Publications
191 results found
Mitcheson PD, 2013, Adaptable, High Performance Energy Harvesters Can Energy Harvesting Deliver Enough Power for Automotive Electronics?, Design, Automation and Test in Europe Conference and Exhibition (DATE), Publisher: ASSOC COMPUTING MACHINERY, Pages: 482-482, ISSN: 1530-1591
Burrow SG, Mitcheson PD, Stark BH, 2013, Power Conditioning Techniques for Energy Harvesting, Advances in Energy Harvesting Methods, Editors: Elvin, Erturk, Publisher: Springer, Pages: 323-344, ISBN: 978-1-4614-5705-3
Pour NM, Zhu D, Torah RN, et al., 2013, A novel piezoelectric energy harvester designed for single-supply pre-biasing circuit, 13th International Conference on Micro and Nano Technology for Power Generation and Energy Conversion Applications (PowerMEMS), Publisher: IOP PUBLISHING LTD, ISSN: 1742-6588
Ayala-Garcia N, Mitcheson PD, Yeatman EM, et al., 2013, Magnetic Tuning of a Kinetic Energy Harvester Using Variable Reluctance, Sensors and Actuators A-Physical
Dicken J, Mitcheson PD, Stoianov I, et al., 2012, Power-Extraction Circuits for Piezoelectric Energy Harvesters in Miniature and Low-Power Applications, IEEE Transactions on Power Electronics, Vol: 27, Pages: 4514-4529, ISSN: 0885-8993
Pinuela M, Mitcheson PD, Lucyszyn S, et al., 2012, Maximising DC to load efficiency for inductive power transfer
Pinuela M, Yates DC, Mitcheson PD, et al., 2012, Current State of Research at Imperial College London in RF Harvesting and Inductive Power Transfer, 2nd International Workshop on Wireless Energy Transport and Harvesting, Pages: 1-4
This paper presents simulation and experimental results for ambient RF energy harvesting and Inductive Power Transfer systems. End-to-end and dc-load efficiency measurements and calculations were performed to demonstrate the capabilities of both systems, respectively. An RF spectral survey was conducted across all the 270 underground stations in London. DTV, GSM900, GSM1800 and 3G were selected as the highest contributors and single banded rectennas were fabricated for all frequencies. Ground level measurements demonstrate that more than 50 stations have suitable channel power levels per band to allow ambient RF energy harvesting. Efficiencies of up to 40% were achieved with a single banded rectenna operating at GSM 900, and efficiencies higher than 20% were achieved for TV and 3G. Furthermore a high frequency, semi-resonant Class-E driver was used to transfer 60 W of power across a 30 cm distance with a dc-load efficiency of 66%.
Brandon NPB, Mitcheson PD, Yufit V, et al., 2012, Battery Monitoring in Electric Vehicles, Hybrid Electric Vehicles, and other Applications, WO/2012/025706
Hanrahan B, Feldman J, Misra S, et al., 2012, Off-The-Shelf MEMS for Rotary MEMS, IEEE MEMS, Publisher: IEEE, ISSN: 1084-6999
Elliott ADT, Mitcheson PD, 2012, Implementation of a Single Supply Pre-biasing Circuit for Piezoelectric Energy Harvesters, Eurosensors 2012, Pages: 1311-1314
Elliott ADT, Mitcheson PD, 2012, Power Density Improvement of a Piezoelectric Energy Harveter Using a Micropower Switch-Mode Interface, IEEE Sensors 2012, Publisher: IEEE, Pages: 1882-1885
Elliott ADT, Zhu D, Beeby SP, et al., 2012, Multilayer Piezoelectric Energy Harvesting Using Single Supply Pre-biasing for Maximum Power Generation, PowerMEMS 2012
Kiziroglou ME, Wright SW, Toh TT, et al., 2012, Heat Storage Power Supply for Wireless Aircraft Sensors, Pages: 472-475
