Abstract: An apparatus examines the internal structure of an object disposed substantially in a medium such as air. The apparatus has an acoustic transducer assembly that emits and receives acoustic signals and an acoustic coupler that acoustically couples the acoustic transducer assembly to the object. The acoustic coupler has a first end adapted to couple to the acoustic transducer assembly and a second end adapted to make contact with a section of a surface of the object. The acoustic coupler carries acoustic signals between the acoustic transducer assembly and the contacted section of the surface of the object. In operation, the apparatus examines the internal structure of the object using reflection mode acoustic microscopy, wherein emitted and reflected signals are carried between the acoustic transducer and the object by acoustic coupler.

Abstract: There is provided a non-destructive inspection device having an actuating portion and at least one inspecting portion. The inspecting portion(s) are magnetically coupled to the actuating portion so that the inspecting portion(s) may be moved into limited-access areas to inspect features of a structure. The inspecting portion(s) each include at least one inspection sensor that transmits and/or receives signals that, when processed, indicate defects in the features of the structure. The actuating portion may include a handle for manual movement of the inspection device, or alternatively may include a motorized drive wheel for motorized positioning of the inspection device. A positional encoder device, such as an encoder wheel or optical encoder, may also be included in the actuating portion or inspecting portion(s) to monitor the location of the inspection device for more accurate or informative inspection results.

Abstract: An apparatus for noninvasively monitoring the flow and/or the composition of a flowing liquid using ultrasound is described. The position of the resonance peaks for a fluid excited by a swept-frequency ultrasonic signal have been found to change frequency both in response to a change in composition and in response to a change in the flow velocity thereof. Additionally, the distance between successive resonance peaks does not change as a function of flow, but rather in response to a change in composition. Thus, a measurement of both parameters (resonance position and resonance spacing), once calibrated, permits the simultaneous determination of flow rate and composition using the apparatus and method of the present invention.

Abstract: A miniature air gap inspection crawler. The miniature air gap inspection crawler may include a base, a linear drive mechanism and a circumferential drive mechanism such that either the linear drive mechanism or the circumferential drive mechanism may be employed, and an inspection module connected to the base.

Abstract: An ultrasonic testing assembly structured to examine a test object, wherein the test object has a surface, and the examination examines the structure of the test object under the surface as well as the profile of the surface.

Abstract: An ultrasonic transducer having an effective center frequency of about 42 MHz; a bandwidth of greater than 85% at 6 dB; a spherical focus of at least 0.5 inches in water; an F4 lens; a resolution sufficient to be able to detect and separate a 0.005 inch flat-bottomed hole at 0.005 inches below surface; and a beam size of approximately 0.006–0.008 inches measured off a 1½ mm ball in water at the transducer's focal point.

Abstract: A method and apparatus for ultrasonic inspection of one or more objects in an object holder. In a first embodiment of the method, the objects are immersed in a tank containing coupling fluid and a flow of fluid is generated in the tank beneath the object holder, thereby producing a suction pressure that tends to hold the objects in the holder. Each object is insonified with ultrasound from an ultrasonic transducer and the ultrasound reflected from or transmitted through the object is sensed. In a further embodiment, the object to be inspected is moved between the upper and lower chambers of a scanning station, over a surface in the lower chamber. A coupling fluid is supplied to the upper chamber so that coupling fluid flows through one or more holes in the bottom of the upper chamber and fills the space between the ultrasound emitting surface of the ultrasonic transducer and the object to be scanned, thereby providing coupling for the ultrasound and tending the hold the objects in the object holder.

Abstract: A method and apparatus is provided for inspecting material arranged within an annular recess such as weld beads, particularly weld beads between the shroud, core plate and support structures within a boiling water nuclear reactor (BWR). The apparatus comprises a track support, a generally arcuate track, a carriage, a sensor support and a sensor. The track is configured to correspond and align generally with an inner surface of a shroud or other encompassing structure with the sensor support and sensor configured to be extended into and then moved horizontally along the annular recess. The sensor may be configured with a plurality of sensor elements, such as ultrasonic transducers or eddy current sensors that may be configured to analyze different properties or different regions relative to the sensor location.

