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    • 1. 发明授权
    • Solid electrolytic capacitor and method for manufacturing the same
    • 固体电解电容器及其制造方法
    • US07173808B2
    • 2007-02-06
    • US11453872
    • 2006-06-16
    • Yoshikazu HirataKoichi Morita
    • Yoshikazu HirataKoichi Morita
    • H01G4/228H01G9/10
    • H01G9/012H01G9/042H01G9/15Y10T29/417
    • A solid electrolytic capacitor (1) comprises an element (2) protruding an anode lead (20), an anode lead frame (3) to which the anode lead (20) is to be attached, and a housing (5) for covering the element (2). The anode lead frame (3) has a step portion (4). The step portion (4) comprises a first horizontal portion (40) provided inside a side portion of the housing (5), a second horizontal portion (41) provided higher or lower and further inside the housing (5) than the first horizontal portion (40) and receiving an outer surface of the anode lead (20), and a linking portion (42) linking the first horizontal portion (40) and the second horizontal portion (41). The linking portion (42) is provided with an open hole (43), an edge of the open hole (43) overlapping the second horizontal portion (41), and a tip portion of the anode lead (20) being fitted into the open hole (43).
    • 一种固体电解电容器(1)包括突出阳极引线(20)的元件(2),阳极引线(20)将要连接到的阳极引线框架(3),以及用于覆盖 元素(2)。 阳极引线框架(3)具有台阶部(4)。 台阶部分(4)包括设置在壳体(5)的侧部内侧的第一水平部分(40),第二水平部分(41)设置在壳体(5)的上方或下方并且比第一水平部分 (40)并且接收所述阳极引线(20)的外表面,以及连接所述第一水平部分(40)和所述第二水平部分(41)的连接部分(42)。 连接部分(42)设置有开孔(43),与第二水平部分(41)重叠的开孔(43)的边缘,并且阳极引线(20)的尖端部分嵌入开口 孔(43)。
    • 2. 发明申请
    • SOLID ELECTROLYTIC CAPACITOR AND METHOD FOR MANUFACTURING THE SAME
    • 固体电解电容器及其制造方法
    • US20060285277A1
    • 2006-12-21
    • US11453872
    • 2006-06-16
    • Yoshikazu HirataKoichi Morita
    • Yoshikazu HirataKoichi Morita
    • H01G9/04
    • H01G9/012H01G9/042H01G9/15Y10T29/417
    • A solid electrolytic capacitor (1) comprises an element (2) protruding an anode lead (20), an anode lead frame (3) to which the anode lead (20) is to be attached, and a housing (5) for covering the element (2). The anode lead frame (3) has a step portion (4). The step portion (4) comprises a first horizontal portion (40) provided inside a side portion of the housing (5), a second horizontal portion (41) provided higher or lower and further inside the housing (5) than the first horizontal portion (40) and receiving an outer surface of the anode lead (20), and a linking portion (42) linking the first horizontal portion (40) and the second horizontal portion (41). The linking portion (42) is provided with an open hole (43), an edge of the open hole (43) overlapping the second horizontal portion (41), and a tip portion of the anode lead (20) being fitted into the open hole (43).
    • 一种固体电解电容器(1)包括突出阳极引线(20)的元件(2),阳极引线(20)将要连接到的阳极引线框架(3),以及用于覆盖 元素(2)。 阳极引线框架(3)具有台阶部(4)。 台阶部分(4)包括设置在壳体(5)的侧部内侧的第一水平部分(40),第二水平部分(41)设置在壳体(5)的上方或下方并且比第一水平部分 (40)并且接收所述阳极引线(20)的外表面,以及连接所述第一水平部分(40)和所述第二水平部分(41)的连接部分(42)。 连接部分(42)设置有开孔(43),与第二水平部分(41)重叠的开孔(43)的边缘,并且阳极引线(20)的尖端部分嵌入开口 孔(43)。
    • 3. 发明授权
    • Observable centrifugal apparatus and observation apparatus
    • 可观察离心装置和观察装置
    • US08164828B2
    • 2012-04-24
    • US12520092
    • 2007-11-19
    • Norifumi IkedaNobuaki TanakaKoichi Morita
    • Norifumi IkedaNobuaki TanakaKoichi Morita
    • G02B21/00B04B15/00
    • G02B21/24G01N21/07G01N2021/0378G01N2021/0389
    • Disclosed is an observable centrifugal apparatus capable of checking in real time a state of a sample during reaction of separation or synthesization in the form of a stable and high-quality image at a high frame rate. An observable centrifugal apparatus A has a rotary disc 4 rotating about a rotary shaft 2, a reactor 6 disposed on the rotary disc and rotating together with the rotary disc while accommodating a sample, and a microscope 8 for observing a state of the sample within the reactor, in which predetermined substances of the sample are separated or synthesized by applying a centrifugal force to the sample within the reactor. The microscope is fixed in a predetermined position on the rotary disc so as to enable the state of the sample within the reactor to be observed, and the rotary disc is fitted with an imaging device 19 for photographing the state of the sample, caught by the microscope, within the reactor and a microscope image, and with an image wireless transmission device 12 for wirelessly transmitting in real time the photographed image of the microscope image photographed by the imaging device as a dynamic image.
    • 公开了一种可观测的离心装置,其能够以高帧速率以稳定且高质量的图像的形式实时检查样品在分离或合成反应期间的状态。 可观察到的离心装置A具有围绕旋转轴2旋转的旋转盘4,设置在旋转盘上并与旋转盘一起旋转同时容纳样品的反应器6,以及用于观察样品的状态的显微镜8 反应器,其中样品的预定物质通过向反应器内的样品施加离心力而分离或合成。 将显微镜固定在旋转盘上的预定位置,以便能够观察到反应器内的样品的状态,并且旋转盘配有成像装置19,用于拍摄样品的状态 显微镜,反应器内和显微镜图像,以及图像无线发送装置12,用于实时地将由成像装置拍摄的显微镜图像的拍摄图像实时地无缝传输为动态图像。
    • 8. 发明授权
    • Power factor improving circuit
    • 功率因数改善电路
    • US07202640B2
    • 2007-04-10
    • US10953766
    • 2004-09-29
    • Koichi Morita
    • Koichi Morita
    • G05F1/40
    • H02M1/4225H02M1/4258H02M2001/0025Y02B70/126Y02P80/112
    • The power factor improving circuit has a current detecting resistor Rsh for detecting current conducting through a set up reactor L1 or current conducting through a switch Q1, an output voltage detector 11 which amplifies a difference between output voltage Eo and reference voltage Vref to generate error voltage, a variable gain amplifier 15 which amplifies voltage which is proportional to current detected by the current detecting resistor Rsh by varying gain in accordance with a value of the error voltage of the output voltage detector 11, and a pulse width modulator 14 which generates a pulse signal whose pulse width is controlled in accordance with a value of output of the variable gain amplifier 15 and which applies the pulse signal to the switch Q1 to control the output voltage Eo to predetermined voltage.
    • 功率因数提高电路具有用于检测通过设置电抗器L 1的电流导通的电流检测电阻器Rsh或通过开关Q 1导通的电流,输出电压检测器11,放大输出电压Eo和参考电压Vref之间的差以产生 误差电压,可变增益放大器15,其通过根据输出电压检测器11的误差电压的值改变增益来放大与由电流检测电阻器Rsh检测到的电流成比例的电压;以及脉冲宽度调制器14,其产生 脉冲信号的脉冲宽度根据可变增益放大器15的输出值进行控制,并将脉冲信号施加到开关Q 1,以将输出电压Eo控制为预定电压。