| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 073584000 |
By mechanical waves
| 1283 |
| 073649000 |
Sensing apparatus
| 326 |
| 073579000 |
Resonance, frequency, or amplitude study
| 208 |
| 073662000 |
Vibrator
| 64 |
| 073577000 |
Fatigue study
| 17 |
| 073574000 |
Mechanical impedance | 5 |
| 20110296920 | EMUS TRANSDUCER SYSTEM AS WELL AS A METHOD FOR PRODUCING LINEARLY POLARISED TRANSVERSE WAVES WITH VARIABLY PREDETERMINABLE POLARISATION DIRECTION WITHIN A TEST SPECIMEN - Described are an EMUS transducer system as well as a method for producing linearly polarised transverse waves with variably predeterminable polarisation direction within a test specimen containing at least ferromagnetic material portions and with a test specimen surface with a magnetisation unit which is provided and set up for being arrangeable on the surface of the test specimen and for producing a magnetic field orientated parallel to the test specimen surface within the test specimen, as well as with at least one HF coil arrangement which is provided and set up for being arrangeable on the test specimen surface and for producing or detecting a HF field occurring overlaid with the magnetic field. | 12-08-2011 |
| 20130239687 | ACOUSTICAL WAVE MEASURING APPARATUS - An acoustical wave measuring apparatus capable of achieving an acoustic match even when the shape of a holding member changes largely along a scanning direction of a probe, including a holding member which holds a test object, a probe which receives an acoustical wave, and a sealing member, and the acoustical wave is received by running the probe for scanning with respect to the holding member while an acoustic matching agent for performing acoustic impedance matching between the probe and the holding member is injected into between a receiving surface and the holding member. The sealing member includes a portion with elasticity arranged at the receiving surface of the probe and is biased in a direction which brings the sealing member into contact with the holding member such that the portion contacts the holding member to seal a space between the receiving surface and the holding member. | 09-19-2013 |
| 20150128706 | Fibre Optic Sensing - This application relates to methods and apparatus for fibre optic sensing which can provide information about the environment in which the fibre optic is deployed. In particular the application relates to fibre optic based sensing of the mechanical impedance of the environment. The method comprises using an interrogator ( | 05-14-2015 |
| 20160061780 | ACTUATOR RING CHARACTERISTIC MEASUREMENT METHOD - Methods and systems are disclosed for determining at least one actuation characteristic of an imaging device. For example, one method includes determining a target distance to move a lens by an actuator to focus a scene on an image sensor, where moving the lens by the actuator causes an associated lens vibration having at least one actuation characteristic, determining a scan sequence having a plurality of successive measurements, each measurement having at least a first measurement parameter and subsequent measurement parameter, each measurement parameter including at least one step and at least one time delay, moving the lens the target distance for each successive measurement based on the measurement parameters of each successive measurement, measuring a performance indicator of each successive measurement, and determining at least one actuation characteristic based on the first measurement parameter of the measurement having the highest performance indicator. | 03-03-2016 |
| 20160187302 | WAFER CLAMP DETECTION BASED ON VIBRATION OR ACOUSTIC CHARACTERISTIC ANALYSIS - A workpiece clamping status detection system and method for detecting a clamping state of a clamping device is provided. A clamping device having a clamping surface is configured to selectively clamp a workpiece to the clamping surface. The clamping device may be an electrostatic chuck or a mechanical clamp for selectively securing a semiconductor wafer thereto. A vibration-inducing mechanism is further provided, wherein the vibration-inducing mechanism is configured to selectively vibrate one or more of the clamping device and workpiece. A vibration-sensing mechanism is also provided, wherein the vibration-sensing mechanism is configured to detect the vibration of the one or more of the clamping device and workpiece. Detection of clamping status utilizes changes in acoustic properties, such as a shift of natural resonance frequency or acoustic impedance, to determine clamping condition of the workpiece. A controller is further configured to determine a clamping state associated with the clamping of the workpiece to the clamping surface, wherein the clamping state is associated with the detected vibration of the one or more of the clamping device and workpiece. | 06-30-2016 |
| 073573000 |
Hardness or compliance | 4 |
