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    • 1. 发明授权
    • Pulse width modulation operation circuit
    • 脉宽调制运算电路
    • US5889424A
    • 1999-03-30
    • US18836
    • 1998-02-04
    • Atsushi IwataMakoto Nagata
    • Atsushi IwataMakoto Nagata
    • G06G7/161H03K9/08H03M1/50G06G7/12
    • H03K9/08
    • The invention provides a pulse width modulation operation circuit for processing an m-bit pulse width modulation signal which is represented by a number n of sub pulse width modulation signals, where n is a divisor of m, characterized by comprising at least two equivalent pulse modulation operation circuits for individually processing the number n of sub pulse width modulation signals and outputting the processing results in the form of binary digital signals, and means for adding the binary digital signals from the pulse modulation operation circuits. The pulse modulation operation circuits include current pulse generating means for generating current pulses corresponding to the sub pulse width modulation signals, a current bus for transmitting the generated current pulses, and means for integrating the current pulses and converting the integrated current pulses into charges, and means for digitizing the sum of the charges to obtain digitized data. Alternatively, the pulse width modulation operation circuit comprises at least one pulse modulation operation circuit for processing the number n of sub pulse width modulation signals in a time-series manner and outputting the processing results in the form of binary digital signals.
    • 本发明提供了一种用于处理由n个子脉冲宽度调制信号表示的m位脉冲宽度调制信号的脉宽调制运算电路,其中n是m的除数,其特征在于包括至少两个等效脉冲调制 用于单独处理子脉冲宽度调制信号的数量n的运算电路,并以二进制数字信号的形式输出处理结果,以及用于从脉冲调制运算电路相加二进制数字信号的装置。 脉冲调制运算电路包括电流脉冲发生装置,用于产生对应于子脉冲宽度调制信号的电流脉冲,用于发送所产生的电流脉冲的电流总线,以及用于积分电流脉冲并将积分电流脉冲转换成电荷的装置,以及 用于数字化费用总和以获得数字化数据的装置。 或者,脉宽调制运算电路包括至少一个用于以时间序列方式处理子脉冲宽度调制信号数量n的脉冲调制运算电路,并以二进制数字信号的形式输出处理结果。
    • 2. 发明授权
    • Method and apparatus for analyzing a source current waveform in a semiconductor integrated circuit
    • 用于分析半导体集成电路中的源电流波形的方法和装置
    • US07039536B2
    • 2006-05-02
    • US09977994
    • 2001-10-17
    • Makoto NagataAtsushi Iwata
    • Makoto NagataAtsushi Iwata
    • G06F17/00
    • G06F17/5036G01R31/3004
    • The invention provides a method of analyzing a source current at a higher speed and an enhanced accuracy in a semiconductor integrated circuit including a digital circuit. The method to analyze a waveform of the source current, with consideration of re-distribution of charges throughout the digital circuit in the semiconductor integrated circuit, expressing the digital circuit with series of parasitic capacitors ΣCch, ↑ (nT) and ΣCch, ↓ (nT) to be charged and connected between the source and the ground lines. The capacitor series are calculated in time series based on the distribution of switching operations of the logic gates included in the digital circuit. An analysis model for determining the waveform of the source current in the digital circuit is obtained by connecting the parasitic capacitor series with a couple of respective parasitic impedances Zd and Zg of the source line and the ground line.
    • 本发明提供了一种在包括数字电路的半导体集成电路中以更高的速度和更高的精度来分析源电流的方法。 考虑到在半导体集成电路中的整个数字电路中的电荷的再分配,分析源极电流的波形的方法,表示具有一系列寄生电容器的数字电路SigmaC< ch> nT)和SigmaC ch,↓(nT),以在源极和地线之间被充电和连接。 基于包括在数字电路中的逻辑门的开关操作的分布,以时间序列计算电容器系列。 用于确定数字电路中的源电流的波形的分析模型通过将寄生电容器系列与一对相应的寄生阻抗Z SUB和Z SUB连接在一起而获得 源极线和地线。
    • 4. 发明授权
    • Apparatus for processing two-dimensional information
    • 二维信息处理装置
    • US6088490A
    • 2000-07-11
    • US47378
    • 1998-03-25
    • Atsushi IwataMakoto Nagata
    • Atsushi IwataMakoto Nagata
    • H04N1/21G06T1/20G06T7/60G06K7/00
    • G06T1/20
    • A two-dimensional information processing apparatus comprises a plurality of unit cell circuits arranged in a tow-dimensional matrix and each including a detector for detecting information as predetermined part of two-dimensional information, a storage circuit for storing the information detected by the detector, and a signal processing circuit for generating a pulse width modulation signal which has a pulse width corresponding to the information detected or stored, a plurality of address lines extending in a direction of columns of the matrix, and each connected to those unit cell circuits which are included in a corresponding one of the columns, a plurality of bus lines extending in a direction of rows of the matrix, and each connected to those unit cell circuits which are included in a corresponding one of the rows, means for selecting at least one of the address lines and supplying, through the selected address line, a control signal for generating a pulse width modulation signal to those unit cell circuits which are included in the selected bus line, and means for selecting at least one of the bus lines and reading, through the selected bus line, at least one pulse width modulation signal. The control signal includes a ramp signal, and the pulse modulation signal rises when the voltage of the ramp signal starts to increase, and falls when the voltage of the ramp signal is identical to a voltage determined on the basis of the information detected by the detector.
