Class / Patent application number | Description | Number of patent applications / Date published |
204408000 | With means for temperature or pressure compensation | 27 |
20080283399 | POTENTIOMETRIC PROCESS ANALYTIC SENSOR WITH ISOLATED TEMPERATURE SENSOR - A sensor for analyzing a liquid sample is provided. The sensor includes a sensor body defining a chamber therein. A sensing cell is disposed within the chamber and is adapted to contact the sample solution. The sensing cell has a sensing cell fill solution therein, and a sensing electrode disposed within the sensing cell fill solution. A reference fill solution is disposed within the sensor body. A reference junction is arranged to contact the reference fill solution and the sample solution. A temperature sensitive device is disposed within the body and is configured to provide a temperature sensitive device output. A reference electrode is disposed within the sensor body in contact with the reference fill solution. A solution ground electrode is disposed within the sensor body and spaced from the reference electrode. | 11-20-2008 |
20090008249 | SYSTEMS OF MEASURING A CONCENTRATION OF ALKALOID IN A SOLUTION - An alkaloid sensor, systems comprising the same, and measurement using the systems. The alkaloid sensor has an extended gate field effect transistor (EGFET) structure and comprises a metal oxide semiconductor field effect transistor (MOSFET) on a semiconductor substrate, a sensing unit comprising a substrate, a tin oxide film on the substrate, and an alkaloid acylase film immobilized on the tin oxide film, and a conductive wire connecting the MOSFET and the sensing unit. | 01-08-2009 |
20090242400 | GAS SENSOR, NOx SENSOR AND METHOD OF MANUFACTURING GAS SENSOR - It is an object of the present invention to provide a NOx sensor for accurately obtaining the resistance value of a heater. When a second layer is laminated immediately above a first layer on which the heater for electrically heating the proximity of an inner space of the NOx sensor and two heater leads having substantially same shape which are energizing paths to the heater are formed, the second layer on which at least one of leads is formed out of a first lead for electrically connecting a reference electrode to outside, a second lead for electrically connecting a measuring electrode to outside, and a third lead for electrically connecting a plurality of pump electrodes to outside, the lead formed on the second layer is arranged so as not to overlap any of two heater leads in a laminating direction of the first layer and the second layer. | 10-01-2009 |
20100108511 | High temperature and high pressure reference electrode and method to eliminate the formation of gas bubbles in liquid-filled tubes - A long-term, reliable high pressure reference electrode for high temperature applications was disclosed. This reference electrode has inner and an outer liquid junction plugs. The inner plug provides the function of restraining the outflow of the internal reference electrolyte. The outer plug is chemically and mechanically robust in the external fluid where the reference electrode is used and protects the inner plug from the mechanical and chemical attacks by the harsh external fluid. Therefore, the inner plug can be selected from many of the well-characterized liquid junction plugs used in regular low temperature reference electrodes, without the need for the inner plug to be chemically and mechanically stable in the external fluid, as long as it has the thermal stability. | 05-06-2010 |
20100163411 | GAS SENSOR ELEMENT AND GAS SENSOR INCLUDING THE SAME - The present invention provides, as one aspect, a gas sensor element including a solid electrolytic substance having a bottomed cylindrical shape and oxygen ion conductivity, a reference electrode arranged on an inner side surface of the solid electrolytic substance, a measuring electrode arranged on an outer side surface of the solid electrolytic substance, and a protective layer which covers the outer side surface of the solid electrolytic substance together with the measuring electrode and which allows gas to be measured to pass through the protective layer, wherein an end side of the gas sensor element is formed of a leg portion whose profile line is straight on an axial cross section and a bottom portion whose profile line is curved, and the film thickness of the protective layer of the bottom portion is larger than the film thickness of the protective layer of the leg portion. | 07-01-2010 |
20100264025 | PARTICULATE MATTER SENSOR WITH AN INSULATING AIR GAP - An electrode assembly for a particulate matter sensor in a gas environment. The electrode assembly includes an insulating tube, a conductor, and a positioning structure. The insulating tube has an outer surface and defines an interior cavity with an interior surface. The conductor is disposed within the interior cavity of the insulating tube. The conductor is electrically coupled to an electrode at a first end of the insulating tube and includes a contact portion at a second end of the insulating tube for connection to an external conductor. The positioning structure is coupled to the conductor. The positioning structure mechanically supports the conductor at a distance from the interior surface of the insulating tube to at least partially define an air dielectric gap at approximately a heater location corresponding to a heater. The positioning structure has an outer diameter approximately equal to an inner diameter of the insulating tube and has an inner diameter approximately equal to an outer diameter of the conductor. | 10-21-2010 |
