公开(公告)号：US20130106383A1

公开(公告)日：2013-05-02

申请号：US13576379

申请日：2011-01-31

Applicant: Fujio Kurokawa ,  Hiroyuki Osuga

Inventor： Fujio Kurokawa ,  Hiroyuki Osuga

IPC: G05F1/618

CPC classification number: G05F1/618 ,  H02M3/156 ,  H02M2003/1566

Abstract: By adding a suppression amount for suppressing an overshoot or undershoot that attenuates with time during an overshoot or undershoot period, the overshoot or undershoot can be suppressed within a short time and the output can be made close to a normal value. When an output has overshot, an overshoot suppression amount including a time-dependent attenuation suppression amount is added to an output feedback control amount, the time-dependent attenuation suppression amount being defined in a period during which the output overshoots. Alternatively, when the output has undershot, an undershoot suppression amount including a time-dependent attenuation suppression amount is added to the output feedback control amount, the time-dependent attenuation suppression amount being defined in a period during which the output undershoots.

Abstract translation: 通过在过冲或下冲周期期间添加用于抑制随时间衰减的过冲或下冲的抑制量，可以在短时间内抑制过冲或下冲，并且可以使输出接近正常值。 当输出过冲时，将包括时间依赖衰减抑制量的过冲抑制量加到输出反馈控制量上，该时间依赖衰减抑制量在输出过冲期间定义。 或者，当输出不足时，包括时间依赖衰减抑制量的下冲抑制量被添加到输出反馈控制量，该时间依赖衰减抑制量被定义在输出下冲的期间。

公开(公告)号：US08248131B2

公开(公告)日：2012-08-21

申请号：US12665396

申请日：2008-06-01

Applicant: Fujio Kurokawa

Inventor： Fujio Kurokawa

IPC: H03K5/13

CPC classification number: H03K5/1502

Abstract: There are provided a timing generating circuit which can generate the rising edge or the falling edge of pulses with a resolution higher than the frequency of a repeat signal generating circuit, and a phase shift circuit which can be applied to the timing generating circuit. The phase shift circuit receiving a repeat signal generates a signal of which a phase is shifted by a predetermined quantity on the basis of the repeat signal, the phase shift controller controls what phase of signal the phase shift circuit output among first to M-th signals, and the counter circuit counts the number of output signals of the phase shift circuit and generates a count end signal when the count value reaches a set value, and thereby the counter circuit outputs a synthesized timing signal of the timing of the repeat signal and the timing shifted by the phase shift circuit.

Abstract translation: 提供了一种定时产生电路，其可以产生分辨率高于重复信号发生电路的频率的脉冲的上升沿或下降沿，以及可应用于定时产生电路的相移电路。 接收重复信号的相移电路基于重复信号产生相位偏移预定量的信号，相移控制器控制相移电路在第一至第M信号之间输出的信号的相位 并且计数器电路对相移电路的输出信号的数量进行计数，并且当计数值达到设定值时产生计数结束信号，从而计数器电路输出重复信号的定时的合成定时信号和 定时由相移电路移位。

公开(公告)号：US08089257B2

公开(公告)日：2012-01-03

申请号：US12224225

申请日：2007-02-21

Applicant: Fujio Kurokawa

Inventor： Fujio Kurokawa

IPC: G05F1/40

CPC classification number: H02M3/157

Abstract: The voltage deviation is converted into the time quantity with the first integration circuit for the voltage detection and the second integration circuit for the voltage detection. The current setting value and the current measurements are converted into the time quantity with the second integration circuit for the current control to which the first integration circuit for the current control from which the voltage value of the set current value corresponding is input and the voltage value of the value of the current of the inductor corresponding are input and it controls. And, the start of the first integration circuit for the current control is delayed with operation quantity signal generation circuit only at the time that the high-resolution evaluation or more than the start of the first integration circuit for the current control and corresponds to the voltage deviation.

