| Entries |
| Document | Title | Date |
|---|
| 20080202208 | NANO-PARTICLE CONTAINING APPARATUS, NANO-PARTICLE DETECTION SYSTEM AND METHOD THEREOF - A nano-particle containing apparatus, a nano-particle detection system and a method are disclosed. The nano-particle containing apparatus includes a casing, an air extracting device, a pressure device and a measuring instrument. The casing has a containing space for disposing a plurality of nano-particles. An internal wall surface of the casing has active self-cleaning function. The pressure control device controls the pressure status of the containing space. The active self-clean function is that nano-particles adhered to the internal surface wall are removed into the containing space. The nano-particles then are pumped by the air extracting device from the containing space. The measuring instrument then detects the status of an object affected by the nano-particles after the object is delivered into the containing space. | 08-28-2008 |
| 20080250845 | Mail screening device - A mail screening device for hazardous materials is disclosed. The mail screening device comprises a sample collection unit that uses air jets or air knives to dislodge residues of hazardous materials from a mail, and a detection unit that detects the hazardous materials in the exhaust air flow. Comparing to traditional mail screening systems that use belts and rollers to physically pinch a mail for sample collection, the device of the present invention is less complex and easier to operate, thereby reducing installation, maintenance and replacement costs. | 10-16-2008 |
| 20090056416 | Ceramic Particulate Matter Sensor With Low Electrical Leakage - A ceramic particulate matter sensor to measure particulate matter within an exhaust stream. The particulate matter sensor includes a high voltage electrode on a first conductive layer and a detection electrode on a second conductive layer within a stack of ceramic layers. The stack of ceramic layers is bonded as a single rigid structure. The detection electrode generates a measurement of particulate matter within an exhaust stream. The particulate matter sensor also includes an insulating material positioned adjacent to the second conductive layer to insulate the detection electrode from another conductive layer within the stack of ceramic layers. The particulate matter sensor also includes an electrical heater to burn off an accumulation of contaminating particulate matter from at least one electrode of the high voltage and detection electrodes. The particulate matter sensor also includes means for substantially preventing electrical leakage through the insulating material to the second conductive layer. | 03-05-2009 |
| 20090095053 | AIRBORNE PARTICULATE DISCRIMINATOR - A method and apparatus for rapid and accurate detection and discrimination of biological, radiological, and chemical particles in air. A suspect aerosol of the target particulates is treated with a taggant aerosol of ultrafine particulates. Coagulation of the taggant and target particles causes a change in fluorescent properties of the cloud, providing an indication of the presence of the target. | 04-16-2009 |
| 20090126458 | Sensor and Operating Method for Detecting Soot - The invention relates to a sensor and a method for detecting soot, said method comprising the following steps: a first operating temperature is set on the sensor for a measuring phase, such that soot can be deposited on the surface of the substrate, but depositions interfering with the measurement of the soot are prevented; the time between the beginning of the measurement and the increase in conductivity between the electrodes is recorded; and a second operating temperature is set on the sensor for a regeneration phase, such that the deposited soot is burned with the oxygen in the test gas. The inventive product is a soot sensor for using in the automobile industry. | 05-21-2009 |
| 20090188300 | ELECTRODE STRUCTURE FOR PARTICULATE MATTER SENSOR - A particulate matter detector formed in an insulated device such as a spark plug. The insulated device has a center electrode having a first end and a second end. The first end of the center electrode passes through the insulated device and may be connected to a terminal. The second end of the electrode is formed to provide a greater surface area. The form may be a star, circle, series of S's or a helix to increase the surface area of the second end of the center electrode that may be exposed to the exhaust from an engine. The sensor may be used to measure particulate matter in the exhaust of an engine and permit a processor to regulate the operation of the engine. | 07-30-2009 |
| 20090217737 | Sensor Element for Gas Sensors and Method for Operating Same - A sensor element is provided for gas sensors, in particular to determine particles in gas mixtures, the sensor element including at least one electrochemical measuring element exposed to the gas mixture to be determined, and at least one temperature-measuring element integrated into the sensor element. The temperature-measuring element includes a resistor track, which has an electric resistance of less than 180 Ohm at 0° C. The resistor track may thus be produced by thin-foil technology, such as screen printing, for example. | 09-03-2009 |
