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    • 1. 发明申请
    • Capacitance difference detecting circuit and MEMS sensor
    • 电容差分检测电路和MEMS传感器
    • US20050253596A1
    • 2005-11-17
    • US10942127
    • 2004-09-16
    • Mayo KitanoHideki SumiTsuyoshi Moribe
    • Mayo KitanoHideki SumiTsuyoshi Moribe
    • G01C19/56G01D5/24G01D5/241G01P15/125G01R27/26
    • G01C19/56G01D5/24G01P15/125G01P2015/084
    • Oscillators have capacitors, respectively, whose capacitances change according to an external force and generate first oscillating signals according to the capacitances. Each of the capacitors is disposed, for example, between a substrate and a mass body that is movably disposed to face the substrate and oscillates in a direction perpendicular to the substrate. A detecting unit detects a relative difference between the capacitances of the capacitors as a difference between frequencies of the first oscillating signals. An angular speed or acceleration applied in a horizontal direction of the substrate is calculated according to the frequency change detected by the detecting unit. Therefore, a capacitance difference detecting circuit and a MEMS sensor that detect a minute change in the capacitances of the two capacitors caused by the external force are formed.
    • 振荡器分别具有电容器,其电容根据外力而变化,并根据电容产生第一振荡信号。 每个电容器例如设置在基板和可移动地设置成面对基板并在垂直于基板的方向上振荡的质量体之间。 检测单元检测作为第一振荡信号的频率之间的差异的电容器的电容之间的相对差。 根据由检测单元检测到的频率变化来计算在基板的水平方向上施加的角速度或加速度。 因此,形成检测由外力引起的两个电容器的电容的微小变化的电容差检测电路和MEMS传感器。
    • 2. 发明授权
    • Capacitance difference detecting circuit and MEMS sensor
    • 电容差分检测电路和MEMS传感器
    • US07119550B2
    • 2006-10-10
    • US10942127
    • 2004-09-16
    • Mayo KitanoHideki SumiTsuyoshi Moribe
    • Mayo KitanoHideki SumiTsuyoshi Moribe
    • G01R27/26G01P9/04
    • G01C19/56G01D5/24G01P15/125G01P2015/084
    • Oscillators have capacitors, respectively, whose capacitances change according to an external force and generate first oscillating signals according to the capacitances. Each of the capacitors is disposed, for example, between a substrate and a mass body that is movably disposed to face the substrate and oscillates in a direction perpendicular to the substrate. A detecting unit detects a relative difference between the capacitances of the capacitors as a difference between frequencies of the first oscillating signals. An angular speed or acceleration applied in a horizontal direction of the substrate is calculated according to the frequency change detected by the detecting unit. Therefore, a capacitance difference detecting circuit and a MEMS sensor that detect a minute change in the capacitances of the two capacitors caused by the external force are formed.
    • 振荡器分别具有电容器,其电容根据外力而变化,并根据电容产生第一振荡信号。 每个电容器例如设置在基板和可移动地设置成面对基板并在垂直于基板的方向上振荡的质量体之间。 检测单元检测作为第一振荡信号的频率之间的差异的电容器的电容之间的相对差。 根据由检测单元检测到的频率变化来计算在基板的水平方向上施加的角速度或加速度。 因此,形成检测由外力引起的两个电容器的电容的微小变化的电容差检测电路和MEMS传感器。
    • 4. 发明授权
    • Analog filter circuit and adjustment method thereof
    • 模拟滤波电路及其调整方法
    • US07245178B2
    • 2007-07-17
    • US11600847
    • 2006-11-17
    • Mayo Kitano
    • Mayo Kitano
    • H03K5/00
    • H03H7/0153H03H11/04H03H11/1291
    • An analog filter circuit in which filter characteristic deviation can be adjusted with simple circuitry and its adjustment method can be provided. The analog filter circuit includes a low pass filter and a high pass filter and output signals of both filters are input to a comparison and adjustment section from which an adjustment signal is fed back to the low pass and high pass filters and also input to a predetermined-band pass filter having predetermined correlation to the low pass and high pass filters. The low pass and high pass filters are tuned so that the frequency-gain characteristic line in an attenuation band of the low pass filter linearly falls, while that line of the high pass filter linearly rises, both the lines crossing at a reference frequency. When filter characteristic deviation occurs, it is adjusted to compensate gain difference between the output signals produced by filtering the reference signal with a reference frequency and, accordingly, the predetermined-band pass filter is adjusted to its desired filter characteristic.
