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    • 1. 发明授权
    • System and method for digital control of amplifier gain with reduced zipper noise
    • 放大器增益数字控制的系统和方法,减少拉链噪音
    • US08258870B2
    • 2012-09-04
    • US12857246
    • 2010-08-16
    • Robert W. MosesChristopher M. Hanna
    • Robert W. MosesChristopher M. Hanna
    • H03G3/20
    • H03G3/001
    • A digitally-controlled analog gain circuit supports at plurality of gain settings in which gain changes are made from a first setting to a new setting in response to a clocking signal of a non-uniform rate. The non-uniform rate clocking signal can be created pseudo randomly by applying a periodic sequence of clock pulses to a linear feedback shift register. Alternatively, the non-uniform rate clock signal can be created by applying a noise source to a phase detector input of a phase locked loop. The clocking signal can be generated by an oscillator, or as a sequence of pulses output by a zero crossing detector. Finally, the gain circuit can apply positive gain to the signal. Alternatively, the gain circuit can apply a negative gain (attenuation) to the signal.
    • 数字控制模拟增益电路支持多个增益设置,其中响应于不均匀速率的时钟信号,从第一设置向新设置进行增益改变。 可以通过将时钟脉冲的周期性序列施加到线性反馈移位寄存器来伪随机地产生非均匀速率时钟信号。 或者,可以通过将噪声源施加到锁相环的相位检测器输入来产生非均匀速率时钟信号。 时钟信号可以由振荡器产生,或者作为由过零检测器输出的脉冲序列。 最后,增益电路可以对信号应用正增益。 或者,增益电路可以对信号施加负增益(衰减)。
    • 5. 发明授权
    • Method and apparatus for time domain interpolation of digital audio
signals
    • 数字音频信号时域插值的方法和装置
    • US5075880A
    • 1991-12-24
    • US597512
    • 1990-10-12
    • Robert W. MosesDonald W. MosesJames M. Kresse
    • Robert W. MosesDonald W. MosesJames M. Kresse
    • G06F17/17
    • G06F17/17
    • An apparatus for the domain interpolation of digital audio signals includes a signal processor apparatus to reconstruct the digital audio signal. The signal processor apparatus includes a receiver for receiving a digital audio signal, a decoder for demodulating the signal, a central processing unit for performing a time domain interpolation on the decoded signal to produce an interpolated data signal having an increased sampling rate over the digital audio signal, and a digital-to-analog converter for converting the interpolated data signal into an analog output signal that may be transmitted to an amplifier for output through a speaker. The signal processor apparatus achieves an oversampling rate and digital to analog conversion that will allow a digital audio system to more precisely reconstruct an analog audio signal from a digital audio signal such that there will be no perceptible difference between the reconstructed digital signal and the original analog signal.
    • 用于数字音频信号的域内插的装置包括用于重建数字音频信号的信号处理器装置。 信号处理装置包括接收数字音频信号的接收机,用于解调信号的解码器,用于对解码信号执行时域插值的中央处理单元,以产生数字音频增加的采样率的内插数据信号 信号和数模转换器,用于将内插的数据信号转换成模拟输出信号,该模拟输出信号可被发送到放大器以通过扬声器输出。 信号处理器装置实现了过采样速率和数模转换,这将允许数字音频系统从数字音频信号更精确地重建模拟音频信号,使得在重建的数字信号和原始模拟信号之间将不会有可察觉的差异 信号。
    • 6. 发明申请
    • Cooling Systems and Methods for Nuclear Thermionic Avalanche Cells
    • US20220328209A1
    • 2022-10-13
    • US17227122
    • 2021-04-09
    • Robert W. Moses
    • Robert W. Moses
    • G21H1/10G21H1/04
    • A cooling system and method for Nuclear Thermionic Avalanche Cells (NT A Cs) Through cooling channels disposed within layers of the NTAC. The NTAC uses gamma ray radiations and/or energetic electrons which are emanated from the decay processes of radioactive materials 5 and operates continuously. The cooling system and method maximizes energy output of current NTAC devices, alleviates thermal loading issues inside a NTAC. The cooling system and method may also include radiative means for dissipating thermal energy, or in other embodiments capture thermal energy from a NTAC in addition to electrical energy generated by NTACs. Cooling channels are disposed within the layers of a NTAC and joined to a fluid and/or gas flow control system through top and bottom structures which incorporate cooling channels and allow fluid and/or gas to flow through the layers of a NT AC. Flow control systems may operate the cooling system and method through one or more isolated cooling system loops, and may include sensors, valves, and other flow control means to optimize operation and utilization of the cooling system and method, as well as capture of thermal energy from a NTAC.
