Abstract: A refuse container provides an indication of the weight of the refuse stored therein and provides a danger alert when the weight of the refuse nears or exceeds a predetermined maximum. A display can display a value based on the weight of the refuse held in the refuse container. Further, one or more light sources can provide an indication of the weight of the refuse held in the refuse container. For example, the number of light source lit can provide an indication of the weight of the refuse held in the refuse container. A scale in the refuse container measures the weight of the refuse held therein. A controller uses the weight of the refuse held in the refuse container to determine the value to display on the display and whether to activate the light sources.

Abstract: A photocell receptacle includes a base configured to be fixedly mounted to a housing of a light fixture. The base has an opening providing access to the interior of the housing of the light fixture. The base has a base locking feature. The photocell receptacle includes a cap having a cap locking feature. The cap locking feature operably engaging the base locking feature to secure the cap to the base. The cap is variably positionable at different angular positions relative to the base. The cap has contact channels holding electrical contacts configured to be electrically connected to corresponding contacts of a photocell.

Abstract: The present invention discloses a method for measuring absolute value of non-linear error and an apparatus thereof. The method comprises: placing N reflecting plates jointed together at the sample port of the optical measuring instrument at the same time, wherein each of reflecting plate has a same covering area at the sample port; placing an aperture along light paths of the optical measuring instrument; adjusting the number of reflecting plates as used according to a position in the measuring range of the optical measuring instrument where the non-linear error is required to be measured; following every adjustment, acquiring the output results when the adjusted reflecting plates are placed at the sample port; performing a computation processing for non-linear error to the output results; and acquiring the non-linear error of the output results of the optical measuring instrument.

Abstract: Systems and methods for accurately measuring the luminous flux and color (spectra) from light-emitting devices are disclosed. An integrating sphere may be utilized to directly receive a first portion of light emitted by a light-emitting device through an opening defined on the integrating sphere. A light collector may be utilized to collect a second portion of light emitted by the light-emitting device and direct the second portion of light into the integrating sphere through the opening defined on the integrating sphere. A spectrometer may be utilized to measure at least one property of the first portion and the second portion of light received by the integrating sphere.

Abstract: A Parabolic-Type reflector has a uniform Apparent Brightness over the reflector surface. A model of the reflector is divided into a plurality of elements arrayed radially around the reflector focus. Each element has a length li measured radially from the focus and perpendicular to an optical axis of the reflector, and an initial depth d-initi measured parallel to the optical axis. For each element, a light-angle ?i is calculated, the angle of light from the light source subtended by the element. An Apparent Brightness is found for each element, ABi??i/li. The element emin with the lowest Apparent Brightness ABmin is identified. For each element other than emin a required light-angle is found, the required light-angle ?-corri=ABmin×li. While maintaining li, the initial depth d-initi of the element is reduced to a corrected depth d-corri necessary to achieve ?-corri.

Abstract: An optical device, a method of configuring an optical device, and a method of using a fiber Bragg grating is provided. The optical device includes a fiber Bragg grating, a narrowband optical source, and at least one optical detector. The fiber Bragg grating has a power transmission spectrum as a function of wavelength with one or more resonance peaks, each comprising a local maximum and two non-zero-slope regions with the local maximum therebetween. The light generated by the narrowband optical source has a wavelength at a non-zero-slope region of a resonance peak that is selected such that one or more of the following quantities, evaluated at the resonance peak, is at a maximum value: (a) the product of the group delay spectrum and the power transmission spectrum and (b) the product of the group delay spectrum and one minus the power reflection spectrum.

Abstract: A system for field measurement and calibration of photovoltaic reference devices, including a reference device electronics unit that measures the electrical output of a photovoltaic reference module and provides data to determine the solar irradiance received by the reference module as a function of its electrical output; and a calibrator unit that is used to routinely recalibrate the reference device electronics unit and the reference module, wherein the calibrator unit contains one or more calibrated photovoltaic reference cell(s).

