| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 073100030 | Reference standard | 34 |
| 20080264140 | VAPORIZED HYDROGEN PEROXIDE PROBE CALIBRATION RIG - A method and apparatus for calibrating a sensor used to sense the concentration of vaporized hydrogen peroxide (VHP). A concentration of liquid hydrogen peroxide in an aqueous solution is determined and correlated with a corresponding concentration of vaporized hydrogen peroxide indicative of an “actual” vaporized hydrogen peroxide concentration. An error value is determined by comparing the “actual” vaporized hydrogen peroxide concentration to a “measured” vaporized hydrogen peroxide concentration, indicated by the sensor being calibrated. The error value is used to properly calibrate the sensor. | 10-30-2008 |
| 20080282764 | Calibration checking for continuous emissions monitoring system - A continuous emissions monitoring system is in fluid communication with a flue stack conducting exhaust gas from a combustion source. The continuous emissions monitor system comprises an analyzer for measuring concentrations of an analyte present in the exhaust gas. A probe is in fluid communication with the flue stack to acquire a sample of exhaust gas from the flue stack. The probe is also in fluid communication with and located upstream of the analyzer. The probe tends to remove analyte from the sample. A calibration checking system is in fluid communication with the probe. The calibration checking system includes a source that provides a flow of a known concentration of calibration material to be measured by the analyzer. The calibration material is the same as the analyte. A humidifier is associated with the source to provide moisture to a flow of calibration material. The moisture acts to cleanse removed analyte from the probe and thereby enable an accurate measurement of the concentration of the calibration material. | 11-20-2008 |
| 20090000349 | Controlled humidification calibration checking of continuous emissions monitoring system - A continuous emissions monitoring system is in fluid communication with a flue stack conducting exhaust gas from a combustion source. The continuous emissions monitor system comprises an analyzer for measuring concentrations of an analyte present in the exhaust gas. A probe is in fluid communication with the flue stack to acquire a sample of exhaust gas from the flue stack. The probe is also in fluid communication with and located upstream of the analyzer. The probe tends to remove analyte from the sample. A calibration checking system is in fluid communication with the probe. The calibration checking system includes a source that provides a flow of a known concentration of calibration material to be measured by the analyzer. The calibration material is the same as the analyte. A humidifier is associated with the source to provide moisture to a flow of calibration material. The moisture acts to cleanse removed analyte from the probe and thereby enable an accurate measurement of the concentration of the calibration material. A supply system is operatively connected with the humidifier to provide a desired amount of a liquid to the humidifier. | 01-01-2009 |
| 20090078023 | Detection And Quantification Of Biomarkers Via A Piezoelectric Cantilever Sensor - Quantification of a target analyte is performed using a single sample to which amounts of the target analyte are added. Calibration is performed as part of quantification on the same sample. The target analyte is detectable and quantifiable using label free reagents and requiring no sample preparation. Target analytes include biomarkers such as cancer biomarkers, pathogenic | 03-26-2009 |
| 20090100897 | Confidence tester for sensor array detectors - A method of confidence testing in an uncontrolled environment using at least one test analyte in a container; placing the container adjacent to or connected to the detector, where the detector is configured to detect analytes within a threat library comprising the test analyte; releasing the test analyte from the container; detecting the test analyte with the detector; and comparing the detected test analyte with the threat library to determine whether the detector is operating correctly. | 04-23-2009 |
| 20090133464 | OXYGEN SENSOR READINESS DETECTION - An oxygen sensor readiness module comprises a voltage source, a current detection module, and a control module. The voltage source selectively produces a bias signal, which is applied to a sensing element of an oxygen sensor. The current detection module measures a pumping current of the oxygen sensor. The control module generates a readiness signal based upon a comparison of the pumping current with a pumping current threshold. | 05-28-2009 |
| 20090139298 | Disposable measurement arrangement and method of testing and/or calibrating it - A measurement arrangement comprising a flexible disposable container and a disposable measurement probe for measuring an analytical property of a medium. The measurement probe is mounted on an inside wall of the disposable container and comprises a sensing element extending into the container, which is ready to use and which produces reliable measurement results. The disposable measurement arrangement comprises a closed capsule containing a buffer solution and a tether connecting said capsule to said probe. The container, the measurement probe, the capsule and the buffer solution are sterilized. The sensing element is inserted in the buffer solution during storage and the capsule is removed from the sensing element during measurement operation. | 06-04-2009 |