    • 可以提供使用简单电路调整滤波器特性偏差的模拟滤波电路及其调整方法。 模拟滤波器电路包括低通滤波器和高通滤波器,并且两个滤波器的输出信号被输入到比较和调节部分,调节信号从该比较和调节部分反馈到低通滤波器和高通滤波器,并且还输入到预定的 带通滤波器与低通滤波器和高通滤波器具有预定的相关性。 调整低通滤波器和高通滤波器,使得低通滤波器的衰减频带中的频率增益特性线线性地下降,而高通滤波器的线路线性地上升,两条线路以参考频率交叉。 当发生滤波器特性偏差时,调整其补偿通过用参考频率对参考信号进行滤波而产生的输出信号之间的增益差,并且因此将预定带通滤波器调整到其期望的滤波器特性。
    • 6. 发明授权
    • Charging circuit, charging apparatus, electronic equipment and charging method
    • 充电电路,充电装置,电子设备及充电方式
    • US08575898B2
    • 2013-11-05
    • US12697879
    • 2010-02-01
    • Mayo KitanoMasatoshi Kokubun
    • Mayo KitanoMasatoshi Kokubun
    • H02J7/00H02J7/14
    • H02J7/0031H02J7/0047
    • A charging circuit includes a monitoring part configured to monitor a battery voltage applied to a battery and configured to output an overvoltage signal when the battery is in an overvoltage condition a protection part configured to electrically disconnect the battery from an adaptor when receiving the overvoltage signal, and a switch which, when the battery is electrically disconnected from the adaptor, switches a monitoring node for an adaptor voltage outputted from the adaptor, from a supply node of the battery voltage to a supply node of a system voltage, which is applied to a system electrically connected with the battery and the adaptor, based on the overvoltage signal to cause a control command for controlling the adaptor voltage based on the system voltage to be outputted.
    • 充电电路包括:监视部,被配置为监视施加到电池的电池电压,并且被配置为当电池处于过电压状态时输出过电压信号;保护部件,被配置为在接收到过电压信号时将电池与适配器电连接, 以及开关,当电池与适配器电气断开时,将从适配器输出的适配器电压的监视节点从电池电压的供应节点切换到系统电压的供应节点,该供应节点被施加到 系统基于过电压信号与电池和适配器电连接,以根据要输出的系统电压产生用于控制适配器电压的控制命令。
    • 7. 发明申请
    • Analog filter circuit and adjustment method thereof
    • 模拟滤波电路及其调整方法
    • US20060145754A1
    • 2006-07-06
    • US11119921
    • 2005-05-03
    • Mayo Kitano
    • Mayo Kitano
    • H03B1/00
    • H03H7/0153H03H11/04H03H11/1291
    • An analog filter circuit in which filter characteristic deviation can be adjusted with simple circuitry and its adjustment method can be provided. The analog filter circuit includes a low pass filter and a high pass filter and output signals of both filters are input to a comparison and adjustment section from which an adjustment signal is fed back to the low pass and high pass filters and also input to a predetermined-band pass filter having predetermined correlation to the low pass and high pass filters. The low pass and high pass filters are tuned so that the frequency-gain characteristic line in an attenuation band of the low pass filter linearly falls, while that line of the high pass filter linearly rises, both the lines crossing at a reference frequency. When filter characteristic deviation occurs, it is adjusted to compensate gain difference between the output signals produced by filtering the reference signal with a reference frequency and, accordingly, the predetermined-band pass filter is adjusted to its desired filter characteristic.
