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    • 1. 发明授权
    • Polling control system for switching units in a plural stage switching
matrix
    • 多级切换矩阵中切换单元的轮询控制系统
    • US5276445A
    • 1994-01-04
    • US798698
    • 1991-11-26
    • Michio MitaKimiyasu SatoHidetoshi Nishimoto
    • Michio MitaKimiyasu SatoHidetoshi Nishimoto
    • G11B27/024G11B27/028G11B27/34G11B27/36H04H60/04H04N5/268H04Q1/00
    • G11B27/34G11B27/028G11B27/36H04N5/268G11B2220/90G11B27/024H04H60/04
    • A matrix switching apparatus includes a plurality of switching units connected in tandem, each switching unit having a plurality of input terminals and a plurality of output terminals. There are a plurality of transmission/reception units, each provided within a respective switching unit and also within a remote control unit. The transmission/reception units are for transmitting switching data. A first one of the transmission/reception units is set to a master station mode and sequentially polls the remaining transmission/reception units which are set to a slave station mode. The remaining units respond to the polling by outputting switching data, which is collectively transmitted by the master station over a serial busline. The remaining transmission/reception units receive only relevant data from the switching data transmitted over the serial busline and supply the relevant data to controlling units which control the turning on and off of crosspoint switches in the switching units.
    • 矩阵切换装置包括多个串联连接的开关单元,每个开关单元具有多个输入端子和多个输出端子。 存在多个发送/接收单元,每个发送/接收单元设置在相应的开关单元内并且还设置在远程控制单元内。 发送/接收单元用于发送切换数据。 发送/接收单元中的第一个被设置为主站模式,并且顺序地轮询设置为从站模式的剩余发送/接收单元。 其余单元通过输出由主站通过串行总线传输的切换数据来响应轮询。 剩余的发送/接收单元仅接收通过串行总线发送的切换数据的相关数据,并将相关数据提供给控制交换单元中交叉点开关的导通和关断的控制单元。
    • 4. 发明授权
    • Signal converting apparatus and method
    • 信号转换装置及方法
    • US06028904A
    • 2000-02-22
    • US007585
    • 1998-01-15
    • Junichi YanagisawaMitsushige TatamiHidetoshi Nishimoto
    • Junichi YanagisawaMitsushige TatamiHidetoshi Nishimoto
    • H04N5/928H03M7/30H04L7/04H04N9/475H04N9/80H04N11/20
    • H04H20/28H04N5/602
    • Described herein is the converting between a component SDI signal D1 and a composite SDI signal D2. A single memory is prepared. Further, the corresponding signal is written into the memory in accordance with a clock corresponding to a transfer rate of the SDI signal D1 and the corresponding signal is read from the memory in accordance with a clock corresponding to a transfer rate of the SDI signal D2. The digital signal read from the memory is re-distributed based on header information added to the SDI signal D2. Pieces of header information (ADF, DID, DBN, DC and CS) corresponding to conversion modes are added to the outputted digital signal. Thus, the cost down to the signal converting can be achieved by providing a single signal conversion memory alone and reducing signal conversion memories and their peripheral circuits.
    • 这里描述的是组件SDI信号D1和复合SDI信号D2之间的转换。 准备单个内存。 此外,根据对应于SDI信号D1的传送速率的时钟将相应的信号写入存储器,并且根据对应于SDI信号D2的传送速率的时钟从存储器读取相应的信号。 从存储器读取的数字信号基于添加到SDI信号D2的标题信息被重新分配。 对应于转换模式的标题信息块(ADF,DID,DBN,DC和CS)被添加到输出的数字信号中。 因此,降低信号转换的成本可以通过单独提供单个信号转换存储器并减少信号转换存储器及其外围电路来实现。
    • 5. 发明授权
    • Sampling apparatus
    • 取样装置
    • US5763795A
    • 1998-06-09
    • US770049
    • 1996-12-19
    • Yosuke TanakaHiroyuki SeshimoHidetoshi NishimotoYasuhiro Ooyama
    • Yosuke TanakaHiroyuki SeshimoHidetoshi NishimotoYasuhiro Ooyama
    • G01N1/00G01N27/02G01N33/493G01N35/10
    • G01N35/1097G01N33/493
    • A sample apparatus includes a sampling valve having a sample inlet through which a sample such as urine is introduced from the outside of the sampling valve to the inside thereof; a sample outlet through which the sample is sent from the inside of the sampling valve to the outside thereof; and a sampling passage for setting apart a predetermined amount of the sample between the sample inlet and sample outlet. It further includes a first electrode section located close to the sample inlet so that the sample can come into contact with the first electrode section, a second electrode section located close to the sample outlet so that the sample can come into contact with the second electrode section, and a sensor circuit for measuring the impedance between the first and second electrode sections and for using the measured impedance to determine whether or not the sampling passage contains a predetermined amount of the sample. Preferably, the first and second electrode sections each include a pair of electrodes separated from each other, wherein one of each of the electrodes of the electrode sections is connected to the sensor circuit while the other electrodes are short-circuited to each other.
    • 样品装置包括具有样品入口的取样阀,诸如尿液的样品从样品入口从采样阀的外部引入其中; 样品出口,样品从采样阀的内部送到其外部; 以及用于在样品入口和样品出口之间分隔预定量的样品的取样通道。 还包括位于样品入口附近的第一电极部分,使得样品可以与第一电极部分接触,第二电极部分位于靠近样品出口处,使得样品可以与第二电极部分接触 以及传感器电路,用于测量第一和第二电极部分之间的阻抗,并且使用测量的阻抗来确定采样通道是否包含预定量的样品。 优选地,第一和第二电极部分各自包括彼此分离的一对电极,其中电极部分的每个电极中的一个电极连接到传感器电路,而另一个电极彼此短路。