| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 333156000 | Delay lines including long line elements | 80 |
| 20080204165 | Delay filter module - A delay filter module comprising at least one dielectric monoblock ceramic bandpass filter and a circuit for compensating/equalizing the signal delay produced by the delay filter. In one embodiment, the circuit is defined by a hybrid coupler defining at least two ports coupled to a dielectric ceramic reactive termination block defining at least a pair of reactive termination resonators and coupling capacitors. The delay can be adjusted by tuning the dielectric monoblock bandpass filter and/or the reactive termination resonators and/or the coupling capacitors defined by the dielectric ceramic reactive termination block. | 08-28-2008 |
| 20100060379 | DELAY LINE FOR PRINTED CIRCUIT BROAD - A delay line for a printed circuit board (PCB) is disclosed. The delay line includes a first straight line, a second straight line and a third straight line. The second and third straight lines are respectively disposed at two sides of the first straight line. The first, second and third straight lines are parallel to each other and form a delay path. The current direction of the second straight line is opposite to that of the third straight line. | 03-11-2010 |
| 20110025432 | Phase element for introducing a phase shift pattern into an electromagnetic wave - A thin electromagnetic phase shifting element, named phase and amplitude shifting surface (PASS), is disclosed. The PASS is capable of independently altering both the phase and the amplitude distribution of the electromagnetic fields propagating through the structure. The element comprises a few patterned metallic layers separated by dielectric layers. The patterns of the metallic layers are tuned to locally alter the phase and/or the amplitude of an incoming electromagnetic wave to a prescribed set of desired values for the outgoing electromagnetic wave. The PASS can be applied to design components such as gratings, lenses, holograms, and various types of antennas in the microwave, millimetre wave and sub-millimetre wave. | 02-03-2011 |
| 20120056693 | SURFACE COMMUNICATION APPARATUS - Provided is a surface communication apparatus that includes: propagation sheet ( | 03-08-2012 |
| 20120194295 | PHASE SHIFTER WITH REVERSELY CONFIGURED ELECTRIC REGULATION UNITS - The present invention provides a phase shifter with reversely configured electric regulation units. The phase shifter has a chamber with a holding space, a first feeder unit and a second feeder unit at the sides of the holding space, and at least one reversely configured electric regulation unit. The regulation unit contains a first coupling set with a movable and a fixed coupling, and a second coupling set with a movable and a fixed coupling. A sync linkage mechanism is used to link the respective movable couplings. A push-pull unit is linked to a driven connection of the sync linkage mechanism. A cover plate seals the holding space. The phase shifter configuration makes it possible to reduce markedly the volume and space of the phase shifter, cut down the manufacturing cost and improve the mating accuracy with higher applicability. | 08-02-2012 |
| 20120194296 | SIMULTANEOUS PHASE AND AMPLITUDE CONTROL USING TRIPLE STUB TOPOLOGY AND ITS IMPLEMENTATION USING RF MEMS TECHNOLOGY - This invention relates to techniques for controlling the amplitude and the insertion phase of an input signal in RF applications. More particularly, this invention relates to phase shifters, vector modulators, and attenuators employing both semi-conductor and RF microelectromechanical systems (MEMS) technologies. | 08-02-2012 |
| 20130063225 | PHASE SHIFTER - The present invention discloses a phase shifter, which comprises at least two layered chambers, wherein, in each chamber two parallel-arranged metal guide sleeves and a U-shaped conductor are set, the two free ends of the U-shaped conductor are respectively inserted into the two metal guide sleeves, and the free ends of the U-shaped conductor move relatively to the metal guide sleeves so as to change the phase of the output signal of the phase shifter. Using the phase shifter provided in the present invention enables the phase control of each radiating element to be very convenient. Furthermore, the phase shifter is simple in structure and inexpensive. | 03-14-2013 |
| 20130120079 | Filter Using a Transmission Line as a Delay Line - Methods and systems for a configurable finite impulse response (FIR) filter using a transmission line as a delay line are disclosed and may include selectively coupling one or more taps of a multi-tap transmission line to configure delays for one or more finite impulse response (FIR) filters to enable transmission and/or reception of signals. The delays may be configured based on a location of the one or more selectively coupled taps on the multi-tap transmission line. The FIR filters, which may include one or more stages, may be impedance matched to the selectively coupled taps. The multi-tap transmission line may be integrated on the chip, or a package to which the chip is coupled. The multi-tap transmission line may include a microstrip structure or a coplanar waveguide structure, and may include ferromagnetic material. The distortion of signals in the chip may be compensated utilizing the FIR filters. | 05-16-2013 |
| 20140152400 | NOVEL PHASE SHIFTERS AND TUNING ELEMENTS - Embodiments of phase shifters ( | 06-05-2014 |
| 20150035619 | PHASE SHIFTER AND METHOD OF SHIFTING PHASE OF SIGNAL - Provided is a phase shifter for shifting a phase of a signal the phase shifter including an input unit to split an input signal into a plurality of signals having different phases, a connection unit to change at least one of magnitudes and phases of the plurality of signals, apply the changed plurality of signals to a plurality of loads, and receive a plurality of return signals generated when the applied signals are returned by the plurality of loads, and an output unit to generate an output signal having a predetermined phase difference from the input signal based on the return signals. | 02-05-2015 |
| 333157000 | Waveguide | 13 |
| 20090072924 | Waveguide Forming Apparatus, Dielectric Waveguide Forming Apparatus, Pin Structure, and High Frequency Circuit - There are provided a waveguide forming apparatus, a dielectric waveguide forming apparatus, a pin structure and a high frequency circuit that can optimize a circuit portion provided therein and have high versatility. A waveguide is formed by allowing first and second conductive layers ( | 03-19-2009 |
| 20090284327 | Rotatable Polarizer Device and Feed Network Using The Same - There is disclosed a feed network including a circular common waveguide having an axis and terminating in a common port and a first port for coupling a first linearly polarized mode to the circular common waveguide. A phase shifting element may be disposed within the circular waveguide. The phase shifting element may be adapted to cause a predetermined phase shift between a first signal and a second signal propagating in the common waveguide. The phase shifting element may be rotatable about the axis of the common waveguide. | 11-19-2009 |
