Class / Patent application number | Description | Number of patent applications / Date published |
356433000 | By comparison | 56 |
20080285036 | Determination of Light Absorption Pathlength in a Vertical-Beam Photometer - Disclosed are photometric methods and devices for determining optical pathlength of liquid samples containing analytes dissolved or suspended in a solvent. The methods and devices rely on determining a relationship between the light absorption properties of the solvent and the optical pathlength of liquid samples containing the solvent. This relationship is used to establish the optical pathlength for samples containing an unknown concentration of analyte but having similar solvent composition. Further disclosed are methods and devices for determining the concentration of analyte in such samples where both the optical pathlength and the concentration of analyte are unknown. The methods and devices rely on separately determining, at different wavelengths of light, light absorption by the solvent and light absorption by the analyte. Light absorption by the analyte, together with the optical pathlength so determined, is used to calculate the concentration of the analyte. Devices for carrying out the methods particularly advantageously include vertical-beam photometers containing samples disposed within the wells of multi-assay plates, wherein the photometer is able to monitor light absorption of each sample at multiple wavelengths, including in the visible or UV-visible region of the spectrum, as well as in the near-infrared region of the electromagnetic spectrum Novel photometer devices are described which automatically determine the concentration of analytes in such multi-assay plates directly without employing a standard curve. | 11-20-2008 |
20080291451 | Composite Sheet Material Selection Method for Use in Ultra-Fast Laser Patterning - The present invention is a method of selecting composite sheet materials for use in ultra-fast laser patterning of layers of organic thin film material such as OLEDs. The material is selected to accomplish patterning of upper layers without damaging underlying layers by using an ultra-fast laser programmed with the appropriate laser processing parameters. These parameters are derived by examining each layer's absorption spectra, thermal, and chemical characteristics. The method of the present invention includes measuring each layer's absorption spectrum, examining each layer's thermal and chemical characteristics, determining if the layer is ablatable, determining the laser setup, patterning the layer through laser ablation processing, and determining if more layers need to be ablated. Further, the method includes a sub-method of selecting an alternate material if a layer's material characteristics are not favorable for ablation without damaging underlying layers. | 11-27-2008 |
20090002710 | Device and method for transmission image sensing - A device for transmission image sensing for sensing an aerial image in a lithographic exposure apparatus comprises a projection system arranged to form, at an image side of the projection system, an aerial image of an object mark. The device further comprises a detector comprising a slit pattern having features corresponding to at least a part of the aerial image. The slit pattern is arranged to be exposed to the aerial image. The detector is further being arranged to detect detection radiation transmitted by the slit pattern; wherein d<0.85·NA/λ, where d represents the dimension of the smallest feature of the slit pattern, λ represents the intended wavelength of the detection radiation, and NA, which is larger than 1, represents the numerical aperture of the image side. | 01-01-2009 |
20090109439 | MEASUREMENT APPARATUS, EXPOSURE APPARATUS, AND DEVICE MANUFACTURING METHOD - A measurement apparatus which measures a transmittance distribution of an optical system, comprises a light source, a first spherical mirror which forms reference light by reflecting light which is emitted by the light source and is not transmitted through the optical system, a second spherical mirror which forms test light by reflecting light which is emitted by the light source and is transmitted through the optical system, a measurement unit which measures intensity distributions of the reference light and the test light, a unit which calculates reflectance distributions of the first spherical mirror and the second spherical mirror, and an arithmetic unit which calculates a transmittance distribution on a pupil plane of the optical system, on the basis of the intensity distributions of the reference light and the test light, and the reflectance distributions of the first spherical mirror and the second spherical mirror. | 04-30-2009 |
20090147260 | Method and Apparatus for Determining Quality of Fruit and Vegetable Products - The invention relates to a method and an apparatus for determining the quality of fruit and vegetable products. The method comprises the following steps: | 06-11-2009 |
20090257061 | Optical Analyzer - An optical analyzer comprises a plurality of independent analysis zones ( | 10-15-2009 |