    • 一种二维信息处理装置,包括:多维单位电路,以多维矩阵的形式排列,每一个都包含检测信息作为二维信息的预定部分的检测器;存储检测器检测出的信息的存储电路; 以及信号处理电路,用于产生具有与检测或存储的信息相对应的脉冲宽度的脉宽调制信号,沿矩阵列的方向延伸的多个地址线,并且每个连接到那些单元电路 包括在对应的一列中,沿矩阵行的方向延伸的多个总线,并且每个连接到包括在相应的一行中的那些单元电路,用于选择以下各项中的至少一个的装置: 地址线,并通过所选地址线提供用于产生脉宽调制信号的控制信号 包括在所选择的总线中的那些单元电路,以及用于选择至少一个总线并通过所选择的总线读取至少一个脉冲宽度调制信号的装置。 控制信号包括斜坡信号,并且当斜坡信号的电压开始增加时,脉冲调制信号上升,当斜坡信号的电压与基于由检测器检测到的信息确定的电压相同时,脉冲调制信号下降 。
    • 5. 发明授权
    • Information processing structures
    • US06661022B2
    • 2003-12-09
    • US09926698
    • 2001-12-04
    • Takashi MorieAtsushi IwataMakoto NagataToshio YamanakaTomohiro Matsuura
    • Takashi MorieAtsushi IwataMakoto NagataToshio YamanakaTomohiro Matsuura
    • H01L2906
    • B82Y10/00G11C11/34G11C2216/08H01L29/7613H01L29/7888
    • An information processing structure is disclosed that is formed of single electron circuits each operating rapidly and stably by way of a single electron operation. The information processing structure includes a MOSFET (11), and a plurality of quantum dots (13) disposed immediately above a gate electrode (12) of the MOSFET and each of which is made of a microconductor or microsemiconductor of a nanometer scale in size. Between each of the quantum dots and the gate electrode is there formed an energy barrier that an electron is capable of directly tunneling. The total number of such electrons moved between the quantum dots and the gate electrode is used to represent information. In the structure, a power source electrode (14) is disposed in contact with the quantum dots and a pair of information electrodes (15) is disposed across a quantum dot in contact therewith for having electric potentials applied thereto, representing data of information. Between each of the quantum dots and the power source electrode is there also formed a potential barrier that an electron is capable of directly tunneling. A capacitive coupling is provided between the information electrodes in pair and the quantum dot between them to prevent movement of an electron between the quantum dot and the information electrodes, and an electron is rendered movable by the Coulomb blockade through the quantum dot between the power source electrode and the gate electrode in response to a relative electric potential determined at the information electrodes.
    • 6. 发明授权
    • Pulse modulation operation circuit
    • 脉冲调制运算电路
    • US6157672A
    • 2000-12-05
    • US18837
    • 1998-02-04
    • Atsushi IwataMakoto Nagata
    • Atsushi IwataMakoto Nagata
    • G06G7/161H03M1/50H03K7/08H03K9/08G06G7/12
    • H03M1/504H03M1/502
    • A pulse modulation operation circuit includes a current bus, a plurality of switch current sources connected parallel to each other and commonly connected to the current bus for generating current pulses corresponding to external input signals, charge conversion element connected to the current bus for integrating the current pulses and converting them into a charge, and an output for converting the charge into a binary digital signal and outputting the binary digital signal. Each pulse width modulation signal is input to a corresponding one of the switch current sources, which in turn generates a constant current for a period corresponding to the width of each pulse of the signal, to convert each signal pulse into a current pulse. The thus-obtained current pulses are added on the common current bus, thereby obtaining, by capacitive integration, a total charge Q.sub.total proportional to the sum of the widths of the current pulses. To this end, a reference charge counter circuit has a function for integration and a function for digitizing the total charge Q.sub.total in units of a reference charge Q.sub.std in real time.