| 20120075037 | APPARATUS AND ASSOCIATED METHODS - In one or more embodiments described herein, there is provided an apparatus comprising input and output waveguides, and a carbon nanotube array. The array is positioned to electromagnetically couple the waveguides. The array has a slow-wave factor associated therewith, the speed of propagation of waves through the array being determined by this slow-wave factor. The array also has a first interface region. The apparatus further comprises a tuning element positioned to oppose the first interface region of the array to define a tuning distance. The slow-wave factor is affected by this tuning distance, and the tuning element is configured to be movable with respect to the first interface region so as to vary this tuning distance and thereby control the speed of propagation of waves through the array. | 03-29-2012 |
| 20120274419 | PHASE SHIFTER USING SUBSTRATE INTEGRATED WAVEGUIDE - Provided is a phase shifter using a substrate integrated waveguide (SIW). The phase shifter includes: a substrate; and a waveguide integrated on the substrate, wherein the waveguide includes an input port, an out port, two columns of via walls which are separated by a width of the waveguide and are arranged parallel to each other, and either a plurality of air holes which are formed to shift a phase of a signal between the input port and the output port or a plurality of rods, each including an air hole and a dielectric material inserted into the air hole. | 11-01-2012 |
| 20140266503 | SPIRAL SURFACE ELECTROMAGNETIC WAVE DISPERSIVE DELAY LINE - Dispersive properties of a linear dispersive delay line are retained in a spiral configuration by constraining the radius of curvature depending on a desired propagation mode. The compact form factor spiral can be either a continuous spiral or a piecewise linear approximation. The spiral comprises a highly dielectric waveguide such as titanium dioxide or barium tetratitanate. Preferably, a spacer with a low dielectric constant and a microstrip are disposed on the top surface. The microstrip prevents attenuation of low frequencies, thereby increasing the operating frequency range. A second dielectric spacer and a second microstrip can be deposited on the bottom surface of the waveguide. Alternatively, the bottom surface of the waveguide can face a ground plane. The waveguide can be fed by horns or half-horns. | 09-18-2014 |
| 20150028967 | TWIST FOR CONNECTING ORTHOGONAL WAVEGUIDES IN A SINGLE HOUSING STRUCTURE - A twist for coupling radiation between orthogonal waveguides is provided. The twist includes at least three cavities opening from at least one of a first X1-Y1 surface and a second X2-Y2 surface of a metal block. A first cavity has a first opening in a first Y-Z plane and a second opening in a second Y-Z plane offset from the first Y-Z plane by a first length. A second cavity shares the second opening with the first cavity and has a third opening in a third Y-Z plane offset from the second Y-Z plane by a second length and has at least two heights and at least two widths. A last cavity shares a next-to-last opening in a next-to-last Y-Z plane with a next-to-last cavity. The last cavity has a last opening in a last Y-Z plane offset from the next-to-last Y-Z plane by a last length. | 01-29-2015 |
| 20160079643 | MODULATED GUIDED SURFACE WAVES - Disclosed are various systems and methods directed to the launching of a guided surface wave embodying a modulated signal using a guided surface waveguide probe. A modulated signal is generated and coupled to a guided surface waveguide probe. A resulting guided surface wave is launched that decays exponentially as a function of distance. | 03-17-2016 |
| 333158000 | Including ferrite means | 5 |
| 20090128257 | Ferrite phase shifter and automatic matching apparatus - In a ferrite phase shifter, a temperature rise at ferrites can be suppressed to maintain the characteristics of the frites even when used at high power. Thus, the phase shifter can stably demonstrate high performance. The ferrite phase shifter includes a rectangular waveguide, substantially sheet-like ferrites disposed to face each other with respective mounting surfaces kept in tight contact with inner walls of wide surfaces of the rectangular waveguide facing each other, and a coil which is wound around the periphery of the rectangular waveguide in a position substantially corresponding to the position of the ferrites and through which a current is passed. | 05-21-2009 |
| 20120280764 | FERRITE PHASE SHIFTER AND AUTOMATIC MATCHING APPARATUS - In a ferrite phase shifter, a temperature rise at ferrites can be suppressed to maintain the characteristics of the frites even when used at high power. Thus, the phase shifter can stably demonstrate high performance. The ferrite phase shifter includes a rectangular waveguide, substantially sheet-like ferrites disposed to face each other with respective mounting surfaces kept in tight contact with inner walls of wide surfaces of the rectangular waveguide facing each other, and a coil which is wound around the periphery of the rectangular waveguide in a position substantially corresponding to the position of the ferrites and through which a current is passed. | 11-08-2012 |
| 20150311573 | SIT ON TOP CIRCUIT BOARD FERRITE PHASE SHIFTER - Systems and methods for sit on top circuit board ferrite phase shifters are provided. In at least one embodiment, the system comprises a waveguide ferrite phase shifter configured to propagate electromagnetic energy longitudinally between the ends of the waveguide ferrite phase shifter, a stripline circuit board that includes a conductive trace, and one or more conductive pins configured to couple electromagnetic energy between the conductive trace and an end of the waveguide ferrite phase shifter. The waveguide ferrite phase shifter comprises at least one ferromagnetic core that extends longitudinally between the ends of the waveguide ferrite phase shifter, at least one dielectric slab that abuts one side of the ferromagnetic core and extends longitudinally through the waveguide ferrite phase shifter against the ferromagnetic core, and a metalized rectangular housing that encases the ferromagnetic core and the dielectric slab and extends longitudinally between the ends of the waveguide ferrite phase shifter. | 10-29-2015 |
| 20150380790 | VOLTAGE TUNING OF MICROWAVE MAGNETIC DEVICES USING MAGNETOELECTRIC TRANSDUCERS - Tunable microwave magnetic devices that provide increased performance with reduced size, weight, and cost. The disclosed microwave magnetic devices are voltage-tunable devices that include ferrite substrates. To tune the devices, the magnetic permeability of the respective ferrite substrates is varied by external, voltage-tuned, magnetic fringe fields created by one or more magnetoelectric (ME) transducers. | 12-31-2015 |
| 20160254579 | PRECISION BATCH PRODUCTION METHOD FOR MANUFACTURING FERRITE RODS | 09-01-2016 |