Abstract: A device for inspecting submersed plant parts is particularly suited for ultrasonic inspection of screws in the core baffle of a nuclear reactor pressure vessel. The device includes a remote-controlled underwater vehicle that is provided at its end face with a carrier that can be pivoted about a pivot axis oriented parallel to the longitudinal central axis of the underwater vehicle, and is provided with a holding device for an inspection head that is arranged on the carrier spaced apart from the pivot axis.

Abstract: An apparatus examines the internal structure of an object disposed substantially in a medium such as air. The apparatus has an acoustic transducer assembly that emits and receives acoustic signals and an acoustic coupler that acoustically couples the acoustic transducer assembly to the object. The acoustic coupler is adapted to essentially retain a body of fluid such as water between a section of the surface of the object and the acoustic transducer assembly for carrying acoustic signals between the acoustic transducer assembly and the object.

Abstract: A method and apparatus are disclosed for coupling ultrasound between an ultrasonic transducer and an object. A fluid cavity in an upper chamber has an inlet for receiving a flow of coupling fluid, a first aperture for admitting the ultrasonic transducer into the fluid cavity and a second aperture for dispensing coupling fluid from the fluid cavity to the object. The first and second apertures may be sized to restrict flow of coupling fluid from the fluid cavity. The focus of the ultrasound transducer may be varied by moving the ultrasonic transducer relative to the upper chamber.

Abstract: A method is disclosed for nondestructively examining airfoils for defects without removing them from the turbine machines of which they are a part. The method uses phased array ultrasound technology, which can be used with all types of airfoils. The angle of entry of the ultrasonic beam is varied by using phased array ultrasound technology. The phased array ultrasound allows an inspector to steer the ultrasonic beam toward an area of interest within the airfoil. The phased array allows an inspector to monitor multiple angles at once. So long as the scan angle does not exceed a calibrated range, an inspector can monitor an area of interest, no matter what the sound beam entry surface angle is. The ultrasonic beam is steered or phased to inspect different orientations with one scan. The method uses a phased array transducer that is a linear array probe that is comprised of a series of transducers.

Abstract: A system uses reflection mode acoustical scanning of an object to examine the internal characteristics of the object. The system includes a controller and a jig removably attached to the object. The jig includes an acoustic transducer assembly that is in communication with the controller, which controls the positioning of the acoustic transducer assembly. The jig is adapted to enable the controller to scan the acoustic transducer assembly over the object and to adjust the position of the acoustic transducer assembly during the scan to compensate for the contour of the scanned portion of the object.

Abstract: An ultrasonic imaging apparatus capable of scanning an object at a high speed while obtaining necessary information. The apparatus includes an ultrasonic probe for transmitting and receiving ultrasonic waves, an excitation timing controller for providing delays to a plurality of drive signals so as to scan the object by using the ultrasonic beam with a scanning line density, a phase matching calculating unit for processing electric signals obtained by receiving the ultrasonic echoes to obtain detection signals representing ultrasonic information along scanning lines respectively, a discontinuous region determining unit for determining continuity of a boundary of medium residing within the object on the basis of the plurality of detection signals, and a scan control unit for setting up a lower scanning line density and then a higher scanning line density for the excitation timing controller based on a determination result of the discontinuous region determining unit.

Abstract: A device for the free-jet ultrasonic testing of a workpiece by the transmission technique includes a first test head, serving as an ultrasound transmitter, and a second test head, serving as an ultrasound receiver. The test heads are respectively disposed on a first robot and a second robot, in each case in a freely movable manner, with at least one degree of freedom, such that they are aligned coaxially in relation to each other and perpendicular to a surface of a workpiece. The robots are positioned such that they are fixed in place on a displaceable common carrier.

Abstract: An autoclave reactor allows for the ultrasonic analysis of slurry concentration and particle size distribution at elevated temperatures and pressures while maintaining the temperature- and pressure-sensitive ultrasonic transducers under ambient conditions. The reactor vessel is a hollow stainless steel cylinder containing the slurry which includes a stirrer and a N2 gas source for directing gas bubbles through the slurry. Input and output transducers are connected to opposed lateral portions of the hollow cylinder for respectively directing sound waves through the slurry and receiving these sound waves after transmission through the slurry, where changes in sound wave velocity and amplitude can be used to measure slurry parameters. Ultrasonic adapters connect the transducers to the reactor vessel in a sealed manner and isolate the transducers from the hostile conditions within the vessel without ultrasonic signal distortion or losses.

