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    • 3. 发明授权
    • Method for simultaneous transmitter operation
    • 同时发射机操作的方法
    • US08706061B2
    • 2014-04-22
    • US13586993
    • 2012-08-16
    • Armin W. KlomsdorfGregory R. BlackRyan J. Goedken
    • Armin W. KlomsdorfGregory R. BlackRyan J. Goedken
    • H04B1/04
    • H04B1/0475H04B1/525
    • A method and system mitigates receiver desensitization caused by a reverse inter-modulation distortion (IMD) signal generated by a power amplifier associated with one of at least two concurrently operating transmitters. A power amplifier controller (PAC) determines whether at least one power amplifier operating in a first operating state generates a reverse IMD signal that can substantially interfere with at least one receive channel due to a concurrent operation of at least two concurrently operating transmitters. In response to determining that at least one power amplifier generates the reverse IMD signal when in the first operating state, the PAC initiates a second operating state of the power amplifier to increase the linearity of the at least one power amplifier in order to reduce the reverse IMD signal. The PAC initiates the second operating state by adjusting parameters of the power amplifier.
    • 一种方法和系统减轻了由与至少两个同时操作的发射机之一相关联的功率放大器产生的反向互调失真(IMD)信号引起的接收机脱敏。 功率放大器控制器(PAC)确定在第一操作状态下操作的至少一个功率放大器是否产生由于至少两个并发操作的发射机的同时操作而能够显着干扰至少一个接收信道的反向IMD信号。 响应于在处于第一操作状态时确定至少一个功率放大器产生反向IMD信号,PAC启动功率放大器的第二操作状态以增加至少一个功率放大器的线性度,以便减少相反 IMD信号。 PAC通过调整功率放大器的参数来启动第二个操作状态。
    • 5. 发明授权
    • Method and device with dynamic dormancy
    • 具有动态休眠的方法和设备
    • US08504002B2
    • 2013-08-06
    • US12821164
    • 2010-06-23
    • Andrew W. LenartGregory R. BlackOleg Y. KlementievValeriy F. Marchevsky
    • Andrew W. LenartGregory R. BlackOleg Y. KlementievValeriy F. Marchevsky
    • H04M3/00H04B1/38H04B1/16H04B1/04H04W72/00H04W4/00H04L1/18G06F1/00
    • H04W52/028H04W52/0225Y02D70/1242Y02D70/1262Y02D70/142
    • A method (200) and device (300) for saving energy in a wireless communication device configured to maintain a persistent communication session over a wireless network with an application server. The method (200) can include: opening (210) a persistent communication session with an application server via a cellular network; measuring (220) a round trip time (RTT) from sending a message to theapplication server to receiving an acknowledgement message from the application server; and automatically transitioning (230) the device from a first operating state to a second operating state after an amount of time in the absence of subsequent data traffic exceeding a predetermined threshold, wherein power consumption associated with the second operating state is less than power consumption associated with the first operating state, and the predetermined threshold is a function of the measured round trip time. Advantageously, the method (200) can measure the actual RTT and transition to a low power based on the measured RTT exceeding a predetermined threshold, before the expiration of a network configured inactivity timer and in the absence of subsequent data traffic, which helps to minimize unnecessary power drain in a wireless communication device and minimizes inefficiencies in connection with data exchanges between a network and a wireless communication device.
