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    • 1. 发明授权
    • Output data correction device for analog-to-digital conversion circuit and analog-to-digital converted output data correction method
    • 用于模数转换电路和模数转换输出数据校正方法的输出数据校正装置
    • US07639164B2
    • 2009-12-29
    • US12076958
    • 2008-03-26
    • Takuya HondaTakuya Harada
    • Takuya HondaTakuya Harada
    • H03M1/06
    • H03M1/0612H03M1/187H03M1/502H03M1/60
    • An output data correction device is provided for an A/D conversion circuit that achieves high precision over input voltage domains. An estimated maximum input ranging from 0 V to 5 V is divided into domains. A comparison circuit decides to which of the domains a voltage Vin input to a pulse phase-difference encoding circuit belongs. Control logic and a digital analog controller (DAC) select and transmit reference voltages associated with each of the domains. When each of the reference voltages is selected, a quadratic functional equation is computed and determined. A graph of the function passes coordinate points representing the reference voltages in a coordinate system with reference voltages and A/D-converted data values as dimensions. When each input voltage is selected, the A/D-converted digital data is corrected using the quadratic functional equation associated with the domain to which the input voltage Vin is decided to belong.
    • 为输入电压域实现高精度的A / D转换电路提供输出数据校正装置。 估计从0 V到5 V的最大输入范围分为域。 比较电路决定输入到脉冲相位差编码电路的电压Vin属于哪个域。 控制逻辑和数字模拟控制器(DAC)选择并传输与每个域相关联的参考电压。 当选择每个参考电压时,计算并确定二次函数方程。 该函数的图表通过坐标系表示坐标系中具有参考电压和A / D转换的数据值作为尺寸的参考电压。 当选择每个输入电压时,使用与输入电压Vin被决定属于的域相关联的二次函数方程校正A / D转换的数字数据。
    • 2. 发明授权
    • Analog-to-digital converter and method of analog-to-digital conversion
    • 模数转换器和模数转换方法
    • US07030803B2
    • 2006-04-18
    • US11052474
    • 2005-02-08
    • Takuya HaradaMasakiyo HorieTakuya HondaNobuyuki Tanaka
    • Takuya HaradaMasakiyo HorieTakuya HondaNobuyuki Tanaka
    • H03M1/60
    • H03M1/64
    • The A/D converter has first and second PPDC circuits (pulse-phase-difference coding circuits). The first PPDC circuit performs A/D conversions on the reference voltage and on the voltage signal amplified by an amplifier in an alternating sequence, the amplifier using the reference voltage as a potential base thereof. The second PPDC circuit performs A/D conversions always on the reference voltage. The A/D-converted data set of the voltage signal outputted from the first PPDC circuit is corrected depending on the difference between the A/D-converted data set of the reference voltage outputted from the second PPDC circuit when the first PPDC circuit A/D-converts the reference voltage and the A/D-converted data set of the reference voltage outputted from the second PPDC circuit when the first PPDC circuit A/D-converts the voltage signal.
    • A / D转换器具有第一和第二PPDC电路(脉冲相位差编码电路)。 第一PPDC电路在参考电压和由放大器以交替顺序放大的电压信号上执行A / D转换,放大器使用参考电压作为其电位基极。 第二个PPDC电路总是在参考电压上执行A / D转换。 从第一PPDC电路输出的电压信号的A / D转换数据组根据第一PPDC电路A / D转换后的第一PPDC电路输出的参考电压的A / D转换数据组之差, 当第一PPDC电路对电压信号进行A / D转换时,D转换参考电压和从第二PPDC电路输出的参考电压的A / D转换数据集。
    • 5. 发明申请
    • Analog-to-digital converter and method of analog-to-digital conversion
    • 模数转换器和模数转换方法
    • US20050285769A1
    • 2005-12-29
    • US11052474
    • 2005-02-08
    • Takuya HaradaMasakiyo HorieTakuya HondaNobuyuki Tanaka
    • Takuya HaradaMasakiyo HorieTakuya HondaNobuyuki Tanaka
    • H03M1/12H03M1/64
    • H03M1/64
    • The A/D converter has first and second PPDC circuits (pulse-phase-difference coding circuits). The first PPDC circuit performs A/D conversions on the reference voltage and on the voltage signal amplified by an amplifier in an alternating sequence, the amplifier using the reference voltage as a potential base thereof. The second PPDC circuit performs A/D conversions always on the reference voltage. The A/D-converted data set of the voltage signal outputted from the first PPDC circuit is corrected depending on the difference between the A/D-converted data set of the reference voltage outputted from the second PPDC circuit when the first PPDC circuit A/D-converts the reference voltage and the A/D-converted data set of the reference voltage outputted from the second PPDC circuit when the first PPDC circuit A/D-converts the voltage signal.
