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    • 22. 发明授权
    • Liquid crystal display device
    • 液晶显示装置
    • US07499016B2
    • 2009-03-03
    • US11133857
    • 2005-05-19
    • Eun-Jung OhTae-Soo Kim
    • Eun-Jung OhTae-Soo Kim
    • G09G3/36
    • G09G3/3648G09G3/3413G09G2310/0235
    • A liquid crystal display device including a light source controller for controlling red, green, and blue lights to be sequentially transmitted through a liquid crystal and a pixel formed between a first substrate on which a first electrode is formed and a second substrate on which a second electrode is formed. A first red light emitting diode (LED) has a first terminal coupled to a first terminal of the light source controller; and a second red LED has a first terminal coupled to a second terminal of the first red LED. A green LED has a first terminal coupled to the first terminal of the light source controller; and a blue LED has a first terminal coupled to the first terminal of the light source controller.
    • 一种液晶显示装置,包括:光源控制器,用于控制顺序地透过液晶的红色,绿色和蓝色光,以及形成在其上形成有第一电极的第一基板和形成有第二基板的第二基板之间形成的像素, 形成电极。 第一红色发光二极管(LED)具有耦合到光源控制器的第一端子的第一端子; 并且第二红色LED具有耦合到第一红色LED的第二端子的第一端子。 绿色LED具有耦合到光源控制器的第一端子的第一端子; 并且蓝色LED具有耦合到光源控制器的第一端子的第一端子。
    • 23. 发明授权
    • Back-light driving circuit in field sequential liquid crystal display
    • 现场顺序液晶显示器中的背光驱动电路
    • US07391407B2
    • 2008-06-24
    • US11000395
    • 2004-11-29
    • Tae-Soo Kim
    • Tae-Soo Kim
    • G09G3/36G02F1/1333
    • G09G3/3413G09G2320/0242G09G2320/0633G09G2320/064G09G2330/021H05B33/0818H05B33/0827H05B33/0857Y02B20/346
    • A back-light driving circuit controlling red (R), green (G), and blue (B) back lights providing light to a liquid crystal panel in a field sequential liquid crystal display. The back-light driving circuit includes a driving voltage generator that provides a driving voltage to each of the R, G, and B back-lights to cause them to emit light having a predetermined luminance. The back-light driving circuit also includes a pulse width modulation (PWM) signal generator for providing a PWM signal to each of the R, G, and B back-lights to control the chromaticity of the light emitted from each back-light. The driving voltages and/or PWM signals provided to each of the R, G, and B back-lights are catered to the particular characteristics of the corresponding back-light to cause them to emit color having a desired luminance and/or chromaticity.
    • 控制在场顺序液晶显示器中向液晶面板提供光的红(R),绿(G)和蓝(B)背光的背光驱动电路。 背光驱动电路包括驱动电压发生器,其向R,G和B背光中的每一个提供驱动电压,以使它们发射具有预定亮度的光。 背光驱动电路还包括脉冲宽度调制(PWM)信号发生器,用于向每个R,G和B背光提供PWM信号,以控制从每个背光发出的光的色度。 提供给R,G和B背光中的每一个的驱动电压和/或PWM信号适应相应背光的特定特性,使它们发出具有所需亮度和/或色度的颜色。
    • 24. 发明申请
    • Process for Purifying Human Thrombopoietin with High Content of Sialic Acid
    • 用唾液酸含量高的人血小板生成素纯化方法
    • US20070264710A1
    • 2007-11-15
    • US10573359
    • 2003-10-09
    • Hyea-Kyung AhnJoo-Young ChungYoung-Ju ChoTae-Soo KimYeo-Wook KohSeung-Wook LimYeon-Joo Hong
    • Hyea-Kyung AhnJoo-Young ChungYoung-Ju ChoTae-Soo KimYeo-Wook KohSeung-Wook LimYeon-Joo Hong
    • C07K1/00C12N5/06
    • C07K14/524
    • Disclosed is a process for producing a human thrombopoietin (hTPO)-containing culture fluid, comprising the step of culturing a eukaryotic cell expressing hTPO in a serum-free medium that contains a negligible amount of serum. In addition, the present invention discloses a process for purifying hTPO from a hTPO-containing biological fluid, comprising the steps of (a) subjecting the biological fluid to affinity chromatography; (b) subjecting an eluate obtained at step (a) to hydrophobic interaction chromatography; (c) subjecting an eluate obtained at step (b) to reverse phased chromatography; and (d) subjecting an eluate obtained at step (c) to anion exchange chromatography. In addition, the present invention discloses hTPO with a high sialic acid content obtained by the process which comprises the step of loading, the eluate obtained at step (c) onto an ionic exchange chromatography column and collecting hTPO with a high content of sialic acid eluted selectively from the column by a 0.15-0.3M sodium chloride gradient.
