CN101577560A - Receiver and method for receiving frequency modulating signal - Google Patents

Abstract

The invention relates to a receiver for receiving a frequency modulating signal, which comprises an antenna, a modulator, an analog-to-digital converter, a demodulating module and a frequency shift estimating module. The antenna is used for receiving a frequency modulating signal; the modulator is coupled to the antenna and is used for converting the frequency modulating signal into an intermediate frequency signal; the analog-to-digital converter is coupled to the modulator and is used for converting the intermediate frequency signal into a digital intermediate frequency signal; the demodulating module is coupled to the analog-to-digital converter and is used for demodulating the digital intermediate frequency signal into an audio signal on the basis of a frequency shift compensating signal; and the frequency shift estimating module is coupled to the demodulating module and is used for generating the frequency shift compensating signal according to the audio signal.

Description

Frequency modulating signal receiver and method of reseptance

Technical field

Relevant a kind of frequency modulating signal receiver of the present invention and method of reseptance, and particularly relevant a kind of frequency modulating signal receiver and method of reseptance that can the compensating frequency skew.

Background technology

Frequency modulating (frequency modulation) technology is in the communication system that widely is applied to now.Conveyer carries out frequency modulating and obtains a frequency modulating signal according to the data that a specific wireless communication standard send institute's tendency to develop, and this frequency modulating signal is a radiofrequency signal.Receiver receive frequency modulating signal, and the frequency modulating signal is carried out demodulation obtain the data that institute's tendency to develop is given with reduction.

Please refer to Fig. 1, it is the calcspar of legacy frequencies modulating signal receiver.Frequency modulating signal receiver 100 comprises an antenna 110, a tuner 120, an analog-digital converter 130, a demodulating unit 140 and a compensating unit 150.Antenna 110 receive frequency modulating signal FM.Tuner 120 comprises a low noise amplifier 122, a local oscillator 124, a mixer 126 and an intermediate frequency amplifier 128.Low noise amplifier 122 is in order to amplification frequency modulating signal FM.Local oscillator 124 is in order to provide a local oscillating frequency LO.Frequency modulating signal FM frequency reducing after mixer 126 will amplify according to local oscillating frequency LO is one first intermediate-freuqncy signal IF1.Intermediate frequency amplifier is enlarged into one second intermediate-freuqncy signal IF2 with the first intermediate-freuqncy signal IF1.

Analog-digital converter 130 is converted to a digital medium-frequency signal DIF with the second intermediate-freuqncy signal IF2.140 couples of digital medium-frequency signal DIF of demodulating unit carry out demodulation to obtain audio signal AS.Yet, when the local oscillating frequency LO of the local oscillating frequency of conveyer end and frequency modulating signal receiver 100 has Light Difference, can cause audio signal AS to produce distortion (distortion), make audio signal AS can have direct current offset level (DCoffset level), can cause the generation of system's degradation (degrade) phenomenon thus.

In order to overcome unwanted direct current offset level, compensating unit 150 detects among the audio signal AS because carrier frequency and the inconsistent direct current offset level that causes of local oscillating frequency LO, and produces a control signal CS according to this.Compensating unit 150 utilizes control signal CS to adjust the local oscillating frequency LO that local oscillator 124 is produced, to eliminate the direct current offset level of audio signal AS.Yet above-mentioned method in order to the direct current offset level of eliminating audio signal AS is the analog end that is applied to frequency modulating signal receiver 100.For multiple Application Specific Integrated Circuit (ASIC) now, frequency modulating signal receiver 100 is preferable selection if can compensate audio signal AS in digital end.

Summary of the invention

The present invention provides a kind of frequency modulating signal receiver and method of reseptance, is that the digital end in the frequency modulating signal receiver compensates audio signal, to eliminate the direct current offset level that causes because of frequency shift (FS) in the audio signal.

According to a first aspect of the invention, propose a kind of frequency modulating signal receiver, comprise an antenna, a tuner, an analog-digital converter, a demodulation module and a frequency deviation estimation module.Antenna is in order to the receive frequency modulating signal.Tuner is coupled to antenna, in order to being an intermediate-freuqncy signal with frequency modulating signal transformation.Analog-digital converter is coupled to tuner, in order to intermediate-freuqncy signal is converted to a digital medium-frequency signal.Demodulation module is coupled to analog-digital converter, in order to based on a frequency offset compensation signal digital medium-frequency signal is demodulated into an audio signal.The frequency deviation estimation module is coupled to demodulation module, produces the frequency offset compensation signal in order to the foundation audio signal.

According to a second aspect of the invention, propose a kind of frequency modulating signal acceptance method, comprise the following steps.The receive frequency modulating signal, and be an intermediate-freuqncy signal with frequency modulating signal transformation.Intermediate-freuqncy signal is converted to a digital medium-frequency signal.Based on a frequency offset compensation signal digital medium-frequency signal is demodulated into an audio signal.Wherein, the frequency offset compensation signal is to produce according to audio signal.

Description of drawings

For foregoing of the present invention can be become apparent, below conjunction with figs. is elaborated to preferred embodiment of the present invention, wherein:

Fig. 1 is the calcspar of legacy frequencies modulating signal receiver.

