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    • 6. 发明申请
    • APPARATUS AND METHOD FOR CROSS-CORRELATION SPUR MITIGATION
    • 用于交叉相关性减速的装置和方法
    • WO2010019302A2
    • 2010-02-18
    • PCT/US2009/045020
    • 2009-05-22
    • QUALCOMM IncorporatedAHMED, RizwanWU, JieSIMIC, Emilija M.FARMER, Dominic G.
    • AHMED, RizwanWU, JieSIMIC, Emilija M.FARMER, Dominic G.
    • G01S1/00
    • G01S19/21
    • An apparatus and method for cross-correlation spur mitigation comprising choosing from a plurality of peak measurements, a first peak measurement with a first carrier-to-noise density estimate and a first Doppler offset measurement, and a second peak measurement with a second carrier-to-noise density estimate and a second Doppler offset measurement to form a pair; calculating a carrier-to-noise density difference based on the first carrier-to-noise density estimate and the second carrier-to-noise density estimate; calculating a Doppler difference based on the first Doppler offset measurement and the second Doppler offset measurement; comparing the carrier-to-noise density difference to a carrier-to-noise density threshold; and comparing the Doppler difference to at least one Doppler threshold.
    • 一种用于互相关杂散抑制的装置和方法,包括:从多个峰值测量中选择具有第一载波噪声密度估计和第一多普勒偏移测量的第一峰值测量;以及 具有第二载波噪声密度估计和第二多普勒偏移测量以形成一对的第二峰值测量; 基于所述第一载波噪声密度估计值和所述第二载波噪声密度估计值来计算载波噪声密度差; 基于所述第一多普勒偏移测量值和所述第二多普勒偏移测量值计算多普勒差值; 将载波与噪声密度差异与载波与噪声密度阈值进行比较; 并将多普勒差异与至少一个多普勒阈值进行比较。
    • 7. 发明申请
    • HIGH-PERFORMANCE FLASH MEMORY DATA TRANSFER
    • 高性能闪存存储器数据传输
    • WO2007127678A2
    • 2007-11-08
    • PCT/US2007/067090
    • 2007-04-20
    • SANDISK CORPORATIONKAGAN, YishaiAHMED, RizwanMOOGAT, FarookhLIN, Jason
    • KAGAN, YishaiAHMED, RizwanMOOGAT, FarookhLIN, Jason
    • G11C7/1045G11C7/1066G11C7/1093G11C7/20G11C7/22G11C16/26
    • A flash memory system including a flash memory device and a controller, operable according to an advanced data transfer mode is disclosed. The flash memory device is operable both in a "legacy" mode, in which read data is presented by the memory synchronously with each cycle of a read data strobe from the controller, and in which input data is latched by the memory synchronously with each cycle of a write data strobe from the controller. In the advanced mode, which can be initiated by the controller forwarding an initiation command to the memory, data is read at a higher frequency, for example at twice the frequency, of that available in the normal mode. In the advanced mode, the input data is presented by the controller at a higher frequency than is available in the normal mode. The voltage swing of the data and control signals is reduced from conventional standards, to reduce power consumption.
    • 公开了一种包括闪速存储装置和控制器的闪存系统,其可根据高级数据传输模式操作。 闪存设备可以以“传统”模式操作,其中读取数据由存储器与来自控制器的读取数据选通的每个周期同步地呈现,并且其中输入数据被存储器与每个周期同步地锁存 从控制器写入数据选通脉冲。 在控制器将启动命令转发到存储器的高级模式中,以正常模式可用的频率的更高频率(例如频率的两倍)来读取数据。 在高级模式下,输入数据由控制器以比正常模式下更高的频率呈现。 数据和控制信号的电压摆幅从常规标准中减少,以降低功耗。
    • 9. 发明申请
    • UTILIZING PROCESSING UNITS TO CONTROL TEMPERATURE
    • 利用加工单元来控制温度
    • WO2018067225A1
    • 2018-04-12
    • PCT/US2017/045318
    • 2017-08-03
    • QUALCOMM INCORPORATED
    • KUSHLEYEV, AleksandrAHMED, RizwanMELLINGER III, Daniel WarrenTURPIN, Matthew Hyatt
    • G01D3/036G06F11/30
    • Various embodiments include methods for performing temperature calibration of a first temperature sensitive unit with an electronic device having a first processing unit that is thermally coupled to the first temperature sensitive unit. Various embodiments may include determining a current temperature of the first temperature sensitive unit, determining a processing load for the first processing unit based on the current temperature and a target temperature, applying the determined processing load to the first processing unit to vary a temperature of the first temperature sensitive unit, and determining a temperature bias for the first temperature sensitive unit at the temperature of the first temperature sensitive unit based on an output of the first temperature sensitive unit.
    • 各种实施例包括用于利用具有热耦合到第一温度敏感单元的第一处理单元的电子设备来执行第一温度敏感单元的温度校准的方法。 各种实施例可以包括确定第一温度敏感单元的当前温度,基于当前温度和目标温度确定第一处理单元的处理负载,将确定的处理负载应用于第一处理单元以改变第一处理单元的温度 第一温度敏感单元,并且基于第一温度敏感单元的输出来确定第一温度敏感单元在第一温度敏感单元的温度下的温度偏置。