Patent application number | Description | Published |
20080252401 | Evanescent Mode Resonator Including Tunable Capacitive Post - An evanescent mode resonator including a cavity formed in a substrate of semiconductor material. The resonator includes a capacitive post positioned within the cavity, and a tuning element positioned within the wall of the cavity proximate to the capacitive post, where a gap between the flexible element and the post sets the tuning of the resonator. | 10-16-2008 |
20080252521 | Vertically Integrated Transceiver Array - A transceiver array that employs vertically integrated circuits in one or more wafers. The array includes a digital wafer having digital circuits. A plurality of RF cubes are formed to the digital wafer, where each RF cube includes an antenna wafer and at least one lower wafer, and where each RF cube represents a separate channel of the array. The antenna wafer includes a patch antenna and a resonating cavity. The at least one lower wafer includes high frequency RF integrated circuits and intermediate frequency RF integrated circuits. The array has application as a front-end for a digital beam-forming system. | 10-16-2008 |
20090246929 | MEMBRANE SUSPENDED MEMS STRUCTURES - A method for micro-machining a varactor that is part of a membrane suspended MEMS tunable filter. In one non-limiting embodiment, the method includes providing a main substrate; depositing a membrane on the main substrate; depositing and patterning a plurality of sacrificial photoresist layers at predetermined times during the fabrication of the varactor; depositing metal layers that define a fabricated varactor structure enclosed within photoresist; coupling a carrier substrate to the fabricated structure opposite to the main substrate using a release layer; etching a central portion of the main substrate to expose the membrane; removing the carrier substrate by dissolving the release layer in a material that attacks the release layer but does not dissolve the photoresist; and removing the photoresist layers to provide a released varactor. | 10-01-2009 |
20090251356 | DUAL-BAND ANTENNA ARRAY AND RF FRONT-END FOR AUTOMOTIVE RADARS - The automotive radar includes a printed circuit board having a top surface and a bottom surface, and a processor mounted on the bottom surface of the printed circuit board. The automotive radar also includes a second liquid crystal polymer layer formed on the top surface of the printed circuit board, a second microstrip array printed on the second liquid crystal polymer layer, the second microstrip array having a patch, a first liquid crystal polymer layer formed on the second liquid crystal polymer layer, a first microstrip array printed on the first liquid crystal polymer layer, the first microstrip array having a perforated patch, and a transmit/receive module connected to a bottom surface of the second liquid crystal polymer layer and configured to transmit a first frequency signal to the first microstrip array and a second frequency signal to the second microstrip array. | 10-08-2009 |
20090251357 | DUAL-BAND ANTENNA ARRAY AND RF FRONT-END FOR MM-WAVE IMAGER AND RADAR - The radar includes a PCB having a top surface and a bottom surface, and a processor mounted on the bottom surface of the PCB. The radar includes a second liquid crystal polymer layer formed on the top surface of the printed circuit board, a second microstrip array printed on the second liquid crystal polymer layer, the second microstrip array having a patch, a first liquid crystal polymer layer formed on the second liquid crystal polymer layer, a first microstrip array printed on the first liquid crystal polymer layer, the first microstrip array having a perforated patch, an antenna positioned underneath the patch and connected to the second microstrip array, and a transmit/receive module connected to a bottom surface of the second liquid crystal polymer layer and configured to transmit a first frequency signal to the first microstrip array and a second frequency signal to the second microstrip array. | 10-08-2009 |
20090251362 | THREE DIMENSIONAL INTEGRATED AUTOMOTIVE RADARS AND METHODS OF MANUFACTURING THE SAME - The invention is a low-cost, compact radar for adaptively forming beams and independently steering the beams to improve the noise and sensitivity of the radar. The radar includes a printed circuit board, a low-cost multi-layer organic substrate, and a three dimensional (3D) radio frequency (RF) front end that is flood mounted on the substrate. | 10-08-2009 |
20090251375 | MICROWAVE ANTENNA AND METHOD FOR MAKING SAME - A method for fabricating a microwave horn antenna in which a thermoplastic sacrificial layer is mounted to a thermoplastic horn layer. A heated horn embossing plate having at least one horn shaped embossing element is then moved into the horn layer so that the horn element penetrates through the horn layer and extends partially into the sacrificial layer thus forming a horn opening in the horn layer complementary in shape to the horn element. The horn layer and sacrificial layer are then separated from each other and the horn opening and at least a portion of the back surface of the horn layer is covered with a metal coating. A thermoplastic wave guide layer formed by embossing wave guide channels into the layer is covered with metal and attached to the back side of the horn layer to form the antenna. Alternatively, a portion of the horn and the remaining portion of a microwave channel are formed in both a first and second thermoplastic section. These portions of the microwave guide channel and horn are then coated with a metal material and the sections are secured together in a facing relationship so that the horn portions and wave guide channel portions on both the first and second sections register with each other. | 10-08-2009 |
20100033389 | AUTOMOTIVE RADAR USING A METAMATERIAL LENS - An example apparatus comprises an electromagnetic source, such as an antenna, a metamaterial lens, and a reflector. The antenna is located proximate the metamaterial lens, for example supported by the metamaterial lens, and the antenna is operable to generate radiation when the antenna is energized. The reflector is positioned so as to reflect the radiation through the metamaterial lens. The reflector may have a generally concave reflective surface, for example having a parabolic or spherical cross-section. The metamaterial lens may have an area similar to that of the aperture of the reflector. In some examples, the antenna is located proximate a focal point of the reflector, so that a generally parallel beam is obtained after reflection from the reflector. | 02-11-2010 |
