Class / Patent application number | Description | Number of patent applications / Date published |
356343000 | Using plural photocells | 31 |
20080285032 | LIGHT SCATTERING DETECTOR - The light scattering detector according to the present invention aims at simultaneously measuring the molecular weight and size of particles having varieties of diameters. This detector facilitates the measurement operation and knowing how particles associate or dissociate as time progresses. In this detector, the emitted light (static light scattering measurement light) having a first wavelength by the first light source and the emitted light (dynamic light scattering measurement light) having a second wavelength which is different from the first wavelength by the second light source are combined by a beam splitter | 11-20-2008 |
20090122315 | EVAPORATIVE LIGHT SCATTERING DEVICE AND METHODS OF USE THEREOF - Apparatus for the detection of analytes in a fluid, for example the eluant from a liquid chromatography is described. Solvent is evaporated from the eluant to produce a stream of particles when analyte is present in the fluid. The resultant stream of particles is passed through one or more beams of radiation, typically visible light, and radiation scattered by the particles is detected at least at a first angle to a beam of radiation and at a second, different, angle to a radiation beam to produce a signal indicative of the presence of the analyte. | 05-14-2009 |
20090244536 | TWO-DIMENSIONAL OPTICAL IMAGING METHODS AND SYSTEMS FOR PARTICLE DETECTION - The present invention provides methods and systems for particle detection and analysis using two-dimensional optical imaging to access enhanced detection sensitivity and expanded sensing functionality relative to conventional point and array detection-based optical particle counters. Methods and systems of the present invention provide a two-dimensional optical imaging-based particle sensing platform wherein system components and specifications are selected to generate reproducible and readily identifiable signals, including particle detection signatures, from optical scattering or emission from particles provided to the system. Systems and methods of the present invention are capable of accurately and sensitively detecting, identifying, and characterizing (e.g., determining the size of) particles in liquid phase or gas phase samples. | 10-01-2009 |
20090296087 | CONCAVE COMPENSATED CELL FOR THE COLLECTION OF RADIATED LIGHT - A concave cell for the collection of radiated light including a body with a concave surface and an unmodified flat surface opposite thereto, and a reflective surface coupled to the body across from the concave surface, said reflective surface including an opening and a photo detector operatively coupled thereto. A method of collecting light by reflecting light inside the concave cell, striking the light at the concave surface, scattering the light at the concave surface, and registering the scattered light with the photo detector. A method of increasing uniformity of light registered in a photo detector. A method of making a concave cell. | 12-03-2009 |
20100053614 | METHOD AND APPARATUS FOR DETECTING AND DISCRIMINATING PARTICLES IN A FLUID - A particle detection system that images and detects particles in a fluid flow stream through use of detector array(s) is described. The detection system may include light source arrays that may selectively illuminate a particle in a fluid stream. The detection system may also include a detector array employing smart binning to read the measured signals. The smart binning of the detector array may be achieved through knowledge of an exact particle location provided by a position sensitive detector. The detector array(s) may be low cost based on intelligence built into the system. This particle detection system may be particularly useful for detection and discrimination of different particle types since the read-out of the particle signals can be accomplished with low noise and can be flexible enough to optimize the read out measurements for each particle. The particle detection system may be used, for example, in early warning contamination detection systems and manufacturing processes. | 03-04-2010 |
20100238442 | SERIAL-LINE-SCAN-ENCODED MULTI-COLOR FLUORESCENCE MICROSCOPY AND IMAGING FLOW CYTOMETRY - A system for performing high-speed, high-resolution imaging cytometry utilizes a line-scan sensor. A cell to be characterized is transported past a scan region. An optical system focuses an image of a portion of the scan region onto at least one linear light sensor, and repeated readings of light falling on the sensor are taken while a cell is transported though the scan region. The system may image cells directly, or may excite fluorescence in the cells and image the resulting light emitted from the cell by fluorescence. The system may provide a narrow band of illumination at the scan region. The system may include various filters and imaging optics that enable simultaneous multicolor fluorescence imaging cytometry. Multiple linear sensors may be provided, and images gathered by the individual sensors may be combined to construct an image having improved signal-to-noise characteristics. | 09-23-2010 |