Kaphengst NF, Toh TT, Mitcheson PD, et al., 2012, Adaptive Load Synthesis for Autonomous Resonant Frequency Tuning of Electromagnetic Energy Harvesters, PowerMEMS 2012
Bowden J, Burrow SG, Cammarano A, et al., 2012, Synthesising Load Impedance to Frequency-Tune an Electro-Mechanical Vibration Energy Energy Harvester, ASME 2012 International Design Engineering Technical Conferences
Mukherjee AG, Mitcheson PD, Wright SW, et al., 2012, Magnetic Potential Well Tuning of Resonant Frequency Cantilever Energy Harvesters, PowerMEMS 2012
Cain MG, Mitcheson PD, 2012, Rectification of harvested energy in vibrational energy harvesting materials technologies: Materials, power systems design and electronic engineering issues
Mitcheson PD, 2012, Power and Sustainability, This Pervasive Day, Editors: Pitt, Publisher: World Scientific, Pages: 241-260, ISBN: 978-1-84816-748-3
Miller LM, Mitcheson PD, Halvorsen E, et al., 2012, Coulomb-damped resonant generators using piezoelectric transduction, Applied Physics Letters, Vol: 100, ISSN: 0003-6951
Mitcheson PD, Green TC, 2012, Maximum Effectiveness of Electrostatic Energy Harvesters When Coupled to Interface Circuits, IEEE Transactions on Circuits and Systems Part 1: Regular Papers, Vol: 59, Pages: 3098-3111, ISSN: 1549-8328
Elliott ADT, Mitcheson PD, 2012, Implementation of Single Suply Pre-Biasing with Sub-35μW Control Overhead for Piezoelectric Energy Harvesting, PowerMEMS 2012
Mitcheson PD, Toh TT, Wong KH, et al., 2011, Tuning the Resonant Frequency and Damping of an Electromagnetic Energy Harvester Using Power Electronics, IEEE Transactions on Circuits and Systems. Part 2: Express Briefs, Vol: 58, Pages: 792-796
Mukherjee AG, Mitcheson PD, Wright SW, et al., 2011, Tuning Resonant Energy Harvesters Using a Variable Reluctance Link, PowerMEMS 2011, Pages: 11-14
Toh TT, Mitcheson PD, Dussud L, et al., 2011, Electronic Resonant Frequency Tuning of a Marine Energy Harvester, PowerMEMS 2011, Pages: 383-386
Dicken J, Mitcheson PD, Elliott A, et al., 2011, Single-Supply Pre-Biasing Circuit for Low-Amplitude Energy Harvesting Applications, PowerMEMS 2011, Pages: 46-49
Sokolov M, Green TC, Mitcheson PD, et al., 2011, Small-signal Model of Photovoltaic Power Converter for Selection of Perturb and Observe Algorithm Step Time, 14th European Conference on Power Electronics and Applications (EPE)/ECCE Europe Conference on Power Electronics and Adjustable Speed Drives - Towards the 20-20-20 Target, Publisher: IEEE, ISSN: 2325-0313
Pinuela M, Yates DC, Mitcheson PD, et al., 2011, Maximising the Link Efficiency of Resonant Inductive Coupling for Wireless Power Transfer, 1st International Workshop on Wireless Energy Transport and Harvesting, Pages: 1-4
Toh TT, Mitcheson PD, Yeatman EM, 2010, Control models of Switch Mode Maximum Power Point Tracking Interfaces for Energy Harvesting Devices, PowerMEMS 2010, Pages: 155-158
Sokolov M, Green TC, Mitcheson PD, et al., 2010, Dynamic Analysis of Photovoltaic System withMPP Locus Emulation, 2010 IEEE 26-th Convention of Electrical and Electronics Engineers in Israel, Publisher: IEEE, Pages: 212-215
Pinuela M, Mitcheson PD, Lucyszyn S, 2010, Analysis of Scalable Rectenna Configurations for Harvesting High Frequency Ambient Radiation, PowerMEMS 2010, Pages: 41-44
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