| 20100018290 | PARTICULATE MATTER SENSOR - Exemplary embodiments of the present invention relate to methods and devices for monitoring the flow of particulate matter within an exhaust gas stream. In one exemplary embodiment, a particulate matter sensor for an exhaust system of an engine is provided. The particulate matter sensor includes a casing having an attachment feature for mounting the particulate matter sensor to the exhaust system. The particulate matter sensor also includes an insulator disposed within the casing. The particulate matter sensor further includes a sensing rod having a hollow portion extending between a first end and a second end of the sensing rod. The first end of the sensing rod is supported by the insulator and the second end of the sensing rod extending away from the insulator. The particulate matter sensor still further includes an electrical connector assembly engaging the first end of the sensing rod. The electrical connector assembly is configured to transmit a signal generated by the sensing rod. | 01-28-2010 |
| 20100018291 | REVERSE PARTICULATE MATTER SENSOR - Exemplary embodiments of the present invention relate to methods and devices for monitoring the flow of particulate matter within an exhaust gas stream. In one exemplary embodiment, a particulate matter sensor for an exhaust system of an engine is provided. The sensor includes a casing having an attachment feature for mounting the particulate matter sensor to the exhaust system. The sensor also includes an insulator disposed within the casing. The insulator has a first end located proximate to an electrical connector of the particulate matter sensor and a second end located opposite thereof The sensor further includes a sensing rod having a first end and a second end. The first end of the sensing rod is supported by the insulator and spaced from the second end of the insulator to form a gap therebetween. | 01-28-2010 |
| 20100071441 | PARTICULATE MATTER DETECTION DEVICE AND METHOD FOR MANUFACTURING THE SAME - A particulate matter detection device including a main body which has one end provided with a through hole; a pair of electrodes embedded in a wall through which the through hole is formed, and covered with a dielectric material; wires extending from the electrodes to the other end of the main body; and a ground electrode provided at a position sandwiched between the wires. The device can electrically adsorb, on the wall surface of the through hole, a charged particle in a fluid flowing into the through hole, or a particle charged by electric discharge caused in the through hole by applying a voltage across the pair of electrodes. The device can measure the changes of the electric properties of the wall through which the through hole is formed, thereby detecting particles adsorbed on the wall surface of the through hole. | 03-25-2010 |
| 20100107737 | SYSTEM AND METHOD FOR SENSING HIGH TEMPERATURE PARTICULATE MATTER - Sensor apparatus includes a housing, a probe mounted to the housing, the probe including an elongate first part and a helical coil second part conductively coupled to each in series with first and second terminals at opposite ends thereof, the probe to be inserted into an exhaust stream in an exhaust corridor; and a circuit coupled to the first and second terminals of the sensor probe, to selectively operate the probe as a temperature sensor in a first mode and as a PM sensor in a second mode. | 05-06-2010 |
| 20100107738 | MASS LOADING MONITOR - The present invention provides a mass loading monitor for measuring in real time the particulate, i.e., powder, dust and the like, content of air inside an industrial or commercial processing facility and providing a warning signal indicating the existence of a potentially explosive atmosphere in the facility. In a first embodiment, the mass loading monitor comprises two parallel cylinders, one of which is charged with clean, ambient air and the other of which is charged with air from within the facility containing dust, powder or other particulate matter. A piston resides within each cylinder and the pistons are commonly accelerated for a short distance during which time the pressure at each piston face is measured. The time integrals of the pressures from each of the piston faces are evaluated over the period: from rest to the time of discharge from the open end of the cylinders. The ratio of these integrals defines the difference in the densities within the cylinders. In a second embodiment, a single piston and cylinder assembly is first calibrated with clean air and subsequently filled with particulate laden air and the time integrals of the pressures on the piston face are similarly evaluated. | 05-06-2010 |
| 20100116025 | AIR SAMPLER - An air sampler includes an inertial impactor with a compressible porous collector that receives particles greater than a lower threshold size from an air sample. Before reaching the collector, the air sample may pass through a sorter that prevents that removes particles above an upper threshold size. A mechanism transfers the compressible porous collector and base between the air sampler and a wash position outside of the air sampler. An agitator at the wash position may agitate the compressible porous collector to remove particles therefrom. The compressor may be wetted with various substances to facilitate particle collection from the air, preservation of particles on the collector, and removal of particles from the collector. | 05-13-2010 |