Abstract: A method for detecting ambient light brightness comprises the following steps: sensing light from a direction of a projection screen; performing preset operations at an occasion free of projection, so that a first preset image and a second preset image are presented on the projection screen; acquiring light sensing values of the first preset image and the second preset image to obtain a reference value and a threshold value of an ambient light brightness change; after acquiring a current ambient light brightness value, obtaining a change direction and magnitude of actual ambient light brightness according to the reference value and the threshold value; and obtaining a current actual ambient light brightness value according to the change direction and magnitude of the actual ambient light brightness and the light sensing value of the second preset image. An apparatus for detecting ambient light brightness is also provided.

Abstract: An on-chip integrated nanobeam cavity array spectrometer (INAS) having an array of waveguide-coupled nanobeam cavities. Waveguide splitters are used to bring the signal from the input waveguide into each cavity. The spectrum of unknown input signal is obtained by collecting signal from each nanobeam cavity in the array.

Abstract: An apparatus for obtaining spectral image includes a variable spectral element capable of changing its spectral characteristics, a transmission wavelength setting unit for setting a wavelength of light to be transmitted by the variable spectral element, a variable spectral element control unit changing a first control of the variable spectral element and a second control of the variable spectral element for controlling spectral characteristics of the variable spectral element to each other, an image capturing unit capturing an image that is formed by light transmitted by the variable spectral element, and an image correction unit acquiring a difference image between a first image captured in the first control and a second image captured in the second control.

Abstract: A spectrometry device includes a wavelength variable interference filter, a filter driving unit, an imaging element which obtains color images corresponding to light with a red wavelength, light with a green wavelength, and light with a blue wavelength, respectively, and a composition unit which generates a composite image in which the red image, the green image, and the blue image are composited, the filter driving unit causes the wavelength variable filter to change the red wavelength every time when the red image is obtained, causes the wavelength variable filter to change the green wavelength every time when the green image is obtained, and causes the wavelength variable filter to change the blue wavelength every time when the blue image is obtained.

Abstract: A birefringent filter includes an EM directing element in optical alignment with a first surface of the birefringent plate. A polarimetric imager includes a birefringent filter including a birefringent plate formed of a birefringent material and an EM directing element in optical alignment with a first surface of the birefringent plate. The imager further includes a detector in optical alignment with a second surface of the birefringent plate. A projection system includes an EM directing element and a birefringent filter. The filter includes (1) a birefringent plate formed of a birefringent material and having a first surface in optical alignment with the emissions source, and (2) an EM directing element in optical alignment with a second surface of the birefringent plate.

Abstract: A touch and hover-sensitive sensor system is provided. The system may include a planar light guide that has a plurality of light sources located along a first edge of the light guide and a plurality of light sensors located along a second edge of the light guide orthogonal to the first edge. The light guide may include light-turning arrangements that are configured to redirect light passing through a first side of the light guide from/along orthogonal directions within the light guide. A controller may illuminate proper subsets of the light sources; light that is emitted from the first side and that encounters an object, e.g., a fingertip, may be reflected back into the first side and then redirected to the light sensors. Depending on the light sensors that detect the highest redirected reflected light intensity and the active light sources, the controller may determine the XY/XYZ location of the object.

Abstract: Temperature monitoring systems for data centers include a plurality of ceiling-mounted infrared sensor arrays. Each infrared sensor array includes a two-dimensional array of infrared emission sensors, and at least some of the infrared emission sensors have field of view patterns that project onto aisle faces of equipment racks that are mounted in rows in the data center. These systems may further include a controller that is remote from at least some of the infrared sensor arrays and that is in communications with the infrared sensor arrays, the controller configured to provide a two-dimensional thermal map of the aisle faces of the equipment racks based at least in part on temperature data received from the infrared sensor arrays.

Abstract: A peak junction temperature monitoring system for a semiconductor device includes a peak power dissipation sensor for sensing the peak power dissipation in the device. A temperature sensor senses an average temperature of the device, and a peak junction temperature computation circuit generates a signal representative of a peak junction temperature based on input from the peak power dissipation sensor and the temperature sensor.

