| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 333209000 | Tunable | 36 |
| 20080204170 | Tunable Artificial Dielectrics - Tuning devices and methods are disclosed. One of the devices comprises a metal structure connected with artificial dielectric elements, and variable capacitance devices. Each variable capacitance device is connected with a respective artificial dielectric element and with a control signal. Control of the variation of the capacitance allows the desired tuning. Another device comprises metallic structures connected with artificial dielectric elements and switches connected between the artificial dielectric elements. Turning ON and OFF the switches allows the capacitance between artificial dielectric elements to be varied and a signal guided by the metallic structures to be tuned. | 08-28-2008 |
| 20090039983 | Magnetically Tunable Filter with Coplanar Lines - The invention relates to a magnetically tunable filter having a filter housing and having two tunable resonator spheres which comprise magnetizable material and are arranged next to one another in two filter branches. Each filter branch comprises a coplanar line arranged on a substrate layer and extending in the direction of an electrical connection, as well as a common coupling opening so that the two filter branches are connected to one another. A resonator sphere is respectively positioned on each side of the coupling opening inside the two filter branches. | 02-12-2009 |
| 20090058563 | Frequency Tunable Filter - A frequency tunable filter comprises a housing having a plurality of walls therein defining a plurality of cavities; a cover mounted on the housing; a plurality of resonators contained in the cavities; at least one sliding member located between the cover and the resonators; and a plurality of metal tuning elements attached to a lower part of the sliding member, wherein frequency tuning is performed by sliding of the sliding member. | 03-05-2009 |
| 20090096552 | OVERLAY ELECTROMAGNETIC BANDGAP (EBG) STRUCTURE AND METHOD OF MANUFACTURING THE SAME - Provided is an electromagnetic bandgap (EBG) structure, and particularly, an overlay EBG structure in which a plurality of vias and a plurality of plates are formed at intervals on a central signal line in such a manner that the vias and plates extend vertically from a substrate in order to reduce leakage loss of an electromagnetic wave through the substrate. Therefore, it is possible to prevent an electromagnetic wave passing through a transmission line from being lost through the substrate, to obtain desired frequency characteristics by adjusting the dimensions of the vias and plates, and to manufacture the overlay EBG structure using an existing CMOS process without having to perform any additional process. | 04-16-2009 |
| 20090167464 | Cavity Filter, An Isolation Device, And A Node In A Mobile Communications Network - The invention relates to a cavity filter comprising at least one tuning conductor ( | 07-02-2009 |
| 20090237185 | Variable radio frequency band filter - A variable radio frequency band filter includes a housing with a plurality of cavities, a plurality of resonators, wherein one resonator is arranged in each cavity, and a tuning arrangement having a plurality of tuning structures. One of the tuning structures is arranged in each of the cavities. The tuning structures of multiple cavities are mechanically connected such that the tuning structures may be shifted simultaneously in order to simultaneously vary the resonance frequencies of the cavities. Each tuning structure includes at least one first metallic surface facing the resonator and at least one second metallic surface facing a wall of the cavity, the first and second metallic surfaces being conductively connected. The second metallic surface is arranged such that a small and essentially uniform gap is formed between the second metallic surface and the wall to achieve a virtual grounding of the metallic surfaces. | 09-24-2009 |
| 20100090784 | Programmable Tunable Filter Waveguide - One embodiment of the present invention includes a waveguide. The waveguide comprises an elongated member having a conductive bottom surface and a hollow channel. The hollow channel is defined by a first conductive sidewall, a second conductive sidewall, and a conductive inner surface. The waveguide also comprises a plurality of conductive ridge portions projecting from the conductive inner surface and extending between the first conductive sidewall and the second conductive sidewall. The conductive ridge portions can partition the hollow channel into a plurality of hollow recesses. The waveguide further comprises a plurality of switches associated with each of at least one of the plurality of conductive ridge portions. At least one of the plurality of switches associated with a respective one of the plurality of conductive ridge portions can be activated to couple the respective one of the plurality of conductive ridge portions to the conductive bottom surface. | 04-15-2010 |