| 20090217758 | Method of Determining the Texture of Food Material and Apparatus for Use in this Method - The invention relates to a method of determining the texture of food material, comprising the steps of applying a vibrational impact with a predetermined frequency to the food material, measuring the vibrational response of the food material to the vibrational impact, and comparing the vibratiorial response with at least one reference value, determined prior to the measurement. The food material is in a liquid or a semi-solid state and/or contained within a container body ( | 09-03-2009 |
| 20100064810 | METHOD AND APPARATUS FOR IDENTIFYING THE MODULUS OF ELASTICITY OF LOGS - An apparatus for identifying the modulus of elasticity of logs comprises a device ( | 03-18-2010 |
| 20110239764 | Acoustic Emission Toughness Testing For PDC, PCBN, Or Other Hard Or Superhard Materials - An acoustic emissions testing device includes a pressurizable chamber, a rock sample, and one or ore acoustic sensors communicably coupled to the rock sample. The chamber includes a first chamber being pressurizable to a first pressure and a second chamber pressurizable to a second pressure. The rock sample is positioned within the pressurizable chamber such that a first portion of the sample is exposed to the first pressure and a second portion of the sample is exposed to the second pressure. The second pressure is increased to a threshold pressure, maintained at the threshold pressure for a time period, and then decreased. The acoustic sensors detect one or more acoustic events occurring within the rock sample. In certain embodiments, one or more of the intensity, the spatial location, and the propagating direction for one or more acoustic events are determinable. The system includes the testing device coupled to a recorder. | 10-06-2011 |
| 20140102198 | System and Method for RFID-Based Remote Material Analysis - This application generally relates to systems and methods of using Radio Frequency Identification (RFID) devices to remotely analyze objects and structures, and more particularly, this application relates to systems and methods of using RFID devices to remotely analyze properties and conditions of a surface of objects and structures. | 04-17-2014 |
| 073571000 |
Test chamber | 4 |
| 20090000378 | Methods and apparatus for measuring elastic modulus of non-solid ceramic materials by resonance - The present invention pertains to apparatus and methods for measuring elastic modulus (Young's modulus) of non-solid materials, including honeycomb ceramic materials used in the filtration and/or treatment of exhaust gasses, through a range of temperatures. | 01-01-2009 |
| 20090007670 | Acoustic chamber for detection of insects - The acoustic chamber for the detection of insects provides for the acoustic detection of insects living within the trunk of a tree. The chamber includes an annular shell disposed around the trunk of the tree to define an annular acoustic or sound chamber. Acoustic sensors are mounted in the shell walls. The acoustic sensors may be microphones that extend from the shell to be in direct contact with the tree trunk, or microphones spaced apart from the tree trunk, or other suitable acoustic transducers. The acoustic sensors are connected to data processing equipment for analyzing sounds picked up by the sensors for acoustic signals indicative of insect infestation. | 01-08-2009 |
| 20090031810 | SYSTEMS AND METHODS FOR CONDUCTING SIMULTANEOUS VIBRATION AND ELECTRICAL TESTING - A mounting pedestal is designed to hold a DUT in position for both electrical testing and vibration testing. The design is such that the pedestal can remain thermally sealed from an environment created within a confined area so as to impart vibration to a DUT positioned within the environmentally protected area, the vibration coming from a vibrator outside the environmentally sealed area. The pedestal, in one embodiment, extends through the base of a DUT holding tray while still preserving the environment within the sealed area. In one embodiment, the pedestal can position the DUT in any of several selected orientations. | 02-05-2009 |
| 20140245833 | APPARATUS AND METHOD FOR CARRYING OUT IN A CONTROLLED ATMOSPHERE MATERIAL FATIGUE TESTS IN A HIGH CYCLE REGIME WITH A CONTROLLED STRAIN RATIO - An apparatus for carrying out high cycle fatigue tests of a specimen under high pressure, including: a pressure vessel; a load train including a first horn and a second horn between which a specimen is to be arranged, wherein the load train is arranged within an internal chamber of the pressure vessel; and a converter configured to apply ultrasonic waves into the load train by exciting the first horn to apply a dynamic stress to the specimen. A base part of the second horn is movably seated in the pressure vessel such that two separated chambers are formed within the pressure vessel with the first chamber for the specimen, wherein both chambers can be fed with gas and charged with different gas pressures in order to apply a static stress to the specimen. | 09-04-2014 |
| 073570500 |
