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    • 1. 发明授权
    • IC power protection circuit
    • IC电源保护电路
    • US07656624B2
    • 2010-02-02
    • US11656994
    • 2007-01-24
    • Masahiro MatsumotoMasamichi YamadaHiroshi NakanoKeiji HanzawaRyo Sato
    • Masahiro MatsumotoMasamichi YamadaHiroshi NakanoKeiji HanzawaRyo Sato
    • H02H7/00
    • H02H9/046H01L27/0248H02H11/002
    • An IC power protection circuit functions as a surge protection circuit and reverse connection protection circuit. The IC power protection circuit includes an error amplification circuit, positioned and integrated within an integrated circuit and a transistor positioned as a stand-alone element that is separate from the integrated circuit. The integrated circuit includes a sensor signal processing circuit that processes a signal of a sensor. A transistor protects the integrated circuit against a surge voltage from a battery terminal. A resistor is positioned between an output terminal of an error amplifier and a base terminal of the transistor to provide reverse connection protection. Another resistor is connected between a ground and a connection point between the above resistor and the output terminal to provide overvoltage protection for the integrated circuit. A starting resistor is connected between a collector and base of the transistor.
    • IC电源保护电路用作浪涌保护电路和反向连接保护电路。 IC电源保护电路包括位于并集成在集成电路内的误差放大电路和定位为与集成电路分离的独立元件的晶体管。 集成电路包括处理传感器的信号的传感器信号处理电路。 晶体管保护集成电路免受来自电池端子的浪涌电压的影响。 电阻器位于误差放大器的输出端子和晶体管的基极端子之间,以提供反向连接保护。 另一个电阻连接在上述电阻和输出端之间的接地点和连接点之间,为集成电路提供过压保护。 启动电阻连接在晶体管的集电极和基极之间。
    • 4. 发明授权
    • Thermal humidity sensor
    • 热湿度传感器
    • US08359919B2
    • 2013-01-29
    • US12855347
    • 2010-08-12
    • Masahiro MatsumotoHiroshi NakanoKeiji HanzawaMasamichi Yamada
    • Masahiro MatsumotoHiroshi NakanoKeiji HanzawaMasamichi Yamada
    • G01N27/12G01N27/18G01F1/69
    • G01N27/18
    • Provided is a high-precision, mechanically robust thermal humidity sensor. A detecting element 1 of the thermal humidity sensor of the present invention has a diaphragm (a bridge structure) 2 formed on a planar substrate which is formed from a material with high thermal conductivity such as silicon or ceramic. Formed on the diaphragm 2 are temperature detecting resistors 4, 5, 6, and 7 and a heating resistor 3 arranged in a manner surrounding the temperature detecting resistors. Humidity is detected based on the outputs of the temperature detecting resistors 4, 5, 6, and 7. Accordingly, humidity measurement errors that can possibly occur due to the leakage of heat through the diaphragm 2 to the planar substrate can be reduced.
    • 提供了一种高精度,机械坚固的热湿度传感器。 本发明的热湿度传感器的检测元件1具有形成在由诸如硅或陶瓷等导热性高的材料形成的平面基板上的隔膜(桥结构)2。 形成在隔膜2上的是温度检测电阻4,5,6和7以及围绕温度检测电阻器布置的加热电阻3。 基于温度检测电阻4,5,6和7的输出检测湿度。因此,可以减少由于通过隔膜2的热量泄漏到平面基板而可能发生的湿度测量误差。
    • 5. 发明申请
    • Heating resistance flow rate measuring apparatus
    • 耐热流量测量装置
    • US20060070436A1
    • 2006-04-06
    • US11283778
    • 2005-11-22
    • Masahiro MatsumotoMasamichi YamadaHiroshi NakanoIzumi WatanabeKeiji HanzawaKeiichi Nakada
    • Masahiro MatsumotoMasamichi YamadaHiroshi NakanoIzumi WatanabeKeiji HanzawaKeiichi Nakada
    • G01F1/68
    • G01F1/6845F02D41/187G01F1/692G01F1/696G01F1/699
    • A heating resistance flow rate measuring apparatus which can use a power source of an ECU in an automobile without requiring an expensive protective circuit and regulator. Heating of temperature detecting resistors themselves causes temperature changes on the windward and leeward sides, and these temperature changes depend on the amounts of heat generated by the temperature detecting resistors. The amounts of heat generated by the temperature detecting resistors depend on a voltage value of the ECU power source applied to the temperature detecting resistors, and an error is caused in a sensor output depending on a variation in the voltage of the ECU power source. Based on the finding that suppressing the amount of heat generated by the temperature detecting resistors is effective in avoiding the sensor output error caused depending on a variation in the output voltage of the ECU power source, means for suppressing the amount of heat generated by the temperature detecting resistors is disposed.
