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    • 1. 发明授权
    • Magnetic rotor and rotational angle sensing apparatus having the same
    • 磁转子和旋转角度检测装置
    • US07573260B2
    • 2009-08-11
    • US11905845
    • 2007-10-04
    • Takashi KawashimaTetsuya Aoki
    • Takashi KawashimaTetsuya Aoki
    • G01B7/14G01R33/06
    • G01D5/145
    • In a magnetic rotor, a rotatable shaft is received through a holder. A positioner is made of a magnetic material and is fitted into at least one of an outer peripheral wall of the rotatable shaft and an inner peripheral wall of the holder to position the holder relative to the rotatable shaft in a circumferential direction. An annular magnet is fixed to the holder and surrounds the rotatable shaft. The annular magnet has two magnetic poles of different polarities, which are magnetized in a magnetization direction that coincides with a radial direction of the annular magnet. The positioner is displaced around a rotational axis of the rotatable shaft from the magnetization direction of the annular magnet by about 90 degrees in the circumferential direction.
    • 在磁转子中,旋转轴通过保持器容纳。 定位器由磁性材料制成,并且被装配到可旋转轴的外周壁和保持器的内周壁中的至少一个中,以在圆周方向上相对于可旋转轴定位保持器。 环形磁体固定在支架上并围绕可旋转的轴。 环形磁体具有两个不同极性的磁极,其磁化方向与环形磁体的径向一致。 定位器沿圆周方向从环形磁体的磁化方向围绕可旋转轴的旋转轴线移位约90度。
    • 2. 发明申请
    • Magnetic rotor and rotational angle sensing apparatus having the same
    • 磁转子和旋转角度检测装置
    • US20080094058A1
    • 2008-04-24
    • US11905845
    • 2007-10-04
    • Takashi KawashimaTetsuya Aoki
    • Takashi KawashimaTetsuya Aoki
    • G01B7/30H02K1/22
    • G01D5/145
    • In a magnetic rotor, a rotatable shaft is received through a holder. A positioner is made of a magnetic material and is fitted into at least one of an outer peripheral wall of the rotatable shaft and an inner peripheral wall of the holder to position the holder relative to the rotatable shaft in a circumferential direction. An annular magnet is fixed to the holder and surrounds the rotatable shaft. The annular magnet has two magnetic poles of different polarities, which are magnetized in a magnetization direction that coincides with a radial direction of the annular magnet. The positioner is displaced around a rotational axis of the rotatable shaft from the magnetization direction of the annular magnet by about 90 degrees in the circumferential direction.
    • 在磁转子中,旋转轴通过保持器容纳。 定位器由磁性材料制成,并且被装配到可旋转轴的外周壁和保持器的内周壁中的至少一个中,以在圆周方向上相对于可旋转轴定位保持器。 环形磁体固定在支架上并围绕可旋转的轴。 环形磁体具有两个不同极性的磁极,其磁化方向与环形磁体的径向一致。 定位器沿圆周方向从环形磁体的磁化方向围绕可旋转轴的旋转轴线移位约90度。
    • 3. 发明申请
    • STROKE SENSOR AND ROTATION ANGLE SENSOR
    • STROKE传感器和旋转角度传感器
    • US20100188074A1
    • 2010-07-29
    • US12694628
    • 2010-01-27
    • Koichiro MatsumotoTetsuya AokiTakashi KawashimaTatsuya KitanakaYoshiyuki Kono
    • Koichiro MatsumotoTetsuya AokiTakashi KawashimaTatsuya KitanakaYoshiyuki Kono
    • G01B7/30
    • G01D5/145F02D41/009
    • A stroke sensor has two magnets, which are magnetized in a cross-section direction and are displaced in a longitudinal direction, and two magnetism sensitive sections arranged parallel to the longitudinal direction. The magnets have circular-arc-shaped swelling end edges respectively and are magnetized such that the swelling end edges have opposite polarities. Thus, a distribution of a magnetic flux density on an arrangement axis substantially coincides with a sine curve. The magnetic flux having such the distribution is displaced in the longitudinal direction together with the magnets. The magnetism sensitive sections are arranged on the arrangement axis to be distant from each other by a distance of one fourth of a cycle of the sine curve. Thus, the stroke sensor that is not affected by temperature and that has high sensing accuracy can be provided.
