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    • 71. 发明授权
    • Low-temperature polysilicon display and method for fabricating same
    • 低温多晶硅显示器及其制造方法
    • US07491559B2
    • 2009-02-17
    • US11270373
    • 2005-11-08
    • Chia-Tien Peng
    • Chia-Tien Peng
    • H01L21/00
    • H01L27/1285G02F1/13454H01L27/1296H01L27/3244
    • A display panel comprising at least one display area and one peripheral circuit area having electronic components for driving the display components in the display area. The electronic components in the display area are fabricated substantially on a polysilicon layer converted from amorphous silicon by a solid phase crystallization process, whereas the electronic components in the peripheral circuit area are fabricated substantially on a polysilicon layer converted from amorphous silicon first by the solid phase crystallization process and then by laser annealing. As such, display area has a more uniform poly-Si layer substantially free of defects associated with laser annealing, and the peripheral circuit has a poly-Si layer with higher electron mobility.
    • 一种显示面板,包括至少一个显示区域和一个具有用于驱动显示区域中的显示部件的电子部件的外围电路区域。 显示区域中的电子部件基本上在通过固相结晶工艺从非晶硅转换的多晶硅层上制造,而外围电路区域中的电子部件基本上在由非晶硅转换的多晶硅层上制造,首先由固相 结晶过程,然后通过激光退火。 因此,显示区域具有基本上没有与激光退火相关的缺陷的更均匀的多晶硅层,并且外围电路具有具有较高电子迁移率的多晶硅层。
    • 72. 发明授权
    • Cell reselection for improving network interconnection
    • 改进网络互连的小区重选
    • US07483702B2
    • 2009-01-27
    • US10970827
    • 2004-10-20
    • Whui Mei YeoLars Dalsgaard
    • Whui Mei YeoLars Dalsgaard
    • H04Q7/20
    • H04W36/0061H04W36/245
    • This invention describes a new methodology for a cell reselection by a mobile station (MS) for improving network interconnection and interoperability in a limited mobile access environment. The invention is applicable to any kind of networks and their interconnections. The invention describes how the MS can better recover from failed intersystem cell reselection attempts so that there are fewer subsequent failed attempts using two major improvements. First, the MS takes into consideration during cell reselection evaluation and candidate-cell selection, whether the MS had previously been unsuccessful in reselecting the considered cell. This means treating neighbor cells to which the MS had failed reselection before with a lower priority in subsequent cell reselection evaluations. Second, the MS is allowed to stop monitoring and thus, to stop evaluating cells if it was earlier found that the access to those cells is forbidden.
    • 本发明描述了用于移动站(MS)的小区重选的新方法,用于改善有限移动接入环境中的网络互连和互操作性。 本发明适用于任何种类的网络及其互连。 本发明描述了MS如何能够从故障的系统间小区重选尝试中更好地恢复,使得使用两个主要改进的随后的失败尝试次数较少。 首先,在小区重选评估和候选小区选择期间考虑MS,MS是否先前未能成功地重选所考虑的小区。 这意味着在接下来的小区重选评估中以较低的优先级处理MS之前重新选择失败的邻居小区。 第二,允许MS停止监控,因此,如果早先发现对这些单元的访问被禁止,则停止评估单元。
    • 74. 发明授权
    • Automatic receiver calibration with noise and fast fourier transform
    • 自动接收机校准与噪声和快速傅立叶变换
    • US07453934B2
    • 2008-11-18
    • US11169284
    • 2005-06-27
    • Pauli SeppinenJulius KoskelaMikael Gustafsson
    • Pauli SeppinenJulius KoskelaMikael Gustafsson
    • H04B17/00
    • H04B17/21
    • The present invention provides a method for automatic calibration of a signal path in receivers (e.g., radio frequency receivers) using a noise (and not a specific test signal) as a source and a fast Fourier transform (FFT) of the noise for correcting various parameters related to an inphase/quadrature (I/Q) imbalance in a frequency domain. The present invention (method and apparatus) can provide detecting and correcting an I/Q phase error, an I/Q amplitude error, an absolute corner frequency of the analog baseband filter, and a relative corner frequency of the analog baseband filters just by using the noise as a stimuli. This calibration can be used for a factory calibration or it can be used as an on-site calibration for base stations. Mobile devices can calibrate themselves independently of their location. This reduces the requirements for the test equipment in the manufacturing and maintenance stages.
    • 本发明提供一种使用噪声(而不是特定的测试信号)作为源的接收机(例如,射频接收机)中的信号路径的自动校准和用于校正各种噪声的噪声的快速傅里叶变换(FFT)的方法 与频域中的同相/正交(I / Q)不平衡相关的参数。 本发明(方法和装置)可以提供检测和校正I / Q相位误差,I / Q振幅误差,模拟基带滤波器的绝对转角频率以及模拟基带滤波器的相对转角频率,只需使用 噪音作为刺激。 该校准可用于工厂校准,也可用作基站的现场校准。 移动设备可以独立于他们的位置进行自我校准。 这减少了制造和维护阶段对测试设备的要求。
    • 75. 发明授权
    • Method for performing reacquisition in a positioning receiver, and an electronic device
    • 用于在定位接收机和电子设备中执行重新获取的方法
    • US07447258B2
    • 2008-11-04
    • US10325218
    • 2002-12-20
    • Samuli PietilaHarri Valio
    • Samuli PietilaHarri Valio
    • H04B1/69
    • H04B1/7115G01S19/30
    • A method for performing reacquisition in a positioning receiver (PR) is described, in which at least one spread spectrum modulated signal is received. In the positioning receiver (PR), a reference signal is formed by using a reference code corresponding to the code used in the modulation of the signal to be received, and a correlation is made between the received signal and the reference signal. The correlation is made in at least a first and a second part, and different correlation times are used in the first part and in the second part. The invention also relates to an electronic device (ED) comprising a positioning receiver (PR) for performing this reacquisition method.
