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11. 发明授权

US06618939B2 Process for producing resonant tag 有权
标题翻译：制造谐振标签的方法
公开(公告)号：US06618939B2
公开(公告)日：2003-09-16
申请号：US09396277
申请日：1999-09-15
申请人： Shinya Uchibori , Takaaki Mizukawa , Yoshinori Hatanaka
发明人： Shinya Uchibori , Takaaki Mizukawa , Yoshinori Hatanaka
IPC分类号： H05K302
CPC分类号： G08B13/242 , B32B2425/00 , B32B2519/02 , G06K19/07718 , G06K19/07749 , G08B13/2431 , G08B13/2437 , G08B13/244 , H01F5/003 , H01F41/041 , H05K3/041 , Y10S428/901 , Y10T29/49002 , Y10T29/49016 , Y10T29/49018 , Y10T29/49073 , Y10T29/4913 , Y10T29/49155 , Y10T29/532 , Y10T428/24917 , Y10T428/2817 , Y10T428/31681
摘要： A process for producing a resonant tag, wherein a metal foil having a thermal adhesion adhesive applied to at least one face thereof is stamped out into a circuit-like shape and is adhered to a base sheet, the process comprising: stamping out the metal foil into a predetermined shaped metal foil portion (4c) while being passed through a die roll (1) having thereon a stamping blade with a predetermined shape and a transfer roll (2) in contact with the die roll (1) which functions also as a die back-up roll; holding this metal foil portion obtained by the stamping-out operation onto the surface of the transfer roll by suction holes formed in the transfer roll; and thermally adhering the stamped metal foil portion to the base sheet (7) in contact with the transfer roll (2) at its another face by an adhesive roll (3) in contact with the transfer roll through the base sheet. The present invention has such advantages as no damage to the base sheet since the stamping-out operation for the metal foil and the thermal adhesion operation thereof to the base sheet are carried out in separate positions, and no requirement of carrier sheet because the resultant metal foil portion obtained by the stamping-out operation is sucked and held onto the surface of the transfer roll.
摘要翻译：一种用于制造谐振标签的方法，其中将具有涂覆在其至少一个表面上的热粘合粘合剂的金属箔冲压成电路状形状并粘附到基片上，该方法包括：冲压出金属箔在通过其上具有预定形状的冲压刀片的模具辊（1）和与模具辊（1）接触的转印辊（2）的同时，进入预定形状的金属箔片部分（4c）后备卷将通过冲压操作获得的该金属箔部分通过形成在转印辊中的吸孔保持在转印辊的表面上; 并且通过与转印辊通过基片接触的粘合辊（3）将冲压的金属箔部分热粘合到与转印辊（2）接触的基片（7）。本发明具有这样的优点，因为金属箔的冲压操作和对基片的热粘合操作对基片的损伤是在分开的位置进行的，并且不需要载体片，因为所得的金属通过冲压操作获得的箔片部分被吸引并保持在转印辊的表面上。

12. 发明授权

US5495146A Planar display apparatus 失效
标题翻译：平面显示装置
公开(公告)号：US5495146A
公开(公告)日：1996-02-27
申请号：US007912
申请日：1993-01-22
申请人： Masato Saito , Ryo Suzuki , Keiji Fukuyama , Takuya Ohira , Keiji Watanabe , Minoru Kobayashi , Susumu Hoshinouchi , Yoshinori Hatanaka
发明人： Masato Saito , Ryo Suzuki , Keiji Fukuyama , Takuya Ohira , Keiji Watanabe , Minoru Kobayashi , Susumu Hoshinouchi , Yoshinori Hatanaka
IPC分类号： H01J31/12 , G09G3/10
CPC分类号： H01J31/126
摘要： Planar display devices which have a small thickness and used as a display unit of a television set, a monitor or the like. A control electrode portion for passing electrons through a given electron-passing hole selected from a plurality of electron-passing holes provided on an insulating substrate is formed by coating the insulating substrate with a conductive film and dividing them into a plurality of conductive films as control electrodes. This structure obviates the mesh structure of electrons which are necessary in the case of arranging control electrodes on the insulating substrate, thereby realizing high-definition display devices with improved luminance. In addition, planar display devices provided with a surface insulated substrate produced by forming an insulating film on a conductive substrate having electron-passing holes and a plurality of separate control electrodes arranged on the surface insulated substrate, it is possible to prevent the charge-up effect which obstructs the passage of electron beams and, hence, to enhance the luminance by (1) providing a voltage applying means for applying a predetermined voltage to the conductive substrate, (2) providing a portion at which the conductive substrate is exposed between the adjacent control electrodes, and so on.
摘要翻译：具有较小厚度并用作电视机，监视器等的显示单元的平面显示装置。通过用导电膜涂覆绝缘基板并将其分成多个导电膜作为对照，形成用于使电子通过选自设置在绝缘基板上的多个电子通过孔中的给定电子通过孔的控制电极部分电极。这种结构消除了在绝缘基板上布置控制电极的情况下必需的电子的网格结构，从而实现了具有改善的亮度的高清晰度显示装置。另外，具有通过在具有电子通过孔的导电性基板上形成绝缘膜而形成的表面绝缘基板的平面显示装置和配置在表面绝缘基板上的多个分立控制电极，能够防止充电阻碍电子束通过的效果，并且因此通过（1）提供用于向导电衬底施加预定电压的电压施加装置来提高亮度，（2）提供导电衬底在相邻的控制电极等。