Acoustic levitation | 4 |
| 20090107241 | METHOD FOR NON-CONTACT PARTICLE MANIPULATION AND CONTROL OF PARTICLE SPACING ALONG AN AXIS - One or more of the embodiments of the present invention provide for a method of non-contact particle manipulation and control of particle spacing along an axis which includes axial and radial acoustic standing wave fields. Particles are suspended in an aqueous solution, and this solution then flows into the cylindrical flow channel. While the solution flows through the flow channel, the outer structure of the flow channel is vibrated at a resonant frequency, causing a radial acoustic standing wave field to form inside the flow channel in the solution. These radial acoustic standing waves focus the particles suspended in the solution to the center axis of the cylindrical flow channel. | 04-30-2009 |
| 20100000325 | Ultrasonic analyte concentration and application in flow cytometry - The present invention includes an apparatus and corresponding method for concentrating analytes within a fluid flowing through a tube using acoustic radiation pressure. The apparatus includes a function generator that outputs a radio frequency electrical signal to a transducer that transforms the radio frequency electric signal to an acoustic signal and couples the acoustic signal to the tube. The acoustic signal is converted within the tube to acoustic pressure that concentrates the analytes within the fluid. | 01-07-2010 |
| 20110314914 | ACOUSTIC OSCILLATOR - An acoustic oscillator arrangement includes an acoustic system having at least one acoustic transmission path through it, and at least one mode. The acoustic transmission path is of variable length. A controller is provided with an amplifier and a feedback network which together provide a positive feedback oscillator for exciting a mode of the acoustic system. The feedback network comprises a non linear amplitude control element (N-LACE), a frequency dependent gain element with an electronic transfer function, and a phase compensator. The acoustic oscillator arrangement also includes an acoustic transmitter which launches an acoustic signal into the acoustic system based upon an output from the controller, and an acoustic receiver which receives an acoustic signal from the acoustic system which is fed back to the controller. Such a stabilized positive feedback arrangement is self exciting at the effective resonance frequency of the acoustic system and avoids the need for an external fixed or variable frequency driver. | 12-29-2011 |
| 20130047728 | APPARATUS AND METHOD FOR THE MANIPULATION OF OBJECTS USING ULTRASOUND - A method and apparatus for manipulating particles. The apparatus comprising an ultrasound source for providing a variable ultrasound signal within a region of interest, and a controller connected to the ultrasound source such that it provides a control signal to the ultrasound source. The variable ultrasound signal creates a pressure field within the region of interest, the shape and/or position of which can be altered by changing the control signal input to the ultrasound source such that a particle within the region of interest will move in response to changes in the pressure field. | 02-28-2013 |
| 073572000 |
Loose object detection | 3 |
| 20080282803 | STATOR CORE LOOSENING DIAGNOSIS DEVICE AND STATOR CORE LOOSENING DIAGNOSIS METHOD - A diagnosis device for diagnosing loosening of a stator core of a rotary electrical machine. The diagnosis device has: excitation means for vibrating the stator core in the radial direction; vibration detection means for detecting the vibration of the stator core in the radial direction; means for frequency-analyzing an output signal of the vibration detection means that detects vibration generated in the stator core when the stator core is vibrated by the excitation means so as to extract a measurement natural vibration mode of the stator core in a circular ring natural vibration mode; means for estimating a circular ring natural vibration mode of the stator core from shape data of the stator core; and means for determining a clamping state of the stator core by comparing the measurement natural vibration mode and a determination criterion obtained based on the estimated natural vibration mode. | 11-20-2008 |
| 20130160549 | SYSTEM AND METHOD FOR DETECTING OBJECTS IN A FLUID SYSTEM - A system is provided in one embodiment for real-time detection of an object in a fluid without interfering with fluid flow. The system may include a sensor element coupled to a fluid passage, which can transmit energy substantially parallel to the flow direction of a fluid in the fluid passage and receive energy reflected from an incident object in the fluid. Reflected energy can also be analyzed as a function of object size and material such that an object can be classified or characterized through appropriate signal analysis. A method is provided in another embodiment for detecting an object in a fluid passage. The method may include transmitting ultrasonic energy through an interface membrane into the fluid and receiving ultrasonic energy reflected from the object. A pressure change in the reflected ultrasonic energy may be measured and converted to a signal for an output device. | 06-27-2013 |