Abstract: A system and method for measuring integrated circuit (IC) temperature. An integrated circuit (IC) includes a thermal sensor and data processing circuitry. The thermal sensor utilizes switched currents provided to a reference diode and a thermal diode. The ratios of the currents provided to each of these diodes may be chosen to provide a given delta value between the resulting sampled diode voltages. At a later time, a different ratio of currents may be provided to each of these diodes to provide a second given delta value between the resulting sampled diode voltages. A differential amplifier within the data processing circuitry may receive the analog sampled voltages and determine the delta values. Other components within the data processing circuitry may at least digitize and store one or both of the delta values. A difference between the digitized delta values may calculated and used to determine an IC temperature digitized code.

Abstract: An integrated circuit for implementing brushless DC motor control includes a substrate, a band gap temperature sensor, and a magnetic sensor. The substrate has a temperature output pin for connection to an external device and a magnetic sensor output pin for connection to the external device. The band gap temperature sensor is formed on the substrate and is configured to sense temperature and supply a temperature signal representative of the sensed temperature to the temperature output pin. The magnetic sensor is formed on the substrate and is configured to sense magnetic field variations and supply a sensor output signal representative thereof to the magnetic sensor output pin.

Abstract: A capacitive shear force sensor and a method for fabricating thereof are provided. The capacitive shear force sensor includes a first electric field shielding layer, a second electric field shielding layer, a driving electrode, a first sensing electrode, a second sensing electrode and a dielectric layer. The second electric field shielding layer is disposed under the first electric field shielding layer. The driving electrode is disposed between the first electric field shielding layer and the second electric field shielding layer. The first and the second sensing electrodes are disposed between the driving electrode and the second electric field shielding layer. The dielectric layer is disposed between the driving electrode and the first sensing electrode, and between the driving electrode and the second sensing electrode. The first sensing electrode and the driving electrode form a first capacitor. The second sensing electrode and the driving electrode form a second capacitor.

Abstract: A measuring element formed of a piezoelectric crystal of symmetry class 32 for measuring a force Fz, which acts perpendicularly on the plane x-y and causes a charge accumulation on surfaces of the plane x-y. Applications are measurements in which the transverse forces Fxy orthogonal to the force Fz, which generate an error signal at the measuring element, are expected on the measuring body. The measuring element includes at least four identical measuring element segments having straight edges. In the x-y plane the segments are arranged side by side and spaced apart by narrow gaps at the edges. Together, the segments form the shape of a disc or perforated disc for reducing the interference signals caused by the transverse forces Fxy on the measuring element. The crystal orientations in the x-y plane of all segments are oriented in the same direction or orthogonal to each other.

Abstract: This disclosure provides example methods, devices, and systems for a two dimensional material-based pressure sensor. A sensor device is provided that includes a substrate having a back electrode, a conductive layer in communication with the back electrode, and an insulating layer coupled to the conductive layer. The insulating layer includes one or more cavity regions. A sensor membrane comprising a two-dimensional material is disposed adjacent to the insulating layer and covering at least one of the one or more cavity regions. A first sensing electrode is in electrical communication with a first region of the sensor membrane, and a second sensing electrode is in communication with a second region of the sensor membrane. The sensor membrane is configured to respond to pressure changes exerted on the sensor device.

Abstract: The present disclosure is generally directed to a strain sensor, system and method of fabrication and use that includes an optical fiber, an optical signal generator that transmits an optical signal through the optical fiber, at least two photonic crystal slabs within the optical fiber separated by a first segment of optical fiber, a photo-detector that detects a reflected optical signal from the at least two photonic crystal slabs, and a processor that computes a mechanical strain over the first segment of optical fiber based on the reflected optical signal detected by the photo-detector.

