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    • 2. 发明申请
    • DATA INPUT ON AUDIO DEVICE ANALOG OUTPUT PORT
    • 数据输入音频设备模拟输出端口
    • WO2016065206A1
    • 2016-04-28
    • PCT/US2015/057013
    • 2015-10-22
    • ESS TECHNOLOGY, INC.
    • MALLINSON, A., MartinFORMAN, Dustin, DaleBLAIR, Robert, LynnFRITH, Peter, John
    • G06F13/28
    • H04R1/1041H04M1/6058H04R5/04H04R2420/09
    • An apparatus is disclosed for inputting digital data on the output channel(s) of an audio subsystem in an audio device, without interfering with normal operation of the audio subsystem. The described circuit includes a resistive element in parallel with the expected load device, such as a headphone or speaker. The resistive element receives a modulated digital signal from a data source or a switch, and the instantaneous current through the resistive element due to the modulated digital signal is reflected in a current feedback mechanism of the audio subsystem. Demodulation logic retrieves the digital signal from the current measured by the current feedback mechanism. A capacitor is provided to prevent the current in the resistive element from the digital signal from impacting the average DC current that the feedback mechanism uses to evaluate the load device.
    • 公开了一种用于在音频设备中的音频子系统的输出通道上输入数字数据而不干扰音频子系统的正常操作的装置。 所描述的电路包括与期望的负载装置(例如耳机或扬声器)并联的电阻元件。 电阻元件从数据源或开关接收调制的数字信号,并且由于调制的数字信号引起的通过电阻元件的瞬时电流被反映在音频子系统的电流反馈机制中。 解调逻辑从当前反馈机制测量的电流中检索数字信号。 提供电容器以防止电阻元件中的电流数字信号影响反馈机构用于评估负载装置的平均DC电流。
    • 4. 发明申请
    • FIR FILTER WITH REDUCED ELEMENT COUNT
    • FIR滤波器与减少元件数
    • WO2012129296A1
    • 2012-09-27
    • PCT/US2012/029928
    • 2012-03-21
    • ESS TECHNOLOGY, INC.
    • MALLINSON, A., Martin
    • G06F7/00
    • H03H17/06H03H15/00
    • A finite impulse response (FIR) filter having a differential output and capable of having negative coefficients, and a method of designing the filter, is disclosed. In contrast to the prior art, in which two output signals requires the use of two identical sets of impedance devices corresponding to the Fourier coefficients that create the desired response of the filter, the described method and system uses only a single set of impedance devices, and thus approximately one-half of the number of impedance devices used in the prior art. This is accomplished by appropriately selecting which resistors contribute to which output, so that a differential output may be obtained that is substantially the same as if impedance devices corresponding to all of the coefficients were used for each signal.
    • 公开了一种具有差分输出且能够具有负系数的有限脉冲响应(FIR)滤波器,以及一种设计滤波器的方法。 与现有技术相比,其中两个输出信号需要使用与产生滤波器的期望响应的傅里叶系数对应的两组相同的阻抗装置,所描述的方法和系统仅使用一组阻抗装置, 因此约为现有技术中使用的阻抗装置数量的一半。 这通过适当地选择哪些电阻有助于哪个输出来实现,使得可以获得基本上相同的差分输出,如同对于每个信号使用对应于所有系数的阻抗器件一样。
    • 6. 发明申请
    • WIDE DYNAMIC RANGE IMAGE SENSOR AND METHOD OF USE
    • 宽动态范围图像传感器及其使用方法
    • WO2007133345A2
    • 2007-11-22
    • PCT/US2007/008062
    • 2007-04-03
    • ESS TECHNOLOGY, INC.MANN, Richard, A.
    • MANN, Richard, A.
    • G06Q30/00
    • H04N5/37457H01L27/14643
    • An exemplary image sensor (100) comprises a photodetector (122,124,126,128) proximate to a pixel site (102), and a light meter (104) proximate to the pixel site configured to approximate an initial charge acquired by the photodetector at the end of a first integration period of a frame exposure period. A reset circuit (106) resets the photodetector if the approximated initial charge acquired by the photodetector exceeds a threshold. A readout circuit (108) detects a final charge acquired by the photodetector at the end of a second integration period of the frame exposure period. If the photodetector was reset, the readout circuit adjusts the final exposure to account for exposure prior to the photodetector having been reset.
    • 示例性图像传感器(100)包括靠近像素位置(102)的光电检测器(122,124,126,128)和靠近像素位置的光计(104),被配置为近似由第一 帧曝光期的积分期。 如果由光电检测器获取的近似初始电荷超过阈值,则复位电路(106)复位光电检测器。 读出电路(108)在帧曝光期间的第二积分期间结束时检测由光检测器获取的最终电荷。 如果光电检测器被复位,则在光电检测器被复位之前,读出电路调节最终曝光以考虑曝光。
    • 10. 发明申请
    • HIGH SPEED HIGH GAIN AMPLIFIER
    • 高速高增益放大器
    • WO2004098044A1
    • 2004-11-11
    • PCT/US2003/009633
    • 2003-03-27
    • ESS TECHNOLOGY, INC.MALLINSON, Andrew, Martin
    • MALLINSON, Andrew, Martin
    • H03F1/00
    • H03F3/343H03F2200/453
    • An electronic device (300) is provided such as an amplifier, for example, having improved gain and transconductance and low output impedance. The device includes a primary amplifier "M1" configured to carry an operating load. The device includes an input "In" for receiving an input signal, and an output "Out" for outputting an output signal, and operates having a variable output, as it carries an operational load. The device (300) further includes a secondary amplifier "M2" configured to operate at a fixed operating condition, not burdened by carrying an operational load, and includes a secondary input "In" configured to receive the input signal, wherein the secondary amplifier is configured to define the input voltage. The device (300) is configured to detect a difference in operating current between the primary and secondary amplifiers, and to compensate for any operational load that may be applied to the primary amplifier during operation.
    • 提供了诸如具有改善的增益和跨导和低输出阻抗的放大器的电子设备(300)。 该装置包括被配置为承载操作负载的初级放大器“M1”。 该装置包括用于接收输入信号的输入“In”和用于输出输出信号的输出“Out”,并且在其承载操作负载时操作具有可变输出。 装置(300)还包括辅助放大器“M2”,其被配置为在固定工作状态下工作,而不承担运行负载,并且包括被配置为接收输入信号的次级输入“In”,其中次级放大器 配置为定义输入电压。 器件(300)被配置为检测初级和次级放大器之间的工作电流的差异,并且补偿在操作期间可能施加到初级放大器的任何操作负载。