than one second to detect and less than two minutes to return to normal Precise leak location reporting Secure transceiver-sensor communication Signal loss minimized by 30-60dB Increased bandwidth, more efficient for longer distances

技术应用: This technology can be used in Radio Frequency (RF) and optical communication systems. It can be utilized for temperature, gas, and liquid sensors.

详细技术说明: This OFC-SAW sensor technology began as a solution for NASA-Kennedy Space CenterΓÇÖs need for passive, wireless, and individually unique H2 gas sensors for ground, space-flight, and space-exploration applications. NASA and UCF researchers have developed this multi-sensory network comprised of independently operating and uniquely identifiable sensors using OFC-SAW technology. The unique tagging allows each sensor to precisely identify leak locations. The time and location of the sensing event are reported simultaneously. This novel OFC-SAW technique has processing gain, code division multiple access, spread spectrum, and security advantages. Complex coding methods ensure greater network security.These OFC-SAW sensors offer increased sensitivity, response time, and repeatability. Rapid H2 detection has been proven for flow rates as low as 1ccm of a 2% H2, 98% N2 mixture. These advantages are achieved through the unique process of gas sensing film deposition. The OFC-SAW sensor is built on a piezoelectric substrate which services as its power source and is activated by a wireless transmission to the device. Chemical sensing is made possible by placing a chemically sensitive film on the SAW substrate. For example, ultra-thin palladium (Pd) films and tin dioxide (SnO2) films were used for hydrogen sensing. Each device is designed to have multiple transducer / antenna pairs, each of which have a different center frequency, which reduces device losses and improves device performance. The SAW device is also durable enough to repeatedly survive large variations in temperature, which makes it an excellent candidate for a cryogenic environment.

*Abstract: Orthogonal Frequency Coded (OFC) Surface Acoustic Wave (SAW) sensors in a multi-sensory network to detect gaseous leaks in harsh environments with less than one second response time. This is a wireless, passive, and durable device with secure network communication and excellent for use in extreme environments.

*Principal Investigation: Name: Donald Malocha
Department: College of Engineering and Computer Science

Name: Derek Puccio
Department: College of Engineering and Computer Science

国家/地区: 美国

欲了解更多信息，请点击这里