| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 333243000 | Shielded type | 12 |
| 20080197946 | Three-dimensional microstructures and methods of formation thereof - Provided are three-dimensional microstructures and their methods of formation. The microstructures are formed by a sequential build process and include microstructural elements which are affixed to one another. The microstructures find use, for example, in coaxial transmission lines for electromagnetic energy. | 08-21-2008 |
| 20090058569 | Coaxial waveguide microstructures having an active and methods of formation thereof - Provided are coaxial waveguide microstructures. The microstructures include a substrate and a coaxial waveguide disposed above the substrate. The coaxial waveguide includes: a center conductor; an outer conductor including one or more walls, spaced apart from and disposed around the center conductor; one or more dielectric support members for supporting the center conductor in contact with the center conductor and enclosed within the outer conductor; and a core volume between the center conductor and the outer conductor, wherein the core volume is under vacuum or in a gas state. Also provided are methods of forming coaxial waveguide microstructures by a sequential build process and hermetic packages which include a coaxial waveguide microstructure. | 03-05-2009 |
| 20100109819 | THREE-DIMENSIONAL MICROSTRUCTURES AND METHODS OF FORMATION THEREOF - Provided are three-dimensional microstructures and their methods of formation. The microstructures are formed by a sequential build process and include microstructural elements which are affixed to one another. The microstructures find use, for example, in coaxial transmission lines for electromagnetic energy. | 05-06-2010 |
| 20100308941 | HIGH-FREQUENCY LINE STRUCTURE ON RESIN SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A high-frequency line structure includes a multi-layered resin substrate in which insulating layers of a resin are laminated. A high-frequency-signal input part is arranged on the resin substrate to input a high-frequency signal and supply the high-frequency signal to the resin substrate. A high-frequency-signal output part is arranged in the resin substrate to receive the high-frequency signal from the input part and output the received high-frequency signal. A first metal layer is arranged to encircle the input and output pads and electrically insulated from the input and output parts. A second metal layer is arranged on the resin substrate. A plurality of penetration vias are arranged in the resin substrate to encircle the input part and the output part, and each penetration via being connected to the first and second metal layers. | 12-09-2010 |
| 20110115580 | TWO LEVEL MATRIX FOR EMBODYING DISPARATE MICRO-MACHINED COAXIAL COMPONENTS - A system is provided for three dimensional coaxial transmission of signals in a micro-machined component, the system having, a micro-machined component matrix with a first metallic sheet having a plurality of first access holes disposed therein; a second metallic sheet having a plurality of second access holes disposed therein; a plurality of metal posts disposed between the first and second metallic sheets such that the metallic sheets are maintained at a desired distance; walls defining a coaxial transmission channel; and a coaxial transmission core disposed within the channel. | 05-19-2011 |
| 20110181376 | WAVEGUIDE STRUCTURES AND PROCESSES THEREOF - An apparatus may include one or more conductive surfaces, waveguide structures and/or ports. One or more waveguide structures may include a portion disposed above a conductive surface, an outer conductor, and/or an inner conductor. A first portion of an outer conductor may be connected to a conductive surface. A port end of an outer conductor may be connected to an outer conductor port. An inner conductor may be disposed inside and spaced apart from an outer conductor. An inner conductor port may be connected to an inner conductor. An inner conductor of two or more waveguide structures may be connected to each other. A conductive surface may include at least one aperture portion, which may have a width substantially similar to the width of a waveguide structure. A substrate may be disposed between one or more waveguide structures and a conductive surface for a substantial portion of a waveguide structure. | 07-28-2011 |
| 20130015927 | COAXIAL CONDUCTOR STRUCTUREAANM Neumaier; ChristophAACI BaiernAACO DEAAGP Neumaier; Christoph Baiern DEAANM Lorenz; MartinAACI MittenwaldAACO DEAAGP Lorenz; Martin Mittenwald DEAANM Spaeth; NatalieAACI RosenheimAACO DEAAGP Spaeth; Natalie Rosenheim DEAANM Numssen; KaiAACI Hohenkirchen-SiegertsbrunnAACO DEAAGP Numssen; Kai Hohenkirchen-Siegertsbrunn DEAANM Kreuzmair; JosefAACI BruckmuhlAACO DEAAGP Kreuzmair; Josef Bruckmuhl DE - A coaxial conductor structure for the interference-free transmission of a propagable TEM mode of an HF signal wave within at least one band of n frequency bands forming within a dispersion relation. | 01-17-2013 |
| 20140043115 | RIGID RF COAXIAL TRANSMISSION LINE FOR A WELLBORE AND RELATED METHODS - A rigid radio frequency (RF) coaxial transmission line to be positioned within a wellbore in a subterranean formation may include a series of rigid coaxial sections coupled together in end-to-end relation. Each rigid coaxial section may include an inner conductor, a rigid outer conductor surrounding the inner conductor, and a dielectric therebetween. Each of the rigid outer conductors may include a rigid outer layer having opposing threaded ends defining overlapping mechanical threaded joints with adjacent rigid outer layers. Each of the rigid outer conductors may also include an electrically conductive inner layer coupled to the rigid outer layer and having opposing ends defining electrical joints with adjacent electrically conductive inner layers. | 02-13-2014 |
| 20140266515 | Coaxial Waveguide Microstructures Having an Active Device and Methods of Formation Thereof - Provided are coaxial waveguide microstructures. The microstructures include a substrate and a coaxial waveguide disposed above the substrate. The coaxial waveguide includes: a center conductor; an outer conductor including one or more walls, spaced apart from and disposed around the center conductor; one or more dielectric support members for supporting the center conductor in contact with the center conductor and enclosed within the outer conductor; and a core volume between the center conductor and the outer conductor, wherein the core volume is under vacuum or in a gas state. Also provided are methods of forming coaxial waveguide microstructures by a sequential build process and hermetic packages which include a coaxial waveguide microstructure. | 09-18-2014 |
| 20150070112 | RIGID RF COAXIAL TRANSMISSION LINE WITH CONNECTOR HAVING ELECTRICALLY CONDUCTIVE LINER AND RELATED METHODS - A rigid RF coaxial transmission line is positioned within a wellbore in a subterranean formation. The rigid RF coaxial transmission line includes a series of rigid coaxial sections coupled together in end-to-end relation and to be positioned within the wellbore of the subterranean formation. Each rigid coaxial section includes an inner conductor, a rigid outer conductor surrounding the inner conductor, and a dielectric therebetween. Each of the rigid outer conductors has threaded ends. The rigid RF coaxial transmission line includes a respective connector between adjacent ones of the series of rigid coaxial sections, each connector having a rigid outer layer threadingly secured to respective threaded ends of adjacent rigid outer conductors, and an electrically conductive liner carried by the rigid outer layer and defining an electrical joint between the adjacent rigid outer conductors. | 03-12-2015 |
| 20160072171 | COAXIAL TRANSMISSION LINE MICROSTRUCTURES AND METHODS OF FORMATION THEREOF - Provided are coaxial transmission line microstructures formed by a sequential build process, and methods of forming such microstructures. The microstructures include a transition structure for transitioning between the coaxial transmission line and an electrical connector. The microstructures have particular applicability to devices for transmitting electromagnetic energy and other electronic signals. | 03-10-2016 |
| 20160254583 | HOLLOW CORE COAXIAL CABLES AND METHODS OF MAKING THE SAME | 09-01-2016 |