    • A / D转换器具有第一和第二PPDC电路(脉冲相位差编码电路)。 第一PPDC电路在参考电压和由放大器以交替顺序放大的电压信号上执行A / D转换,放大器使用参考电压作为其电位基极。 第二个PPDC电路总是在参考电压上执行A / D转换。 从第一PPDC电路输出的电压信号的A / D转换数据组根据第一PPDC电路A / D转换后的第一PPDC电路输出的参考电压的A / D转换数据组之间的差被校正, 当第一PPDC电路对电压信号进行A / D转换时,D转换参考电压和从第二PPDC电路输出的参考电压的A / D转换数据集。
    • 8. 发明申请
    • Instruction file execution device and method, recording medium, and job flow system
    • 指令文件执行装置和方法,记录介质和作业流程系统
    • US20060066893A1
    • 2006-03-30
    • US11075334
    • 2005-03-09
    • Yasuyuki ShimizuHitoshi TsushimaKenji TsutsumiTakashi HirataTakayuki AsakoTakuya HondaYukimasa IshidaHiroshi Yamamoto
    • Yasuyuki ShimizuHitoshi TsushimaKenji TsutsumiTakashi HirataTakayuki AsakoTakuya HondaYukimasa IshidaHiroshi Yamamoto
    • G06F3/12
    • G06Q30/04G06Q10/10H04N1/34H04N2201/0094
    • An instruction file execution device includes: a receiver that receives an instruction file that has a job flow described therein defining a cooperative linkage among jobs, and that instructs execution of predetermined processing of document data, and receives fee information and the document data when required; a determination section that determines whether any of the jobs being handled supplies information to a user based on the instruction file received by the receiver; a job execution section that executes the job being handled with respect to the document data received by the receiver; a fee calculator that adds fee information for the job being handled and fee information received by the receiver to derive new fee information; and a transmission section that transmits information, wherein when the determination section determines that the job being handled does not supply information to a user, the transmission section transmits, to an execution destination of any of the jobs subsequent to the job being handled, the instruction file, the document data with respect to which the job being handled has been executed, and fee information derived by the fee calculator.
    • 指令文件执行装置包括:接收器,其接收具有其中描述的作业流程的指令文件,其中定义作业之间的协作连接,并且指示文档数据的预定处理的执行,并且当需要时接收费用信息和文档数据; 确定部,其基于由所述接收器接收到的指示文件,确定所处理的任何作业是否向用户提供信息; 作业执行部分,执行相对于由接收器接收的文档数据处理的作业; 一个费用计算器,用于添加正在处理的工作的费用信息和接收者收到的收取新费用信息的费用信息; 以及发送部,其发送信息,其中,当所述确定部确定所处理的作业不向用户提供信息时,所述发送部将所述作业被处理之后的任何作业的执行目的地发送到所述执行目的地, 文件,已经执行正在处理的作业的文档数据以及由费用计算器导出的费用信息。
    • 9. 发明授权
    • Method for melt-molding water-soluble vinyl alcohol polymers
    • 熔融成型水溶性乙烯醇聚合物的方法
    • US5190712A
    • 1993-03-02
    • US753165
    • 1991-08-30
    • Tsukasa OishiToru SekiTakuya Honda
    • Tsukasa OishiToru SekiTakuya Honda
    • C08F8/12C08J5/00
    • C08J5/00B29C47/00C08F8/12C08F2800/10C08J2329/04F04C2210/26
    • A method for melt-molding a water-soluble vinyl alcohol polymer which includes melt-molding a water-soluble oxyalkylene group-containing vinyl alcohol copolymer under substantially anhydrous conditions and substantially without use of plasticizer, the copolymer having a vinyl alcohol unit (A), a vinyl ester unit (B) and an oxyalkylene ether unit (C) of the formulas: ##STR1## wherein R.sup.1 is an alkyl group; R.sup.2 and R.sup.3 each is a hydrogen atom or an alkyl group; R.sup.4 is a hydrogen atom, an alkyl group, a phenyl group or a substituted phenyl group; n is equal to 1 through 50; in proportions of a mol %, b mol % and c mol %, respectively, where0.1.ltoreq.c.ltoreq.20,50.ltoreq.100a/(a+b).ltoreq.100,and the oxyalkylene moiety (CHR.sup.2 --CHR.sup.3 --O--).sub.n of unit (C) accounts for 3 to 40 percent by weight of the total resin, and having a melt index of not less than 5 g/10 min. under a load of 2160 at a temperature of 210.degree. C.
    • 一种熔融模塑水溶性乙烯醇聚合物的方法,该方法包括在基本上无水条件下基本上不使用增塑剂熔融模塑含水溶性含氧化烯基的乙烯醇共聚物,所述共聚物具有乙烯醇单元(A) ,乙烯基酯单元(B)和下式的氧化烯醚单元(C):(A)其中R 1是烷基;(B)其中R 1是烷基; R2和R3各自为氢原子或烷基; R4是氢原子,烷基,苯基或取代的苯基; n等于1到50; 分别为摩尔%,b摩尔%和c摩尔%,其中0.1≤i≤20,50≤(a + b)≤100,氧化烯部分(CHR2 单元(C)的-CHR 3 -O-)n占总树脂的3〜40重量%,熔体指数不小于5g / 10分钟。 在2160℃的负荷下,在210℃的温度下