Prof. Jeremy Everard
 

Prof. Jeremy Everard BSc Eng (London), AKC, PhD (Cambridge), C.Eng, MIEE

BAE Systems/Royal Academy of Engineering Research Professor

Email: jke1@ohm.york.ac.uk
Homepage: http://www-users.york.ac.uk/~jke1/
Tel: +44 (0)1904 32 2410
Research Area: Physical Layer Group > Microwave and Optical Lab

Brief CV
Jeremy Everard obtained his PhD from the University of Cambridge in 1983. He worked in industry for six years at the GEC Marconi Research Laboratories, M/A-Com and Philips Research Laboratories on Radio and Microwave circuit design. At Philips he ran the Radio Transmitter Project Group.

He then taught RF and Microwave Circuit design, Opto-electronics and Electromagnetism at King's College London for nine years while leading the Physical Electronics Research Group.  He became University of London Reader in Electronics at King’s College London in 1990 and Professor of Electronics at the University of York in September 1993. In September 2007, he was awarded a five year research chair in Low Phase Noise Signal Generation sponsored by BAE Systems and the Royal Academy of Engineering.

In the RF/Microwave area his research interests include: The theory and design of low noise oscillators using inductor capacitor (LC), Surface Acoustic Wave (SAW), crystal, dielectric, transmission line, helical and superconducting resonators; flicker noise measurement and reduction in amplifiers and oscillators; high efficiency broadband amplifiers; high Q printed filters with low radiation loss, broadband negative group delay circuits and MMIC implementations.

His current research interests in Opto-electronics include: All optical self-routing switches which route data-modulated laser beams according to the destination address encoded within the data signal, ultra-fast 3-wave opto-electronic detectors, mixers and phase locked loops and distributed fibre optic sensors.

He has published papers on: oscillators, amplifiers, resonators and filters; all optical switching, optical components, optical fibre sensors and mm-wave optoelectronic devices and most recently a new book on 'Fundamentals of RF Circuit Design with Low Noise Oscillators (Wiley). He has co-edited and co-authored a book on Gallium Arsenide Technology and its impact on Circuits and Systems and contributed to a book on Optical fibre sensors.  He has filed Patent applications in many of these areas.  He is a member of the Institution of Electrical Engineers, London and the Institution of Electronic and Electrical Engineers (USA).
 