| 333159000 | Having mechanically movable delay control means | 1 |
| 20110001579 | TUNABLE RIDGE WAVEGUIDE DELAY LINE - A tunable delay line for radiofrequency or microwave frequency applications consists of at least one ridge waveguide in which the ridge is movable in the waveguide body so as to vary the width of an air gap defined between the longitudinal end surface of the ridge and a confronting member of the waveguide. The ridge is moved by an actuator external to the waveguide body. | 01-06-2011 |
| 333160000 | Coaxial line | 4 |
| 20080246558 | Miniature RF and Microwave Components and Methods for Fabricating Such Components - RF and microwave radiation directing or controlling components are provided that may be monolithic, that may be formed from a plurality of electrodeposition operations and/or from a plurality of deposited layers of material, that may include switches, inductors, antennae, transmission lines, filters, and/or other active or passive components. Components may include non-radiation-entry and non-radiation-exit channels that are useful in separating sacrificial materials from structural materials. Preferred formation processes use electrochemical fabrication techniques (e.g. including selective depositions, bulk depositions, etching operations and planarization operations) and post-deposition processes (e.g. selective etching operations and/or back filling operations). | 10-09-2008 |
| 20090174500 | Continously Tunable Delay Line - A tunable delay line for radiofrequency applications includes a waveguide and a dielectric perturbing member that is displaceable relative to the waveguide for varying the delay imparted by the line. The waveguide is a ridge waveguide and the perturbing member is arranged parallel to a longitudinal end surface of the ridge and is movable in the ridge plane, toward and away from the ridge end surface, or in a direction transversal to the ridge. | 07-09-2009 |
| 20100026418 | Phase Shifter - A coaxial phase shifter for very high RF-powers includes an optionally-cooled housing which forms the outer conductor and in which a substantially U-shaped inner conductor made of a tube is arranged which comprises at each of its ends a cooling medium connection for guiding through a cooling medium. The U-shaped inner conductor is externally displaceable for changing its electrical length between a contact-making input-side inner-conductor connection piece and a contact-making output-side inner-conductor connection piece. The inner-conductor connection pieces are disposed coaxially in the outer connection flanges which make contact with the housing. | 02-04-2010 |
| 20100141354 | Slow-Wave Coaxial Transmission Line Formed Using CMOS Processes - An integrated circuit structure includes an interconnect structure over a semiconductor substrate and a coaxial transmission line. The coaxial transmission line includes a signal line, a top plate over the signal line and electrically insulated from the signal line, and a bottom plate under the signal line and electrically insulated from the signal line. At least one of the top plate and the bottom plate includes metal strip shields and dielectric strips, with each of the dielectric strips being between two of the metal strip shields. The integrated circuit structure further includes a ground conductor electrically connecting the top plate and the bottom plate. The ground conductor is insulated from the signal line by a dielectric material. | 06-10-2010 |
| 333161000 | Planar line structure (e.g., stripline) | 43 |
| 20080211600 | Broad Band Mechanical Phase Shifter - Mechanical phase shifter which from an external feed signal obtains several signals out of phase with each other, each one of which is applied to an antenna of an array, so that the result of the interference of the radiated fields provides a radiation pattern. The object of the invention is to obtain a greater range of pointing angles, achieved by protrusions or screws that act as capacitors or short-circuits that allow suppressing the higher modes generated in the phase shifter, as well as preventing part of the mutual coupling between the phase shifter L-lines. In addition, due to the greater length of the L-lines, these are reinforced by a protrusion perpendicular to the greater length of the line located on the outer edge of each L-line, and in addition they are provided with supporting means for the L-lines which minimise the vibrations, sag and deformations. The L-lines also increase the frequency at which higher modes appear. | 09-04-2008 |
| 20080272857 | TUNABLE MILLIMETER-WAVE MEMS PHASE-SHIFTER - A phase shifter for and a method for shifting phase in an antenna configured to emit a radio signal at a wavelength include a transmission line. The transmission line has a length along a primary axis and a width across a secondary axis. The primary axis and secondary axis intersect to define a waveguide plane. A conductive screen layer has first and second screen surfaces. The screen surfaces are substantially planar and disposed parallel to and spaced apart from the waveguide plane by a distance and are spaced apart from each other by a screen thickness much smaller than a skin depth of the screen layer determined at the wavelength. A dielectric layer envelopes the screen layer and has a first dielectric surface residing substantially in the waveguide plane and a second dielectric surface parallel to and spaced apart from the first dielectric surface by a height greater than the distance. A conductive ground plate has a ground plate surface substantially coplanar with the second dielectric surface whereby the propagation of the signal along the transmission line is slowed by a slowing factor. | 11-06-2008 |
| 20080297273 | PHASE SHIFTER - A first microstrip line | 12-04-2008 |
| 20090015349 | METHOD AND APPARTUS FOR ALTERING PHASE SHIFT ALONG A TRANSMISSION LINE SECTION - A new technique is presented that allows for controlling the phase of a propagating signal by selectively switching in and out relatively small perturbations along a transmission line section that provide slightly different physical paths for the currents to follow. By using relatively minor perturbations, the phase of a transmission line section can be controlled without drastically altering the impedance of the section, thereby maintaining good impedance matching properties. Also, by keeping the alternate current paths small, generally fine control of phase shift is possible along with allowing the design to remain relatively simple. Such tunable elements can then be incorporated in designs where resonators (or other elements) are separated by specific phase lengths to construct other signal processing functions, such as filters. | 01-15-2009 |
