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1
EP3783878A1
IMAGE CAPTURE APPARATUS AND CONTROL METHOD THEREFOR
Publication/Patent Number: EP3783878A1 Publication Date: 2021-02-24 Application Number: 20188315.4 Filing Date: 2020-07-29 Inventor: Ogino, Hiroshi   Assignee: CANON KABUSHIKI KAISHA   IPC: H04N5/232 Abstract: An image capture apparatus (100) comprises a first signal processing circuit (103) that generates image data for display by applying signal processing for display to image data obtained from an image sensor (102) and a second signal processing circuit (104) that generates image data for recording by applying signal processing for recording to the image data obtained from the image sensor (102). The image capture apparatus further comprises a recording circuit (108) that records, in association with the image data for recording, information from which settings of the signal processing for display can be identified.
2
US2021058546A1
IMAGE CAPTURE APPARATUS AND CONTROL METHOD THEREFOR
Publication/Patent Number: US2021058546A1 Publication Date: 2021-02-25 Application Number: 16/995,409 Filing Date: 2020-08-17 Inventor: Ogino, Hiroshi   Assignee: CANON KABUSHIKI KAISHA   IPC: H04N5/232 Abstract: An image capture apparatus comprises a first signal processing circuit that generates image data for display by applying signal processing for display to image data obtained from an image sensor and a second signal processing circuit that generates image data for recording by applying signal processing for recording to the image data obtained from the image sensor. The image capture apparatus further comprises a recording circuit that records, in association with the image data for recording, information from which settings of the signal processing for display can be identified.
3
US10903106B2
Layered body of temporary adhesive
Publication/Patent Number: US10903106B2 Publication Date: 2021-01-26 Application Number: 15/313,632 Filing Date: 2015-06-08 Inventor: Kamibayashi, Satoshi   Ogino, Hiroshi   Enomoto, Tomoyuki   Sawada, Kazuhiro   Assignee: NISSAN CHEMICAL INDUSTRIES, LTD.   IPC: H01L21/683 Abstract: A temporary adhesive is good peelability, heat resistance and cleaning removability after polishing of the rear surface of the wafer. A layered body for processing a rear surface of a wafer opposite to a circuit surface of the wafer, the layered body being a temporary adhesive loaded between a support and circuit surface of the wafer and including an adhesive layer (A) that includes a polyorganosiloxane to be cured by a hydrosilylation reaction and is releasably bonded, and a separation layer (B) includes a polyorganosiloxane and is releasably bonded, in which the polyorganosiloxane forming the separation layer (B) is a polyorganosiloxane containing a siloxane unit of RRSiO2/2 (provided that each R is bonded to a silicon atom as a Si—C bond), and at least one R is an aralkyl group, epoxy group, or phenyl group. Methods for producing and separating these layered bodies and composition for forming the separation layer.
4
US2021091693A1
THYRISTOR STARTER
Publication/Patent Number: US2021091693A1 Publication Date: 2021-03-25 Application Number: 16/970,533 Filing Date: 2018-02-19 Inventor: Kawaguchi, Hironori   Ogino, Hiroshi   Matsumoto, Yasuaki   Ando, Akinobu   Assignee: TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION   IPC: H02P6/28 Abstract: A converter controller configured to control a firing phase of a converter includes an integral element integrating a deviation of DC current from a current command value and generates a voltage command value of output voltage of the converter by performing control calculation of the deviation. In a first mode of performing commutation of an inverter by intermittently setting DC current to zero, the converter controller sets DC current to zero for a predetermined pause time by narrowing a phase control angle simultaneously with a commutation command for the inverter. When the control calculation is resumed immediately after the pause time, the converter controller uses a control amount calculated in control calculation immediately before the pause time as a preset value of the integral element immediately after the pause time.
