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    • 1. 发明授权
    • Vibrational power generation device vibrator
    • 振动发电装置振动器
    • US07112911B2
    • 2006-09-26
    • US10767438
    • 2004-01-30
    • Hidetoshi TanakaNorio OhkuboMasafumi Kanetomo
    • Hidetoshi TanakaNorio OhkuboMasafumi Kanetomo
    • H02N1/00H02N2/00H01L41/04F02B63/04F03G7/08
    • H02N1/006
    • Unnecessary moment in a vibrator is remarkably reduced and the power generation efficiency in capacitance-type vibrational power generation is remarkably improved. A vibrator provided in a variable-capacitance type vibrator has a structure in that one ends of oscillation plates extending in a longitudinal direction thereof sandwiches a mass and the other ends thereof sandwiches a spacer, respectively, wherein the oscillation plates are arranged parallel to each other. A space portion between the oscillation plates and in which the mass and the spacer are not in contact with each other functions as a spring. By holding the mass by the two oscillation plates, the mass can be oscillated while it is in parallel to an opposing electrode. Therefore, generation of unnecessary moment in a direction other than an oscillation direction can be remarkably reduced.
    • 振动器中不必要的力矩明显降低,电容式振动发电的发电效率显着提高。 设置在可变电容型振动器中的振动器具有以下结构:振动板沿其纵向方向延伸的一端夹着质量,并且其另一端分别夹持间隔件,其中振动板彼此平行布置 。 振动板之间的空间部分和质量块和间隔件彼此不接触的空间部分用作弹簧。 通过用两个振动板保持质量,质量可以在与对置电极平行的同时摆动。 因此,可以显着地减少在振荡方向以外的方向产生不必要的力矩。
    • 2. 发明申请
    • Vibrational power generation device vibrator
    • 振动发电装置振动器
    • US20050040654A1
    • 2005-02-24
    • US10767438
    • 2004-01-30
    • Hidetoshi TanakaNorio OhkuboMasafumi Kanetomo
    • Hidetoshi TanakaNorio OhkuboMasafumi Kanetomo
    • H02N2/00B60L11/02B61C9/38H02N1/00H02P9/04
    • H02N1/006
    • Unnecessary moment in a vibrator is remarkably reduced and the power generation efficiency in capacitance-type vibrational power generation is remarkably improved. A vibrator provided in a variable-capacitance type vibrator has a structure in that one ends of oscillation plates extending in a longitudinal direction thereof sandwiches a mass and the other ends thereof sandwiches a spacer, respectively, wherein the oscillation plates are arranged parallel to each other. A space portion between the oscillation plates and in which the mass and the spacer are not in contact with each other functions as a spring. By holding the mass by the two oscillation plates, the mass can be oscillated while it is in parallel to an opposing electrode. Therefore, generation of unnecessary moment in a direction other than an oscillation direction can be remarkably reduced.
    • 振动器中不必要的力矩明显降低,电容式振动发电的发电效率显着提高。 设置在可变电容型振动器中的振动器具有以下结构:振动板沿其纵向方向延伸的一端夹着质量,并且其另一端分别夹持间隔件,其中振动板彼此平行布置 。 振动板之间的空间部分和质量块和间隔件彼此不接触的空间部分用作弹簧。 通过用两个振动板保持质量,质量可以在与对置电极平行的同时摆动。 因此,可以显着地减少在振荡方向以外的方向产生不必要的力矩。
    • 3. 发明申请
    • Piezoelectric power generation system and sensor system
    • 压电发电系统和传感器系统
    • US20050052097A1
    • 2005-03-10
    • US10878249
    • 2004-06-29
    • Hidetoshi TanakaNorio Ohkubo
    • Hidetoshi TanakaNorio Ohkubo
    • H02N2/00H01L41/113H03K17/965
    • H02N2/183
    • A piezoelectric power generation system which performs a highly efficient power generation using a piezoelectric element without dependency on the direction of an externally driven vibration. The piezoelectric power generation system includes a vibrator having a beam in the form of a rod, and an impact element such as a steel ball. At one end of the beam is fixed the impact element, and at the other end of the beam, the beam is fixed to the base. The outer circumference of the impact element carries the cylinder shaped piezoelectric element. When the base vibrates due to an externally driven vibration, the vibrator vibrates in synchronization with the given vibration in the radial direction of the base to cause the impact element of the base to impact with the inner surface of the cylindrical piezoelectric element, forcing the piezoelectric element to deform and thereby generate electrical power. The dependency on the vibration direction in the vibrator is minimized to significantly improve the efficiency of power generation.
