Class / Patent application number | Description | Number of patent applications / Date published |
204409000 | With means providing specified-flow condition or flow-path | 21 |
20090008250 | Sensor element - A sensor element for a sensor or measuring device for measuring fluids, with a housing, the interior of which is sealed toward the outside and through which the fluid to measured can flow, and with at least one electrode arrangement in the housing interior, the electrode arrangement having at least one electrode and forming at least one measuring path. | 01-08-2009 |
20100282606 | Electrochemical Measurement System For The Trace Heavy Metals In Organic Waste Water - Disclosed herein is an electrochemical measurement system for analyzing heavy metals in organic compound-containing samples, comprising: a lower plate; a flow channel plate; an upper plate; an organic compound-decomposing electrode and a heavy metal analysis electrode; and a flow changeover portion. The disclosed system can continuously perform a pretreatment process for organic compound decomposition and a process for heavy metal analysis, thus making it possible to achieve the selective analysis and separation of heavy metals in wastewater. Also, it can substitute for expensive spectrophotometric analysis equipment and makes it possible to monitor trace heavy metals on-line in situ. In addition, it may include a small-sized battery as a power source, such that it is easy to carry and use. | 11-11-2010 |
20110048942 | Adjustable, Retractable Probe Insertion Assembly - An adjustable insertion assembly for an electrochemical sensor includes an electrode holder to receive the sensor, having a distal aperture to permit process fluid to contact the sensor. A receptacle slidably receives the holder, for a sliding range of motion extending from fully inserted to fully retracted positions. An open distal end portion of the receptacle extends through a wall of a process fluid vessel, so that the aperture is open to the process fluid when fully inserted, and closed when fully retracted. A leverage member is releasably movable relative to the receptacle, and moves with a captured extension. An abutment of the receptacle engages the extension so that movement of the leverage member in opposite directions alternately clamps and releases the electrode holder relative to the receptacle to substantially prevent and permit movement at substantially any point within the range of movement. | 03-03-2011 |
20110108418 | GAS SENSOR WITH TEST GAS GENERATOR - A gas sensor ( | 05-12-2011 |
20110114484 | ELECTROCHEMICAL SENSOR - An electrochemical sensor is provided that includes a housing having an outer wall, an axial bore circumscribed by the outer wall, and a barrier wall that aids in defining a reference cavity. The housing further including a plurality of cross members in spaced relation to one another disposed between the axial bore and the outer wall, each cross member defining an aperture. A junction plug is disposed at the distal end of the housing. The junction plug comprises a porous material that enables ionic flow through the junction plug. The sensor enables ionic communication between the target fluid and the reference electrode within the reference cavity through the apertures of the plurality of cross members. In this manner, the sensor provides generally a long, tortuous flow path, or salt bridge, between the target fluid and the reference electrode, resulting in a high resistance factor for the sensor. | 05-19-2011 |
20120132527 | Use of microfluidic systems in the electrochemical detection of target analytes - The invention relates generally to methods and apparatus for conducting analyses, particularly microfluidic devices for the detection of target analytes. | 05-31-2012 |
20120181174 | FUEL SENSOR - A fuel sensor includes a passage forming unit, an outer electrode, an inner electrode, and a fuel characteristic detecting device. The passage forming unit defines a fuel passage and a receiving hole intersecting with the fuel passage perpendicularly. The outer electrode having a cylindrical shape is accommodated in the receiving hole, and includes first and second flow ports, which communicate with an inlet side part and an outlet side part of the fuel passage in a radial direction of the outer electrode respectively. The inner electrode is disposed radially inward of the outer electrode. The fuel characteristic detecting device detects an electrical characteristic of fuel flowing through an inner passage which is formed between the inner electrode and the outer electrode. Passage resistance against fuel is larger along an outer passage, which is formed between the outer electrode and the passage forming unit, than along the inner passage. | 07-19-2012 |