20090262353 | METHODS AND APPARATUS FOR MEASURING SUBSTRATE EDGE THICKNESS DURING POLISHING - Systems, methods and apparatus are provided for determining a substrate polishing endpoint. The invention includes a light source adapted to transmit light to an edge of a substrate; one or more detectors adapted to detect an arrangement of light reflected from the substrate edge; and a controller adapted to determine a polishing endpoint for the substrate edge based on the arrangement of reflected light. Numerous other aspects are provided. | 10-22-2009 |
20090290161 | METHOD AND DEVICE FOR EXPRESS ANALYSIS OF ACETONE TRACES IN GASES - A device, system, and method for measuring acetone levels exhaled from a patient and correlating the measured level to a blood glucose concentration. | 11-26-2009 |
20090310138 | Method and device for monitoring the condition of a medium - The invention relates to a method for monitoring the condition of a medium, based on the transmission/emission of light in a channel, in which
| 12-17-2009 |
20100014084 | IMAGING OF A TURBID MEDIUM - An imaging system for imaging of a turbid medium comprises a radiation source to illuminate an object to be imaged. A detection system detects radiation from the object and includes a separation module which distinguishes radiation components having respective wavelength ranges. An analysis module forms a comparison of respective radiation components. An image dataset is reconstructed on the basis of the comparison of respective radiation components. The comparison e.g. involves (i) the ratio of the levels of the high-wavelength radiation component to the low-wavelength radiation component, or (ii) i the relative difference of the levels of high-wavelength radiation component to the detected radiation, or (iiii) the relative difference of the levels of the high-wavelength radiation component to the low-wavelength radiation component. Good contrast in the reconstructed image is achieved when the comparison is relatively more beneficial to one of the wavelength ranges to the other ones over the relevant range of concentration of contrast agent. Accordingly, in the comparison competition among wavelength ranges is such that the intensity (or photon count) of that one wavelength range dominates so that any contrast in that one wavelength range does not suffer from contrast inversion. | 01-21-2010 |
20100045992 | METHOD OF DETERMINING THE PRETILT ANGLE IN A LIQUID-CRYSTAL CELL - To determine the tilt angle in a twisted nematic liquid-crystal cell, the transmission of the cell is calculated as a function of the angle of incidence of a light beam of given wavelength λ using apparent values of the thickness of the cell cavity, of the extraordinary index and of the twist angle, in order to obtain a plurality of simulation curves, one per given pretilt angle, the transmission curve is measured as a function of the angle of incidence of the cell along the axis passing through the top and bottom positions of the cell, for the light beam of wavelength λ, using a contrast meter, and the coincidence between this measurement curve and a curve from among the plurality of simulation curves gives the pretilt angle of this cell. | 02-25-2010 |
20100195105 | IMPROVED STABILITY FOR OPTICAL COMPUTING SYSTEM - The present subject matter relates to methods of high-speed analysis of product samples. Light is directed to a portion of a product under analysis and reflected from or transmitted through the product toward an optical detector. Signals for the detector are compared with reference signals based on a portion of the illuminating light passing through a reference element to determine characteristics of the product under analysis. Temperature within the analysis system is monitored and the output signals of the optical detectors are compensated or corrections are made within the analysis calculations to compensate or correct for the system temperature. The products under analysis may be stationary, moved by an inspection point by conveyor or other means, or may be contained within a container, the container including a window portion through which the product illuminating light may pass. | 08-05-2010 |
20100315643 | METHOD FOR INSPECTING NANO-IMPRINT TEMPLATE - A method for inspecting a nano-imprint template, includes irradiating light onto a template for nano-imprinting from a back surface side of the template, the template having a front surface where a pattern is formed, detecting near-field light which is generated near the front surface of the template by the irradiation of the light, and performing an inspection of the template on the basis of the detected near-field light. | 12-16-2010 |
20110007318 | METHOD FOR EVALUATING WHITE COLOR SHIELDING DEGREE, METHOD FOR MANUFACTURING WHITE INK, SUPPORT APPARATUS FOR MANUFACTURING WHITE INK, AND METHOD FOR MANUFACTURING WHITE COLOR PRINTED MATERIAL - A method for obtaining and evaluating a white color shielding degree of a white color printed material includes the steps of: measuring an L* value of the white color printed material; obtaining an integrated value of transmittance of the white color printed material in a visible light region; and obtaining the white color shielding degree from the L* value and the integrated value. | 01-13-2011 |
