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    • 2. 发明申请
    • SEMICONDUCTOR DEVICE, A PARALLEL INTERFACE SYSTEM AND METHODS THEREOF
    • 半导体器件,并行接口系统及其方法
    • US20130100998A1
    • 2013-04-25
    • US13714473
    • 2012-12-14
    • Samsung Electronics Co., Ltd.
    • Seung-Jun BAESeong-Jin JANGBeom-Sig CHO
    • H04L7/10
    • G11C7/22H03K19/0966H04L7/0008H04L7/033H04L7/10
    • A method of communication to a semiconductor device includes: transmitting a sampling clock signal from a first semiconductor device to a second semiconductor device; transmitting a training signal from the first semiconductor device to the second semiconductor device while transmitting of the sampling clock signal, the training signal comprising plural test patterns sent sequentially to the second semiconductor device, phases of at least some of the test patterns being adjusted to be different from each other during transmitting of the training signal; receiving first information from the second semiconductor device over a first signal line, the first signal line separate from a data bus connected between the first semiconductor device and the second semiconductor device; and transmitting a data signal over the data bus while transmitting the sampling clock signal, the data signal sent at a timing with respect to the sampling clock signal responsive to the received first information.
    • 一种与半导体器件通信的方法包括:将采样时钟信号从第一半导体器件传输到第二半导体器件; 在将所述采样时钟信号发送的同时将训练信号从所述第一半导体器件传输到所述第二半导体器件,所述训练信号包括顺序发送到所述第二半导体器件的多个测试图案,所述至少一些所述测试图案的相位被调整为 在训练信号的发送期间彼此不同; 通过第一信号线从第二半导体器件接收第一信息,第一信号线与连接在第一半导体器件和第二半导体器件之间的数据总线分开; 并且在发送采样时钟信号的同时,通过数据总线发送数据信号,所述数据信号响应于所接收到的第一信息而相对于采样时钟信号在定时发送。
    • 6. 发明申请
    • INPUT BUFFER AND MEMORY DEVICE INCLUDING THE SAME
    • 输入缓冲器和包括其的存储器件
    • US20150325274A1
    • 2015-11-12
    • US14644339
    • 2015-03-11
    • Samsung Electronics Co., Ltd.
    • Yong SHIMSeung-Jun BAEWon-Joo YUN
    • G11C7/10
    • G11C7/1084G11C7/1054
    • An input buffer includes a first buffer, a feedback circuit and a second buffer circuit. The feedback circuit includes a feedback resistor and a feedback inverter. The first buffer may be configured to output an amplification signal to an output node of the first buffer based on an input signal. The feedback circuit connected to the output node of the first buffer may be configured to control the amplification signal. The second buffer circuit may be configured to output a buffer output signal by buffering the amplification signal. The feedback resistor may receive the amplification signal from the output node of the first buffer and provide a feedback signal to a feedback node. The feedback inverter is connected between the feedback node and the output node. The feedback inverter may be configured to control the amplification signal based on the feedback signal.
    • 输入缓冲器包括第一缓冲器,反馈电路和第二缓冲电路。 反馈电路包括反馈电阻和反馈反馈器。 第一缓冲器可以被配置为基于输入信号将放大信号输出到第一缓冲器的输出节点。 连接到第一缓冲器的输出节点的反馈电路可以被配置为控制放大信号。 第二缓冲电路可以被配置为通过缓冲放大信号来输出缓冲器输出信号。 反馈电阻器可以从第一缓冲器的输出节点接收放大信号,并向反馈节点提供反馈信号。 反馈逆变器连接在反馈节点和输出节点之间。 反馈反相器可以被配置为基于反馈信号来控制放大信号。
    • 7. 发明申请
    • DUTY CYCLE CORRECTOR AND SYSTEMS INCLUDING THE SAME
    • 占空比校正器和系统,包括它们
    • US20140119140A1
    • 2014-05-01
    • US14066193
    • 2013-10-29
    • SAMSUNG ELECTRONICS CO., LTD.
    • Ho-Seok SEOLSeung-Jun BAEHo-Sung SONG
    • H03K3/017G11C8/18G11C7/22
    • G11C8/18G11C29/023G11C29/028H03K5/1565
    • A duty cycle corrector includes a sensing unit, a pad unit, a fuse unit, and a driver unit. The sensing unit generates at least one sensing signal based on the sensed duty cycle ratio of an output signal. The pad unit outputs at least one decision signal based on the at least one sensing signal. The fuse unit generates a duty cycle control signal based on at least one received fuse control signal. The driver unit adjusts a duty cycle ratio of an input signal to generate the output signal based on the duty cycle control signal. The driver unit adjusts the duty cycle ratio of the input signal by adjusting a pull-up strength or a pull-down strength of the input signal based on the duty cycle control signal.
    • 占空比校正器包括感测单元,衬垫单元,保险丝单元和驱动单元。 感测单元基于感测到的输出信号的占空比来产生至少一个感测信号。 垫单元基于至少一个感测信号输出至少一个判定信号。 熔丝单元基于至少一个接收的熔丝控制信号产生占空比控制信号。 驱动单元根据占空比控制信号来调整输入信号的占空比,生成输出信号。 驱动器单元通过基于占空比控制信号调整输入信号的上拉强度或下拉强度来调整输入信号的占空比。
    • 10. 发明申请
    • EQUALIZER AND SEMICONDUCTOR MEMORY DEVICE INCLUDING THE SAME
    • 均衡器和半导体存储器件包括它们
    • US20140219036A1
    • 2014-08-07
    • US14165990
    • 2014-01-28
    • Samsung Electronics Co., Ltd.
    • Dae-Hyun KIMSeung-Jun BAEKyung-Soo HA
    • G11C7/12H03K19/094G11C7/22
    • G11C7/22G11C7/1048G11C7/1057H03K19/00361H03K19/09429
    • Provided are an equalizer and a semiconductor memory device including the same. The equalizer includes a delay circuit and an inverting circuit. The delay circuit is configured to output, in response to a select signal, one of a delay signal delaying an input signal applied to an input/output node and an inverted signal inverting the input signal. The inverting circuit is configured to invert a signal provided from the delay circuit and output the inverted signal to the input/output node. The equalizer is configured such that when the delay circuit outputs the delay signal, the equalizer operates as an inductive bias circuit amplifying the input signal and outputting the amplified input signal, and when the delay circuit outputs the inverted signal, the equalizer operates as a latch circuit storing and outputting the input signal.
    • 提供了一种均衡器和包括该均衡器的半导体存储器件。 均衡器包括延迟电路和反相电路。 延迟电路被配置为响应于选择信号输出延迟施加到输入/输出节点的输入信号的延迟信号和反相输入信号的反相信号之一。 反相电路被配置为反转从延迟电路提供的信号并将反相信号输出到输入/输出节点。 均衡器被配置为使得当延迟电路输出延迟信号时,均衡器用作放大输入信号并输出​​放大的输入信号的感应偏置电路,并且当延迟电路输出反相信号时,均衡器作为锁存器 电路存储和输出输入信号。