Abstract: A well conductor strain monitoring system is provided which includes a plurality of fiber optic Bragg grating sensors written onto a single optical fiber. Cable strands are wound around the optical fiber to form an armored cable protecting the fiber. The armored cable is further integrated into a strength cable to provide robustness. This strength cable is then wrapped around the conductor under tension and anchored at both ends. The cable is wound at a prescribed angle so as to have multiple wraps around the conductor. Once tensioned, the cable remains stationary against the conductor and holds a position. The strain gages are spaced along the optical fiber, such that the strain gages are oriented 90 degrees apart when the cable is wrapped about the conductor. This orientation supports the estimation of bending in any direction.

Abstract: A sensor for measuring a torque angle. The sensor includes a magnet, a first stator, a second stator, a first collector, a second collector, and a magnetic sensing element. The first stator includes a first horizontal ring section located on a first plane, and a plurality of first teeth extended from the first horizontal ring section, the plurality of teeth located on a second plane. The second stator includes a second horizontal ring section located on the second plane, and a plurality of second teeth extended from the second horizontal ring section, the plurality of second teeth located on the second plane. The first collector is located proximate the first horizontal ring section and the second collector is located proximate the second horizontal ring section. The magnetic sensing element is magnetically coupled to the first collector the second collector.

Abstract: A draft sensing mechanism for a three point hitch includes a hitch frame attached to a frame of a vehicle. The hitch frame includes left and right link supports for coupling to left and right draft links and left and right draft bars. Each draft bar has a first portion attached to a corresponding one of the link supports, and a second portion positioned rearwardly and inwardly with respect to its first portion. Draft forces applied by the draft links to the link supports are transmitted to the second portions of the draft bars. A linkage unit sums the draft forces from the draft bars and includes a draft force transducer which generates a draft force signal in response to deflection of the draft bars.

Abstract: A magneto elastic sensor having a longitudinally extending shaft like member which is subject to a load, is provided. A magneto-elastically active region is directly or indirectly attached to or forming a part of the member in such a manner that the mechanic stress is transmitted to the active region. A magnetically polarized region of the active region becomes increasingly helically shaped as the application stress increases. A magnetic field sensor is arranged approximate the magneto-elastically active region for outputting a signal corresponding to a stress induced magnetic flux emanating from the magnetically polarized region. The magnetic sensor determines one out of a shear stress and a compressive stress. The magnetic sensor can include at least one direction sensitive magnetic field sensor, which is arranged having a predetermined and fixed spatial coordination with the member.

Abstract: Techniques are described herein that perform capacitance-based pressure sensing using pressure vessel(s). A pressure vessel is an object that has a cross section that defines a void. The void has a shape that is configured to change based on a change of pressure difference between a cavity pressure in a cavity in which at least a portion of the pressure vessel is suspended and a vessel pressure in the pressure vessel. The pressure vessel may be formed in the shape of an enclosed loop (e.g., along a path that is perpendicular to the cross section), resulting in a looped pressure vessel. For instance, an end of the pressure vessel may be connected to another end of the pressure vessel to form the enclosed loop.

Abstract: A pressure transmitter includes at least one impulse line for coupling a fluid pipe or tank to a pressure sensor that measures a process pressure of a process fluid, a temperature sensor measuring an ambient temperature, and a processor accessing baseline data for the process pressure and ambient temperature. The processor implements an automatic impulse line plugging diagnostic (ILPD) algorithm stored in memory. The processor runs the ILPD algorithm implementing utilizing process measurements including a process pressure from the pressure sensor and an ambient temperature from the temperature sensor, comparing a magnitude of the process pressure to a baseline pressure predicted from the baseline data corresponding to the ambient temperature, and uses results of the comparing to determine whether the impulse line is plugged. The comparing can involve comparing a process pressure change to a baseline pressure change predicted corresponding to an ambient temperature change.