20100066638 | MICROWAVE COMPONENT AND METHOD FOR MAKING THE SAME - A microwave component having an elongated flexible sheet made of a liquid crystal polymer. A first microwave pattern is printed on one side of the sheet while a second microwave pattern is printed on the other side of the sheet. The first and second patterns are mirror images of each other so that with the first and second portions of the sheet folded over so that the first portion overlies the second portion, the patterns are aligned with each other and bond together. A margin area of the sheet in between the first and second patterns is then removed to form the microwave component. | 03-18-2010 |
20100085130 | MANUFACTURABLE TUNABLE MATCHING NETWORK FOR WIRE AND RIBBON BOND COMPENSATION - In a millimeter wave circuit having first and second adjacent circuit boards, each circuit board having a microstrip and a ground plane, a low loss electrical connection between the microstrips on adjacent planes. Each microstrip ends in a connection pad and a first wire bond is attached to the connection pads on the adjacent circuit boards. A second wire bond also extends between the connection pads in parallel with the first wire bond and, optionally, one or more capacitors are provided on either the first, second or both circuit boards to match the impedance between the circuit boards. These capacitors may be selectively trimmed. | 04-08-2010 |
20100134376 | WIDEBAND RF 3D TRANSITIONS - Apparatus and methods according to examples of the present invention include providing an electrical interconnection between an RF circuit and an antenna, the electrical interconnection including a transition via through an antenna substrate. The electrical connection can be configured so as to provide low losses. | 06-03-2010 |
20100182107 | SYSTEM AND METHOD FOR IMPROVING PERFORMANCE OF COPLANAR WAVEGUIDE BENDS AT MM-WAVE FREQUENCIES - An apparatus including a liquid crystal polymer substrate having a top surface and a bottom surface, a coplanar waveguide formed on the top surface of the liquid crystal polymer substrate, the coplanar waveguide having a 90 degree bend with a mitered edge, an inner via positioned adjacent to an inner corner of the 90 degree bend, and an outer via positioned adjacent to the mitered edge of the 90 degree bend, the inner and outer vias positioned along a first plane that is perpendicular to a second plane defined by the mitered edge. | 07-22-2010 |
20100225410 | WAVEGUIDE TO MICROSTRIP TRANSITION - A waveguide to microstrip transition having a waveguide open at one end. A dielectric substrate includes a first and a second side and a ground plane covers the first side of the substrate. The dielectric substrate overlies the waveguide opening so that the ground plane faces the waveguide and an opening in the ground plane registers with the waveguide opening. A back short having a housing is positioned on the second side of the dielectric substrate. The back short housing forms a cavity which registers with at least a portion of the ground plane opening so that microwave energy from the waveguide passes through the dielectric substrate and into the cavity defined by the back short housing. The back short housing has at least one opening to the cavity along the second side of the dielectric substrate. A pair of spaced apart microstrips on the second side of the substrate each have a free end positioned in the cavity so that the free ends of the microstrips are spaced apart from each other. | 09-09-2010 |
20100225539 | BUTLER MATRIX FOR 3D INTEGRATED RF FRONT-ENDS - Examples of the present invention include a radar apparatus comprising a substrate, an antenna disposed on a first side of the substrate, a Butler matrix supported by same the substrate, output ports of the Butler matrix being electrically connected with a group of radiative elements; and input ports configured to be in communication with a radio frequency (RF) circuit. The RF circuit may be supported proximate or adjacent the substrate. | 09-09-2010 |
20100238085 | PLASTIC WAVEGUIDE SLOT ARRAY AND METHOD OF MANUFACTURE - The present invention discloses a waveguide antenna structure and a method of manufacture. The waveguide antenna structure can include a non-metallic substrate having a waveguide channel extending along a first direction and an inlet channel extending along a second direction. The inlet channel intersects with the waveguide channel and both channels are at least partially coated with a metallic material. The waveguide channel can have a generally U-shaped cross-section with an open side that is at partially enclosed by a slot plate that is attached to the non-metallic substrate. | 09-23-2010 |
20110156946 | DUAL-BAND ANTENNA ARRAY AND RF FRONT-END FOR MM-WAVE IMAGER AND RADAR - The radar includes a PCB having a top surface and a bottom surface, and a processor mounted on the bottom surface of the PCB. The radar includes a second liquid crystal polymer layer formed on the top surface of the printed circuit board, a second microstrip array printed on the second liquid crystal polymer layer, the second microstrip array having a patch, a first liquid crystal polymer layer formed on the second liquid crystal polymer layer, a first microstrip array printed on the first liquid crystal polymer layer, the first microstrip array having a perforated patch, an antenna positioned underneath the patch and connected to the second microstrip array, and a transmit/receive module connected to a bottom surface of the second liquid crystal polymer layer and configured to transmit a first frequency signal to the first microstrip array and a second frequency signal to the second microstrip array. | 06-30-2011 |
20120007765 | DUAL-BAND ANTENNA ARRAY AND RF FRONT-END FOR MM-WAVE IMAGER AND RADAR - The radar includes a PCB having a top surface and a bottom surface, and a processor mounted on the bottom surface of the PCB. The radar includes a second liquid crystal polymer layer formed on the top surface of the printed circuit board, a second microstrip array printed on the second liquid crystal polymer layer, the second microstrip array having a patch, a first liquid crystal polymer layer formed on the second liquid crystal polymer layer, a first microstrip array printed on the first liquid crystal polymer layer, the first microstrip array having a perforated patch, an antenna positioned underneath the patch and connected to the second microstrip array, and a transmit/receive module connected to a bottom surface of the second liquid crystal polymer layer and configured to transmit a first frequency signal to the first microstrip array and a second frequency signal to the second microstrip array. | 01-12-2012 |