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    • 1. 发明专利
    • Hydraulic transfer image forming film and image forming method
    • 液压传输图像形成膜和图像形成方法
    • JP2012245779A
    • 2012-12-13
    • JP2011130664
    • 2011-05-26
    • Toshiaki Matsui俊明 松井Katsunori Matsui勝慶 松井
    • MATSUI TOSHIAKIMATSUI KATSUNORIOKUBO TERUMI
    • B44C1/175B32B27/30
    • PROBLEM TO BE SOLVED: To provide a hydraulic transfer film, which is suitable for forming a layer having an image and color on a surface of molding having a solid surface with unevenness and a curved surface particularly for forming the image formed by inkjet printing, and to provide a hydraulic transfer system.SOLUTION: The problem is solved by the on-demand hydraulic transfer film and the hydraulic transfer system. The hydraulic transfer film has: an image layer comprising the polyvinyl alcohol polymer whose saponification degree is 80-90 mol% and the silica particle on the polyvinyl alcohol polymer film base material; an image forming layer in which the image is formed with the inkjet method etc.; a fixing layer by the acrylate polymer of 200-2,000 mol.wt.; and a binder that dissolves the fixing layer by 40-60%.
    • 要解决的问题:提供一种水硬性转移膜,其适于在具有不均匀的实心表面的模制品的表面上形成具有图像和颜色的层,特别是用于形成由喷墨形成的图像的曲面 打印,并提供液压传输系统。 解决方案:问题由按需液压转移膜和液压传动系统解决。 水力转印膜具有:皂化度为80〜90摩尔%的聚乙烯醇聚合物和聚乙烯醇系聚合物膜基材上的二氧化硅粒子的图像层; 用喷墨法形成图像的图像形成层等; 丙烯酸酯聚合物的固定层为200-2,000mol.wt。 以及将固定层溶解40-60%的粘合剂。 版权所有(C)2013,JPO&INPIT
    • 3. 发明授权
    • Pulse wireless communication device
    • 脉冲无线通信设备
    • US08705652B2
    • 2014-04-22
    • US13123338
    • 2009-10-06
    • Hitoshi UtagawaToshiaki Matsui
    • Hitoshi UtagawaToshiaki Matsui
    • H04L27/00
    • H01Q9/285H01Q9/265H01Q13/10H01Q13/16H01Q23/00H03B5/1847H04B1/7174
    • To provide a microwave/milliwave UWB pulse wireless communication device that enables realization of structural simplification, high performance, compact integration, easy design, low power consumption, and low cost. A radiation type oscillator is configured by a radiation type oscillator substrate S1 equipped with a microwave transistor 1 for generating negative resistance by short-duration operation and a resonant cavity structure, a high-frequency pulse signal of an oscillation frequency/frequency bandwidth determined based on negative resistance produced by the short-duration operation of the microwave transistor 1 and the resonant cavity structure is generated as a transmitted RF signal and simultaneously radiated into space, and the radiation type oscillator is caused to perform oscillating operation when a received RF signal arriving from an external wireless communication device enters the radiation type oscillator, whereby a received data signal is established based on acquisition of an IF signal owing to mixing by the radiation type oscillator itself.
    • 提供微波/毫瓦UWB脉冲无线通信设备,实现结构简化,高性能,集成度小,设计简单,功耗低,成本低。 辐射型振荡器由配有微波晶体管1的辐射型振荡器基板S1构成,用于通过短时间工作产生负电阻和共振腔结构,基于以下步骤确定的振荡频率/频率带宽的高频脉冲信号 由微波晶体管1的短时间工作产生的负电阻和谐振腔结构作为发射的RF信号产生并且同时辐射到空间中,并且当接收到的RF信号到达时,使辐射型振荡器进行振荡操作 外部无线通信设备进入辐射型振荡器,由于由于辐射型振荡器本身的混合而基于IF信号的获取来建立接收的数据信号。
    • 4. 发明授权
    • Microwave/millimeter wave communication apparatus
    • 微波/毫米波通信装置
    • US08380140B2
    • 2013-02-19
    • US13121063
    • 2008-09-26
    • Hitoshi UtagawaToshiaki Matsui
    • Hitoshi UtagawaToshiaki Matsui
    • H04B1/40H03B7/00
    • H03C3/227H03C2200/0033H03D3/24
    • A baseband signal processing unit changes the collector current of a transistor (20) formed by a bias control circuit (7) in accordance with a baseband transmission signal input from a baseband signal input terminal (18), changing the drain bias of a high-frequency transistor (1) to realize frequency modulation by changing the oscillation frequency, and the radiation wave thereof forms a transmit RF signal, whereby the transmission operation is performed. On the other hand, the oscillation signal is synchronized with a frequency modulated RF signal that arrives from outside, the change in frequency caused by the frequency modulation is generated as a change in the drain bias of the high-frequency transistor (1), and reception operation is performed by taking out that change as a voltage amplitude change from the baseband signal output terminal (14). As a result, it is possible to provide a microwave/millimeter wave communication apparatus that is simple in structure, low cost, and low power consumption.
