TY  - CONF
EP  - 41
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85017243026&doi=10.1109%2fISMS.2016.19&partnerID=40&md5=593c9c3f01c6f16adce65dc1acf8a680
A1  - Ooi, B.L.
A1  - Rashid, A.
A1  - Aziz, A.
N1  - cited By 0; Conference of 7th International Conference on Intelligent Systems, Modelling and Simulation, ISMS 2016 ; Conference Date: 25 January 2016 Through 27 January 2016; Conference Code:126861
ID  - scholars6932
Y1  - 2016///
KW  - Electromagnetic induction; Electromagnetic waves; Energy harvesting; Intelligent systems; Natural frequencies
KW  -  Electrical damping; Operational bandwidth; Output power; Resonant frequency shift; Surrounding environment; Switching devices; Vibration energies; Vibration energy harvesting
KW  -  Damping
TI  - Modelling of Output Power Response for Switched Damping Electromagnetic Energy Harvester
SN  - 21660662
N2  - The scavenging of electrical energy from surrounding environment has a number of attractions, and vibration energy is seen as one of the most potential sources. Switched damping is a method to improve the operational bandwidth of an electromagnetic energy harvester by alternatively switching the values of electrical damping coefficients of the device at different quadrants during oscillation. From the literature, a reasonably large range of resonant frequency shift can be achieved by this method, yet none of the works had demonstrated the model of the output power response. This paper presents the numerical modelling of the output power response of a damping switching device. The predictive results indicate that for a largely deviated effective loads system, significant power loss will be incurred to the output, which reduces the effectiveness of the system. Hence, this reduce the merit of the device even with a large achievable range of shifted resonant frequencies. © 2016 IEEE.
VL  - 0
AV  - none
SP  - 37
PB  - IEEE Computer Society
ER  -