5
US10951144B2
Thyristor starter
Publication/Patent Number: US10951144B2 Publication Date: 2021-03-16 Application Number: 16/611,155 Filing Date: 2017-06-21 Inventor: Matsumoto, Yasuaki   Ogino, Hiroshi   Kawaguchi, Hironori   Ando, Akinobu   Assignee: TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION   IPC: H02P9/08 Abstract: A thyristor starter is configured to accelerate a synchronous machine from a stop state to a predetermined rotation speed by sequentially performing a first mode of performing commutation of an inverter by intermittently setting DC output current of a converter to zero and a second mode of performing commutation of the inverter by induced voltage of the synchronous machine. In a first case in which a first synchronous machine having a first inductance is started, a switching rotation speed for switching from the first mode to the second mode is set to a higher rotation speed, compared with a second case in which a second synchronous machine having a second inductance larger than the first inductance is started.
6
EP3790038A1
TEMPORARY ADHESIVE CONTAINING POLYSILOXANE THAT CONTAINS HEAT RESISTANT POLYMERIZATION INHIBITOR
Publication/Patent Number: EP3790038A1 Publication Date: 2021-03-10 Application Number: 19796150.1 Filing Date: 2019-04-23 Inventor: Sawada, Kazuhiro   Moriya, Shunsuke   Shinjo, Tetsuya   Ogino, Hiroshi   Okuno, Takahisa   Assignee: Nissan Chemical Corporation   IPC: H01L21/304 Abstract: There is provided a temporary adhesive without the formation of voids between a support and a wafer. A temporary adhesive for separatably attaching a support to a circuit side of a wafer to process a rear surface of the wafer, the temporary adhesive comprising a component (A) that is cured by a hydrosilylation reaction; a polymerization inhibitor (B) having a 5% mass decrease temperature of 80°C or higher as measured using a Tg-DTA; and a solvent (C). The component (A) may comprise a polysiloxane (A1) including a polyorganosiloxane (a1) containing a C1-10 alkyl group and a C2-10 alkenyl group, and a polyorganosiloxane (a2) containing a C1-10 alkyl group and a hydrogen atom; and a platinum group metal-based catalyst (A2). The polymerization inhibitor (B) may be a compound of formula (1): (wherein Rand R8 are each a C6-40 aryl group, or a combination of a C1-10 alkyl group and a C6-40 aryl group).
7
US2021130666A1
POLYSILOXANE-CONTAINING TEMPORARY ADHESIVE COMPRISING HEAT-RESISTANT POLYMERIZATION INHIBITOR
Publication/Patent Number: US2021130666A1 Publication Date: 2021-05-06 Application Number: 17/052,223 Filing Date: 2019-04-23 Inventor: Sawada, Kazuhiro   Moriya, Shunsuke   Shinjo, Tetsuya   Ogino, Hiroshi   Okuno, Takahisa   Assignee: NISSAN CHEMICAL CORPORATION   IPC: C09J183/04 Abstract: A temporary adhesive without the formation of voids between a support and a wafer. A temporary adhesive for separatably attaching a support to a circuit side of a wafer to process a rear surface of the wafer, the temporary adhesive including a component (A) that is cured by a hydrosilylation reaction; a polymerization inhibitor (B) having a 5% mass decrease temperature of 80° C. or higher as measured using a Tg-DTA; and a solvent (C). The component (A) may include a polysiloxane (A1) including a polyorganosiloxane (a1) containing a C1-10 alkyl group and a C2-10 alkenyl group, and a polyorganosiloxane (a2) containing a C1-10 alkyl group and a hydrogen atom; and a platinum group metal-based catalyst (A2). The polymerization inhibitor (B) may be a compound of formula (1): (wherein R7 and R8 are each a C6-40 aryl group, or a combination of a C1-10 alkyl group and a C6-40 aryl group).
8
US2021083602A1
THYRISTOR STARTER
Publication/Patent Number: US2021083602A1 Publication Date: 2021-03-18 Application Number: 16/620,049 Filing Date: 2017-06-21 Inventor: Matsumoto, Yasuaki   Ogino, Hiroshi   Kawaguchi, Hironori   Ando, Akinobu   Miyatake, Ryoji   Kataoka, Michio   Assignee: TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION   IPC: H02P1/46 Abstract: A thyristor starter is configured to accelerate a synchronous machine from a stop state to a predetermined rotation speed by sequentially performing a first mode of performing commutation of an inverter by intermittently setting DC output current of a converter to zero and a second mode of performing commutation of the inverter by induced voltage of the synchronous machine. The thyristor starter is further configured to raise induced voltage in proportion to the rotation speed of the synchronous machine by keeping field current constant and to suppress rise of the induced voltage by reducing the field current after the induced voltage reaches a first voltage value, in the first mode.