    • 可以提供使用简单电路调整滤波器特性偏差的模拟滤波电路及其调整方法。 模拟滤波器电路包括低通滤波器和高通滤波器,并且两个滤波器的输出信号被输入到比较和调节部分,调节信号从该比较和调节部分反馈到低通滤波器和高通滤波器,并且还输入到预定的 带通滤波器与低通滤波器和高通滤波器具有预定的相关性。 调整低通滤波器和高通滤波器,使得低通滤波器的衰减频带中的频率增益特性线线性地下降,而高通滤波器的线路线性地上升,两条线路以参考频率交叉。 当发生滤波器特性偏差时,调整其补偿通过用参考频率对参考信号进行滤波而产生的输出信号之间的增益差,并且因此将预定带通滤波器调整到其期望的滤波器特性。
    • 9. 发明授权
    • Voltage control oscillation circuit and adjusting method for the same
    • 电压控制振荡电路及调整方法相同
    • US07482882B2
    • 2009-01-27
    • US11143643
    • 2005-06-03
    • Masayuki YonekawaYasuhiro KorogouchiMayo Kitano
    • Masayuki YonekawaYasuhiro KorogouchiMayo Kitano
    • H03L7/093
    • H03H7/0153H03B5/1215H03B5/1231H03B5/1243H03B5/1253H03B5/1293H03H11/04H03H11/1291
    • A voltage control oscillation (VCO) circuit and an adjusting method for the same, which enables an adjustment for suppressing the dispersion of the output characteristic in spite of the manufacture-related dispersion of element characteristics, using a simple circuit configuration, are provided. A low-pass filter 15 and a high-pass filter 16 are composed of the elements that have the same structure as elements composing the VCO circuit 11, and a prescribed correlation is established between both elements. A corrective element 14 is connected in parallel to a main element, in which an oscillation frequency control signal VT is input, in the VCO circuit 11. Respective frequency-gain characteristic lines of the low-pass/high-pass filters 15 and 16 have gradients reverse to each other and cross at a target gain TG. When the capacitance value lowers in dispersion, the level of an output signal SL2 becomes higher than that of an output signal SH2 at a reference frequency fREF to form an output level difference LD2. In response, an adjusting signal VCNT2 is output in correspondence to the output level difference LD2 to lower an oscillation frequency fVCO.
    • 提供一种电压控制振荡(VCO)电路及其调整方法,其使用简单的电路配置,能够进行用于抑制元件特性的制造相关色散的输出特性的偏差的调整。 低通滤波器15和高通滤波器16由具有与组成VCO电路11的元件相同结构的元件构成,并且在两个元件之间建立规定的相关性。 校正元件14并联连接到VCO电路11中输入振荡频率控制信号VT的主要元件。低通/高通滤波器15和16的各频率增益特性线具有 梯度相互相反并以目标增益TG交叉。 当电容值在色散中降低时,输出信号SL2的电平变得高于基准频率fREF的输出信号SH2的电平,以形成输出电平差LD2。 作为响应,对应于输出电平差LD2输出调整信号VCNT2,以降低振荡频率fVCO。
    • 10. 发明申请
    • Voltage control oscillation circuit and adjusting method for the same
    • 电压控制振荡电路及调整方法相同
    • US20060158266A1
    • 2006-07-20
    • US11143643
    • 2005-06-03
    • Masayuki YonekawaYasuhiro KorogouchiMayo Kitano
    • Masayuki YonekawaYasuhiro KorogouchiMayo Kitano
    • H03L7/00
    • H03H7/0153H03B5/1215H03B5/1231H03B5/1243H03B5/1253H03B5/1293H03H11/04H03H11/1291
    • A voltage control oscillation (VCO) circuit and an adjusting method for the same, which enables an adjustment for suppressing the dispersion of the output characteristic in spite of the manufacture-related dispersion of element characteristics, using a simple circuit configuration, are provided. A low-pass filter 15 and a high-pass filter 16 are composed of the elements that have the same structure as elements composing the VCO circuit 11, and a prescribed correlation is established between both elements. A corrective element 14 is connected in parallel to a main element, in which an oscillation frequency control signal VT is input, in the VCO circuit 11. Respective frequency-gain characteristic lines of the low-pass/high-pass filters 15 and 16 have gradients reverse to each other and cross at a target gain TG. When the capacitance value lowers in dispersion, the level of an output signal SL2 becomes higher than that of an output signal SH2 at a reference frequency fREF to form an output level difference LD2. In response, an adjusting signal VCNT2 is output in correspondence to the output level difference LD2 to lower an oscillation frequency fVCO.
    • 提供一种电压控制振荡(VCO)电路及其调整方法,其使用简单的电路配置,能够进行用于抑制元件特性的制造相关色散的输出特性的偏差的调整。 低通滤波器15和高通滤波器16由具有与组成VCO电路11的元件相同结构的元件构成,并且在两个元件之间建立规定的相关性。 在VCO电路11中,校正元件14并联连接到其中输入振荡频率控制信号VT的主元件。 低通/高通滤波器15和16的相应频率增益特性线具有彼此相反的梯度并且以目标增益TG交叉。 当电容值降低时,输出信号SL 2的电平变得高于基准频率fREF的输出信号SH 2的电平,以形成输出电平差LD 2。 作为响应,对应于输出电平差LD 2输出调节信号VCNT 2,以降低振荡频率fVCO。