20110019193 | METHOD AND APPARATUS FOR MEASURING DENSITY - Disclosed are method and apparatus for measuring density, that can simultaneously measure gaseous substance density and solid particulate material density and further can simultaneously measure the densities of a plurality of materials such as black smoke, white smoke, and water vapor in the solid particulate material in a simple and reliable manner. The method for measuring density comprises applying a laser beam having an absorption wavelength inherent in a gaseous material contained in an object to be measured, to the object to detect a light transmittance and a light absorption amount and detecting the density of gaseous materials in the object and the density of solid particulate materials in the object. The relationship between the density of a plurality of kinds of solid particulate materials including black smoke and white smoke and a laser beam attenuation level in each absorption wavelength is preset. Laser beams having a plurality of respective absorption wavelengths are applied to the gaseous substance to be measured. The attenuation levels of the applied laser beams having the plurality of absorption wavelengths are measured. The measured attenuation levels are compared with the attenuation levels calculated based on the present relationship to calculate the densities of the plurality of kinds of solid particulate materials. | 01-27-2011 |
20110176134 | Method and Apparatus for Null-Measurement of Optical Absorption Using Pulse Width Modulation - Presented is an apparatus for measurement of optical absorption including a calibration method. In addition to providing stand alone measurement of optical absorption, various embodiments of the device also provide for easy integration with medical, clinical, and in-field spectroscopic needs. | 07-21-2011 |
20110176135 | METHOD FOR DETECTION OF ANALYTE IN MICROARRAY OF SAMPLES AND APPARATUS FOR PERFORMING SUCH METHOD - A method for detecting a target analyte associated with nano-sized gold- and/or silver-containing detecting labels in a microarray of samples. The labels indicate presence or absence of a target analyte in a sample. The method includes sequentially illuminating at least two sample groups with at least two different monochromatic light beams. The sample groups include (a) a first sample group containing at least one sample potentially containing the target analyte, and (b) a second sample group serving as positive control or negative control. The method also includes (ii) detecting intensity of light reflected, absorbed, or emitted from each of the sample groups when illuminated with each of the monochromatic light beams. (iii) recording groups of values associated with the intensity reflected, absorbed, or emitted light. (iv) comparing the groups of values associated with the sample groups; and (v) determining the presence of the target analyte based on the comparison. | 07-21-2011 |
20110216322 | PARTICLE MONITOR SYSTEM AND SUBSTRATE PROCESSING APPARATUS - A particle monitor system that can detect fine particles in a substrate processing apparatus. The substrate processing apparatus has a chamber in which a substrate is housed and subjected to processing, a dry pump that exhausts gas out of the chamber, and a bypass line that communicates the chamber and the dry pump together. The particle monitor system has a laser light oscillator that irradiates laser light toward a space in which the particles may be present, and a laser power measurement device that is disposed on an optical path of the laser light having passed through the space and measures the energy of the laser light. | 09-08-2011 |
20110242538 | OPTICAL ARRANGMENT FOR DETERMINING THE CONCENTRATION OF A SUBSTANCE IN A FLUID - An arrangement for determining concentration of substances in a fluid comprising a light source for generating primary light pulses within a wavelength interval, a light pulse splitter adapted to split up the primary light pulses into a predetermined number of secondary light pulses to be transmitted through the fluid, the secondary light pulses being separated in time as well as wavelength to be differently absorbed upon passage of the fluid depending on the concentration of the substances, a detector for detecting intensity of the differently absorbed secondary light pulses, and a comparator for comparing the intensities of the differently absorbed secondary light pulses with different reference intensities corresponding to different substances to thereby determine the concentration of the substances in the fluid. | 10-06-2011 |
20110299084 | VALIDATION AND CORRECTION OF SPECTROMETER PERFORMANCE USING A VALIDATION CELL - Light intensity data quantifying intensity of light generated by a light source and received at a detector during a validation mode of an absorption spectrometer can be compared with a stored data set representing at least one previous measurement in a validation mode of an analytical system. The validation mode can include causing the light to pass at least once through each of a zero gas and a reference gas contained within a validation cell and including a known amount of a target analyte. The zero gas can have at least one of known and negligible first light absorbance characteristics within a range of wavelengths produced by the light source. A validation failure can be determined to have occurred if the first light intensity data and the stored data set are out of agreement by more than a predefined threshold amount. Related systems, methods, and articles of manufacture are also described. | 12-08-2011 |