Abstract translation: 用电压检测用的第一积分电路和用于电压检测的第二积分电路将电压偏差转换成时间量。 将当前设定值和电流测量值转换为用于电流控制的第二积分电路的时间量，对于电流控制的第一积分电路，输入对应的设定电流值的电压值和电压值 的电感对应的电流值被输入并控制。 而且，只有在电流控制的高分辨率评估或多于开始的第一积分电路的时候，用于电流控制的第一积分电路的启动被延迟了操作量信号产生电路，并且对应于电压 偏差。

公开(公告)号：US20110181260A1

公开(公告)日：2011-07-28

申请号：US12935832

申请日：2009-02-28

Applicant: Fujio Kurokawa

Inventor： Fujio Kurokawa

IPC: G05F1/10 ,  H03M1/12

CPC classification number: H02M3/157 ,  H02M2001/0012 ,  H02M2003/1566

Abstract: A highly accurate control is achieved in such a way that a timing value is generated from a differential control amount calculation result and a filter calculation result at iteration intervals not exceeding the iteration intervals of the filter calculation and then the timing set value of a driving signal generation circuit is updated by this timing value. A device for controlling a power conversion circuit comprises an AD conversion circuit (22), a driving timing value generation circuit (23), and a driving signal generation circuit (24). The driving timing value generation circuit (23) includes a control amount calculation circuit (231) and a digital-digital addition circuit (232). The control amount calculation circuit (231) includes a first calculation unit (2311) for performing a differential control amount calculation and a second calculation unit (2312) for performing a filter calculation. The digital-digital addition circuit (232) adds a control amount generated by the second calculation unit (2312) and a control amount generated by the first calculation unit (2311) at iteration intervals exceeding the calculation iteration intervals in the first calculation unit (2311) but not exceeding the calculation iteration intervals in the second calculation unit (2312), and generates a driving timing value for a switch of a power conversion circuit. The driving signal generation circuit (24) receives the driving timing value and generates, according to the driving timing value, a driving signal for the switch (11) of the power conversion circuit (1).

Abstract translation: 以如下方式实现高精度的控制：使定时值从差分控制量计算结果和不超过滤波计算的迭代间隔的迭代间隔的滤波器计算结果生成，然后驱动信号的定时设定值 生成电路由该定时值更新。 用于控制功率转换电路的装置包括AD转换电路（22），驱动定时值产生电路（23）和驱动信号产生电路（24）。 驱动定时值产生电路（23）包括控制量计算电路（231）和数字数字加法电路（232）。 控制量计算电路（231）包括用于执行差分控制量计算的第一计算单元（2311）和用于执行滤波器计算的第二计算单元（2312）。 数字数字加法电路232在第一计算单元2311中以超过计算迭代间隔的迭代间隔增加由第二计算单元（2312）生成的控制量和由第一计算单元（2311）生成的控制量 ），但不超过第二计算单元（2312）中的计算迭代间隔，并且产生用于电力转换电路的开关的驱动定时值。 驱动信号生成电路（24）接收驱动定时值，根据驱动定时值，生成电力转换电路（1）的开关（11）的驱动信号。

公开(公告)号：US09331574B2

公开(公告)日：2016-05-03

申请号：US12935832

申请日：2009-02-28

Applicant: Fujio Kurokawa

Inventor： Fujio Kurokawa

IPC: H03M1/12 ,  H02M3/157 ,  H02M1/00 ,  H02M3/156

CPC classification number: H02M3/157 ,  H02M2001/0012 ,  H02M2003/1566

Abstract: A highly accurate control is achieved in such a way that a timing value is generated from a differential control amount calculation result and a filter calculation result at iteration intervals not exceeding the iteration intervals of the filter calculation and then the timing set value of a driving signal generation circuit is updated by this timing value. A device for controlling a power conversion circuit comprises an AD conversion circuit (22), a driving timing value generation circuit (23), and a driving signal generation circuit (24). The driving timing value generation circuit (23) includes a control amount calculation circuit (231) and a digital-digital addition circuit (232). The digital-digital addition circuit (232) generates a driving timing value for a switch of a power conversion circuit. The driving signal generation circuit (24) receives the driving timing value and generates a driving signal for the switch (11) of the power conversion circuit (1).