20110127163 | LOW POWER AMPEROMETRIC PROBE - An amperometric probe suitable for monitoring chlorine levels in water is described. The probe has low power consumption and maintenance requirements rendering it particularly suitable for long periods of operation in remote locations with portable power supplies. | 06-02-2011 |
20110139618 | CERAMIC EXHAUST GAS SENSOR - Ceramic exhaust gas sensors are disclosed that offer enhanced dimensional stability during curing, with reduced occurrence of deformations like bending or warping, and can be used in a variety of exhaust gas component sensing applications. The sensors of the invention utilize appropriate selection and orientation of the various layers of green ceramic tape that make up the sensor structure to provide enhanced dimensional stability. | 06-16-2011 |
20110278169 | GAS SENSOR ELEMENT AND GAS SENSOR EQUIPPED WITH THE SAME - A gas sensor element with a bottom part is composed of at least a solid electrolyte body of oxygen ion conductivity, a reference electrode, a detection electrode, an electrode protection layer which supports noble metal catalyst, and a heater. The electrode protection layer is composed of a covering layer, a catalyst layer and a poisoning layer. A quantity of the noble metal catalyst supported in the electrode protection layer at the bottom part of the gas sensor element is larger than that in the electrode protection layer at a leg part of the gas sensor. The bottom part of the gas sensor element has a high temperature rising speed more than the leg part when the heater generates heat energy. | 11-17-2011 |
20110284374 | ELECTROCHEMICAL SENSOR COMPRISING A SUBSTRATE AND AN INJECTION MOULDED REACTION VESSEL AND METHOD OF ITS MANUFACTURE - An electrochemical sensor is described, containing a sensor substrate and at least one set of electrodes comprising a working electrode, a reference electrode and optionally an auxiliary electrode, further containing at least one reaction vessel, which is tightly connected to the sensor substrate and inside which is located at least one working electrode, whereas at least a part of the sensor substrate forms a vessel bottom. The vessel can contain a lid and also other preferred embodiments are described. The invention further describes a method of manufacture of the electrochemical sensor with the integrated reaction vessel, particularly by injection moulding. | 11-24-2011 |
20120067723 | Temperature Control of Chemical Detection System - An apparatus for detecting chemical reactions may be provided. The apparatus may comprise a chemical detection device. The chemical detection device may include a chemical sensor, which may be mounted on the chemical detection device. The apparatus may further comprise a valve block. The valve block may fluidly couple a plurality of reagent containers to the chemical detection device. The apparatus may further comprise a heat exchanger and a controller. The controller may control a fluid connection between the valve block and the chemical detection device. The controller may be also configured to adjust a temperature of a selected reagent from the plurality of reagent containers via the heat exchanger. The temperature of the selected reagent may be adjusted prior to the reagent entering the chemical detection device. | 03-22-2012 |
20120125769 | DEVICE FOR MEASURING PH AT TEMPERATURE - The invention relates to a measuring device ( | 05-24-2012 |
20120125770 | HYDROGEN GAS SENSOR - A hydrogen gas sensor comprising a detection electrode, a reference electrode, and an electrolyte contacting with these electrodes, in which the reference electrode and the detection electrode are composed of a material having a property that hydrogen molecule doesn't voluntarily dissociate into atomic hydrogen on a surface of the electrode in Standard State such as nickel, titanium, copper, tungsten and the like, in which hydrogen gas is detected by an electromotive force generated between the reference electrode and the detection electrode while at least the detection electrode is maintained at a temperature not less than a temperature that hydrogen molecule begins to dissociate into atomic hydrogen voluntarily on the surface of the detection electrode. | 05-24-2012 |
20120247957 | GAS SENSOR - A gas sensor is provided with a multilayer body of solid electrolyte layers, a measurement electrode, a reference electrode, a reference gas introduction layer, a detection unit and a heater. The reference electrode and the measurement electrode are formed directly on the same first solid electrolyte layer. Thus, heat from the heater is transferred from a third substrate layer to the first solid electrolyte layer, and also to the reference electrode and the measurement electrode through the same first solid electrolyte layer. The reference electrode is covered with a reference gas introduction layer, formed of a porous body. The transference of heat from the heater to the reference electrode through the reference gas introduction layer is smaller than the transference of heat from the heater to the reference electrode through the first solid electrolyte layer on which the reference electrode is formed directly. | 10-04-2012 |