    • 描述了在定位接收机(PR)中执行再捕获的方法,其中接收至少一个扩频调制信号。 在定位接收机(PR)中,通过使用与在待接收信号的调制中使用的代码相对应的参考码来形成参考信号,并且在接收信号和参考信号之间进行相关。 在至少第一和第二部分进行相关,并且在第一部分和第二部分中使用不同的相关时间。 本发明还涉及一种包括用于执行该重新捕获方法的定位接收器(PR)的电子设备(ED)。
    • 77. 发明授权
    • Support of an interaction between a host device and a peripheral device
    • 支持主机设备和外围设备之间的交互
    • US07441053B2
    • 2008-10-21
    • US10737191
    • 2003-12-15
    • Kimmo MyllyJani HyvönenMarko T. Ahvenainen
    • Kimmo MyllyJani HyvönenMarko T. Ahvenainen
    • G06F3/00G06F9/00
    • G06F9/4411
    • The invention relates to a method for use in a system comprising a host device and at least one peripheral device which are enabled to interact with each other. In order to improve the flexibility of the system, the method comprises a step of transmitting information indicative of a time required for an initialization of the at least one peripheral device from the at least one peripheral device to the host device, and a step of evaluating in the host device the information indicative of a time required by the at least one peripheral device for an initialization. The invention relates equally to a corresponding host device, to a corresponding peripheral device, to a corresponding system and to corresponding software program products.
    • 本发明涉及一种在系统中使用的方法,包括主机设备和能够彼此交互的至少一个外围设备。 为了提高系统的灵活性,该方法包括将表示至少一个外围设备的初始化所需时间的信息从至少一个外围设备发送到主机设备的步骤,以及评估步骤 在所述主机设备中,所述信息指示所述至少一个外围设备为初始化所需的时间。 本发明同样涉及对应的主机设备,相应的外围设备,相应的系统和相应的软件程序产品。
    • 78. 发明授权
    • Optical shutter for miniature cameras
    • 微型相机的光学快门
    • US07427745B2
    • 2008-09-23
    • US11255763
    • 2005-10-21
    • Jorg LinkePasi Ryytty
    • Jorg LinkePasi Ryytty
    • G01D5/34H01J1/56
    • G03B9/08G02B6/3538G02B26/004H04N5/2254
    • The invention relates to a shutter for an optical imaging system, e.g. a digital camera. The shutter comprises an interface between a transparent body and a capillary space. Light rays introduced to the active area of the interface are reflected by total internal reflection when the capillary space is filled with a gas. The light rays are transmitted through the interface when the capillary space is rapidly filled with a liquid. Thus, the light rays are either absorbed or reflected towards an image sensor, depending on the state of the shutter. The liquid is delivered to the capillary space through at least one duct which is positioned opposite the active area.
    • 本发明涉及一种用于光学成像系统的快门,例如, 数码相机 快门包括透明体和毛细管空间之间的界面。 当毛细管空间充满气体时,引入界面活性区域的光线被全内反射。 当毛细管空间迅速充满液体时,光线透过界面。 因此,取决于快门的状态,光线被吸收或者朝向图像传感器反射。 液体通过与活动区域相对定位的至少一个管道输送到毛细管空间。
    • 79. 发明授权
    • Asynchronous wrapper for a globally asynchronous, locally synchronous (GALS) circuit
    • 用于全局异步本地同步(GALS)电路的异步包装器
    • US07426650B2
    • 2008-09-16
    • US10542938
    • 2003-12-29
    • Eckhard GrassMilos Krstic
    • Eckhard GrassMilos Krstic
    • G06F1/12G06F1/32G06F1/00
    • G06F1/08G06F1/12
    • The invention concerns an asynchronous wrapper for a globally asynchronous, locally synchronous circuit. The asynchronous wrapper operates with a request signal-driven clock control, supplemented by a local clock unit in the absence of request signals. It has at least one input unit which is adapted to receive a request signal from outside and to indicate to the outside the reception of the request signal by the delivery of an associated acknowledgement signal, and a pausable clock unit which is adapted to repeatedly produce a first clock signal and to deliver it to an internally synchronous circuit block associated with the asynchronous wrapper. The input unit is adapted to produce, if a request signal is applied, a second clock signal which is in a defined time relationship with the request signal and to deliver it to the internally synchronous circuit block. There is further provided a time-out unit which is connected to the input unit and which is adapted to start the delivery of the first clock signal when external request signals are absent over a given period of time.
    • 本发明涉及用于全局异步本地同步电路的异步包装器。 异步包装器在请求信号驱动时钟控制下工作,在没有请求信号的情况下由本地时钟单元补充。 它具有至少一个输入单元,该输入单元适于从外部接收请求信号,并且通过递送相应的确认信号向外部指示对该请求信号的接收;以及可重复产生一个 第一时钟信号并将其传递到与异步包装器相关联的内部同步电路块。 输入单元适用于产生与请求信号定义的时间关系并将其传送到内部同步电路块的第二时钟信号,如果请求信号被应用。 还提供了一个连接到输入单元的延时单元,当外部请求信号在给定的时间段内不存在时,它适于开始传送第一时钟信号。