Abstract: A non-contact method for measuring viscosity and surface tension information of a liquid in a first liquid containment structure. The steps of the method include oscillating a free surface of the liquid in the liquid containment structure; detecting wave characteristics of the oscillating free surface; and analyzing the wave characteristics. The oscillating step may be performed by propagating an acoustic wave from an acoustic wave emitter, through said liquid containment structure, towards the free surface. The detecting step may be performed by delivering a series of acoustic pulses at the free surface and detecting acoustic reflections from the free surface as the oscillating free surface relaxes. The analyzing step can be performed by comparing the wave characteristics with a candidate liquid wave characteristics. Prior knowledge and behavior of the selected candidate liquid can thus be imputed to the source or sample liquid. The sample liquid can be one of photoresist, solder or a biological compound.

Abstract: A method and apparatus for ultrasonic inspection of one or more objects in an object holder. In a first embodiment of the method, the objects are immersed in a tank containing coupling fluid and a flow of fluid is generated in the tank beneath the object holder, thereby producing a suction pressure that tends to hold the objects in the holder. Each object is insonified with ultrasound from an ultrasonic transducer and the ultrasound reflected from or transmitted through the object is sensed. In a further embodiment, the object to be inspected is moved between the upper and lower chambers of a scanning station, over a surface in the lower chamber. A coupling fluid is supplied to the upper chamber so that coupling fluid flows through one or more holes in the bottom of the upper chamber and fills the space between the ultrasound emitting surface of the ultrasonic transducer and the object to be scanned, thereby providing coupling for the ultrasound and tending the hold the objects in the object holder.

Abstract: A device is provided for the ultrasonic measuring of cylindrical test specimen, in particular tubes and hoses, wherein said device can be filled with water or submerged in a water bath and is provided with at least one ultrasonic measuring head secured on the device. The device is characterized by a cylindrical reference mandrel, the longitudinal axis of which at least essentially coincides with the measuring axis of the device, and at least one cylindrical auxiliary mandrel that extends parallel to the reference mandrel, can be moved to a position between the ultrasonic measuring head and the reference mandrel, and can also be removed from this position.

Abstract: An improved scanning station and method for a tray-fed scanning acoustic microscope has a vacuum system which at least assists in immobilizing loosely held parts in the trays during insonification by an ultrasonic beam generator.

Abstract: Provided is a device for measuring at least one parameter of an extruded flat conductor cable in a water bath that follows the extruder. The device distinguishes itself in that the flat conductor cable is guided with one of its flat sides essentially perpendicular across an ultrasonic head arranged in a water bath and that the ultrasonic head is a displaceable ultrasonic head that can be displaced crosswise to the longitudinal direction, or the ultrasonic head is a stationary ultrasonic element row that extends crosswise to the longitudinal direction of the flat conductor cable. This device allows measuring the total width of the flat conductor cable, such that different parameters can be determined.

Abstract: A self-aligning turbine disc inspection apparatus (30) for positioning a non-destructive examination sensor (38) proximate the disc web surface (20) of a turbine rotor assembly (10). The apparatus supports the sensor at a proper height above a support surface (34) while simultaneously providing passive freedom of movement in X, Y and theta directions so that the sensor is free to follow the slight movements of the web surface as the rotor assembly is rotated on a test stand. The freedoms of movement are provided by a first sled (52) rolling on a base (42), by a theta alignment assembly (62) rotating on the first sled, and a second sled (54) sliding on the theta alignment assembly. A vertical drive assembly (48) attached to the second sled provides a selectable height. The sensor may be moved across the disc web surface by a motorized slide (82) attached to a head assembly (46) attached to the vertical drive assembly.

