Class / Patent application number | Description | Number of patent applications / Date published |
333227000 | Cavity resonator | 31 |
20080315976 | SYSTEM AND METHOD OF ASSEMBLING A TRAPPED ACOUSTIC WAVE SYSTEM - Embodiments of the present invention provide a trapped acoustic wave system and a method of assembling such a system. The system may include a substrate having an acoustic wave cavity and a transducer mounted on the substrate. The transducer is configured to resonate the acoustic wave cavity. An acoustically transmissive adhesive secures a first portion of the transducer to the substrate. An additional adhesive, which is separate and distinct from the acoustically transmissive adhesive, anchors at least a second portion of the transducer to the substrate. | 12-25-2008 |
20090021328 | MICROWAVE UNIT - A device with a cavity resonator comprises a housing ( | 01-22-2009 |
20090058566 | Attachment of Deep Drawn Resonator Shell - An apparatus includes a shell member having an interior width, where the shell includes a closed end and an open end, and a nut that includes a plurality of laterally extending resilient leg. The legs define an outer width of the nut, and when the legs are in a relaxed state the outer width of the nut is greater than the interior width of the shell. The nut is adapted for at least partially entering the open end of the shell member, such that the legs are placed in a tensioned state in which the legs define the outer width to be smaller than or equal to the interior width of the shell. The apparatus also includes a base plate adapted for receiving the shell member and securing the shell member to the base plate with the closed end of the shell facing away from the base plate through cooperation with the nut when the nut is at least partially within the shell member. | 03-05-2009 |
20110260811 | CROSS-COUPLING FILTER ELEMENTS IN RESONANT STRUCTURES WITH BULK WAVES HAVING MULTIPLE HARMONIC RESONANCES - The elementary filter of the HBAR type includes two resonators ( | 10-27-2011 |
20110309900 | 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 minimum. 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. | 12-22-2011 |
20130033342 | PLASMA RESONANT CAVITY - A plasma resonant cavity, including a cylindrical resonant cavity casing, cutoff waveguides, and a waveguide inlet circumferentially formed on the cylindrical resonant cavity casing. The cutoff waveguides are arranged at two ends of the cylindrical resonant cavity casing and employ a movable end cover structure. An intermediate through hole is formed on each cutoff waveguide with the movable end cover structure, and a raised round table is arranged on an inner end surface of the cutoff waveguide and configured with the resonant cavity. | 02-07-2013 |
20130127569 | Method for Manufacturing Resonant Tube, Resonant Tube and Cavity Filter - A method for manufacturing a resonant tube is provided in the present invention, which comprises: mechanically mixing 88-98 wt. % of iron-nickel alloy powder, 1-8 wt. % of carbonyl iron powder, and 1-8 wt. % of carbonyl nickel powder to form a uniform powder mixture; molding the uniform powder mixture to form a resonant tube blank; and continuously sintering and annealing the resonant tube blank. Also provided in the present invention are a resonant tube and a cavity filter. The method for manufacturing a resonant tube provided in the present invention significantly enhances production efficiency while greatly reducing consumption of raw materials. Moreover, the resonant tube provided in the present invention reduces, to the greatest extent, segregation of alloy components and coarse and uneven microstructures, thereby increasing the performance and stability of the corresponding products. | 05-23-2013 |
20150364806 | ATTACHMENT OF DEEP DRAWN RESONATOR SHELL - The apparatus includes a base having a hole in a top surface, a fastener having a longitudinal section with the longitudinal section extending into the hole, and a shell. The shell has a connecting section connecting a first lateral surface section and a second lateral surface section. At least a portion of the first lateral surface section extends into the hole. The second lateral surface section extends away from the top surface of the base. The connecting section is disposed between the top surface of the base and a portion of the fastener. The connecting section has a first section and a second section, and the first section has a non-linear cross-section. The apparatus further includes a washer disposed between the portion of the fastener and the connecting section, and a portion of the washer engages the first section of the connecting section. | 12-17-2015 |
