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    • 2. 发明公开
    • Switching power supply
    • 开关电源
    • EP2365346A2
    • 2011-09-14
    • EP11153136.4
    • 2011-02-03
    • Omron Co., Ltd.
    • Marumo, KatsuyaHosomi, Shinichi
    • G01R19/165G01R31/40H02M7/155
    • H02M3/33507H02M1/36H02M2001/0006
    • A switching power supply includes a first auxiliary power supply (30) for causing a first auxiliary winding (N3) of a transformer to induce voltage by ON/OFF control of a switching element (S1) connected to a primary winding (N1) of the transformer. The voltage induced by the first auxiliary winding (N3) charges a capacitor in the first auxiliary power supply. The switching power supply also includes a control circuit (40) for starting and stopping the ON/OFF control of the switching element (S1) by comparing a voltage of the capacitor (C5) with a first threshold value, an activation circuit (20) for charging the capacitor (C5) with voltage from the power supply input to the switching power supply; and a determination unit (50) for determining a lifespan of the switching power supply based on the voltage of the capacitor (C5) after the voltage of the capacitor (C5) becomes greater than or equal to the first threshold values.
    • 开关电源包括:第一辅助电源(30),用于通过对连接到第一辅助绕组(N3)的开关元件(S1)的开/关控制使变压器的第一辅助绕组(N3) 变压器。 由第一辅助绕组(N3)感应的电压对第一辅助电源中的电容器充电。 开关电源还包括用于通过比较电容器(C5)的电压和第一阈值来启动和停止开关元件(S1)的接通/断开控制的控制电路(40),激活电路(20) 用于利用来自所述电源输入端的电压向所述开关电源对所述电容器(C5)充电; 以及确定单元(50),用于在电容器(C5)的电压变得大于或等于第一阈值之后,基于电容器(C5)的电压来确定开关电源的寿命。
    • 3. 发明公开
    • Acoustic Sensor
    • Akustischer传感器
    • EP2360942A2
    • 2011-08-24
    • EP10196842.8
    • 2010-12-23
    • Omron Co., Ltd.
    • Omura, EiichiOzawa, NaoshiWakabayashi, Shuichi
    • H04R19/00
    • B81C1/00182B81B2201/0257B81B2203/0127B81C2203/031B81C2203/036H01L2924/16151H01L2924/16152H04R19/005H04R2201/003
    • A phenomenon in which a bonding agent (56) that fixes an acoustic sensing element (32, 62, 72 to 82) to a base substrate (34) runs to through a back chamber (45) is prevented. A leakage of a back chamber (45) from a lower surface of the acoustic sensing element (32, 62, 72 to 82) is prevented. A deformation of the acoustic sensing element (32, 62, 72 to 82) is decreased to improve sensitivity of an acoustic sensor (31 , 61, 68, 71). A lower surface of the acoustic sensing element (32, 62, 72 to 82) is bonded to an upper surface of the base substrate (34) by the thermosetting bonding agent (56). In the acoustic sensing element (32, 62, 72 to 82), a vibration electrode plate (43) and a fixed electrode plate (44) that is opposite the vibration electrode plate (43) are prepared on an upper surface of an element substrate (41). The back chamber (45) is formed in the element substrate (41). The back chamber (45) is opened to the upper surface of the element substrate (41), and a lower surface of the back chamber (45) is closed into a pouched shape by the element substrate (41). The vibration electrode plate (43) is located in the upper surface opening of the back chamber (45), and an acoustic hole (55) is made in the fixed electrode plate (44) in order to pass an acoustic vibration.