| 20100147052 | SOOT SENSOR AND METHOD FOR SENSING SOOT - A soot sensor and method for detecting soot is provided. In one exemplary embodiment, a sensing element for a soot sensor is disclosed herein, the sensing element having a pair of peripheral edge sensing electrodes each having a portion disposed on a peripheral edge of a non-conductive substrate of the sensing element; a first pair of side sensing electrodes disposed on a first side of the sensing element, the first side having a first area partially bounded by the peripheral edge, wherein a resistance between the pair of peripheral edge sensing electrodes decreases as soot accumulates on portions of the pair of peripheral edge sensing electrodes and a resistance between the first pair of side sensing electrodes decreases as soot accumulates on portions of the first pair of side sensing electrodes. | 06-17-2010 |
| 20100180668 | SENSOR ELEMENT OF A GAS SENSOR - A sensor element for determining a gas component or particles in a measuring gas, having a first and a second measuring electrode, the measuring electrodes being developed as interdigital electrodes having a row of intermeshing branches as well as a main conductor each, to which the branches are connected in an electrically conducting manner; and the branches of the interdigital electrodes being aligned essentially in parallel to a longitudinal axis of the sensor element. | 07-22-2010 |
| 20100212401 | SCREENING SYSTEM AND METHOD - A method of operating a screening system includes applying an electromagnetic field to a specimen in a region at least partially enclosed by electromagnetic shielding and measuring an output from a sensor, wherein the output is induced by an interaction of the electromagnetic field and the specimen. The method also includes dislodging trace particles from the specimen within the region, collecting the trace particles, and identifying the trace particles. The method further includes evaluating an association of the specimen with a substance based on the measured sensor output and the identified trace particles. | 08-26-2010 |
| 20100229629 | PARTICULATE MATTER DETECTION DEVICE - A particulate matter detection device | 09-16-2010 |
| 20100229630 | PARTICULATE MATTER DETECTION DEVICE - A particulate matter detection device ( | 09-16-2010 |
| 20100229631 | PARTICULATE MATTER DETECTION DEVICE - A particulate matter detection device ( | 09-16-2010 |
| 20100313632 | Method For Removing A Coating Comprising A Hazardous Compound From A Surface - The invention concerns a method for removing resp. renovating a layer resp. coating ( | 12-16-2010 |
| 20110011160 | Exposure System - A system and a method for studying or predicting the interaction between a lung and an aerosolized agent. The system comprises an aerosol generator ( | 01-20-2011 |
| 20110048106 | METHOD FOR EVALUATING DEGRADATION OF A PARTICULATE MATTER SENSOR AFTER AN ENGINE START - A system for improving operation of an engine having a particulate matter sensor is presented. The system may be used to improve engine operation during cold starts especially under conditions where water vapor or entrained water droplets are present in vehicle exhaust gases. In one embodiment, particulate sensor degradation is indicated in response to an output of said particulate matter sensor staying below a threshold as engine temperature increases past the dewpoint temperature. | 03-03-2011 |
| 20110056273 | CONDENSATION APPARATUS - The invention provides an apparatus for increasing the size of gas-entrained particles in order to render the gas-entrained particles detectable by a particle detector, the apparatus comprising an evaporation chamber ( | 03-10-2011 |
| 20110214483 | SYSTEMS AND METHODS FOR RESIDUE COLLECTION WITH IMPROVED LETTER HANDLING CAPABILITY - Systems and methods for the detection of substances (particularly particulate substances) within mail pieces, specifically letters and other “flats” of mail. In particular, the systems and methods are for the detection of residues of Chemical or Biological Warfare Agents (CBWAs) which may be present within the mail pieces. The system is principally designed to be included as part of Dual Pass Rough Cull System (DPRCS) for the collection and detection of the residue when the contaminated mail piece first enters a mail facility and before it is intermingled with other mail pieces. The system also utilizes aerosol chambers using at least two arrays of pinch rollers to provide for decreased incremental changes on mail pieces and decrease the likelihood of mail piece damage. | 09-08-2011 |
| 20110259082 | METHOD AND CAPACITIVE SENSOR FOR COUNTING AEROSOL NANOPARTICLES - The invention refers to a method and capacitive sensor for counting aerosol nanoparticles in an electric way. Aerosol particles, onto which a fluid was applied in an earlier process by known methods, change the capacitance of the dielectric of the capacitor when entering its field, which causes an electric signal. The method provides for detection of aerosol particles in a wide scope of their presence in the air and is not specific for any shape or chemical composition of nanoparticles. | 10-27-2011 |
| 20110271739 | PARTICULATE MATTER MONITOR - A particulate monitoring system includes a conduit in which to a pass a fluid sample from an input port to an output port. The particulate monitoring system receives a fluid sample inputted to the conduit through the input port. The fluid sample can include different sizes of particulate matter. The particulate monitoring system controls a flow of the fluid sample through the conduit to age the particulate matter. Gravitational forces cause a portion of the particulate matter in the fluid sample to fall into a basin as opposed to being exhausted through the output port, which is disposed at a vertically higher level of the conduit than the input port. Thus, the particulate monitoring system outputs a portion of the original particulate matter in the fluid sample (e.g., particulate matter that does not drop into the basin out due to gravity) for analysis. | 11-10-2011 |