    • 一种压电发电系统,其使用压电元件执行高效发电,而不依赖于外部驱动的振动的方向。 压电发电系统包括具有棒形梁的振动器和诸如钢球的冲击元件。 在梁的一端固定冲击元件,在梁的另一端固定梁。 冲击元件的外周承载圆柱形的压电元件。 当基座由于外部驱动的振动而振动时,振动器与基座径向的给定振动同步地振动,使得基座的冲击元件与圆柱形压电元件的内表面碰撞,迫使压电 元件变形并由此产生电力。 振动器对振动方向的依赖性被最小化以显着提高发电效率。
    • 5. 发明授权
    • Piezoelectric power generation system and sensor system
    • 压电发电系统和传感器系统
    • US07176601B2
    • 2007-02-13
    • US10878249
    • 2004-06-29
    • Hidetoshi TanakaNorio Ohkubo
    • Hidetoshi TanakaNorio Ohkubo
    • H01L41/113H02N2/00
    • H02N2/183
    • A piezoelectric power generation system which performs a highly efficient power generation using a piezoelectric element without dependency on the direction of an externally driven vibration. The piezoelectric power generation system includes a vibrator having a beam in the form of a rod, and an impact element such as a steel ball. At one end of the beam is fixed the impact element, and at the other end of the beam, the beam is fixed to the base. The outer circumference of the impact element carries the cylinder shaped piezoelectric element. When the base vibrates due to an externally driven vibration, the vibrator vibrates in synchronization with the given vibration in the radial direction of the base to cause the impact element of the base to impact with the inner surface of the cylindrical piezoelectric element, forcing the piezoelectric element to deform and thereby generate electrical power. The dependency on the vibration direction in the vibrator is minimized to significantly improve the efficiency of power generation.
    • 一种压电发电系统,其使用压电元件执行高效发电,而不依赖于外部驱动的振动的方向。 压电发电系统包括具有棒形梁的振动器和诸如钢球的冲击元件。 在梁的一端固定冲击元件,在梁的另一端固定梁。 冲击元件的外周承载圆柱形的压电元件。 当基座由于外部驱动的振动而振动时,振动器与基座径向的给定振动同步地振动,使得基座的冲击元件与圆柱形压电元件的内表面碰撞,迫使压电 元件变形并由此产生电力。 振动器对振动方向的依赖性被最小化以显着提高发电效率。
    • 7. 发明申请
    • SYNCHRONOUS SEMICONDUCTOR DEVICE, AND INSPECTION SYSTEM AND METHOD FOR THE SAME
    • 同步半导体器件及其检测系统及其方法
    • US20100052727A1
    • 2010-03-04
    • US12614713
    • 2009-11-09
    • Hiroyuki SUGAMOTOHidetoshi TanakaYasushige Ogawa
    • Hiroyuki SUGAMOTOHidetoshi TanakaYasushige Ogawa
    • G01R31/28
    • G11C8/08G01R31/31701G11C29/34
    • The present invention provides a synchronous semiconductor device suitable for improving the efficiency of application of electrical stresses to the device, an inspection system and an inspection method thereof in order to efficiently carry out a burn-in stress test. A command latch circuit having an access command input will output a low-level pulse in synchronism with an external clock. The pulse will pass through a NAND gate of test mode sequence circuit and a common NAND gate to output a low-level internal precharge signal, which will resent a word line activating signal from the control circuit. Simultaneously, an internal precharge signal passing through the NAND gate will be delayed by an internal timer a predetermined period of time to output through the NAND gate a low-level internal active signal, which will set a word line activating signal from the control circuit.
