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    Plasma display, and driving device and method thereof
    3.
    发明申请
    Plasma display, and driving device and method thereof 审中-公开
    等离子显示器及其驱动装置及其方法

    公开(公告)号:US20080068366A1

    公开(公告)日:2008-03-20

    申请号:US11892547

    申请日:2007-08-23

    Applicant: Joon-Yeon Kim Yong-Jin Jeong

    Inventor: Joon-Yeon Kim Yong-Jin Jeong

    IPC: G06F3/038 G09G5/00

    CPC classification number: G09G3/2965

    Abstract: In a plasma display device, a driver circuit and a method of driving that reduces costs by eliminating the need for high voltage transistors. A first terminal of an inductor is coupled to a plurality of first electrodes. A first terminal of a first capacitor is coupled to the first terminal of the inductor, a second terminal of the first capacitor is coupled to the plurality of first electrodes, a first terminal of a second capacitor is coupled to the first terminal of the inductor, and a second terminal of the second capacitor is coupled to the plurality of first electrodes. In addition, a resonance path for varying a voltage at the plurality of first electrodes is formed between a node of the first and second capacitors and the plurality of first electrodes. Further, a power source for supplying a first voltage is coupled to a first terminal of a first transistor, a first terminal of a second transistor is coupled to a second terminal of the first transistor, and a second terminal of a third transistor including a first terminal coupled to a second terminal of the second transistor is coupled to a power source for supplying a second voltage that is lower than the first voltage. The second terminal of the first transistor is coupled to the second terminal of the first capacitor, and the first terminal of the third transistor is coupled to the second terminal of the second capacitor.

    Abstract translation: 在等离子体显示装置中,驱动电路和驱动方法通过消除对高压晶体管的需要来降低成本。 电感器的第一端子耦合到多个第一电极。 第一电容器的第一端子耦合到电感器的第一端子,第一电容器的第二端子连接到多个第一电极,第二电容器的第一端子耦合到电感器的第一端子, 并且第二电容器的第二端子耦合到多个第一电极。 此外,在第一和第二电容器的节点与多个第一电极之间形成用于改变多个第一电极处的电压的谐振路径。 此外,用于提供第一电压的电源耦合到第一晶体管的第一端子,第二晶体管的第一端子耦合到第一晶体管的第二端子,第三晶体管的第二端子包括第一晶体管, 耦合到第二晶体管的第二端子的端子耦合到用于提供低于第一电压的第二电压的电源。 第一晶体管的第二端子耦合到第一电容器的第二端子,并且第三晶体管的第一端子耦合到第二电容器的第二端子。

    Device and method for modular multiplication
    4.
    发明授权
    Device and method for modular multiplication 失效
    用于模数乘法的装置和方法

    公开(公告)号:US6151393A

    公开(公告)日:2000-11-21

    申请号:US085963

    申请日:1998-05-27

    Applicant: Yong-Jin Jeong

    Inventor: Yong-Jin Jeong

    IPC: G06F7/496 G06F7/44 G06F7/53 G06F7/72 G09C1/00 G06F7/38

    CPC classification number: G06F7/722

    Abstract: A method and apparatus are disclosed for performing modular multiplication. Modular multiplication in accordance with the present invention includes precalculating a 2's complement of a given modulus and multiples of the 2's complement and calculating a total magnitude of end-around carries during the modular multiplication. The calculated multiples are selected depending on the total magnitude of the end-around carries, and the selected multiples are added. The disclosure includes array structures in accordance with the present invention. The invention includes an algorithm designed for Rivest-Shamir-Adelman (RSA) cryptography and based on the familiar iterative Homer's rule, but uses precalculated complements of the modulus. The problem of deciding which multiples of the modulus to subtract in intermediate iteration stages has been simplified using simple look-up of precalculated complement numbers, thus allowing a finer-grain pipeline. Regularity and local connections make the algorithm suitable for high-performance array implementation in FPGA's (field programmable gate arrays) or deep submicron VLSI's.