| 20090145195 | Calibration in a Laboratory Reference Method - A method for calibrating a measuring device monitoring at least one measured variable of a measured medium by means of at least a first sensor, wherein the signal of the first sensor is mapped to a measured value on the basis of a mapping specification, and wherein the method includes the following steps: a current measured value of the measuring device is recorded as current calibration measured value; a laboratory reference sample of the measured medium with the properties of the calibrated measured value at the point in time of the recording is supplied to a laboratory reference measuring device; the actual value of the measured variable is ascertained with the laboratory reference measuring device on the basis of the laboratory reference sample and made available and recorded as current laboratory reference measured value; and, on the basis of the current calibration measured value, as well as the current laboratory reference measured value, the mapping specification is updated, characterized in that at least one earlier value pair of a calibration measured value and an associated laboratory reference measured value ascertained in an earlier calibration is taken into consideration for the updating of the mapping specification. | 06-11-2009 |
| 20090151419 | Methods For Checking And Calibrating Concentration Sensors In A Semiconductor Processing Chamber - The present invention provides methods for checking and calibrating one or more concentration sensors in an open or closed system. More specifically, in one embodiment of the present invention, the disclosed method allows for the checking and calibration of one or more concentration sensors in which removal of the liquid from the system is required. In two additional embodiments, the disclosed methods allow for the checking and calibration of one or more concentration sensors without having to remove the liquid from the closed system thereby minimizing contamination of the system while at the same time greatly reducing or eliminating contact of the user with the liquid. | 06-18-2009 |
| 20090308133 | PARTICLE STANDARD AND METHOD OF CALIBRATING OR VALIDATING AN OPTICAL PARTICLE ANALYZER - The present invention provides a particle standard including particles having optical properties similar to those of a carrier in which the particles are dispersed, as well as a method of calibrating or validating a subject optical particle analyzer with respect to a reference optical particle analyzer by using the particle standard. In the method, the particle standard is analyzed with the reference optical particle analyzer to obtain a reference particle concentration and a reference particle-size distribution. Analogously, the particle standard is analyzed with the subject optical particle analyzer to obtain a subject particle concentration and a subject particle-size distribution. The subject particle concentration and the subject particle-size distribution are then compared to the reference particle concentration and the reference particle-size distribution, respectively, and the subject optical particle analyzer is adjusted accordingly. | 12-17-2009 |
| 20100077828 | HYDROGEN SENSOR WITH AIR ACCESS - The invention is directed at a method of sensing hydrogen gas in a liquid comprising: providing a measuring device comprising a hydrogen sensing chamber and a palladium hydrogen sensor mounted in contact with said chamber, positioning a hydrogen permeable membrane between the liquid and the hydrogen sensor and creating a headspace, selectively providing air to the sensor headspace, thereby bringing air into contact with said palladium sensor to refresh the palladium, after the palladium sensor is refreshed shutting off air flow to the sensor headspace, bringing liquid into said chamber, allowing hydrogen to pass through the membrane and reach equilibrium, and reading the hydrogen concentration. | 04-01-2010 |
| 20100089117 | METHOD OF CALIBRATING A WAVELENGTH-MODULATION SPECTROSCOPY APPARATUS - Several methods of calibrating a wavelength-modulation spectroscopy apparatus configured to measure a concentration of an analyte in a sample gas are disclosed. Each of the methods allows for calibration and recalibration using a relatively safe gas regardless of whether the sample gas for which the concentration of the analyte can be determined is a hazardous gas. In one embodiment of the invention, calibration that is sample-gas specific is accomplished by determining a first slope coefficient and calibration function for the sample gas, after which a scaling factor can be determined based on the first slope coefficient and a second slope coefficient for the same or a different sample gas and used in a subsequent calibration (or recalibration) to scale the calibration function. In other embodiments of the invention, calibration that is not sample-gas specific is accomplished to allow for the determination of the analyte concentration in variable gas compositions and constant gas compositions. | 04-15-2010 |
| 20100122564 | Liquid sample evaporator for vapor analysis - Preparation methods for introducing liquid samples to gas analysis instruments include 1) complete evaporation of a liquid sample in a sample chamber, and 2) allowing the sample vapor in the sample chamber to equilibrate for a predetermined time. An inert carrier gas (e.g., dry nitrogen or zero air) is also admitted to the sample chamber. After equilibration, the sample vapor is admitted as a conditioned sample to an analysis instrument. Preferably, the predetermined equilibration time is sufficiently long that the sample vapor in the sample chamber becomes substantially homogeneous with respect to both concentration and isotopic ratio. Vapor derived from a liquid calibration standard in this manner can be employed as an accurate gas-phase calibration reference. | 05-20-2010 |