Abstract: A marine probe with no moving parts for use in one or more tanks on a floating vessel. The marine probe has pressure transducers, temperature sensors, an inclinometer, and a probe processor electrically connected to the pressure transducers, temperature sensors, inclinometer and a probe data storage. The marine probe controls the temperature sensors and pressure transducers to produce bidirectional signals and calculate at least one physical property, performs adaptive measurement for dynamic and static synchronized and non-synchronized measurement, identifies temperature sensors and pressure transducers not covered by the fluid, measures multiple parameters of the fluid in the tank, calibrates pressure transducers in a vapor space of the tank when the pressure transducers are no longer in the fluid, and creates bidirectional signals using values from the inclinometer transferring the bidirectional signals to a client device via a network.

Abstract: A method of determining the thermal status of fuel in a fuel distribution system (10) includes pressurizing the distribution line (16) by activating a submersible pump (14) in an underground storage tank (12). Once the distribution line (16) is pressurized, the pump (14) is switched off, and the reverse flow rate out of the distribution line back into the tank (12) is monitored. The test is repeated after a period of time, and the reverse flow rates of the separate tests are compared to determine if the fuel in the distribution line (16) is in thermal stability with the surrounding environment based on flow rate changes between tests.

Abstract: Testing method for determining the distribution of a physical property along a wind turbine blade comprising the following steps: a) installing inside the blade a first optical fiber cable (13) along the leading and trailing edges and a second and third centered optical fiber cables (14, 15) at both sides of the blade (9), leaving in them a free end; b) applying one load to the blade (9) in a test bench (10) placed at the blade factory; c) obtaining the strain distribution produced by said load along the blade (9) using a suitable external equipment connected to said free end for measuring the strain using Rayleigh scattered light; d) determining the distribution of said physical property from said strain distribution; e) comparing the distribution of said physical property with its design distribution. The invention also comprises a method of installation of said cables.

Abstract: The invention relates to systems and methods for conducting an ultrasonic, nondestructive evaluation and inspection of a pipe using Lamb-type wave transducers to detect the presence of defects, flaws, discontinuities and the like. The transducers are positioned within the interior space of the pipe. Two transducers are positioned facing each other such that the ultrasonic beam emitted from each of the transducers is directed toward the other transducer and the portion of pipe to be inspected. The coverage of the transducers is verified and the results are processed using a combination of a cross correlation filter and a signal processing tool.

Abstract: Modern implementations of Kohler illuminated epi illumination microscope systems provide state of the art performance in various scientific fields such as clinical practice and biological research. While modern microscope performance has increased by use of high performance components, modern microscopes now degrade over time and exhibit inconstant performance. New systems comprise new illumination cubes that replace existing components and contain optical components that provide users with a diagnostic image of the epi illumination.

Abstract: A wavefront aberration measuring method forms a plurality of spot images by causing light, which is transmitted through a test optical system, to be incident on a lenslet array, and measures positions of the spot images. Based on the measured positions of the spot images, a wavefront aberration of the test optical system is calculated. When the positions of the spot images are measured, at least one lenslet forming the lenslet array is shielded from light, and the spot images are measured.

Abstract: A glow plug with a pressure sensor including a heater member (4) having a heating element (9) disposed therein and projecting from a forward end of a metallic shell (2), a center rod (3) having, at its forward end, a connection portion (3A) to which a rear end portion of the heating element (9) is connected, and an annular clearance CR formed between the metallic shell and the heater member in a region located on the forward end side of a junction portion (14A) of a deformable member (14) joined to the heater member. A portion of the heating element located on the forward end side relative to the forward end of the connection portion is at least partially located on the radially inner side of the clearance CR, and the forward end of the connection portion is located on the forward end side relative to the forward end of the junction portion.

Abstract: An inspection arrangement including an inspection element and a positioning tool for positioning the inspection element, the inspection element being attachable to the positioning tool by an attachment arrangement, and having a fixing element to present the inspection element in use, the fixing element including a plurality of radially extending resilient elements.

