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    • 31. 发明授权
    • Communication device for executing packet process in low consumption state
    • 用于在低消耗状态下执行数据包处理的通信设备
    • US08959373B2
    • 2015-02-17
    • US13362752
    • 2012-01-31
    • Takanobu Suzuki
    • Takanobu Suzuki
    • G06F1/32G06F3/12
    • G06F3/1221G06F1/3284G06F3/1229G06F3/1279Y02D10/159Y02D10/1592
    • In a case where a first condition is met while a communication device may in a high consumption state, the communication device may transit to a first low consumption state. In a case where a second condition is met while the communication device is in a specific state which is one state of the high consumption state and the first low consumption state, the communication device may transit to a second low consumption state. The communication device may be configured to execute a packet process in a case where a receiving process for receiving a packet is executed after the communication device had transited to the first low consumption state. The communication device may be configured not to execute the packet process in a case where the receiving process for receiving the packet is executed after the communication device had transited to the second low consumption state.
    • 在通信设备处于高消耗状态时满足第一条件的情况下,通信设备可以转换到第一低消耗状态。 在通信设备处于作为高消耗状态和第一低消耗状态的一个状态的特定状态的情况下满足第二条件的情况下,通信设备可以转换到第二低消耗状态。 通信装置可以被配置为在通信装置转移到第一低消耗状态之后执行用于接收分组的接收处理的情况下执行分组处理。 在通信装置转移到第二低消耗状态之后,在执行用于接收分组的接收处理的情况下,通信装置可以被配置为不执行分组处理。
    • 33. 发明申请
    • Communication Device
    • 通讯设备
    • US20130309968A1
    • 2013-11-21
    • US13835097
    • 2013-03-15
    • Takanobu Suzuki
    • Takanobu Suzuki
    • H04W4/00
    • H04W4/008H04W4/80
    • A communication device may determine whether a first type of wireless network is an enterprise wireless network, in a case where the communication device currently belongs to both the first type of wireless network for executing a first type of wireless communication and a second type of wireless network for executing a second type of wireless communication. The communication device may execute a sending process comprising sending first wireless setting information to a portable terminal when it is determined that the first type of wireless network is the enterprise wireless network. The first wireless setting information may be information for the portable terminal to participate in the second type of wireless network. The communication device may execute a first particular process different from the sending process when it is determined that the first type of wireless network is not the enterprise wireless network.
    • 在通信设备当前属于用于执行第一类型的无线通信的第一类型的无线网络和第二类型的无线网络的情况下,通信设备可以确定第一类型的无线网络是否是企业无线网络 用于执行第二类型的无线通信。 通信设备可以执行发送过程,包括当确定第一类型的无线网络是企业无线网络时,向便携式终端发送第一无线设置信息。 第一无线设置信息可以是便携式终端参与第二类型的无线网络的信息。 当确定第一类型的无线网络不是企业无线网络时,通信设备可以执行与发送过程不同的第一特定处理。
    • 36. 发明申请
    • CHARGE PUMP CIRCUIT
    • 充电泵电路
    • US20120249225A1
    • 2012-10-04
    • US13524927
    • 2012-06-15
    • Takanobu SuzukiSusumu Tanida
    • Takanobu SuzukiSusumu Tanida
    • G05F1/10
    • H02M3/073H02M1/36H02M1/44
    • There is provided a charge pump circuit which can prevent EMI noise of a frequency component independent of an operation clock frequency from occurring at the time of a change from a disable state to an enable state. The charge pump circuit includes a detection signal synchronization circuit which outputs a synchronization detection signal generated by synchronizing a detection signal outputted from a level detection circuit to a clock signal outputted from an oscillator circuit. The synchronization detection signal is used as a pump enable signal, and a first pump capacitance and a second pump capacitance in a pump circuit body are charged and discharged in response to the synchronization detection signal and the clock signal outputted from the oscillator circuit.
    • 提供了一种电荷泵电路,其可以防止在从禁用状态改变到使能状态时发生与操作时钟频率无关的频率分量的EMI噪声。 电荷泵电路包括检测信号同步电路,其输出通过使从电平检测电路输出的检测信号与从振荡器电路输出的时钟信号同步而产生的同步检测信号。 同步检测信号用作泵使能信号,并且响应于从振荡器电路输出的同步检测信号和时钟信号,在泵电路体中的第一泵电容和第二泵电容被充电和放电。
    • 39. 发明授权
    • Semiconductor memory device and its testing method
    • 半导体存储器件及其测试方法
    • US06888774B2
    • 2005-05-03
    • US10224499
    • 2002-08-21
    • Takanobu SuzukiTamaki TsurudaKatsushige Hayashi
    • Takanobu SuzukiTamaki TsurudaKatsushige Hayashi
    • G01R31/28G11C11/401G11C11/409G11C29/00G11C29/28G11C29/34G11C8/00
    • G11C29/28G11C2029/2602
    • A semiconductor memory device is of a bank switching type having a plurality of memory array banks provided in a memory chip which can be switched from one to another for storage operation. The semiconductor memory device includes: a plurality of memory arrays in the memory array banks; an input/output circuit for transmitting information data between the memory arrays and the outside; a data bus for connecting between the memory arrays and the input/output circuit; and N-channel transistors provided across the data bus. The data bus consists of a plurality of adjacent lines. Each of N-channel transistors is connected at their drain to the corresponding lines of the data bus while at their source to the ground. When a multi-bit test is commenced for writing and reading data on the memory arrays, the N-channel transistors are turned on to connect the lines of the data bus to the ground.
    • 半导体存储器件是具有存储器芯片中的多个存储器阵列组的存储体交换型,其可以从一个切换到另一个用于存储操作。 半导体存储器件包括:存储器阵列中的多个存储器阵列; 用于在存储器阵列和外部之间传送信息数据的输入/输出电路; 用于连接存储器阵列和输入/输出电路的数据总线; 和跨越数据总线的N沟道晶体管。 数据总线由多条相邻线组成。 每个N沟道晶体管在其漏极处连接到数据总线的相应线,同时它们的源极处于接地。 当开始对存储器阵列上的数据写入和读取进行多位测试时,N沟道晶体管导通,将数据总线的线路连接到地。