会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • VOLTAGE LEVEL SHIFT WITH INTERIM-VOLTAGE-CONTROLLED CONTENTION INTERRUPT
    • 具有电压控制中断的电压水平移位
    • US20130271199A1
    • 2013-10-17
    • US13997584
    • 2011-11-14
    • Steven K. HsuVinod SannareddyAmit AgarwalFeroze A. MerchantRam K. Krishnamurthy
    • Steven K. HsuVinod SannareddyAmit AgarwalFeroze A. MerchantRam K. Krishnamurthy
    • H03L5/00
    • H03L5/00H03K3/356182H03K19/018507
    • Methods and systems to implement voltage level shifting with interim-voltage-controlled contention-interruption. A voltage level shifter (VLS) may include voltage level shift circuitry to level shift an input logical state from an input voltage swing to an output voltage swing. The VLS may include contention circuitry, a contention interrupter, and an interrupt controller to generate a contention-interrupt control having an interim voltage swing. A lower limit of the interim voltage swing may correspond to a lower limit of the output voltage swing. An upper limit of the interim voltage swing may correspond to an upper limit of the input voltage swing. The VLS may be implemented to level shift true and complimentary logical states, such as with cascode voltage switch logic (CVSL). The interim-voltage-controlled contention interrupter may help to maintain voltages within process-based voltage reliability limits of the contention interrupter, with relatively little delay, and relatively little power and area consumption.
    • 通过中压控制争用中断实现电压电平转换的方法和系统。 电压电平移位器(VLS)可以包括电压电平移位电路,用于将输入逻辑状态从输入电压摆幅电平移位到输出电压摆幅。 VLS可以包括争用电路,争用中断器和中断控制器,以产生具有临时电压摆幅的争用中断控制。 临时电压摆幅的下限可以对应于输出电压摆幅的下限。 临时电压摆幅的上限可以对应于输入电压摆幅的上限。 可以实现VLS以实现水平移位真实和互补的逻辑状态,例如用共源共栅电压开关逻辑(CVSL)。 临时电压控制的争用中断器可能有助于在相对较小的延迟和相对较小的功率和面积消耗的情况下,在竞争中断器的基于过程的电压可靠限度内维持电压。
    • 2. 发明授权
    • Voltage level shift with interim-voltage-controlled contention interrupt
    • 具有临时电压控制争用中断的电压电平偏移
    • US09059715B2
    • 2015-06-16
    • US13997584
    • 2011-11-14
    • Steven K. HsuVinod SannareddyAmit AgarwalFeroze A. MerchantRam K. Krishnamurthy
    • Steven K. HsuVinod SannareddyAmit AgarwalFeroze A. MerchantRam K. Krishnamurthy
    • H03L5/00H03K19/0185H03K3/356
    • H03L5/00H03K3/356182H03K19/018507
    • Methods and systems to implement voltage level shifting with interim-voltage-controlled contention-interruption. A voltage level shifter (VLS) may include voltage level shift circuitry to level shift an input logical state from an input voltage swing to an output voltage swing. The VLS may include contention circuitry, a contention interrupter, and an interrupt controller to generate a contention-interrupt control having an interim voltage swing. A lower limit of the interim voltage swing may correspond to a lower limit of the output voltage swing. An upper limit of the interim voltage swing may correspond to an upper limit of the input voltage swing. The VLS may be implemented to level shift true and complimentary logical states, such as with cascode voltage switch logic (CVSL). The interim-voltage-controlled contention interrupter may help to maintain voltages within process-based voltage reliability limits of the contention interrupter, with relatively little delay, and relatively little power and area consumption.
    • 通过中压控制争用中断实现电压电平转换的方法和系统。 电压电平移位器(VLS)可以包括电压电平移位电路,用于将输入逻辑状态从输入电压摆幅电平移位到输出电压摆幅。 VLS可以包括争用电路,争用中断器和中断控制器,以产生具有临时电压摆幅的争用中断控制。 临时电压摆幅的下限可以对应于输出电压摆幅的下限。 临时电压摆幅的上限可以对应于输入电压摆幅的上限。 可以实现VLS以实现水平移位真实和互补的逻辑状态,例如用共源共栅电压开关逻辑(CVSL)。 临时电压控制的争用中断器可能有助于在相对较小的延迟和相对较小的功率和面积消耗的情况下,在竞争中断器的基于过程的电压可靠限度内维持电压。
    • 9. 发明授权
    • Multiple voltage mode pre-charging and selective level shifting
    • 多电压模式预充电和选择电平转换
    • US07800407B1
    • 2010-09-21
    • US12492938
    • 2009-06-26
    • Amit AgarwalSteven K. HsuRam K. Krishnamurthy
    • Amit AgarwalSteven K. HsuRam K. Krishnamurthy
    • H03K19/0175
    • H03K19/018521
    • To pre-charge a node to one of first and second voltage levels in response to inputs received at the corresponding voltage level, to selectively level shift the node from the first voltage level to the second voltage level when in a first voltage mode, and to maintain the node at the second voltage level when in a second voltage mode. Level shifting from first voltage level may be performed within one gate stage that may be bypassed when in the second voltage mode. The node may be discharged with no delay difference between the first and second voltage modes. Inputs may include a clock signal, which may be received at either of the first and second voltage levels without level shifting the clock signal. A circuit may be implemented with a multi-core processor system to permit selective voltage mode operation of the cores.
    • 为了响应于在相应电压电平处接收到的输入,将节点预充电到第一和第二电压电平之一,以便当在第一电压模式下选择性地将节点从第一电压电平移位到第二电压电平,并且 当处于第二电压模式时,将节点保持在第二电压电平。 可以在一个门级内执行从第一电压电平的电平转换,当处于第二电压模式时,可能被旁路。 可以在第一和第二电压模式之间没有延迟差放电节点。 输入可以包括时钟信号,其可以在第一和第二电压电平中的任何一个处接收,而不会对时钟信号进行电平移位。 电路可以用多核处理器系统来实现,以允许芯的选择性电压模式操作。