13. 发明授权

US06936806B1 Photoelectric conversion device and solid-state image sensing device using the same 失效
标题翻译：光电转换装置及使用其的固态摄像装置
公开(公告)号：US06936806B1
公开(公告)日：2005-08-30
申请号：US09704539
申请日：2000-11-03
申请人： Ken Kitamura , Yoshinori Hatanaka
发明人： Ken Kitamura , Yoshinori Hatanaka
IPC分类号： H01L31/107 , H01L27/00 , H01L27/146 , H01L27/148 , H01L31/105
CPC分类号： H01L27/14643 , H01L31/1055
摘要： Disclosed is a photoelectric conversion device having a multiplying function and an image sensing device using the same. The photoelectric conversion device essentially comprises three layered structure: a carrier generation/multiplication layer composed of amorphous silicon to have both the function of absorbing light and generating carriers through optical excitation and the function of multiplying the generated carriers; an electron injection inhibiting layer composed of an amorphous silicon carbide of the p-type conductivity to inhibit injection of electrons into the carrier generation/multiplication layer; and a hole injection inhibiting layer composed of an amorphous silicon nitride of the n-type conductivity to inhibit injection of holes into the carrier generation/multiplication layer. The said carrier generation/multiplication layer is provided between said electron injection inhibiting layer and said hole injection inhibiting layer.
摘要翻译：公开了具有倍增功能的光电转换装置和使用其的图像感测装置。光电转换装置基本上包括三层结构：由非晶硅构成的载流子生成/乘积层，具有通过光激发吸收光和产生载流子的功能和乘以所产生的载流子的功能; 电子注入抑制层，其由具有p型导电性的非晶碳化硅构成，以阻止电子注入到载流子产生/倍增层中; 以及由n型导电性的非晶氮化硅组成的空穴注入抑制层，以抑制空穴注入到载体产生/倍增层中。所述载体生成/倍增层设置在所述电子注入抑制层和所述空穴注入抑制层之间。

14. 发明授权

US06414975B1 Semiconductor light emitting device with II-VI group semiconductor contact layer containing alkali metal impurity, method of producing same, and optical device including same 失效
标题翻译：具有含有碱金属杂质的II-VI族半导体接触层的半导体发光器件及其制造方法以及包括其的光学器件
公开(公告)号：US06414975B1
公开(公告)日：2002-07-02
申请号：US09048048
申请日：1998-03-26
申请人： Akira Ishibashi , Yoshinori Hatanaka , Toru Aoki , Masaharu Nagai
发明人： Akira Ishibashi , Yoshinori Hatanaka , Toru Aoki , Masaharu Nagai
IPC分类号： H01S500
CPC分类号： H01L33/40 , H01L33/28 , H01L33/285
摘要： The invention provides a semiconductor light emitting device whose operating voltage can be easily reduced, a method of producing the same, and an optical device. An n-type clad layer, a first guide layer, an active layer, a second guide layer, a p-type clad layer, a first semiconductor layer, and a second semiconductor layer of ZnSe are successively grown on an n-type substrate. An alkali compound layer of Na2Se is then formed thereon. Subsequently, a heat treatment is performed by means of irradiation of an excimer laser beam so that at least a part of the second semiconductor layer and at least a part of the alkali compound layer are altered thereby forming a contact layer. Furthermore, a p-side electrode is formed on the contact layer. The contact layer contains an alkali metal serving as a p-type impurity so that the contact layer has a low electric resistance thereby achieving a reduction in the operating voltage and thus a reduction in the operating power. As a result of the reduction in the operating power, the device life is improved.
摘要翻译：本发明提供一种可以容易地降低其工作电压的半导体发光器件，其制造方法和光学器件。在n型衬底上依次生长n型覆盖层，第一引导层，有源层，第二引导层，p型覆盖层，第一半导体层和第二半导体层。然后在其上形成Na 2 Se的碱性化合物层。随后，通过照射准分子激光束进行热处理，使得第二半导体层的至少一部分和碱性化合物层的至少一部分被改变，从而形成接触层。此外，在接触层上形成p侧电极。接触层含有用作p型杂质的碱金属，使得接触层具有低电阻，从而实现工作电压的降低，从而降低工作电力。由于操作功率的降低，设备寿命得到改善。

