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    • 2. 发明授权
    • Liquid crystal display with color filters and sizes of inclined linear
wiring and terminal electrodes adjusted for equal resistances
    • 具有彩色滤光片的液晶显示器和倾斜线性布线尺寸以及等效电阻调整的端子电极
    • US5757450A
    • 1998-05-26
    • US523842
    • 1995-09-07
    • Tatsuhisa FujiiMitsugu KatayamaTomohide OhiraTatsuyuki FumikuraHitomi Madokoro
    • Tatsuhisa FujiiMitsugu KatayamaTomohide OhiraTatsuyuki FumikuraHitomi Madokoro
    • G02F1/1345G02F1/1335
    • G02F1/1345G02F1/13452
    • An object of this invention is to make uniform the gap in the frame edge portion of the liquid crystal device and the wiring resistances and to improve the display quality and minimize the frame edge area to the limit. To achieve the above object, the liquid crystal display of this invention comprises a plurality of parallel display electrodes 40-n wired over the electrode substrate 311 (312); terminals 41-n for the electrodes 40-n led out to the end portion of the electrode substrate 311 (312) and connected to TCPs, the terminals 41-n having pitches smaller than those of the electrodes 40-n; and leadout wirings 331 (332) for connecting the electrodes 40-n and the terminals 41-n. The leadout wirings 331 (332) each consist of a portion extended from the respective electrode 40-n as it is, a portion extended from the respective terminals 41-n as it is, and almost parallel, inclined linear wiring 42-n that connects the two extended portions. The length of the two extended portions and the width of the inclined linear wiring 42-n are adjusted so that the wiring resistances of the individual leadout wirings 331 (332) are almost the same.
    • 本发明的目的是使液晶装置的边缘部分和布线电阻之间的间隙一致,并提高显示质量,并将边框边缘区域最小化到极限。 为了实现上述目的,本发明的液晶显示器包括多个在电极基板311(312)上布线的平行显示电极40-n。 电极40-n的端子41-n被引出到电极基板311(312)的端部并连接到TCP,端子41-n的间距小于电极40-n的间距; 以及用于连接电极40-n和端子41-n的导出布线331(332)。 引出配线331(332)分别由从各个电极40-n原样延伸的部分,从各个端子41-n原样延伸的部分和几乎平行的连接的线性线42-n 两个延伸部分。 调整两个延伸部分的长度和倾斜线性布线42-n的宽度,使得各个引出布线331(332)的布线电阻几乎相同。
    • 4. 发明授权
    • Brushless DC motor and manufacturing method thereof
    • 无刷直流电动机及其制造方法
    • US07839033B2
    • 2010-11-23
    • US12576302
    • 2009-10-09
    • Tatsuhisa FujiiTomotaka YonemitsuNorihide Watari
    • Tatsuhisa FujiiTomotaka YonemitsuNorihide Watari
    • H02K11/00H02K5/22H02P6/00
    • H02K5/225H02K11/20Y10S310/06Y10T29/49009
    • A brushless DC motor includes an embedded memory of a micro computer mounted on a circuit board which can be modified during and/or after a manufacturing process of the brushless DC motor. The circuit board installed on the brushless DC motor includes an IC having the embedded micro computer executing feed back control of the pulse wide modulation and the embedded memory for storing data such as control programs. The circuit board also includes a writing terminal port to which an external memory writer is to be connected. Data is transferred from the external memory writer and stored in the embedded memory by contacting the writing terminal port with a tip end portion of a cable from the external memory writer.
    • 无刷直流电动机包括安装在电路板上的微型计算机的嵌入式存储器,该微型计算机可在无刷直流电动机的制造过程中和/或之后进行修改。 安装在无刷直流电动机上的电路板包括具有嵌入式微型计算机执行脉冲宽调制的反馈控制的IC和用于存储诸如控制程序之类的数据的嵌入式存储器。 电路板还包括要连接外部存储器写入器的写入端口。 数据从外部存储器写入器传送并通过使写入终端端口与外部存储器写入器的电缆的末端部分接触而存储在嵌入式存储器中。
    • 5. 发明授权
    • Method of manufacturing circuit board
    • 电路板制造方法
    • US07735220B2
    • 2010-06-15
    • US11538857
    • 2006-10-05
    • Tatsuhisa FujiiTomotaka Yonemitsu
    • Tatsuhisa FujiiTomotaka Yonemitsu
    • H01K3/10H04R17/00
    • H02K7/06H02K16/00H05K3/0052H05K3/0097H05K2201/09063H05K2201/0909H05K2201/10212H05K2203/175Y10T29/42Y10T29/49126Y10T29/49128Y10T29/4913Y10T29/49787Y10T29/49789
    • A circuit board for a brushless DC motor whose rotation is controlled based on data stored on a rewritable non-volatile memory of a micro-computer mounted on the circuit board includes a substrate defined by a plurality of a circuit areas and a non-circuit area. The circuit areas and the non-circuit area are connected by a plurality of conductive patterns. The micro-computer having the rewritable non-volatile memory is mounted on each of the circuit areas. The rewritable non-volatile memory is connected to writing terminals arranged on the non-circuit area by the conductive patterns. By connecting a program writer to the writing terminals and activating the program writer, data are written to the rewritable non-volatile memory of each of the circuit areas. After writing data, the circuit areas are detached from the substrate, and a plurality of circuit boards are manufactured.