| 20110314902 | ANALYSIS METHODS AND DEVICES FOR FLUIDS - The invention relates to novel methods and to devices for a measuring and analysis apparatus that measures impurities and/or particles in a gas or air. In a particle separation step, target particles having predetermined particle properties are separated from remaining particles from a gas or gas mixture such as air or a liquid, in short a fluid, that contains a particle mixture, and the occurrence and/or frequency of said target particles is determined in a measuring chamber. The likewise novel cooling of the radiation sources required for measurement permits the use of such having high power, as is required for measuring few particles or the smallest impurities. A further novel expansion of the electrical measurement range allows small but also abundant particles and impurities to be measured. In addition, a novel interface simplifies the start-up of the apparatus. | 12-29-2011 |
| 20120079871 | GAS DETECTOR APPARATUS - An apparatus and methods for detecting the presence of gases is described. The gas detection apparatus includes, a housing adapted to be in fluid communication with a duct of a particle detection system, and at least one gas detector sensitive to a target species arranged in fluid communication with the housing to detect the presence of the target species in at least part of the air sample flowing in a duct. In one form the gas detection apparatus forms part of a system for detecting a condition in an environment that includes, a particle detector; a duct system in fluid communication with the environment and the particle detector and an aspirator to draw an air sample flow from the environment to the particle detector. | 04-05-2012 |
| 20120096924 | PARTICLE CLASSIFIER - A new installment classifies particles by their aerodynamic size This installment produces a truly monodisperse aerosol, and can produce very narrow distributions over a wide range of sizes Particles suspended in a fluid are classified by supplying particles into suspension in a carrier flow of a fluid and providing an acceleration to the flow at an angle to the velocity of the flow to cause the particles to follow trajectories determined by the acceleration and drag on the particles caused by the fluid The particles are then classified according to their trajectories The installment has a flow channel and a source of particles to supply particles into suspension in a carrier fluid in the flow channel A drive is connected to the flow channel at an angle to the flow of fluid through the carrier flow channel, and a classification system classifies the suspended particles according to their trajectories | 04-26-2012 |
| 20120131989 | METHOD AND DEVICE FOR DETECTING AEROSOL PARTICLES - Sizes or size distribution of aerosol particles of an aerosol gas stream is detected. A particle-free carrier flow is saturated in a saturator by a first condensing medium, after which, the carrier flow is mixed in a mixing section turbulently with aerosol particle flow. Advantageously, a plurality of separate mixtures with different saturation ratios are provided and introduced to the first condensing environment in order to condensate the condensing medium onto the aerosol particles. Depending on the saturation ratio, the particles with different lowest original size are activated and grown in a growing section and/or in the condensing environment. After activation and growing, the particles are detected by a detecting means. | 05-31-2012 |
| 20120318042 | METHOD FOR CLASSIFYING POWDER - Provided is a method for classifying a powder using a classifier, wherein the method comprises: a mixing step for mixing a powder and an auxiliary agent formed from an alcohol aqueous solution containing 10 to 50 mass % of an alcohol; an introduction step for introducing the powder mixed in the mixing step to the classifier; a heating step for heating a gas; a feed step for feeding the gas heated in the heating step to the classifier; and a classifying step for classifying the powder in the classifier on the basis of grain size. | 12-20-2012 |
| 20120324982 | PARTICULATE MATTER DETECTION METHOD FOR A PARTICULATE MATTER SENSOR - A method of detecting particulate matter on a particulate matter sensor includes the steps of measuring an electrical characteristic associated with the sensor, determining a value corresponding to the impedance across the sensor, and compensating the impedance for the temperature at which it was determined. The method further includes determining an estimate of the total amount of particulate matter accumulated while limiting the effects of large particles captured on the sensor or blown off the sensor. The information produced by the method may be used to provide diagnostic information regarding a particulate control system. | 12-27-2012 |