Abstract: A key testing device is for testing a key with a keycap. The key testing device includes a loading unit and a sleeve. The loading unit includes a block and a rod. The rod includes a first end and a second end. The first end is detachably connected the block. The sleeve is sleeved around the loading unit, and the sleeve includes a partition plate with a through hole. The second end can pass through the through hole. When the sleeve is above the key and the second end contacts the keycap, the gravity of the loading unit is turned from the partition plate to be applied on the keycap. Consequently, since the key testing device can make the pressure pressing on the key be accurate via a loading unit, the probability of misjudgment is decreased.

Abstract: A sample sectioning device includes a cutting mechanism, a sample holder, a drive system, and a surface orientation sensor. The sample holder is operable to hold a sample. The cutting mechanism is operable to cut sections from the sample. The drive system is coupled with the sample holder. The drive system is operable to drive movement between the sample held by the sample holder and the cutting mechanism. The surface orientation sensor is operable to sense an orientation of a surface of the sample held by the sample holder.

Abstract: A dispensing device includes: a syringe including a nozzle; a first pump configured to generate a pressure to discharge a liquid in the syringe through the nozzle; and a control unit configured to, when discharging the liquid in the syringe, discharge a part of the liquid in the syringe with the pressure generated by the first pump and then cause the liquid in the syringe to run out under its own weight.

Abstract: A system and method for sampling fluid from a top land piston crevice of a reciprocating piston engine. Access into the crevice is via a bore through the piston wall. A collector receives sampled fluid from the piston crevice, and has a housing, a valve, and a shuttle. The housing is an elongated hollow shell having a bore through its length, with the bore containing the valve and the shuttle. The valve opens to allow sampled fluid to pass along the bore toward the shuttle, when the valve is in an open position. The shuttle serves two purposes: it moves back and forth within the bore, thereby opening the valve, and also provides passages for storing sampled fluid within the housing.

Abstract: An apparatus comprising a dynamic vapor microchamber having a recessed area that accommodates a test material that includes chemical vapors emitted therefrom; an air inlet chamber that directs a flow of air towards the recessed area; at least one air flow wall adjacent to the recessed area and intersecting the flow of air, wherein the at least one air flow wall disrupts the air flow field as it flows towards the test material and produces a uniform and distributed laminar air flow field across a surface of the test material; a thermal controller under the recessed area that maintains a uniform temperature of the test material and the flow of air over the test material; and an air exhaust port that collects the vapors emitted from the test material. The apparatus may include a plurality of chambers arranged adjacent to one another.

Abstract: Disclosed is a fluid sample holder 20 for delivering or receiving a fluid sample to or from fluid processing equipment such as a chromatography column 5 (FIG. 1). The sample holder 20 comprises: a sample fluid reservoir 15; a sample fluid port 23; a buffer fluid port 21; and a sliding seal 25 within the reservoir 15 having an external area 258 (FIG. 3) which generally sealing engages with a wall of the reservoir 15 thereby defining first 22 and second 24 fluid separated regions in the reservoir 15. The sliding seal 25 is displaceable within the reservoir 15 by means of a working fluid pressure differential between the first 22 and second 24 regions to thereby change the respective volumes of the first and second regions, and the external area at least is formed from a plastics molded material which elastically flexes when subjected to a pressure differential greater than the working fluid pressure differential and when so flexed allows fluid flow between the first and second regions.

Abstract: Methods and systems for setting up a wafer inspection process using programmed defects are provided. One method includes altering a design for a dummy area of a production chip such that printing of the dummy area on a wafer results in printing of a variety of defects. Two or more of the defects have different types, one or more different characteristics, different contexts in the design, or a combination thereof. The dummy area printed on a wafer may then be scanned with two or more optical modes of an inspection system to determine which of the optical mode(s) are better for defect detection. Additional areas of the wafer may then be scanned with the optical mode(s) that are better for defect detection to determine noise information. The noise information may then be used to select one or more of the optical modes for use in a wafer inspection process.

Abstract: The present invention provides labeling and capture reagents that comprise phosphorothioate oligonucleotides (PS-ODN). The PS-ODN bind to all white blood cells (leukocytes) in an indiscriminative fashion and enable the labeling, capture, or concentration of leukocytes in a manner that preserves the antigenic integrity of the cells. Methods for the use of phosphorothioate oligonucleotides are provided.