20160141743 | Harmonic cacity resonator - Cavity resonators have a multitude of applications in radio-frequency, microwave, and vacuum electronics. Cavity resonators are used as frequency selective filters and oscillators. In vacuum electronic devices and charged particle accelerators cavities are used to couple energy into and out of charged particle beams. Typically cavity resonators are optimized for single mode operation and are limited to sinusoidal waveforms and interactions. Harmonic cavities have many of the same applications, but because they resonate many axially symmetric harmonic modes simultaneously, the superposition of these modes is an on-axis arbitrary waveform. Harmonic cavities have both passive and active applications. When a periodic charged particle beam passes through a harmonic cavity whose resonances are at the same frequency as the beam's periodicity, the beam induces these cavity modes to resonate. The superposition of these modes, on axis, has a voltage vs. time waveform that ideally mirrors the current vs. time of the beam that induced it. Harmonic cavities can also be used to apply arbitrary waveforms to charged particle beams when driven externally. These waveforms can be used to modulate, shape, and accelerate the beam. A harmonic cavity whose axis is tilted to the beamline can be used to change the trajectory of selected particle bunches by delivering them fast kicking pulses. | 05-19-2016 |
333228000 | With mode suppressor | 1 |
20100321135 | DIFFERENTIAL-COMMON MODE RESONANT FILTERS - A filter is provided with a multilayer board incorporating a resonator formed by two ground plates opposed to each other and conductive side walls connected to the ground plates; two signal vias provided through the resonator; and two terminals connected to the signal vias to receive a pair of signals. The resonator has a first face of symmetry vertical to the ground plates. The signal vias are disposed symmetrically with respect to the first face of symmetry on a distance from the first face of symmetry. | 12-23-2010 |
333229000 | With temperature compensation | 4 |
20080278266 | Temperature compensation apparatus for frequency stabilization - A temperature compensation apparatus for a cavity filter including a plunger barrel, a compensation barrel having a first coefficient of thermal expansion, wherein the compensation barrel is housed with the plunger barrel, a tuning rod housed primarily within the compensation barrel, the tuning rod having a second coefficient of thermal expansion, and wherein the compensation barrel is physically in contact with the plunger barrel and the tuning rod for allowing a direct transfer of heat between the compensation barrel, the tuning rod, and the plunger barrel. | 11-13-2008 |
20090153274 | THERMAL EXPANSION COMPENSATION ASSEMBLIES - Filter and manifold compensation assemblies for thermal compensation of a filter cavity and a manifold which include at least one a lever element pivotally coupled to the filter or manifold at a first pivot point, an anchoring element pivotally coupled to the lever element at the second pivot point and secured to the housing of the filter or manifold, and a thermal expansion element having a lower coefficient of thermal expansion than the filter cavity or manifold and pivotally coupled to the lever element. The relative thermal expansion of the thermal expansion element in comparison with the thermal expansion of the filter or manifold causes the lever element to articulate and to displace the housing for thermal compensation. The degree of each displacement is proportional to the ratio between the distance between the second and first pivot points and the distance between the second and the third pivot points. | 06-18-2009 |
20090278631 | CAVITY RESONATOR, USE OF A CAVITY RESONATOR AND OSCILLATOR CIRCUIT - A cavity resonator ( | 11-12-2009 |
20170237143 | CAVITY RESONATOR WITH THERMAL COMPENSATION | 08-17-2017 |
333230000 | With coupling | 7 |
20090128263 | CAVITY RESONATOR - The invention is related to cavity resonators, a method for producing a cavity resonator, and a band pass filter system comprising cavity resonators. A cavity resonator ( | 05-21-2009 |
20100156571 | DUAL MODE SINGLE CAVITY PULSE COMPRESSOR - An rf pulse compressor has a single high Q cavity resonator fed by a four port hybrid coupler which is connected to the resonator at coupling ports located at the intersection of two of the resonator's orthogonal axes with the resonator cavity walls. The hybrid coupler divides pulse power from an rf pulse power source and excites two space and phase orthogonal modes in the single cavity, the stored energy of which aids in producing compressed pulses at the output of the hybrid. On-axis perturbations in the cavity walls can be used to lock the orthogonal orientation of the modes excited in the cavity. | 06-24-2010 |
20100225423 | LOW NOISE FIGURE RADIOFREQUENCY DEVICE - A RF device such as a tower mounted amplifier (TMA), mast-head amplifier (MHA), or Tower Mounted Boosters (TMB) includes a housing having a plurality of cavities and an input and an output, the input being coupled to the antenna and the output being coupled to a base station. The housing includes a transmission path holding multiple coaxial resonators. The housing further includes multiple receive paths including at least one path having a plurality of cavities, each cavity containing a dielectric resonator. The metallic transmit resonator nearest the antenna input is coupled to the first dielectric resonator via a common resonant wire. The last dielectric resonator in the receive path is coupled to a first metallic resonator of a downstream clean-up filter via another common resonant wire. | 09-09-2010 |