    • 一种能够在汽车中使用ECU的电源而不需要昂贵的保护电路和调节器的加热电阻流量测量装置。 温度检测电阻本身的加热引起迎风侧风和背风侧的温度变化,这些温度变化取决于温度检测电阻产生的热量。 由温度检测电阻器产生的热量取决于施加到温度检测电阻器的ECU电源的电压值,并且根据ECU电源的电压变化在传感器输出中引起误差。 基于这样的发现,抑制由温度检测电阻产生的热量对于避免根据ECU电源的输出电压的变化而导致的传感器输出误差是有效的,用于抑制由温度产生的热量的装置 设置检测电阻器。
    • 8. 发明申请
    • THERMAL TYPE FLOW RATE MEASURING APPARATUS
    • 热式流量测量装置
    • US20080016958A1
    • 2008-01-24
    • US11765736
    • 2007-06-20
    • Masahiro MatsumotoMasamichi YamadaHiroshi NakanoKeiji HanzawaYasuhiro Kanamaru
    • Masahiro MatsumotoMasamichi YamadaHiroshi NakanoKeiji HanzawaYasuhiro Kanamaru
    • G01F1/68
    • G01F1/6845G01F1/692G01F1/6986
    • The coupling capacitance of the wiring portions of a thermal type flow rate measuring apparatus is reduced so as to prevent a drop in the response characteristics. A detection element of the thermal type flow rate measuring apparatus includes a planar substrate made of silicon, ceramic, or the like, in which a diaphragm is formed. On the surface of the diaphragm, there are disposed a heat-generating resistor as a heat-generating element that is heated to a predetermined temperature difference from the temperature of air flow to be measured, a heat-generating element temperature-detecting resistor for detecting the temperature of the heat-generating resistor, and temperature-detecting resistors disposed on both sides of the heat-generating resistor. The detection element also includes wiring portions which have connecting terminals electrically connected to the heat-generating resistor and a wiring pattern electrically connected with the surface of the planar substrate.
    • 热式流量测量装置的布线部分的耦合电容减小,以防止响应特性的下降。 热式流量测量装置的检测元件包括其中形成有隔膜的由硅,陶瓷等制成的平面基板。 在隔膜的表面上设置有发热电阻器作为发热元件,其被加热到与要测量的空气流的温度的预定温度差,用于检测的发热元件温度检测电阻器 发热电阻器的温度和设置在发热电阻器两侧的温度检测电阻器。 检测元件还包括具有与发热电阻器电连接的连接端子的布线部分和与平面基板的表面电连接的布线图案。
    • 9. 发明授权
    • Thermal type flow measurement apparatus having asymmetrical passage for flow rate measurement
    • 具有用于流量测量的不对称通道的热式流量测量装置
    • US07287424B2
    • 2007-10-30
    • US11210869
    • 2005-08-25
    • Masahiro MatsumotoMasamichi YamadaHiroshi NakanoKeiji HanzawaKeiichi Nakada
    • Masahiro MatsumotoMasamichi YamadaHiroshi NakanoKeiji HanzawaKeiichi Nakada
    • G01F1/68
    • G01F5/00G01F1/6845
    • IN a thermal type flow measurement apparatus, a heating element is disposed in a fluid passage and generates heat by a passage of a current through itself. A first thermal sensitive element is disposed adjacent upstream of the heating element in a direction of fluid flow to be measured. A second thermal sensitive element is disposed adjacent downstream of the heating element in the direction of fluid flow to be measured. The fluid passage is provided with the heating element, the first thermal sensitive element, and the second thermal sensitive element. The fluid passage has an asymmetric structure with respect to the direction of fluid flow.Means for measuring a difference of temperatures is sensed by the first and the second thermal sensitive elements to produce a voltage according to a fluid flow rate. Heat control means for controlling the passage of the current through the heating element so that a sum with weights of respective temperatures sensed by the first and the second thermal sensitive elements reaches a preset value.
    • 在热式流量测量装置中,加热元件设置在流体通道中,并且通过自身通过电流而产生热量。 第一热敏元件沿着待测量的流体流动的方向设置在加热元件的上游附近。 第二热敏元件沿着待测量的流体流动的方向设置在加热元件的下游附近。 流体通道设置有加热元件,第一热敏元件和第二热敏元件。 流体通道相对于流体流动的方向具有不对称结构。 通过第一和第二热敏元件检测用于测量温度差的装置,以根据流体流速产生电压。 用于控制通过加热元件的电流的热控制装置,使得由第一和第二热敏元件感测的相应温度的重量达到预设值。