1First Year MBBS, Datta Meghe Medical College, Nagpur.
2Department of Anatomy Datta Meghe Medical College, Shalinitai Meghe Hospital and Research Centre, Nagpur.
3Department of Community Medicine Jawaharlal Nehru Medical College, Datta Meghe Institute of
Medical Sciences Sawangi (Meghe), Wardha.
Corresponding author email: firstname.lastname@example.org
Article Publishing History
Accepted After Revision: 06/06/2021
Wireless transmission (WPT) systems are becoming increasingly suitable for power supply to multi-computing devices such as those used for modern biomedical implants. WPT systems with great power transmission, are difficult, but design and implementation. The size of the WPT system, the distance between the external environment and the location of the implanted medical device, frequency of operation, and tissue protection due to energy depletion are all important factors in the design of the WPT system. This article presents a comprehensive analysis of the wide range of WPT programs that have been studied to increase program efficiency over the past two decades. Powerful integration, dynamic integration, magnetic resonance integration, and, more recently, acoustic and optical power systems have been reviewed as wireless power transfer devices for non-installed medical devices (IMDs). We concluded that Diagnostic devices are one of the most important asset of our Healthcare systems as they facilitate a lot to the healthcare provider and patient and they had triggered the development of our Healthcare system and they had provided ease to patient by providing them techniques such as noninvasive devices for detection of various diseases.
Wireless Transmission, Medical Devices, External Environment, Multi-Computing Devices and Magnetic Resonance Integration