20130233708 | GAS SENSOR - A gas sensor element having a chamfered portion. The chamfered portion has a leading end chamfered portion formed in a leading end portion of the gas sensor element, a rear end chamfered portion formed in a rear end portion of the gas sensor element, and an intermediate chamfered portion linking the leading end chamfered portion and rear end chamfered portion. The chamfer angle of the rear end chamfered portion is formed so as to be larger than the chamfer angle of the leading end chamfered portion. | 09-12-2013 |
20130277215 | DIAGNOSTIC DEVICES INCORPORATING FLUIDICS AND METHODS OF MANUFACTURE - The present invention relates to diagnostic devices incorporating electrode modules and fluidics for performing chemical analyses. The invented devices consist of at least one component sensor formed on an electrode module, the sensor being contained within a fluidic housing. The electrode module is a laminate of a perforated epoxy foil and a photo-formed metal foil with sensor membranes deposited into the perforations. The fluidic housing is a diagnostic card consisting of a plastic card-like body, the at least one component sensor, a sealed chamber defined in the card body for containing a fluid, a fluid conduit for fluidically connecting the chamber with the sensor region, a valve for fluidically connecting the chamber to the fluid conduit, and a delivery structure separate and distinct from the valve for forcing fluid from the chamber and into the fluid conduit. | 10-24-2013 |
20140034495 | Sensor Apparatus For Detecting A Gas Concentration And A Particle Concentration Of An Exhaust Gas - A sensor apparatus includes a first electrode and a second electrode at a predefined distance from one another. The sensor apparatus includes a substrate arranged in a predefined first region of the sensor carrier such that the first electrode and the second electrode are substantially electrically decoupled from one another if the outer side of the sensor carrier is substantially free of particles. A third electrode is coupled to a solid electrolyte that is additionally coupled to the second electrode. A diffusion barrier is coupled to the third electrode in a predefined third region and the exhaust gas is applied to the third electrode only in the third region via the diffusion barrier. | 02-06-2014 |
20140048415 | APPARATUS AND PROCESS FOR GAS SENSOR CONTROL - A gas sensor control apparatus includes a heater regulating section to control the supply of electricity to a heater included in a gas sensor, an impedance sensing section to sense an impedance of the gas sensor cell, an impedance condition examining section to examine whether the impedance is greater than or equal to an abnormality threshold, a voltage condition examining section to examine whether a maximum effective voltage is applied to the heater, when the impedance is above the abnormality threshold, a duration measuring section to examine whether an application time duration of the maximum effective voltage becomes equal to or longer than a heater overheat preventing time, and a voltage decreasing section to decrease the heater voltage to such a lower effective voltage as to hold the temperature of the cell higher than or equal to 500° C. when the application time duration reaches the heater overheat preventing time. | 02-20-2014 |
20140083851 | GAS SENSOR - A gas sensor comprises a layered structure with an ionic conductive film and a high gas-permeability interlayer film, a first catalyst electrode and a second catalyst electrode, a conductivity promotion structure, a high-k layer and a current detecting unit. The ionic conductive film includes a material with ionic conductivity ranging from 0.02 to 1000 S/cm. The first catalyst electrode and second catalyst electrode are located on the layered structure and spaced by a predetermined distance for ionizing gas and converting the ionized gas into gas. The conductivity promotion structure includes a material with electronic conductivity ranging from 10 | 03-27-2014 |
20140102897 | THREE COMPARTMENT ELECTROCHEMICAL CELL - Disclosed herein are embodiments of an apparatus for analysis of electrochemical dissolution. One embodiment comprises a working electrode submerged in a first reaction chamber containing liquid electrolyte, a counter electrode submerged in a second reaction chamber containing liquid electrolyte, a reference electrode submerged in a third reaction chamber and electrolytically connected to the working electrode and an ion conductor electrolytically connecting the first reaction chamber and the second reaction chamber while physically separating the first reaction chamber and the second reaction chamber. | 04-17-2014 |
