An arm-implantable rectenna, supported by a compact planar inverted F-antenna (PIFA) and
a rectifier, is proposed for wireless data telemetry and power transfer in the Medical Device …

Implantable medical devices (IMDs) are revolutionizing healthcare by enabling continuous
monitoring, targeted treatment, and improved quality of life for patients with chronic …

Wireless implantable bioelectronics and accurate in vivo characterization of path loss
require efficient and robust in-body antennas. Loading electric antennas with the effective …

In-body antennas couple strongly to surrounding biological tissues, thus, resulting in
radiation efficiencies well below 1%. Here, we quantify how the permittivity and conductivity …

We present a meandered triple‐band planar‐inverted‐F antenna (PIFA) for integration into
brain‐implantable biotelemetric systems. The target applications are wireless data …

Implantable devices are becoming prevalent in the field of biotelemetry. However, designing
implantable antennas is challenging, since compact structure, large bandwidth, and …

A design approach is presented in this paper to develop an implantable circularly polarized
(CP) microstrip patch antenna (MPA) embedded in a lossy material by addressing its total …

A new compact implantable planar dipole with an enhanced gain performance and a
relatively low specific absorption rate (SAR) is proposed. In the proposed dipole, a part of …

Abstract Mg 1-x Cd x Co 0.05 Fe 1.95 O 4 ferrites are proposed for high frequency radar
antennas, where x varies with the value of 0.0, 0.2, 0.3 and 0.4. With 5 wt% Bi 2 O 3 added …

Background and Objective: In-body biotelemetry devices enable wireless monitoring of a
wide range of physiological parameters. These devices rely on antennas to interface with …