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Translating scientific discovery to innovative applications

Community Needs. Education. Battelle Charitable Distributions. Battelle is a not-for-profit S&T enterprise that fulfills its purpose in part by operating laboratories. Translating scientific discovery to innovative applications

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Translating scientific discovery to innovative applications

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  1. Community Needs Education Battelle Charitable Distributions Battelle is a not-for-profit S&T enterprise that fulfills its purpose in part by operating laboratories • Translating scientific discovery to innovative applications • Advancement of learning and better education of men and women for employment 1

  2. Battelle manages or co-manages five DOE national laboratories Idaho National Lab Brookhaven Pacific Northwest Battelle Columbus, OH National Renewable Energy Lab (single-program) Oak Ridge $2.5 billion expenditures 15,000 staff 32 scientific user facilities 2

  3. FY06 PNNL Business Facts • Approximately $753 million in business volume • 4,200 staff • Space: 2 million ft2, 0.5 million ft2 in labs • $256 million in purchases for goods and services • PNNL is not Hanford 3

  4. PNNL solves national challenges by delivering science, technologies, and leadership to: Mission Outcomes Strengthen U.S. scientific foundations for innovation Prevent and counter acts of terrorism and the proliferation of weapons of mass destruction Increase U.S. energy capacity and reduce dependence on imported oil Reduce the effects of energy generation and use on the environment 4

  5. PNNL innovations with everyday impact Implants coating Optical digital recording Holography Chevy Malibu Maxx lift gate Improved spark plugs 5

  6. RFID Technology General classification: Sensors (medical devices, energy, information technology, bioinformatics, biomaterials, engineering software, computer graphics, and others) Title of research project: Radio Frequency Identification Tags Description: miniature radio frequency tags that can be used for wireless monitoring of a wide variety of items (such as inventory control or locating of items). RF tags can locate items or communicate with each other over varying ranges or can gather environmental information. Our tags offer long read-write range, simultaneous reading, and input/output control. We have patented three types of RF tags, passive, semi-passive and active. Each offers capabilities that make it better suited for particular applications, from small, low-cost tags to systems with long range and unique functionality options. 6

  7. RFID Continued • Current IP protection: patents issued and patents pending • Potential applications: • Tracking and monitoring of inventory, files, bank notes, individual engine or machine components, medical products. • Tracking or monitoring animals for herd control or to research habitat. • Monitoring conditions of engine or vehicle components • Tracking and locating sensitive items • Detecting out-of-normal conditions (such as temperature extremes) that may affect product reliability or performance. • Status of Commercial Development: mature 7

  8. Semi-Passive RF Tags IP • Application Specific Intelligent Microsensor • A Novel Method of Simultaneously Reading Multiple Radio Frequency Tags • Semi-Passive Tag Asynchronous Service Request • Using ID Compression to Identify RF Tags in the Reader's Field of View • A Method of Minimizing Communications Required to Identify Multiple Radio Frequency Tags in the Field of View • RF Tag Low Power Wake-up Circuit • RF Tag Sensitivity Enhancement • Hardware Method of Addressing RF Tags • Grounded Co-Planar Wave-Guide (GCPWG) Printed Circuit Board Techniques for Radio Frequency Identification (RFID) Reader PCBs • Dual Frequency Dual Detection RFID Tag Antenna Dual Compressed Dipole (DCD) Antenna Structure • A Challenged Base Tag Authentication Model 8

  9. Active RF Tags IP • Application Specific Intelligent Microsensor • FlexiTag • Semi-Passive RFID Tag with Active Beacon • Low Power Wakeup for Active RFID Tags • Low Power Active RF Beacon Tag with I/O 9

  10. Passive RF Tags IP • Application Specific Intelligent Microsensor • A Novel Method of Simultaneously Reading Multiple Radio Frequency Tags • Semi-Passive Tag Asynchronous Service Request • Using ID Compression to Identify RF Tags in the Reader's Field of View • A Method of Minimizing Communications Required to Identify Multiple Radio Frequency Tags in the Field of View • RF Tag Low Power Wake-up Circuit • RF Tag Sensitivity Enhancement • Hardware Method of Addressing RF Tags • Grounded Co-Planar Wave-Guide (GCPWG) Printed Circuit Board Techniques for Radio Frequency Identification (RFID) Reader PCBs • Dual Frequency Dual Detection RFID Tag Antenna Dual Compressed Dipole (DCD) Antenna Structure • A Challenged Base Tag Authentication Model 10

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