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    • 91. 发明授权
    • Fractional-N frequency synthesizer with multiple clocks having different timings
    • 具有不同时序的多个时钟的分数N频率合成器
    • US06728526B2
    • 2004-04-27
    • US09794185
    • 2001-02-26
    • Ryoichi YamadaShunsuke HiranoYasunori MiyaharaHisashi AdachiHisashi TakahashiHiroki Kojima
    • Ryoichi YamadaShunsuke HiranoYasunori MiyaharaHisashi AdachiHisashi TakahashiHiroki Kojima
    • H04B106
    • H03L7/1976
    • A frequency synthesizer device comprising a PLL circuit (9) and a frequency-division ratio control circuit (5). The PLL circuit (9) includes a phase comparator (1), a low-pass filter (2), a voltage-controlled oscillator (3), and a variable frequency divider (4). The frequency-division ratio control circuit (5) controls the variable frequency divider (4) such that a frequency division ratio of the variable frequency divider (4) is changed in time and a time average value of the frequency division ratio contains a value below a decimal point. Two different signals of an output signal fdiv of the variable frequency divider (4) and an output fdiv2 obtained via a delay element (10) are used as clocks of an accumulator portion (81) in the frequency-division ratio control circuit (5). The variation in the substrate potential and the variation in the power supply voltage generated by the operation of the frequency-division ratio control circuit (5) can be reduced, and the degradation of C/N of the frequency synthesizer can be suppressed.
    • 一种频率合成器装置,包括PLL电路(9)和分频比控制电路(5)。 PLL电路(9)包括相位比较器(1),低通滤波器(2),压控振荡器(3)和可变分频器(4)。 分频比控制电路(5)控制可变分频器(4),使得可变分频器(4)的分频比在时间上变化,并且分频比的时间平均值包含低于 小数点。 使用分频比控制电路(5)中的可变分频器(4)的输出信号fdiv和通过延迟元件(10)获得的输出fdiv2的两个不同信号作为累加器部分(81)的时钟, 。 可以减小由分频比控制电路(5)的操作产生的基板电位的变化和电源电压的变化,并且可以抑制频率合成器的C / N的劣化。
    • 93. 发明授权
    • Method for inputting and acquiring requirement
    • 输入和获取要求的方法
    • US6141016A
    • 2000-10-31
    • US997917
    • 1997-12-24
    • Katsuhiko YuuraHisashi Takahashi
    • Katsuhiko YuuraHisashi Takahashi
    • G06F9/44G06T15/00
    • G06F8/10
    • On a computer, components forming a development subject are arranged on a scenario editor by using basic component parts, and the component data are set. And a procedure call sequence is defined by specifying procedures of defined components in order of call. The call sequence data is generated in the computer as scenario data. Then, the defined group of scenarios are selected and reflected on the model editor. A whole requirement is created. At that time, a procedure name to be called subsequently on the connection line between components is acquired from the defined procedure sequence data, and a program for effecting animation is generated. Finally, by executing the generated animation program, the procedure call sequence is displayed in an animation form and the requirement is created. By interactive operation alone of the screen using the scenario editor and the model editor, therefore, the requirement of the development subject from the customer can be easily acquired and the whole requirement can be created.
    • 在计算机上,通过使用基本组成部分在场景编辑器上配置形成开发对象的组件,并且设置组件数据。 并且通过按照调用​​顺序指定定义的组件的过程来定义过程调用序列。 呼叫序列数据作为场景数据在计算机中生成。 然后,定义的一组场景被选择并反映在模型编辑器上。 创建了一个完整的要求。 此时,从定义的过程序列数据中获取随后在组件之间的连接线上被调用的过程名称,并且生成用于实现动画的程序。 最后,通过执行生成的动画程序,以动画形式显示过程调用顺序,创建要求。 因此,通过使用场景编辑器和模型编辑器在屏幕上进行交互操作,因此可以轻松获取客户对开发主体的要求,并且可以创建整个需求。
    • 94. 发明授权
    • Web splicing preparation method and apparatus
    • 网络拼接准备方法和装置
    • US5935361A
    • 1999-08-10
    • US895569
    • 1997-07-16
    • Hisashi TakahashiMamoru FujisawaYoshio Kawakami
    • Hisashi TakahashiMamoru FujisawaYoshio Kawakami
    • B65H19/10B65H21/00
    • B65H19/102B65H2301/41858
    • An original roll positioning device sets a position of an end face of a new roll at a predetermined reference position. An end pull-out device sucks and pulls out the leading end of the new web from the positioned new roll at a predetermined length. A pair of roll-up chucks of an end roll-up device holds both sides of the leading end of the pulled-out web, and the roll-up chucks are rotated to roll up the leading end of the web at a predetermined length. A suction box sucks the web at a part between the roll up chucks and the roll, and then a cutter cuts the web along the width of the web to form a splicing part. The splicing part is sucked by the suction box, and the spliced part is made to wait in this state until the start of the splicing operation.
