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    • 1. 发明授权
    • Microprocessor for selectively performing cold and warm starts
    • 用于选择性地执行冷启动和暖启动的微处理器
    • US5361365A
    • 1994-11-01
    • US24104
    • 1993-02-23
    • Takaaki HiranoYoshinori Hashimoto
    • Takaaki HiranoYoshinori Hashimoto
    • G06F9/26G06F9/32G06F9/445G06F9/06
    • G06F9/4401G06F9/32
    • Upon power-on, a microprocessor is reset and initiates a cold start initialization program stored in ROM for initializing the microprocessor and associated peripherals. Thereafter, externally input control signals to the microprocessor indicate a desirable initialization operation for a warm start when the microprocessor is subsequently reset by an operator. A reset address generating circuit generates (1) a first address setting signal to set a first starting address of the initialization program for a cold start when receiving the reset signal at a power-ON or (2) a second address setting signal to set a second starting address of the initialization program corresponding to the warm start after the power-ON when receiving both a reset signal and a control signal generated externally by a user. A program counter is then set to an address corresponding to the inputted address setting signal. The microprocessor reads and executes initialization programs based on instructions in memory addressed by the program counter.
    • 上电时,微处理器复位并启动存储在ROM中的冷启动初始化程序,用于初始化微处理器和相关的外围设备。 此后,当微处理器随后被操作者复位时,向微处理器的外部输入控制信号指示用于暖启动的期望的初始化操作。 复位地址产生电路产生(1)第一地址设定信号,以在通电时接收到复位信号时设定用于冷启动的初始化程序的第一起始地址,或者(2)第二地址设定信号, 当接收到复位信号和由用户外部产生的控制信号时,在上电之后对应于热启动的初始化程序的第二起始地址。 然后将程序计数器设置为与输入的地址设置信号相对应的地址。 微处理器根据由程序计数器寻址的存储器中的指令读取并执行初始化程序。
    • 6. 发明授权
    • Image-acquisition device
    • 图像采集装置
    • US09229212B2
    • 2016-01-05
    • US13395175
    • 2010-07-12
    • Masafumi OshiroYuichi ToyodaYoshinori Hashimoto
    • Masafumi OshiroYuichi ToyodaYoshinori Hashimoto
    • H04N7/18G02B21/36G02B21/00G02B27/00
    • G02B21/367G02B21/002G02B27/0075
    • An image acquisition apparatus 1A includes a sample stage 10 for placing a sample S thereon, an image pickup device 20 capable of acquiring a two-dimensional image and TDI driving, an image pickup optical system 30 including an objective lens 32, a scanning unit for acquiring an observation image while scanning the sample S by the image pickup device 20 and the image pickup optical system 30, and a focus oscillation control device 40 for controlling oscillation of a focus in the sample S so that an image pickup focus in the sample S oscillates at an oscillation frequency fs in an optical axis direction. The focus oscillation control device 40 sets the oscillation frequency fs so that the oscillation frequency fs substantially coincides with Ns times (Ns is an integer not less than 1) the basic frequency, which is a reciprocal 1/Ti of an image pickup period Ti of TDI driving in the image pickup device 20. Thus, an image acquisition apparatus capable of efficiently acquiring an observation image with focus extended can be realized.
    • 图像获取装置1A包括用于放置样品S的样本台10,能够获取二维图像和TDI驱动的图像拾取装置20,包括物镜32的图像拾取光学系统30,用于 在通过图像拾取装置20和摄像光学系统30扫描样本S的同时获取观察图像,以及用于控制样本S中的焦点的振荡的聚焦振荡控制装置40,使得样本S中的图像拾取聚焦 以光轴方向的振荡频率fs振荡。 焦点振荡控制装置40将振荡频率fs设定为使得振荡频率fs基本上与Ns次(Ns为1以上的整数)基本一致,基本频率为基本频率,其为摄像周期Ti的倒数1 / TDI驱动在图像拾取装置20中。因此,可以实现能够有效地获取具有聚焦延伸的观察图像的图像获取装置。
    • 7. 发明授权
    • Transmission/reception antenna and transmission/reception device using same
    • 发送/接收天线和使用它的发送/接收装置
    • US08792837B2
    • 2014-07-29
    • US13372168
    • 2012-02-13
    • Futoshi DeguchiYouichirou HondaYoshinori Hashimoto
    • Futoshi DeguchiYouichirou HondaYoshinori Hashimoto
    • H04B1/44
    • H01Q1/2216G06K7/10336H01Q1/38H01Q7/00
    • A transmission/reception antenna and a transmission/reception device using the antenna wherein the antenna includes a dielectric base board, an excitation loop antenna provided on the dielectric base board, a transmission/reception loop antenna provided on the dielectric base board in close proximity of but not in contact with the excitation loop antenna, and a resonance capacitor connected between two ends of the transmission/reception loop antenna. A coupling capacitor is connected to one of the two ends of the transmission/reception loop antenna. The excitation loop antenna is connected to a transmitter, and the transmission/reception loop antenna is connected to the receptor via the coupling capacitor. Thereby, the frequency property may be expanded without increasing the power consumption, and the reception processing unit is enabled to properly process the reception signal.
    • 使用天线的发送/接收天线和发送/接收装置,其中天线包括电介质基板,设置在电介质基板上的激励环天线,设置在电介质基板上的发送/接收环形天线, 但不与激励环形天线接触,并且连接在发送/接收环形天线的两端之间的谐振电容器。 耦合电容器连接到发送/接收环形天线的两端之一。 励磁环形天线连接到发射机,发射/接收环形天线通过耦合电容器连接到接收器。 由此,可以扩大频率特性而不增加功耗,并且接收处理单元能够适当地处理接收信号。
    • 8. 发明授权
    • Transmission/reception antenna and transmission/reception device using same
    • 发送/接收天线和使用它的发送/接收装置
    • US08730120B2
    • 2014-05-20
    • US13293508
    • 2011-11-10
    • Futoshi DeguchiYouichirou HondaYoshinori Hashimoto
    • Futoshi DeguchiYouichirou HondaYoshinori Hashimoto
    • H01Q7/08
    • H01Q7/06H01Q1/2216H01Q1/243H01Q1/38H01Q7/00Y02D70/122
    • Provided are a transmission/reception antenna and a transmission/reception device using the same wherein the transmission/reception antenna comprises an excitation loop antenna (12) having a loop of a single turn and a transmission/reception loop antenna (14) having a pair of loops (14a, 14b) of a plurality of turns which are closely wound around a magnetic member (11). The two loops of the transmission/reception loop antenna are located on either side of the excitation loop. A resonance capacitor (15) is connected across one ends of the two loops of the transmission/reception loop antenna, and a connecting portion (14c) is connected between the ends of the two loops opposite to those connected to the resonance capacitor. The frequency property is expanded without increasing the power consumption.
    • 提供一种发送/接收天线和使用该发送/接收天线的发送/接收装置,其中发送/接收天线包括具有单匝环的激励环形天线(12)和具有一对的发送/接收环形天线(14) 多个匝的环(14a,14b)紧密缠绕在磁性构件(11)上。 发射/接收环形天线的两个环路位于激励环路的两侧。 谐振电容器(15)连接在发送/接收环形天线的两个环路的一端,并且连接部分(14c)连接在与连接到谐振电容器的两个环路相对的两个环路的两端之间。 在不增加功耗的情况下扩展频率特性。