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    • 4. 发明授权
    • Semiconductor device using complementary clock and signal input state
detection circuit used for the same
    • 半导体器件采用互补时钟和信号输入状态检测电路相同
    • US6104225A
    • 2000-08-15
    • US76810
    • 1998-05-13
    • Masao TaguchiYasurou MatsuzakiMiki Yanagawa
    • Masao TaguchiYasurou MatsuzakiMiki Yanagawa
    • G11C7/22H03K5/00H03K5/135H03K5/151H03L7/081G06F1/04
    • H03L7/0805G11C7/22G11C7/222G11C7/225H03K5/135H03K5/151H03K2005/00234H03L7/0814
    • A semiconductor device for generating first and second internal clocks complementary with each other from an external clock and usable for both a system of a type using a complementary clock and a system of a type generating a 180.degree. phase clock internally, is disclosed. A first clock input circuit (buffer) is supplied with a first external clock and outputs a first internal clock. A second clock input circuit (buffer) is supplied with a second external clock complementary with the first external clock and outputs a second clock. A 1/2 phase clock generating circuit generates a 1/2 phase shift signal 180.degree. out of phase with the first internal clock. A second external clock state detection circuit judges whether the second external clock is input to the second clock input buffer. A switch is operated to produce the second clock as the second internal clock when the second external clock is input and to produce the 1/2 phase shift signal as the second internal clock when the second external clock is not input, in accordance with the judgement at the second external clock state detection circuit.
    • 公开了一种半导体器件,用于从外部时钟产生彼此互补的第一和第二内部时钟,并且可用于使用互补时钟的系统和内部产生180°相位时钟的系统的系统。 第一时钟输入电路(缓冲器)被提供有第一外部时钟并输出第一内部时钟。 第二时钟输入电路(缓冲器)被提供有与第一外部时钟互补的第二外部时钟并输出第二时钟。 A + E,fra 1/2 + EE相位时钟发生电路产生与第一内部时钟异相180°的+ E,fra 1/2 + EE相移信号。 第二外部时钟状态检测电路判断第二外部时钟是否被输入到第二时钟输入缓冲器。 当第二外部时钟被输入时,开关被操作以产生第二时钟作为第二内部时钟,并且当第二外部时钟未被输入时产生+ E,fra 1/2 + EE相移信号作为第二内部时钟 ,根据第二外部时钟状态检测电路的判断。
    • 6. 发明授权
    • Content addressable memory device with reduced power consumption
    • 内容可寻址的存储器件,功耗降低
    • US06535410B2
    • 2003-03-18
    • US10080561
    • 2002-02-25
    • Miki Yanagawa
    • Miki Yanagawa
    • G11C1500
    • G11C15/04
    • A content addressable memory device includes a first match line which is a first one of two portions into which a whole match line corresponding to a single item of entry data is divided, and changes from a first potential to a second potential when corresponding entry data does not match an entry key, a second match line which is a second one of the two portions into which the whole match line corresponding to the single item of entry data is divided, and changes from a second potential to a first potential when corresponding entry data does not match an entry key, a first precharge circuit which precharges the first match line to the first potential, a second precharge circuit which precharges the second match line to the second potential, and a short-circuiting circuit which short-circuits the first match line and the second match line with each other prior to precharging by the first and second precharge circuits if both of the first and second match lines indicate a mismatch.
    • 内容可寻址存储器件包括第一匹配线,其是与单个入口数据项对应的整个匹配线被分割成两部分中的第一匹配线,并且当相应条目数据确定时从第一电位变为第二电位 与入口密钥不匹配的第二匹配行,作为对应于单个条目数据项的整个匹配行的两个部分中的第二个匹配行,并且当对应的条目数据从第二个电位变为第一个电位时 与第一匹配线预充电到第一电位的第一预充电电路,将第二匹配线预充电到第二电位的第二预充电电路和短路第一匹配的短路电路, 如果第一和第二匹配线都表示不匹配,则在由第一和第二预充电电路预充电之前彼此相连。
    • 7. 发明授权
    • Synchronization circuit for transferring data using a bus of a different width
    • 使用不同宽度的总线传输数据的同步电路
    • US07243252B2
    • 2007-07-10
    • US10361620
    • 2003-02-11
    • Miki Yanagawa
    • Miki Yanagawa
    • H06F7/00G06F13/00
    • G11C7/10G06F13/4018G11C7/1045G11C7/1051G11C7/106H03K5/135H03M9/00
    • A semiconductor device that transmits data in wide bus width regardless of the width of an external data bus connected thereto. On the device's data output side, m-bit internal data is divided into n blocks. A data selection circuit selects m/n pieces of data at a time and a data output section outputs these pieces of data to an external data bus of a width of L=m/n bits. An output control circuit controls the selection of data by the data selection circuit and a synchronous signal output section outputs a synchronous signal indicative of selected data. A data input section accepts data transferred via an external data bus and a data get circuit outputs the data to an internal data bus corresponding to a synchronous signal a synchronous signal input section accepted. By getting data corresponding to all synchronous signals, the data get circuit will get m-bit data.
    • 无论与其连接的外部数据总线的宽度如何,都能以宽的总线宽度传输数据。 在器件的数据输出端,m位内部数据被分为n个块。 数据选择电路一次选择m / n条数据,数据输出部分将这些数据输出到宽度为L = m / n位的外部数据总线。 输出控制电路通过数据选择电路控制数据的选择,同步信号输出部分输出表示所选数据的同步信号。 数据输入部分接受通过外部数据总线传送的数据,并且数据获取电路将数据输出到与接受的同步信号输入部分的同步信号相对应的内部数据总线。 通过获取对应于所有同步信号的数据,数据获取电路将获得m位数据。
    • 9. 发明申请
    • Terminating resistance adjusting method, semiconductor integrated circuit and semiconductor device
    • 终端电阻调节方法,半导体集成电路和半导体器件
    • US20070216441A1
    • 2007-09-20
    • US11485396
    • 2006-07-13
    • Yutaka NemotoYoshimasa OgawaMiki YanagawaMakoto Koga
    • Yutaka NemotoYoshimasa OgawaMiki YanagawaMakoto Koga
    • H03K19/003
    • H04L25/0298
    • A terminal resistance adjusting method adjusts a terminating resistance within a semiconductor integrated circuit. The method includes obtaining a comparison result by comparing a reference voltage and a voltage of a first node that is coupled to a first voltage via a current supply circuit, the first voltage being one of a power supply voltage and a ground voltage, controlling a monitoring resistor part which has a plurality of first resistors when making a calibration, so as to selectively couple the first resistors in parallel between the first node and a second voltage based on the comparison result, the second voltage being the other of the power supply voltage and the ground voltage, and controlling a terminating resistor part which has a plurality of second resistors when controlling the terminating resistance of the terminating part, so as to selectively couple the second resistors in parallel between a second node and the second voltage based on the comparison result similarly to the first resistors of the monitoring resistor part.
    • 终端电阻调整方法调整半导体集成电路内的终端电阻。 该方法包括通过比较经由电流供应电路耦合到第一电压的第一节点的参考电压和电压,第一电压是电源电压和接地电压之一来获得比较结果,控制监视 电阻部分,当进行校准时具有多个第一电阻器,以便基于比较结果选择性地将第一电阻并联在第一节点和第二电压之间,第二电压是电源电压的另一个, 接地电压,并且当控制终端部分的终止电阻时控制具有多个第二电阻器的终端电阻器部分,以便基于比较结果选择性地将第二电阻并联连接在第二节点和第二电压之间 类似于监控电阻器部分的第一个电阻。