20110058168 | Optical system for a flow cytometer - An optical system for a flow cytometer having a flow channel with an interrogation zone and an illumination source that impinges the flow channel in the interrogation zone includes a lens system and a detection system. The lens system preferably includes at least two lens surfaces located on opposite sides of the flow channel and configured to collect and collimate light from the interrogation zone. The detection system, configured to detect light from the lens system, preferably includes first and second detectors, a first filter that passes a first wavelength of light and reflects a second wavelength of light, and a second filter that reflects the first wavelength of light and passes the second wavelength of light, wherein the first and second filters are aligned such that light reflected from the first filter passes into the second detector and light reflected from the second filter passes into the first detector. | 03-10-2011 |
20120075630 | Transducer Module - Transducer modules for use in a blood analysis instrument and methods for analyzing a blood sample. The transducer modules presented generally include a light source, a focus-alignment system, a flow cell, and a light scatter detection system. Electrodes within the flow cell allow for the measurement of the DC impedance and RF conductivity of cells passing through a cell-interrogation zone in the flow cell. Light scatter from the cells passing through the cell-interrogation zone is measured by the light scatter detection system. The light scatter detection system measures the light scatter parameters of upper median light scatter, lower median angle light scatter, low angle light scatter, and axial light loss. The presented methods for analyzing a blood sample generally include aspirating a whole blood sample into a blood analysis instrument, preparing the blood sample for analysis, passing the blood sample through a flow cell in a transducer system, and measuring axial light loss, multiple angles of light scatter, DC impedance and/or RF conductivity. | 03-29-2012 |
20120140223 | Two-Dimensional Optical Imaging Methods and Systems for Particle Detection - The present invention provides methods and systems for particle detection and analysis using two-dimensional optical imaging to access enhanced detection sensitivity and expanded sensing functionality relative to conventional point and array detection-based optical particle counters. Methods and systems of the present invention provide a two-dimensional optical imaging-based particle sensing platform wherein system components and specifications are selected to generate reproducible and readily identifiable signals, including particle detection signatures, from optical scattering or emission from particles provided to the system. Systems and methods of the present invention are capable of accurately and sensitively detecting, identifying, and characterizing (e.g., determining the size of) particles in liquid phase or gas phase samples. | 06-07-2012 |
20120170035 | SMOKE SENSOR - [Problem to be Solved] | 07-05-2012 |
20120268741 | ARRANGEMENT FOR DETERMINING A LONGITUDINAL POSITION OF A STOPPER - The invention refers to an arrangement and a method for determining a longitudinal position of a stopper for sealing a compartment of a translucent medicament container for a liquid medicament (M). The arrangement comprises a circular light source and a photo sensitive sensor, wherein either the light source or the sensor is laterally arrangeable next to the medicament container extending over at least part of the length of the medicament container, and wherein the respective other of the light source and the sensor is arrangeable in a circular manner around a head of the medicament container. The light source is arranged to emit light into the medicament container. The light is scattered by the medicament or medicament container and detected by the sensor. The sensor is connected to a processor unit for detecting the position of the stopper). | 10-25-2012 |
20120281215 | METHOD AND DEVICE FOR DETERMINING THE STATIC AND/OR DYNAMIC SCATTERING OF LIGHT - The invention relates to a method and device for determining the static and/or dynamic scattering of light. In the method, a plurality of different zones within a sample vessel ( | 11-08-2012 |
20130077096 | METHOD AND APPARATUS FOR MEASURING A POSITION OF A PARTICLE IN A FLOW - Aerosol and hydrosol particle detection systems without knowledge of a location and velocity of a particle passing through a volume of space, are less efficient than if knowledge of the particle location is known. | 03-28-2013 |
20130107256 | Analytical Apparatus and Analytical Method | 05-02-2013 |
20130169963 | Flow Cytometry Systems and Methods for Blocking Diffraction Patterns - Flow cytometer systems are provided having intermediate angle scatter detection capability. In some aspects, systems are provided that include an intermediate angle scatter (IAS) light detector positioned to measure intermediate angle scatter emitted from a flow cytometer. The system further includes a mask disposed across a portion of the IAS light detector and positioned between the flow cell and the IAS light detector to cover at least a central portion of the IAS light detector so as to block a diffraction pattern observed at the detector. In some instances, the diffraction pattern is created by a flat beam profile irradiating the sample. Methods are also provided for configuring a flow cytometer to block a diffraction pattern created by (1) a flat laser beam profile irradiating a flow cytometer liquid sample, or (2) a mismatched index of refraction between a sheath fluid and a liquid sample in a flow cytometer. | 07-04-2013 |