    • 基带信号处理单元根据从基带信号输入端子(18)输入的基带发送信号,改变由偏置控制电路(7)形成的晶体管(20)的集电极电流, 频率晶体管(1)通过改变振荡频率来实现频率调制,并且其辐射波形成发射RF信号,从而进行发射操作。 另一方面,振荡信号与从外部到达的频率调制RF信号同步,由频率调制引起的频率变化作为高频晶体管(1)的漏极偏置的变化产生, 通过从基带信号输出端子(14)取出作为电压振幅变化的变化来进行接收动作。 结果,可以提供结构简单,成本低,功耗低的微波/毫米波通信装置。
    • 5. 发明授权
    • Microwave/millimeter wave sensor apparatus
    • 微波/毫米波传感器装置
    • US08212718B2
    • 2012-07-03
    • US12594433
    • 2008-03-31
    • Hitoshi UtagawaToshiaki Matsui
    • Hitoshi UtagawaToshiaki Matsui
    • G01S13/04G01S7/03G01S13/00
    • G01S7/03G01S7/032G01S13/34G01S13/87G01S13/931G01S2013/9375G01S2013/9378G01S2013/9385H01Q1/2208H01Q9/285H01Q23/00H03B5/1852
    • A microwave/millimeter wave sensor apparatus including a planar radiation type oscillator substrate having an inner-layer GND interposed between a front surface side dielectric substrate and a rear surface side dielectric substrate and a pair of conductor patches in an axis-symmetric manner on the side of the front surface layer. A gate and drain of a microwave transistor are respectively connected to the conductor patches to supply power to the gate and the drain of the microwave transistor through a gate-side RF choke circuit and a drain-side RF choke circuit. An impedance line satisfying an oscillation condition is connected to a source and a transmit RF signal in an RF zone as a planar radiation type oscillator is transmitted and a receive RF signal as reflected waves is received from a measured object, thus obtaining an IF signal as the sensing information through homodyne mixing.
    • 一种微波/毫米波传感器装置,包括:平面放射型振荡器基板,其具有插入在前表面侧电介质基板和背面侧电介质基板之间的内层GND,并且在侧面以轴对称的方式配置一对导体贴片 的表面层。 微波晶体管的栅极和漏极分别连接到导体贴片,以通过栅极侧RF扼流圈电路和漏极侧RF扼流圈电路向微波晶体管的栅极和漏极供电。 将满足振荡条件的阻抗线连接到源,并且作为平面辐射型振荡器发射RF区中的发射RF信号,并且从测量对象接收作为反射波的接收RF信号,从而获得IF信号作为 感觉信息通过零差混合。
    • 6. 发明申请
    • PULSE SIGNAL GENERATION DEVICE
    • 脉冲信号发生装置
    • US20120002388A1
    • 2012-01-05
    • US13123135
    • 2009-10-06
    • Hitoshi UtagawaToshiaki Matsui
    • Hitoshi UtagawaToshiaki Matsui
    • H05K7/06
    • H01Q9/285H01Q5/25H01Q13/00H01Q15/0086H01Q19/10H01Q19/30H01Q23/00
    • To provide a microwave/milliwave band high-frequency pulse signal generating device that enables realization of structural simplification, high performance, compact integration, easy design, low power consumption, and low cost. A radiation type oscillator substrate S1 having an inner-layer GND 12 interposed between a front-side dielectric substrate 10 and a rear-side dielectric substrate 11 is provided on the radiation surface side with a pair of axially symmetrical patches 4, 4, a gate electrode 2 and drain electrode 3 of a microwave transistor 1 are respectively connected to the conductor patches 4, 4, DC bias is supplied to the gate electrode 2 through an RF choke circuit 5a, a monopulse from a monopulse generation circuit 7 is supplied to the drain electrode 3 through an RF choke circuit 5b, an impedance line 9 satisfying an oscillating condition is connected to a source electrode 8, and a high-frequency pulse signal of an oscillation frequency/frequency bandwidth determined by negative resistance produced by short-duration operation of the microwave transistor 1 and the resonant cavity structure is generated and simultaneously radiated into space.