| 20110061439 | METHODS OF CALIBRATING A FLUID ANALYZER FOR USE IN A WELLBORE - Methods of calibrating a fluid analyzer for use in a wellbore are described. An example method of generating calibration data for a fluid analyzer for use in a downhole tool involves lowering a downhole tool including a fluid analyzer to a location in a wellbore, measuring, via the fluid analyzer, a characteristic value of a calibration fluid or a vacuum while the fluid analyzer is at the location, obtaining an expected characteristic value for the calibration fluid or the vacuum at the location, and comparing the measured characteristic value to the expected characteristic value to generate a calibration value for the fluid. | 03-17-2011 |
| 20110132063 | CALIBRATION SYSTEM AND METHOD OF USING MID-IR LASER MEASURE AND MONITOR EXHAUST POLLUTANT - A method is provided of calibrating a system that detects presence of a pollution component within exhaust gases proceeding along an exhaust passageway. A measurement cell of a probe is isolated by movement of either the entire probe or a shield within the probe from the exhaust gas to allow reference gas to be detected by a laser beam in the mid-infrared range in the measurement cell to calibrate the system. In another example, a laser source is placed on one side of an exhaust passageway and a detector is placed on the other side. A reference cell is provided that is used to receive reference gas and calibrate the system. In yet another example, the exhaust gas is extracted from the passageway and is measured in a reference cell. The reference cell is also filled with reference gas when it is desired to calibrate the system. | 06-09-2011 |
| 20110154880 | CALIBRANT INFUSION FLUID SOURCE PREPARATION - Methods and systems for preparation of calibrant infusion fluid sources are disclosed. In one embodiment, a precise volume of glucose is injected into a saline-solution filled calibrant infusion fluid source proximate in time to conducting a calibration procedure. The glucose concentration in the calibrant infusion fluid source is subsequently calculated based on the measured weight of the saline-solution, as determined prior to glucose injection, and the volume of glucose injected. This method provides a highly accurate and convenient manner for use in a hospital environment, for example, with an intravenous blood glucose sensor system. In another embodiment, a premixed calibrant infusion fluid source is provided that includes saline solution and a predetermined concentration of glucose. In such embodiments, shelf life problems related to water evaporation are mitigated by hermetically covering or otherwise hermetically containing the calibrant infusion fluid source up until the point of use. | 06-30-2011 |
| 20120103054 | CALIBRATION METHOD IN MEASUREMENT OF HEMOGLOBIN A1c - A calibration method that enables calibration easily in a short time in a measurement of hemoglobin A1c by use of a separation analysis is provided. In a measurement of a hemoglobin A1c amount by use of a separation analysis, a one-point calibration using a single calibration standard is performed to obtain calibration data to be used for correcting a measured value. | 05-03-2012 |
| 20120240656 | Sensor Calibration - A sensor kit comprising a sensor for detecting an analyte, a sensor housing and a calibration chamber. The calibration chamber comprises a first compartment containing a first calibration solution and a second compartment containing a source of the analyte to be detected. A dividing material is located between the first and second compartments enabling them to be mixed on breakage or removal of the dividing material. Further compartment(s) containing further source(s) of the analyte may optionally be provided. Calibration can carried out by (a) taking a reading of the analyte concentration of the first calibration solution, (b) mixing the contents of the first and second compartments by breaking or removing the dividing material, and (c) taking a reading of the analyte concentration of the resulting mixture. Steps (b) and (c) can be repeated for further compartment(s) to provide further reading(s) if desired. | 09-27-2012 |
| 20120272709 | BIOLOGICAL COMPONENT-MEASURING DEVICE AND METHOD FOR CALIBRATING THE SAME - This invention provides a biological component-measuring device, enabling the operator to easily calibrate the entire device and capable of measuring biological components accurately, and a method for calibrating the device. The device measures a sample including a body fluid taken through a body fluid sampler by sending it with a pump through a sample channel to a sensor. The device further includes a calibrating liquid channel through which a calibrating liquid can be supplied to the sensor via the sample channel by a switching of a first flow path changeover valve placed in the sample channel at a location upstream of the pump and connected to the channel. The method includes introducing the calibrating liquid in the calibrating liquid channel, via other channels, into the sensor by switching the valve. | 11-01-2012 |
