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    • 1. 发明授权
    • Adaptive dual port loudspeaker implementation for reducing lateral transmission
    • 自适应双端口扬声器实现减少横向传输
    • US06650758B1
    • 2003-11-18
    • US09471092
    • 1999-12-23
    • Andre J. Van Schyndel
    • Andre J. Van Schyndel
    • H03G500
    • H04R1/02
    • This invention describes a loudspeaker implementation which can adaptively reduce the transmission of an acoustic signal to listeners other than the intended listener. The invention uses a dipole loudspeaker implementation with two acoustic sources, each of which is driven by a separate signal. By introducing a predetermined phase difference between the signals produced by the two acoustic sources, the null in the standard dipole spatial directivity pattern may be moved to any desired direction. Alternatively, using a microphone close to the unintended listener's ears and a suitable feedback arrangement, the null can adaptively be aligned with the direction of minimum desired sound transmission. This invention, therefore, provides a solution for applications where it is preferable to reduce the transmission of sound in particular directions while providing the listener with headphoneless audio. In particular, the invention would be effective in applications which involve embedding the implementation into a headrest, seat or other object where the direction of minimum desired transmission is known. Since the invention only involves the use of presently available components, its implementation will not add much cost to an overall system.
    • 本发明描述了一种扬声器实现方式,该扬声器实现方式可以自适应地减小声信号向除了预期听众之外的听众的传输。 本发明使用具有两个声源的偶极扬声器实现,每个声源由单独的信号驱动。 通过引入由两个声源产生的信号之间的预定相位差,标准偶极子空间方向性图案中的零点可以移动到任何期望的方向。 或者,使用靠近无意的收听者的耳朵的麦克风和适当的反馈布置,空值可以自适应地与最小期望声音传播的方向对准。因此,本发明为其中优选地减少传输的应用提供了解决方案 的声音在特定方向,同时向收听者提供无耳声音频。 特别地,本发明在涉及将实施方案嵌入到其中已知最小期望传输方向的头枕,座椅或其他物体中的应用中将是有效的。 由于本发明仅涉及使用目前可用的组件,所以其实施不会给整个系统增加很多成本。
    • 4. 发明授权
    • Low noise battery with a magnetic compensation structure for wireless mobile communication device
    • 具有无线移动通信设备的磁补偿结构的低噪声电池
    • US08541117B2
    • 2013-09-24
    • US12616641
    • 2009-11-11
    • Andre J. Van Schyndel
    • Andre J. Van Schyndel
    • H01M2/00
    • H01M2/26H01M2/263H01M2/266H01M10/0525
    • A battery has an electrode assembly that includes a positive electrode, a negative electrode, and a layer of electrolyte between the positive electrode and the negative electrode. An electric current flow in the positive electrode is unmatched to an electric current flow in the negative electrode, thereby producing a first magnetic field. A magnetic compensation structure is adjacent to the electrode assembly and has body of electrically conductive material connected to one of the positive electrode and the negative electrode. The electric current flowing through the electrode assembly also flows through the body in a pattern that matches the pattern of unmatched electric current in the electrode assembly. As a result a second magnetic field is produced by the magnetic compensation structure that opposes the first magnetic field thereby mitigating magnetic noise from the battery.
    • 电池具有在正极和负极之间包括正极,负极和电解质层的电极组件。 正极中的电流与负极中的电流不匹配,从而产生第一磁场。 磁补偿结构与电极组件相邻,并且具有与正电极和负电极中的一个连接的导电材料体。 流过电极组件的电流也以与电极组件中不匹配电流的图案相匹配的图案流过本体。 因此,通过与第一磁场相对的磁补偿结构产生第二磁场,从而减轻来自电池的磁噪声。
    • 6. 发明授权
    • Gain determination for correlation processes
    • 获得相关过程的决定
    • US06621338B1
    • 2003-09-16
    • US09742232
    • 2000-12-22
    • Andre J. Van Schyndel
    • Andre J. Van Schyndel
    • H03G320
    • H03K5/082
    • A method and apparatus for setting the level of an analog signal supplied to an electronic device having a maximum input level. The method includes computing a gain which, when applied to the analog signal, causes the amplified signal to exceed the maximum input level for a percentage of time which is greater than zero, and applying the gain to the analog signal. When clipping occurs at least part of the time, the correlation result obtained for a pair of truly correlated signals remains virtually unaffected, while there is actually a beneficial effect on the correlation result obtained for a pair of truly uncorrelated signals. To determine the amplifier gain needed to attain the desired amount of clipping, the present invention capitalizes on the availability of power measurements taken from the signal before it was amplified. Reliance on feedback from the amplifier output is not required, resulting in a simplified gain computation process.
    • 一种用于设置提供给具有最大输入电平的电子设备的模拟信号的电平的方法和装置。 该方法包括计算一个增益,该增益在应用于模拟信号时,使放大的信号超过大于零的时间百分比的最大输入电平,并将增益应用于模拟信号。 当至少部分时间发生削波时,对于一对真正相关信号获得的相关结果实际上不受影响,而对于一对真实不相关信号获得的相关结果实际上是有益的。 为了确定达到所需量的限幅所需的放大器增益,本发明利用了从信号放大之前获取的功率测量的可用性。 不需要依赖于放大器输出的反馈,从而实现简化的增益计算过程。
    • 8. 发明申请
    • LOW NOISE BATTERY WITH A MAGNETIC COMPENSATION STRUCTURE FOR WIRELESS MOBILE COMMUNICATION DEVICE
    • 具有无线移动通信设备的磁性补偿结构的低噪声电池
    • US20110111267A1
    • 2011-05-12
    • US12616641
    • 2009-11-11
    • Andre J. Van Schyndel
    • Andre J. Van Schyndel
    • H01M2/00H01M2/26
    • H01M2/26H01M2/263H01M2/266H01M10/0525
    • A battery has an electrode assembly that includes a positive electrode, a negative electrode, and a layer of electrolyte between the positive electrode and the negative electrode. An electric current flow in the positive electrode is unmatched to an electric current flow in the negative electrode, thereby producing a first magnetic field. A magnetic compensation structure is adjacent to the electrode assembly and has body of electrically conductive material connected to one of the positive electrode and the negative electrode. The electric current flowing through the electrode assembly also flows through the body in a pattern that matches the pattern of unmatched electric current in the electrode assembly. As a result a second magnetic field is produced by the magnetic compensation structure that opposes the first magnetic field thereby mitigating magnetic noise from the battery.
    • 电池具有在正极和负极之间包括正极,负极和电解质层的电极组件。 正极中的电流与负极中的电流不匹配,从而产生第一磁场。 磁补偿结构与电极组件相邻,并且具有与正电极和负电极中的一个连接的导电材料体。 流过电极组件的电流也以与电极组件中不匹配电流的图案相匹配的图案流过本体。 因此,通过与第一磁场相对的磁补偿结构产生第二磁场,从而减轻来自电池的磁噪声。