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An adaptive audio sampling method with variable sampling rate

A variable sampling rate and self-adaptive technology, applied in the field of signal processing, can solve the problems of large errors and inapplicability, and achieve the effect of increasing the conversion speed of sampling frequency, improving measurement accuracy and reducing the amount of calculation

Active Publication Date: 2016-08-17
CHINA ELECTRONIS TECH INSTR CO LTD
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Problems solved by technology

Time-domain adjustment is to estimate the frequency by measuring the zero-crossing point based on the sampling data, and then adjust the sampling frequency according to the estimated frequency. The zero-crossing detection requires the input signal to be a strict sinusoidal waveform. Due to the influence of noise and detection methods in engineering, the error is large
Secondly, the Fourier transform method estimates the frequency; sufficient sampling data is required, which is not applicable at low frequencies

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  • An adaptive audio sampling method with variable sampling rate
  • An adaptive audio sampling method with variable sampling rate
  • An adaptive audio sampling method with variable sampling rate

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Embodiment Construction

[0023] The basic principle of the invention is to measure the number of zero-crossing points according to the sampling data, and adjust the sampling frequency according to the number of zero-crossing points. Such as figure 1 , in general, the zero-crossing point is not a sampling point. Therefore, the moment of zero crossing can only be estimated indirectly through the voltage value of the sampling point. The determination of the zero-crossing time needs to judge whether the signs of the two sampling values ​​before and after are the same. If the signs before and after are the same, as shown in the figure m-2, m-1 points, it indicates that there is no zero-crossing point between the two sampling points; if the signs before and after are opposite, Points m-1 and m in the figure indicate that during the time period from m-1 to m, the voltage crosses zero once, and the voltage sign of the sampling point changes once.

[0024] Therefore, the number of zero-crossing points can be...

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Abstract

The invention provides a self-adaptive variable-sampling rate audio frequency sampling method. The method measures the zero crossing number according to sampling data and adjusts the sampling frequency based on the zero crossing number. The method concretely comprises the following steps (1) estimating the zero crossing time by the magnitudes of voltage of sampling points, and determining that whether symbols of a former sampling value and a later sampling value are identical or not, wherein if the symbols are the same, no zero crossing occurs between two sampling points of the two sampling values, and if the symbols are different, voltage between the two sampling points of the two sampling values crosses zero once, and voltage symbols of the two sampling points are changed once; (2) counting the number of change in a frame of sampling data to make out the zero crossing number, in particularly, the sign bit of the sampling data is used as a timing clock, the rising edge and a falling edge of the sign bit are used to count during a time period for transmitting a frame of sampling data, and an obtained count value is the zero crossing number of the frame of sampling data; and (3) according to the corresponding relation between the zero crossing number and the frequency, carrying out the sampling frequency selection by means of block sampling.

Description

technical field [0001] The invention belongs to the technical field of signal processing, in particular to an adaptive variable sampling rate audio sampling method. Background technique [0002] When the radio integrated tester tests the audio signal, in order to test the distortion and SNR of the audio signal, the sampling rate is more than 10 times the highest frequency, so as to collect the 5th harmonic of the highest audio. Excessively high sampling rate leads to less than one cycle of collected data when collecting low-frequency audio signals, which affects the accuracy of parameters such as audio frequency, audio level, audio distortion, and signal-to-noise ratio. The traditional solution is to discard the low-frequency audio signal or reduce the frequency of the highest audio signal. Although this method can solve the contradiction between the measurability of the 5th harmonic of the highest frequency audio signal and the full period of sampling data of the lowest fre...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G10L19/022
Inventor 肖唐良刘娜杨青宫夏
Owner CHINA ELECTRONIS TECH INSTR CO LTD
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