| 20100090785 | DIELECTRIC RESONATOR AND FILTER WITH LOW PERMITTIVITY MATERIAL - A resonator cavity for supporting a plurality of resonant modes and filtering electromagnetic energy includes a cavity and a resonator element with a mounting flange. The cavity is defined by a top end wall, a bottom end wall and a sidewall and has a longitudinal axis along its length is defined. The resonator element is positioned within the cavity along the longitudinal axis and includes a mounting flange. The resonator element is only in physical contact with the cavity through the mounting flange at a mounting location and where at least one resonant mode of the electromagnetic energy exhibits a local minima. The dimensions of the cavity and the resonator element are selected so that the associated electromagnetic energy is defined by an electromagnetic field pattern that substantially repeats itself at least twice along the length of the resonator. | 04-15-2010 |
| 20100315180 | Multiple-Membrane Flexible Wall System for Temperature-Compensated Technology Filters and Multiplexers - The present invention relates to a flexible cap system optimized for thermally-compensated technology microwave resonators. More specifically, this invention proposes a multiple-membrane flexible wall system for thermally-compensated filters and OMUX. The use of a multi-membrane flexible wall, in particular as sealing cap for a resonant cavity of an OMUX channel, makes it possible: to reduce the thermal resistance of the flexible wall, while maintaining an equivalent level of mechanical stresses exerted on said wall for a given displacement; or to reduce the mechanical stresses exerted on the flexible wall for a given displacement, while maintaining one and the same thermal resistance for said wall; or to increase the deformation of the flexible wall by maintaining an equivalent level of mechanical stresses and by maintaining an equivalent thermal resistance. | 12-16-2010 |
| 20110001585 | TUNEABLE FILTER AND A METHOD OF TUNING SUCH A FILTER - A tuneable filter comprising a filter body defining a tuning cavity; a tuning member within the tuning cavity; and, a linear actuator adapted to displace the tuning member within the cavity to tune the filter; the linear actuator comprising a motor; a drive arm connected to the motor and extending along a drive axis, the drive arm being adapted to be rotated about the drive axis by the motor; an extension arm extending along the drive axis being connected at one end to the tuning member and being in engagement with the drive arm at the other end; the engagement between the drive arm and extension arm being arranged such that rotation of the drive arm about the drive axis displaces the extension arm along the drive axis; each of the drive arm and extension arm comprising an end stop, the end stops being arranged such that as the extension arm reaches the end of its range of travel towards the drive arm the drive arm end stop rotates into abutment with the extension arm end stop, preventing further rotation of the drive arm. | 01-06-2011 |
| 20110084783 | WAVEGUIDE FILTER - A waveguide filter comprises a dielectric board on at least one of the two E-planes of a rectangular waveguide. The dielectric board comprises a conductive pattern formed on one surface thereof and having a slit extending in a signal propagation direction, and a ground pattern formed on the other surface. | 04-14-2011 |
| 20110133861 | TUNABLE FILTER FOR EXPANDING THE TUNING RANGE - A tunable filter for expanding tuning range includes: a housing, which has multiple cavities defined by partitions; a resonator contained in the cavity; at least one sliding member installed over the resonator; a main cover coupled to an upper portion of the housing; and at least one tuning element coupled to a lower portion of the sliding member and made of a metallic material. Tuning is accomplished by a sliding motion of the sliding member, and the resonator includes a cylindrical first conductor and a second conductor coupled to an upper portion of the cylindrical conductor, where a cross section of the second conductor is shaped as a circle with a portion removed such that an area of overlap between the tuning element and the second conductor is varied according to a sliding of the tuning element. | 06-09-2011 |
| 20110133862 | TUNABLE FILTER CAPABLE OF CONTROLLING TUNING CHARACTERISTICS - A tunable filter for enabling the adjustment of tuning characteristics includes: a housing, in which multiple cavities are defined by partitions; a resonator contained in the cavity; at least one sliding member installed over the resonator; a main cover coupled to an upper portion of the housing; and at least one tuning element coupled to a lower portion of the sliding member and made of a metallic material. The tuning element is coupled to the sliding member by a rotatable bolt, and the bolt is coupled to the tuning element at a point that is a particular distance away from a center of the tuning element. The tunable filter using a sliding system according to certain embodiments of the present invention has the advantage of enabling adjustment of tuning characteristics by way of the rotation of the tuning element, and accordingly, can be used adaptively in various environments. | 06-09-2011 |
