Yu Jia
TitleCited byYear
A parametrically excited vibration energy harvester
Y Jia, J Yan, K Soga, AA Seshia
Journal of Intelligent Material Systems and Structures 25 (3), 278-289, 2014
362014
Power optimization by mass tuning for MEMS piezoelectric cantilever vibration energy harvesting
Y Jia, AA Seshia
J. Microelectromech. Syst 25 (1), 108-117, 2016
342016
An auto-parametrically excited vibration energy harvester
Y Jia, AA Seshia
Sensors and Actuators A: Physical 220, 69-75, 2014
312014
Parametrically excited MEMS vibration energy harvesters with design approaches to overcome the initiation threshold amplitude
Y Jia, J Yan, K Soga, AA Seshia
Journal of Micromechanics and Microengineering 23 (11), 114007, 2013
292013
An efficient SSHI interface with increased input range for piezoelectric energy harvesting under variable conditions
S Du, Y Jia, CD Do, AA Seshia
IEEE Journal of Solid-State Circuits 51 (11), 2729-2742, 2016
212016
Parametric resonance for vibration energy harvesting with design techniques to passively reduce the initiation threshold amplitude
Y Jia, J Yan, K Soga, AA Seshia
Smart Materials and Structures 23 (6), 065011, 2014
192014
An efficient inductorless dynamically configured interface circuit for piezoelectric vibration energy harvesting
S Du, Y Jia, AA Seshia
IEEE Transactions on Power Electronics 32 (5), 3595-3609, 2017
152017
Multi-frequency operation of a mems vibration energy harvester by accessing five orders of parametric resonance
Y Jia, J Yan, K Soga, AA Seshia
Journal of Physics: Conference Series 476 (1), 012126, 2013
142013
A new electrode design method in piezoelectric vibration energy harvesters to maximize output power
S Du, Y Jia, ST Chen, C Zhao, B Sun, E Arroyo, AA Seshia
Sensors and Actuators A: Physical 263, 693-701, 2017
122017
Five topologies of cantilever-based MEMS piezoelectric vibration energy harvesters: a numerical and experimental comparison
Y Jia, AA Seshia
Microsystem Technologies 22 (12), 2841-2852, 2016
122016
Twenty-eight orders of parametric resonance in a microelectromechanical device for multi-band vibration energy harvesting
Y Jia, S Du, AA Seshia
Scientific reports 6, 30167, 2016
122016
Directly and parametrically excited bi-stable vibration energy harvester for broadband operation
Y Jia, AA Seshia
Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS & EUROSENSORS …, 2013
122013
Maximizing output power in a cantilevered piezoelectric vibration energy harvester by electrode design
S Du, Y Jia, A Seshia
Journal of Physics: Conference Series 660 (1), 012114, 2015
92015
Piezoelectric vibration energy harvesting: A connection configuration scheme to increase operational range and output power
S Du, Y Jia, AA Seshia
Journal of Intelligent Material Systems and Structures 28 (14), 1905-1915, 2017
72017
A hybrid vibration powered microelectromechanical strain gauge
Y Jia, CD Do, X Zou, AA Seshia
IEEE Sensors Journal 16 (1), 235-241, 2016
72016
White noise responsiveness of an AlN piezoelectric MEMS cantilever vibration energy harvester
Y Jia, AA Seshia
Journal of Physics: Conference Series 557 (1), 012037, 2014
62014
Real-world evaluation of a self-startup SSHI rectifier for piezoelectric vibration energy harvesting
S Du, Y Jia, C Zhao, ST Chen, AA Seshia
Sensors and Actuators A: Physical 264, 180-187, 2017
52017
A vibration powered wireless mote on the Forth Road Bridge
Y Jia, J Yan, T Feng, S Du, P Fidler, K Soga, C Middleton, AA Seshia
Journal of Physics: Conference Series 660 (1), 012094, 2015
52015
Comparison of five topologies of cantilever-based mems piezoelectric vibration energy harvesters
Y Jia, AA Seshia
Journal of Physics: Conference Series 557 (1), 012086, 2014
52014
Utilising nonlinear air damping as a soft mechanical stopper for MEMS vibration energy harvesting
ST Chen, S Du, E Arroyo, Y Jia, A Seshia
Journal of Physics: Conference Series 773 (1), 012098, 2016
42016
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