    • 一种用于无刷直流电动机的电路板,其旋转基于存储在安装在电路板上的微型计算机的可重写非易失性存储器上的数据而被控制,包括由多个电路区域和非电路区域 。 电路区域和非电路区域通过多个导电图案连接。 具有可重写非易失性存储器的微型计算机安装在每个电路区域上。 可重写非易失性存储器通过导电图案连接到布置在非电路区域上的写入端子。 通过将程序写入器连接到写入终端并激活程序写入器,数据被写入每个电路区域的可重写非易失性存储器。 在写入数据之后,电路区域与基板分离,并且制造多个电路板。
    • 8. 发明授权
    • Drive method for driving a matrix-addressing display, a drive circuit
therefor, and a matrix-addressing display device
    • 用于驱动矩阵寻址显示器的驱动方法,其驱动电路和矩阵寻址显示装置
    • US5677705A
    • 1997-10-14
    • US262906
    • 1994-06-21
    • Masato ShimuraKatsumi KondoMasaaki KitajimaHiroshi KuriharaTatsuhisa FujiiShigeyuki Nishitani
    • Masato ShimuraKatsumi KondoMasaaki KitajimaHiroshi KuriharaTatsuhisa FujiiShigeyuki Nishitani
    • G02F1/133G09G3/20G09G3/36
    • G09G3/3625
    • The object of the invention is to provide a drive method suitable for driving a fast-responding STN liquid crystal display device which ensures a minimized cross talk and improved contrast in display. The drive method comprises a memory means for storing display data corresponding to a plurality of lines, a function generating means for generating a drive function for the row electrodes, an arithmetic means for computing the outputs from the foregoing means, a column electrode drive means for driving the column electrodes in dependency on the output from the arithmetic means, and a row electrode drive means for driving the row electrodes in accordance with respective row electrode drive functions. As a voltage function to be applied to each row during drive operation, a sum of a plurality of orthogonal functions is utilized. Thereby, degradation in contrast due to display patterns as well as the cross talk can be minimized. Further, arithmetic operation can be simplified in gradation display since application of a compensating voltage waveform is no more required.
    • 本发明的目的是提供一种适用于驱动快速响应的STN液晶显示装置的驱动方法,其确保了最小化的串扰和改进的显示对比度。 驱动方法包括:存储装置,用于存储对应于多行的显示数据;功能产生装置,用于产生行电极的驱动功能;计算装置,用于计算上述装置的输出;列电极驱动装置, 根据运算装置的输出驱动列电极,以及根据各行电极驱动功能驱动行电极的行电极驱动装置。 作为在驱动操作期间施加到每一行的电压函数,利用多个正交函数的和。 由此,可以将由于显示图案以及串扰引起的对比度的劣化最小化。 此外,由于不再需要施加补偿电压波形,因此可以在灰度显示中简化算术运算。
    • 10. 发明授权
    • Sensor for inspection instrument and inspection instrument
    • 检测仪器和检验仪器传感器
    • US07173445B2
    • 2007-02-06
    • US10487828
    • 2002-08-27
    • Tatsuhisa FujiiKazuhiro MondenMikiya KasaiShogo IshiokaShuji Yamaoka
    • Tatsuhisa FujiiKazuhiro MondenMikiya KasaiShogo IshiokaShuji Yamaoka
    • G01R31/00G01R31/28
    • G01R31/312
    • Disclosed is an inspection sensor and inspection apparatus capable of accurately inspecting the shape of a conductive pattern. A sensor element 12a includes an MOSFET, and an aluminum electrode (AL) serving as a passive element 80. The passive element or aluminum electrode 80 is connected to the gate of a MOSFET 81 and the source of a MOSFET 82. A voltage VDD is supplied from a power supply circuit 18 to the drain of the MOSFET 81, and the source of the MOSFET 81 is connected to the drain of a MOSFET 83. A reset signal is entered from a vertical selection section 14 into the gate of the MOSFET 82, and the voltage VDD is supplied from the power supply circuit 18 to the drain of the MOSFET 82. A selection signal is entered from the vertical selection section 14 into the gate of the MOSFET 83, and an output from the source of the MOSFET 83 is entered into a lateral selection section 13.
    • 公开了能够精确地检查导电图案的形状的检查传感器和检查装置。 传感器元件12a包括MOSFET和用作无源元件80的铝电极(AL)。 无源元件或铝电极80连接到MOSFET81的栅极和MOSFET82的源极。 电压VDD从电源电路18提供给MOSFET 81的漏极,MOSFET81的源极连接到MOSFET 83的漏极。 复位信号从垂直选择部分14进入到MOSFET82的栅极,并且电压VDD从电源电路18提供给MOSFET82的漏极。 选择信号从垂直选择部分14进入到MOSFET 83的栅极,并且来自MOSFET 83的源极的输出进入横向选择部分13。