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    • 2. 发明授权
    • Power detection circuit
    • 电源检测电路
    • US09297840B2
    • 2016-03-29
    • US13612516
    • 2012-09-12
    • Kazuhiro Ueda
    • Kazuhiro Ueda
    • G01R35/00G01R21/00H03D1/10G01R21/01G01R21/12
    • G01R21/00G01R21/01G01R21/12H03D1/10
    • There is provided a power detection circuit capable of appropriately adjusting detection voltage characteristics by using simple configuration. The power detection circuit includes a first resistor having current applied thereto to adjust a detection voltage value of input power, an element having an applied voltage and a load characteristic changed according to the input power, and a second resistor connected to the element and having current applied thereto when resistance of the element becomes relatively low, to adjust the detection voltage value of the input power. Detection voltage characteristics may be appropriately adjusted using a simple configuration.
    • 提供了能够通过简单的配置适当地调整检测电压特性的功率检测电路。 功率检测电路包括:第一电阻器,其施加有电流以调节输入功率的检测电压值;具有施加电压和根据输入功率改变的负载特性的元件;以及连接到元件并具有电流的第二电阻器 当元件的电阻相对较低时施加到其上,以调整输入功率的检测电压值。 可以使用简单的配置适当地调整检测电压特性。
    • 4. 发明授权
    • Element mapping unit, scanning transmission electron microscope, and element mapping method
    • 元素映射单元,扫描透射电子显微镜和元素映射方法
    • US07928376B2
    • 2011-04-19
    • US11232964
    • 2005-09-23
    • Kazutoshi KajiKazuhiro UedaKoji KimotoTakashi AoyamaShunroku TayaShigeto Isakozawa
    • Kazutoshi KajiKazuhiro UedaKoji KimotoTakashi AoyamaShunroku TayaShigeto Isakozawa
    • H01J47/00
    • H01J37/256
    • There is provided an element mapping unit, scanning transmission electron microscope, and element mapping method that enable to acquire an element mapping image very easily. On the scanning transmission electron microscope, the electron beam transmitted through an object to be analyzed enters into the element mapping unit. The electron beam is analyzed of its energy into spectrum by an electron spectrometer and an electron energy loss spectrum is acquired. Because the acceleration voltage data for each element and window data for 2-window method, 3-window method or contrast tuning method are already stored in a database and accordingly the spectrum measurement is carried out immediately even when an element to be analyzed is changed to another, the operator can confirm a two-dimensional element distribution map immediately. Besides, because every electron beam that enters into an energy filter passes through the object point, aberration strain in the electron spectrometer can be minimized and higher energy stability can be achieved. As a result, drift of the electron energy loss spectrum acquired by analyzing the electron beam into spectrum can be minimized and element distribution with higher accuracy can be acquired.
    • 提供了能够非常容易地获取元素映射图像的元素映射单元,扫描透射电子显微镜和元件映射方法。 在扫描透射电子显微镜上,通过待分析物体传输的电子束进入元件映射单元。 电子束通过电子光谱仪将其能量分析成光谱,并获得电子能量损失光谱。 因为用于2窗口方法,3窗口方法或对比度调整方法的每个元素和窗口数据的加速电压数据已经存储在数据库中,因此即使当要分析的元素被改变为 另一方面,操作者可以立即确认二维元素分布图。 此外,由于进入能量过滤器的每个电子束通过物点,所以可以使电子光谱仪中的像差应变最小化并且可以实现更高的能量稳定性。 结果,可以将通过将电子束分析成光谱而获得的电子能量损耗光谱的漂移最小化,并且可以获得具有更高精度的元素分布。
    • 9. 发明申请
    • Construction machine
    • 施工机械
    • US20060144350A1
    • 2006-07-06
    • US10559709
    • 2004-06-15
    • Hajime NakashimaKazuhiro UedaYasumasa KimuraHideo UtsunoToshiyuki Kobayashi
    • Hajime NakashimaKazuhiro UedaYasumasa KimuraHideo UtsunoToshiyuki Kobayashi
    • F01P9/00
    • E02F9/0866B60K11/08E02F9/00F01P11/12F01P2001/005
    • Engine noise of a construction machine is effectively reduced without reducing cooling performance and with an increase in the height of a body cover kept minimum. To achieve the above, an air-intake opening portion (10) and an air discharge opening portion (11) are arranged in a body cover (8) of an upper rotating body (1), and a cooling fan (5) in an engine room covered by the body cover (8) is driven, taking cooling air in from the air-intake opening portion (10) to cool a heat exchanger (7) in the body cover (8) and discharging the air from the air discharge opening portion (11). The air-intake opening portion (10) is laterally offset from a position facing to a ventilation surface of the heat exchanger (7). Alternatively, plural air-intake opening portions are located in a scattered manner such that the plural air-intake opening portions include the offset air-intake opening portion offset from the ventilation surface of the heat exchanger (7).
    • 在不降低冷却性能的同时,能够有效地减少施工机械的发动机噪音,并且使车身罩的高度保持最小。 为了实现上述目的,在上部旋转体(1)的主体罩(8)中设置有进气口部(10)和排气口部(11) 由主体罩(8)覆盖的发动机室被驱动,从进气口部分(10)吸入冷却空气以冷却车身盖(8)中的热交换器(7)并从空气排出口排出空气 开口部(11)。 进气口部分(10)从面向热交换器(7)的通风表面的位置横向偏移。 或者,多个进气口部分以分散的方式设置,使得多个进气口部分包括从热交换器(7)的通风表面偏移的偏移进气开口部分。