20120262717 | SPATIAL FREQUENCY OPTICAL MEASUREMENT INSTRUMENT AND METHOD - A spatial frequency optical measurement instrument is provided according to the invention. The instrument includes a spatial frequency mask positioned in a light path and configured to encode light with spatial frequency information, a light receiver positioned to receive the light encoded with the spatial frequency information, wherein the light encoded with the spatial frequency information has been interacted with a sample material, and a processing system coupled to the light receiver and configured to determine a change in the spatial frequency information due to the interaction of the light with the sample material. | 10-18-2012 |
20130003067 | Optical Device for Detection of an Agent - In certain embodiments, a system for detecting an agent includes a resonator device configured to receive an agent. The resonator device is additionally configured to transmit light received from a light source. The transmitted light has a known characteristic in the absence of the received agent and an altered characteristic in the presence of the received agent. The system further include a lens positioned between the resonator device and a detector array. The lens is configured to focus the transmitted light onto one or more detectors of the detector array, the one or more detectors of the detector array operable to generate a signal corresponding to the transmitted light. The system further includes a processing system operable to determine whether the agent is present based on the signal generated by the one or more detectors of the detector array. | 01-03-2013 |
20130176570 | System, Apparatus, and Method for Tracking Atmospheric Differential Absorption - A system, apparatus, and method is provided to remotely measure atmospheric species using a long path differential absorption technique. In one embodiment, a source and a detector are collocated and at the far end of the absorption path a retro-reflector is mounted on a vehicle. The source generates an outgoing laser beam that is transmitted to the retro-reflector and reflected towards the detector as an incoming laser beam, and the detector receives the incoming laser beam that was reflected by the retro-reflector. | 07-11-2013 |
20150308951 | SYSTEM FOR EVALUATING DISPLAYING QUALITY OF TRANSPARENT DISPLAY AND METHOD THEREOF - A system for evaluating a quality of a transparent display, the system including: a background including any one of a full white pattern, a full black pattern, and a circle white pattern; a light detector positioned a first distance away from the background to measure luminance of the full white pattern, the full black pattern and the circle white pattern; and a circle transparent pattern displayed on the transparent display by passing light from at least one of the full white pattern, the full black pattern and the circle white pattern, further the transparent display is positioned between the background and the light detector and at a second distance away from the light detector, further a purity of the transparent display is calculated based on luminance of the full white pattern, the full black pattern, and the circle white pattern as measured by the light detector through the transparent display. | 10-29-2015 |
20160069787 | METHOD FOR AUTOMATIC PERFORMANCE DIAGNOSIS AND CALIBRATION OF A PHOTOMETRIC PARTICLE ANALYZER - A method is provided for diagnosing the operation of a photometric particle analyzer. The method may determine when the operation is degraded from normal operating conditions, automatically, and the result displayed locally as well as being transmitted to a remote observer. The present invention may be used by optical photometric particle analyzers, or by analyzers that measure other properties of particles collected on filters. | 03-10-2016 |
356434000 | Photoelectric (e.g., sequential viewing) | 31 |
20080259339 | SYSTEM AND METHOD FOR ACQUIRING AND EVALUATING OPTICAL SIGNALS - A system and method for measuring and evaluating optical signals for detecting an analyte in an analysis liquid. | 10-23-2008 |
20090021740 | OPTICAL SENSOR AND METHOD FOR MEASURING BLOOD GAS - The present invention discloses an optical sensor for measuring blood gas, used to measure gas concentration in a liquid, comprising: an indicator solution; a first conduit for filling with the indicator solution wherein the first conduit passes through the liquid and the gas in the liquid can diffuse into the first conduit to react with the indicator solution so as to change the color of the indicator solution; a second conduit for receiving the reacted indicator solution in the first conduit; and a light emitter and a photodetector provided in opposition to each other at the two sides of the second conduit wherein the light emitter emits light towards the second conduit and the photodetector receives the light passing through the second conduit and the reacted indicator solution and thereby outputs a sensing signal depending on the received light intensity. | 01-22-2009 |
20090168064 | METHOD AND APPARATUS FOR MEASURING THE OPTICAL ABSORPTION OF SAMPLES - In a method and apparatus for measuring the optical absorption of samples having a light source ( | 07-02-2009 |