| 20120304730 | METHODS, SYSTEMS, AND APPARATUS FOR GENERATING A GAS STREAM HAVING A DESIRED PARTICULATE MATERIAL CONCENTRATION - A method validating a particulate monitoring device includes generating a final gas stream having a particulate material concentration that corresponds to a target particulate material concentration, using the particulate monitoring device to measure the particulate material concentration in the final gas stream, and evaluating an accuracy of the particulate monitoring device based on a comparison of the particulate concentration in the final gas stream that was measured by the particulate monitoring device with the target particulate material concentration. | 12-06-2012 |
| 20130074575 | METHOD AND TEST DEVICE FOR FIELD CALIBRATION OF A GAS DETECTOR - A method and test devices are used for field calibration of gas detectors. Brand new gas detectors are used as measurement standards in field calibration. The brand new gas detectors are in this case either employed directly as working standards, in which case the regular calibration by a reference standard is dispensed with, since the brand new gas detectors are always deemed to be sufficiently accurate. Alternatively, the brand new gas detectors are employed directly, namely as sufficiently accurately calibrated reference standards for the reference gas sensors acting as working standards and incorporated into the test device. In both cases the measured values of the gas sensors in the gas detectors to be calibrated are fed back to a sufficiently calibrated system, namely either directly to at least one brand new gas detector as a working standard or else to a reference sensor of a calibrated test device. | 03-28-2013 |
| 20130219983 | RHEOMETER STANDARDISATION - A rheometer is standardized to a prescribed rheological measurement reference standard by: a so-called ‘Cluster Die’, with one or more die orifices matched to a standard Melt Flow Index Die; an orifice matched to a standard Melt Flow Index Die to produce both a ‘multiplier’ pressure drop and equivalent overall rheological effect; individual or combined regional adjustments; a slow matching taper to conjoin two flow regions with minimal interference of flow pattern or pressure drop; thermometer placement in the body surrounds of a heated die; calibration of a thermometer for die melt temperature by a combination of temporary and permanent placements of other thermometers; a temperature stabilization device for melt pressure transducers of rigid or flexible stem construction; a polymer plant gear pump polymer melt drive adapted for rheometry using internal flow restriction as a rheometer die. | 08-29-2013 |
| 20130228002 | CALIBRANT INFUSION FLUID SOURCE PREPARATION - Methods and systems for preparation of calibrant infusion fluid sources are disclosed. In one embodiment, a precise volume of glucose is injected into a saline-solution filled calibrant infusion fluid source proximate in time to conducting a calibration procedure. The glucose concentration in the calibrant infusion fluid source is subsequently calculated based on the measured weight of the saline-solution, as determined prior to glucose injection, and the volume of glucose injected. This method provides a highly accurate and convenient manner for use in a hospital environment, for example, with an intravenous blood glucose sensor system. In another embodiment, a premixed calibrant infusion fluid source is provided that includes saline solution and a predetermined concentration of glucose. In such embodiments, shelf life problems related to water evaporation are mitigated by hermetically covering or otherwise hermetically containing the calibrant infusion fluid source up until the point of use. | 09-05-2013 |
| 20130247643 | METHOD OF CALIBRATING AN AIR SENSOR - One embodiment of the invention provides an air treatment device. The air treatment device comprises: an air purifying unit, configured to purify air; an air sensor, configured to measure a first air quantity and provide a measurement output, wherein the first air quantity comprises the purified air purified by the air purifying unit; and a processor, configured to generate a first value based on the measurement output of the air sensor so as to calibrate the air sensor. With the air treatment device of one embodiment of the invention, clean air, i.e. zero air, is generated locally by the air treatment device so as to calibrate the air sensor, without the need for externally generating the zero air, which brings convenience for the user or other operators performing calibration of the air sensor of the air treatment device. Another embodiment of the invention also provides a method of calibrating an air sensor of an air treatment device. The method comprises the steps of: purifying air by using the air treatment device; and measuring a first air quantity by using the air sensor to get a first value so as to calibrate the air sensor, wherein the first air quantity comprises the purified air. | 09-26-2013 |
| 20130276507 | MULTI-REFERENCE SAMPLE VALIDATION SYSTEM AND METHOD - Validation systems and methods are described. Specifically, the disclosed validation system has the ability to simultaneously or sequentially analyze the Reid Vapor Pressure (RVP) or any other property of process samples taken from the same or different sources. The validation system is scalable to validate with multiple reference samples to one or multiple analyzers. The system is also scalable to operate multiple streams of a single or multiple fuels to multiple analyzers. | 10-24-2013 |
