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    • 3. 发明申请
    • PWM Feedback/Feed-forward Protection
    • PWM反馈/前馈保护
    • US20070183490A1
    • 2007-08-09
    • US11672191
    • 2007-02-07
    • Jack B. AndersenPeter G. CravenDaniel L. W. ChiengMichael A. Kost
    • Jack B. AndersenPeter G. CravenDaniel L. W. ChiengMichael A. Kost
    • H03K9/08
    • H03F3/2171H03F1/32H03F1/52H03F1/523H03F3/2175H03F2200/03H03F2200/153H03F2200/351
    • Systems and methods for improving the stability of feedback and/or feed-forward subsystems in digital amplifiers. One embodiment comprises a digital pulse width modulation (PWM) controller. The controller includes an input for receiving a digital audio input signal and is configured to generate a PWM output signal based on the input signal at an output. The controller also has control inputs for receiving external audio correction signals such as feedback and power supply feed-forward signals. The controller has correction circuitry for processing the received external control signals and modifying the input signal based on these signals. Fault detectors monitor fault conditions at various locations within the correction circuitry, and a protection control unit receives fault signals from the fault detectors and modifies operation of the controller in response to the fault signals.
    • 用于提高数字放大器中反馈和/或前馈子系统稳定性的系统和方法。 一个实施例包括数字脉宽调制(PWM)控制器。 控制器包括用于接收数字音频输入信号的输入端,并且被配置为基于输出端的输入信号产生PWM输出信号。 控制器还具有用于接收外部音频校正信号(如反馈和电源前馈信号)的控制输入。 该控制器具有校正电路,用于处理所接收的外部控制信号,并根据这些信号修改输入信号。 故障检测器监视校正电路内的各个位置的故障状况,保护控制单元从故障检测器接收故障信号,并根据故障信号修改控制器的操作。
    • 4. 发明授权
    • Compensating filters
    • 补偿过滤器
    • US5511129A
    • 1996-04-23
    • US74837
    • 1993-08-03
    • Peter G. CravenMichael A. Gerzon
    • Peter G. CravenMichael A. Gerzon
    • H03G5/16H03H21/00H04R3/04H04R29/00H04S7/00H03G5/00
    • H04S7/307H03G5/165H03H21/0012H04R3/04H04S7/305H04R29/001H04S7/301H04S7/40
    • A prefilter (5) for an audio system comprising a loudspeaker (1) in a room (2), which corrects both amplitude and phase errors due to the loudspeaker (1) by a linear phase correction filter response and corrects the amplitude response of the room (2) whilst introducing the minimum possible amount of extra phase distortion by employing a minimum phase correction filter stage. A test signal generator (8) generates a signal comprising a periodic frequency sweep with a greater phase repetition period than the frequency repetition period. A microphone (7) positioned at various points in the room (2) measures the audio signal processed by the room (2) and loudspeaker (1), and a coefficient calculator (6) (e.g. a digital signal processor device) derives the signal response of the room and thereby a requisite minimum phase correction to be cascaded with the linear phase correction already calculated for the loudspeaker (1). Filter (5) may comprise the same digital signal processor as the coefficient calculator (6). Applications in high fidelity audio reproduction, and in car stereo reproduction.
    • PCT No.PCT / GB91 / 02200 Sec。 371日期1993年8月3日 102(e)日期1993年8月3日PCT 1991年12月11日PCT PCT。 WO92 / 10876BC出版物 日期:1992年6月25日。一种用于音频系统的预滤波器(5),包括在房间(2)中的扬声器(1),其通过线性相位校正滤波器响应来校正由扬声器(1)引起的幅度和相位误差 并且通过采用最小相位校正滤波器级来引入最小可能的额外相位失真量来校正房间(2)的振幅响应。 测试信号发生器(8)产生包括具有比频率重复周期更大的相位重复周期的周期性频率扫描的信号。 定位在房间(2)中的各个点处的麦克风(7)测量由房间(2)和扬声器(1)处理的音频信号,并且系数计算器(6)(例如数字信号处理器设备)导出信号 响应室,从而与已经为扬声器(1)计算出的线性相位校正级联进行必要的最小相位校正。 滤波器(5)可以包括与系数计算器(6)相同的数字信号处理器。 应用于高保真音频再现和汽车立体声再现。
    • 7. 发明授权
    • Lossless coding method for waveform data
    • 波形数据的无损编码方法
    • US06784812B2
    • 2004-08-31
    • US10694712
    • 2003-10-27
    • Peter G CravenMichael A. Gerzon
    • Peter G CravenMichael A. Gerzon
    • H03M700
    • H03M7/3046
    • In a method of lossless processing of an integer value signal in a prediction filter which includes a quantiser, a numerator of the prediction filter is implemented prior to the quantiser and a denominator of the prediction filter is implemented recursively around the quantiser to reduce the peak data rate of an output signal. In the lossless processor, at each sample instant, an input to the quantiser is jointly responsive to a first sample value of a signal input to the prediction filter, a second sample value of a signal input to the prediction filter at a previous sample instant, and an output value of the quantiser at a previous sample incident. In a preferred embodiment, the prediction filter includes noise shaping for affecting the output of the quantiser.