| 20090033438 | Adjustable Phase Shifter For Antenna - An adjustable phase shifter for an antenna includes a metal circuit portion, a coupling portion, and a grounding portion. The metal circuit portion is used for receiving a fed-in signal, while the coupling portion is disposed on one side of the metal circuit portion and is disposed at an angle with respect to the metal circuit portion, for controlling a phase angle of the fed-in signal by adjusting the angle formed therebetween. The grounding portion is disposed on the other side of the metal circuit portion in parallel. The structure of the adjustable phase shifter for adjusting the phase angle output by the phase shifter is simple, so as to improving the fabrication efficiency. Moreover, the fabrication efficiency of the adjustable phase shifter is able to be further improved by adopting an attachable impedance matcher, or changing the structure of the coupling portion. | 02-05-2009 |
| 20090184780 | VARIABLE PHASE SHIFTER - Disclosed is a variable phase shifter, the variable phase shifter including: a fixed board which is fixedly provided in a housing, and consisting of a dielectric board, and consisting of a dielectric board, having a second transfer stripline having at least one arc-shaped output micro stripline on one surface; a rotating board rotatably provided within the housing while coming in contact with the one surface of the fixed board, and consisting of a dielectric board, having a second transfer stripline coupled to the arc-shaped output micro stripline on a surface where the rotating board comes in contact with the one surface of the fixed board even when the rotating board rotates; wherein both the sides of at least one output micro stripline of the fixed board are connected to an output port, and the other surface of the fixed board includes an input micro stripline, so that the other surface of the fixed board is electrically connected and receives an input signal. | 07-23-2009 |
| 20090195329 | VARIABLE PHASE SHIFTER - Disclosed is a variable phase shifter The variable phase shifter includes a housing; a fixed board unit fixedly installed inside the housing, equipped with an input microstrip line with a via hole for receiving an input signal on one face thereof, and equipped with at least one circular arc-shaped output microstrip line outside the input microstrip line; and a rotating board unit rotatably installed inside the housing while being in contact with the one face of the fixed board unit, equipped with a transmission microstrip line on a face coming in contact with the one face of the fixed board unit, and for providing at least one output signal by making coupling even during rotation thereof. | 08-06-2009 |
| 20090315641 | Design Structure, Structure and Method for Providing an On-Chip Variable Delay Transmission Line With Fixed Characteristic Impedance - A design structure, structure, and method for providing an on-chip variable delay transmission line with a fixed characteristic impedance. A method of manufacturing a transmission line structure includes forming a signal line of the transmission line structure, forming a first ground return structure that causes a first delay and a first characteristic impedance in the transmission line structure, and forming a second ground return structure that causes a second delay and a second characteristic impedance in the transmission line structure. The first delay is different from the second delay, and the first characteristic impedance is substantially the same as the second characteristic impedance. | 12-24-2009 |
| 20100066464 | DELAY ELEMENT AND A CORRESPONDING METHOD - A differential delay element for use, e.g., in selectively delaying RF signals in telecommunication systems includes a first microstrip circuit and a second microstrip circuit arranged side-by-side in a facing relationship. The first microstrip circuit defines a first delayed travel path for a first signal from a first input port to a first output port and the second microstrip circuit defines a second delayed travel path for a second signal from a second input port to a second output port. A perturber is arranged between the first and second microstrip circuits, displaceable toward and away from the first and second microstrip circuits, so that when the distance of the perturber to one of the microstrip circuits increases, the distance of the perturber to the other of the microstrip circuits decreases and viceversa. The position of the perturber between the first and second microstrip circuits defines the differential delay, namely the difference (Δτ=τ1−τ2) between the times (τ1,τ2) experienced by the two signals in travelling their travel paths through the delay device. | 03-18-2010 |
| 20100073105 | PHASE SHIFTER - A phase shifter including a substrate, a plurality of first transmission lines, a plurality of second transmission lines, and a coupling portion is described. After the phase shifter feeds a signal into the first transmission lines, the first transmission lines assign the signal to the second transmission lines. Moreover, the coupling portion moves to change an area of the second transmission lines shielded by the coupling portion, so as to change the phase of the signal transferred by each of the second transmission lines. | 03-25-2010 |
| 20100090780 | Phase shifter - A phase shifter includes a substrate; a signal line formed on a specific region in an upper surface of the substrate; and an air gap which is formed within the substrate and changes effective permittivity of the substrate to delay phase of a signal supplied to the signal line. The phase shifter delays a phase of a signal by controlling effective permittivity using an air gap, thereby having outstandingly low insertion loss as compared to existing phase shifters. Further, the phase shifter can be manufactured in a same length as a reference line so that the phase shifter can be in a compact size. | 04-15-2010 |
| 20100117759 | COPLANAR DIFFERENTIAL BI-STRIP DELAY LINE, HIGHER-ORDER DIFFERENTIAL FILTER AND FILTERING ANTENNA FURNISHED WITH SUCH A LINE - This coplanar differential bi-strip delay line ( | 05-13-2010 |
| 20100156559 | MILLIMETER WAVE TRANSMISSION LINE FOR SLOW PHASE VELOCITY - A grounding plate and a transmission line are provided in a stack of dielectric material layers. First transmission line portions having a first width are alternately interlaced with second transmission line portions having a second width in the transmission line. The second width is greater than the first width so that inductance of the transmission line is increased relative to a transmission line having a fixed width. Metal fins may be provided between the grounding plate and the transmission line in the stack of the dielectric material layers. The metal fins may be grounded to the grounding plate to increase capacitance between the transmission line and the grounding plate. The increase in the inductance and the capacitance per unit length between the transmission line and the grounding plate is advantageously employed to provide a reduced phase velocity for electromagnetic signal transmitted through the transmission line. A design structure for the transmission line structure is provided. | 06-24-2010 |
