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    • 5. 发明授权
    • Data transmission in a TDMA system
    • TDMA系统中的数据传输
    • US06819937B2
    • 2004-11-16
    • US10052263
    • 2002-01-23
    • Jarno KnuutilaJari HamalainenAri AhoMarkku LipponenAri Salminen
    • Jarno KnuutilaJari HamalainenAri AhoMarkku LipponenAri Salminen
    • H04B700
    • H04W52/367H03G3/3047H04B1/036H04B7/2643
    • A method and apparatus for updating transmission power class information of a Mobile Station (MS) in a General Packet Radio Services (GPRS) network. The invention updates transmission power class information of the MS in the GPRS network by initiating a Routing Area Update (RAU) procedure in the MS. The RAU procedure includes sending from the MS to a Serving GPRS Support Node (SGSN) of the GPRS network a RAU request message including a MS Radio Access Capability (RAC) Information Element (IE) which includes an IE indicating a new transmission power class of the MS, accepting in the SGSN the IE indicating a new transmission power class of the MS included in the MS RAC of the RAU request message, and delivering to a Base Station (BSS) the IE indicating a new transmission power class of the MS, thereby updating the transmission power class information of the MS at the BSS.
    • 一种用于在通用分组无线业务(GPRS)网络中更新移动台(MS)的发射功率等级信息的方法和装置。 本发明通过在MS中发起路由区域更新(RAU)过程来更新GPRS网络中MS的发射功率等级信息。 RAU过程包括从MS向GPRS网络的服务GPRS支持节点(SGSN)发送包括MS无线电接入能力(RAC)信息元素(IE)的RAU请求消息,其包括指示新的传输功率等级的IE MS在SGSN中接收指示包括在RAU请求消息的MS RAC中的MS的新的传输功率等级的IE,并且向基站(BSS)传送指示MS的新的传输功率等级的IE, 从而更新BSS处的MS的发送功率等级信息。
    • 6. 发明授权
    • Method for adjusting power consumption
    • 调节功耗的方法
    • US06484041B1
    • 2002-11-19
    • US09413297
    • 1999-10-06
    • Ari AhoMarkku LipponenJarno Knuutila
    • Ari AhoMarkku LipponenJarno Knuutila
    • H04B138
    • G06F1/3203G06F1/324G06F1/329G06F1/3296Y02D10/126Y02D10/172Y02D10/24
    • In a method for adjusting the power consumption of a communication device (1), at least a first operating voltage (VCC1, VCC2) is generated for the communication device (1), and the communication device (1) contains at least one processor (MPU, DSP) which is used to execute program commands of one or more applications. The execution rate of at least one processor (MPU, DSP) in the communication device is set with a clock signal (CLK) which is generated by a device (17) for generating a clock signal (CLK). The operating voltage for the device (17) for generating a clock signal (CLK) is provided by a second operating voltage (VCC2). A performance requirement is specified for the applications, wherein at least the first operating voltage (VCC1) of the communication device (1) is adjusted on the basis of the performance requirement of one or more applications which are being executed at a given time.
    • 在调整通信装置(1)的功耗的方法中,为通信装置(1)生成至少第一工作电压(VCC1,VCC2),并且通信装置(1)包含至少一个处理器 MPU,DSP),用于执行一个或多个应用程序的程序命令。 通信设备中的至少一个处理器(MPU,DSP)的执行速率由用于产生时钟信号(CLK)的设备(17)生成的时钟信号(CLK)来设置。 用于产生时钟信号(CLK)的器件(17)的工作电压由第二工作电压(VCC2)提供。 为应用指定了性能要求,其中至少基于在给定时间执行的一个或多个应用的​​性能要求来调整通信设备(1)的第一工作电压(VCC1)。
    • 7. 发明授权
    • Method for refreshing a dynamic memory
    • 刷新动态内存的方法
    • US06857042B1
    • 2005-02-15
    • US09481784
    • 2000-01-11
    • Matti FlomanAri AhoMarkku LipponenMikko Siltanen
    • Matti FlomanAri AhoMarkku LipponenMikko Siltanen
    • G11C7/10G11C7/16G11C7/20G11C11/406G11C11/4072G06F12/00
    • G11C11/40622G11C7/1045G11C7/16G11C7/20G11C11/406G11C11/4072G11C2211/4067
    • A method for refreshing memory cells in a dynamic memory includes dividing the information stored therein at a given time into information to be maintained and information not requiring maintenance, wherein at least some of such memory cells containing information not requiring maintenance are left unrefreshed. In the method application programs are executed. The memory cells of the dynamic memory are divided into two or more blocks which can be refreshed irrespective of each other. Information on the location of each application program to be executed is stored, as well as on the quantity of memory allocated by each application program to be executed. In the method it is further determined on the basis of said stored information which of said memory blocks contains information requiring maintenance, wherein other memory blocks remains unrefreshed. The invention also relates to an electronic device.
    • 一种用于刷新动态存储器中的存储器单元的方法,包括将在给定时间存储的信息划分为要维护的信息和不需要维护的信息,其中至少一些包含不需要维护的信息的存储单元不被刷新。 在方法中执行应用程序。 动态存储器的存储单元被分成两个或更多个可以被刷新的块,而不管彼此如何。 存储关于要执行的每个应用程序的位置的信息,以及由要执行的每个应用程序分配的存储器的数量。 在该方法中,还根据所存储的信息进一步确定哪个存储块包含需要维护的信息,其中其他存储块保持未刷新。 本发明还涉及一种电子设备。
    • 8. 发明授权
    • System and method for transferring data between different types of memory using a common data bus
    • 使用公共数据总线在不同类型的存储器之间传输数据的系统和方法
    • US06563739B2
    • 2003-05-13
    • US09740802
    • 2000-12-21
    • Ari AhoMatti FlomanMarkku Lipponen
    • Ari AhoMatti FlomanMarkku Lipponen
    • G11C1606
    • G06F12/0638
    • A memory controller for controlling the transfer of data to and from a memory array, wherein the memory array includes a first type of memory and a second type of memory, the first type having a different signalling protocol from the second type of memory, wherein the memory controller comprises: an address decoder having an input for receiving a memory access request, said memory access request including the address of the memory array to be accessed, and an output for outputting the address of the memory array to be accessed; a first sub-controller for generating a plurality of memory interface signals for controlling the first type of memory, said first sub-controller being operated in response to addresses within a first range of addresses output by the address decoder; and a second sub-controller for generating a plurality of memory interface signals for controlling the second type of memory, said second sub-controller being operated in response to addresses within a second, non-overlapping range of addresses output by the address decoder.
    • 一种用于控制与存储器阵列之间的数据传送的存储器控​​制器,其中所述存储器阵列包括第一类型的存储器和第二类型的存储器,所述第一类型具有与所述第二类型存储器不同的信令协议,其中, 存储器控制器包括:地址解码器,具有用于接收存储器访问请求的输入,所述存储器访问请求包括要访问的存储器阵列的地址,以及用于输出要访问的存储器阵列的地址的输出;第一子 控制器,用于产生用于控制第一类型存储器的多个存储器接口信号,所述第一子控制器响应地址解码器输出的地址的第一范围内的地址操作; 以及用于产生用于控制第二类型存储器的多个存储器接口信号的第二子控制器,所述第二子控制器响应于由地址解码器输出的地址的第二非重叠范围内的地址来操作。