    • 防止将声学检测元件(32,62,72〜82)固定在基底基板(34)上的接合剂(56)穿过后室(45)延伸的现象。 防止后室(45)从声感元件(32,62,72至82)的下表面泄漏。 声学传感元件(32,62,72至82)的变形减小,以提高声学传感器(31,61,68,71)的灵敏度。 声学传感元件(32,62,72〜82)的下表面通过热固性粘合剂(56)与基底基板(34)的上表面接合。 在声感测元件(32,62,72〜82)中,在元件基板的上表面准备与振动电极板(43)相对的振动电极板(43)和固定电极板(44) (41)。 后室(45)形成在元件基板(41)中。 后室(45)向元件基板(41)的上表面开口,后室(45)的下表面通过元件基板(41)封闭成袋状。 振动电极板(43)位于后室(45)的上表面开口中,并且在固定电极板(44)中形成声孔(55)以通过声振动。
    • 6. 发明公开
    • Industrial controller for synchronization control
    • Industrieregler zur Synchronisierungsregelung
    • EP2221686A2
    • 2010-08-25
    • EP10151659.9
    • 2010-01-26
    • Omron Co., Ltd.
    • Izumi, Toshiro
    • G05B19/05
    • G05B19/05G05B2219/13063G05B2219/13087
    • This invention realizes a synchronization control function without providing a bus dedicated for synchronization control by using a bus (system bus) used to transmit and receive data between units from the prior art. When a timer interruption occurs during the execution of a process performed in a normal cyclic, a CPU unit interrupts the process and transmits synchronization data by collective addressing using the system bus to other synchronisation units performing the synchronization control. The synchronization unit executes a synchronization cycle upon the reception of the synchronization data by collective addressing as a trigger, acquires the received synchronization data with the start of the synchronization cycle, and performs a refresh process of the synchronization data of IN data after executing an input/output process. The CPU unit performs the refresh process of the synchronization data of the IN data, and obtains the synchronization data to be transmitted next by a synchronization interrupts task process. The synchronization unit constantly acquires the most recent synchronization data and simultaneously operates.
    • 本发明实现同步控制功能,而不需要通过使用用于在现有技术的单元之间发送和接收数据的总线(系统总线)来提供专用于同步控制的总线。 当在正常循环中执行的处理中执行定时器中断时,CPU单元中断该处理,并且通过使用系统总线的集体寻址来发送同步数据到执行同步控制的其他同步单元。 同步单元在通过集体寻址作为触发接收到同步数据时执行同步周期,在同步周期开始时获取接收到的同步数据,并且在执行输入之后执行IN数据的同步数据的刷新处理 /输出过程。 CPU单元执行IN数据的同步数据的刷新处理,并且通过同步中断任务处理获得接下来要发送的同步数据。 同步单元不断地获取最近的同步数据并同时操作。
    • 7. 发明公开
    • Examination method, examination apparatus and examination program
    • Untersuchungsverfahren,Untersuchungsvorrichtung und Untersuchungsprogramm
    • EP2206465A1
    • 2010-07-14
    • EP10150289.6
    • 2010-01-08
    • Omron Co., Ltd.
    • OTA, YoshihideKATO, Noriyuki
    • A61B6/03G01N23/04H01L21/66
    • G01N23/046G01N23/044G01N2223/419G06T11/006G06T2211/421H01L22/00H01L2924/0002H01L2924/00
    • This invention provides an examination method, an examination apparatus, and an examination program capable of performing the examination corresponding to the type or the like of the site to be examined and capable of reducing the examination time when examining the substrate. The X-ray is output from an X-ray source, and the X-ray that transmitted the substrate to be examined is photographed as an X-ray perspective image in an FPD (Flat Panel Detector). The photographing for generating the reconstruction data by X-ray CT is performed at the positions on the virtual circle having the optical axis of the X-ray source as an axis, similar to the photographing for generating the reconstruction data by tomosynthesis. Thus, in generating the reconstruction data by X-ray CT, the data is converted so that each image rotates using affine conversion with the center of each X-ray perspective image as an axis according to the rotation position on the virtual circle as if the X-ray perspective images obtained at the respective positions are photographed at the positions, and then the filtering process is performed.
