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    • 1. 发明授权
    • Sample measuring device and sample measuring system
    • 样品测量装置和样品测量系统
    • US08854206B2
    • 2014-10-07
    • US13458694
    • 2012-04-27
    • Akinori KaiAtsushi Wada
    • Akinori KaiAtsushi Wada
    • G08B1/08A61B5/00A61B5/145
    • A61B5/14532A61B5/0002G06F19/00G16H40/63
    • A sample measuring device according to the present invention includes a measuring unit for performing measurement with respect to a particular component contained in a sample, a measurement data storage unit for storing measurement data obtained by the measuring unit, a display unit for displaying the measurement data, a sensor strip detector for detecting insertion and removal of a sensor strip to which the sample is applied, and a first data transmitter/receiver for transmitting the measurement data via wireless communication. The first data transmitter/receiver performs initial authentication process for wireless communication after insertion of the sensor strip is detected by the sensor strip detector.
    • 根据本发明的样本测量装置包括:用于对包含在样本中的特定部件进行测量的测量单元,用于存储由测量单元获得的测量数据的测量数据存储单元,用于显示测量数据的显示单元 用于检测插入和移除其中应用样品的传感器条的传感器条检测器,以及用于经由无线通信发送测量数据的第一数据发送器/接收器。 传感器条检测器检测到传感器带插入后,第一个数据发送器/接收器执行无线通信的初始认证过程。
    • 3. 发明授权
    • Protection circuit and input/output circuit
    • 保护电路和输入/输出电路
    • US08654493B2
    • 2014-02-18
    • US13436439
    • 2012-03-30
    • Atsushi WadaKouichi YamadaShigeto Kobayashi
    • Atsushi WadaKouichi YamadaShigeto Kobayashi
    • H02H3/20
    • H02H3/207
    • A first voltage dividing circuit is connected between a power feeding line to feed power from an external power supply to an internal circuit, and a fixed potential to divide a voltage of the power feeding line. A first comparator compares a divided voltage, which has been divided by the first voltage dividing circuit, with a reference voltage, and outputs a signal to turn off a power switch inserted into the power feeding line when the divided voltage exceeds the reference voltage. A first transistor is connected between a first node where the divided voltage, which has been divided by the first voltage dividing circuit, is generated, and the fixed potential, and is turned on when the voltage of the first node exceeds a set voltage.
    • 第一分压电路连接在供电线路之间,以从外部电源向内部电路供电,以及固定电位以分压供电线的电压。 第一比较器将已经被第一分压电路分压的分压与参考电压进行比较,并且当分压超过参考电压时,输出信号以关闭插入供电线的电源开关。 第一晶体管连接在由第一分压电路分压的分压的固定电位的第一节点和第一节点的电压超过设定电压时导通。
    • 7. 发明申请
    • PHOTO DETECTION DEVICE
    • 照片检测装置
    • US20090086071A1
    • 2009-04-02
    • US12278141
    • 2007-01-31
    • Keiichiro KagawaJun OhtaYugo NoseAtsushi WadaHajime Takashima
    • Keiichiro KagawaJun OhtaYugo NoseAtsushi WadaHajime Takashima
    • H04N5/335
    • G01J1/46H04N5/353H04N5/355H04N5/3559H04N5/374H04N5/3745H04N5/37452
    • A pixel includes a photodiode, an overflow circuit, a first sensing circuit, and a second sensing circuit. The first sensing circuit charges and discharges a cathode capacitance by a photocurrent flowing through a photodiode, and amplifies an obtained voltage by a source follower amplifier so as to be outputted to a data line. The second sensing circuit charges and discharged the cathode capacitance by the photocurrent flowing through the photodiode, and outputs electric charge stored in the cathode capacitance via the data line. A pixel circuit is configured so that a first mode in which the first sensing circuit becomes active and a second mode in which the second sensing circuit becomes active can be switched. The first mode and the second mode are switched according to an amount of light received by the photodiode included in each pixel circuit. Gain is controlled according to the amount of light received, in the first mode, and the storage time is controlled in the second mode.
    • 像素包括光电二极管,溢出电路,第一感测电路和第二感测电路。 第一感测电路通过流过光电二极管的光电流对阴极电容进行充电和放电,并且通过源极跟随器放大器放大所获得的电压,以将其输出到数据线。 第二感测电路通过流过光电二极管的光电流对阴极电容进行充电和放电,并通过数据线输出存储在阴极电容中的电荷。 像素电路被配置为使得第一感测电路变为活动的第一模式和第二感测电路变为活动的第二模式被切换。 第一模式和第二模式根据由每个像素电路中包括的光电二极管接收的光量进行切换。 在第一模式下,根据所接收的光量来控制增益,并且在第二模式中控制存储时间。
    • 8. 发明授权
    • Position measuring method and mobile communication terminal
    • 位置测量方法和移动通信终端
    • US07432923B2
    • 2008-10-07
    • US11650476
    • 2007-01-08
    • Masanori FujiwaraSatoshi MiyataSeiichi KawakamiJun SakamotoKazuya KawakamiAtsushi Wada
    • Masanori FujiwaraSatoshi MiyataSeiichi KawakamiJun SakamotoKazuya KawakamiAtsushi Wada
    • G01S5/14
    • G01S19/48G01S2205/008
    • When a user of a mobile communication terminal makes a request for a position-measuring of a current location, at step S101, a position-measuring method determining section checks a position-measuring method specified. When the method specified is a “cell ID position-measuring”, and it is performed, when the method specified is a “base station radio waves position-measuring”; a base station radio waves position-measuring is performed, when the method specified is a “GPS position-measuring” or a “not specified”, at step S102, a judgment of whether an area in which the mobile communication terminal exist is an area suitable for data communication is made. When the judgment is negative, an autonomous GPS position-measuring is performed. When the judgment is affirmative, an assisted GPS position-measuring is performed. In this case, when the assisted GPS position-measuring has failed, in process to deal with failure of assisted GPS position-measuring at step S108, in a case of predetermined conditions, further the autonomous GPS position-measuring or a supplementary cell ID position-measuring is performed.
