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    • 3. 发明授权
    • Ion sensor
    • 离子传感器
    • US5156728A
    • 1992-10-20
    • US751581
    • 1991-08-22
    • Shuichiro YamaguchiTakanao SuzukiTakeshi ShimomuraNoboru Oyama
    • Shuichiro YamaguchiTakanao SuzukiTakeshi ShimomuraNoboru Oyama
    • G01N27/333
    • G01N27/3335
    • A portion of a board (1) on which copper wiring is printed is provided with a carbon coating, the board (1) and lead wires (2) are joined by solder (3), the portion having the solder (3) is insulated with a silicone resin (4), and the carbon-coated printed wiring portion (10a) is successively coated with a redox layer (11) obtained by electro-oxidation of 2,6 xylenol and an ion-selective layer (12), thereby forming an ion sensor (20).Since the ion sensor can be formed on a printed wiring board, various devices which include an ion sensor can readily be fabricated on a board.
    • PCT No.PCT / JP88 / 00143 Sec。 371日期:1989年10月10日 102(e)日期1989年10月10日PCT提交1988年2月12日PCT公布。 出版物WO88 / 06289 日期1988年8月25日。印刷有铜布线的板(1)的一部分设置有碳涂层,基板(1)和引线(2)通过焊料(3)接合,该部分具有 焊料(3)用硅树脂(4)绝缘,并且碳涂布印刷布线部分(10a)依次涂覆有通过电化学2,6二甲苯酚和离子交换树脂得到的氧化还原层(11) 选择层(12),从而形成离子传感器(20)。 由于可以在印刷电路板上形成离子传感器,所以可以容易地在板上制造包括离子传感器的各种装置。
    • 5. 发明授权
    • Electronic control unit having single non-volatile memory for multiple central processing units and data retrieval method
    • 具有用于多个中央处理单元的单个非易失性存储器和数据检索方法的电子控制单元
    • US06944649B1
    • 2005-09-13
    • US09717270
    • 2000-11-22
    • Takanao Suzuki
    • Takanao Suzuki
    • G06F15/167G06F9/52G06F12/00G06F15/177
    • G06F9/3824G06F9/3885G06F9/3891G06F9/52
    • An electronic control unit for engines or vehicles has multiple CPUs and a single non-volatile memory such as an EEPROM. The CPUs are programmed to directly receive data from the EEPROM. The CPUs may be programmed to generate respective data retrieving commands when the EEPROM is not being accessed for data retrieval. In this instance, the CPUs execute respective system register initialization processing differently from each other after a start of power supply. For instance, the system register initialization processing of a first CPU is divided while the system register initialization processing of a second CPU is not divided. Alternatively, the CPUs may be programmed to generate a data retrieving command only from the first CPU and receive the retrieved data by both the first CPU and the second CPU at the same time.
    • 用于发动机或车辆的电子控制单元具有多个CPU和诸如EEPROM的单个非易失性存储器。 CPU被编程为直接从EEPROM接收数据。 当EEPROM不被访问以用于数据检索时,CPU可以被编程为产生相应的数据检索命令。 在这种情况下,CPU在开始供电之后彼此不同地执行相应的系统寄存器初始化处理。 例如,第一CPU的系统寄存器初始化处理被划分,而第二CPU的系统寄存器初始化处理未被划分。 或者,CPU可以被编程为仅从第一CPU生成数据检索命令,并且同时由第一CPU和第二CPU同时接收检索的数据。
    • 8. 发明申请
    • PRESSURE SENSOR PACKAGE AND ELECTRONIC PART
    • 压力传感器包装和电子部件
    • US20080276713A1
    • 2008-11-13
    • US12175245
    • 2008-07-17
    • Satoshi YamamotoMikio HashimotoTakanao Suzuki
    • Satoshi YamamotoMikio HashimotoTakanao Suzuki
    • G01L9/00
    • G01L9/0042G01L9/0054G01L19/0069H01L2224/48091H01L2924/00014
    • A pressure sensor package of the present invention includes a pressure sensor including a cavity disposed within a semiconductor substrate, wherein a region of the substrate above the cavity comprises a diaphragm section; a plurality of pressure-sensitive elements, wherein at least of portion of each pressure-sensitive element is disposed on the diaphragm section; and a plurality of conductive portions laterally spaced from the cavity and electrically connected to the pressure sensitive elements, a plurality of electrically conductive bumps arranged on the conductive portions and electrically connected to the conductive portions, wherein a total thickness D1 of the semiconductor substrate, a thickness D2 of the diaphragm section, a thickness D3 of the cavity, and a thickness D4=D1−(D2+D3) satisfy the relationships: (D2+D3) in a range of approximately 5-20 μm, and D1 not less than about 100 μm.
    • 本发明的压力传感器封装包括压力传感器,该压力传感器包括设置在半导体衬底内的空腔,其中该腔体上方的区域包括隔膜部分; 多个压敏元件,其中每个压敏元件的至少一部分设置在隔膜部分上; 以及与所述空腔侧向间隔开并电连接到所述压敏元件的多个导电部分,布置在所述导电部分上并电连接到所述导电部分的多个导电凸块,其中所述半导体衬底的总​​厚度D 1, 隔膜部分的厚度D 2,空腔的厚度D 3和厚度D 4 = D 1-(D 2+ D 3)满足关系式(D 2+ D 3)在约5的范围内 -20μm,D 1不小于约100μm。