| 20130291618 | CALIBRATABLE SENSOR UNIT FOR REACTION VESSELS - The present invention relates to a calibration method of a sensor unit connected to a reaction vessel, wherein the sensor unit comprises at least one sensor device configured to be calibrated, at least one compartment containing a calibrating agent, and a housing. The method comprising inserting a sensitive element of the at least one sensor device into a compartment of the sensor unit containing a calibrating agent, withdrawing the sensitive element from the compartment; inserting the sensitive element into the reaction vessel and locking the sensor device in position, wherein the steps of the method are irreversible. | 11-07-2013 |
| 20130327118 | METHODS FOR AN EXHAUST FLUID SENSOR - Various methods are provided for diagnosing an exhaust fluid sensor disposed in an exhaust fluid passage. By monitoring the sensor during conditions when it is in contact with the exhaust fluid and when it is not in contact with the exhaust fluid, an expected change in the sensor output can be monitored to identify whether the sensor is generating sufficiently accurate readings. | 12-12-2013 |
| 20140013819 | OXYGEN SENSOR CONTROLLING APPARATUS, OXYGEN SENSOR CONTROLLING METHOD AND COMPUTER READABLE RECORDING MEDIUM - An oxygen sensor controlling apparatus includes: a controller configured to obtain a degradation index of a detection element; obtain a sensor output; detect an internal resistance of the detection element by causing a temporary change between electrodes of the detection element; successively obtain a target resistance value corresponding to the internal resistance using a first sensor output that is a value of the sensor output obtained at a time before or after a period when the temporary change occurs and the degradation index; and feedback control energization of the heater so that the internal resistance becomes the target resistance value. | 01-16-2014 |
| 20140060145 | Analyte Monitoring Methods, Devices and Systems for Recommending Confirmation Tests - In some aspects, methods, devices, and systems for monitoring sensor data and indicating recommendations for confirmation tests on a user interface are provided. Sensor data is received and is monitored to detect predetermined signal characteristics that are associated with a likelihood of inaccuracy of the sensor data. A recommendation for a confirmation test to be performed is indicated on a user interface after the occurrence of a predetermined signal characteristic is detected. | 03-06-2014 |
| 20140238100 | METHOD FOR CALIBRATION OF SENSORS EMBEDDED OR WIRELESSLY CONNECTED TO A MOBILE DEVICE - Methods, systems, computer-readable media, and apparatuses for obtaining accurate gas sensor data are presented. A mobile device may receive gas sensor data from at least one gas sensor. The mobile device can include the at least one gas sensor and at least one environmental component. Additionally, the mobile device may receive environmental data from the at least one environmental component. Subsequently, the mobile device may calibrate the received gas sensor data based on the received environmental data and one or more reference characteristic curves. In one or more arrangements, the gas sensor can be a Metal Oxide Semiconductor (MOS) gas sensor or an electrochemical gas sensor configured to sense carbon monoxide. | 08-28-2014 |
| 20150075249 | SYSTEMS AND METHODS FOR GENERATION OF HYDROGEN PEROXIDE VAPOR - A method according one embodiment includes at least one of bubbling dried air through a hydrogen peroxide solution in a container for producing a first hydrogen peroxide vapor, and passing dried air from the moisture trap into a headspace above the hydrogen peroxide solution in a container for producing a second hydrogen peroxide vapor. Additional systems and methods are also presented. | 03-19-2015 |
| 20150362384 | METHOD FOR DETERMINING SENSING VALUE AND ELECTRONIC DEVICE PERFORMING THE SAME - Methods and apparatuses are provided for determining a sensing value. An electronic device receives, from an external device, a reference sensing value related to a sensor of the electronic device. An initial sensing value is determined by measuring a parameter with the sensor. It is determined whether the initial sensing value is within an error range of the reference sensing value. The initial sensing value is compensated with the reference sensing value, if the initial sensing value is not within the error range. The sensor determines a sensing value based on the compensated sensing value. The sensing value is repeatedly determined until the sensing value is within the error range or until a set time expires. | 12-17-2015 |
| 073100040 | Permeable outlet or flawed element | 1 |
| 20090038370 | CALIBRATION AND VERIFICATION TOOL AND METHOD FOR CALIBRATING A DETECTION APPARATUS - The calibration tool is provided for use with a detector, such as a detector for detecting trace amounts of one or more substances of interest. The calibration tool includes a body with at least one reservoir for retaining the calibration solution therein. A nib projects from the body and communicates with the reservoir. The nib can be wiped across a detection surface and the detection surface then may be presented to a detector. The detector then can be calibrated for the particular substance of interest in the calibration solution. The calibration tool may include plural reservoirs isolated from one another and plural nibs for applying the calibration solution to a detection surface. | 02-12-2009 |
| 073100050 | Piston, sprayer, nozzle, or orifice | 1 |
| 20110061440 | DEVICE AND METHOD FOR METERING MATERIALS INTO A CARRIER MATRIX - A material transport and event control in systems with piezoelectrically activated droplet emission including a device for metering a material into a carrier matrix, having a carrier matrix source ( | 03-17-2011 |
