Browsing by Author "Oxley, C. H."
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Item Metadata only Active Devices Suitable for Millimetric Wave Operation(1986-11) Oxley, C. H.Item Metadata only An AlGaAs/GaAs-Based Planar Gunn Diode Oscillator with a Fundamental Frequency Operation of 120 GHZ(Wiley, 2014-07) Maricar, M.; Glover, James; Khalid, A.; Li, Chong; Evans, Gwynne; Cumming, D.; Oxley, C. H.Item Metadata only An Automotive 77 GHz Radar Designed for Volume Manufacture(1999-12) Oxley, C. H.; Redfern, S.; Bird, J.; Hilder, G.; Prime, B.; Brown, T.; Spencer, D.; Dawson, D.Item Metadata only An Automotive 77GHz Radar Sensor designed for Volume Manufacture(2000-04) Oxley, C. H.; Redfern, S.; Dawson, E.; Bird, J.; Prime, B.; Brown, T.; Spence, D.Item Metadata only An Automotive 77GHz Radar System Designed for Volume Manufacture(1999-09) Redfern, S.; Oxley, C. H.; Dawson, D.; Bird, J.; Hilder, G.; Prime, B.; Brown, T.; Spencer, D.Item Metadata only Broadband FET VCO Design(1989-02) Adams, K.; Oxley, C. H.Item Metadata only Broadband FET VCO Design(1989-02) Adams, K.; Oxley, C. H.Item Metadata only Item Open Access Carbon based resistive strain gauge sensor fabricated on titanium using micro-dispensing direct write technology(Elsevier, 2016-06-21) Wei, Li-Ju; Oxley, C. H.Carbon based resistive strain gauge sensor suitable for medical implant technology has been directly fabricated on a titanium test-plate using Micro-Dispensing Direct Write (MDDW) technology. A 3.5µm biocompatible dielectric layer of parylene C was initially coated on the titanium test-plate. Commercially available screen-print carbon conductive paste was deposited on the parylene C and cured at 80oC for 3 hours; this was to ensure the physical properties and chemical integrity of the parylene C layer was maintained, whilst meeting the electrical conductivity curing requirements for the carbon tracks. The novel integrated strain sensor was experimentally tested and found to have a gauge factor of 10 making it approximately 5 times more sensitive than a commercially available metal foil strain gauge glued to the same titanium plate.Item Metadata only A Comparison between Modelled and Experimental High-Frequency MESFET(1985) Davies, I.; Holden, A.; Cotten, S.; Wheeldon, D.; Oxley, C. H.Item Metadata only Comparison of Wide Band Gap and III-V Semiconductor Devices(2000-10) Buiu, O.; Oxley, C. H.Item Metadata only Computer Modelling of Travelling Wave Transistors(1984-07) Oxley, C. H.; Holden, A. J.Item Metadata only Design and Characterisation of a Novel Diamond Resonator(Wiley, 2014) Maricar, M.; Glover, James; Evans, G.; Khalid, A.; Cumming, D.; Oxley, C. H.Item Metadata only The Design and Microwave Performance in Q-Band of 0.3 Micron Gate GaAs MODFETs(1985) Davies, I.; Brambley, D.; Bennett, R.; Powell, A.; Oxley, C. H.Item Metadata only Design and Performance of GaAs Power FETs from C to Q Band(1985-05) Davies, I.; King, J.; Medhurst, P.; Oxley, C. H.Item Metadata only Design and Performance of I-Band TRAPATT Diodes and Amplifiers(1979-05) Oxley, C. H.; Howard, A. M.; Purcell, J. J.Item Metadata only The Design and Performance of J-Band Ferrite Microstrip Circulators(1978-08) Oxley, C. H.Item Metadata only Design and Performance of TRAPATT Devices: Oscillators and Amplifiers(1976-09) Oxley, C. H.; Howard, A. M.; Purcell, J. J.Item Metadata only Design of Pre-matched X-Band GaAs FETs(1986-05) King, J.; Medhurst, P.; Metcalfe, J. G.; Davies, I.; Holden, A.; Oxley, C. H.Item Metadata only Device Thermography using Infra-Red Microscopy(2010-09) Oxley, C. H.; Hopper, R. H.; Evans, G. A.