Publications

  • Konstantinos Theodoropoulos and Jeremy Everard, Residual Phase Noise Modeling of Amplifiers Using Silicon Bipolar Transistors, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control,, 57(3):562 - 573, March, 2010
  • Simon Bale and Jeremy Everard, High-Q X-Band Distributed Bragg Resonator Utilizing an Aperiodic Alumina Plate Arrangement, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 57(1):66 - 73, January, 2010
  • Simon Bale and Jeremy Everard, High Q X-Band Distributed Bragg Resonator Utilising an Aperiodic Alumina Plate Arrangement, Joint European Frequency and Time Forum and IEEE International Frequency Control Symposium, Besancon, France, April, 2009
  • Jeremy Everard, Low Phase Noise Oscillators; Theory and Application, Joint European Frequency and Time Forum and IEEE International Frequency Control Symposium, Besançon, France, April, 2009
  • Konstantinos Theodoropoulos and Jeremy Everard, Residual Phase Noise Modelling of Amplifiers using Silicon Bipolar Transistors, Joint European Frequency and Time Forum and IEEE International Frequency Control Symposium, Besançon, France, April, 2009
  • Jeremy Everard, Low Phase Noise Ceramic Resonator Oscillators, European Frequency and Time Forum, 1-6, Toulouse France, April, 2008
  • L. Zhou, Z. Wu, M. Sallin and J. Everard, Broad tuning ultra low phase noise dielectric resonator oscillators using SiGe amplifier and ceramic-based resonators, IET Microwave Antennas and Propagation, 1(5):1064-1070, October, 2007
  • J.K.A. Everard and C. Broomfield, High Q printed Helical Resonators for Low Noise Oscillators and Filters, IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 54(9):1741-1750, September, 2007
  • J.K.A. Everard and C. Broomfield, Reduced Transposed Flicker Noise in Microwave Oscillators using GaAs based Feedforward Amplifiers, IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 54(6):1108-1117, June, 2007
  • Jeremy Everard and Keng Ng, Ultra-Low Phase Noise Crystal Oscillators, 2007 Joint European Frequency and Time Forum and the IEEE Frequency Control Symposium, 1246-1250, Geneva, May, 2007
  • Jeremy K.A. Everard, Low Phase Noise Oscillators Including Some Detailed Designs, 2007 Joint European Frequency and Time Forum and the IEEE Frequency Control Symposium, 1156-1163, Geneva, May, 2007
  • Jeremy K.A. Everard and Konstantinos Theodoropoulos, Ultra-Low Phase Noise Ceramic based Dielectric Resonator Oscillators, IEEE Frequency Control Symposium, 869-874, Miami USA, June, 2006
  • J.K.A. Everard and L. Zhou, Non Linear Effects in varactor tuned resonators, IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 53(5):853 - 861, May, 2006
  • J.K.A. Everard, Low Phase Noise Oscillators, 34th European Microwave Conference, 160 slides, Amsterdam, October, 2004
  • Liang Zhou and Jeremy Everard, Non-Linear Effects In Varactor Tuned Resonators, Joint IEEE Frequency Control Symposium and European Frequency and Time Forum, Tampa USA, May, 2003
  • Carl Broomfield and Jeremy Everard, High Q Printed Resonators And Filters, Joint IEEE Frequency Control Symposium and European Frequency and Time Forum, Tampa USA, May, 2003
  • Carl Broomfield, Yiming You, Richard Parsons and Jeremy Everard, Broad Tuning Microwave Oscillators Utilising Multilayer Technology And Sige Devices, Joint IEEE Frequency Control Symposium and European Frequency and Time Forum and, Tampa USA, May, 2003
  • Liang Zhou, Marc Sallin, Carl Broomfield and Jeremy Everard, Broad Tuning Ultra Low Noise Dielectric Resonator Oscillators operating At 10GHz Utilising Ceramic Based Resonators, Joint IEEE Frequency Control Symposium and European Frequency and Time Forum and, Tampa USA, May, 2003
  • JKA Everard, A half day Workshop on Low Phase Noise Oscillators, SC4, GaAs2001 Conference part of European Microwave Week, Excell, Docklands, September, 2001
  • A.J. Wilkinson and J.K.A. Everard, Transmission Line Load-Network Topology for Class E Power Amplifiers, IEEE Transactions on Microwave Theory and Techniques, 29(6):1202-1210, June, 2001
  • J. Everard and C. Broomfield, Flicker Noise Removal in Microwave Oscillators using GaAs based Feedforward Amplifiers, IEEE International Frequency Control Symposium, 156-161, Seattle Washington, USA, June, 2001
  • J. Everard and C. Broomfield, Reduced Flicker Noise in Microwave Oscillators using Feedforward Amplifiers, IEEE Microwave Theory and Techniques Symposium, 1431-1434, Phoenix, Arizona, USA, May, 2001
  • CD Broomfield and J.K.A. Everard, Broadband negative group delay networks for compensation of oscillators, filters and communication systems, Electronics Letters, 36(23):1931-1933, November, 2000
  • J.K.A. Everard and C.D. Broomfield, Transposed flicker noise suppression in microwave oscillators using feedforward amplifiers, Electronics Letters, 36(20):1710-1711, September, 2000
  • C.D.Broomfield and J,.K.A. Everard, Flicker noise reduction using GaAs microwave feedforward amplifiers, Proceedings of the 2000 IEEE International Frequency Control Symposium, 525-530, Kansas City, June, 2000
  • J.K.A. Everard, A Tutorial on: "The Fundamental Theory of Low Noise Oscillators with Specific Reference to some Detailed Designs, IEEE Frequency Control Symposium, 130 slides, Kansas City, June, 2000
  • P.A. Dallas and J.K.A. Everard, Characterization of flicker noise in GaAs MESFETs for oscillator applications, IEEE Transactions on Microwave Theory and Techniques, 245-257, February, 2000
  • P.A. Dallas and J.K.A. Everard, Characterization of flicker noise in GaAs MESFETs for oscillator applications, IEEE Transactions on Microwave Theory and Techniques, 48(2):245-257, February, 2000
  • Jeremy Everard, Fundamentals of RF Circuit Design with Low Noise Oscillators, Wiley, 0 47149793 2, 2000

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