20100244995 | RF module - The present invention provides an RF module capable of converting electromagnetic waves in the TE mode to balanced electromagnetic waves in the TEM mode without adjustment and outputting the balanced electromagnetic waves while easily realizing miniaturization. The RF module includes: a waveguide ( | 09-30-2010 |
20110006862 | MULTILAYER DIELECTRIC SUBSTRATE AND SEMICONDUCTOR PACKAGE - A multilayer dielectric substrate includes a first cavity-resonance suppressing circuit that suppresses cavity resonance of a first signal wave and a second cavity-resonance suppressing circuit that suppresses cavity resonance of a second signal wave, a frequency thereof being different from that of the first signal wave. These cavity-resonance suppressing circuits respectively include openings formed in a surface-layer ground conductor, an impedance transformer with a length of an odd multiple of about ¼ of in-substrate effective wavelength of a signal wave, a tip-short-circuited dielectric transmission line with a length of an odd multiple of about ¼, of in-substrate effective wavelength of a signal wave, a coupling aperture formed in an inner-layer ground conductor, and a resistor formed in the coupling aperture. The multilayer dielectric substrate that suppresses cavity resonance of signal waves of a plurality of frequencies. | 01-13-2011 |
20110063054 | Resonant Cavity Integrated into a Waveguide for Terahertz Sensing - A method comprising polarizing and coupling an electromagnetic beam to a first-order transverse electric (TE | 03-17-2011 |
20120206219 | FEEDING STRUCTURE FOR CAVITY RESONATORS - The present invention relates to a feeding structure for coupling a feedline to a cavity. To increase the coupling, which can contribute to achieving a broad bandwidth, a feeding structure is proposed comprising a carrier substrate, a top conductor plane of a cavity formed in said carrier substrate, a feedline substrate covering said top conductor plane, a signal conductor of a feedline, said signal conductor being formed in or on said feedline substrate opposite said top conductor plane, a via probe connected to said signal conductor and leading through said feedline substrate and said top conductor plane into said cavity, a ring-shaped aperture formed in said top conductor plane around said via probe, and at least one slot-shaped aperture formed in said top conductor plane starting at said ring-shaped aperture and leading away from said via probe. | 08-16-2012 |
333231000 | With tuning | 10 |
20110109406 | Microwave Cavity Sensor - Apparatus comprising: a radio frequency (RF) Robinson oscillator comprising: a resonator comprising a sensor rhumbatron, the sensor rhumbatron comprising a cavity member, the cavity member having a re-entrant boss member, the re-entrant boss member being arranged to project into a cavity portion of the cavity member; a feedback element arranged to provide positive radio frequency (RF) feedback to the cavity member thereby to increase a quality factor Q of the cavity member, the feedback element having first and second terminals coupled to the cavity member, the apparatus being operable to cause the oscillator to oscillate at a resonant frequency; and an output arranged to provide a signal that varies according to a value of at least one electrical parameter of the oscillator, said at least one electrical parameter being selected from amongst an electromagnetic loss and a resonant frequency. | 05-12-2011 |
20130335173 | TUNABLE CAVITY RESONATOR - A tunable cavity resonator includes a housing, a post, and a controllably variable capacitive coupling. The housing defines an interior and has at least one side wall, a first end, and a second end. The post is located within the interior and extends from the first end to the second end. The post and the housing define a resonating cavity. The controllably variable capacitive coupling is disposed in the housing. | 12-19-2013 |
333232000 | Having movable element | 8 |
20100052824 | Radio Frequency Filter - A radio frequency filter comprising: housing body having input/output connectors and containing space which is divided into spaces by means of diaphragm; at least one resonator rod arranged in the housing; housing cover coupled to the housing body; wherein the housing body and the housing cover are coupled to each other by laser welding. The radio frequency filter according to the present invention can reduce PIMD due to reduce Contact Nonlinearity, and inhibit to erode away because the laser welding method dissolve different metallic materials each other and take a convalent bond, and reduce its manufacturing process time and cost because it is unnecessary drilling a hole and fastening a screw to fasten the housing and the housing cover each other and can simplify its manufacturing process and raise productivity because only irradiate laser beam on irradiated area of the housing cover. | 03-04-2010 |