    • 一种用于在无线通信设备中节能的方法(200)和设备(300),所述无线通信设备被配置为通过无线网络与应用服务器维持持续通信会话。 方法(200)可以包括:通过蜂窝网络打开(210)与应用服务器的持久通信会话; 测量(220)往返时间(RTT),从发送消息到应用服务器以从应用服务器接收确认消息; 以及在不存在后续数据流量超过预定阈值的时间量之后,将所述设备从第一操作状态自动地转换(230)到第二操作状态,其中与所述第二操作状态相关联的功耗小于相关联的功耗 具有第一操作状态,并且预定阈值是测量的往返时间的函数。 有利地,方法(200)可以在网络配置的不活动定时器到期之前和在不存在后续数据流量的情况下,测量基于所测量的RTT超过预定阈值的实际RTT并转换到低功率,这有助于最小化 无线通信设备中的不必要的功率消耗,并且使与网络和无线通信设备之间的数据交换有关的低效率最小化。
    • 8. 发明申请
    • METHOD AND DEVICE FOR CHARGING ENERGY STORAGE DEVICES
    • 用于充电储能装置的方法和装置
    • US20120173910A1
    • 2012-07-05
    • US13160662
    • 2011-06-15
    • Wayne W. BallantyneGregory R. BlackRobert M. JohnsonRussell L. Simpson
    • Wayne W. BallantyneGregory R. BlackRobert M. JohnsonRussell L. Simpson
    • G06F1/26
    • G06F1/266
    • Disclosed is a method (200) for charging energy storage devices. The method (200) can include a battery charging method in a power supply client connected by a data bus to a power supply host. The method (200) includes the steps of: detecting (210) a state of the power supply host; determining (220) a limit of current from the host to the client; allocating (230) a portion of the limit to a battery charging current; and charging (240) a battery of the client at the battery charging current such that the current from the host is greater than a recommended limit and less than or equal to the determined amount. Thus a client device can confidently charge at a rate which causes the port current to exceed a recommended limit, such as a USB port limit of 500 mA, when allowed by conditions of the host device. Advantageously, the method can help to expedite the charging time of a client battery, notwithstanding the number of other clients connected to the same host device for charging, thus minimizing the wait time of a user.
    • 公开了一种用于对能量存储装置进行充电的方法(200)。 方法(200)可以包括在通过数据总线连接到电源主机的电源客户端中的电池充电方法。 方法(200)包括以下步骤:检测(210)电源主机的状态; 确定(220)从主机到客户端的电流限制; 将极限的一部分(230)分配(230)到电池充电电流; 并以所述电池充电电流对所述客户端的电池进行充电(240),使得来自所述主机的电流大于推荐限度且小于或等于所确定的量。 因此,当主机设备的条件允许时,客户端设备可以以使端口电流超过推荐限制(例如500mA的USB端口限制)的速率自信地充电。 有利地,该方法可以帮助加快客户端电池的充电时间,尽管连接到相同主机设备的其他客户端的数量用于计费,从而最小化用户的等待时间。
    • 9. 发明申请
    • Mobile Computing Device and Method for Maintaining Application Continuity
    • 用于维护应用连续性的移动计算设备和方法
    • US20110185202A1
    • 2011-07-28
    • US12694244
    • 2010-01-26
    • Gregory R. BlackJohn P. Boos
    • Gregory R. BlackJohn P. Boos
    • G06F1/32
    • H04W52/0258H04L65/1083H04L67/04Y02D30/30Y02D70/1224Y02D70/1242Y02D70/1262Y02D70/142Y02D70/22
    • A method of maintaining application continuity (900) and mobile computing device (200) are described. The method involves a mobile device running an application in synchronous communication with an application server. The application has a threshold communication null period for maintaining application continuity. The method (900) can include the steps of: operating (910) the application in synchronous communication with an application server, defining an active mode, wherein the synchronous communication is automatically enabled; providing (920) a dormant mode wherein the synchronous communication is automatically disabled in the mobile device for a predetermined duration; and interrupting (930) the dormant mode by momentarily communicating with the application server prior to a threshold communication null period, for maintaining application continuity. Advantageously, prior to a threshold period of communication inactivity, the dormant mode can be interrupted to maintain application connectivity, so the server will not stop the application and data will not be lost.
    • 描述了维护应用连续性(900)和移动计算设备(200)的方法。 该方法涉及与应用服务器同步通信的运行应用的移动设备。 应用程序具有用于维护应用程序连续性的阈值通信无效期。 方法(900)可以包括以下步骤:与应用服务器进行同步通信操作(910)应用程序,定义活动模式,其中同步通信被自动启用; 提供(920)休眠模式,其中所述同步通信在所述移动设备中自动禁用预定持续时间; 并且在阈值通信空时间段之前通过与应用服务器进行暂时通信来中断(930)休眠模式,以保持应用连续性。 有利地,在通信不活动的阈值周期之前,可以中断休眠模式以维持应用连接性,因此服务器将不会停止应用,数据不会丢失。