    • 提供微波/毫波波段高频脉冲信号发生装置,实现结构简化,高性能,集成度小,设计简单,功耗低,成本低。 具有插入在前侧电介质基板10和背面电介质基板11之间的内层GND12的放射型振荡器基板S1在辐射面侧设置有一对轴对称的贴片4,4,栅极 微波晶体管1的电极2和漏电极3分别连接到导体块4,4,通过RF扼流电路5a向栅电极2提供直流偏压,来自单脉冲发生电路7的单脉冲被提供给 漏电极3通过RF扼流圈电路5b连接,满足振荡条件的阻抗线9连接到源电极8,并且由短时间操作产生的由负电阻确定的振荡频率/频率带宽的高频脉冲信号 的微波晶体管1和谐振腔结构产生并同时辐射到空间中。
    • 7. 发明申请
    • PULSE RADAR DEVICE
    • 脉冲雷达装置
    • US20110260906A1
    • 2011-10-27
    • US13123115
    • 2009-10-06
    • Hitoshi UtagawaToshiaki Matsui
    • Hitoshi UtagawaToshiaki Matsui
    • G01S13/44G01S13/04
    • H01Q13/16G01S7/03G01S7/28G01S13/0209H01Q9/265H01Q9/285H01Q13/10
    • A radiation type oscillator including a radiation type oscillator substrate including a microwave transistor for generating negative resistance by short-duration operation and a resonant cavity structure; a high-frequency pulse signal of an oscillation frequency/frequency bandwidth determined by negative resistance produced by the short-duration operation of the microwave transistor and the resonant cavity structure is generated as a transmitted RF signal and simultaneously radiated into space. The radiation type oscillator performs oscillating operation when a received RF signal that is a reflected wave of the transmitted RF signal from an object of detection enters the radiation type oscillator, an IF signal is acquired from an IF signal output terminal owing to homodyne mixing by the radiation type oscillator itself, and this is analyzed and processed to detect the object of detection.
    • 一种辐射型振荡器,包括:辐射型振荡器基板,包括用于通过短时间操作产生负电阻的微波晶体管和谐振腔结构; 产生由微波晶体管和谐振腔结构的短时间操作产生的负电阻确定的振荡频率/频率带宽的高频脉冲信号作为发送的RF信号并同时辐射到空间中。 当作为来自检测对象的发送的RF信号的反射波的接收的RF信号进入辐射型振荡器时,辐射型振荡器进行振荡操作,由于IF信号输出端子的零差混合而从IF信号输出端子获取IF信号 辐射型振荡器本身,并进行分析和处理,以检测检测对象。
    • 9. 发明授权
    • Radio communication device
    • 无线通信设备
    • US06518932B1
    • 2003-02-11
    • US09913461
    • 2001-08-15
    • Toshiaki MatsuiAtsushi Yamada
    • Toshiaki MatsuiAtsushi Yamada
    • H01Q138
    • H01Q23/00H01L2223/6627H01L2224/16225H01L2924/1903H01Q1/42H01Q13/10H01Q19/062
    • A combination antenna and radio communication device comprises a dielectric base (10) on which a multislot antenna (101) made of conductor, a coplanar transmission line (102), a power supply line, and a high-frequency unit (104) are provided. A conductive package (105) and the dielectric base (103) hermetically seal the high-frequency unit (104), the coplanar transmission line (102), and the multislot antenna (101). The lower face of the dielectric base (103) faces to a conductive sheet (107) having an opening (106) for passing therethrough electromagnetic waves. Electromagnetic waves are passed through the dielectric base (103) and taken out through the opening (106). Therefore the combination antenna and radio device for pseudo-millimeteric and millimeteric waves have a small size, high performance and excellent massproductivity.
    • 组合天线和无线电通信装置包括电介质基座(10),其上由导体制成的多槽天线(101),共面传输线(102),电源线和高频单元(104) 。 导电封装(105)和电介质基座(103)密封高频单元(104),共面传输线(102)和多时隙天线(101)。 电介质基底(103)的下表面面对具有通过电磁波的开口(106)的导电片(107)。 电磁波通过电介质基底(103)并通过开口(106)取出。 因此,用于伪毫米波和毫米波的组合天线和无线电装置具有小尺寸,高性能和优良的大规模生产率。