| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 324201000 | Susceptibility | 15 |
| 20080272766 | Inductive sensor - An inductive sensor is provided having a housing with a sensing face and a sensing unit arranged in the housing. The sensing unit has an oscillatory circuit with at least one inductive element. The at least one inductive element is arranged proximate to the sensing face of the housing and has an outer surface made of copper or a copper alloy. | 11-06-2008 |
| 20090085557 | DETECTION DEVICE AND METHOD - The present invention relates to method and device for detecting changes of a magnetic response of at least one magnetic particle in a carrier fluid. The method comprises: using a measuring procedure comprising measuring the characteristic rotation time of said magnetic particle, said measuring procedure further involving measuring Brownian relaxation in said carrier fluid under influence of an external pulsed excitation magnetic field, and based on said influence of said external pulsed excitation magnetic field measuring a hydrodynamic volume of a particle or a change in a hydrodynamic volume of the particle change upon modification of an effective volume of the particle or its interaction with said carrier fluid by detecting change of magnetization of the particle with time by monitoring change of an output signal in detection coil. | 04-02-2009 |
| 20090102458 | Method for Measuring Magnetic Permeability and Reference Sample Used in the Latter - The invention relates to a method for measuring the magnetic permeability of a magnetic material by measuring the magnetic interaction of an electromagnetic field with this material by using a measuring device including a measuring cell connected through a microwave frequency cable ( | 04-23-2009 |
| 20100013461 | MAGNETIC BODY DETECTOR - To provide a magnetic body detector as a means for warning that a magnetic body enters into a room where a strong magnet, such as an MRI diagnostic system, is installed, wherein | 01-21-2010 |
| 20110140688 | Device for Measuring Alternating Current Magnetic Susceptibility and Method of Measuring the Same - A device for measuring alternating current (AC) magnetic susceptibility and the method for measuring the same are provided. The device comprises an AC magnetic susceptibility coil set, a signal capturing unit, and a signal processing unit. The device detects AC magnetic susceptibility signals from under testing particles in the magnetic field with variable AC frequencies, and extracts the AC magnetic susceptibility intensity variation and phase difference and/or the real part and the imaginary part of the AC magnetic susceptibility by the signal processing unit. | 06-16-2011 |
| 20110304322 | Compact Paramagnetic Oxygen Sensor - An apparatus for the measurement of the magnetic susceptibility of a gas mixture comprises: a gas sample chamber ( | 12-15-2011 |
| 20130002240 | METHOD FOR DETERMINING COERCIVITY OF COERCIVITY DISTRIBUTION MAGNET - According to the present invention, a method for determining coercivity of a coercivity distribution magnet, whereby coercivity of each portion in the coercivity distribution magnet can be determined with good accuracy without, for example, cutting the coercivity distribution magnet into pieces and thus quality assurance can be achieved with good accuracy, is provided. | 01-03-2013 |
| 20130134964 | COIL COMPRISING A WINDING COMPRISING A MULTI-AXIAL CABLE - The present invention relates to a coil comprising a winding ( | 05-30-2013 |
| 20130141080 | COERCIVITY PERFORMANCE DETERMINATION DEVICE FOR COERCIVITY DISTRIBUTION MAGNET - There is provided a coercivity performance determination device for a coercivity distribution magnet that is capable of determining, in a short period of time, with precision, and at as low a testing cost as possible, whether or not each part of one coercivity distribution magnet has a coercivity that is equal to or greater than the required coercivity. A coercivity determining device of the present invention comprises: a substantially C-shaped magnetic body; excitation means that generates a magnetic flow in the magnetic body; and a flux meter that measures the residual magnetic flux of the coercivity distribution magnet. Protrusions are provided at corresponding positions on two opposing end faces of the magnetic body, and the coercivity distribution magnet is held between the two protrusions to form an annular magnetic circuit. An external magnetic field generation means is formed by magnetic regions caused by the protrusions and non-magnetic regions comprising the air in the periphery thereof. An external magnetic field that is generated when magnetism flows through the protrusions is adjusted in such a manner that a reverse magnetic field, which comprises the sum of the external magnetic field and the demagnetizing field of the coercivity distribution magnet, corresponds to the coercivity required of each part of the coercivity distribution magnet. The residual magnetic flux when this has acted as the reverse magnetic field is measured with the flux meter to determine coercivity performance. | 06-06-2013 |
| 20130285648 | MICROFLUIDIC CHIP FOR SUSCEPTIBILITY OF SUPERPARAMAGNETIC NANOPARTICLES OF BEAD AND DROPLET TYPES AND MEASURING METHOD FOR SUSCEPTIBILITY USING THE SAME - The present invention relates to a microfluidic chip for measuring the magnetic susceptibility of a superparamagnetic nanoparticle droplet and a method for measuring magnetic susceptibility using the same. According to the invention, the magnetic susceptibility of a superparamagnetic nanoparticle can be continuously and accurately measured in a flowing fluid using a microfluidic chip including microfluidic channels. | 10-31-2013 |