| 20100219907 | PHASE SHIFTER WHERE A ROTATION MEMBER IS COMBINED WITH A GUIDE MEMBER - A phase shifter for reducing a loss by friction, etc by combining a rotation member with a guide member is disclosed. The phase shifter includes a rotation member, a first rotation axis member combined with the rotation member in a direction crossing over the rotation member, a first guide member combined with the first rotation axis member, and configured to rotate in accordance with rotation of the first rotation axis member, and a first power delivering member configured to connect at least one of the rotation member and the first rotation axis member to the first guide member. | 09-02-2010 |
| 20100231325 | SWITCHABLE 0.degree./180.degree. PHASE SHIFTER ON FLEXIBLE COPLANAR STRIP TRANSMISSION LINE - A switchable 0°/180° phase shifter on a balanced transmission line is provided. In one embodiment, the invention relates to an apparatus for providing 0°/180° phase shifting for a transmit/receive antenna pair including a transmit element and a receive element coupled by a balanced transmission line having two sections, the apparatus including a first section of the balanced transmission line, the first section including a first conductor and a second conductor, a second section of the balanced transmission line, the second section including a third conductor and a fourth conductor, and a switch disposed between the first section and the second section, wherein in a first configuration, the switch couples the first conductor to the third conductor and the second conductor to the fourth conductor, and in a second configuration, the switch couples the first conductor to the fourth conductor and the second conductor to the third conductor. | 09-16-2010 |
| 20110001580 | Variable phase shifter - A variable phase shifter is provided. In the variable phase shifter, a fixed substrate, which is a dielectric substrate, is fixedly mounted in a housing and has at least one arc-shaped microstrip line on one surface thereof. A rotation substrate, which is a dielectric substrate, is rotatably mounted in the housing, in contact with the other surface of the fixed substrate and has a slot line on the contact surface thereof. Microstrip-slot line coupling takes place between the microstrip line and the slot line even during rotation. Both ends of the microstrip line are connected to an output port of the variable phase shifter and the slot line is electrically connected to an input port of the variable phase shifter, for receiving an input signal. | 01-06-2011 |
| 20110063049 | Phase Shifter Design Improvements - An improved phase shifter assembly is provided. The phase shifter assembly may comprise first and second sub-assemblies with certain common actuating elements. In one example, a first phase shifter sub-assembly is provided, the first phase shifter sub-assembly including a first phase shifter carrier, a first phase shifter printed circuit board mounted on the first phase shifter carrier, a first wiper printed circuit board coupled to an input of the first phase shifter printed circuit board and having at least a first end coupled to transmission lines on the first phase shifter printed circuit board, and at least one wiper support mechanically coupling the first wiper printed circuit board to the first phase shifter printed circuit board. A second phase shifter is similarly provided. Common actuating elements may include a pivot arm and a throw arm. The pivot arm may be rotatably mounted in the phase shifter assembly and be configured to engage a wiper support of at least one of the first and second phase shifter sub-assemblies. The throw arm may be mounted such that when the throw arm is moved linearly, the pivot arm rotates around a pivot. | 03-17-2011 |
| 20110140805 | PHASE SHIFTER - A phase shifter having a chamber in flat-shaped solid state, one side of which is recessed to form a holding space, and a lower coupling circuit board, assembled into the holding space. The lower coupling surface of the lower coupling circuit board is fitted with two coupling strips arranged at interval. One end of the coupling strips is provided with a cable coupling portion. An upper coupling strip is overlapped onto the lower coupling circuit board in a U-shaped pattern. The upper coupling strip is provided with an upper coupling surface for coupling with the coupling strips of the lower coupling circuit board. A slider has a driving end and a driven end, the driving end being used to connect and drive the upper coupling strip, and the driven end protrudes out of the chamber's holding space. A cover plate is used to seal the chamber's holding space. | 06-16-2011 |
| 20110241796 | On-Chip high performance slow-wave coplanar waveguide structures, method of manufacture and design structure - On-chip high performance slow-wave coplanar waveguide structures, method of manufacture and design structures for integrated circuits are provided herein. The structure includes at least one ground and a signal layer provided in a same plane as the at least one ground. The signal layer has at least one alternating wide portion and narrow portion. The wide portion extends toward the at least one ground. | 10-06-2011 |
| 20110273244 | VARIABLE PHASE SHIFTER - A variable phase shifter comprising a coupler including an input port, an output port, a through port and a coupled port and two conducting finite strips exhibiting equal lengths, the first conducting strip being movably coupled with the section of the coupler connecting the input port with the through port and the second conducting strip being movably coupled with the section of the coupler connecting the output port and with the coupled port, wherein displacing the conducting strip relative to the coupler, changes the phase of an output signal from the coupler, relative to the phase of a corresponding input signal into the coupler. | 11-10-2011 |
| 20120032754 | DELAY LINE STRUCTURE - A delay line structure includes a flat spiral delay line and two grounding guard traces. The flat spiral delay line is disposed in the layout layer in a manner of extending from an input end, bending clockwise inward until reaching a U-turn part, continuously extending and bending counterclockwise outward to an out put end so as to form two coupling areas, which are spiral and have an opening respectively. The two grounding guard traces are disposed in the layout layer in a manner of extending from the openings respectively toward the coupling areas, having an interval between the grounding guard traces and the flat spiral delay line, wherein the grounding guard traces close to the openings of the coupling areas are electrically connected to the grounding circuit through a via respectively. | 02-09-2012 |