    Abstract translation: 公开了用于执行模乘法的方法和装置。 根据本发明的模块化乘法包括预先计算给定模量的2的补数和2的补码的倍数,并在模乘期间计算终端携带的总量值。 根据终端携带的总量选择计算出的倍数,并添加选定的倍数。 本公开包括根据本发明的阵列结构。 本发明包括为Rivest-Shamir-Adelman(RSA)密码学设计的算法,并且基于熟悉的迭代荷马规则,但是使用模数的预先计算的补码。 通过使用预先计算的补码数的简单查找,可以简化决定在中间迭代阶段减去哪个倍数的模数的问题,从而允许更细粒度的管道。 规则和本地连接使得该算法适用于FPGA(现场可编程门阵列)或深亚微米VLSI中的高性能阵列实现。

    Driving of plasma display device
    5.
    发明申请
    Driving of plasma display device 审中-公开
    驱动等离子体显示装置

    公开(公告)号:US20070097033A1

    公开(公告)日:2007-05-03

    申请号:US11584829

    申请日:2006-10-23

    Applicant: Sang-Shin Kwak Hak-Cheol Yang Joon-Yeon Kim Yong-jin Jeong

    Inventor: Sang-Shin Kwak Hak-Cheol Yang Joon-Yeon Kim Yong-jin Jeong

    IPC: G09G3/28

    CPC classification number: G09G3/2965 G09G3/294 G09G2310/066

    Abstract: A circuit for supplying voltages to an electrode of a plasma display device is disclosed. The circuit includes an inductor connected to the electrode, a first capacitor and a second capacitor serially connected to the first capacitor. The circuit selectively forms certain paths to provide pulses to the electrode to sustain plasma discharges. The circuit provides pulses by increasing the potential of the electrode from a first voltage to a second voltage, maintaining the potential at about the second voltage during a first period, increasing the potential from about the second voltage to a third voltage, maintaining the potential at about the third voltage during a second period, decreasing the potential from about the third voltage to about the first voltage, and maintaining the potential at about the first voltage during a third period. Increasing the potential from the first to second voltages involves supplying energy stored in the first and second capacitors to the electrode via the inductor. Increasing the potential from the second to third voltages involves supplying energy stored in the first and second capacitors to the first electrodes via the inductor and further involves supplying energy from a power source to the electrode via the inductor.

    Abstract translation: 公开了一种向等离子体显示装置的电极供电的电路。 电路包括连接到电极的电感器,与第一电容器串联连接的第一电容器和第二电容器。 电路选择性地形成某些路径以向电极提供脉冲以维持等离子体放电。 电路通过将电极的电位从第一电压增加到第二电压来提供脉冲,在第一周期期间将电位保持在约第二电压,从而将电位从约第二电压增加到第三电压, 在第二时段期间关于第三电压,将电位从约第三电压降低到约第一电压,并且在第三周期期间将电位保持在约第一电压。 增加从第一电压到第二电压的电位包括通过电感器将存储在第一和第二电容器中的能量提供给电极。 增加从第二电压到第三电压的电势涉及通过电感器向第一电极提供存储在第一和第二电容器中的能量,并且还包括通过电感器从电源向电极提供能量。

    PERSIMMON VINEGAR AND PREPARATION THEREFOR
    6.
    发明申请
    PERSIMMON VINEGAR AND PREPARATION THEREFOR 审中-公开
    PERSIMMON VINEGAR及其制备

    公开(公告)号:US20020001641A1

    公开(公告)日:2002-01-03

    申请号:US09353785

    申请日:1999-07-15

    Applicant: YONG JIN JEONG

    Inventor: YONG JIN JEONG KWANG SOO KIM

    IPC: C12J001/00

    CPC classification number: C12J1/00 Y02E50/17

    Abstract: Disclosed are persimmon vinegar and a preparation method therefor. The persimmon vinegar, which is good for health, is prepared from astringent persimmon fruits, which are disadvantageous in taste, by alcohol fermentation and acetic acid fermentation, in sequence. For the alcohol fermentation, the novel strain, Saccharomyces kluyveri DJ97 (KCTC 0591BP) is used. In combination with various additives, such as polydextrose, liquid fructose, concentrated pear extract, honey, citric acid, sodium citrate, etc., the persimmon vinegar can provide a beverage.