20120199479 | FLOW CELL DEVICE - A flow cell device is formed with: a plurality of cell recess portions adapted to cooperate with a plurality of sensor devices to confine a plurality of sample receiving space for receiving a liquid sample, respectively; a plurality of pairs of first and second guiding channels, each pair being in fluid communication with a respective one of the cell recess portions; a number of connecting recess portions each fluidly communicating the first and second guiding channels that respectively extend to a corresponding pair of the cell recess portions such that the liquid sample is able to flow through the sample receiving spaces sequentially; and inlet and outlet channels in fluid communication with the first and second guiding channels that respectively extend to a first one and a last one of the cell recess portions for introducing and discharging the liquid sample into and from the flow cell device, respectively. | 08-09-2012 |
20120205245 | LOW MAINTENANCE REFERENCE ELECTRODE FOR ELECTROCHEMICAL MEASUREMENTS - A low maintenance reference electrode has a liquid junction body with a multiplicity of micron-sized capillary channels extending through the body for transporting electrolyte to a test solution. A viscosity-increasing agent thickens the electrolyte to limit its flow to a rate on the order of microliters/day so that a few milliliters of electrolyte suffice to provide an extended electrode life. | 08-16-2012 |
20120228137 | pH SENSOR - A pH sensor includes an enclosed fluidic channel, an electrolyte solution within the fluidic channel, a first electrode exterior to the fluidic channel, a second electrode within the fluidic channel, a liquid junction extending between the fluidic channel and an exterior of the fluidic channel. The liquid junction is adapted to provide fluid connection between the electrolyte solution within the fluidic channel and an exterior of the fluidic channel. The pH sensor further includes a fluidic switch or fluidic controller in operative connection with the liquid junction to control whether the liquid junction provides fluid connection between the electrolyte solution within the fluidic channel and the exterior of the fluidic channel. | 09-13-2012 |
20130026037 | SAMPLING PLATE - The present invention relates to a sampling plate. In particular the invention relates to a sampling plate for measuring certain selected properties of a liquid sample, such as the glucose levels in a blood sample. Sampling plates of the present invention have a sample zone ( | 01-31-2013 |
20130341188 | FUEL CELL AND ANALYSIS DEVICE THAT COMPRISE IT - A fuel cell comprising: at least one microfluidic channel that allows the capillary flow of at least one suitable fluid for generating electricity, at least one receiving absorbent region coupled to each microfluidic channel, at least one collecting absorbent region coupled to each microfluidic channel, a cathodic zone coupled to each microfluidic channel, and an anodic zone coupled to each microfluidic channel, where each receiving absorbent region and each collecting absorbent region are coupled to one of the microfluidic channels such that when a fluid suitable for generating electricity is deposited in the receiving absorbent region, it flows by capillary action through the microfluidic channel to reach the collecting absorbent region where it is absorbed. As well as an analysis device comprising one or more of these fuel cells. | 12-26-2013 |
20150144485 | DISPOSABLE SYSTEM FOR ION SELECTIVE ELECTRODES FOR LONG TERM MONITORING - An ion sensitive system has sets of microfluidic microchannels forming ion sensitive electrodes by the assembly of a substrate with structured microchannels and another substrate including metal contacts on its surface. The integrated ion sensitive sensors are each composed of a microfluidic microchannel to contain an electrolyte, another microfluidic microchannel to contain the analyte and another microfluidic microchannel to contain a membrane liquid that separates the electrolyte from the analyte at the confluent junction of the three solutions. The system has the dimension of a thin and small disc and can be incorporated in an analyzing device. | 05-28-2015 |
20160003761 | Measurement Device with Sensor Array - A system for obtaining a pH measurement includes a disposable probe and a reader. The disposable probe comprises multiple indicating electrodes and at least one reference electrode. The reader is configured to operably engage with the disposable probe and provide pH information of a sample. | 01-07-2016 |
