SYSTEM AND METHOD FOR INTEGRATION PROCESSING OF DIFFERENT NETWORK PROTOCOLS AND MULTIMEDIA TRAFFICS
    91.
    发明申请
    SYSTEM AND METHOD FOR INTEGRATION PROCESSING OF DIFFERENT NETWORK PROTOCOLS AND MULTIMEDIA TRAFFICS 审中-公开
    不同网络协议和多媒体流量整合处理的系统与方法

    公开(公告)号:WO2004028090A1

    公开(公告)日:2004-04-01

    申请号:PCT/KR2003/001898

    申请日:2003-09-18

    CPC classification number: H04L69/08 H04L69/18

    Abstract: The present invention relates to a communication system architecture which can perform integrated processing of different network protocols and multimedia traffics. The communication system for integrated processing of different network protocols and multimedia traffics comprises a common packet; a common packet switch; a plurality of channels; a common bus; a common protocol platform; an external network protocol converter; and an internal network protocol converter. Thus, the present invention can process traffics rapidly embodied by mean of hardware, and easily perform various QoS, traffic control, and so on by designing a unified common platform with an open architecture. In addition, the present invention can be used for digital consumer devices in building networks and home networks or various digital appliances classified as Internet information appliances, and for control systems such as a home gateway, a home server, an STB, a home station and so on.

    Abstract translation: 本发明涉及可以执行不同网络协议和多媒体业务的集成处理的通信系统架构。 用于不同网络协议和多媒体业务的综合处理的通信系统包括一个公共分组; 一个公共分组交换机; 多个通道; 一辆公共汽车 一个通用协议平台; 外部网络协议转换器; 和内部网络协议转换器。 因此,本发明可以通过设计具有开放式架构的统一通用平台来处理由硬件意图迅速体现的业务,并且容易地执行各种QoS,流量控制等。 此外,本发明可以用于建筑物网络和家庭网络中的数字消费设备或分类为互联网信息设备的各种数字设备,以及用于诸如家庭网关,家庭服务器,STB,家庭站和家庭网络的控制系统 所以。

    SYSTEM AND METHODS FOR REDUCING STANDBY POWER AND MONITORING ELECTRIC ENERGY CONSUMED BY HOME APPLIANCES AND HOME NETWORK DEVICES
    94.
    发明申请
    SYSTEM AND METHODS FOR REDUCING STANDBY POWER AND MONITORING ELECTRIC ENERGY CONSUMED BY HOME APPLIANCES AND HOME NETWORK DEVICES 审中-公开
    家用电器和家庭网络设备消耗的电能和监控电能的系统和方法

    公开(公告)号:WO2010074392A1

    公开(公告)日:2010-07-01

    申请号:PCT/KR2009/005766

    申请日:2009-10-09

    Abstract: This invention relates to an energy consumption monitoring and standby power saving system and methods for the home appliances and home network devices that is capable of; automatically shutting off not only passive standby power but also active standby power which is unnecessarily consumed in the residential environment including homes and offices; realtime monitoring of the amount of consumed electrical energy of a specific appliance for a specific period; and providing various power related additional services through transmission of the collected data to power suppliers and service providers. According to one feature of the present invention, it provides an energy consumption monitoring and standby power saving system which is connected to home appliances and detects the amount of the power consumption of corresponding home appliances, and includes more than two energy saving nodes which approve application or shut-off power to corresponding home appliances, and an energy saving server which is connected to each of said energy saving nodes and collecting various status information of corresponding home appliances including said amount of power consumption from said nodes.

    Abstract translation: 本发明涉及一种家用电器和家用网络设备的能量消耗监测和备用节能系统及方法, 自动关闭不仅被动待机功率,而且还在住宅环境(包括家庭和办公室)中不必要地消耗的主动待机功率; 在特定时期内对特定器具的消耗电能量的实时监测; 并通过将收集的数据传送给电力供应商和服务提供商来提供各种电力相关的附加服务。 根据本发明的一个特征,提供了一种与家用电器连接并检测相应家用电器的功耗量的能量消耗监控和待机节电系统,并且包括两个以上的节能节能节点 或切断对相应家用电器的电源,以及节能服务器,其连接到每个所述节能节点并且收集包括来自所述节点的所述功耗量的相应家用电器的各种状态信息。

    LIDAR DEVICE AND LIDAR SYSTEM INCLUDING THE SAME

    公开(公告)号:WO2018212395A1

    公开(公告)日:2018-11-22

    申请号:PCT/KR2017/005881

    申请日:2017-06-07

    Abstract: Disclosed is a lidar deviceincluding a transmission unit configured to emit a first signal, which is an optical signal; a first lens unit configured to convert the first signal into parallel light; a reflection unit configured to adjust a direction of the converted first signal; a second lens unit configured to enable the first signal to have the same focal plane even when a reflection angle of the reflection unit changes; a third lens unit configured to convert the first signal passing through the second lens unit into parallel light; a fourth lens unit configured to increase an angle of the first signal passing through the third lens unit; and a reception unit configured to receive a second signal, which is light reflected by an object after passing through the fourth lens unit.