9
EP3644493A1
THYRISTOR STARTING DEVICE
Publication/Patent Number: EP3644493A1 Publication Date: 2020-04-29 Application Number: 17914125.4 Filing Date: 2017-06-21 Inventor: Matsumoto, Yasuaki   Ogino, Hiroshi   Kawaguchi, Hironori   Ando, Akinobu   Assignee: Toshiba Mitsubishi-Electric Industrial Systems Corporation   IPC: H02P1/46 Abstract: A thyristor starter (100) accelerates a synchronous machine (20) from a stop state to a predetermined rotation speed by sequentially performing a first mode of performing commutation of an inverter (2) by intermittently setting DC output current (Id) to zero and a second mode of performing commutation of the inverter (2) by induced voltage of the synchronous machine (20). A second controller (13) controls the firing phase of a thyristor in a converter such that DC output current of the converter (1) matches a current command value, based on a detection signal of a position detector (7). In the first mode, the current command value is set such that the current value is higher as the rotation speed of the synchronous machine (20) is higher.
10
EP2849335B1
DC VOLTAGE DETECTOR AND POWER CONVERSION DEVICE USING SAME
Publication/Patent Number: EP2849335B1 Publication Date: 2020-06-10 Application Number: 12876424.8 Filing Date: 2012-05-11 Inventor: Ogino, Hiroshi   Ando, Akinobu   Hosokawa, Yasuhiko   Assignee: Toshiba Mitsubishi-Electric Industrial Systems Corporation   IPC: G01R19/00
11
EP3758217A1
THYRISTOR STARTING DEVICE
Publication/Patent Number: EP3758217A1 Publication Date: 2020-12-30 Application Number: 18906487.6 Filing Date: 2018-02-19 Inventor: Kawaguchi, Hironori   Ogino, Hiroshi   Matsumoto, Yasuaki   Ando, Akinobu   Assignee: TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION   IPC: H02P27/06 Abstract: A converter controller (13) configured to control a firing phase of a converter (1) at least includes an integral element integrating a deviation of DC current from a current command value and generates a voltage command value of output voltage of the converter (1) by performing control calculation of the deviation. In a first mode of performing commutation of an inverter (2) by intermittently setting DC current to zero, the converter controller (13) sets DC current to zero for a predetermined pause time by narrowing a phase control angle simultaneously with a commutation command for the inverter (2). When the control calculation is resumed immediately after the pause time, the converter controller (13) uses a control amount calculated in control calculation immediately before the pause time as a preset value of the integral element immediately after the pause time.
12
US2020076339A1
THYRISTOR STARTER
Publication/Patent Number: US2020076339A1 Publication Date: 2020-03-05 Application Number: 16/611,155 Filing Date: 2017-06-21 Inventor: Matsumoto, Yasuaki   Ogino, Hiroshi   Kawaguchi, Hironori   Ando, Akinobu   Assignee: TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION   IPC: H02P9/08 Abstract: A thyristor starter is configured to accelerate a synchronous machine from a stop state to a predetermined rotation speed by sequentially performing a first mode of performing commutation of an inverter by intermittently setting DC output current of a converter to zero and a second mode of performing commutation of the inverter by induced voltage of the synchronous machine. In a first case in which a first synchronous machine having a first inductance is started, a switching rotation speed for switching from the first mode to the second mode is set to a higher rotation speed, compared with a second case in which a second synchronous machine having a second inductance larger than the first inductance is started.
