Taniguchi, Kyoto-Shi
Hideo Taniguchi, Kyoto-Shi JP
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20140285607 | HEATING HEAD UNIT AND HEATING HEAD - A heating head with not so long heating elements to be connected, being adaptable to long and two-dimensional media. On one surface of a rectangular head substrate having long and short sides, a strip-like heating element is provided continuously from end to end of the substrate along the long side thereof. A pair of electrode connecting portions including the same material as that of the heating element and extending along the short sides of the substrate is provided at both ends of the heating element. A pair of electrodes is formed on one surface of the substrate between the heating element and a side edge of the long side at the electrode connecting portion side, so as to be partially overlapping with the electrode connecting portions, respectively, thereby effecting electrical connection, and a substrate temperature control means is provided. | 09-25-2014 |
Isao Taniguchi, Kyoto-Shi JP
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20110063588 | SUBSTRATE PROCESSING APPARATUS, SUBSTRATE PROCESSING SYSTEM AND INSPECTION/PERIPHERY EXPOSURE APPARATUS - An edge exposure unit includes a projector, a projector holding unit, a substrate rotating unit, an outer edge detecting unit and a surface inspection processing unit. Each component of the projector holding unit operates to move the projector in an X direction and a Y direction. The projector irradiates a peripheral portion of a substrate with light transmitted from a light source for exposure through a light guide. Edge sampling processing is performed based on distribution of an amount of light received in a CCD line sensor of the outer edge detecting unit. Surface inspection processing is performed based on distribution of an amount of light received in a CCD line sensor of the surface inspection processing unit. | 03-17-2011 |
Junichi Taniguchi, Kyoto-Shi JP
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20110095180 | Mass Spectrometer - In performing an isolation of specific ions or performing a dissociation operation by CID, ions are captured by applying a radio-frequency high voltage to a ring electrode | 04-28-2011 |
20120138788 | Ion Trap Time-Of-Flight Mass Spectrometer - A technique for improving the mass-resolving power of an ion trap time-of-flight mass spectrometer is provided. At the final stage of a cooling process before the ejection of ions from an ion trap, the frequency of a rectangular-wave voltage applied to a ring electrode of the ion trap is increased for a few to several cycles. This operation reduces the confining potential depth of the ion trap and decelerates the captured ions. The turn-around time of the ions is shortened when the rectangular-wave voltage is halted and an accelerating electric field is created. Thus, the variation in the time of flight of the ions with the same mass-to-charge ratio is reduced. The time for increasing the frequency is determined so that a spread of the ions because of the depth reduction of the confining potential will fall within the range that can be corrected in the time-of-flight mass spectrometer. | 06-07-2012 |
20120292499 | ION TRAP DEVICE - When ions accumulated in the exit side end of ion guide are to be injected into ion trap as packets, the application of square wave high frequency voltage to ring electrode from main voltage generating unit is stopped. Once nearly all the ions have been injected into ion trap, the application of square wave high frequency voltage from main voltage generating unit to ring electrode is momentarily started, at which time the application of square wave high frequency voltage is started from a phase in the range of 90°±40° or 270°±40°. It is thereby possible to reduce the extent of spread of ions immediately after application of high frequency voltage and to improve the ion trapping efficiency. | 11-22-2012 |
20130082171 | Ion Trap Mass Spectrometer - An ion trap mass spectrometer with high sensitivity for detection in the high mass-to-charge ratio is provided. with separate measurement of square-wave voltages on the positive and negative electrode sides applied to a ring electrode in rectifying circuits and smoothing the measured voltages in integrating circuits, respectively, the areas of square-wave voltages on the positive and negative electrode sides are replaced with the peak values h | 04-04-2013 |
20130313421 | ION GUIDE AND MASS SPECTROMETRY DEVICE - An electrode changeover switch which switches the connection state of electrodes is provided in the wiring path between eight electrodes through, arranged rotation-symmetrically about ion optical axis, and voltage generation switch which generates square wave high voltage ±V. When switch is switched as shown in the drawing, two circumferentially adjacent rod electrodes are connected to form one set, a square wave voltage of opposite phase is applied to circumferentially adjacent sets, and an effectively quadrupole electric field is formed. When switch is switched, a square wave voltage of opposite phase is applied to circumferentially adjacent rod electrodes and an octupole electric field is formed. In this way, by switching the switch according to the mass range, etc., it becomes possible to rapidly switch the number of poles of a multipole electric field and to suitably transport ions. | 11-28-2013 |
Kazutaka Taniguchi, Kyoto-Shi JP
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20120081681 | DRAWING DEVICE AND DRAWING METHOD - A drawing device draws a pattern on a substrate by radiating light from an optical head part on a target object (for example, substrate) which relatively moves with respect to the optical head part. Here, the optical head part has a spatial modulating unit which spatially modulates light from a light source, based on pattern data, and an optical path corrector which shifts the route of light spatially modulated in the spatial modulating unit at precision subdivided more than units of spatial modulation in the spatial modulating unit (more specifically, for example, units of pixels of spatial light modulator). | 04-05-2012 |
Minoru Taniguchi, Kyoto-Shi JP
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20110224560 | SPHYGMOMANOMETER CUFF AND SPHYGMOMANOMETER PROVIDED WITH THE SAME - A sphygmomanometer cuff is provided with an upper arm support stand arranged to support an upper arm, and an arm band arranged to be wound around the upper arm. The upper arm support stand includes an upper arm support surface arranged to support the upper arm while the upper arm is placed thereon, a winding mechanism arranged to pull one end of the arm band in the winding direction so as to wind a portion of the arm band close to the one end, and a hook arranged to engage a portion of the arm band close to another end pulled out from the winding mechanism against a pulling force applied by the winding mechanism. The upper arm supported on the upper arm support stand is tightened by the upper arm support surface and the portion of the arm band pulled out from the winding mechanism in a state where the portion of the arm band close to the other end is engaged with the hook. With such a configuration, the sphygmomanometer cuff is capable of being easily attached to the upper arm serving as a measurement site having a difference in size as well as repeating reliable winding around the upper arm in every measurement. | 09-15-2011 |
Yuki Taniguchi, Kyoto-Shi JP
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20130058659 | PERIPHERAL DEVICE, INFORMATION PROCESSING SYSTEM, AND METHOD FOR CONNECTING THE PERIPHERAL DEVICE - An example of peripheral device adds a predetermined function to a mobile device having an infrared communication function. The peripheral device includes an additional function unit, an infrared communication unit, and a support unit. The additional function unit has the predetermined function. The infrared communication unit is capable of performing infrared communication with the mobile device. The support unit detachably supports the mobile device so that a light emitting/receiving unit for infrared light of the mobile device is positioned so as to be capable of transmitting or receiving infrared light to or from the infrared communication unit. | 03-07-2013 |