    IN-BAND CONTROL PROTOCOLE FOR WIRELESS POWER TRANSFER
    98.
    发明申请
    IN-BAND CONTROL PROTOCOLE FOR WIRELESS POWER TRANSFER 审中-公开
    用于无线电力传输的带内控制协议

    公开(公告)号:WO2015046639A1

    公开(公告)日:2015-04-02

    申请号:PCT/KR2013/008602

    申请日:2013-09-25

    Inventor: WON, Yun Jae

    Abstract: This item establishes a system for an in-band network, from which both wireless power transfer and data transmission are carried out simultaneously at a same frequency band. It provides technical solution for a remote and consistent power supply along with a stable network. For the purpose of this item, the system is designed based on the principles described in ISO/IEC 15149 (Magnetic Field Area Network) In this way, it is expected to achieve superiority in control of devices, while managing wireless power transfer to multiple devices in request. The focus is on the physical and media access control layer protocol; it will not discuss matters on the upper layer protocols. As together, the PHY and MAC layers should be able to carry out the following tasks: data transmission, signal control, wireless power transfer.

    Abstract translation: 该项目建立用于带内网络的系统,无线电力传输和数据传输在同一频带同时进行。 它为远程和一致的电源以及稳定的网络提供技术解决方案。 为了该项目的目的,该系统是基于ISO / IEC 15149(磁场区域网络)中描述的原理设计的。这样,预期在控制无线功率到多个设备的同时实现设备控制的优越性 在请求中。 重点是物理和媒体访问控制层协议; 它不会讨论上层协议的问题。 作为一起,PHY层和MAC层应该能够执行以下任务:数据传输,信号控制,无线电力传输。

    FABRICATING METHOD FOR MICRO GAS SENSOR AND THE SAME
    99.
    发明申请
    FABRICATING METHOD FOR MICRO GAS SENSOR AND THE SAME 审中-公开
    微气体传感器及其制造方法

    公开(公告)号:WO2009084871A1

    公开(公告)日:2009-07-09

    申请号:PCT/KR2008/007701

    申请日:2008-12-26

    CPC classification number: G01N27/128

    Abstract: There are provided a micro gas sensor and a method for fabricating the same that comprises a micro heater formed inside a polysilicon membrane by doping impurities into a specific region of the polysilicon membrane positioned under a gas sensing substance, thereby improving thermal structural stability and making it easy to form the gas sensing substance. The micro gas sensor comprises: a micro heater formed by doping impurities into polysilicon vapor-deposited on a substrate on which a first insulating layer is formed; a polysilicon membrane for decreasing a heat loss of the micro heater; a power electrode for supplying power and a temperature measurement electrode for measuring a temperature, positioned at both ends of the micro heater; a second insulating layer formed on the micro heater; a sensing substance formed on the second insulating layer, for sensing a gas; and a sensing electrode for measuring a change in properties of the sensing substance. The method for fabricating a micro gas sensor comprises steps of: forming polysilicon on a substrate on which a first insulating layer is formed; forming a micro heater by doping impurities into the polysilicon; forming electrodes at both ends of the micro heater; forming a second insulating layer on the micro heater; forming a sensing substance on the second insulating layer; and forming a sensing electrode on the sensing substance.

    Abstract translation: 提供一种微气体传感器及其制造方法,其包括通过将杂质掺杂到位于气体感测物质下方的多晶硅膜的特定区域中而形成在多晶硅膜内部的微加热器,从而提高热结构稳定性并使其成为 容易形成气体传感物质。 微气体传感器包括:通过将杂质掺杂到形成有第一绝缘层的基板上的多晶硅中形成的微加热器; 用于减少微加热器的热损失的多晶硅膜; 用于供电的电源电极和位于微加热器两端的用于测量温度的温度测量电极; 形成在所述微加热器上的第二绝缘层; 形成在所述第二绝缘层上的用于检测气体的感测物质; 以及用于测量感测物质的性质变化的感测电极。 制造微气体传感器的方法包括以下步骤:在其上形成有第一绝缘层的基板上形成多晶硅; 通过将杂质掺杂到多晶硅中形成微加热器; 在微加热器的两端形成电极; 在所述微加热器上形成第二绝缘层; 在所述第二绝缘层上形成感测物质; 以及在感测物质上形成感测电极。

    POINTING DEVICE WITH AN INTEGRATED OPTICAL STRUCTURE
    100.
    发明申请
    POINTING DEVICE WITH AN INTEGRATED OPTICAL STRUCTURE 审中-公开
    具有集成光学结构的指示装置

    公开(公告)号:WO2005088435A1

    公开(公告)日:2005-09-22

    申请号:PCT/KR2005/000690

    申请日:2005-03-10

    CPC classification number: G06F3/0421

    Abstract: The present invention relates to a micro-optical pointing device suitable for mobile terminals such as a cellular phone and PDA. A disclosed pointing device includes a light source emitting light rays to a subject; a contact member comprising a lattice type or perceivable pattern, which reflects an image of the moving subject; and an automatic transfer device restoring the contact member moved by a finger. The pointing device may further include a flip chip containing an image sensor, which converts the acquired image into an electronic signal, and a circuit for signal processing. The pointing device may include an integrated optical structure comprising a condensing lens, a specular surface, a light output part, and an image-formation lens. The pointing device may include a light guide structure that a parallel light prism lens, an image-formation lens, and a mask for blocking disturbance ray are formed into a single part.

    Abstract translation: 本发明涉及适用于诸如蜂窝电话和PDA的移动终端的微光指向装置。 公开的指示装置包括向对象发射光线的光源; 接触构件,其包括反映移动物体的图像的格子型或可感知图案; 以及恢复由手指移动的接触构件的自动传送装置。 指示装置还可以包括一个倒装芯片,该倒装芯片包含将所获取的图像转换为电子信号的图像传感器和用于信号处理的电路。 指示设备可以包括集成光学结构,其包括聚光透镜,镜面,光输出部分和图像形成透镜。 指示装置可以包括将平行光棱镜透镜,图像形成透镜和用于阻挡干扰光线的掩模形成为单个部分的导光结构。

Patent Agency Ranking