| 20130000385 | DETECTION GATE - A detection gate for detecting substances carried by an individual or an object, has two lateral uprights facing one another and defining a passage there between for the individual or the object, a blowing device installed in a blowing chamber in one of the uprights which are adapted to exhaust the air contained in the blowing chamber towards the other upright, an exhaust device installed in an exhaust chamber in the other upright, which are suitable for exhausting the air thus blown, a detection device arranged upstream from the passage and adapted to detect the presence of the substances in the air thus blown, and a transfer line which, via one of the ends thereof, leads into the blowing chamber and, via the other end thereof, into the exhaust chamber, the blowing device and the exhaust device being such that a single volume of air has time to pass through the passage at least twice during the time that individual or the object is present in the passage. | 01-03-2013 |
| 20130008231 | PARTICULATE MATTER DETECTING APPARATUS - A particulate matter detecting apparatus that measures an amount of particulate matter in a gas by applying a predetermined voltage between a pair of first electrodes of a sensor element portion includes a detecting portion that detects whether more particulate matter than a reference amount has accumulated on the first electrodes, a temperature controlling portion that controls a temperature of the sensor element portion to become equal to or higher than a reference temperature when it is detected that more particulate matter than the reference amount has accumulated, and a voltage controlling portion that applies a reference voltage between the first electrodes and a second electrode arranged such that a solid electrolyte is sandwiched between the second electrode and the first electrodes, when it is detected that more particulate matter than the reference amount has accumulated. | 01-10-2013 |
| 20130019654 | NON-INVASIVE METHOD AND APPARATUS FOR DETECTING THE PRESENCE OF ILLICIT SUBSTANCES - The present invention is directed to a system for screening the content of the air proximate to a target for the presence of one or more illicit substances by using a chemical detector, a metal detector and a radiation detector all houses within a portable detection unit that may be carried by hand to detect threat substances on a target. The system also comprises a support module that is coupled either wirelessly or though a conduit to the portable detection unit to support the operations of the portable detection unit by proving processing and analysis of the detected results and power. The system also comprises a vacuum source for drawing air proximate to the target into the portable detection unit for vaporization and analysis. The vacuum source may be within the support module and drawing air through a hose in the conduit, or may be within the portable detection unit itself. The system may be used by passing the portable detection unit over or near to a target in a manner similar to airport metal detectors. | 01-24-2013 |
| 20130025348 | AIRCRAFT DEBRIS MONITORING SENSOR ASSEMBLY - An example aircraft debris monitoring sensor assembly includes an aircraft conduit defining a hollow core passage extending axially from an inlet opening to an outlet opening. A sensor arrangement detects debris carried by a fluid within the hollow core passage. | 01-31-2013 |
| 20130031957 | DETECTOR DEVICES - A detector includes a component having a surface. The surface includes, or is at least partially coated with, a contaminant-resistant or self-cleaning material. This allows the detector to remain clean without manual cleaning. | 02-07-2013 |
| 20130081446 | PARTICLE DETECTING DEVICE EVALUATING SYSTEM AND PARTICLE DETECTING DEVICE EVALUATING METHOD - A particle detecting device evaluating system having a test chamber provided, in one face thereof, with a plurality of gas intake vents, where respective particle detecting devices are provided; an injecting device for injecting particles into the test chamber; a light sheet forming device for forming a light sheet within the test chamber; and an imaging device for imaging particles made visible by the light sheet. | 04-04-2013 |
| 20130098142 | METHOD AND DEVICE FOR MEASURING AEROSOLS IN A LARGE VOLUMETRIC STREAM - The invention discloses a particle measurement device ( | 04-25-2013 |
| 20130239659 | Duct Detector with Improved Functional Test Capability - A device and method for facilitating convenient functional testing of a duct detector is provided. The device includes a duct detector having a remote-controlled test light mounted in a housing thereof, and a detector chamber defined by a filter screen and a plurality of labyrinth members that allow light emitted by the test light to enter the detector chamber. A functional test of the duct detector can be conducted by activating the test light. If the detector is functioning properly, an amount of light emitted by the test light will be detected by the light detector, thereby simulating the presence of an excessive amount of particulate within the detector chamber. The light detector will then generate an output signal that will cause the actuation of alarms and/or the deactivation of a blower system, thereby indicating functionality of the duct detector. | 09-19-2013 |
| 20130283887 | METHOD FOR OPERATING A SOOT SENSOR - A method for operating a soot sensor in the exhaust gas tract of an internal combustion engine. The soot sensor includes an inter-digital electrode structure to which a measurement voltage is applied. Soot particles from the exhaust gas flow deposit themselves on the inter-digital electrode structure and an measuring current is evaluated as a measurement for the soot concentration of the soot sensor. A heating element for burning clean the inter-digital electrode structure is provided. The method for operating the soot sensor has good measurement results and the shortest possible idle time. To this end, a point in time for burning clean the soot sensor is determined in accordance with the operational state of the internal combustion engine and then, the burning clean of the inter-digital electrode structure starts by heating the soot sensor by the heating element. | 10-31-2013 |
