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    • 2. 发明授权
    • Structure of engine mount for vehicle
    • 车辆发动机支架结构
    • US08651217B2
    • 2014-02-18
    • US13191879
    • 2011-07-27
    • Yong-Jin KimSeung-Won KimKong-Sup JungHyo-Seok Kim
    • Yong-Jin KimSeung-Won KimKong-Sup JungHyo-Seok Kim
    • B60K5/12
    • B60K5/1241B60K5/04B60K17/24B62D21/11
    • A structure of an engine mount is provided for a vehicle in which an engine is disposed in the front of the vehicle, a front wheel is driven, and the engine is integrally coupled with a transmission to be seated horizontally on a vehicle body in a transverse mounting direction. The structure may include a driveshaft coupled to receive the driving force of the engine through the transmission and penetrate a center bearing through a bearing bracket fixed to the engine, a subframe as a plate shape coupled to the vehicle body in a rear lower part of the engine and coupled to a lower part of the transmission through a main roll rod mounted on the front, and a sub-roll rod having one end connected to the subframe and the other end connected to the bearing bracket.
    • 发动机支架的结构为发动机设置在车辆的前部而被驱动的车辆提供,并且发动机与变速器一体地联接,以使车身横向放置在横向 安装方向。 该结构可以包括被连接以通过传动装置接收发动机的驱动力的驱动轴,并通过固定在发动机上的轴承架穿过中心轴承,将副车架作为联接到车身的板形在后部的下部 发动机,并且通过安装在前部的主辊杆耦合到变速器的下部;以及副辊杆,其一端连接到副车架,另一端连接到轴承座。
    • 5. 发明授权
    • Pulse plasma matching systems and methods including impedance matching compensation
    • 脉冲等离子体匹配系统和方法包括阻抗匹配补偿
    • US08222821B2
    • 2012-07-17
    • US12145850
    • 2008-06-25
    • Keun-Hee BaiYoon-Jae KimYong-Jin Kim
    • Keun-Hee BaiYoon-Jae KimYong-Jin Kim
    • H05B31/26
    • H05H1/46H01J37/32082H01J37/32183
    • A pulse plasma matching system includes an RF matching box configured to receive an RF power pulse generated by an RF power source, configured to perform a plasma impedance matching, and configured to apply the RF power pulse to a process chamber, and a network analyzer configured to measure an impedance of plasma generated in a process chamber. A controller is configured to generate a capacitance control signal corresponding to a plasma impedance value measured by the network analyzer, configured to supply the capacitance control signal to the RF matching box, and configured to generate an impedance matching compensation pulse, and a phase shifter is configured to receive the impedance matching compensation pulse and to shift a phase of the impedance matching compensation pulse to synchronize the impedance matching compensation pulse to the RF power pulse.
    • 脉冲等离子体匹配系统包括:RF匹配盒,被配置为接收由RF电源产生的RF功率脉冲,被配置为执行等离子体阻抗匹配,并且被配置为将RF功率脉冲施加到处理室;以及网络分析器, 以测量在处理室中产生的等离子体的阻抗。 控制器被配置为产生对应于由网络分析器测量的等离子体阻抗值的电容控制信号,其被配置为向RF匹配箱提供电容控制信号,并且被配置为产生阻抗匹配补偿脉冲,并且移相器是 被配置为接收阻抗匹配补偿脉冲并且移动阻抗匹配补偿脉冲的相位以将阻抗匹配补偿脉冲同步到RF功率脉冲。
    • 7. 发明授权
    • Method for representing gray scale on plasma display panel in consideration of address light
    • 考虑到地址灯在等离子体显示面板上表示灰度的方法
    • US07961204B2
    • 2011-06-14
    • US11853684
    • 2007-09-11
    • Yong-Jin Kim
    • Yong-Jin Kim
    • G09G5/10G09G3/28
    • G09G3/2803G09G3/2029G09G3/2946G09G2310/066G09G2320/0238G09G2320/0271G09G2320/0606G09G2320/0626
    • A gray-scale representation method for a plasma display panel, which method includes arranging, in time sequence, a plurality of subfields each having a brightness weight and achieving gray-scale representation by a combination of the subfields, each subfield including an address period and a sustain period. In the gray-scale representation method, the number of sustain pulses for each subfield is determined so that a light generated from the difference of the number of sustain pulses between two adjacent gray scales can be greater than a light discharged in the address period, when the number of subfields for the higher one of the two adjacent gray scales is less than that for the lower one. The reversion of gray scales that occurs when the address light is increased as high as the sustain light can be eliminated to achieve correct gray-scale representation. A smoother gray-scale representation can be achieved with reduced power consumption by adjusting the difference of the number of sustain pulses between the two adjacent gray scales in consideration of the address light.
    • 一种用于等离子体显示面板的灰度表示方法,该方法包括按时间顺序排列多个子场,每个子场具有亮度权重,并通过子场的组合实现灰度表示,每个子场包括地址周期和 维持期 在灰阶表示方法中,确定每个子场的维持脉冲数,使得从两个相邻灰度级之间的维持脉冲数的差异产生的光可以大于在寻址周期中放出的光,当 两个相邻灰度中较高的一个灰度级的子场数小于下一个灰度级的子场数。 当可以消除地址光增加到持续光的高度时发生的灰度的反转,以获得正确的灰度级表示。 考虑到地址光,可以通过调整两个相邻灰度级之间的维持脉冲数量的差异来降低功耗,从而实现更平滑的灰度表示。
    • 9. 发明申请
    • VISUAL ARS SERVICE SYSTEM AND METHOD ENABLED BY MOBILE TERMINAL'S CALL CONTROL FUNCTION
    • 可视化服务系统和移动终端呼叫控制功能实现的方法
    • US20100210245A1
    • 2010-08-19
    • US12682502
    • 2008-10-08
    • Yong-Jin Kim
    • Yong-Jin Kim
    • H04L12/58
    • H04W4/16H04L67/36H04M3/42382H04M3/42391H04M3/51H04M3/5183H04M2201/38H04M2203/2011H04M2207/18
    • Disclosed is a system and a method for providing a Visual ARS (VARS) service by using a call control function of a mobile communication terminal. In the system and the method, a user of a terminal can select an existing voice guidance service or an available visual guidance service when trying a call connection to a telephone number of an existing call center. When selecting a visual guidance service, an originator receives an ARS service on a screen of the terminal of the originator. Accordingly, the user can receive and use the VARS service according to the user's selection by using a mobile communication network, so that the user can handle a task requested on a screen of the terminal. Hence, it is possible to overcome the disadvantage of a limited voice guidance-centered ARS service that a call center currently provides in a stereotyped manner regardless of the generation development of terminals. Also, it is possible to provide various VARS services with the development of mobile communication terminals.
    • 公开了一种通过使用移动通信终端的呼叫控制功能来提供视觉ARS(VARS)服务的系统和方法。 在系统和方法中,当尝试与现有呼叫中心的电话号码的呼叫连接时,终端的用户可以选择现有的语音指导服务或可用的视觉指导服务。 当选择视觉指导服务时,发起者在发起者的终端的屏幕上接收ARS服务。 因此,用户可以通过使用移动通信网络根据用户的选择来接收和使用VARS服务,使得用户可以处理终端屏幕上请求的任务。 因此,可以克服呼叫中心目前以定型方式提供的有限的以语音指导为中心的ARS服务的缺点,而不管终端的发展。 此外,可以提供各种VARS服务与移动通信终端的发展。