Patent application number | Description | Published |
20110259717 | SYSTEMS AND METHODS FOR PROVIDING HIGH-CAPACITANCE RF MEMS SWITCHES - Systems and methods for providing high-capacitive RF MEMS switches are provided. In one embodiment, the invention relates to a micro-electro-mechanical switch assembly including a substrate, an electrode disposed on a portion of the substrate, a dielectric layer disposed on at least a portion of the electrode, a metal layer disposed on at least a portion of the dielectric layer, and a flexible membrane having first and second ends supported at spaced locations on the substrate base, where the flexible membrane is configured to move from a default position to an actuated position in response to a preselected switching voltage applied between the flexible membrane and the electrode, and where, in the actuated position, the flexible membrane is in electrical contact with the metal layer. | 10-27-2011 |
20120010851 | SYSTEM AND METHOD FOR DETECTION OF CONCEALED CARGO IN A VEHICLE BY CENTER OF MASS MEASUREMENT - A system and computer-implemented method for detecting concealed cargo and/or concealed passengers in a vehicle includes obtaining weight distribution data for the vehicle; obtaining vehicle loading data; measuring a center of mass of the vehicle to obtain an actual center of mass position of the vehicle; and executing one or more computer program modules configured to determined a predicted center of mass position of the vehicle using the obtained vehicle loading data and the obtained weight distribution data of the vehicle; compare the actual center of mass position of the vehicle with the predicted center of mass position of the vehicle; and provide a signal if the actual center of mass position of the vehicle departs from the predicted center of mass position of the vehicle by at least a predetermined threshold, the signal being representative of concealed cargo and/or concealed passengers in the vehicle. | 01-12-2012 |
20120062328 | SELF-POWERED MICROELECTROMECHANICAL OSCILLATOR - Self powered microelectromechanical oscillators are provided for various applications. In one embodiment, the invention relates to a self powered microelectromechanical tagging or sensing system including a microelectromechanical oscillator having a characteristic frequency, the oscillator including a first substrate having a radioactive material configured to emit electrons, and a second substrate, spaced apart from the first substrate by first and second ends supported at spaced locations on the first substrate, where the second substrate includes a flexible material and is configured to collect the electrons emitted from the first substrate, and move toward the first substrate from a default position to an actuated position when a sufficient number of electrons have been collected, where, in the actuated position, a plurality of the collected electrons are transferred from the second substrate to the first substrate, and a circuitry configured to receive, from the oscillator by wireless communication, information indicative of the characteristic frequency of the oscillator. | 03-15-2012 |
20130111738 | SYSTEMS AND METHODS FOR PROVIDING HIGH-CAPACITANCE RF MEMS SWITCHES - Systems and methods for providing high-capacitive RF MEMS switches are provided. In one embodiment, the invention relates to a micro-electro-mechanical switch assembly including a substrate, an electrode disposed on a portion of the substrate, a dielectric layer disposed on at least a portion of the electrode, a metal layer disposed on at least a portion of the dielectric layer, and a flexible membrane having first and second ends supported at spaced locations on the substrate base, where the flexible membrane is configured to move from a default position to an actuated position in response to a preselected switching voltage applied between the flexible membrane and the electrode, and where, in the actuated position, the flexible membrane is in electrical contact with the metal layer. | 05-09-2013 |
20130299328 | MICRO ELECTRO MECHANICAL SYSTEM (MEMS) MICROWAVE SWITCH STRUCTURES - A structure having a plurality serially coupled variable capacitors, each one of the variable capacitors having a pair of plates, one of the plates being electrostatically moveable relative to the other one of the plates, to provide each one of the variable capacitors with a variable capacitance; and a transmission line. A first one of the variable capacitors has a first one of the one plates thereof coupled between and input and output of the transmission line and a second one of the plates thereof serially coupled to a first one of the plates of a second one of the variable capacitors. | 11-14-2013 |