| 20130298640 | METHOD FOR OPERATING A SOOT SENSOR - A method for operating a soot sensor that has an interdigital electrode structure, to which a measurement voltage is applied. Soot particles from an exhaust gas flow are deposited onto the interdigital electrode structure and the measurement current is evaluated as a measure of the soot load of the soot sensor. The interdigital electrode structure is burned clean at or above a predetermined soot load, which is detected by means of an upper current threshold. The method includes burning the interdigital electrode structure clean by heating up the soot sensor after the upper current threshold has been reached; monitoring the measurement current while the interdigital electrode structure is being burned clean; and stopping the burning clean when the value of the measurement current has reached a lower current threshold. | 11-14-2013 |
| 20140000343 | HANDHELD SAMPLING-REMOVAL HEAD, ANALYSIS ARRANGEMENT AND METHOD FOR CHARACTERIZING AN AEROSOL | 01-02-2014 |
| 20140053629 | Rapid Response Volcanic Ash Detector - Methods and systems for detecting ambient aerosols are disclosed. An example method can comprise receiving an air sample comprising aerosol particles. A method can comprise determining at least one of concentration of the aerosol particles and size of an aerosol particle from the aerosol particles. A method can also comprise determining a composition of the air sample if at least one of the concentration exceeds a first predetermined threshold and the size exceeds a second predetermined threshold. A method can further comprise providing a notification indicating the presence of volcanic ash based on the determined composition of the aerosol. | 02-27-2014 |
| 20140076025 | APPARATUS FOR COUNTING MICROPARTICLES USING A GAS RESERVOIR TO INCREASE STABILITY OF AIR PRESSURE - A microparticle count apparatus that includes or is connected to a gas reservoir for increasing stability of air pressure at the microparticle counter even when air pressure or air flow rate provided by a nozzle coupled to the microparticle measurement apparatus is unstable. | 03-20-2014 |
| 20140102173 | CURVED GASEOUS PARTICLE DETECTOR - A curved gaseous particle detector includes a stack of two layers that are curved and maintained together by a frame formed of two spars defining a plane. The two spars are connected together by at least two curved bars outside of the plane and the frame being placed between the two layers of the stack. | 04-17-2014 |
| 20140102174 | DEVICE FOR DETECTING SOLIDS - Secure areas, such as at airports or other security-critical facilities, are entered from freely accessible areas, often by means of access locks. This bottleneck, which is present in any case, is used to check for substances of concern, such as drugs or explosive materials. In the case of solids, as is known, particles extracted from the access lock and retained in a screen are vaporized and the vapor is examined. Several of the screens are arranged on rotatable carrying disks and undergo consecutively the steps of vaporization and analysis. The aim of the invention is to make known methods more efficient in order to increase the throughput through such access locks. The aim is achieved by a device for which available heating and extraction elements are assigned to multiple rotational positions of the carrying disks, whereby adjacent rotational positions lie apart from each other by only half the distance of two screens. | 04-17-2014 |
| 20140116113 | PARTICULATE MATTER SENSOR UNIT - A particulate sensor apparatus may include an exhaust line through which exhaust gas flows, and a sensor that may be disposed at one side in the exhaust line and generates electrical charges when a particulate passes near vicinity of the sensor, wherein an electrode portion may be formed on a front surface of the sensor facing the particulate. | 05-01-2014 |
| 20140230522 | CLEANLINESS MEASURING CARRIAGE AND CLEANLINESS MEASURING SYSTEM - A cleanliness measuring carriage includes a cleanliness measuring device for measuring cleanliness within a semiconductor manufacturing room, a holding unit for holding the cleanliness measuring device, and a conveying unit for conveying the cleanliness measuring device along a substrate container transport lane. | 08-21-2014 |
| 20140230523 | DEVICE AND METHOD FOR MEASURING THE PARTICLE CONCENTRATION IN AN AEROSOL - A device for measuring the particle concentration in an aerosol using a flow tube includes a cavity in which there is a sleeve, the cavity branching off from the flow tube. The sleeve includes, at its end facing away from the flow tube, a collar. The collar encircles the periphery of the sleeve and is fastened at the periphery of the cavity. There is one or more inflow openings in the collar. At least one outflow opening is in an end of the sleeve, which end extends into the flow tube. A measuring chamber is also included in the cavity on the side of the sleeve facing away from the flow tube. | 08-21-2014 |