    • 7. 发明申请
    • SYSTEM AND METHOD FOR DIGITAL CONTROL OF AMPLIFIER GAIN WITH REDUCED ZIPPER NOISE
    • 用减速拉链噪声对放大器增益进行数字控制的系统和方法
    • US20110063034A1
    • 2011-03-17
    • US12857246
    • 2010-08-16
    • Robert W. MosesChristopher M. Hanna
    • Robert W. MosesChristopher M. Hanna
    • H03G3/20
    • H03G3/001
    • A digitally-controlled analog gain circuit supports at plurality of gain settings in which gain changes are made from a first setting to a new setting in response to a clocking signal of a non-uniform rate. The non-uniform rate clocking signal can be created pseudo randomly by applying a periodic sequence of clock pulses to a linear feedback shift register. Alternatively, the non-uniform rate clock signal can be created by applying a noise source to a phase detector input of a phase locked loop. The clocking signal can be generated by an oscillator, or as a sequence of pulses output by a zero crossing detector. Finally, the gain circuit can apply positive gain to the signal. Alternatively, the gain circuit can apply a negative gain (attenuation) to the signal.
    • 数字控制的模拟增益电路支持多个增益设置,其中响应于不均匀速率的时钟信号,从第一设置向新设置进行增益改变。 可以通过将时钟脉冲的周期性序列施加到线性反馈移位寄存器来伪随机地产生非均匀速率时钟信号。 或者,可以通过将噪声源施加到锁相环的相位检测器输入来产生非均匀速率时钟信号。 时钟信号可以由振荡器产生,或者作为由过零检测器输出的脉冲序列。 最后,增益电路可以对信号应用正增益。 或者,增益电路可以对信号施加负增益(衰减)。
    • 8. 发明授权
    • System for providing a digital watermark in an audio signal
    • 用于在音频信号中提供数字水印的系统
    • US06571144B1
    • 2003-05-27
    • US09421574
    • 1999-10-20
    • Donald W. MosesRobert W. Moses
    • Donald W. MosesRobert W. Moses
    • G06F1700
    • G11B20/00891G10L19/018G11B20/00086
    • The foregoing problems are solved and a technical advance is achieved by a computer-implemented system for providing a digital watermark in an audio signal. In a preferred embodiment, a audio file, such as a .WAV file, representing an audio signal to be watermarked is preprocessed using an algorithm of the present invention herein referred to as the “PAWS algorithm” to determine and log the location and number of opportunities that exist for inserting a watermark into the audio signal such that it will be masked by the audio signal. The user can adjust certain parameters of the PAWS algorithm before the audio file is processed. A/B/X testing between the original and watermarked files is also supported to allow the user to undo or re-encode the watermark, if desired.
    • 解决上述问题,并且通过用于在音频信号中提供数字水印的计算机实现的系统来实现技术进步。 在优选实施例中,使用本文中称为“PAWS算法”的本发明的算法来预处理表示要加水印的音频信号的诸如.WAV文件的音频文件,例如.WAV文件,以确定和记录 存在用于将水印插入音频信号以使其将被音频信号屏蔽的机会。 在处理音频文件之前,用户可以调整PAWS算法的某些参数。 如果需要,还支持原始和水印文件之间的A / B / X测试,以允许用户撤消或重新编码水印。