Abstract: There is provided a dielectric constant analyzer device adapted to determine a dielectric property associated with a substrate material by measuring transmission and reflection parameters for a transmission line connected to said substrate material over a specified frequency range; determining a transmission phase response based on the transmission and reflection parameters; determining an anomalous phase slope characterized by a double slope reversals based on the transmission phase response; determining a resonance frequency based on a centre point of the anomalous phase slope reversals, where the center point corresponds to an anomalous phase at the resonance frequency; and determining the dielectric constant based on the resonance frequency, the anomalous phase at the resonance frequency and the anomalous phase slope. There is also provided a method and a microcomputer for doing the same.

Abstract: There is provided a dielectric constant analyzer device adapted to determine a dielectric property associated with a substrate material by measuring transmission and reflection parameters for a transmission line connected to said substrate material over a specified frequency range; determining a transmission phase response based on the transmission and reflection parameters; determining an anomalous phase slope characterized by a double slope reversals based on the transmission phase response; determining a resonance frequency based on a centre point of the anomalous phase slope reversals, where the center point corresponds to an anomalous phase at the resonance frequency; and determining the dielectric constant based on the resonance frequency, the anomalous phase at the resonance frequency and the anomalous phase slope. There is also provided a method and a microcomputer for doing the same.

Abstract: Antennas developed for electromagnetic field energy harvesting, typically referred to as rectennas, provide an alternative electromagnetic field energy harvesting means to photovoltaic cells if designed for operation in the visible frequency spectrum. Rectennas also provide energy harvesting ability or power transfer mechanism at microwave, millimeter and terahertz frequencies. However, the power harvesting efficiency of available rectennas is low because rectennas employ traditional antennas whose dimensions is typically proportional or close to the wavelength of operation. This invention provides a device for electromagnetic field energy harvesting that employs a plurality of electrically-small resonators such as split-ring resonators that provide significantly enhanced energy harvesting or energy collection efficiency while occupying smaller footprint. The invention is applicable to electromagnetic energy harvesting and to wireless power transfer.

Abstract: Electromagnetic Bandgap (EBG) structures are embedded between adjacent power planes in a multi-layer PCB to decrease the emanation of Electromagnetic radiation induced by power buses, signal layers, as well as to suppress the switching noise. EBG stages with different stop bands are cascaded to create rejection over a wider frequency region. The cascading can be performed in series, or may be formed in a variety of arrangements such as a checkerboard design or concentric ribbons positioned along the perimeter of the PCB. Each EBG stage is composed of conductive patches and via posts extending from each patch, which are positioned at a predetermined distance from each other. By surrounding the source of the noise with EBG stages, a sufficient suppression of electromagnetic noise over specific frequency bands of interest is achieved.