Abstract: A method for inspecting a component includes exciting a number of transducers forming an array to produce an ultrasonic transmission beam (beam) focused into the component. The array and the component are separated by a standoff. A number of echo signals are generated using the transducers, and the echo signals are processed in a number of channels. The processing includes both dynamical focus and providing a dynamic aperture on receive, both of which compensate for refraction of the beam at the component/standoff interface. A single-turn inspection method includes: (a) positioning the array facing the component, (b) exciting the transducers, (c) generating a number of echo signals, (d) changing the relative angular orientation of the array and the component around an axis and repeating steps (b) and (c), and (e) processing the echo signals to form at least one processed echo signal.

Abstract: A method and apparatus for temperature-controlled ultrasonic inspection of an object. The temperature of a coupling medium between an ultrasonic transducer and an object under inspection is controlled to be at a predetermined temperature for which the attenuation of the ultrasonic energy in the coupling medium is reduced compared to the attenuation at an ambient temperature. This improves the efficiency of ultrasonic energy transport between the ultrasonic transducer and the object. The temperature of the object is controlled to simulate operating conditions more closely. An ultrasonic inspection system includes a temperature controller operable to maintain the temperature of the coupling medium and/or an object under inspection at a set temperature.

Abstract: A detector for detecting a location of a flaw on a tubular member, the tubular member having a longitudinal axis, the detector having a body, a dial rotatably mounted to the body, the dial with direction indications thereon for indicating position of the dial with respect to the longitudinal axis of the tubular member, and ultrasonic probe apparatus secured to the dial for selective positioning by rotating the dial for facilitating location of a flaw of the tubular member; and, in certain aspects, detectors for measuring tubular wall thickness.

Abstract: An ultrasonic apparatus and method are described in which a volumetric region of the body is imaged by biplane images. One biplane image has a fixed planar orientation to the transducer, and the plane of the other biplane image can be varied in relation to the fixed reference image. In a preferred embodiment one image can be rotated relative to the other, and can be tilted relative to the other. An image orientation icon is shown on the display screen together with the two biplane images depicting the relative orientation of the two planar images.

Abstract: In a method for examining objects using ultrasound according to the reflection process, in particular 3D scanning, the object is scanned with an ultrasound transducer (1) with associated transmit/receive unit (2, 4) appropriate for volume scanning and the obtained echo data are stored in a volume memory (5) in clear assignation to the local coordinates of the reflection points. During scanning the spatial line density and/or the temporal repetition frequency, in which certain volume areas are scanned, is deflected by the contents of the information obtained or obtainable from these areas in such a form that areas having less information content are scanned more seldom and/or with less scanning density than areas having a higher information content.

Abstract: The present invention provides a method, system, and an apparatus for detecting anomalies in a wooden member. The apparatus includes a first roller device comprising a first array of transducers, and a second roller device comprising a second array of transducers. A first transducer in the first array of transducers communicates with more than one transducer in the second array of transducers. The apparatus may be designed such that the wooden member may pass between the first roller device and the second roller device. In addition, the first array of transducers and the second array of transducers maintain an orientation perpendicular to the moving direction of the wooden member as the first roller device and the second roller device roll along the wooden member. Each of the transducers operate in an ultrasonic frequency range. Also, each transducer in the first array of transducers is acoustically isolated from each other transducer.

Abstract: A method and apparatus for ultrasonic inspection of one or more objects in an object holder. In a first embodiment of the method, the objects are immersed in a tank containing coupling fluid and a flow of fluid is generated in the tank beneath the object holder, thereby producing a suction pressure that tends to hold the objects in the holder. Each object is insonified with ultrasound from an ultrasonic transducer and the ultrasound reflected from or transmitted through the object is sensed. In a further embodiment, the object to be inspected is moved between the upper and lower chambers of a scanning station, over a surface in the lower chamber. A coupling fluid is supplied to the upper chamber so that coupling fluid flows through one or more holes in the bottom of the upper chamber and fills the space between the ultrasound emitting surface of the ultrasonic transducer and the object to be scanned, thereby providing coupling for the ultrasound and tending the hold the objects in the object holder.