| 20110241802 | TUNABLE EVANESCENT-MODE CAVITY FILTER - A tunable filter having an electronically tunable center frequency and dynamic bandwidth control over a large tuning range. High-Q continuously tunable evanescent-mode cavity resonators and filters using reliable RF MEMS actuators. One embodiment is a 3.4-6.2 GHz (1.8:1 tuning ratio) continuously tunable electrostatic MEMS resonator with quality factor of 460-530, with a volume of 18×30×4 mm including the actuation scheme and biasing lines. A tunable resonators is also disclosed with a 2.8:1 (5.0-1.9 GHz) tuning ratio, and Q of 300-650. | 10-06-2011 |
| 20110279200 | Dielectric Waveguide Filter with Structure and Method for Adjusting Bandwidth - A structure and method for adjusting the bandwidth of a ceramic waveguide filter comprising, in one embodiment, a monoblock of dielectric ceramic material defining respective steps and respective input/output through-holes extending through the monoblock and the respective steps. In one embodiment, the steps are defined by notches in the monoblock and the input/output through-holes define openings terminating in the notch. The bandwidth of the ceramic waveguide filter may be adjusted by adjusting the height/thickness and direction of the steps relative to an exterior surface of the monoblock and/or the diameter of the input/output through-holes. | 11-17-2011 |
| 20120019339 | Filter utilizing combination of TE and modified HE mode dielectric resonators - A dielectric resonator filter comprising a metal wall ( | 01-26-2012 |
| 20120105176 | CAVITY FILTER - The invention relates to an improved HF cavity filter characterized by the following features: the housing cover ( | 05-03-2012 |
| 20120126914 | TUNABLE BAND-PASS FILTER - A tunable band-pass filter includes: a rectangular waveguide including a first and a second waveguide parts, which are acquired by dividing the rectangular waveguide along an E-plane of the rectangular waveguide at a center position of an H-plane in the rectangular waveguide; a metal plate sandwiched by the first and the second waveguide parts in such a way as to be parallel to the E-plane; at least one dielectric plate arranged in the rectangular waveguide in such a way as to extend in a longitudinal extension direction of the metal plate; and a drive mechanism changing a relative position relationship between the dielectric plate and the metal plate from the outside. | 05-24-2012 |
| 20120161905 | RESONANT ELEMENT AND RESONATOR FILTER WITH FREQUENCY-TUNABLE LAYER STRUCTURE AND METHOD OF TUNING FREQUENCY OF RESONATOR FILTER - Provided are a resonant element and resonator filter with a frequency tunable layer structure and a method of tuning a frequency of a resonator filter. A resonant element with a frequency-tunable layer structure includes a waveguide layer through which an electric wave is transmitted, a frequency adjustment layer positioned on at least one of an upper layer and a lower layer of the waveguide layer, and configured to change at least one of a height and a structure of the resonant element, and an outer layer positioned outwardly from the waveguide layer and the frequency adjustment layer, and constituting an external structure of the resonant element. Consequently, it is possible to reduce economic and temporal waste caused by remanufacturing a resonator filter because the frequency characteristics of the manufactured resonator filter do not coincide with designed frequency characteristics. | 06-28-2012 |
| 20120256708 | Millimeter Wave Filter for Wireless Communications Systems - A millimeter wave transmission line filter having a plurality of filter pole determining coupled cavities fabricated with a multiple lithographic layer micro-machining process. The filter cavities are oriented perpendicular to an underlying substrate element in order to achieve micromachining, fabrication and accuracy advantages. Multiple filters can be used in a frequency multiplex arrangement as in a duplexer. Radio frequencies in the 15 to 300 gigahertz range are contemplated. | 10-11-2012 |
| 20120280770 | TUNABLE SUBSTRATE INTEGRATED WAVEGUIDE COMPONENTS - A method and an apparatus are provided for providing a tunable substrate integrated waveguide (SIW) for which a parameter of at least some element or portion thereof may be altered or varied to alter the propagation of a signal propagating through the SIW thereby achieving a tunable SIW. In some embodiments a plurality of capacitively variably loaded transverse slots achieve the tunability for the SIW. | 11-08-2012 |
