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    • 5. 发明申请
    • PUMP UNIT AND BREATHING ASSISTANCE DEVICE
    • 泵单元和呼吸辅助装置
    • US20120304993A1
    • 2012-12-06
    • US13345860
    • 2012-01-09
    • Kazufuku NITTAJun Nitta
    • Kazufuku NITTAJun Nitta
    • A61M16/00F04B25/00
    • A61M16/0072A61M16/0012A61M16/12A61M2016/0027A61M2016/0039A61M2205/3375A61M2205/502F04B19/006F04B43/043F04B43/046F04B45/043F04B45/047
    • A pump unit can achieve significant size reduction while maintaining the performance thereof. Micropumps are arranged in a lattice pattern with rows and columns, and a discharge port of at least a micropump arranged in the most downstream row is directly connected to an integrated discharge port. The pump unit further includes: a discharge direct-connection mechanism for connecting respective discharge ports of a plurality of micropumps in a middle row directly to the integrated discharge port; an intake direct-connection mechanism for connecting respective intake ports of the micropumps directly to a fluid to be supplied first; a series-connection mechanism for connecting a discharge port of a micropump in an upstream row directly to an intake port of a micropump in a downstream row; and a controller for controlling the discharge direct-connection mechanism, the intake direct-connection mechanism, and the series-connection mechanism.
    • 泵单元可以在保持其性能的同时实现显着的尺寸减小。 微喷射器排列成具有行和列的格子图案,并且布置在最下游排中的至少一个微型泵的排出口直接连接到集成排放口。 泵单元还包括:排放直接连接机构,用于将中间排中的多个微型泵的各个排出口直接连接到集成排放口; 进气直接连接机构,用于将微型泵的各个进气口直接连接到要首先供给的流体; 用于将上游排中的微型泵的排出口直接连接到下游排的微型泵的进气口的串联机构; 以及用于控制排出直接连接机构,进气直接连接机构和串联连接机构的控制器。
    • 7. 发明申请
    • Charged particle beam apparatus and contamination removal method therefor
    • 带电粒子束装置及其污染除去方法
    • US20060138363A1
    • 2006-06-29
    • US11293148
    • 2005-12-05
    • Akira YonezawaTatenori JinrikiJun NittaNorimichi AnazawaRyuichi Shimizu
    • Akira YonezawaTatenori JinrikiJun NittaNorimichi AnazawaRyuichi Shimizu
    • G01J3/10
    • H01J37/185B08B7/0057H01J37/28H01J2237/022
    • A charged particle beam apparatus comprising a preparatory evacuation chamber (15 in FIG. 1A) into which a sample (12) is conveyed and which is preliminarily evacuated, an ultraviolet irradiation unit (21) which is disposed in the preparatory evacuation chamber (15) and which irradiates the surface of the sample (12) conveyed into the preparatory evacuation chamber (15), with ultraviolet rays for a predetermined time period, and a sample chamber (16) into which the sample (12) is conveyed in the preliminarily evacuated state of the preparatory evacuation chamber (15) or from which the sample (12) is conveyed into the preparatory evacuation chamber (15), wherein the ultraviolet irradiation of the sample (12) by the ultraviolet irradiation unit (21) is performed before the conveyance of the sample (12) into the sample chamber (16), or/and after the conveyance thereof from the sample chamber (16), thereby to remove contamination on the surface of the sample (12).
    • 一种带电粒子束装置,包括:预先抽真空室(图1A中的15),其中输送样品(12)并预先抽真空;紫外线照射单元(21),设置在预备抽空室 ),并且用紫外线照射经预定的时间段的被输送到预备抽空室(15)的样品(12)的表面,以及将样品(12)预先传送到的样品室 预备排空室(15)的抽真空状态或将样品(12)从该排空状态输送到预备抽空室(15)中,其中紫外线照射单元(21)对样品(12)的紫外线照射在 将样品(12)输送到样品室(16)中,或者在从样品室(16)传送之后,从而去除样品表面上的污染物 (12)。
    • 8. 发明授权
    • Optical communication system and optical communication method
    • 光通信系统和光通信方式
    • US5309268A
    • 1994-05-03
    • US123900
    • 1993-09-20
    • Kenji NakamuraJun Nitta
    • Kenji NakamuraJun Nitta
    • H04B10/29H04B10/00H04B10/02
    • H04B10/29
    • In an optical communication system, a transmitted signal is modulated with a subcarrier signal having a frequency higher than the frequency of said transmitted signal on the transmission side, the modulated signal light emitted to a transmission channel. On the reception side, the received signal is filtered and decoded by means of a band-pass filter having a center frequency approximately equal to the frequency of the subcarrier signal of the received signal. The above arrangement makes it possible to achieve an arrangement free from the influence of deterioration in the degree of modulation due to spontaneous emission generated from an optical amplifier disposed midway along the transmission channel. The optical amplifier may be an optical differential gain amplifier which has the differential-gain optical input/output characteristics of outputting spontaneous emission of low intensity according to a digital signal value "0" and output light of high intensity according to a digital signal value "1". The arrangement enables optical amplification of signal light without the risk of outputting high-level spontaneous emission due to direct current excitation. It is therefore possible to provide received signals of high quality by eliminating any deterioration in S/N ratio and any deterioration of the degree of modulation of signal light due to spontaneous emission from the optical amplifier disposed midway along the transmission channel.
    • 在光通信系统中,利用在发送侧的频率高于所述发送信号的频率的副载波信号来调制发送信号,发送到发送信道的调制信号光。 在接收侧,接收信号被滤波和借助于具有与接收信号的子载波信号的频率近似的中心频率的带通滤波器进行解码。 上述布置使得可以实现不受由沿着传输通道中途设置的光放大器产生的自发发射的调制程度的劣化的影响的布置。 光放大器可以是光差分增益放大器,其具有根据数字信号值“0”输出低强度的自发发射的差分增益光输入/输出特性,并且根据数字信号值“ 1“。 该装置能够对信号光进行光放大,而不会由于直流激励而输出高电平自发发射的风险。 因此,通过消除S / N比的任何劣化以及由于沿着传输通道设置的中途的光放大器的自发发射而导致的信号光的调制程度的任何劣化,可以提供高质量的接收信号。