Abstract translation: 以如下方式实现高精度的控制：使定时值从差分控制量计算结果和不超过滤波计算的迭代间隔的迭代间隔的滤波器计算结果生成，然后驱动信号的定时设定值 生成电路由该定时值更新。 用于控制功率转换电路的装置包括AD转换电路（22），驱动定时值产生电路（23）和驱动信号产生电路（24）。 驱动定时值产生电路（23）包括控制量计算电路（231）和数字数字加法电路（232）。 数字数字加法电路（232）产生用于电力转换电路的开关的驱动定时值。 驱动信号生成电路（24）接收驱动定时值，并生成用于电力转换电路（1）的开关（11）的驱动信号。

公开(公告)号：US08451631B2

公开(公告)日：2013-05-28

申请号：US12741471

申请日：2008-10-31

Applicant: Fujio Kurokawa

Inventor： Fujio Kurokawa

IPC: H02M3/335

CPC classification number: H02M3/33507

Abstract: To detect a peak time of an exciting current of a transformer, a primary current corresponding to the peak time, or a variation time of the primary voltage, and to switch a switch after expiration of a predetermined period from the peak time, after the peak time occurs. A control apparatus 1 is applied to a power conversion circuit 2 which includes a switch circuit 23 including one switch or a plurality of switches and a transformer 21. The control apparatus includes: an output voltage detector 11 detecting a value of an output voltage of the power conversion circuit; an exciting current peak time generator 12 detecting a peak time of an exciting current of the transformer; a timing generator 13 generating a switching timing of the one switch or the plurality of switches. The timing generator 13 generates the switching timing of the one switch or the plurality of switches on the basis of the output voltage and the peak time.

Abstract translation: 为了检测变压器的励磁电流的峰值时间，对应于峰值时间的初级电流或初级电压的变化时间，并且在峰值时间之后的预定时间段期满之后切换开关 时间发生。 控制装置1应用于包括一个开关或多个开关的开关电路23和变压器21的电力转换电路2.控制装置包括：输出电压检测器11，其检测输出电压 电源转换电路; 励磁电流峰值时间发生器12检测变压器的励磁电流的峰值时间; 定时发生器13，产生一个开关或多个开关的切换定时。 定时发生器13基于输出电压和峰值时间产生一个开关或多个开关的切换定时。

公开(公告)号：US07999716B2

公开(公告)日：2011-08-16

申请号：US12444126

申请日：2007-08-22

Applicant: Fujio Kurokawa

Inventor： Fujio Kurokawa

IPC: H03M1/60

CPC classification number: H03M1/207 ,  H03M1/60 ,  H03M1/661 ,  H03M1/86

Abstract: There are provided an analog-digital converter circuit capable of performing the same degree of operation as being performed at a high-frequency oscillation pulse using a low-frequency oscillation pulse without using the high-frequency oscillation pulse, a timing signal generating circuit generating a timing signal at the high frequency, and a control device using the circuits. In an analog-digital converter circuit, a periodic signal generating circuit allows the first to j-th pulse counting devices of the N pulse counting devices to count a count value X and allows the other pulse counting devices to count a count value X−1 in each sampling period by sequentially generating N serial periodic signals at a delay time interval of [approximate value of one period (T) of periodic signals]÷N. A digital signal generating circuit converts the analog signal to the digital signal.

Abstract translation: 提供了一种模数转换器电路，其能够执行与在不使用高频振荡脉冲的情况下使用低频振荡脉冲在高频振荡脉冲下执行的相同操作的程度，定时信号产生电路产生 高频定时信号，以及使用该电路的控制装置。 在模拟数字转换器电路中，周期信号发生电路允许N个脉冲计数装置的第一至第j个脉冲计数装置对计数值X进行计数，并允许其它脉冲计数装置对计数值X-1进行计数 在每个采样周期通过以[周期信号]的一个周期（T）的近似值]÷N的延迟时间间隔依次产生N个串行周期信号。 数字信号发生电路将模拟信号转换成数字信号。

公开(公告)号：US09389627B2

公开(公告)日：2016-07-12

申请号：US13576379

申请日：2011-01-31

Applicant: Fujio Kurokawa ,  Hiroyuki Osuga

Inventor： Fujio Kurokawa ,  Hiroyuki Osuga

IPC: G05F1/00 ,  G05F1/618 ,  H02M3/156

CPC classification number: G05F1/618 ,  H02M3/156 ,  H02M2003/1566

Abstract: By adding a suppression amount for suppressing an overshoot or undershoot that attenuates with time during an overshoot or undershoot period, the overshoot or undershoot can be suppressed within a short time and the output can be made close to a normal value. When an output has overshot, an overshoot suppression amount including a time-dependent attenuation suppression amount is added to an output feedback control amount, the time-dependent attenuation suppression amount being defined in a period during which the output overshoots. Alternatively, when the output has undershot, an undershoot suppression amount including a time-dependent attenuation suppression amount is added to the output feedback control amount, the time-dependent attenuation suppression amount being defined in a period during which the output undershoots.