| 20120293282 | WAVEGUIDE FILTER HAVING COUPLING SCREWS - A waveguide filter, comprising a housing defining a passage through which electromagnetic waves can travel and a plurality of adjustable projections extending through the housing into the passage. The passage is absent any fixed protrusions. The plurality of adjustable projection s comprises a set of coupling projections, wherein each pair of adjacent coupling projections in the set of coupling projections defines there between a resonant cavity. Each coupling projection in the set of coupling projections acts as a coupling element for at least one resonant cavity and is adjustable for trimming the coupling of that at least one resonant cavity. The plurality of adjustable projections further comprises a set of tuning projections, wherein a tuning projection from the set of tuning projections is positioned between each pair of adjacent coupling projections and is adjustable for trimming a resonance frequency of an associated resonant cavity. | 11-22-2012 |
| 20120293283 | Tuned Dielectric Waveguide Filter and Method of Tuning the Same - A method of tuning the frequency of a waveguide filter including the step of removing dielectric material from one or both of the first and second opposed exterior side surfaces of the waveguide filter to cause a change in the center frequency of the waveguide filter. In one embodiment, dielectric material is removed from one or both of the first and second opposed exterior side surfaces of the waveguide filter in unequal amounts wherein the tuned waveguide filter includes first and second slits defined in the respective first and second opposed exterior side surfaces which extend unequal first and second distances into the body of the waveguide filter. | 11-22-2012 |
| 20130113578 | Method for Manufacturing Resonance Tube, Resonance Tube, and Filter - A method for manufacturing a resonance tube includes: mixing powder materials, to form homogeneous powder particles, where the powder materials comprise iron powder with a weight proportion of 50% to 90%, at least one of copper powder and steel powder with a weight proportion of 1% to 30%, and an auxiliary material with a weight proportion of 1% to 20%; pressing and molding the powder particles, to form a resonance tube roughcast; sintering the resonance tube roughcast in a protective atmosphere, to form a resonance tube semi-finished product; and electroplating the resonance tube semi-finished product, to form the resonance tube. In the method, the resonance tube, and the filter according to embodiments of the present invention, the resonance tube is manufactured by using multiple powder materials. | 05-09-2013 |
| 20130135063 | MILLIMETER WAVEBAND FILTER AND METHOD OF VARYING RESONANT FREQUENCY THEREOF - The millimeter waveband filter includes: a transmission line that is formed by a waveguide which propagates electromagnetic waves with a predetermined frequency range of a millimeter waveband from one end to the other end in a TE10 mode; and a pair of radio-wave half mirrors that are disposed opposite each other with a space interposed therebetween so as to block the inside of the transmission line and have planar shapes and a characteristic of transmitting a part of the electromagnetic waves with the predetermined frequency range and reflecting a part thereof. In the electromagnetic waves incident from the one end side of the transmission line, a frequency component centered on a resonant frequency of a resonator, which is formed between the pair of radio-wave half mirrors, is selectively output from the other end of the transmission line. | 05-30-2013 |
| 20130135064 | Electrically Tunable Waveguide Filter and Waveguide Tuning Device - The present invention relates to a waveguide tuning device ( | 05-30-2013 |
| 20130169384 | FREQUENCY-TUNABLE MICROWAVE BANDPASS FILTER - A frequency-tunable microwave bandpass filter including a wave guide having a rectangular cross-section and including a stationary first conductive portion I and a movable second conductive portion II. The first portion includes first conductive partitions having one or more conductive obstacles related to complementary openings in the section of the guide that forms capacitive irises. The first partitions are transversely mounted, at the propagation of the wave in the guide, define cavities in the longitudinal direction of the guide, are rigidly connected to the first portion and the second conductive partitions that have one or more openings defining capacitive irises, and, in combination with the adjacent guide lengths, form immitance inverters. The first partitions form a series of resonating cavities coupled by the immitance inverters. A means ensures electrical contact between the conductive portions I and II. | 07-04-2013 |
| 20140015626 | MILLIMETER WAVEBAND FILTER AND METHOD OF INCREASING REJECTION BAND ATTENUATION - A millimeter waveband filter is provided with a resonator formed by a pair of electric wave half mirrors in a transmission line of a waveguide allowing electromagnetic waves in a predetermined frequency range of a millimeter waveband to propagate in a TE10 mode, and allows frequency components centering on the resonance frequency of the resonator to pass therethrough. A high-pass filter which has a transmission line reduced in size so as to have a cutoff frequency matching an upper limit of a lower rejection band of a filter passband is formed in a transmission line between the end of the waveguide and the electric wave half mirror, thereby increasing the attenuation of the lower rejection band. | 01-16-2014 |