20090201506 | MOLECULARITY MEASUREMENT INSTRUMENT AND MOLECULARITY MEASUREMENT METHOD - There is provided a molecularity measurement instrument capable of working out the number of molecules in a sample by comparing a measured value of a light quantity with a theoretical light quantity per a single molecule, and a molecularity measurement method using the same. The molecularity of the sample is quantitatively estimated on the basis of a light quantity having correlation with the molecularity. The molecularity measurement method comprises the step of working out a theoretical light quantity per a single molecule, the step of measuring a light quantity of the sample by use of an image detector, and the step of working out the molecularity of the sample on the basis of a ratio of the light quantity of the sample to the theoretical light quantity as worked out. | 08-13-2009 |
20100277736 | METHOD AND ARRANGEMENT FOR RECOGNITION OF OPTICAL RADIATION - The invention relates to a method and an arrangement ( | 11-04-2010 |
20120162651 | APPARATUS AND METHOD FOR MEASURING TRANSMITTANCE - A device to measure the amount of light able to transmit through a liquid. The device uses a light detector and light source mounted to a support mechanism such that the detector and light source define a path of light emitted by the light source and detected by the detector. The device uses a structure designed to surround a liquid to be tested such that the structure allows light to transmit through the structure and the liquid. An actuator engenders relative motion between the support mechanism and the structure such that at certain times the light propagating between the light source and the detector passes substantially through the structure and the liquid to be tested such that the amount of light able to transmit through the liquid is detected by the detector, and at other times the light propagates directly from the light source to the detector without passing through the structure or the liquid such that the amount of light emitted from the light source is directly detected by the detector. A microprocessor then uses the two sets of detector readings to allow the transmittance measurement of the liquid to be compensated for errors introduced by drift and fluctuations in the amount of light emitted by the light source and also by drift in the light detector and electronics. Such fluctuation and drift is very common in light sources and is due primarily to changes in temperature and imperfections in the light source itself and the power supply. | 06-28-2012 |
20120320378 | Optical Density Sensor Calibration and Self Fixing - A method of calibrating an optical density sensor comprising calculating a first pigment solid density value of an ink solution using a current first electrical output signal value from a photodetector, a current second electrical output signal value from a photodetector, and a current lens gap value, calculating a second pigment solid density value of the ink solution using a previously measured first electrical output signal value, a previously measured second electrical output signal value, and a previously measured lens gap value, comparing the current first electrical output signal value, the current second electrical output signal value, and the current lens gap value with the previously measured first electrical output signal value, the previously measure second electrical output signal value, and the previously measured lens gap value, and comparing the first pigment solid density value with the second pigment solid density value. | 12-20-2012 |
20130010298 | SYSTEM AND METHOD OF CLOSED CARTON INSPECTION - An inspection of a closed carton for acceptable content fill may be provided by a transmitting unit and a receiving unit measuring intensity values of electromagnetic waves directed at the carton. A comparison of a reference intensity value to a measured intensity value may indicate whether the closed carton is filled correctly identifying missing contents such as the main product or a missing leaflet that may contain product instructions. | 01-10-2013 |
20130250302 | Optoelectronic sensor for testing transmissivity of a front screen - An optoelectronic sensor ( | 09-26-2013 |
20130278934 | METHOD AND SYSTEM FOR INSPECTION OF IMAGE STICKING - A method for image sticking inspection of a light-transmissive device is disclosed. The light-transmissive device is responsive to application of a voltage to electrodes thereof to adjust light transmission characteristics. The method includes: providing light for passage through the light-transmissive device; applying a first alternating current (AC) voltage to the electrodes; applying a direct current voltage to the electrodes; and applying a second AC voltage to the electrodes, and measuring intensity of the light passing through the light-transmissive device during application of the second AC voltage. | 10-24-2013 |
20150085286 | DOSE MEASUREMENT SYSTEM AND METHOD - Embodiments described herein generally relate to devices, systems and methods for measuring the dose remaining in a drug delivery device that is used for delivering a dose to a patient. In some embodiments, a dose measurement system for measuring the liquid volume in a container includes a plurality of light sources which are disposed and configured to emit electromagnetic radiation toward the container. A plurality of sensors are located in the apparatus that are optically coupleable to the plurality of light sources and are disposed and configured to detect the electromagnetic radiation emitted by at least a portion of the light sources. The apparatus also includes a processing unit configured to receive data representing the portion of the detected electromagnetic radiation from each of the plurality of sensors. The processing unit is further operable to convert the received data into a signature representative of the electromagnetic radiation detected by the plurality of sensors. | 03-26-2015 |