| 20140290366 | METHOD AND SYSTEM FOR DETECTING AN AIRBORNE TRIGGER - An apparatus includes a cantilevered element including a coating material having an affinity for at least one compound. The apparatus further includes a first capacitive plate and a second capacitive plate that are each spaced from and capacitively coupled to the cantilevered element. The first capacitive plate is configured to induce a vibration in the cantilevered element at a frequency related to a mass of the cantilevered element. A frequency detector is coupled to the second capacitive plate to detect a change in vibrational frequency of the cantilevered element as a result of at least one particle of the at least one compound coupling to the coating material. | 10-02-2014 |
| Entries |
| Document | Title | Date |
|---|
| 20080216575 | Device for laser-ultrasonic detection of flip chip attachment defects - A device detects underfill voids and solder ball defects via laser generation and laser detection of an ultrasonic wave at the top surface of flip chips. High resolution is provided by using small laser spot sizes and closely-spaced laser beams of wavelengths that are absorbed near the surface of the semiconductor. Improved spatial resolution and rejection of unwanted scattered waves can be attained by limiting the time frame of the ultrasonic waveform to the time required for the first longitudinal wave reflection from the bottom of the flip chip. The laser beam spacing can be reduced by using probe and detection beams of different wavelengths. Resolution of less than 100 μm features was demonstrated for silicon flip chips. | 09-11-2008 |
| 20090056451 | Ultrasonic sensor assembly and method - An ultrasonic point level measurement instrument comprises a measurement circuit and a transducer. The transducer transmits and receives acoustic signals under control of the measurement circuit. An improvement in the transducer comprises a transducer housing including a pair of spaced apart legs to define a gap therebetween. Each leg includes an interior cavity. A pair of crystal assemblies each comprise a crystal mounted to a circuit board. The circuit board includes conduction paths for connection between the crystal and a terminal pad. Each crystal assembly is received in the interior cavity of one of the legs with the circuit board spacing the crystal from walls of the leg. A pair of cables are each connected between the measurement circuit and the terminal pad of one of the crystal assemblies so that the measurement circuit detects presence of a material in the gap. | 03-05-2009 |
| 20090139332 | Method for non-contact particle manipulation and control of particle spacing along an axis - Method and system for uniformly spacing particles in a flowing system comprising suspending particles in an elongated fluid filled cavity; exposing said cavity to an axial acoustic standing wave field, wherein said axial acoustic standing wave field drives said particles to nodal and anti-nodal positions along the center axis of said cavity to result in uniformly spaced particles; and focusing said particles to the center axis of said cavity. | 06-04-2009 |
| 20100005887 | VIBRATION-TYPE MEASURING DEVICE - A vibration-type measuring device includes an exciter arrangement which exerts a time-dependent force with at least one sinusoidal component at an adjustable excitation frequency on a measuring tube, through which a medium can flow, and causes the measuring tube to oscillate. The measuring device includes first and second sensors which are fitted to the measuring tube at different locations. The first and second sensors output first and second measurement signals, respectively. The measuring device includes an evaluation unit which determines a first phase shift between the first and second measurement signals and uses the determined phase shift to determine a measurement variable of the medium. The measuring device includes a phase comparator, which determines a second phase shift between the force and the average value of the first and second measurement signals, and a frequency generator which sets the excitation frequency on the basis of the second phase shift. | 01-14-2010 |
| 20100206077 | Magnetic Coupler for Isolating Noise and Vibration Transmitted from a Drive Source on a Six-Axles CNC Hybrid Gearset Testing Machine - A magnetic coupler for isolating noise and vibration transmitted from a drive source on a six-axles CNC gearset testing machine used to test degrees of noise and vibration is provided. The magnetic coupler for isolating noise and vibration transmitted from a drive source on a six-axles CNC gearset testing machine includes a drive source, a drive shaft, a transmission member for operatively interconnecting the drive shaft and the drive source, and a gearbox having an input shaft; a magnetic coupler comprising an outer cylinder and an inner cylinder adapted to dispose in the outer cylinder and space therefrom; a first chuck adapted to couple the inner cylinder and the input shaft of the gearbox to be tested together, and a second chuck adapted to couple the outer cylinder and the drive shaft together. From the above, noise and vibration would not transmitted from the drive source to the gearbox (e.g., motorcycle gearbox) during the test. | 08-19-2010 |
