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    • 2. 发明授权
    • Double difference phase detection
    • 双差相位检测
    • US07352691B2
    • 2008-04-01
    • US11010087
    • 2004-12-10
    • Mark D. HagenMark D. Heminger
    • Mark D. HagenMark D. Heminger
    • H04J11/00H04J3/24H04L27/28H04B1/04
    • H04L27/261
    • A method that allows a digital communications system to detect the presence of transmitted messages in noisy environments. The system includes an OFDM transmitter and an OFDM receiver. The OFDM transmitter converts a digital signal to be transmitted to a plurality of sub-signals, each corresponding to a respective sub-carrier frequency. The signal is a packet including a preamble field having a known data pattern. The transmitter pre-codes the preamble data pattern, maps the data to corresponding phase information, converts the sub-signals to the time domain, and converts the sub-signals to analog form for subsequent transmission. The OFDM receiver receives the transmitted sub-signals, converts the sub-signals to digital form, converts the sub-signals to the frequency domain, and subjects the sub-signals to preamble detection processing to detect the signals' presence. By pre-coding the preamble data pattern and defining the received sub-signals in terms of the phase difference between adjacent sub-carriers, the detection of the transmitted messages can be performed in a manner that is insensitive to phase offset.
    • 一种允许数字通信系统在嘈杂环境中检测发送的消息的存在的方法。 该系统包括OFDM发射机和OFDM接收机。 OFDM发送器将要发送的数字信号转换成多个子信号,每个子信号对应于相应的子载波频率。 信号是包括具有已知数据模式的前同步码字段的分组。 发射机预编码前导码数据模式,将数据映射到对应的相位信息,将子信号转换为时域,并将子信号转换为模拟形式用于随后的传输。 OFDM接收机接收发送的子信号,将子信号转换为数字形式,将子信号转换为频域,并对子信号进行前导码检测处理,以检测信号的存在。 通过对前导码数据模式进行预编码并根据相邻子载波之间的相位差定义接收的子信号,可以以对相位偏移不敏感的方式来执行所发送的消息的检测。
    • 3. 发明授权
    • Systems and methods for backlight driving
    • 背光驱动的系统和方法
    • US08760081B2
    • 2014-06-24
    • US11552697
    • 2006-10-25
    • Mark D. HagenEric G. Oettinger
    • Mark D. HagenEric G. Oettinger
    • H05B37/02
    • H05B41/2828H05B41/2824H05B41/382
    • Various systems and methods for LCD backlight control are disclosed herein. For example, some embodiments of the present invention provide an LCD backlight circuit with an analog inverter circuit that provides a drive voltage to a lamp. A current traversing the lamp is sensed and provided to a digital control circuit. Based on the sensed current, the digital control circuit generates a control signal that is fed back to the analog inverter circuit. In some cases, the digital control circuit is used to cause a gradual increase in voltage applied to the lamp to achieve ignition of the lamp. In other cases, the digital control is used to provide a pre-distorted sine wave that attenuates one or more harmonics introduced into the system by the non-linearities of the lamp.
    • 本文公开了用于LCD背光控制的各种系统和方法。 例如,本发明的一些实施例提供了具有向灯提供驱动电压的模拟反相器电路的LCD背光电路。 检测到穿过灯的电流并将其提供给数字控制电路。 基于感测电流,数字控制电路产生反馈到模拟反相器电路的控制信号。 在一些情况下,数字控制电路用于使灯施加的电压逐渐增加以实现灯的点燃。 在其他情况下,数字控制用于提供预失真的正弦波,其通过灯的非线性衰减引入到系统中的一个或多个谐波。
    • 4. 发明授权
    • Disk drive servo control
    • 磁盘驱动伺服控制
    • US5241433A
    • 1993-08-31
    • US965038
    • 1992-10-22
    • Todd B. AndersonMark E. BofferdingMartin R. GreenMark D. HagenJoseph M. HumelWilliam J. HuntLawrence P. SegarJohn J. StephensonMichael C. Stich
    • Todd B. AndersonMark E. BofferdingMartin R. GreenMark D. HagenJoseph M. HumelWilliam J. HuntLawrence P. SegarJohn J. StephensonMichael C. Stich
    • G11B5/596
    • G11B5/59655
    • In a disk storage device dedicated servo system, a reference track is written in the outer guardband of the servo surface and each of the data surfaces. Supplemental position error signal (PES) values are obtained from the difference of servo and data surface samples at a plurality of locations around the disk and stored for access during read/write operations. The supplemental PES values are combined with the dedicated surface PES values to yield a composite PES that more accurately follows the data track centerline of the disk surface being addressed. The supplemental PES values are also periodically updated. To provide a more accurate correction of the composite PES, two consecutive supplemental values are used and an interpolation is calculated to provide a continuously changing supplemental PES value for modification of each sector actuator drive pulse between the two current supplemental PES values. Provision is also made in the apparatus to make the correction technique tolerant of tangential skew that may make tracks unreadable because of early or late timing through the provision of sequences of alternative early and later sample sector sequences.
    • 在盘存储装置专用伺服系统中,将参考轨迹写入伺服表面的外保护带和每个数据表面。 补充位置误差信号(PES)值是从磁盘周围的多个位置处的伺服和数据表面采样的差异获得的,并且在读/写操作期间被存储用于存取。 补充的PES值与专用表面PES值组合以产生更精确地跟随被寻址的盘表面的数据轨道中心线的复合PES。 补充的PES值也被定期更新。 为了提供复合PES的更准确的校正,使用两个连续的补充值,并且计算插值以提供连续改变的补充PES值,以修改两个当前补充PES值之间的每个扇区致动器驱动脉冲。 在装置中也作出规定,以使得校正技术能够容忍切向偏斜,由于提供替代的早期和后期采样扇区序列的序列,可能导致轨迹不可读,因为它们的早期或晚期定时。
    • 7. 发明授权
    • MEM's mirror internal sensor linearization based on driver linearity
    • 基于驱动器线性度的MEM镜像内部传感器线性化
    • US06714338B2
    • 2004-03-30
    • US10146758
    • 2002-05-16
    • Eric G. OettingerMark D. HemingerMark D. Hagen
    • Eric G. OettingerMark D. HemingerMark D. Hagen
    • G02B2600
    • G02B26/0833
    • A technique that reduces or eliminates the non-linearities associated with the internal feedback sensor used in a micro-electro-mechanical mirror assembly. Using the relatively linear response of the mirror positioning motor, associated driver electronics, and the mirror itself, a calibration is performed that compensates for the internal feedback sensor non-linearity. An expected position can then be calculated simply by multiplying the gain of the system by the output, due to the good inherent linearity in the system. The calibration will compare measured versus expected position criteria for a predefined set of constant outputs. The data will form a look-up table that will be used to correct for the sensor non-linearities.
    • 减少或消除与微机电反射镜组件中使用的内部反馈传感器相关联的非线性的技术。 使用反射镜定位电动机,相关联的驱动器电子装置和镜子本身的相对线性的响应,执行补偿内部反馈传感器非线性的校准。 由于系统内部线性良好,所以可以简单地通过将系统的增益乘以输出来计算预期位置。 校准将比较预定义的一组常数输出的测量与预期位置标准。 数据将形成一个查找表,用于校正传感器的非线性。