| 20140210573 | BLEND STRIP AND FILTER USING SAME - A filter includes a case, a number of resonant columns received in the case, a partition walls received in the case and located between the adjacent resonant columns, a number of blend strips fastened on the partition walls, and a cover covering on the case. The cover defines a number of regulating through hole corresponding to the resonant columns and the blend strips and includes a number of regulating bolts passing through the regulating through hole to couple with the resonant columns and the blend strips. The regulating bolts move upwards and downwards in the regulating through holes to regulate a transmission zero of the filter. | 07-31-2014 |
| 20140361853 | Dielectric Waveguide Filter with Structure and Method for Adjusting Bandwidth - A structure and method for adjusting the bandwidth of a ceramic waveguide filter comprising, in one embodiment, a monoblock of dielectric ceramic material defining respective steps and respective input/output through-holes extending through the monoblock and the respective steps. In one embodiment, the steps are defined by notches in the monoblock and the input/output through-holes define openings terminating in the notch. The bandwidth of the ceramic waveguide filter may be adjusted by adjusting the height/thickness and direction of the steps relative to an exterior surface of the monoblock and/or the diameter of the input/output through-holes. | 12-11-2014 |
| 20160049716 | COUPLING ARRANGEMENT BETWEEN CAVITY FILTER RESONATORS - One or more adjustable resonators ( | 02-18-2016 |
| 20160064790 | Generic Channel Filter - Provided is a channel filter for a communication apparatus. The channel filter includes a first resonator, a coupling element having a first longitudinal section and a second longitudinal section, and a first adjusting element. The coupling element is designed to couple the first resonator at least indirectly with an input or output of the channel filter. The first longitudinal section has a greater width than the second longitudinal section. The first adjusting element is disposed at least partially in the first longitudinal section and at least partially in the second longitudinal section. | 03-03-2016 |
| 20160118702 | Filter, Communications Apparatus, and Communications System - A filter includes a top panel, a bottom panel, two first side panels located between the top panel and the bottom panel, and at least one diaphragm that has a metal surface. The two first side panels, the top panel and the bottom panel form a rectangular waveguide. The at least one diaphragm is connected to both the top panel and the bottom panel and separates a cavity of the rectangular waveguide into several cavity chambers that extend along an input/output direction of the rectangular waveguide. At least one of the first side panels is an adjustable side panel whose position relative to the diaphragm is adjustable. | 04-28-2016 |
| 20160118704 | LOW-LOSS CONTINUOUSLY TUNABLE FILTER AND RESONATOR THEREOF - A tunable filter element comprises a resonator unit that defines a longitudinal axis, the resonator unit includes an inner conducting portion defining an inner shorting end along the longitudinal axis and an inner capacitive end opposing the inner shorting end, an outer conducting portion arranged around the inner conductor defining an outer shorting end along the longitudinal axis and an outer capacitive end opposite to the outer shorting end. The inner and the outer conductors maintain an annular gap there-between, and are coupled to form a shorting end at one end and a capacitive end at the other. The filter element further comprises a ferrite insert disposed between the inner and the outer conducting portions and substantially filling the annular gap, the ferrite insert being configured to receive a bias magnetic field in a direction substantially parallel to the longitudinal axis. | 04-28-2016 |
| 20160134253 | OPERATION FREQUENCY BAND CUSTOMIZABLE AND FREQUENCY TUNABLE FILTERS WITH EBG SUBSTRATES - A cavity resonator or filter constructed on electromagnetic bandgap (EBG) substrate is provided that includes an external controlling assemble having a plurality of components configured to change a working frequency of the cavity resonator or filter. A dual-band bandpass filter is provided that includes two or more single band filters on a single EBG substrate and an external controlling assemble having a plurality of components configured to change a working frequency of the cavity resonator or filter. | 05-12-2016 |
| 20160204742 | FREQUENCY MODULATION ASSEMBLY AND CAVITY FILTER | 07-14-2016 |