20150085287 | ATTACHMENT FOR PLACEMENT ONTO AN OPTICAL SENSOR AND METHOD OF OPERATING AN OPTICAL SENSOR - The invention relates to an attachment for placement onto an optical sensor having a housing with an inlet opening for the entry of detection light into the attachment, a test light receiver for receiving light incident at the test light receiver and for a power measurement of the light incident at the test light receiver as test light and having a signal outputting device for outputting an output signal correlated to the test light power. The invention moreover relates to a combination of an optical sensor and such an attachment and to a method for operating an optical sensor which method can be carried out with such an attachment. | 03-26-2015 |
20150300947 | SYSTEM AND METHOD FOR DETERMINING THE CONCENTRATION OF TETRAHYDROCANNABINOL - The present describes a system and method for determining the concentration of tetrahydrocannabinol (THC) including a tray comprising a first analyte including an infusion of a solvent and cannabis, a light emitting element configured to illuminate the first analyte, a light receiving element configured to receive a first light transmitted through the first analyte, and a control circuit configured to calculate a concentration of tetrahydrocannabinol in the first analyte based at least in part on the first light. | 10-22-2015 |
20150338337 | DIFFERENTIAL INFRA RED NANOSCOPY SYSTEM AND METHOD - The invention provides a method and system to record the absorption of a sample, said method comprising the steps of providing first and second pulsed beam of light on said sample using one or more light beams, said first and second pulsed beam having different spatial definition; measuring the difference in intensity transmitted through and/or reflected by a sample; and generating an image by scanning the sample while making such measurements. The system and method of the invention can work down to resolution of several 100 of nm, affording thus a large improvement in comparison to synchrotron IR imaging that is the closest technique existing today. The advantage versus scanning probe approach is the absence of physical probe, thus suppressing confinement to surface information and removing uncertainty regarding the working behaviour of the probe. | 11-26-2015 |
20160153896 | LASER GAS ANALYZER | 06-02-2016 |
20160202181 | OPTICAL COMPUTING DEVICE AND METHOD FOR COMPENSATING LIGHT FLUCTUATIONS | 07-14-2016 |
20180024056 | WEARABLE DEVICE AND CHARGER, AND METHOD FOR ESTIMATING ABSORBANCE OF WEARABLE DEVICE | 01-25-2018 |
356435000 | With plural detectors (e.g., simultaneous viewing) | 14 |
20080309940 | Method of, System For, and Medical Image Acquisition System For Imaging an Interior of a Turbid Medium Taking Into Account the Geometry of the Turbid Medium - The invention relates to a method of imaging an interior of a turbid medium ( | 12-18-2008 |
20080309941 | Method of, System for, and Medical Image Acquisition System for Imaging an Interior of a Turbid Medium Taking Into Account the Geometry of the Turbid Medium - The invention relates to a method of imaging an interior of a turbid medium ( | 12-18-2008 |
20090116016 | Source adjusted colorimeter - A low cost calorimeter wherein a linear taper potentiometer proportions the current through sample and reference solid state light sources in a near logarithmic fashion. The position of the potentiometer slider is proportional to the absorbance of the solution in the sample path when the light intensity of the two paths is balanced. The light intensity may be balanced visually or with a simple electronic comparator. | 05-07-2009 |
20100128271 | TRANSMISSION OPTICAL SYSTEM - A transmission optical system includes a plurality of imaging optical systems arranged apart from each other, forming successively the image of an object to be projected so a real image of either a two-dimensional or a three-dimensional object can be observed at the opposite end, with its convexity features either identical to or reversed from the projected object, depending on whether the total number of the imaging optical systems is even or odd. | 05-27-2010 |
20110194114 | LIGHT ABSORBANCE MEASUREMENT METHOD AND APPARATUS - Methods and apparatuses for measuring a light absorbance are provided. The method measures light absorbance of at least one detection chamber of a microfluidic device, including the detection chamber and at least one reference chamber. The detection chamber may accommodate a test subject. The method includes detecting a plurality of reference transmitted light intensities for the at least one reference chamber and estimating a value between the plurality of reference transmitted light intensities through nonlinear approximation. The estimated value is then applied to light absorbance measurement of the detection chamber to reduce a light absorbance error of the detection chamber. | 08-11-2011 |