| 20120032755 | DELAY LINE STRUCTURE - A delay line structure includes a serpentine delay line, a first grounding guard trace and a second grounding guard trace. The serpentine delay line is disposed in a layout layer of a substrate in a manner of extending from an input end to an out put end in serpentine so as to form at least a first coupling area having a first opening toward a first direction and at least a second coupling area having a second opening toward a direction opposite to the first direction. The first grounding guard trace is disposed in the layout layer in a manner of extending from the first opening toward the first coupling area and an end of the first grounding guard trace close to the first opening is electrically connected to the grounding circuit through a first via. The second grounding guard trace is disposed in the layout layer in a manner of extending from the second opening toward the second coupling area and an end of the second grounding guard trace close to the second opening is electrically connected to the grounding circuit through a second via. | 02-09-2012 |
| 20120098619 | N PORT FEEDING SYSTEM, AND PHASE SHIFTER AND DELAY DEVICE INCLUDED IN THE SAME - A feeding system for providing a power using metal patterns having ‘U’ shape is disclosed. A phase shifter as the feeding system includes a first substrate, a first pattern as a conductor disposed on the first substrate, a second substrate separated from the first substrate and a second pattern as a conductor disposed on the second substrate. Here, the first pattern is overlapped with the second pattern, and electrical length of overlapped part of the patterns changes in case of changing phase of an RF signal outputted from the phase shifter. | 04-26-2012 |
| 20120146743 | Apparatus And Associated Methods - A voltage-tunable phase shifter comprising a conducting line and a ground electrode separated by a layer of dielectric material, the phase shifter configured to generate an electric field when a potential difference is applied between the conducting line and ground electrode, the electric field configured to change the phase of an electromagnetic signal propagating along the conducting line, wherein the ground electrode comprises graphene, and wherein the change in phase is dependent upon the strength of electric field and can be controlled by varying the potential difference between the conducting line and the ground electrode. | 06-14-2012 |
| 20120286899 | ULTRA WIDEBAND TRUE TIME DELAY LINES - A time delay circuit including at least one spiral delay line formed on a top surface of a first substrate. In one embodiment, the delay line is defined by two concentric spiral delay line sections. Vias extend through the substrate between the delay line sections to reduce cross-talk therebetween. In another embodiment, the delay circuit includes a second substrate spaced from the first substrate, where a spiral delay line is formed on a top surface of the second substrate. A planar metal layer is provided on a backside surface of the first substrate and a conductive element extends through an opening in the metal layer and is coupled to the spiral delay lines, where the planar member provides magnetic isolation between the delay lines. In yet another embodiment, a multi-bit switched circuit can be provided on one of the substrates and be electrically connected to the delay line. | 11-15-2012 |
| 20130015925 | DELAY LINE STRUCTUREAANM SHIUE; GUANG-HWAAACI CHUNG LIAACO TWAAGP SHIUE; GUANG-HWA CHUNG LI TWAANM SHIU; JIA-HUNGAACI CHUNG LIAACO TWAAGP SHIU; JIA-HUNG CHUNG LI TW - A delay line structure has a serpentine delay line pair, a first and second grounding guard trace and two third grounding guard traces. The delay line pair is located in a layout layer extending from an input to an output end, The first and second grounding guard traces are connected to the grounding circuit through respective vias and are located in the layout layer. The third grounding guard traces are respectively located in the layout layer by an upper and lower edge of the delay line pair and are connected to the grounding circuit through respective vias. | 01-17-2013 |
| 20130076453 | STUB ARRAY MICROSTRIP LINE PHASE SHIFTER - Systems and methods which utilizes a stub array microstrip line for providing a phase shifter configuration are shown. A stub array microstrip line phase shifter of embodiments may comprises a microstrip line structure, an isolation structure, and a phase tuning structure cooperative to provide phase shifting of signals passed through the microstrip line structure. A microstrip line structure comprises a stub array microstrip line having a plurality of microstrip stubs provided in association with a slotted ground plane having a plurality of slots. The stub array microstrip line is adapted to provide compensation for capacitance and/or inductance associated with the slots of the slotted ground plane. A phase tuning structure provides coupling of signals transmitted by the stub array microstrip line to the slots of the slotted ground plane for signal phase shifting. | 03-28-2013 |
| 20130099877 | DEVICES AND METHODS FOR PHASE SHIFTING A RADIO FREQUENCY (RF) SIGNAL FOR A BASE STATION ANTENNA - Methods and devices for phase shifting an RF signal for a base station antenna are provided. The device includes a transmission line that has a stationary ground plane coupled to the top of a substrate and a signal line on the bottom of the substrate. The signal line has an input port and an output port. The input port receives the RF signal with a certain phase and travels across the bottom of the substrate to the output port. The RF signal has a different phase at the output port because defected ground structures etched on the stationary ground plane shift the phase of the RF signal. In addition, the device includes a movable ground plane that may cover a portion of the defected ground structures, the substrate, and the stationary ground plane such that the moveable ground plane further adjusts the phase of the RF signal. | 04-25-2013 |
| 20130265120 | MICROSTRIP PHASE INVERTER - A microstrip phase inverter includes: a ground substrate having a slot formed therein; a dielectric layer formed over the ground substrate; a first microstrip line connected to a signal line of a first port and stacked and extended on the top surface of the dielectric layer at one side thereof; a second microstrip line facing the first microstrip line so as to deviate from the first microstrip line, connected to a signal line of a second port, and stacked and extended on the top surface of the dielectric layer at the other side thereof; and first and second via pins connected between one ends of the extended first and second microstrip lines and the ground substrate and configured to transmit first and second currents. | 10-10-2013 |
| 20140022029 | Nanoparticle-enhanced liquid crystal radio frequency phase shifter - A nanoparticle-enhanced liquid crystal phase shifter is provided including a first substrate layer, a plurality of electrodes attached to the substrate layer, a ground plane layer attached to a second substrate layer, and a liquid crystal layer between the ground plane layer and the first substrate layer, including a suspension of a liquid crystal material and highly polarizable nanoparticles having specific shape and size characteristics. | 01-23-2014 |
| 20140055211 | LINEAR STRIPLINE PHASE SHIFTER - Linear stripline phase shifter which has a base ( | 02-27-2014 |