    Abstract translation: 披露柿子醋及其制备方法。 对健康有益的柿子醋,依次是通过酒精发酵和乙酸发酵的不利口味柿子果实制成。 对于酒精发酵,使用新型菌株Saccharomyces kluyveri DJ97(KCTC 0591BP)。 与各种添加剂如聚右旋糖,液体果糖,浓缩梨提取物,蜂蜜,柠檬酸,柠檬酸钠等添加剂相结合,柿醋可提供饮料。

    Fabrication method for porous carbon fibers
    7.
    发明申请
    Fabrication method for porous carbon fibers 审中-公开
    多孔碳纤维的制造方法

    公开(公告)号:US20100081351A1

    公开(公告)日:2010-04-01

    申请号:US12385763

    申请日:2009-04-17

    Applicant: Soon Hyung Hong Yong Jin Jeong Kyong Ho Lee Chan Bin Mo

    Inventor: Soon Hyung Hong Yong Jin Jeong Kyong Ho Lee Chan Bin Mo

    IPC: D04H1/08 D01F9/14

    CPC classification number: H01M8/0234 D01D5/247 D01F1/10 D01F9/16 D04H1/4242 D04H1/4382 D04H1/4391 D04H1/728 H01G9/058 H01G11/34 H01G11/36 H01M4/8605 H01M4/8807 Y02E60/13 Y02P70/56 Y10T442/50

    Abstract: Disclosed is a method for fabrication of porous carbon fibers. More particularly, the method for fabrication of porous carbon fibers comprises the steps of: processing starch to prepare a gelled starch solution; adding organic acid to the gelled starch solution to prepare a starch solution; dissolving carbon nanotubes in a solvent and adding fiber formable polymer thereto to prepare a carbon nanotube/fiber formable polymer solution; mixing the starch solution with the carbon nanotube/fiber formable polymer solution obtained from the above steps, in order to prepare a carbon nanotube/starch/fiber formable polymer solution; electro-spinning or wet-state spinning the prepared carbon nanotube/starch/fiber formable polymer solution to produce starch composite fibers; oxidation heating the starch composite fibers, then, executing carbonization and vacuum heat treatment of the heated fibers, so as to fabricate the porous carbon fibers. The fabricated porous carbon fiber has high specific surface area and high capacitance, thereby being favorably applicable in manufacturing electrodes for a super capacitor, fuel cell, etc.

    Abstract translation: 公开了一种多孔碳纤维的制造方法。 更具体地说,制造多孔碳纤维的方法包括以下步骤:加工淀粉以制备胶凝淀粉溶液; 向凝胶状淀粉溶液中加入有机酸以制备淀粉溶液; 将碳纳米管溶解在溶剂中,并向其中加入纤维成形性聚合物以制备碳纳米管/纤维可成形聚合物溶液; 将淀粉溶液与由上述步骤获得的碳纳米管/纤维可成形聚合物溶液混合,以制备碳纳米管/淀粉/纤维可成形聚合物溶液; 电纺或湿式纺丝制备的碳纳米管/淀粉/纤维成型聚合物溶液以生产淀粉复合纤维; 氧化加热淀粉复合纤维,然后进行加热纤维的碳化和真空热处理,以制造多孔碳纤维。 制造的多孔碳纤维具有高比表面积和高电容,因此适用于制造用于超级电容器,燃料电池等的电极。

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