| 20130300401 | Sensor Apparatus, in Particular Metal Sensor, with a Field-Compensated Magnetic Field Sensor - A sensor apparatus, in particular a metal sensor, has at least two coils and a magnetic field sensor. The arrangement of coils and magnetic sensor with respect to one another and/or the number of coil turns and/or the winding sense of the coils and/or the coil current is/are selected such that the magnetic field generated by the coils approximately disappears at the location of the magnetic field sensor. A method for detecting objects, in particular a method for finding metal objects, uses at least two coils and a magnetic field sensor, particularly an AMR, GMR or Hall sensor. The arrangement of the coils and the magnetic sensor with respect to one another and/or the number of coil turns and/or the winding sense of the coils and/or the coil current is/are selected such that the magnetic field generated by the coils approximately disappears at the location of the magnetic field sensor. | 11-14-2013 |
| 20130335064 | COERCIVE FORCE SPECIFYING APPARATUS - Provided is a coercive-force specifying apparatus capable of creating a demagnetization curve for each divisional area of a coercive-force distributed magnet without breaking the coercive-force distributed magnet and of specifying an average coercive force for each divisional area precisely. A coercive force specifying apparatus of the present invention includes: a yoke including an insertion space into which a coercive-force distributed magnet is to be inserted; a magnetizing coil; a search coil that detects a magnetization change when the magnetic field is applied to the coercive-force distributed magnet; and a tracer that creates a demagnetization curve on a basis of a voltage value generated due to the magnetization change. The end face is provided with two or more loop-shaped thread grooves bored therein, the search coil being provided in each thread groove. The coercive-force distributed magnet includes a divisional area defined so as to correspond to each of the two or more search coils, and a voltage value due to a magnetization change detected by each search coil is transmitted to the tracer for creation of a magnetization curve at a corresponding divisional area as well as for specification of an average coercive force. | 12-19-2013 |
| 20140159706 | TRANSVERSE ELECTROMAGNETIC CELL - A TEM cell includes an untapered region part configured to have a straight-line structure in which a cross-sectional area of an internal space is constantly maintained, tapered region parts coupled between both sides of the untapered region part and a connection part and each configured to have a tapered structure in which the cross-sectional area of the internal space is reduced toward the connection part, wherein a horizontal length of the tapered region part and a horizontal length of the untapered region part are determined in such a way as to reduce an electromagnetic field component in a direction vertical to a cross section of the untapered region part. The EMS evaluation performance of the TEM cell can be improved because an unnecessary electromagnetic field component can be reduced by designing the horizontal length of the untapered region longer than the horizontal length of the tapered region. | 06-12-2014 |
| 20140368191 | APPARATUS AND METHOD FOR METALLIC CONSTRUCTIONS ASSESSMENT - A device for discovering, identification and monitoring, of mechanical flaws in metallic structures is disclosed, based on magneto-graphic/magnetic tomography technique to identify stress-related defects. The device includes registration means that optimized for use with metallic structures of various types, shapes and sizes. Applications include a real-time quality control, monitoring and emergency alarms, as well structural repairs and maintenance work recommendations and planning. Examples of the device implementation include pipes for oil and gas industry monitoring, detection of flaws in rolled products in metallurgical industry, welding quality of heavy duty equipment such as ships, reservoirs. etc. It is especially important for loaded constructions, such as pressured pipes, infrastructure maintenance, nuclear power plant monitoring, bridges, corrosion prevention and environment protection. | 12-18-2014 |
| 20150338376 | METHOD AND APPARATUS FOR MEASURING AN AMOUNT OF SUPERPARAMAGNETIC MATERIAL IN AN OBJECT - Method and apparatus for measuring an amount of superparamagnetic material in an object, the method including a) applying a magnetic field having a first component alternating with a first period to the object and a magnetic field strength lower than a magnetic field strength at which the superparamagnetic material is driven in saturation; b) measuring a first magnetic susceptibility of the object with a detection coil; c) applying a static second component to the magnetic field for a second period being equal or larger than the first period, the strength of the magnetic field during the second period is such that the superparamagnetic material is driven towards saturation; d) measuring a second magnetic susceptibility of the object with the detection coil during the application of the static second component; and e) determining the amount of superparamagnetic material from a difference between the measured first and second susceptibility of the object. | 11-26-2015 |