| 20140238108 | METHOD AND DEVICE FOR REGENERATING A PARTICLE SENSOR - A method for regenerating a particle sensor, which comprises a ceramic base body, in the exhaust gas duct of an internal combustion engine for driving a motor vehicle, wherein a particle loading of the particle sensor is determined by applying an electrical voltage between at least two electrodes with interdigital arrangement, a temperature of the particle sensor is determined with a temperature sensor mounted to the ceramic base body or from the electrical resistance of a heating element and said particle sensor is regenerated by means of heating with the electrical heating element. | 08-28-2014 |
| 20140345364 | Apparatus and method for detecting hazardous substance on a surface of an object - An apparatus and a method for detecting hazardous substances on a surface of an object are provided. The apparatus for detecting hazardous substances on a surface of an object comprises: a conveyer belt ( | 11-27-2014 |
| 20150096351 | DUCT DETECTOR WITH REMOTE AIRFLOW TEST CAPABILITY - A device and method for facilitating convenient measurement of airflow in a duct detector. The device may include a detector assembly and an airflow sensor mounted within the detector assembly. The airflow sensor may be coupled to a remote control device, such as via control circuitry. A method for testing airflow in the duct detector may be performed by measuring airflow in the detector assembly, generating a signal that corresponds to the measured airflow in the detector assembly, and determining whether the generated signal exceeds a predetermined threshold signal level. If the generated signal does not exceed the threshold signal level, alarms may be activated and/or blowers in a ventilation system may be deactivated. | 04-09-2015 |
| 20150107336 | ELECTROMECHANICAL DETECTION DEVICE, PARTICULARLY FOR GRAVIMETRIC DETECTION, AND METHOD FOR MANUFACTURING THE DEVICE - Electromechanical detection device, particularly for gravimetric detection, and method for manufacturing the device. The electromechanical detection device includes a support including a face defining a plane, at least one beam that can move relative to the support, and means of detecting beam displacement, outputting a signal that depends on the displacement. The beam is anchored to the support through an end and is approximately perpendicular to the plane, and the other end of the beam includes at least one reception zone that can receive one or several particles causing or modifying displacement of the beam, in order to determine at least one physical property of the particle(s) from the signal. According to the invention, the detection means are located between the reception zone and the support. | 04-23-2015 |
| 20150114086 | TEMPERATURE COMPENSATION FOR PARTICULATE MATTER SENSOR REGENERATION - The present disclosure relates to a controller apparatus for regenerating a particulate matter sensor. The controller apparatus includes a sensing module configured to detect a soot loading on a particulate matter sensor and generate a regeneration request indicating a desired regeneration temperature and a heating module configured to receive the regeneration request and send a heating command signal to a heating element based on the regeneration request. The controller apparatus also includes an electrical resistance module configured to detect an electrical resistance in the heating element, a calibration module configured to determine an actual temperature of the heating element based on a resistance-to-temperature model, and a temperature feedback module configured to modify the heating command signal according to the difference between the desired regeneration temperature and the actual temperature. | 04-30-2015 |
| 20150114087 | PARTICULATE MEASUREMENT SYSTEM - A particulate measurement system measures the amount of particulates when at least one or a plurality of three operating condition parameters selected from speed of the vehicle, rotational speed of the internal combustion engine and torque of the internal combustion engine fall within previously set respective ranges, and the particulate measurement system does not measure the amount of particulates or invalidates the result of measurement of the amount of particulates when the one or plurality of operating condition parameters do not fall within the previously set respective ranges. | 04-30-2015 |
| 20150121994 | METHOD FOR DETECTING PARTICLES IN A FLUID STREAM - The invention relates to a method for detecting particles in a fluid stream, comprising: generating a measurement field that can be passed through by the fluid stream; acquiring and evaluating measurement values of the fluid stream passing through the measurement field, and detecting at least one particle by way of a distinctive sequence of measurement values. The invention is characterized in that each of the distinctive successions of measurement values is acquired and evaluated in order to determine if a particle or a gas bubble is passing through the measurement field. | 05-07-2015 |
| 20150330885 | APPARATUS AND METHOD FOR INSPECTING FILTERING CARTRIDGE - An apparatus applicable to a storage container is provided and includes a filtering cartridge, a gas supply device and a particle counter. The filtering cartridge is configured to be disposed on the storage container. The filtering cartridge includes a flexible housing and a filter. The flexible housing has a first portion and a second portion opposite to the first portion. The flexible housing includes a gas inlet, a first gas outlet and a second gas outlet. The gas inlet is disposed on the first portion. The first gas outlet is disposed on the first portion. The second gas outlet is disposed on the second portion and connected to the storage container. The filter is disposed over the second gas outlet. The gas supply device is connected to the gas inlet, thereby purging gas into the flexible housing. The particle counter is connected to the first gas outlet. | 11-19-2015 |