    • 原卷定位装置将新卷的端面的位置设定在预定的基准位置。 端部拉出装置以预定长度从定位的新卷筒吸出并拉出新幅材的前端。 端部卷起装置的一对卷起卡盘保持拉出纸卷的前端的两侧,并且卷起卡盘旋转以卷绕预定长度的卷筒纸的前端。 抽吸箱在卷起卡盘和辊之间的部分处吸收卷材,然后切割器沿着卷材的宽度切割卷材以形成拼接部分。 接合部被抽吸盒吸引,使接合部在该状态下等待直到接合操作开始。
    • 96. 发明授权
    • Data input/output process and design supporting process
    • 数据输入/输出过程和设计支持流程
    • US5517604A
    • 1996-05-14
    • US852768
    • 1992-03-17
    • Katsuhiko YuuraHisashi Takahashi
    • Katsuhiko YuuraHisashi Takahashi
    • G06F9/06G06F9/44G06F17/50G06T13/00G06T13/80
    • G06F17/5009
    • A process for architecting a figure input/output interface of an instance is provided in an object-oriented design supporting system or the like. An applicable graphic editor is provided with a figure editor, which expands a function for defining a method to draw a user figure and also a function for defining a slot of a figure attribute when the user figure is designated; and furthermore expands a function to produce an instance when the user figure is drawn and also a function for coupling the instances when the figures are connected with each other. Then, input/output figures of a design component are defined and inputted with employment of this applicable graphic editor. In the output, a slot of the displayed instance is updated and then a display is deformed. As a result, the formation of the figure input/output for the instance such as the design component is available by only operating the screen of the applicable graphic editor. According to another aspect, a user figure corresponding to a class is formed by operating a screen of a figure editor, whereby a connection point and a slot of a figure attribute is designated. As a result, a program for inputting/outputting a figure, coupling the figures and deforming the displayed figure is automatically produced, so that it is possible to input a figure of an instance, couple the instances by the figure connections and to realize an animation description by updating the slot of the instance.
    • 在面向对象的设计支持系统等中提供了用于构造实例的图形输入/输出接口的过程。 图形编辑器附有图形编辑器,其扩展了用于定义绘制用户图形的方法的功能,以及当指定用户图形时定义图形属性的时隙的功能; 并且进一步扩展了当绘制用户图形时产生实例的功能,并且还具有当图形彼此连接时用于耦合实例的功能。 然后,使用此适用的图形编辑器定义并输入设计组件的输入/输出图形。 在输出中,显示的实例的时隙被更新,然后显示变形。 因此,通过仅操作适用的图形编辑器的屏幕,可以使用诸如设计组件的实例的图形输入/输出的形成。 根据另一方面,通过操作图形编辑器的屏幕来形成对应于类的用户图形,由此指定图形属性的连接点和时隙。 结果,自动产生用于输入/输出图形,耦合图形和使显示图形变形的程序,从而可以输入实例的图形,通过图形连接耦合实例并实现动画 通过更新实例的插槽来进行描述。
    • 99. 发明授权
    • Ferritic heat-resisting steel with an excellent toughness
    • 铁素体耐热钢具有优异的韧性
    • US4405369A
    • 1983-09-20
    • US288397
    • 1981-07-30
    • Yasuo OtoguroKatukuni HashimotoHisashi TakahashiToshio Fujita
    • Yasuo OtoguroKatukuni HashimotoHisashi TakahashiToshio Fujita
    • C22C38/00C22C38/22C22C38/24C22C38/26
    • C22C38/22
    • A ferritic heat-resisting steel with an excellent toughness comprises0.03 to 0.10% by weight of carbon,0.1 to 1.0% by weight of silicon,1.5% by weight or less of manganese,1.5% to 2.7% by weight of molybdenum,7.0% to 10.0% by weight of chromium,0.01 to 0.1% by weight of niobium,0.02 to 0.12% by weight of vanadium,0.01 to 0.10% by weight of alloying element consisting of at least one member selected from the group consisting of rare earth elements having atomic numbers 57 through 71 and yttrium, andthe balance consisting of iron and unavoidable impurities, in which steel the ratio of the sum of the numbers of niobium and vanadium atoms to the number of carbon atoms is in the range of from 0.35 to 0.80; and the quantity (Cr%/30+Mo%/10-C%) and the content in percent of said alloying element fall on or within an irregular pentagon indicated in FIG. 1, the irregular pentagon being defined by the following points of A, B, C, P and D,______________________________________ Coordinate ##STR1## and Y content) (%)(The Sum of REMAlloying element ______________________________________ A 0.28 0.10 B 0.28 0.01 C 0.52 0.01 P 0.57 0.055 D 0.52 0.10 ______________________________________
    • 具有优异韧性的铁素体耐热钢含有0.03〜0.10重量%的碳,0.1〜1.0重量%的硅,1.5重量%以下的锰,1.5〜2.7重量%的钼,7.0重量% 至10.0重量%的铬,0.01〜0.1重量%的铌,0.02〜0.12重量%的钒,0.01〜0.10重量%的合金元素,由选自稀土元素 原子序数57〜71和钇,余量由铁和不可避免的杂质组成,其中铌和钒原子数之和与碳原子数之比的比例在0.35至0.80的范围内 ; 并且所述合金元素的含量(Cr%/ 30 + Mo%/ 10-C%)和所述合金元素的含量落在图5所示的不规则五边形之上或之内。 1,不规则五边形由以下A点,B,C,P和D点所定义, - - 中和< IMAGE>和Y含量)(%)(REMAlloying元素总和-A 0.28 0.10 -B 0.28 0.01 - C 0.52 0.01 -P 0.57 0.055 -D 0.52 0.10 -