    • 公开了一种生产含有血小板生成素(hTPO)的培养液的方法,包括在含有可忽略量的血清的无血清培养基中培养表达hTPO的真核细胞的步骤。 另外,本发明公开了一种从含hTPO的生物流体中纯化hTPO的方法,包括以下步骤:(a)使生物液体进行亲和层析; (b)使步骤(a)获得的洗脱液进行疏水相互作用层析; (c)使步骤(b)获得的洗脱液反相定相; 和(d)使步骤(c)获得的洗脱液进行阴离子交换层析。 此外,本发明公开了通过该方法获得的具有高唾液酸含量的hTPO,其包括将步骤(c)获得的洗脱液装载到离子交换色谱柱上并收集高含量的唾液酸洗脱的hTPO 选择性地从柱中加入0.15-0.3M氯化钠梯度。
    • 26. 发明授权
    • Method of controlling microwave oven
    • 控制微波炉的方法
    • US06878912B2
    • 2005-04-12
    • US10189588
    • 2002-07-08
    • Sung-Ho LeeChul KimYoung-Won ChoTae-Soo Kim
    • Sung-Ho LeeChul KimYoung-Won ChoTae-Soo Kim
    • F24C7/02H05B6/68H05B6/80
    • H05B6/6473
    • A method of controlling a microwave oven, in which the microwave oven includes a cooking chamber for containing food therein, a cooling fan which circulates air, a magnetron which generates microwaves and a humidity sensor which senses humidity of the cooking chamber. Cooking instruction(s) may be preset or set manually by a user. A first cooking operation is performed while preventing water from boiling off/to overflow by controlling an output power of the magnetron according to the set cooking instruction(s). A time required to perform a later cooking is set according to a time required to perform the first cooking operation. A second cooking operation is performed for the later cook time while controlling the output power of the magnetron to reduce the overall cook time of the food.
    • 一种控制微波炉的方法,其中微波炉包括用于容纳食物的烹饪室,使空气循环的冷却风扇,产生微波的磁控管和感测烹饪室的湿度的湿度传感器。 烹饪说明可以由用户预先设定或手动设定。 通过根据设定的烹饪指令控制磁控管的输出功率,进行第一烹饪操作,同时防止水沸腾/溢出。 根据进行第一次烹调操作所需的时间来设定进行后续烹调所需的时间。 执行第二烹饪操作以用于稍后的烹饪时间,同时控制磁控管的输出功率以减少食物的总烹饪时间。
    • 29. 发明授权
    • Backlight driver circuit and liquid crystal display device having the same
    • US07602372B2
    • 2009-10-13
    • US11322261
    • 2006-01-03
    • Tae-Soo Kim
    • Tae-Soo Kim
    • G09G3/36
    • In a backlight driver circuit and a liquid crystal display (LCD) device employing the same, separate forward driving currents are applied to red (R), green (G) and blue (B) backlights, respectively, thereby overcoming the problem of brightness variation resulting from forward voltage Vf variation in a light emitting diode (LED). The LCD includes: a backlight unit provided with R, G and B backlights for emitting light toward an LCD panel in sequence; and a backlight driver for supplying driving currents and pulse width modulation (PWM) signals to the backlight unit so as to control brightness and chromaticity of the R, G and B backlights. The backlight driver includes: a driving current generator for supplying R, G and B driving currents to the respective R, G and B backlights, and for causing the respective R, G and B backlights to emit light with predetermined brightness; and a PWM signal generator for supplying R, G and B PWM signals to the R, G and B backlights, respectively, so as to adjust the chromaticity of the light emitted from the R, G and B backlights, respectively.