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    • 7. 发明授权
    • Cached synchronous DRAM architecture having a mode register programmable cache policy
    • 具有模式寄存器可编程高速缓存策略的缓存同步DRAM架构
    • US06289413B1
    • 2001-09-11
    • US09360373
    • 1999-10-15
    • Jim L. RogersSteven W. TomashotDavid W. BondurantOscar Frederick Jones, Jr.Kenneth J. Mobley
    • Jim L. RogersSteven W. TomashotDavid W. BondurantOscar Frederick Jones, Jr.Kenneth J. Mobley
    • G06F1206
    • G06F12/0893G06F12/0804
    • A cached synchronous dynamic random access memory (cached SDRAM) device having a multi-bank architecture and a programmable caching policy includes a synchronous dynamic random access memory (SDRAM) bank, a synchronous static randomly addressable row register, a select logic gating circuit, and mode register for programming of the cached SDRAM to operate in a Write Transfer mode corresponding to a Normal Operation mode of a standard SDRAM during a Write cycle, and to operate in a No Write Transfer mode according to an alternate operation mode during a Write cycle, thereby operating under a first and a second caching policy, respectively. The SDRAM includes a row decoder for selecting a row of data in a memory bank array, sense amplifiers for latching the row of data selected by the row decoder, and a synchronous column selector for selecting a desired column of the row of data. The row register stores a row of data latched by the sense amplifiers and the select logic gating circuit, disposed between the sense amplifiers and the row register, selectively gates the row of data present on the bit lines to the row register in accordance to particular synchronous memory operations being performed.
    • 具有多存储体架构和可编程高速缓存策略的高速缓存的同步动态随机存取存储器(高速缓存的SDRAM)装置包括同步动态随机存取存储器(SDRAM)存储体,同步静态可随机寻址行寄存器,选择逻辑选通电路和 模式寄存器,用于在写周期期间以与标准SDRAM的正常操作模式相对应的写传输模式来操作缓存的SDRAM,并且在写周期期间根据备用操作模式在无写传输模式下操作, 从而分别在第一和第二缓存策略下运行。 SDRAM包括用于选择存储体阵列中的一行数据的行解码器,用于锁存由行解码器选择的数据行的读出放大器,以及用于选择该行数据的期望列的同步列选择器。 行寄存器存储由读出放大器锁存的一行数据,并且设置在读出放大器和行寄存器之间的选择逻辑选通电路根据特定的同步,有选择地将存在于位线上的数据行写入行寄存器 执行内存操作。
    • 9. 发明申请
    • LOW SKEW DIFFERENTIAL AMPLIFIER USING TAIL VOLTAGE REFERENCE AND TAIL FEEDBACK
    • 低电压差分放大器,采用尾电压参考和尾波反馈
    • US20090237162A1
    • 2009-09-24
    • US12053401
    • 2008-03-21
    • Oscar Frederick Jones, JR.
    • Oscar Frederick Jones, JR.
    • H03F3/45
    • H03F3/45183H03F3/3022H03F2203/30099H03F2203/30132H03F2203/45506H03F2203/45726
    • Using the tail level referencing for an inverter stage immediately following a differential amplifier provides trip point tracking with the variations in magnitude of the output level swings on the differential amplifier stage output over the operating range of the circuit. When the tail voltage increases and the VOL of the differential stage increases, the trip point of the receiving inverter also increases. When the tail voltage decreases and the VOL of the differential amplifier goes lower, the trip point of the inverter decreases. An additional benefit is provided by the tail connection to the inverter. Faster switching of current from the right side to the left side of the differential amplifier occurs due to the tail node voltage being raised momentarily by a transistor in the inverter stage when the input of the inverter stage transitions high.
    • 使用紧跟在差分放大器之后的逆变器级的尾部电平参考,提供了跳变点跟踪,并且在电路的工作范围内差分放大器级输出上的输出电平摆幅幅度的变化。 当尾电压增加且差动级的VOL增加时,接收逆变器的跳变点也增加。 当尾电压降低,差分放大器的VOL变低时,变频器的跳变点减小。 通过与逆变器的尾部连接提供额外的好处。 当逆变器级的输入转变为高电平时,由于在逆变器级中的晶体管的瞬态地引起尾部节点电压,所以发生从差动放大器的右侧到左侧的电流的更快的切换。
    • 10. 发明授权
    • Low skew differential amplifier using tail voltage reference and tail feedback
    • 低偏差差分放大器采用尾电压参考和尾部反馈
    • US07583142B1
    • 2009-09-01
    • US12053401
    • 2008-03-21
    • Oscar Frederick Jones, Jr.
    • Oscar Frederick Jones, Jr.
    • H03F3/45
    • H03F3/45183H03F3/3022H03F2203/30099H03F2203/30132H03F2203/45506H03F2203/45726
    • Using the tail level referencing for an inverter stage immediately following a differential amplifier provides trip point tracking with the variations in magnitude of the output level swings on the differential amplifier stage output over the operating range of the circuit. When the tail voltage increases and the VOL of the differential stage increases, the trip point of the receiving inverter also increases. When the tail voltage decreases and the VOL of the differential amplifier goes lower, the trip point of the inverter decreases. An additional benefit is provided by the tail connection to the inverter. Faster switching of current from the right side to the left side of the differential amplifier occurs due to the tail node voltage being raised momentarily by a transistor in the inverter stage when the input of the inverter stage transitions high.
    • 使用紧跟在差分放大器之后的逆变器级的尾部电平参考,提供了跳变点跟踪,并且在电路的工作范围内差分放大器级输出上的输出电平摆幅幅度的变化。 当尾电压增加且差动级的VOL增加时,接收逆变器的跳变点也增加。 当尾电压降低,差分放大器的VOL变低时,变频器的跳变点减小。 通过与逆变器的尾部连接提供额外的好处。 当逆变器级的输入转变为高电平时,由于在逆变器级中的晶体管的瞬态地引起尾部节点电压,所以发生从差动放大器的右侧到左侧的电流的更快的切换。