• Architecture-independent power bound for vibration energy harvesters 

      Halvorsen, Einar; Le, Cuong Phu; Mitcheson, P.D.; Yeatman, Eric M. (Journal article; Peer reviewed, 2013)
      The maximum output power of energy harvesters driven by harmonic vibrations is well known for a range of specific harvester architectures. An architecture-independent bound based on the mechanical input-power also exists ...
    • Self-tuning behavior of a clamped-clamped beam with sliding proof mass for broadband energy harvesting 

      Pillatsch, Pit; Miller, L.M.; Halvorsen, Einar; Wright, P.K.; Yeatman, Eric M.; Holmes, Andrew S. (Journal article; Peer reviewed, 2013)
      Real world systems rarely vibrate at a single resonance frequency and the frequencies drift over time. Tunable devices exist, but generally need additional energy to achieve frequency adaptation. This means that the benefits ...