    • 本发明提供一种同步半导体装置,其适用于提高对装置的电应力的效率,检查系统及其检查方法,以便有效地进行老化应力试验。 具有访问命令输入的命令锁存电路将输出与外部时钟同步的低电平脉冲。 脉冲将通过测试模式序列电路的NAND门和公共NAND门,以输出低电平的内部预充电信号,这将使来自控制电路的字线激活信号重新发出。 同时,通过NAND门的内部预充电信号将被内部定时器延迟预定时间段,以通过NAND门输出低电平内部有效信号,该低电平内部有效信号将设置来自控制电路的字线激活信号。
    • 8. 发明授权
    • Synchronous semiconductor device, and inspection system and method for the same
    • 同步半导体器件及其检测系统及方法相同
    • US07663392B2
    • 2010-02-16
    • US12112782
    • 2008-04-30
    • Hiroyuki SugamotoHidetoshi TanakaYasushige Ogawa
    • Hiroyuki SugamotoHidetoshi TanakaYasushige Ogawa
    • G01R31/28G11C7/00
    • G11C8/08G01R31/31701G11C29/34
    • The present invention provides a synchronous semiconductor device suitable for improving the efficiency of application of electrical stresses to the device, an inspection system and an inspection method thereof in order to efficiently carrying out a burn-in stress test. A command latch circuit having an access command input will output a low-level pulse in synchronism with an external clock. The pulse will pass through a NAND gate of test mode sequence circuit and a common NAND gate to output a low-level internal precharge signal, which will reset a word line activating signal from the control circuit. Simultaneously, an internal precharge signal passing through the NAND gate will be delayed by an internal timer a predetermined period of time to output through the NAND gate a low-level internal active signal, which will set a word line activating signal from the control circuit.
    • 本发明提供了一种同步半导体装置,其适用于提高对装置的电应力的效率,检查系统及其检查方法,以便有效地执行老化压力试验。 具有访问命令输入的命令锁存电路将输出与外部时钟同步的低电平脉冲。 脉冲将通过测试模式序列电路的NAND门和公共NAND门,以输出低电平的内部预充电信号,这将使来自控制电路的字线激活信号复位。 同时,通过NAND门的内部预充电信号将被内部定时器延迟预定时间段,以通过NAND门输出低电平内部有效信号,该低电平内部有效信号将设置来自控制电路的字线激活信号。
    • 10. 发明申请
    • SENSOR NODE FOR IMPACT DETECTION
    • 用于冲击检测的传感器节点
    • US20070251294A1
    • 2007-11-01
    • US11211485
    • 2005-08-26
    • Hidetoshi TanakaKei Suzuki
    • Hidetoshi TanakaKei Suzuki
    • G01N3/30
    • G01P15/0922G01P15/0891
    • The invention is intended to provide a technique regarding sensor nodes for impact detection to enable the intensities of impacts to be determined in a multi-value or analog mode and to reduce the power consumption of sensor nodes. The sensor node is provided with a shock detection sensor comprising a piezoelectric element unit which generates an electric charge corresponding to an external impact, a capacitor which rectifies and accumulates the electric charge so generated, and a voltage detector which operates on the accumulated power and externally outputs a signal when the accumulated voltage reaches a preset level; a stand-by control object section which is caused by the external signal to return from a stand-by state and to operate; and a power supply which feeds power to the stand-by control object section, wherein the operation of the stand-by control object section is triggered by the signal of impact detected by the piezoelectric element unit.
    • 本发明旨在提供一种关于用于冲击检测的传感器节点的技术,以使得能够以多值或模拟模式确定冲击的强度并降低传感器节点的功率消耗。 传感器节点设有一个震动检测传感器,它包括一个压电元件单元,该压电元件单元产生一个与外部冲击相对应的电荷;一个电容器,用于整流和累积如此产生的电荷;以及一个电压检测器,其对累积功率和外部 当累积电压达到预设电平时,输出信号; 由外部信号引起的备用控制对象部分从待机状态返回并进行操作; 以及向备用控制对象部供电的电源,其中,由压电元件单元检测到的冲击信号触发待机控制对象部的动作。