| 20140191822 | TRANSMISSION LINE PHASE SHIFTER - Embodiments disclosed include transmission line phase shifters and methods for fabricating transmission line phase shifters that switch signal and ground conductors to reverse electromagnetic fields in a transmission line structure. | 07-10-2014 |
| 20140232484 | PHASE SHIFT CIRCUIT AND ANTENNA DEVICE - Techniques capable of reducing the width-direction size of a phase shift circuit as much as possible are provided. A phase shift circuit has a signal line, a first dielectric plate, and a second dielectric plate. The signal line has first to third intersecting parts extending in a direction intersecting with a longitudinal direction of the phase shift circuit. On the other hand, the first dielectric plate and the second dielectric plate have first to third overlapping parts overlapping the intersecting parts of the signal line. When the first dielectric plate and the second dielectric plate are moved in the longitudinal direction of the phase shift circuit, the overlapped areas between the intersecting parts of the signal line and the overlapping parts of the first dielectric plate and the second dielectric plate are changed. | 08-21-2014 |
| 20150028968 | Devices For Providing Phase Adjustments In Multi-Element Antenna Arrays And Related Methods - Multiple phase shifting elements which include electrically conductive, slidable tuning members may be placed on a single circuit board. The elements may be used to adjust the phase of signals propagating through a multi-element antenna array. | 01-29-2015 |
| 20150061790 | TUNABLE DELAY LINE ARRANGEMENT - A tunable chirped delay line arrangement ( | 03-05-2015 |
| 20150097636 | Circuit and Method for Generating A Variable Delay in an Electromagnetic Signal Crossing Said Circuit, in Particular for Use in A Doherty-Configured Amplifier - A method for generating a variable delay in an electromagnetic signal that crosses a main transmission line includes: coupling to the main transmission line a secondary transmission line terminated at both ends by respective variable-reactance circuit elements, wherein the main transmission line and the secondary transmission line are immersed in the same dielectric medium at a distance from each other; simultaneously varying a reactance value of the variable-reactance circuit elements; selecting the reactance value by varying physical and electrical parameters of the main transmission line and of the secondary transmission line, so as to obtain, on the main transmission line, an absorption peak at an absorption frequency higher than a predetermined working frequency of the main transmission line, and an adaptation peak at a frequency lower than the transmission frequency, the adaptation peak corresponding to the predetermined working frequency. | 04-09-2015 |
| 20160013531 | Metamaterial-Based Phase Shifting Element and Phased Array | 01-14-2016 |
| 20160013532 | PHASE SHIFTER AND ANTENNA DEVICE HAVING SAME | 01-14-2016 |
| 20160126607 | TUNABLE SLOW-WAVE TRANSMISSION LINE - The present disclosure relates to a tunable slow-wave transmission line. The tunable slow-wave transmission line is formed in a multi-layer substrate and includes an undulating signal path. The undulating signal path includes at least two loop structures, wherein each loop structure includes at least two via structures connected by at least one intra-loop trace. The undulating signal path further includes at least one inter-loop trace connecting the at least two loop structures. The tunable slow-wave transmission line includes a first ground structure disposed along the undulating signal path. Further, the tunable slow-wave transmission line includes one or more circuits that may alter a signal transmitted in the tunable slow-wave transmission line so as to tune a frequency of the signal. | 05-05-2016 |
| 20160126608 | SLOW-WAVE TRANSMISSION LINE FORMED IN A MULTI-LAYER SUBSTRATE - The present disclosure relates to a slow-wave transmission line for transmitting slow-wave signals with reduced loss. In this regard, the slow-wave transmission line is formed in a multi-layer substrate and includes an undulating signal path. The undulating signal path includes at least two loop structures, wherein each loop structure includes at least two via structures connected by at least one intra-loop trace. The undulating signal path further includes at least one inter-loop trace connecting the at least two loop structures. Additionally, the slow-wave transmission line includes a first ground structure disposed along the undulating signal path. In this manner, a loop inductance is formed by each of the at least two loop structures, while a first distributed capacitance is formed between the undulating signal path and the ground structure. | 05-05-2016 |
| 20160126609 | COUPLED SLOW-WAVE TRANSMISSION LINES - The present disclosure relates to coupled slow-wave transmission lines. In this regard, a transmission line structure is provided. The transmission line structure includes a first undulating signal path formed from first loop structures. The transmission line structure also includes a second undulating signal path formed from second loop structures. The second undulating signal path is disposed alongside of the first undulating signal path. Further, a first ground structure is disposed above or below either one or both of the first undulating signal path and the second undulating signal path. | 05-05-2016 |
| 20160164155 | SYSTEM AND METHOD FOR VARIABLE MICROWAVE PHASE SHIFTER - A phase shifter and a method of making a phase shifter are disclosed herein. The phase shifter may include a housing, a dielectric, an electrode, and a liquid crystal layer. The housing includes first, second, third, and fourth conductive walls, each conductive wall being opposite one of the other walls. The dielectric is situated within the housing and defines a compartment within the housing. The electrode is aligned with the compartment. The liquid crystal layer fills the space of the compartment. A bias line is coupled to the electrode. The phase shifter may be integrated with as substrate integrated waveguide. | 06-09-2016 |
| 20160181679 | FREQUENCY SELECTIVE LIMITER | 06-23-2016 |
| 333162000 | Helical line structures and lines developed from a helical structure | 2 |
| 20100265007 | ON CHIP SLOW-WAVE STRUCTURE, METHOD OF MANUFACTURE AND DESIGN STRUCTURE - An on-chip slow-wave structure that uses multiple parallel signal paths with grounded capacitance structures, method of manufacturing and design structure thereof is provided. The slow wave structure includes a plurality of conductor signal paths arranged in a substantial parallel arrangement. The structure further includes a first grounded capacitance line or lines positioned below the plurality of conductor signal paths and arranged substantially orthogonal to the plurality of conductor signal paths. A second grounded capacitance line or lines is positioned above the plurality of conductor signal paths and arranged substantially orthogonal to the plurality of conductor signal paths. A grounded plane grounds the first and second grounded capacitance line or lines. | 10-21-2010 |