Abstract: In a method for contactless online measuring of the wall thickness of hot-rolled pipes in the hot state for determining undesirable inner wall structures, at least one measuring head, operating according to the laser ultrasound method, scans a segment of a wall of a pipe to be measured in a circumferential direction during or directly after a rolling process. The course of the wall of a cross-section of the pipe is then reconstructed with a computer. The measuring head is a compact laser ultrasound measuring head adjustable relative to the pipe dimension to be measured. It has an excitation laser and an illumination laser and optical elements for collecting a carrier light containing the ultrasound signal and reflected at a surface of the pipe. The excitation and illumination lasers and the optical elements are arranged in a common housing of the measuring head. A pivot device is provided to pivot the laser ultrasound measuring head across a segment of the pipe in the circumferential direction.

Abstract: A media width detecting system is adapted to measure an absolute width of media without the need for human intervention or without the need for media to be referenced against a known location. The media width detecting system includes a measuring pattern that is provided across a media path for media. The measuring pattern can be in the form of, for example, a bar code pattern. The system further includes a reader that is provided relative to the measuring pattern so as to read the width of the measuring pattern. When media traverses the measuring pattern, a portion of the measuring pattern, for example, a subset of the bars of the bar code pattern, is covered by the media. The reader would then be adapted to determined a width of the measuring based on the covered portion of the media pattern in relation to the uncovered portion or uncovered bars.

Abstract: An air spring system for a motor vehicle includes essentially a flexible member (4) having first and second ends. At a first end, the flexible member is closed off by the cover plate (8) as a connecting part and, at its second end, by a roll-off piston (10) as a second connecting part. To carry out a contactless distance measurement in accordance with the pulse/echo method in the interior space (6) of the air spring (2), an ultrasonic transmitter/receiver (14) is mounted on one of the two connecting parts (8, 10) and a reflector (16) is provided on the other one of the two connecting parts (8, 10). A separate reference reflector (18) is not used in order to simplify the construction and to save mounting space for the components. Instead, the reflector is configured as a two-step reflector. The one step functions as a target reflector (16) and the other step (26) functions as a reference reflector. A bumper (28) is preferably configured as a two-step target reflector (16).

Abstract: A measurement head for a device for measuring the level of a product in a container comprises a transmitter/receiver unit to transmit a scanning signal and receive an echo of the scanning signal returned by the product, a fastening element to fasten the transmitter/receiver unit to a support and at least one actuator to move the transmitter/receiver unit relative to the fastening element.

Abstract: A plurality of ultrasonic transducer elements are arranged on the top surface of a probe, which is a concave spherical surface, so that ultrasonic beams transmitted from the ultrasonic transducer elements will intersect at a point coincident with the center of curvature of a curve delineated by the top surface. At this time, the acoustic lines conically propagate over a region beyond the point of intersection. Namely, the ultrasonic beams transmitted from the ultrasonic transducer elements pass through the point of intersection coincident with the center of curvature, and then conically and three-dimensionally propagate over the region beyond the point of intersection. Thus, acoustic lines are three-dimensionally transmitted to a wide region beyond an intercostal part of a physiological body or any other narrow space, and echoes returned from the region are received. Consequently, the wide region can be three-dimensionally monitored.

Abstract: An ultrasonic inspection device is constructed of an ultrasonic scanning unit, drive unit for the ultrasonic scanning unit, and a computing unit. The ultrasonic scanning unit is provided with an ultrasonic probe for two-dimensionally scanning a surface of a specimen with an ultrasonic wave through a medium such as water for the ultrasonic wave. The computing unit controls the ultrasonic scanning unit via the drive unit and performs an inspection for any flaw in a film formed on a surface of abase material as the specimen. From the ultrasonic probe to the specimen, an angled incident wave is transmitted such that a leaked elastic surface wave is induced, and a leaked wave from the specimen is received at the ultrasonic probe. When the adhesion is good, the reception level of the leaked wave becomes low. When the adhesion is poor, on the other hand, the reception level of the leaked wave becomes high.