13
EP3644498A1
THYRISTOR STARTUP DEVICE
Publication/Patent Number: EP3644498A1 Publication Date: 2020-04-29 Application Number: 17914666.7 Filing Date: 2017-06-21 Inventor: Kawaguchi, Hironori   Ando, Akinobu   Ogino, Hiroshi   Matsumoto, Yasuaki   Assignee: Toshiba Mitsubishi-Electric Industrial Systems Corporation   IPC: H02P27/06 Abstract: A thyristor starter (100) accelerates a synchronous machine (20) from a stop state to a predetermined rotation speed by sequentially performing a first mode of performing commutation of an inverter (2) by intermittently setting DC output current of a converter (1) to zero and a second mode of performing commutation of the inverter (2) by induced voltage of the synchronous machine (20). In the thyristor starter (100), during a first time period from start of performance of the second mode to arrival of the induced voltage of the synchronous machine (20) at a first voltage value, a phase control angle of the inverter (2) is changed such that a value thereof becomes larger as a rotation speed of the synchronous machine (20) becomes higher.
14
EP2892149B1
THYRISTOR ACTIVATION DEVICE
Publication/Patent Number: EP2892149B1 Publication Date: 2020-12-16 Application Number: 12883614.5 Filing Date: 2012-08-29 Inventor: Ogino, Hiroshi   Ando, Akinobu   Hosokawa, Yasuhiko   Matsumoto, Yasuaki   Assignee: Toshiba Mitsubishi-Electric Industrial Systems Corporation   IPC: H02P27/06
15
US2020177111A1
THYRISTOR STARTER
Publication/Patent Number: US2020177111A1 Publication Date: 2020-06-04 Application Number: 16/611,012 Filing Date: 2017-06-21 Inventor: Matsumoto, Yasuaki   Ogino, Hiroshi   Kawaguchi, Hironori   Ando, Akinobu   Assignee: TOSHIBA MITSUBISHI-ELECTRIC INDUSTRIAL SYSTEMS CORPORATION   IPC: H02P1/46 Abstract: A thyristor starter accelerates a synchronous machine from a stop state to a predetermined rotation speed by sequentially performing a first mode of performing commutation of an inverter by intermittently setting DC output current to zero and a second mode of performing commutation of the inverter by induced voltage of the synchronous machine. A second controller controls the firing phase of a thyristor in a converter such that DC output current of the converter matches a current command value, based on a detection signal of a position detector. In the first mode, the current command value is set such that the current value is higher as the rotation speed of the synchronous machine is higher.
16
EP3139488B1
DC VOLTAGE DETECTOR AND POWER CONVERSION DEVICE USING SAME
Publication/Patent Number: EP3139488B1 Publication Date: 2020-06-10 Application Number: 16192475.8 Filing Date: 2012-05-11 Inventor: Ogino, Hiroshi   Ando, Akinobu   Hosokawa, Yasuhiko   Assignee: Toshiba Mitsubishi-Electric Industrial Systems Corporation   IPC: H02P6/16
17
EP3644496A1
THYRISTOR STARTING DEVICE
Publication/Patent Number: EP3644496A1 Publication Date: 2020-04-29 Application Number: 17914637.8 Filing Date: 2017-06-21 Inventor: Matsumoto, Yasuaki   Ogino, Hiroshi   Kawaguchi, Hironori   Ando, Akinobu   Assignee: Toshiba Mitsubishi-Electric Industrial Systems Corporation   IPC: H02P9/08 Abstract: A thyristor starter (100) is configured to accelerate a synchronous machine (20) from a stop state to a predetermined rotation speed by sequentially performing a first mode of performing commutation of an inverter (2) by intermittently setting DC output current of a converter (1) to zero and a second mode of performing commutation of the inverter (2) by induced voltage of the synchronous machine (20). In a first case in which a first synchronous machine having a first inductance is started, a switching rotation speed for switching from the first mode to the second mode is set to a higher rotation speed, compared with a second case in which a second synchronous machine having a second inductance larger than the first inductance is started.