    • 当移动通信终端的用户请求当前位置的位置测量时,在步骤S101中,位置测量方法确定部分检查指定的位置测量方法。 当指定的方法是“小区ID位置测量”,并且执行时,当指定的方法是“基站无线电波位置测量”时; 执行基站无线电波位置测量时,当指定的方法是“GPS位置测量”或“未指定”时,在步骤S102,判断移动通信终端存在的区域是否为 进行适合数据通信的区域。 当判断为否定时,执行自主的GPS位置测量。 当判断为肯定时,执行辅助GPS位置测量。 在这种情况下,当辅助GPS位置测量失败时,在步骤S108处理处理辅助GPS位置测量的失败时,在预定条件的情况下,还可以进行自主GPS位置测量或辅助小区ID 进行位置测量。
    • 9. 发明授权
    • Analog/digital converting device
    • 模/数转换器
    • US07274320B2
    • 2007-09-25
    • US11506778
    • 2006-08-21
    • Atsushi WadaKuniyuki TaniShigeto Kobayashi
    • Atsushi WadaKuniyuki TaniShigeto Kobayashi
    • H03M1/12
    • H01L29/1083H01L21/26513H01L21/26586H01L29/6659H01L29/7833H03M1/005H03M1/007H03M1/162H03M1/167
    • The present invention provides a widely general-purpose A/D converting device. The A/D converting device comprises multiple signal conversion units each of which include: an A/D converter for converting an input analog signal into a digital signal with a predetermined number of bits; a D/A converter for converting the output from the A/D converter into an analog signal; a subtracter for subtracting the output signal from the D/A converter, from the input analog signal; and an amplifier for amplifying the output signal from the subtracter. The A/D converting device has a configuration wherein the signal conversion units are arrayed in multiple rows and columns. This allows the user to realize an A/D converting device having various types and levels of performance by making various combinations of the signal conversion units without change of the layout of the signal conversion units.
    • 本发明提供广泛通用的A / D转换装置。 A / D转换装置包括多个信号转换单元,每个信号转换单元包括:A / D转换器,用于将输入的模拟信号转换成具有预定位数的数字信号; 用于将来自A / D转换器的输出转换为模拟信号的D / A转换器; 用于从输入模拟信号中减去D / A转换器的输出信号的减法器; 以及用于放大来自减法器的输出信号的放大器。 A / D转换装置具有其中信号转换单元以多行和列排列的配置。 这允许用户通过进行信号转换单元的各种组合而不改变信号转换单元的布局来实现具有各种类型和级别的性能的A / D转换装置。
    • 10. 发明授权
    • Analog-digital converter with advanced scheduling
    • 具有高级调度的模数转换器
    • US07154426B2
    • 2006-12-26
    • US11052093
    • 2005-02-08
    • Kuniyuki TaniAtsushi WadaShigeto Kobayashi
    • Kuniyuki TaniAtsushi WadaShigeto Kobayashi
    • H03M1/12
    • H03M1/167H03M1/162
    • A first amplifier circuit samples and holds an input analog signal and outputs the same to a subtracting circuit. An AD converter circuit converts the input analog signal into a digital value so as to retrieve a predetermined number of bits. A DA converter circuit converts the digital value derived from conversion by the AD converter circuit into an analog value. A subtracter circuit subtracts an output analog signal from the DA converter circuit from the analog signal input via a first switch or the first amplifier circuit. A second amplifier circuit amplifies an output analog signal from the subtracter circuit by a gain of 2 and outputs the amplified signal. An input switching circuit controls the order of inputs, i.e. the input analog signal and a reference voltage, to voltage comparison elements constituting the Ad converter circuit.
    • 第一放大器电路对输入的模拟信号进行采样并保持,并将其输出到减法电路。 AD转换器电路将输入的模拟信号转换为数字值,以便检索预定数量的位。 DA转换器电路将由AD转换器电路的转换得到的数字值转换为模拟值。 减法电路经由第一开关或第一放大器电路从DA转换器电路的模拟信号输入中减去输出模拟信号。 第二放大器电路将来自减法器电路的输出模拟信号以2的增益放大并输出放大的信号。 输入开关电路将输入的顺序,即输入模拟信号和参考电压控制到构成Ad转换器电路的电压比较元件。