Abstract: An ultrasonic pulse/echo measurement arrangement includes an ultrasonic transducer (12), which is mounted spatially fixed on an air spring cover plate (4). The arrangement further includes a fixedly mounted reference reflector (14), a target reflector (16) mounted on a roll-off piston (8) or on the buffer (18) as well as a transmitter/receiver evaluation electronic circuit (30). The running time as well as the amplitude of the reference signal is evaluated to precisely determine the pressure present in the interior space of the air spring. The ultrasonic transducer (12) has a &lgr;/4-adaptation layer (22), whose impedance does not correspond to the geometric mean of the impedances of the ultrasonic transducer (12) and the ambient air of the interior space (20) of the air spring, but rather, is a mismatch. The evaluation electronic circuit (30) can be calibrated at ambient pressure for the determination of the inner pressure of the air spring.

Abstract: A method for ultrasonically inspecting a tubular member, the tubular member having a first surface, a second surface, the first surface spaced apart from the second surface by a thickness of the tubular member, and two spaced-apart ends including a first end of the tubular member, the method including transmitting sonic beams to the tubular member with transducer apparatus such that sonic beams are reflected from the first surface of the tubular member and from the second surface of the tubular member, the transducer apparatus controlled by control apparatus, while continuing to inspect the first surface of the tubular member for first surface defects, moving the transducer apparatus adjacent sensing apparatus which signals the control apparatus to cease processing of transducer apparatus signals related to inspection of the second surface, and, the transducer apparatus continuing to transmit sonic beams for the inspection of the first surface of the tubular member, and completing inspection of substantially

Abstract: A system and method that allows for the immersion ultrasonic inspection of test samples that cannot be immersed in a fluid (e.g., water) bath. A test sample is encapsulated in a sealed evacuated bag made of nonporous flexible material. A portion of the nonporous flexible material is in contact with the surface area of the test sample where the ultrasound wave or beam will impinge. Then the sealed bag with test sample inside are immersed in an acoustic coupling medium, as is an ultrasonic transducer. The transducer is directed to transmit an interrogating ultrasound wave or beam through the vacuum bag into the component being inspected at the area of interest. The sealed bag prevents contact between the inspected component and the acoustic coupling medium.

Abstract: A probe including a body having a main chamber receiving an assembly for transmitting and receiving an ultrasonic wave. The assembly is mounted on a frame driven in reciprocating motion by a driving motor. The chamber is closed by a probe tip having a slot made of a liquid impermeable solid element which is permeable to the acoustic wave transmitted by the acoustic transducer and toward the acoustic transducer. A reciprocating motion of the acoustic transducer is a translating movement parallel to the slot such that the ultrasonic beam is normal at the slot.

Abstract: A system is provided for ultrasonic inspection of cylindrical carbon articles, such as electrodes of the type utilized in electric arc steel making furnaces. An inspection station is provided for receiving the electrode in a fixed longitudinal location and for rotating the electrode about the longitudinal axis of the electrode. Master and slave robots are provided, and each carries a pair of transducers arranged to engage the electrode at circumferentially spaced positions about the electrode. Each pair of transducers is carried on a yoke. The inspection station rotates the electrode while the master and slave robots o each carry their associated pair of transducers along approximately one half the length of the electrode.

Abstract: A measuring system and apparatus is provided in which a scanning probe microscope includes a high resolution optical sensor adapted to view a portion of a workpiece beneath the scanning probe tip. Also provided is a scanning tip assembly with a cantilever/tip assembly and an optical sensor associated with a cantilever assembly. The optical sensor may comprise a charge coupled device or other solid state camera and may be fabricated on the cantilever and/or the tip. In addition, a scanning tip assembly is provided for a scanning probe microscope having an optical fiber adapted to receive reflected light from the at least a portion of the workpiece. The scanning tip may be employed in an AFM or other scanning probe microscope, thereby providing simultaneous viewing and scanning of a workpiece surface.

Abstract: A method for creating multiple planar images of a volumetric region of an object without acquiring data from the entire volumetric region. The method includes sweeping a transducer across the volumetric region. At sampling positions during the sweep, ultrasonic beams from the transducer are transmitted into the volumetric region, which intersect one or more of a plurality of surfaces to be scanned. The number of transmitted beams during the sweep is fewer than the number of beams that would be transmitted to scan the entire volumetric region. Echoes from the volumetric region are received at the transducer in response to the transmitted beams. From the received echoes, planar images corresponding to the plurality of surfaces are formed. In a variation, the method includes receiving at the transducer fewer echoes from the volumetric region than the echoes that would be received from scanning the entire volumetric region.