20160178606 | DEVICE AND METHOD FOR UNIT USE SENSOR TESTING | 06-23-2016 |
204410000 | Solid electrolyte means | 4 |
20100078323 | COMPONENT SEPARATING DEVICE AND CHEMICAL ANALYSIS DEVICE USING THE SAME - A vibrator has a large strength of a standing wave even with a low driving voltage, thereby improving the accuracy of component separation. A device according to the present invention includes a substrate having a channel groove provided in an upper surface of the substrate, a seal provided above the substrate so as to cover an upper opening of the channel groove, a projection provided on an outer side wall opposite to the channel groove, and a vibrator causing the projection to warp and vibrate in a depth direction of the channel groove. The warping vibration of the projection is amplified due to effect of leverage, and generates a large stress on the outer wall of the channel groove having the projection provided thereon. Consequently, the strength of a standing wave in the channel groove increases even for a low driving voltage, thereby improving the accuracy of component separation. | 04-01-2010 |
20120043205 | GAS SENSOR CONTROL APPARATUS CONTROLLING OUTPUT CHARACTERISTIC OF GAS SENSOR - A gas sensor control apparatus is provided which controls an operation of a gas sensor made up of a solid electrolyte body and a pair of electrodes to output a signal indicating the concentration of a given gas component contained in gas. The gas sensor control apparatus includes a constant current circuit that is connected electrically to one of the electrodes of the gas sensor and supplies a constant current thereto and a controller. The controller supplies a constant current to the gas sensor so that it flows from one of the electrodes to the other in a selected direction, thereby changing a response time the gas sensor takes to react to a change in concentration of the gas component. This results in an increased accuracy, for example, in controlling an air-fuel ratio of a mixture to an internal combustion engine in an engine control system. | 02-23-2012 |
20140332378 | HYDROCARBON GAS SENSOR - Provided is a gas sensor capable of accurately obtaining a hydrocarbon gas concentration even if a measurement gas contains water vapor. A main pumping cell adjusts an oxygen partial pressure of a first internal space such that a hydrocarbon gas in a measurement gas is not substantially burned in the first internal space. An auxiliary pumping cell adjusts an oxygen partial pressure of a second internal space such that inflammable gas components except for hydrocarbon are selectively burned. Then, a measuring pumping cell supplies oxygen to a surface of a measuring electrode. As a result, hydrocarbon existing in the measurement gas being in contact with the measuring electrode is all burned on the surface of the measuring electrode and, based on the magnitude of a current flowing between the measuring electrode and a main pumping electrode at that time, identifies a concentration of a hydrocarbon gas component existing in the measurement gas. | 11-13-2014 |
20140332379 | HYDROCARBON GAS SENSOR - Provided is a gas sensor capable of accurately obtaining a hydrocarbon gas concentration even if a measurement gas contains water vapor. A main pumping cell adjusts an oxygen partial pressure of a first internal space such that a hydrocarbon gas in a measurement gas is not substantially burned in the first internal space. An auxiliary pumping cell adjusts an oxygen partial pressure of a second internal space such that inflammable gas components except for hydrocarbon are selectively burned. Then, the measurement gas is introduced into a third internal space through a third diffusion control part. With oxygen concentration equilibrium kept in the third internal space, hydrocarbon existing in the measurement gas that has reached the third internal space is all burned. Then, the concentration of the hydrocarbon gas component existing in the measurement gas is identified based on the magnitude of a current flowing between the measuring electrode and the main pumping electrode at that time. | 11-13-2014 |
204411000 | Three or more electrodes | 2 |
20110100811 | Electrochemical Sensor with Diffusion Labyrinth - The invention relates to an electrochemical sensor including a housing with a chamber containing an electrolyte, at least one measuring electrode for oxygen detection, at least one counter electrode and at least one reference electrode, wherein the sensor has a two-part diffusion barrier, wherein a first part of the barrier forms a labyrinth with a second part of the barrier disposed between the measuring and the counter electrode. | 05-05-2011 |
20160195491 | ION SELECTIVE ELECTRODE | 07-07-2016 |