    • 本发明提供一种检查方法,检查装置和检查程序,其能够进行与待检查部位的类型等相对应的检查,并且能够减少检查基板时的检查时间。 从X射线源输出X射线,将被检查的基板的X射线作为FPD(平板检测器)中的X射线透视图像拍摄。 类似于用于通过断层合成生成重建数据的拍摄,在X射线源的光轴的虚拟圆上的位置处执行用于通过X射线CT生成重建数据的拍摄。 因此,在通过X射线CT生成重建数据时,转换数据,使得每个图像根据虚拟圆上的旋转位置以每个X射线透视图像的中心为基准的仿射变换旋转,如同 在这些位置拍摄在各个位置处获得的X射线透视图像,然后执行滤波处理。
    • 8. 发明公开
    • Multi-optical axis photoelectronic sensor
    • Photoelektronischer传感器mit mehreren optischen Achsen
    • EP2199833A2
    • 2010-06-23
    • EP09178251.6
    • 2009-12-08
    • Omron Co., Ltd.
    • Osako, KazunoriTakahara, Takayoshi
    • G01V8/20
    • G01V8/20
    • This invention enables a worker, who performs a work for optical axis adjustment, to easily grasp whether adjustment for further increasing the light receiving quantity is possible. In a multi-optical axis photoelectronic sensor, a minimum value of the light receiving quantities obtained for every optical axis is detected every time a process of measuring, chile lighting each light emitting element 10 by turns, the light receiving quantity of a light receiving element corresponding to a lighted light emitting element 10 is repeated for one cycle, and a peak value of the minimum light receiving quantities detected in the past is detected. A bar graph based on specific values of the most recent minimum light receiving quantity and the peak value, or a bar graph showing a proportion of the most recent minimum light receiving quantity with respect to the peak value is displayed using a plurality of indication lights 100, each arranged on the front surfaces of a light projector 1 and a light receiver 2. The bar graph changes according to the update of the peak value and the fluctuation in the value of the minimum light receiving quantity of every hour.
    • 本发明使得执行光轴调整工作的工人能够容易地掌握是否可以进一步增加光接收量的调节。 在多光轴光电传感器中,每当对发光元件10进行智能点亮,光接收元件的光接收量的测量的每一次检测每个光轴获得的光接收量的最小值 对应于点亮的发光元件10重复一个周期,并且检测过去检测到的最小光接收量的峰值。 使用多个指示灯100显示基于最近的最小光接收量和峰值的特定值的条形图或示出最近最小光接收量相对于峰值的比例的条形图 每个布置在投光器1和光接收器2的前表面上。条形图根据峰值的更新和每小时的最小光接收量的值的波动而改变。
    • 10. 发明公开
    • Trigger switch
    • Druckschalter
    • EP2600369A1
    • 2013-06-05
    • EP12194776.6
    • 2012-11-29
    • Omron Co., Ltd.
    • Kobayashi, Minoru
    • H01H3/02H01H9/04H01H9/06H01H13/06
    • H01H13/04H01H3/0213H01H9/047H01H9/061H01H13/06
    • Embodiments of the invention provide a trigger switch (1) in which a trigger (11) is pulled into a housing (5) so as to operate a contact mechanism, thereby driving a motor of an electric drill (10). The inside of the housing (5) is divided into a first region (201) including a circuit in which a main electric current for driving the motor flows, and a second region (202) including the contact mechanism of a signal circuit which controls a rotation of the motor. An air vent (100) is disposed on an outer circumferential surface of the first region (201) of the housing (5). The trigger switch (1) can reduce operational failure due to dust and the like without making the structure thereof complicated.
    • 本发明的实施例提供了一种触发开关(1),其中触发器(11)被拉入壳体(5)中以便操作接触机构,从而驱动电钻(10)的马达。 壳体(5)的内部被分成包括用于驱动马达的主电流流过的电路的第一区域(201)和包括控制信号电路的信号电路的接触机构的第二区域(202) 电机旋转。 在壳体(5)的第一区域(201)的外周面上设置有排气口(100)。 触发开关(1)可以减少由灰尘等引起的操作故障,而不会使其结构复杂化。