Abstract: An ultrasonic imaging method capable of increasing density of sampling points in accordance with depths within an object. In this method, a predetermined area contained in the object is divided into at least a first area located most shallowly and a second area located deeper. The method includes the steps of: (a) transmitting and receiving ultrasonic waves focused in one focus direction within the first area to take samples of an ultrasonic image at a plurality of points in the focus direction, and changing the focus direction to scan the first area; (b) sequentially transmitting ultrasonic waves focused in respective focus directions within the second area in a predetermined time period, thereafter receiving ultrasonic waves reflected from the respective focus directions to take samples of the ultrasonic image at a plurality of points in the respective focus directions.

Abstract: The present invention discloses an optical device with an imaging device for imaging a subject formed by a lens device, comprising: a lens unit which is disposed inside the lens device and has an optical axis; a movable member holding the lens unit, which makes the lens unit movable within a plane orthogonal to the optical axis; an image pickup device for imaging the subject image formed by the lens device; a fixed member for limiting the movement of the movable member in the optical axis direction; at least three balls disposed between the movable member and fixed member, which can roll between the movable member and fixed member and rake relative movements of the movable member and fixed member possible; a vibration detecting unit for detecting vibration, which outputs vibration information corresponding to vibration; and a pitch direction drive unit for driving the movable member in the pitch direction within the optical axis orthogonal plane and a yaw direction drive unit for driving the movable member in

Abstract: A novel method of non-destructive die crack inspection of a plastic encapsulated integrated circuit (PEIC) uses a scanning acoustic microscope, such as a C-mode scanning acoustic microscope. To generate scan of a die surface of the PEIC, the width of a data gate of the microscope is set to scan only the die surface. Then, the data gate is moved to cover only die subsurface reflection area on a screen of the microscope, and scan of the die subsurface is generated.

Abstract: An improved tray-scanning station for a tray-fed scanning acoustic microscope prevents the dislodging of small, loosely held parts from the trays by coupling fluid as the trays pass through an inspection station, or by the action of a dryer as the trays pass through a drying station.

Abstract: An ultrasonic scanner for inspection of radiused regions having scanner supports which include pivoted fingers containing the transducers and hands supporting the fingers attached to vertical arms by pins. The angle of the hands are controlled by the vertical position of the arms.

Abstract: In a method for examining objects using ultrasound according to the reflection process, in particular 3D scanning, the object is scanned with a sound head unit (1) with associated send/receive unit (2, 4) appropriate for volume scanning and the obtained echo data are stored in a volume memory (5) in clear assignation to the local coordinates of the reflection points. During scanning the spatial line density and/or the temporal repetition frequency, in which certain volume areas are scanned, is deflected by the contents of the information obtained or obtainable from these areas in such a form that areas having less information content are scanned more seldom and/or with less scanning density than areas having a higher information content.

Abstract: Determininig a frequency at which a resonator resonates comprising: driving an acoustic transmitter for applying an acoustic signal to the interior of a resonator by scanning through a first range of frequencies in substantially equidistant steps of a first size; detecting a signal from an acoustic receiver arranged to detect the amplitude of an acoustic signal within the resonator produced by driving the acoustic transmitter over the first range of frequencies; determining a frequency at which a maximum occurs in the detected signal for the first range of frequencies; driving the acoustic transmitter by scanning through a second range of frequencies containing the determined frequency from the first range of frequencies, the second range being smaller than the first range, and scanning through the second range of frequencies in substantially equidistant steps of a second size which is smaller than the steps of the first size; detecting a signal from the acoustic receiver produced by driving the acoustic tran

Abstract: An apparatus and method are disclosed wherein a linear array of electromagnetic radiation emitting devices are arranged in association with a moving workpiece. Electromagnetic radiation emitted by the array is received by two or more receivers. Several non-contact measurements may be obtained on a workpiece using the present apparatus and methods.