15. 发明授权

US06372304B1 Method and apparatus for forming SiC thin film on high polymer base material by plasma CVD 失效
标题翻译：通过等离子体CVD在高聚物基材上形成SiC薄膜的方法和装置
公开(公告)号：US06372304B1
公开(公告)日：2002-04-16
申请号：US08888954
申请日：1997-07-07
申请人： Keiichiro Sano , Masaya Nomura , Hiroaki Tamamaki , Yoshinori Hatanaka
发明人： Keiichiro Sano , Masaya Nomura , Hiroaki Tamamaki , Yoshinori Hatanaka
IPC分类号： C23C1632
CPC分类号： C23C16/325 , C23C16/511
摘要： A high quality transparent SiC thin film can be deposited on the surface of a plastic material at low temperature utilizing Electron Cyclotron Resonance (ECR) Plasma CVD techniques, thereby enhancing surfacial hardness without spoiling designability. A magnetic field is applied to a plasma generating chamber by means of a surrounding magnetic coil. Microwaves are then introduced into the plasma generating chamber. Further, an upstream gas is introduced into the plasma generating chamber. ECR plasma is thus generated. A downstream gas is then supplied to the chamber from an inlet. Furthermore, the ECR plasma is passed through a mesh placed between the inlet and a polymer base material or between the plasma generating chamber and the inlet. Accordingly, a SiC film is deposited on a surface of a polymer base material.
摘要翻译：使用电子回旋共振（ECR）等离子体CVD技术，可以在低温下在塑料材料的表面上沉积高质量的透明SiC薄膜，从而提高表面硬度，而不破坏可设计性。通过周围的电磁线圈将磁场施加到等离子体发生室。然后将微波引入等离子体发生室。此外，上游气体被引入到等离子体产生室中。从而产生ECR等离子体。然后从入口将下游气体供应到室。此外，ECR等离子体通过放置在入口和聚合物基材之间或者等离子体产生室和入口之间的网。因此，在聚合物基材的表面上沉积SiC膜。

16. 发明授权

US06294227B1 Method of forming protective film on plastic part for vehicle-use and apparatus 失效
标题翻译：在车辆用塑料件上形成保护膜的方法及装置
公开(公告)号：US06294227B1
公开(公告)日：2001-09-25
申请号：US09589879
申请日：2000-06-09
申请人： Hidetaka Anma , Yoshinori Hatanaka
发明人： Hidetaka Anma , Yoshinori Hatanaka
IPC分类号： H05H124
CPC分类号： H01J37/32009 , C23C16/30 , C23C16/402 , H01J37/32082 , H01J37/32541
摘要： A method of forming a uniform-thickness good-quality protective film with scratch-proofness and ultraviolet cutting characteristic on a plastic part having a diversified and complex three-dimensional shape without wasteful release of an organic solvent, or the like, into the atmosphere. In a plasma chemical vapor deposition apparatus, the shape of at least one part of a surface of a cathode provided in a reaction chamber is made coincident with the shape of a surface of a plastic part such as a car headlamp lens, or the like. The plastic part is attached to the cathode in the condition that the two surfaces coincident in shape come into contact with each other. High-frequency electric power is supplied between the cathode and the reaction chamber while a hydrogen gas and hexamethyldisilane (HMDS) as a raw material gas for forming a protective film are imported into the reaction chamber. Thus, a protective film is formed on the surface of the plastic part by vapor deposition.
摘要翻译：在具有多样化且复杂的三维形状的塑料部件上形成均匀厚度的优质保护膜，具有耐划伤性和紫外线切割特性的方法，而无需有机溶剂等的浪费地释放到大气中。在等离子体化学气相沉积装置中，设置在反应室中的阴极的表面的至少一部分的形状与诸如汽车前照灯透镜等塑料部件的表面的形状一致。在两个表面重合的表面彼此接触的情况下，塑料部分连接到阴极。在作为保护膜形成原料气体的氢气和六甲基二硅烷（HMDS）进入反应室的同时，在阴极和反应室之间供给高频电力。因此，通过气相沉积在塑料部件的表面上形成保护膜。

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