    • 脉冲调制运算电路包括电流总线,多个彼此并联连接的开关电流源,并且共同连接到当前总线,用于产生对应于外部输入信号的电流脉冲;电荷转换元件连接到当前总线,用于对电流进行积分 脉冲并将其转换成电荷,以及用于将电荷转换成二进制数字信号并输出​​二进制数字信号的输出。 每个脉冲宽度调制信号被输入到相应的一个开关电流源,开关电流源又产生恒定电流一段与信号的每个脉冲宽度相对应的电流,以将每个信号脉冲转换成电流脉冲。 这样获得的电流脉冲被加在公共电流总线上,从而通过电容积分获得与电流脉冲宽度之和成比例的总电荷Qtotal。 为此,参考电荷计数器电路具有用于积分的功能和用于以基准电荷Qstd为单位实时地数字化总电荷Qtotal的功能。
    • 8. 发明授权
    • Composition and method for controlling plant diseases
    • 防治植物病害的成分及方法
    • US09179672B2
    • 2015-11-10
    • US14239858
    • 2012-08-23
    • Atsushi IwataMakoto Kurahashi
    • Atsushi IwataMakoto Kurahashi
    • A01N37/30A01N43/653A01N43/50A01N43/76A01N37/26A01N37/18
    • A01N37/26A01N37/18A01N37/30A01N43/653A01N2300/00A01N43/50A01N43/76
    • The present invention provides a composition for controlling plant diseases having an excellent control efficacy on plant diseases. A composition for controlling plant diseases comprising an amide compound represented by a formula (I); wherein each of symbols are the same as defined in the Description; or salts thereof and at least one kind of azole compounds selected from the group (A) consisting of tebuconazole, difenoconazole, triticonazole, imazalil, triadimenol, fluquinconazole, prochloraz, prothioconazole, diniconazole, diniconazole M, cyproconazole, tetraconazole, ipconazole, triforine, pyrifenox, fenarimol, nuarimol, oxpoconazole fumarate, pefurazoate, triflumizole, azaconazole, bitertanol, bromuconazole, epoxiconazole, fenbuconazole, flusilazole, flutriafol, hexaconazole, imibenconazole, myclobutanil, penconazole, propiconazole, simeconazole, triadimefon and metconazole, shows an excellent controlling efficacy on plant diseases.
    • 本发明提供一种用于防治对植物病害具有优异防治效果的植物病害的组合物。 一种用于控制植物病害的组合物,其包含由式(I)表示的酰胺化合物; 其中每个符号与描述中定义的相同; 或其盐和选自由以下组成的组中的至少一种唑类化合物(A):由戊唑醇,苯醚甲环唑,三唑唑,咪唑唑,三唑醇,氟喹唑,丙氯灵,丙硫菌唑,二菌唑,二康唑,咪康唑,噻卡唑,咪康唑, ,芬那立姆,纳唑仑,富唑来唑,扑火山梨醇,三氟菌唑,阿acon唑,比特坦醇,溴康唑,环唑唑,氟苯唑,氟西拉唑,氟替康,六唑康唑,阿米芬唑,环丙唑胺,康康唑,丙环唑,西康唑,三唑酮和康唑,对植物病害的控制效果优异 。
    • 10. 发明申请
    • COMPOSITION AND METHOD FOR CONTROLLING PLANT DISEASES
    • 用于控制植物病害的组合物和方法
    • US20140221441A1
    • 2014-08-07
    • US14239811
    • 2012-08-23
    • Atsushi IwataMakoto Kurahashi
    • Atsushi IwataMakoto Kurahashi
    • A01N43/38A01N37/30A01N43/653
    • A01N43/38A01N37/30A01N43/653
    • The present invention provides a composition for controlling plant diseases having an excellent control efficacy on plant diseases. A composition for controlling plant diseases comprising an amide compound represented by a formula (I): wherein each of symbols are the same as defined in the Description; or salts thereof and one or more kinds of azole compounds selected from the group (A) consisting of tebuconazole, difenoconazole, triticonazole, imazalil, triadimenol, fluquinconazole, prochloraz, prothioconazole, diniconazole, diniconazole M, cyproconazole, tetraconazole, ipconazole, triforine, pyrifenox, fenarimol, nuarimol, oxpoconazole fumarate, pefurazoate, triflumizole, azaconazole, bitertanol, bromuconazole, epoxiconazole, fenbuconazole, flusilazole, flutriafol, hexaconazole, imibenconazole, myclobutanil, penconazole, propiconazole, simeconazole, triadimefon and metconazole, shows an excellent controlling efficacy on plant diseases.
    • 本发明提供一种用于防治对植物病害具有优异防治效果的植物病害的组合物。 一种用于防治植物病害的组合物,其包含式(I)表示的酰胺化合物:其中每个符号与描述中所定义相同; 或其盐和选自由以下组成的组中的一种或多种吡唑类化合物(A):戊唑醇,苯醚甲环唑,三唑唑,咪达唑仑,三唑醇,氟康唑,丙氯灵,丙硫菌唑,二康唑,二康唑,咪康唑,噻卡唑,咪康唑, ,芬那立姆,纳唑仑,富唑来唑,扑火山梨醇,三氟菌唑,阿acon唑,比特坦醇,溴康唑,环唑唑,氟苯唑,氟西拉唑,氟替康,六唑康唑,阿米芬唑,环丙唑胺,康康唑,丙环唑,西康唑,三唑酮和康唑,对植物病害的控制效果优异 。