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    • 32. 发明申请
    • INPUT DETECTION DEVICE
    • 输入检测装置
    • US20130069619A1
    • 2013-03-21
    • US13619129
    • 2012-09-14
    • Tomokuni WaukeKoichi Yamamoto
    • Tomokuni WaukeKoichi Yamamoto
    • H01F38/00
    • H01F38/20
    • When a first driving signal is applied from a waveform output unit, detection current with a high frequency than a natural frequency of a vibrator is applied to a coil of a vibration generation unit. When the current fluctuates, induction power due to a counter-electromotive force is inducted to a external casing of the vibration generation unit. The induction power is changed in an input unit, and when a level of an output due to the change thereof greatly fluctuates, a second driving signal is output from the waveform output unit, and logical sum of the first driving signal and the second driving signal is applied to a driving circuit. At this time, a vibration current flows to the coil, and the vibrator vibrates by the natural frequency.
    • 当从波形输出单元施加第一驱动信号时,将具有高于振动器的固有频率的高频的检测电流施加到振动发生单元的线圈。 当电流波动时,由于反电动势引起的感应电力被引入振动发生单元的外壳。 感应电源在输入单元中变化,当由于其变化引起的输出电平极大地波动时,从波形输出单元输出第二驱动信号,并且第一驱动信号和第二驱动信号的逻辑和 被施加到驱动电路。 此时,振动电流流向线圈,振动器以固有频率振动。
    • 34. 发明申请
    • ANALOG INPUT AND OUTPUT CIRCUIT AND VACUUM PROCESSING APPARATUS
    • 模拟输入和输出电路和真空加工设备
    • US20100207790A1
    • 2010-08-19
    • US12396574
    • 2009-03-03
    • Koji ToyotaKoichi YamamotoYuuzou Oohirabaru
    • Koji ToyotaKoichi YamamotoYuuzou Oohirabaru
    • H03M1/06
    • H03M1/1028H03M1/12H03M1/66
    • The invention provides an analog input and output circuit and a vacuum processing apparatus capable of automatically performing the correction of all analog inputs and outputs via a single reference voltage adjustment, thereby solving the prior art problem of requiring a different correction value for each channel for accurately controlling the analog input and output due to the difference in the on resistances of switches for respective channels of an analog multiplexer. The prevent invention comprises an A/D converter 505 for converting an input analog signal into a digital signal; a D/A converter 506 for converting the digital signal into an analog signal; a computing unit for computing a first correction value 604 with respect to a digital signal of the input signal from the A/D converter and a second correction value 606 with respect to a digital signal output to the D/A converter using the first correction value; and a control unit for outputting control signals from the D/A converter 506 using the first correction value 610 and the second correction value 612.
    • 本发明提供了一种模拟输入和输出电路以及能够通过单个参考电压调整来自动执行所有模拟输入和输出的校正的真空处理装置,从而解决了为每个通道准确地要求不同校正值的现有技术问题 由于模拟多路复用器的各个通道的开关的导通电阻的差异来控制模拟输入和输出。 防止发明包括用于将输入的模拟信号转换为数字信号的A / D转换器505; 用于将数字信号转换为模拟信号的D / A转换器506; 计算单元,用于相对于来自A / D转换器的输入信号的数字信号计算第一校正值604,以及相对于使用第一校正值输出到D / A转换器的数字信号的第二校正值606 ; 以及控制单元,用于使用第一校正值610和第二校正值612从D / A转换器506输出控制信号。
    • 39. 发明申请
    • COOLING MODULE
    • 冷却模块
    • US20080115528A1
    • 2008-05-22
    • US11983014
    • 2007-11-06
    • Koichi YamamotoHiroki Matsuo
    • Koichi YamamotoHiroki Matsuo
    • F25B41/00
    • F25B39/04B60H1/3227F25B2339/0441F28D1/0443F28D2021/0084F28D2021/0089F28F2009/0287
    • A cooling module comprises an intercooler 100 and an integrated heat exchanger 1 including a condenser unit 200 for cooling a refrigerant circulated in a refrigeration cycle by heat exchange between the refrigerant and air and an oil cooler unit 300 for cooling an oil higher in temperature than the refrigerant by heat exchange between the oil and air. Condenser unit 200 and oil cooler unit 300 are vertically arranged in parallel to each other, and integrated heat exchanger 1 is arranged downstream of intercooler 100 in the air flow. The vertical length of integrated heat exchanger 1 is larger than the vertical length of intercooler 100. Oil cooler unit 300 is arranged in superposition with at least a part of intercooler 100 as viewed from the direction of air flow.
    • 冷却模块包括中间冷却器100和集成热交换器1,该热交换器1包括冷凝器单元200,用于冷却在致冷循环中通过制冷剂和空气之间的热交换循环的制冷剂;以及油冷却器单元300,用于冷却温度高于 制冷剂通过油与空气之间的热交换。 冷凝器单元200和油冷却器单元300彼此平行地竖直布置,并且集成热交换器1布置在空气流中的中间冷却器100的下游。 集成热交换器1的垂直长度大于中间冷却器100的垂直长度。 从空气流动方向观察,油冷却器单元300与中间冷却器100的至少一部分重叠配置。