20130201479 | METHOD FOR IDENTIFYING INTERFERENCE OBJECT IN SCATTER VOLUME OF OPTICAL FIRE DETECTOR AND OPTICAL FIRE DETECTOR - An interference object is identified in a scatter volume of an optical fire detector, which operates according to the scattered light principle. To achieve a higher level of interference protection using a simple structure in a compact fire detector, a common scatter volume is used instead of separate scatter volumes. | 08-08-2013 |
20130229655 | Second Generation Low-Cost Particle Counter - An apparatus for the detection of a fluid-borne particle ( | 09-05-2013 |
20130335739 | measuring device for measuring particulate matter concentrations using scattered light and method for monitoring the measuring device - A measuring unit for measuring a particulate concentration in exhaust gases using scattered light includes a measuring chamber, at least one light source and at least one light sensor, the measuring chamber being situated in the optical path of the light source; and the light sensor records the light scattered by the particulates in the measuring chamber. To detect the intensity of light beam that is relevant for a precise particulate measurement, a monitoring device is provided to detect the intensity of the light beam with the aid of a scattered radiation. The intensity of the light beam is recorded using a monitoring measurement, by ascertaining a scattered radiation and comparing it to a specified reference value for the scattered radiation. With the aid of the comparison, the intensity of the light source is regulated correspondingly and/or the measuring result of the particulate measurement is correspondingly corrected. | 12-19-2013 |
20140016131 | VIRTUAL CORE FLOW CYTOMETRY - A sheathless flow cytometry system is disclosed wherein a fluid containing particles of interest, for example cells, flows through a sensing region, and is illuminated in the sensing region with one or more light source. Light resulting from the interaction of the particles with the illumination is received by an objective, and focused toward a field stop having an aperture comprising relatively large end portions and a relatively small center portion. Light deflectors, such as prisms, are disposed over the relatively large end portions of the aperture. The system is arranged such that light from particles in focus in the sensing region is focused on the relatively small center portion of the aperture. Peripheral detectors are positioned to receive light from the light deflectors, and a scatter detector is positioned to receive light passing through the center portion. The detector signals may be used to identify which of the detector signals correspond to particles in focus as they passed through the sensing region. | 01-16-2014 |
20140016132 | Systems and Methods for Measuring Oxygenation - Systems and methods are described for measuring a tissue parameter such as % StO2 in a tissue sample. One such method includes receiving first and second scattered light intensity signals at unique locations on a selected region of tissue from light injected into the region of tissue from a light source to identify a measured light attenuation data value. An electronic data store can be accessed that includes simulated light attenuation data determined from a mathematical tissue model at discrete points over a range of two or more tissue parameters, where the simulated light attenuation data are a function of one or more temperature-dependent light source spectra. The tissue parameter in the tissue sample can be determined by selecting a closest match between the measured light attenuation data and the simulated light attenuation data. An electronic signal representative of the determined tissue parameter can be sent to an output register. | 01-16-2014 |
20140268144 | MULTIPLE PARTICLE SENSORS IN A PARTICLE COUNTER - An airborne, gas, or liquid particle sensor with multiple particle sensor blocks in a single particle counter. Each sensor would sample a portion of the incoming airstream, or possibly a separate airstream. The various counters could be used separately or in concert. | 09-18-2014 |
20140285802 | LIGHT SCATTERING PARTICLE COUNTER | 09-25-2014 |