Abstract: Systems and methods for determining the stiffness of a structure based on vertical track modulus. Vertical deflection data is collected along a particular section of a structure, such as a railroad track. A first set of vertical modulus is determined, based in part, on the collected vertical deflection data. At a second time, vertical deflection data is again collected along the particular section of the structure to be used in determining a second set of vertical modulus. At least the first and second sets of vertical modulus are analyzed to determine a mathematical algorithm that facilitates developing a trend in the vertical track modulus of the structure and evaluating the stiffness of the structure.

Abstract: An instrument (10) for gravimetric moisture determination has a housing (20) and a weighing device (40) arranged inside. The weighing device has a load receiver (60) onto which a sample (62) is placed. The housing has stationary (21) and movable (22) housing parts, the movable housing part alternately occupying a measuring and a loading position. wherein in the loading position the stationary housing part and the movable housing part are spaced apart from each other in such a way that a the sample can be put on the load receiver, wherein in the measuring position the respective housing parts form an essentially enclosed testing compartment (30) surrounding the load receiver (60), and wherein a sample-heating means (70) is arranged in the testing compartment to heat the sample on the load receiver. The instrument also has an electrical contact means (85) with first (86) and second parts (87).

Abstract: The present disclosure relates to an improved device and methods for adapting to a laser diffraction apparatus used for measuring particle size distribution and density of the plume of a powder composition emitted from a dry powder inhaler.

Abstract: Devices and methods are described for measuring formed blood component sedimentation rate. Some of the methods may use (1) centrifugal techniques for separating red blood cells from plasma and (2) video and/or still imaging capability. Both may be used alone or in combination to accelerate formed blood component sedimentation and to measure its rate. In one example, the method may advantageously enable rapid measurement of sedimentation rate using small blood sample volumes. Automated image analysis can be used to determine both sedimentation rate and hematocrit. Automated techniques may be used to compensate for effects of hematocrit on uncorrected sedimentation rate data.

Abstract: Adhesion testing systems, methods of fabrication, and methods of testing are disclosed. Test systems include test coupons with non-metallic test adherends. Test coupons are configured to test bonds to the non-metallic test adherends under peeling stress and/or shearing stress. Test methods are simplified and rapid as compared to standard adhesion tests and include methods of accelerated environmental testing. Test methods also are adapted for qualitative and quantitative measurement of bond performance.

Abstract: A lid for a multiwell plates which allows improved light scattering measurement of liquid samples within the wells of a multiwell plate, and which at the same time mitigates evaporation from said samples is disclosed. A surface element protrudes from the bottom of the lid into the fluid in a well. The protruding element may be hollow or solid, and the beam of light, directed into the element may act to capture or direct the beam while preventing backscatter from reaching the light scattering detector or detectors. The protruding element may thus direct the beam from the well without the beam having to pass through a fluid/air interface. The angle and shape of the lid surfaces may be optimized to minimize or eliminate back-reflection. Light absorbing and/or light blocking colorization may also be employed to minimize or eliminate back reflection. Evaporation is controlled by physically capping the well with the lid, either sealing against the face at the top of the well or the inside surface of the well.

Abstract: The invention relates to a device (1) for photometrically or spectrometrically examining a liquid sample (2), comprising a cuvette (3, 3?), which can be arranged in the beam path between a radiation source (4) and a radiation detector (5) and which accommodates the liquid sample (2) to be examined, a radiolucent inlet section (6) for coupling in radiation (20) produced by means of the radiation source (4), which radiation interacts with a sample volume (8), and a radiolucent outlet section (7) for coupling out radiation (20?) intended to be detected in the radiation detector (5), wherein the inlet section (6) has an inlet surface (11) convexly curved in such a way and/or the outlet section (7) has an outlet surface (12, 12?) spherically convexly curved in such a way that the incident radiation (20, 20?) is focused in the manner of a converging lens.