| 20150130564 | FREQUENCY SELECTIVE LIMITER - A selective frequency limiter having a magnetic material and a slow wave structure disposed to magnetically couple a magnetic field, produced by electromagnetic energy propagating through the slow wave structure, into the magnetic material. | 05-14-2015 |
| 333164000 | Control of delay with semiconductive means | 8 |
| 20090009265 | Electronic phase reflector with enhanced phase shift performance - A varactor based phase shifter that increases phase shift range using an impedance transformer to impart a low characteristic impedance between an input port and a reference node port. The characteristic impedance across the port is therefore less than the characteristic impedance would be otherwise, and the phase shift range is increased. In one embodiment, a simple reflection phase modifier can be used in a phased array using space feed parasitic antenna elements. This type of analog varactor reflection phase modifier can provide fine phase resolution, and the array can thus be used for low-loss adaptive beam forming. | 01-08-2009 |
| 20090140825 | Semiconductor device - Disclosed is a microwave phase shifter including switches each of which utilizes resonance between an off-capacitance of an FET and an inductor connected in parallel with the off-capacitance of the FET, an LPF, and an HPF, a series circuit of an inductor and an MIM capacitor is arranged in parallel with the FET in each portion of the resonance. In a layout of the LC series-connected circuit, though the inductor is of a non-close-packed structure, a metal member or a dielectric material having a relative dielectric constant higher than that of a dielectric substrate is arranged in a free space in a central portion of the inductor. | 06-04-2009 |
| 20090219111 | PHASE SHIFTER WITH FLEXIBLE CONTROL VOLTAGE - The invention provides a phase shifter with flexible control voltage that is useful with all RF systems that phase shift a RF signal. The phase shifter according to the present invention may comprise transistors used as switching elements. In one aspect, the phase shifter provides the option of controlling a phase shifter with either a positive or a negative voltage control signal. For example, the dc ground of the transistors included in the phase shifter may be floated, either fixed or adjusted. The RF grounding of the transistors may be achieved by in-band resonant capacitors. Thus, the control voltage provided to the transistors is flexible in that it may be connected to a positive or negative control voltage, or it may be connected to ground, or it may swing from a positive control voltage to a negative control voltage or vice versa. | 09-03-2009 |
| 20090219112 | PHASE SHIFTER WITH FLEXIBLE CONTROL VOLTAGE - The invention provides a phase shifter with flexible control voltage that is useful with all RF systems that phase shift a RF signal. The phase shifter according to the present invention may comprise transistors used as switching elements. In one aspect, the phase shifter provides the option of controlling a phase shifter with either a positive or a negative voltage control signal. For example, the dc ground of the transistors included in the phase shifter may be floated, either fixed or adjusted. The RF grounding of the transistors may be achieved by in-band resonant capacitors. Thus, the control voltage provided to the transistors is flexible in that it may be connected to a positive or negative control voltage, or it may be connected to ground, or it may swing from a positive control voltage to a negative control voltage or vice versa. | 09-03-2009 |
| 20100171567 | INTEGRATED MILLIMETER WAVE PHASE SHIFTER AND METHOD - A phase shifter and method include a hybrid coupler being ground shielded. The hybrid coupler with reflective terminations connected to the hybrid coupler is configured to phase shift an applied signal wherein the reflective terminations include a parallel LC circuit. | 07-08-2010 |
| 20110006859 | TUNABLE COMPACT TIME DELAY CIRCUIT ASSEMBLY - A tunable compact time delay circuit assembly is provided. In one embodiment, the invention relates to a tunable delay circuit assembly for controllably delaying signals that propagate along a transmission line, the circuit assembly including an elongated conductor extending in a first direction, the elongated conductor configured to carry the signals, at least one floating strip, each floating strip including a first elongated conductive segment having a first centerline, wherein the first centerline is not parallel to the first direction, and a second elongated conductive segment having a second centerline, wherein the second centerline is not parallel to the first direction, and a first switch coupled between the first segment and the second segment, wherein the first switch, in a first position, is configured to connect the first segment to the second segment, wherein the first switch, in a second position, is configured to electrically isolate the first segment from the second segment, and wherein the at least one floating strip is electrically isolated from other components of the circuit assembly. | 01-13-2011 |
| 20120105172 | PHASE SHIFTER AND RELATED LOAD DEVICE WITH LINEARIZATION TECHNIQUE EMPLOYED THEREIN - A phase shifter and related load device are provided. The phase shifter includes a phase shifter core and load devices. The phase shifter core has an input port for receiving an input signal, an output port for outputting an output signal, and connection ports. The load devices are coupled to the connection ports, respectively. At least one of the load devices includes first varactor units each having a first node and a second node, where first nodes of the first varactor units are coupled to a first voltage, second nodes of the first varactor units are respectively coupled to a plurality of second voltages, and the second voltages include at least two voltages different from each other. The phase shifter and related load device are capable of mitigating effects resulted from varactor's non-linear C-V curve. | 05-03-2012 |
| 20130021111 | Transistor Switches With Single-Polarity Control Voltage - Contrary to phase shifters which require complimentary polarity control voltages, a phase shifter may be driven with a single polarity control voltage. The phase shifter comprises an input node in communication with both a high pass network and a low pass network which are both in communication with an output node, where the phase shifter further comprises a first single pole double throw switch and a second single pole double throw switch configured to selectively pass an RF signal from the input node to the output node by way of one of said high pass network and said low pass network. Furthermore, the first and second single pole double throw switches are configured to select between the high pass network and the low pass network based on a single control signal having a voltage greater than or less than a reference voltage. | 01-24-2013 |