20140354990 | Method For Measuring Scattered Light And Apparatus For Measuring Scattered Light - The invention provides a method for measuring light scattered on a sample in a medium, in particular a fluid medium, that comprises the following steps: providing a rotatably arranged measuring cell with a substantially circular cross-section in a plane perpendicular to the axis of rotation for receiving the medium and the sample, rotating the measuring cell, preferably at least once by substantially 360°, about the axis of rotation, in particular by means of a drive, emitting a laser beam by means of a laser onto the sample located within the measuring cell in the plane perpendicular to the axis of rotation at different angles of rotation of the measuring cell, the measuring cell maintaining its position in the direction of the axis of rotation, detecting scattered light signals by means of at least two detectors arranged in a circle and concentrically to the centre of rotation of the measuring cell and fixed within set, different angular ranges at different angles of rotation of the measuring cell, and determining a corrected signal value for each detector on the basis of the scattered light signals detected at different angles of rotation of the measuring cell for each detector. Furthermore, the invention provides an apparatus for measuring light scattered on a sample according to the method comprising a laser, a measuring cell and a detector. | 12-04-2014 |
20140362377 | Hemispherical Scanning Optical Scatterometer - A hemispherical scanning optical scatterometer and method for its use for measuring scattered radiation, with a reflected scatter measurement laser, and/or a transmitted scatter measurement laser, an array of optical detectors, a computer controlled system to rotate the array of optical detectors, an electronic system, a computer interface and a computer for processing the signal. | 12-11-2014 |
20150300938 | Particle Sensor with Interferent Discrimination - This invention provides methods and devices to measure particle suspension concentrations in the presence of potential interferents. Particle back-scatter readings are taken at light wavelengths that are absorbed by the medium before interacting with surrounding objects. Source-detector spacings are minimized compared to the mean absorbance path length of light, thereby maximizing the range of sensitivity to particle concentration. Discrimination against potentially interfering particles, such as bubbles, is provided by mapping the signal distribution against the central signal value and/or by the use of statistical measures with reduced dependence on outliers. The methods and devices allow accurate particle concentration readings over a wide range of concentration in environments crowded with potentially interfering objects and in the presence of variable concentrations and sizes of potentially interfering particles. | 10-22-2015 |
20150338335 | PARTICLE DETECTION APPARATUS AND PARTICLE DETECTION METHOD - A particle detection apparatus and a particle detection method capable of accurately detecting scattered light are provided. A scattered light detection unit of the particle detection apparatus having at least a light illumination unit for illuminating a particle with light and the scattered light detection unit for detecting scattered light emitted from the particle illuminated with light is provided with a first detection portion for detecting scattered light, a second detection portion for detecting illumination light onto a particle, and a signal processing unit for removing a noise component from a signal detected in the first detection portion based on a signal detected in the second detection portion. | 11-26-2015 |
20150362421 | PARTICLE CHARACTERIZATION - The disclosure relates to methods and apparatus for detecting properties of heterogeneous samples, including detecting properties of particles or fluid droplets in industrial processes. Embodiments disclosed include a particle characterization method, comprising: suspending particles in a fluid; causing the suspended particles to flow past a two-dimensional array detector; illuminating the suspended particles as they flow past the two-dimensional array detector in the fluid; acquiring a plurality of images of the particles as they flow past the two-dimensional array detector in the fluid; and applying a particle characterization function to results of steps of acquiring a plurality of images for at least some of the suspended particles. | 12-17-2015 |
20160084759 | APPARATUS FOR MEASURING HEXAVALENT CHROMIUM IN WATER - The present invention comprises an optical train ( | 03-24-2016 |
20160139025 | SYSTEMS AND USER INTERFACE FOR COLLECTING A DATA SET IN A FLOW CYTOMETER - Systems in a flow cytometer having an interrogation zone and illumination impinging the interrogation zone include: a lens subsystem including a collimating element that collimates light from the interrogation zone, a light dispersion element that disperses collimated light into a light spectrum, and a focusing lens that focuses the light spectrum onto an array of adjacent detection points; a detector array, including semiconductor detector devices, that collectively detects a full spectral range of input light signals, in which each detector device detects a subset spectral range of the full spectral range of light signals; and a user interface that enables a user to create a set of virtual detector channels by grouping detectors in the detector array, such that each virtual detector channel corresponds to a detector group and has a virtual detector channel range including the sum of subset spectral ranges of the detectors in the corresponding detector group. | 05-19-2016 |
20160178503 | OBTAINING SPECTRAL INFORMATION FROM MOVING OBJECTS | 06-23-2016 |
20180024037 | DUST MEASURING APPARATUS AND MOBILE TERMINAL FOR CONTROLLING THE SAME | 01-25-2018 |