20110235040 | Outboard Optical Cable Sensor System and Method - A plurality of optical sensors are mounted to a housing made of optically conductive material. The housing seals the optical sensors from a water-filled tube which extends through said housing. The optically conductive material provides optical coupling with the water-filled cable tube whereby a plurality of light beams are directed through the housing and the water-filled tube in a predetermined pattern, which provides certainty of the absence or presence of a cable within the water-filled cable tube for a minimum cable diameter regardless of the orientation of the cable within the water-filled tube. | 09-29-2011 |
20120224178 | Vaccine Testing System - Several methods and apparatuses for determining whether a vaccine specimen has previously frozen. One method includes providing a known value correlating to the settling of vaccine known to have previously frozen, and, upon agitation of the specimen, directing light substantially through the specimen as the specimen settles. The amount of light that passes through the specimen correlates to the settling of the specimen and is compared to the known value to determine whether the specimen has previously frozen. Another method includes providing light of a predetermined wavelength and directing the light through the specimen. The intensity of the light transmitted through the specimen is compared to the intensity of light of the predetermined wavelength having passed through an amount of vaccine known to have previously frozen. Based on this comparison, a determination is made whether the specimen has previously frozen. | 09-06-2012 |
20130208280 | Non-Dispersive Gas Analyzer - A non-dispersive gas analyzer comprising a light source, having light that shines through a measuring cuvette containing a measuring gas to be analyzed onto a non selective detector having a downstream evaluation unit, wherein a multi-component gas analysis is made possible using in a simple manner in that the light source is a flash discharge lamp and the evaluation unit is configured to evaluate the temporal pulse curves of the flash shining onto the detector such that it is possible to take advantage of the property of flash discharge lamps in that the emitted wavelength components vary over the duration of the flash. | 08-15-2013 |
20130235379 | ATTACHMENT FOR PLACEMENT ONTO AN OPTICAL SENSOR AND METHOD OF OPERATING AN OPTICAL SENSOR - The invention relates to an attachment for placement onto an optical sensor having a housing with an inlet opening for the entry of detection light into the attachment, a test light receiver for receiving light incident at the test light receiver and for a power measurement of the light incident at the test light receiver as test light and having a signal outputting device for outputting an output signal correlated to the test light power. The invention moreover relates to a combination of an optical sensor and such an attachment and to a method for operating an optical sensor which method can be carried out with such an attachment. | 09-12-2013 |
20140085638 | SPATIALLY RESOLVED IMAGING OF OPTO-ELECTRICAL PROPERTY VARIATIONS - Systems and methods for opto electric properties are provided. A light source illuminates a sample. A reference detector senses light from the light source. A sample detector receives light from the sample. A positioning fixture allows for relative positioning of the sample or the light source with respect to each other. An electrical signal device measures the electrical properties of the sample. The reference detector, sample detector and electrical signal device provide information that may be processed to determine opto-electric properties of the same. | 03-27-2014 |
20140104616 | FLUX MONITOR - A flux monitor system includes a light source and a sensor. | 04-17-2014 |
20160033395 | OPTICAL METHOD AND SYSTEM FOR MEASURING AN ENVIRONMENTAL PARAMETER - An optical system for sensing an environmental parameter, comprising: a pulse generator for generating a first pulse having a first wavelength and a second pulse having a second wavelength; a pulse splitter for splitting each one of the first and second pulse into a sensing pulse and a reference pulse; a sensing arm for receiving the sensing pulses therefrom and comprising a spectro-ratiometric sensor; a reference arm for receiving the reference pulses; a time delay line for delaying a relative propagation of the sensing pulses and the reference pulses; a light detector for measuring an optical energy of the sensing pulse and the reference pulse, for the first and second wavelengths; and at least one optical link for optically connecting the pulse generator to the pulse splitter, and the sensing and reference arms to the light detector. | 02-04-2016 |
20160109361 | LASER SPECTROSCOPIC SENSOR USING ORBITAL ANGULAR MOMENTUM - A method and system for optical angular momentum (OAM) spectroscopy includes generating a beam of light having a single OAM mode. A first spectrum of the beam of light is detected and the beam of light is passed through a gas to attenuate the beam of light in accordance with a presence and concentration of a respective gas. A second spectrum the beam of light is coherently detected and a difference between the first and second spectrum for the beam of light is analyzed to determine the presence and concentration of the respective gas. | 04-21-2016 |
20160153897 | CHLORINE DIOXIDE GAS CONCENTRATION MEASURING APPARATUS | 06-02-2016 |