    • 行程传感器具有两个在横截面方向被磁化并沿纵向位移的磁体和两个平行于纵向排列的磁感应部分。 磁体分别具有圆弧形的膨胀端边缘并被磁化,使得膨胀端边缘具有相反的极性。 因此,布置轴上的磁通密度的分布基本上与正弦曲线一致。 具有这种分布的磁通与磁体一起在纵向方向上移位。 磁感应部分布置在布置轴上,以相对于正弦曲线的周期的四分之一的距离彼此远离。 因此,可以提供不受温度影响并且具有高感测精度的行程传感器。
    • 5. 发明授权
    • Stroke sensor and rotation angle sensor
    • 行程传感器和旋转角度传感器
    • US08368391B2
    • 2013-02-05
    • US12694628
    • 2010-01-27
    • Koichiro MatsumotoTetsuya AokiTakashi KawashimaTatsuya KitanakaYoshiyuki Kono
    • Koichiro MatsumotoTetsuya AokiTakashi KawashimaTatsuya KitanakaYoshiyuki Kono
    • G01B7/14
    • G01D5/145F02D41/009
    • A stroke sensor has two magnets, which are magnetized in a cross-section direction and are displaced in a longitudinal direction, and two magnetism sensitive sections arranged parallel to the longitudinal direction. The magnets have circular-arc-shaped swelling end edges respectively and are magnetized such that the swelling end edges have opposite polarities. Thus, a distribution of a magnetic flux density on an arrangement axis substantially coincides with a sine curve. The magnetic flux having such the distribution is displaced in the longitudinal direction together with the magnets. The magnetism sensitive sections are arranged on the arrangement axis to be distant from each other by a distance of one fourth of a cycle of the sine curve. Thus, the stroke sensor that is not affected by temperature and that has high sensing accuracy can be provided.
    • 行程传感器具有两个在横截面方向被磁化并沿纵向位移的磁体和两个平行于纵向排列的磁感应部分。 磁体分别具有圆弧形的膨胀端边缘并被磁化,使得膨胀端边缘具有相反的极性。 因此,布置轴上的磁通密度的分布基本上与正弦曲线一致。 具有这种分布的磁通与磁体一起在纵向方向上移位。 磁感应部分布置在布置轴上,以相对于正弦曲线的周期的四分之一的距离彼此远离。 因此,可以提供不受温度影响并且具有高感测精度的行程传感器。
    • 6. 发明授权
    • Optical receiver module and optical receiver module system
    • 光接收模块和光接收模块系统
    • US07466930B2
    • 2008-12-16
    • US11216460
    • 2005-09-01
    • Mitsuo AkashiTetsuya AokiHirofumi Nakagawa
    • Mitsuo AkashiTetsuya AokiHirofumi Nakagawa
    • H04B10/06H04B10/08H04B17/00
    • H04B10/66
    • A relation between a light input power monitor value of an optical transmission signal before passing through a fiber and an input signal amplitude monitor value is recorded in advance in a storage device. Next, actual optical-transmission-waveform is inputted into an optical receiver module, and then comparisons between a light input power monitor value and an input signal amplitude monitor value, and respective monitor values in the case without having the waveform distortion as described above are performed in an operation device to calculate a waveform distortion value. According to the waveform distortion level calculated herein, an optimum threshold value and an optimum phase adjusting value, at which receiver sensitivity is maximized, are calculated in the operation device to control a threshold-value adjusting circuit and a phase-value adjusting circuit, thereby a threshold value and a phase value that are optimum for an input distortion level can be established.
    • 通过光纤的光传输信号的光输入功率监视值与输入信号振幅监视值之间的关系被预先记录在存储装置中。 接下来,将实际的光传输波形输入到光接收模块,然后如上所述,在不具有波形失真的情况下,光输入功率监视值与输入信号振幅监视值之间的比较以及各监视值是 在操作装置中执行以计算波形失真值。 根据这里计算出的波形失真水平,在操作装置中计算出接收机灵敏度最大化的最佳阈值和最佳相位调整值,以控制阈值调节电路和相位值调节电路,由此 可以建立对于输入失真电平最佳的阈值和相位值。
    • 7. 发明授权
    • Optical module and optical transceiver
    • 光模块和光收发器
    • US06810213B2
    • 2004-10-26
    • US09788218
    • 2001-02-19
    • Koichiro TonehiraHiroshi YamamotoKenji YoshimotoMichihide SasadaTetsuya Aoki
    • Koichiro TonehiraHiroshi YamamotoKenji YoshimotoMichihide SasadaTetsuya Aoki
    • G02B643
    • G02B6/4206G02B6/4208H01L2224/48091H01L2224/48227H01S5/02216H01S5/02252H01S5/02288H01S5/0683H01L2924/00014
    • To provide economical high-speed optical communications through an optical module a silicon substrate with a ball lens and semiconductor luminescence element mounted thereon, and a laser driver IC are provided. A silicon subassembly includes a silicon substrate with a pyramidal cavity etched into the substrate near its edge. A ball lens is precision-mounted in the pyramidal cavity by bonding it at multiple points. This provides a high-strength connection and a small, inexpensive silicon substrate. Also provided on the silicon substrate is a semiconductor luminescence element and a slit on the opposite side of the ball lens. The slit enables collimated light emitted from the ball lens to be optically coupled without being blocked or reflected by the substrate. The semiconductor luminescence element and its laser driver IC are placed in close proximity to each other, and ribbon wires are kept short (approximately 300 &mgr;m) to reduce signal line impedance mismatch for high-speed transmission.
