We propose a linear-power-regulated wireless power transfer method for decreasing the heat dissipation of fully implantable microsystems in this paper. With ...
Nov 13, 2022 · Magnetic coupling resonance wireless power transfer can efficiently provide energy to intracranial implants under safety constraints, ...
With the received power control, the efficiency of the receiver is increased to more than 80%, which can significantly reduce the heating of fully implantable ...
With the received power control, the efficiency of the receiver is increased to more than 80%, which can significantly reduce the heating of fully implantable ...
A Linear-Power-Regulated Wireless Power Transfer Method for Decreasing the Heat Dissipation of Fully Implantable Microsystems. Haochuan Wang, Chenglong Zhu, ...
With the received power control, the efficiency of the receiver is increased to more than 80%, which can significantly reduce the heating of fully implantable ...
3. A Linear-Power-Regulated Wireless Power Transfer Method for Decreasing the Heat Dissipation of Fully Implantable Microsystems. Wang H, Zhu C, Jin W, Tang J, ...
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A Linear-Power-Regulated Wireless Power Transfer Method for Decreasing the Heat Dissipation of Fully Implantable Microsystems. 2022, Sensors. View full text.
A Linear-Power-Regulated Wireless Power Transfer Method for Decreasing the Heat Dissipation of Fully Implantable Microsystems · Article · Full-text available.
A Linear-Power-Regulated Wireless Power Transfer Method for Decreasing the Heat Dissipation of Fully Implantable Microsystems. Haochuan Wang et al.