| Patent application number | Description | Published |
|---|
| 20080272698 | HIGH FREQUENCY HELICAL AMPLIFIER AND OSCILLATOR - Disclosed herein is a class of mm and sub mm wavelength amplifiers and oscillators operating with miniature helical slow wave circuits manufactured using micro fabrication technology. The helices are supported by diamond dielectric support rods. Diamond is the best possible thermal conductor, and it can be bonded to the helix. The electron beam is transmitted, not through the center of the helix, but around the outside. In some configurations the RF power produced may be radiated directly from the slow wave circuit. The method of fabrication, which is applicable above 60 GHz, is compatible with mass production. | 11-06-2008 |
| 20100045160 | MULTIBEAM DOUBLY CONVERGENT ELECTRON GUN - This disclosure describes a multibeam doubly convergent electron gun. Two or more beamlets can be run parallel to the axis at a prescribed radius to produce sufficient current to drive the VED. In order to obtain sufficient cathode surface area to provide the required current, the beamlets are launched from a cathode radius greater than the radius required in a slow wave circuit. In one embodiment, an electron gun includes a focus electrode that surrounds two or more cathodes, wherein each cathode emits a beamlet comprised of a plurality of electrons directed to a predetermined location. A first anode receives each beamlet at the predetermined location, accelerates each beamlet and changes the radius of each beamlet. A second anode receives each beamlet from the first anode, directs each beamlet along a predetermined axis, further accelerates, and can further compress each beamlet. | 02-25-2010 |
| 20120176034 | HIGH FREQUENCY HELICAL AMPLIFIER AND OSCILLATOR - Disclosed herein is a class of mm and sub mm wavelength amplifiers and oscillators operating with miniature helical slow wave circuits manufactured using micro fabrication technology. The helices are supported by diamond dielectric support rods. Diamond is the best possible thermal conductor, and it can be bonded to the helix. The electron beam is transmitted, not through the center of the helix, but around the outside. In some configurations the RF power produced may be radiated directly from the slow wave circuit. The method of fabrication, which is applicable above 60 GHz, is compatible with mass production. | 07-12-2012 |
| 20120181927 | HIGH FREQUENCY HELICAL AMPLIFIER AND OSCILLATOR - Disclosed herein is a class of mm and sub mm wavelength amplifiers and oscillators operating with miniature helical slow wave circuits manufactured using micro fabrication technology. The helices are supported by diamond dielectric support rods. Diamond is the best possible thermal conductor, and it can be bonded to the helix. The electron beam is transmitted, not through the center of the helix, but around the outside. In some configurations the RF power produced may be radiated directly from the slow wave circuit. The method of fabrication, which is applicable above 60 GHz, is compatible with mass production. | 07-19-2012 |
| 20120181930 | HIGH FREQUENCY HELICAL AMPLIFIER AND OSCILLATOR - Disclosed herein is a class of mm and sub mm wavelength amplifiers and oscillators operating with miniature helical slow wave circuits manufactured using micro fabrication technology. The helices are supported by diamond dielectric support rods. Diamond is the best possible thermal conductor, and it can be bonded to the helix. The electron beam is transmitted, not through the center of the helix, but around the outside. In some configurations the RF power produced may be radiated directly from the slow wave circuit. The method of fabrication, which is applicable above 60 GHz, is compatible with mass production. | 07-19-2012 |
| 20120187832 | HIGH FREQUENCY HELICAL AMPLIFIER AND OSCILLATOR - Disclosed herein is a class of mm and sub mm wavelength amplifiers and oscillators operating with miniature helical slow wave circuits manufactured using micro fabrication technology. The helices are supported by diamond dielectric support rods. Diamond is the best possible thermal conductor, and it can be bonded to the helix. The electron beam is transmitted, not through the center of the helix, but around the outside. In some configurations the RF power produced may be radiated directly from the slow wave circuit. The method of fabrication, which is applicable above 60 GHz, is compatible with mass production. | 07-26-2012 |
| Patent application number | Description | Published |
|---|
| 20090157051 | Catheter with open faced end portion - A vascular access catheter that has a substantially distal end portion that has a distal tip. The distal end portion has a sloped face in the distal portion of the catheter, an outflow lumen aperture, and a second inflow lumen aperture. The outflow lumen aperture is substantially completely open in the sloped face and exits the distal portion adjacent the distal tip. The catheter has a guidewire lumen that is located at least in the region of the distal portion of the catheter and is capable of receiving a guidewire. The guidewire lumen has a proximal aperture and a distal aperture that extends distally of the outflow lumen aperture. The guidewire distal aperture exits at the distal most edge of the distal end portion. The guidewire lumen may extend a partial length of the catheter or substantially the entire length of the catheter. The catheter distal portion may be substantially straight or curved. | 06-18-2009 |
| 20090306606 | CATHETER HUB ASSEMBLY WITH VASCULAR ACCESS PORT - A vascular access catheter having a catheter hub assembly and a catheter shaft having a plurality of lumens is disclosed. The hub assembly has a body with an interior cavity and an exterior surface with a plurality of openings that are configured to receive the catheter shaft and a plurality of extension tubes, which are fluidly connected to lumens of the catheter shaft. A vascular access port having a housing, at least one reservoir and a self-sealing septum having an outer surface, is positioned partially therein the interior cavity of the body. A portion of the housing defines a reservoir outlet stem that is in fluid communication with the reservoir. At least a portion of the outer surface of the septum is defined therein a port opening that is defined therein the body and is circumferentially surrounded by portions of the exterior surface of the hub body. | 12-10-2009 |
| 20100191165 | Multilumen Catheters and Method of Manufacturing - A multilumen catheter assembly and method of making the catheter assembly is provided that involves providing a plurality of tubes, each tube having a first end, a second end, at least one lumen, and at least one surface, selectively heating at least a portion of the surface of at least a first tube of the plurality of tubes, and contacting the selectively heated portion of the tube with a portion of the surface of a second tube to form a multilumen catheter shaft that is joined together along at least a portion of the length of the catheter shaft. | 07-29-2010 |
| 20120136341 | Multilumen Catheters and Method of Manufacturing - A multilumen catheter assembly and method of making the catheter assembly is provided that involves providing a plurality of tubes, each tube having a first end, a second end, at least one lumen, and at least one surface, selectively heating at least a portion of the surface of at least a first tube of the plurality of tubes, and contacting the selectively heated portion of the tube with a portion of the surface of a second tube to form a multilumen catheter shaft that is joined together along at least a portion of the length of the catheter shaft. | 05-31-2012 |
