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    • 4. 发明申请
    • ROTARY ENCODER
    • 旋转编码器
    • US20060033643A1
    • 2006-02-16
    • US10497589
    • 2003-04-11
    • Takashi OkamuroHirokazu Sakuma
    • Takashi OkamuroHirokazu Sakuma
    • H03M1/22
    • G01D5/24452G01D5/24409G01D5/2449H03M1/1038H03M1/24
    • A rotary type encoder is provided with a signal generating portion 2 for generating a sine wave signal of N periods for each revolution in accordance with the rotation of the shaft 4 of a motor; a calculation means for obtaining the rotation angle of the shaft 4 based on the sine wave signal; an EEPROM 37 being arranged in a manner that the error value of the rotation angle for one revolution of the shaft 4 thus measured is divided in relation with the N periods to set a plurality of first angle regions i, the angle region almost at the center of the angle region i is divided into plural regions to set second angle regions j, and an error value corresponding to the angle at almost the center of each of the angle regions j is stored therein in correspondence with the rotation angle; and a correction means for reading the error value stored in the EEPROM 37 in correspondence with the rotation angle to correct the rotation angle.
    • 旋转型编码器具有信号产生部分2,用于根据电动机的轴4的旋转产生每个旋转的N个周期的正弦波信号; 用于基于正弦波信号获得轴4的旋转角度的计算装置; 以这样的方式布置EEPROM37,使得如此测量的轴4的旋转角度的误差值与N个周期相分离,以设置多个第一角度区域i,几乎处于中心的角度区域 角度区域i被分成多个区域以设置第二角度区域j,并且与角度区域j的几乎中心处的角度对应的误差值与旋转角度对应地存储在其中; 以及校正装置,用于根据旋转角读出存储在EEPROM 37中的误差值,以校正旋转角度。
    • 5. 发明申请
    • POSITION DETECTION ERROR CORRECTING METHOD
    • 位置检测错误校正方法
    • US20090259918A1
    • 2009-10-15
    • US11997947
    • 2006-11-09
    • Hiroshi SugieHirokazu SakumaTakashi Okamuro
    • Hiroshi SugieHirokazu SakumaTakashi Okamuro
    • H03M13/05G06F11/10
    • G01D5/24409G01D5/24452G01D5/2449
    • A position detection error correcting method that corrects position detection errors using a limited storage capacity, by calculating position detection error correction values by four simple arithmetic operations at startup to reduce a startup time delay and consumption of a storage capacity even when a portion containing steep error variations exists. Detection error correction values of a position detector are expressed by a correction function using a periodic function, and correction parameters of the correction values are stored in advance in a non-volatile memory. At startup, these correction parameters are read out, and a position detection error correction value corresponding to each detected position is calculated and stored in a random access memory. The output position detection error correction value detector corresponding to each detected position is read out from the random access memory and a corrected detected position value corrected for the detected position value error is calculated.
    • 一种位置检测误差校正方法,通过在启动时通过四个简单的算术运算来计算位置检测误差校正值,即使在包含陡峭误差的部分时也减少启动时间延迟和存储容量的消耗,利用有限的存储容量校正位置检测误差 存在差异。 位置检测器的检测误差校正值由使用周期函数的校正函数表示,校正值的校正参数预先存储在非易失性存储器中。 在启动时,读出这些校正参数,并且计算与每个检测位置相对应的位置检测误差校正值并将其存储在随机存取存储器中。 从随机存取存储器读出对应于每个检测位置的输出位置检测误差校正值检测器,并且计算针对检测到的位置值误差校正的校正检测位置值。
    • 6. 发明授权
    • Position detection error correcting method
    • 位置检测纠错方法
    • US08091003B2
    • 2012-01-03
    • US11997947
    • 2006-11-09
    • Hiroshi SugieHirokazu SakumaTakashi Okamuro
    • Hiroshi SugieHirokazu SakumaTakashi Okamuro
    • G01B21/00
    • G01D5/24409G01D5/24452G01D5/2449
    • A position detection error correcting method that corrects position detection errors using a limited storage capacity, by calculating position detection error correction values by four simple arithmetic operations at startup to reduce a startup time delay and consumption of a storage capacity even when a portion containing steep error variations exists. Detection error correction values of a position detector are expressed by a correction function using a periodic function, and correction parameters of the correction values are stored in advance in a non-volatile memory. At startup, these correction parameters are read out, and a position detection error correction value corresponding to each detected position is calculated and stored in a random access memory. The output position detection error correction value detector corresponding to each detected position is read out from the random access memory and a corrected detected position value corrected for the detected position value error is calculated.