20100073111 | TEM MODE RESONATOR - A TEM mode resonator includes a tuneable cavity defined by an electrically conducting cavity wall. The cavity wall includes a grounding face, a capacitor face and a surrounding wall extending therebetween. An electrically conducting resonator member is disposed within the cavity and extends from the grounding face part way towards the capacitor face. A portion of the resonator member proximate to the capacitor face includes a recess defining an aperture. A tuning mechanism disposed outside the tuneable cavity, includes a tuning arm extending into the tuneable cavity through the aperture. The tuning mechanism is adapted to displace the tuning arm towards and away from the capacitor face. At least a portion of the tuning arm disposed within the cavity is the tuning element, which is formed of either a metal or a dielectric. | 03-25-2010 |
20110115577 | LINEAR ACTUATOR - A linear actuator includes a drive arm and an extension arm each extending along a common drive axis. One of the arms has a plurality of resiliently deformable fingers extending beyond the end of the arm towards the other arm. At least one of the fingers has a thread on its inner face while the other arm has a threaded portion. At least part of the threaded portion is received between the fingers. The fingers are adapted to urge the threads of the two arms into interengagement such that rotation of the drive arm about the drive axis displaces the extension arm along the drive axis. The two threads are arranged such that when the ridge of one thread is received in the groove of the other thread the two sides of the ridge abut the two edges of the mouth of the groove. | 05-19-2011 |
20130021117 | LOCKING DEVICE FOR A RADIO FREQUENCY FILTER TUNING PROBE - A radio frequency (RF) filter includes an input port configured to receive a signal, an output port configured to output a signal, and a tuning probe configured to be movable within a tuning probe port to adjust filter characteristics. The tuning probe port is configured to receive the tuning probe therein, and a locking mechanism is configured to lock the tuning probe in the tuning probe port at a desired depth and further configured to prevent movement of the tuning probe in the tuning probe port when the locking mechanism is in a locked configuration. | 01-24-2013 |
20130278359 | TWO- AND THREE-SUBSTRATE LEVEL PROCESSES FOR PRODUCING EVANESCENT MODE ELECTROMAGNETIC WAVE CAVITY RESONATORS - This disclosure provides implementations of electromechanical systems (EMS) resonator structures, devices, apparatus, systems, and related processes. In one aspect, a method includes providing a first substrate and a second substrate. In some implementations, the first substrate includes a cavity ceiling, an array of dielectric spacers, and an assembly platform arranged adjacent the array of dielectric spacers opposite the cavity ceiling surface. The assembly platform includes a plurality of post tops. In some implementations, the second substrate has an array of cavities and an array of resonator posts. In some implementations, the method includes mating the first substrate with the second substrate, connecting the post tops with the posts to form an array that includes a plurality of evanescent-mode electromagnetic wave cavity resonators, wherein at least a statically-defined magnitude of a gap distance between the distal surface of each post top and the cavity ceiling is defined by the dielectric spacers. | 10-24-2013 |
20140203896 | Tunable Cavity Resonator Including A Plurality of MEMS Beams - A tunable cavity resonator includes a substrate, a cap structure, and a tuning assembly. The cap structure extends from the substrate, and at least one of the substrate and the cap structure defines a resonator cavity. The tuning assembly is positioned at least partially within the resonator cavity. The tuning assembly includes a plurality of fixed-fixed MEMS beams configured for controllable movement relative to the substrate between an activated position and a deactivated position in order to tune a resonant frequency of the tunable cavity resonator. | 07-24-2014 |
20150048905 | MICROWAVE RESONANT CAVITY - A microwave resonant cavity includes a conductive shell with a screw hole having first threads and a screw having second threads configured to engage with the screw hole. The conductive shell defines a volume, the screw extends into the volume, the microwave resonant cavity has a resonant frequency, and the movement of the screw changes the resonant frequency. The first threads have a first pitch, and at least a portion of the second threads has a second pitch different from the first pitch. | 02-19-2015 |
20170237144 | MICROWAVE FREQUENCY MAGNETIC FIELD MANIPULATION SYSTEMS AND METHODS AND ASSOCIATED APPLICATION INSTRUMENTS, APPARATUS AND SYSTEM | 08-17-2017 |