Abstract
Wireless power transmission (WPT) is a critical technology that provides an alternative for wireless power and communication with implantable medical devices (IMDs). This article provides a study concentrating on popular WPT techniques for IMDs including inductive coupling, microwave, ultrasound, and hybrid wireless power transmission (HWPT) systems. Moreover, an overview of the major works is analyzed with a comparison of the symmetric and asymmetric design elements, operating frequency, distance, efficiency, and harvested power. In general, with respect to the operating frequency, it is concluded that the ultrasound-based and inductive-based WPTs have a low operating frequency of less than 50 MHz, whereas the microwave-based WPT works at a higher frequency. Moreover, it can be seen that most of the implanted receiver’s dimension is less than 30 mm for all the WPT-based methods. Furthermore, the HWPT system has a larger receiver size compared to the other methods used. In terms of efficiency, the maximum power transfer efficiency is conducted via inductive-based WPT at 95%, compared to the achievable frequencies of 78%, 50%, and 17% for microwave-based, ultrasound-based, and hybrid WPT, respectively. In general, the inductive coupling tactic is mostly employed for transmission of energy to neuro-stimulators, and the ultrasonic method is used for deep-seated implants.
Highlights
In recent years, medical progress has evolved with an increased interest in instruments for sensing and controlling the specific functions of the brain
A hybrid wireless power transmission (HWPT) system is a combination of two common methods working as a unit system
It was noticed that the operating frequency of hybrid wireless power transmission (HWPT) varies from low to high frequency
Summary
Medical progress has evolved with an increased interest in instruments for sensing and controlling the specific functions of the brain. Sensor systems are quite advanced but providing power to these devices is still a major challenge The answer to this issue is using wireless power transmission (WPT) technologies for a range of biomedical implants. Hybrid wireless power transmission (HWPT) includes both far-field are three major ways to accomplish a near-field WPT: (1) capacitive coupling based on andThere near-field. Biological studies, inductive therapy, and medical coupling, which include a resonant circuit in transmitter and receiver coils. Hybrid wireless power transmission (HWPT) includes both far-field as reduced expenses. Implantable medical devices (IMDs) can be classified into two primary categories and near-field WPT. Theon biomedical implants are intended to be used for of biological therapy, and medical coupling, optical charging, and ultrasound are included in the first category. Various WPT for IMDs, including inductive coupling, microwave, and ultrasound, are studied. WPT approaches for IMDs, including inductive coupling, microwave, and ultrasound, are studied
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