| 20150346071 | MEASUREMENT DEVICE AND METHOD OF MEASURING - A measurement device includes: a mass measurer that measures a mass of particles in gas; a humidity changer that changes a humidity of atmosphere to which the particles are exposed; and a calculator that calculates information indicating a correlation of the mass with respect to the humidity. | 12-03-2015 |
| 20160018374 | BELL CAP AEROSOL ADAPTOR - A method of testing an air sample and/or testing equipment may comprise introducing aerosolized sample particles into an air flow to create sample air upstream from an air quality sampling device. The method may include introducing the sample air to an offset sample inlet of a bell cap inlet adaptor coupled to a sample tube. The method may include merging at least a portion of the introduced sample air with axially flowing air with little to no turbulence based on the geometry of the bell cap inlet adaptor and/or a containment cavity. The method may include introducing at least a portion of the sample air into the sample tube. Next, a test of at least one of the quality of the sample air and/or the functionality of the bell cap inlet may be performed. | 01-21-2016 |
| 20160033384 | Condensation Particle Counter Comprising Saturation Unit and Downstream Condensation Unit - A condensation particle counter comprising a saturation unit ( | 02-04-2016 |
| 20160054215 | GAS DETECTOR FOR USE WITH AN AIR SAMPLING PARTICLE DETECTION SYSTEM - An apparatus and methods for detecting the presence of gases is described. The gas detection apparatus includes, a housing adapted to be in fluid communication with a duct of a particle detection system, and at least one gas detector sensitive to a target species arranged in fluid communication with the housing to detect the presence of the target species in at least part of the air sample flowing in a duct. In one form the gas detection apparatus forms part of a system for detecting a condition in an environment that includes, a particle detector; a duct system in fluid communication with the environment and the particle detector and an aspirator to draw an air sample flow from the environment to the particle detector. | 02-25-2016 |
| 20160054279 | Method for Detecting Second and Thirdhand Smoke - A novel method for testing if smoking has occurred within a space. Smoking is determined to have happened by testing for and confirming the presence of nicotine using a lateral flow test strip. The nicotine may be captured from secondhand smoke by exposing the condensing pad of the lateral flow tester to air within the space prior to activating the test strip. The nicotine may also be captured as part of thirdhand smoke residue on a surface within the space. A prior art commercially available lateral flow test strip used to test for the presence of cotinine within a biological sample, is used in novel ways for detecting for the past presence of nicotine smoke within a space. Improvements to the test apparatus are also disclosed. | 02-25-2016 |
| 20160139013 | A METHOD AND APPARATUS FOR DILUTION OF AEROSOLS - The invention provides an apparatus set up for diluting aerosols; the apparatus comprising:
| 05-19-2016 |
| 20160146715 | DUST SENSOR AND ELECTRONIC PRODUCT USING THE SAME - A dust sensor includes a multi-wavelength light source, a receiver, and a controller. The light source emits light of different wavelengths. The receiver generates one or more acoustic wave measurement values based on acoustic waves irradiated from the light source to air particles. The controller controls at least one flickering cycle of the light source, determines the type particles based on the acoustic wave measurement values, and calculates the concentration of particles. The controller calculates the concentration of particles in proportion to an intensity of the acoustic wave measurement values, and determine the type of particles based on the acoustic wave measurement values. The acoustic waves are generated differently based on wavelengths of light emitted from the multi-wavelength light source. | 05-26-2016 |
| 20160153928 | Sensor element having a contact surface | 06-02-2016 |
| 20160161523 | AIRFLOW TEST METHOD, AIRFLOW TEST APPARATUS AND CLEAN ROOM CONTROL SYSTEM - The present invention provides an airflow test method comprising: setting a plurality of test points within a test space; detecting the respective one-dimensional velocities of the airflow at each test point along a plurality of test directions, said plurality of test directions including at least three directions; calculating the actual direction and the actual velocity of the airflow at each test point based on the respective one-dimensional velocities of the airflow at the test point along the plurality of test directions. Also, the present invention provides an airflow test apparatus and a clean room control system. The present invention enables detecting the distribution of airflow in the test space with simple method. | 06-09-2016 |
| 20160195464 | PARTICLE SENSOR AND METHOD FOR MANUFACTURING A PARTICLE SENSOR | 07-07-2016 |
