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Digital remodulation and digital remodulating method for binary frequency shift keying signal

A frequency shift keying, binary technology, applied in the direction of frequency modulation carrier system, can solve the problems of cumbersome implementation, complex signal processing algorithm, cumbersome coefficient calculation, etc., and achieve the effect of reducing the complexity.

Inactive Publication Date: 2009-08-26
王奎甫 +1
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Problems solved by technology

[0002] (1). The modulation and demodulation of the traditional binary frequency shift keying (2FSK) signal is usually implemented by real signal processing. Since the frequency shift keying signal is a band-pass signal, for binary frequencies with the same transmission bandwidth but different center frequencies Shift keying signal needs to design different band-pass filter (BPF), so it is more cumbersome to implement
[0003] (2). The digital demodulation of the traditional binary frequency shift keying signal generally adopts non-coherent differential demodulation, and there will be a fractional delay in the demodulation process, that is, the delay of the digital signal cannot be exactly the sampling period (sampling The integer multiple of the reciprocal of the rate), the integer multiple delay of the digital signal is very easy to realize, to complete the fractional multiple delay, it must be realized with a single-zero finite impulse response filter (FIR), for different centers The frequency needs to design different single-zero FIR filters. The calculation of the coefficients of this filter is very cumbersome, and the signal processing algorithm is very complicated.

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  • Digital remodulation and digital remodulating method for binary frequency shift keying signal
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  • Digital remodulation and digital remodulating method for binary frequency shift keying signal

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Embodiment Construction

[0020] 1. The principle of binary frequency shift keying (2FSK) signal complex modulation

[0021] 1.1 Frequency shift keying (FSK) signal

[0022] Frequency shift keying (FSK) modulation is to use the amplitude and phase as constants, and the frequency as a variable, and use the change of carrier frequency to realize the transmission of digital information. In the case of binary, there are only two signals transmitted in 2FSK, 0 and 1, so two different carrier frequencies are used to represent the digital signals "1" and "0" respectively. Such as figure 1 It is a binary frequency shift keying (2FSK) signal waveform diagram of continuous phase, and the carrier frequency f in the figure is 1 and f 2 Represent digital signals "1" and "0" respectively. Generally f 1 2 , that is, the frequency of the digital signal "0" is higher than the frequency of the digital signal "1".

[0023] If the transmission rate of the binary frequency shift keying signal is set to r b , the sym...

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Abstract

The invention relates to a digital complex modulation method of a binary frequency shift keying signal. The method adopts the principle of complex signal processing to realize complex modulation and complex demodulation of a binary frequency shift keying (2FSK) signal, and the bandpass filter can be It is not necessary to design a wide variety of band-pass filters for binary frequency shift keying signals with different center frequencies, and only need to design a low-pass filter for binary frequency shift keying signals with the same transmission bandwidth. pass filter, which greatly reduces the complexity of the signal processing algorithm; there will be no fractional delay during demodulation, and there is no need to design a fractional delay filter; the product after complex multiplication does not need a low-pass filter Filtering, only the imaginary part is taken and the data demodulation decision is directly performed.

Description

technical field [0001] The invention relates to a binary frequency shift keying signal complex modulation complex demodulation method. Background technique [0002] (1). The modulation and demodulation of the traditional binary frequency shift keying (2FSK) signal is usually implemented by real signal processing. Since the frequency shift keying signal is a band-pass signal, for binary frequencies with the same transmission bandwidth but different center frequencies Shift keying signals need to design different band-pass filters (BPF), so it is more cumbersome to implement. [0003] (2). The digital demodulation of the traditional binary frequency shift keying signal generally adopts non-coherent differential demodulation, and there will be a fractional delay in the demodulation process, that is, the delay of the digital signal cannot be exactly the sampling period (sampling The integer multiple of the reciprocal of the rate), the integer multiple delay of the digital signa...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L27/10
Inventor 王奎甫张德喜赵秋雨王焕菊
Owner 王奎甫
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