Abstract translation: 通过在过冲或下冲周期期间添加用于抑制随时间衰减的过冲或下冲的抑制量，可以在短时间内抑制过冲或下冲，并且可以使输出接近正常值。 当输出过冲时，将包括时间依赖衰减抑制量的过冲抑制量加到输出反馈控制量上，该时间依赖衰减抑制量在输出过冲期间定义。 或者，当输出不足时，包括时间依赖衰减抑制量的下冲抑制量被添加到输出反馈控制量，该时间依赖衰减抑制量被定义在输出下冲的期间。

公开(公告)号：US08598858B2

公开(公告)日：2013-12-03

申请号：US12598016

申请日：2008-04-30

Applicant: Fujio Kurokawa

Inventor： Fujio Kurokawa

IPC: G05F1/575

CPC classification number: H02M3/157 ,  H02M3/33515 ,  H02M2001/0009 ,  H02M2001/0012

Abstract: The first sampling measurement value compares whether to exceed a prescribed threshold and judges the control part at the sampling time. The control part compares whether the first sampling measurement value exceeds a prescribed threshold. When the actual measurement value doesn't exceed a prescribed threshold, the control part predict the first sampling value at the next sampling time. [1] When the first sampling the predicting value doesn't exceed the threshold value, the status of the switch is maintained, [2] When the first sampling the predicting value exceeds the threshold value, the time when the movement of the switch should be changed is calculated and the status of the switch is changed at time concerned.

Abstract translation: 第一采样测量值比较是否超过规定的阈值，并在采样时间判断控制部分。 控制部分比较第一采样测量值是否超过规定的阈值。 当实际测量值不超过规定阈值时，控制部分在下一个采样时间预测第一采样值。 [1]当第一次采样预测值不超过阈值时，保持开关状态，[2]当第一次采样预测值超过阈值时，开关的移动时间应为 计算出更改，交换机的状态在有关时间内发生变化。

公开(公告)号：US20120243265A1

公开(公告)日：2012-09-27

申请号：US13498289

申请日：2010-09-30

Applicant: Fujio Kurokawa ,  Hiroyuki Osuga

Inventor： Fujio Kurokawa ,  Hiroyuki Osuga

IPC: H02M3/335

CPC classification number: H02M3/33507 ,  H02M3/33515 ,  H02M2001/0012 ,  H02M2001/0016

Abstract: Disclosed herein is a control device for a DC/DC converter, in which FB control and FF control are combined to estimate an output voltage of a nonlinear dynamic system while guaranteeing stability. The control device includes a FB controller which generates a first time value for switch-off timing as the amount of feedback control, a machine learning controller which generates a second time value for switch-off timing as the amount of FF control, and a difference time calculator which obtains a difference between the first time value and the second time value and transmits a difference signal to the drive circuit. The machine learning controller calculates a second time value by multiplying the deviation between the target value of the machine learning control and the estimation value from leaning history in certain sampling by α=A·e×p(−λ×n) (A: a factor (except for zero) for suppressing the first undershoot, λ: a factor (constant except for zero) for suppressing the second undershoot, and n: an integer indicating the nth sampling).

Abstract translation: 本文公开了一种用于DC / DC转换器的控制装置，其中组合FB控制和FF控制以估计非线性动态系统的输出电压同时保证稳定性。 控制装置包括：FB控制器，其生成用于关闭定时的第一时间值作为反馈控制量;机器学习控制器，其生成关闭定时的第二时间值作为FF控制量;以及差值 时间计算器，其获得第一时间值和第二时间值之间的差，并将差分信号发送到驱动电路。 机器学习控制器通过将机器学习控制的目标值与某些采样中的估计值与倾斜历史之间的偏差乘以α= A·e×p（-λ×n）（A：a 用于抑制第一下冲的因子（零除外），λ：抑制第二下冲的因子（除零之外的常数），n：表示第n次采样的整数）。