18
KR20200010207A
에폭시변성 폴리실록산을 함유하는 가접착제
Publication/Patent Number: KR20200010207A Publication Date: 2020-01-30 Application Number: 20197031774 Filing Date: 2018-05-23 Inventor: Kamibayashi, Satoshi   Sawada, Kazuhiro   Ogino, Hiroshi   Shinjo, Tetsuya   Moriya, Shunsuke   Assignee: NISSAN CHEMICAL CORPORATION   IPC: C09J183/06 Abstract: [과제] 웨이퍼의 회로면이나, 지지체에 대한 스핀코트성이 우수하고, 접착층과의 접합시나 웨이퍼 이면의 가공시에 있어서의 내열성이 우수하고, 웨이퍼 이면의 연마 후에는 용이하게 박리할 수 있고, 박리 후는 웨이퍼나 지지체에 부착된 접착제를 간단히 제거할 수 있는 가접착제 및 그의 적층체, 이것을 이용한 가공방법을 제공한다. [해결수단] 지지체와 웨이퍼의 회로면과의 사이에서 박리가능하게 접착하고 웨이퍼의 이면을 가공하기 위해 이용하는 접착제이며, 상기 접착제가 하이드로실릴화반응에 의해 경화하는 성분(A)와 에폭시변성 폴리오르가노실록산을 포함하는 성분(B)를 포함하고, 성분(A)와 성분(B)가 질량%로 99.995:0.005~30:70의 비율인 상기 접착제. 성분(B)는, 에폭시가가 0.1~5의 범위인 에폭시변성 폴리오르가노실록산이다. 제1 기체의 표면에 접착제를 도포하고 접착층을 형성하는 제1 공정, 이 접착층에 제2 기체를 접합하는 제2 공정, 제1 기체측으로부터 가열하여 이 접착층을 경화시키는 제3 공정을 포함하는 적층체의 형성방법.
19
EP3651186A1
TEMPORARY ADHESIVE AGENT CONTAINING PHENYL-GROUP-CONTAINING POLYSILOXANE
Publication/Patent Number: EP3651186A1 Publication Date: 2020-05-13 Application Number: 18828060.6 Filing Date: 2018-07-05 Inventor: Moriya, Shunsuke   Enomoto, Tomoyuki   Shinjo, Tetsuya   Ogino, Hiroshi   Sawada, Kazuhiro   Assignee: Nissan Chemical Corporation   IPC: H01L21/304 Abstract: There is provided a temporary adhesive that has excellent spin coating properties of a circuit side of a wafer and a support, and excellent heat resistance when the circuit side of the wafer or the support is attached to an adhesion layer or when a rear surface of the wafer is processed, and is capable of easily separating the circuit side of the wafer from the support after polishing the rear surface of the wafer, and simply removing the adhesive attached to the wafer or the support after the separation; a layered body using the temporary adhesive; and a processing method using the layered body. An adhesive for separatably attaching a support to a circuit side of a wafer to process a rear surface of the wafer, the adhesive comprising a component (A) that is cured by a hydrosilylation reaction and a component (B) containing a phenyl group-containing polyorganosiloxane, wherein a ratio in % by mass of the component (A) to the component (B) is 95:5 to 30:70. A separation method comprising applying the adhesive onto a first body to form an adhesion layer, attaching a second body to the adhesion layer, heating the adhesion layer from a side of the first body to cure the adhesive to form a layered body, processing the layered body, and carrying out separation between the adhesion layer, and the first body and the second body. The processing may be polishing the rear surface of the wafer.
20
US2020216731A1
TEMPORARY ADHESIVE CONTAINING PHENYL GROUP-CONTAINING POLYSILOXANE
Publication/Patent Number: US2020216731A1 Publication Date: 2020-07-09 Application Number: 16/627,993 Filing Date: 2018-07-05 Inventor: Moriya, Shunsuke   Enomoto, Tomoyuki   Shinjo, Tetsuya   Ogino, Hiroshi   Sawada, Kazuhiro   Assignee: NISSAN CHEMICAL CORPORATION   IPC: C09J183/04 Abstract: An adhesive for separatably attaching a support to a circuit side of a wafer to process a rear surface of the wafer, the adhesive including a component (A) that is cured by a hydrosilylation reaction and a component (B) containing a phenyl group-containing polyorganosiloxane, wherein a ratio in % by mass of the component (A) to the component (B) is 95:5 to 30:70. A separation method including applying the adhesive onto a first body to form an adhesion layer, attaching a second body to the adhesion layer, heating the adhesion layer from a side of the first body to cure the adhesive to form a layered body, processing the layered body, and carrying out separation between the adhesion layer, and the first and second bodies. The processing may be polishing the rear surface of the wafer.
Total 27 pages