| 20100281981 | CHARACTERIZATION WITH PICOSECOND ULTRASONICS OF METAL PORTIONS OF SAMPLES POTENTIALLY SUBJECT TO EROSION - A method for evaluating a manufacturing process is described. The method includes generating an optical pump beam pulse and directing the optical pump beam pulse to a surface of a sample. A probe pulse is generated and directed the probe pulse to the surface of the sample. A probe pulse response signal is detected. A change in the probe pulse varying in response to the acoustic signal forms the probe pulse response signal. An evaluation of one or more manufacturing process steps used to create the sample is made based upon the probe pulse response signal. Additionally the method may be used for process control of a CMP process. Apparatus are also described. | 11-11-2010 |
| 20120210793 | SENSOR ASSEMBLY AND A METHOD OF SENSING - There is disclosed a sensor assembly and a method of sensing. The sensor assembly is for sensing a property associated with a structure of interest. The sensor assembly includes an elongate member constructed and arranged so as to be capable of assuming a structure-engaging form in which it is resiliently biased such that the member can engage with and grip the structure along at least part of the length of the member, and, at least one sensor supported by the elongate member. | 08-23-2012 |
| 20120227496 | Measuring Device - A method for the manufacture of a measuring device, and a measuring device for registering at least one measured value of at least one process variable, wherein the measuring device includes a measuring tube, which has at least one necked out portion, on which at least one measuring transducer is arranged, wherein the measuring tube together with the necked out portion is monolithic, and wherein the necked out portion is manufacturable from the measuring tube at least partially by a deformation method. | 09-13-2012 |
| 20120325002 | Scanner Diagnostics Utilizing Three Axis Accelerometers - Numerous failure modes, causes, and adverse operating conditions on scanner systems exhibit mechanical signatures that are detected by three-axis accelerometers located in the upper and lower sensor heads. A diagnostic system for monitoring the scanning system that detects characteristics of sheet materials during linear translation along a translation axis of a bi-directionally driven mobile detector device includes a vibration sensor configured to measure vibrations generated by various components of the scanning system and to generate vibration signals indicative of operation conditions of the components. Correlating the vibration signals to modes of operations of the components identifies the source, location and severity of potential problems in the scanner. In dual scanning systems, the accelerometer in the upper scanner head monitors activities associated with movement of the upper carriage while the accelerometer in the lower scanner head monitors activities associated with movement of the lower carriage. | 12-27-2012 |
| 20120325003 | SYSTEM AND METHOD FOR IDENTIFYING, INSPECTING, AND EXAMINING A RADIOGRAPHICALLY LABELED SPECIMEN - An apparatus for determining the location of a radio-opaque marker embedded in an excised specimen includes a radio-opaque marker including an energy beacon that can be embedded in the specimen, an energy beacon controller, at least three detectors, a signal processing component, and a display device. An associated method is disclosed. A method for evaluating a radiographically labeled excised specimen involves determining the location of a radio-opaque marker embedded in the excised specimen, anatomically sectioning the excised specimen, macro-optically segmenting the sectioned specimen into an adipose tissue component, a fibrous tissue component, and an epithelial tissue component, and microscopically examining at least one of the tissue components. An associated apparatus is disclosed. | 12-27-2012 |
| 20150128705 | SENSOR ASSEMBLY AND A METHOD OF SENSING - There is disclosed a sensor assembly and a method of sensing. The sensor assembly is for sensing a property associated with a structure of interest. The sensor assembly includes an elongate member constructed and arranged so as to be capable of assuming a structure-engaging form in which it is resiliently biased such that the member can engage with and grip the structure along at least part of the length of the member, and, at least one sensor supported by the elongate member. | 05-14-2015 |