    • 一种位置检测误差校正方法,通过在启动时通过四个简单的算术运算来计算位置检测误差校正值,即使在包含陡峭误差的部分时也减少启动时间延迟和存储容量的消耗,利用有限的存储容量校正位置检测误差 存在差异。 位置检测器的检测误差校正值由使用周期函数的校正函数表示,校正值的校正参数预先存储在非易失性存储器中。 在启动时,读出这些校正参数,并且计算与每个检测位置相对应的位置检测误差校正值并将其存储在随机存取存储器中。 从随机存取存储器读出对应于每个检测位置的输出位置检测误差校正值检测器,并且计算针对检测到的位置值误差校正的校正检测位置值。
    • 7. 发明授权
    • Position detection apparatus
    • 位置检测装置
    • US06348695B2
    • 2002-02-19
    • US09746539
    • 2000-12-21
    • Takashi OkamuroHirokazu Sakuma
    • Takashi OkamuroHirokazu Sakuma
    • G01N2186
    • G01D5/244
    • A position detection apparatus which can control an apparatus to be controlled, such as a motor or the like, more precisely, is disclosed. When a predetermined time has passed since reception of a request signal for requesting output of the position data was detected, the position detector measures the output of a sensor for detecting the position of an object to be measured, and calculates the position data representing the position of the object at a point of time when the measurement was performed, based on the measured output. Moreover, the position detector measures the reception interval of the request signal, calculates the corrected position data representing the position of the object at the time of receiving the request signal whose reception interval was measured, using a value obtained by subtracting the predetermined time from the measured reception interval, the calculated position data, and a change rate in a presumed position of the object, and outputs the corrected position data as a response to the request signal.
    • 公开了一种可以更精确地控制诸如电动机等之类的控制装置的位置检测装置。 当检测到用于请求输出位置数据的请求信号的接收经过了预定时间时,位置检测器测量用于检测被测量物体的位置的传感器的输出,并且计算表示位置数据的位置数据 基于测量的输出在执行测量的时间点处的对象。 此外,位置检测器测量请求信号的接收间隔,使用通过从接收到的接收间隔减去预定时间而获得的值来计算表示接收到接收间隔的请求信号时的对象的位置的校正位置数据 测量的接收间隔,所计算的位置数据和目标的推定位置的变化率,并且作为对请求信号的响应输出校正的位置数据。
    • 8. 发明授权
    • Rotary encoder
    • 旋转编码器
    • US07046176B2
    • 2006-05-16
    • US10497589
    • 2003-04-11
    • Takashi OkamuroHirokazu Sakuma
    • Takashi OkamuroHirokazu Sakuma
    • H03M1/48
    • G01D5/24452G01D5/24409G01D5/2449H03M1/1038H03M1/24
    • A rotary type encoder is provided with a signal generating portion 2 for generating a sine wave signal of N periods for each revolution in accordance with the rotation of the shaft 4 of a motor; a calculation means for obtaining the rotation angle of the shaft 4 based on the sine wave signal; an EEPROM 37 being arranged in a manner that the error value of the rotation angle for one revolution of the shaft 4 thus measured is divided in relation with the N periods to set a plurality of first angle regions i, the angle region almost at the center of the angle region i is divided into plural regions to set second angle regions j, and an error value corresponding to the angle at almost the center of each of the angle regions j is stored therein in correspondence with the rotation angle; and a correction means for reading the error value stored in the EEPROM 37 in correspondence with the rotation angle to correct the rotation angle.
    • 旋转型编码器具有信号产生部分2,用于根据电动机的轴4的旋转产生每个旋转的N个周期的正弦波信号; 用于基于正弦波信号获得轴4的旋转角度的计算装置; 以这样的方式布置EEPROM37,使得如此测量的轴4的旋转角度的误差值与N个周期相分离,以设置多个第一角度区域i,几乎处于中心的角度区域 角度区域i被分成多个区域以设置第二角度区域j,并且与角度区域j的几乎中心处的角度对应的误差值与旋转角度对应地存储在其中; 以及校正装置,用于根据旋转角读出存储在EEPROM 37中的误差值,以校正旋转角度。
    • 10. 发明授权
    • Position detecting apparatus
    • 位置检测装置
    • US06232595B1
    • 2001-05-15
    • US09613312
    • 2000-07-10
    • Takashi OkamuroHirokazu SakumaYoichi Ohmura
    • Takashi OkamuroHirokazu SakumaYoichi Ohmura
    • G01D534
    • G01D5/24476G01D5/24409G01D5/2448
    • In a position detecting apparatus which detects an absolute position by A/D converting sinusoidal and cosinusoidal signals and performing interpolation, a phase error between the signals which is caused by movement of a detection object during the A/D conversion is corrected, thereby enabling sample hold circuits which have been necessary for maintaining the synchronism of analog signals to be omitted, so as to realize the cost reduction and miniaturization. This is enabled also in an apparatus of high resolution. Position data at requests of the last and preceding times are stored into a RAM 12. On the basis of the position data, a CPU 10 predicts the amount of a phase shift of another signal due to movement during A/D conversion of one signal, corrects the predicted phase shift amount, and then calculates the position data.
    • 在通过A / D转换正弦和余弦信号来检测绝对位置并进行插值的位置检测装置中,校正在A / D转换期间由检测对象的移动引起的信号之间的相位误差,从而使样本 保持模拟信号的同步性所必需的保持电路,从而实现成本的降低和小型化。 这也可以在高分辨率的装置中实现。 位置数据存储在RAM12中。根据位置数据,CPU10预测由于一个信号的A / D转换期间的移动导致的另一个信号的相移量, 校正预测的相移量,然后计算位置数据。