20140144777 | GAS SENSOR - A gas sensor according to the present invention includes a sensor element made of a solid electrolyte and having at least a cylindrical portion arranged coaxially with an axis of the sensor element and a front end portion closing a front end of the cylindrical portion and a heater formed into either a cylindrical shape or a cylindrical column shape and located inside the sensor element to heat the sensor element by heat generation thereof, wherein a front end portion of the heater is in contact with an inner surface of the front end portion of the sensor element; and wherein a lateral portion of the heater is in contact with an inner circumferential surface of the cylindrical portion of the sensor element. | 05-29-2014 |
20140305797 | LAMBDA SENSOR ELEMENT AND METHOD OF MANUFACTURING THE SAME - A lambda sensor element includes a substrate made of an insulating ceramic having a bottomed cylindrical shape, an electrolyte part made of a solid electrolyte, and a pair of electrode portions. The electrolyte part is embedded in at least a portion of the side wall of the substrate. The lambda sensor element is used by inserting a rod-like heater in the substrate having the bottomed cylindrical shape. The substrate is formed of the insulating ceramic at a contact position to the heater within the substrate. In a manufacturing of the substrate, a molded body having a space for a forming position of the electrolyte part is formed by using substrate-forming clay, and then the molded body is molded by filling electrolyte-forming clay into the space. | 10-16-2014 |
20140346041 | CONTROL DEVICE FOR EXHAUST GAS SENSOR - A control device for an exhaust gas sensor includes first means for estimating a temperature of a sensor element in accordance with impedance of a solid electrolyte, and second means for estimating the temperature of the sensor element in accordance with resistance of a heater. A first element temperature according to impedance of the sensor element in a predetermined detection timing is detected by the first means, and a second element temperature according to resistance of a heater of the sensor element in the predetermined detection timing is detected by the second means. The control device corrects the temperature of the sensor element that is estimated in accordance with heater resistance by the second means in accordance with a difference between the first element temperature and the second element temperature. | 11-27-2014 |
20150293053 | GAS SENSOR CONTROL DEVICE - A gas sensor control apparatus ( | 10-15-2015 |
20150293055 | SYSTEM AND APPARATUS FOR DETERMINING TEMPERATURES IN A FLUID ANALYTE SYSTEM - A test sensor includes a body, a first conductive trace, a second conductive trace, and a third conductive trace. The body includes a first region that has a fluid-receiving area, a second region separate from the first region, and a first temperature sensing interface disposed at or adjacent to the fluid-receiving area. The fluid-receiving area receives a sample. The first trace is disposed on the body, and at least a portion of the first trace is disposed in the first region. The second and third traces are disposed on the body. The third trace extends from the first to the second regions. The third trace is connected to the first trace at the first temperature sensing interface. The third trace includes a different material than the first trace. A first thermocouple is formed at the first temperature sensing interface. The thermocouple provides temperature data to determine an analyte concentration. | 10-15-2015 |
20160033442 | TEMPERATURE SENSING ANALYTE SENSORS, SYSTEMS, AND METHODS OF MANUFACTURING AND USING SAME - In some aspects, an analyte sensor is provided for detecting an analyte concentration level in a bio-fluid sample. The analyte sensor has a base, a first electrode and a second electrode wherein a thermocouple portion is provided integral with the second electrode thereby enabling on-sensor temperature measurement capability. In some embodiments, two and only two electrical contact engagement portions are provided thereby simplifying electrical contact. Manufacturing methods and systems utilizing the analyte sensors are provided, as are numerous other aspects. | 02-04-2016 |
20160054256 | GAS SENSOR ELEMENT AND GAS SENSOR - A gas sensor element includes a laminate formed of a detecting element section and a heater section, and a porous protection layer covering a forward end portion of the laminate. The detecting element section has one or more cells having a solid electrolyte body and a pair of electrodes. The heater section has a heater. Side surfaces of the solid electrolyte bodies in parallel with the direction of lamination are covered with dense insulating members. The cell-to-be-controlled is temperature controlled by the heater to 600° C. to 830° C. The porous protection layer is formed on the laminate from a forward end portion to a region which has a temperature of 500° C. or higher when the temperature control is performed, and the porous protection layer is not formed in a region which has a temperature of 300° C. or lower when the temperature control is performed. | 02-25-2016 |