    • 在包括量化器的预测滤波器中对整数值信号进行无损处理的方法中,在量化器之前实现预测滤波器的分子,并且在量化器周围递归地实现预测滤波器的分母以减少峰值数据 输出信号的速率。 在无损处理器中,在每个采样时刻,对量化器的输入共同响应输入到预测滤波器的信号的第一采样值,在先前采样时刻输入到预测滤波器的信号的第二采样值, 以及在之前的采样事件处的量化器的输出值。 在优选实施例中,预测滤波器包括用于影响量化器的输出的噪声整形。
    • 8. 发明授权
    • Lossless coding method for waveform data
    • 波形数据的无损编码方法
    • US06664913B1
    • 2003-12-16
    • US08952743
    • 1999-05-17
    • Peter G. CravenMichael A. Gerzon
    • Peter G. CravenMichael A. Gerzon
    • H03M100
    • H03M7/3046
    • In a method of lossless processing of an integer value signal in a prediction filter which includes a quantiser, a numerator of the prediction filter is implemented prior to the quantiser and a denominator of the prediction filter is implemented recursively around the quantiser to reduce the peak data rate of an output signal. In the lossless processor, at each sample instant, an input to the quantiser is jointly responsive to a first sample value of a signal input to the prediction filter, a second sample value of a signal input to the prediction filter at a previous sample instant, and an output value of the quantiser at a previous sample incident. In a preferred embodiment, the prediction filter includes noise shaping for affecting the output of the quantiser.
    • 在包括量化器的预测滤波器中对整数值信号进行无损处理的方法中,在量化器之前实现预测滤波器的分子,并且在量化器周围递归地实现预测滤波器的分母以减少峰值数据 输出信号的速率。 在无损处理器中,在每个采样时刻,对量化器的输入共同响应输入到预测滤波器的信号的第一采样值,在先前采样时刻输入到预测滤波器的信号的第二采样值, 以及在之前的采样事件处的量化器的输出值。 在优选实施例中,预测滤波器包括用于影响量化器的输出的噪声整形。
    • 10. 发明授权
    • Systems and methods for improving performance in a digital amplifier by adding an ultrasonic signal to an input audio signal
    • 通过向输入音频信号添加超声波信号来提高数字放大器的性能的系统和方法
    • US07649410B2
    • 2010-01-19
    • US11626569
    • 2007-01-24
    • Jack B. AndersenPeter G. Craven
    • Jack B. AndersenPeter G. Craven
    • H03F3/38
    • H03F3/217H03F1/3264H03F3/2173H03F2200/03H03F2200/114H03F2200/351H03F2201/3236H03K17/162H03K17/6871
    • Systems and methods in which an ultrasonic signal is introduced into an audio signal before the audio signal is amplified by a switching amplifier. The added ultrasonic signal (e.g., a tone at half the amplifier's switching frequency) shifts the signals input to a set of power switches so that they do not switch nearly simultaneously. The ultrasonic signal causes the output current to be well defined to eliminate dead time distortion at low signal levels. Adding the tone ultrasonic signal causes the distortion to shift to an amplitude greater than zero. Signals that exceed this amplitude will experience the distortion, but the distortion will be less noticeable than in lower-amplitude signals. Signals that do not exceed this amplitude will not experience the distortion at all. Adding an ultrasonic signal may also draw energy away from the switch frequency and its harmonics to interference with AM radio reception.
    • 在音频信号被开关放大器放大之前,将超声波信号引入到音频信号中的系统和方法。 增加的超声波信号(例如,放大器开关频率的一半处的音调)将输入的信号移动到一组电源开关,使得它们几乎不同时切换。 超声波信号使得输出电流被良好地定义,以消除低信号电平下的死区失真。 增加音调超声信号会导致失真转移到大于零的幅度。 超过该幅度的信号将经历失真,但是失真比在较低幅度信号中更不明显。 不超过此幅度的信号根本不会出现失真。 添加超声波信号也可能会从开关频率及其谐波中吸收能量,从而干扰AM无线电接收。