    • 为了通过光学模块提供经济的高速光通信,提供了安装有球透镜和半导体发光元件的硅衬底和激光驱动器IC。 硅子组件包括硅衬底,其具有在其边缘附近蚀刻到衬底中的锥体腔。 球形镜头通过在多个点处粘合而精确安装在锥体腔中。 这提供了高强度的连接和小的廉价的硅衬底。 在硅衬底上还设置半导体发光元件和在球透镜的相对侧上的狭缝。 狭缝使得从球形透镜发射的准直光被光学耦合,而不被基板阻挡或反射。 半导体发光元件及其激光驱动器IC彼此靠近放置,并且带状线保持短路(约300mum),以减少用于高速传输的信号线阻抗失配。
    • 8. 发明授权
    • Signal processing circuit
    • 信号处理电路
    • US06463060B1
    • 2002-10-08
    • US09872964
    • 2001-06-01
    • Sadaharu SatoTakayasu MutoTetsuya Aoki
    • Sadaharu SatoTakayasu MutoTetsuya Aoki
    • H04J306
    • H04L12/40058H04J3/0685H04L12/40071H04L12/40117H04L69/08H04L69/28
    • A signal processing circuit which enables an error bit to be set simply without causing an increase in the size of the circuit even if the packet size is changed and which enables realization of stable operation without the system stopping even if the value of the time stamp is impossible. A pre-reception processing circuit decides if a received packet is normally continuous or discontinuous from data in the DBC region of the CIP header. When deciding it is discontinuous, it sets an error bit ERM allocated to one bit of the upper significant 7 bits of the source packet header to “1”, and writes this in an FIFO. A post-reception processing circuit, when reading from the FIFO, outputs the data stored in the FIFO to the application side when the error bit ERM is “0” and resets the error bit and outputs a dummy error packet when the error bit EMR is “1”.
    • 一种信号处理电路,即使分组大小发生变化也能够简单地设定错误位而不引起电路尺寸的增加,即使时间戳的值为 不可能。 预接收处理电路判定所接收的分组是否正常连续或不连续的来自CIP头部的DBC区域中的数据。 当判定为不连续时,它将分配给源包头的高有效7位的一位的错误位ERM设置为“1”,并将其写入FIFO。 当从FIFO读取时,接收后处理电路当错误位ERM为“0”时将存储在FIFO中的数据输出到应用端,并且当错误位EMR为“0”时,复位错误位并输出虚拟错误包 “1”。
    • 10. 发明授权
    • Communication apparatus
    • 通讯设备
    • US5991371A
    • 1999-11-23
    • US982317
    • 1997-12-01
    • Tetsuya OuchiMakoto YamadaFumihiro MinamizawaTetsuya Aoki
    • Tetsuya OuchiMakoto YamadaFumihiro MinamizawaTetsuya Aoki
    • H04M1/82H04N1/327H04M11/00
    • H04N1/32708H04M1/82H04N1/32704H04N1/3271H04N1/32726
    • A communication apparatus including (A) a data obtaining device which obtains a plurality of sets of own-call-number data each set of which identifies a corresponding one of a plurality of different own call numbers allotted to the communication apparatus according to a common numbering rule, each of the different own call numbers identifying the communication apparatus from other communication apparatuses to which other call numbers different from the own call numbers are allotted according to the common numbering rule; and (B) one or both of (b1) an information receiver which can receive information from the other communication apparatuses and (b2) an information transmitter which can transmit information to the other communication apparatuses, the information receiver and/or the information transmitter being operable in a plurality of different manners corresponding to the different own call numbers, respectively, such that the information receiver and/or transmitter operate in one of the different manners which corresponds to one of the different own call numbers identified by each set of own-call-number data obtained by the data obtaining device.
    • 一种通信装置,包括:(A)数据获取装置,其获得多组自身呼叫号码数据,每组自身呼叫号码数据根据共同的编号标识分配给通信装置的多个不同的自己的呼叫号码中的对应的一个 根据共同的编号规则,分配从其他通信装置识别与其自身呼叫号码不同的其他呼叫号码的来自其他通信装置的不同的本身呼叫号码, 和(B)(b1)可以从其他通信装置接收信息的信息接收机和(b2)可以向其他通信装置发送信息的信息发送机中的一个或两个,信息接收机和/或信息发送机是 可以分别对应于不同的自己的呼叫号码以多种不同的方式操作,使得信息接收机和/或发射机以与每组自身呼叫号码识别的不同的自己的呼叫号码之一不同的方式操作, 由数据获取装置获得的呼叫号码数据。