Fig. 2 is the calcspar according to the frequency modulating signal receiver of preferred embodiment of the present invention.

Fig. 3 is the calcspar according to the frequency deviation estimation module of preferred embodiment of the present invention.

Fig. 4 is the flow chart according to the frequency modulating signal acceptance method of preferred embodiment of the present invention.

Embodiment

The present invention proposes a kind of frequency modulating signal receiver and method of reseptance, to estimating (estimation) because of the direct current offset level (DC offset level) that frequency shift (FS) caused in the audio signal (audio signal), and audio signal is compensated in the digital end of frequency modulating signal receiver, eliminating the direct current offset level that audio signal produces because of distortion, and and then eliminate the frequency shift (FS) of audio signal.

Please refer to Fig. 2, it is the calcspar according to the frequency modulating signal receiver of preferred embodiment of the present invention.Frequency modulating signal receiver 200 comprises an antenna 210, a tuner 220, an analog-digital converter 230, a demodulation module 240 and a frequency deviation estimation module 250.Antenna 210 is in order to receive a frequency modulating signal FM.This frequency modulating signal FM includes navigation information (pilot information), for example in order to indicate the navigation data of speech pattern (sound mode).Tuner 220 is coupled to antenna 210, and in order to frequency modulating signal FM is transformed to an intermediate-freuqncy signal IF, this intermediate-freuqncy signal IF for example is a sound (sound) intermediate-freuqncy signal.Analog-digital converter 230 is coupled to tuner 220, in order to intermediate-freuqncy signal IF is converted to a digital medium-frequency signal DIF.

Demodulation module 240 is coupled to analog-digital converter 230, in order to based on a frequency offset compensation signal DOCS digital medium-frequency signal DIF is demodulated into an audio signal AS.Demodulation module 240 comprises a DC digital frequency synthesizer (direct digital frequency synthesizer, DDFS) 242,1 first low pass filter 244, one second low pass filter 246 and a demodulator 248.DC digital frequency synthesizer 242 is coupled to analog-digital converter 230.When if carrier shift (carrier offset) takes place in the carrier frequency (carrier frequency) of frequency modulating signal FM, the frequency of DC digital frequency synthesizer 242 can be different from the carrier frequency (carrier frequency) of frequency modulating signal FM, the audio signal AS that makes 240 demodulation of demodulation module obtain produces distortion, that is audio signal AS can have the direct current offset level that produces because of frequency shift (FS).

On behalf of navigation information, the distortion of audio signal AS promptly to lose, may produce problems thus, for example the frequency modulating signal FM that is received for frequency modulating signal receiver 200 is stereo (stereo) signal, but demodulation module 240 resulting audio signal AS are single-tone (mono) signal.Therefore, frequency deviation estimation module 250 is coupled to demodulation module 240, and the direct current offset level that is had in order to foundation audio signal AS is to produce frequency offset compensation signal DOCS.

DC digital frequency synthesizer 242 eliminating the carrier shift of frequency modulating signal FM, and is transformed to a numeral at phase (in-phase) fundamental frequency signal I and a digital quadrature (quadrature) fundamental frequency signal Q with digital medium-frequency signal DIF based on frequency offset compensation signal DOCS.First low pass filter 244 is coupled to DC digital frequency synthesizer 242, in order to numeral is carried out filtering at phase fundamental frequency signal I.Second low pass filter 246 is coupled to DC digital frequency synthesizer 242, in order to digital quadrature baseband signal Q is carried out filtering.Demodulator 248 is coupled to first low pass filter 244 and second low pass filter 246, in order to the filtered numeral of demodulation at phase fundamental frequency signal I and filtered digital quadrature fundamental frequency signal Q, to obtain audio signal AS.

Please refer to Fig. 3, it is the calcspar according to the frequency deviation estimation module of preferred embodiment of the present invention.Frequency deviation estimation module 250 comprises a direct current deviation estimation unit 252 and frequency offset compensation estimation unit 254.Direct current offset level estimation unit 252 can be considered a low pass filter in fact, for example is a loop filter (loop filter), in order to audio signal AS is carried out filtering, with the high frequency composition among the filtered audio signal AS.Thus, direct current offset estimation unit 252 can obtain the direct current offset level of audio signal AS, and this direct current offset level is the carrier shift that corresponds to modulating signal FM, for example is 0.5 volt.Frequency offset compensation estimation unit 254 is coupled to direct current offset estimation unit 252, and anti-phase in order to the direct current offset level of foundation audio signal AS for example be-0.5 volt, converts compensating frequency again to, with generation frequency offset compensation signal DOCS.DC digital frequency synthesizer 242 promptly can be eliminated the carrier shift of frequency modulating signal FM based on frequency offset compensation signal DOCS.

Please refer to Fig. 4, it is the flow chart according to the frequency modulating signal acceptance method of preferred embodiment of the present invention.At first, in step S400, receive a frequency modulating signal, and be an intermediate-freuqncy signal frequency modulating signal transformation.Then, in step S410, intermediate-freuqncy signal is converted to a digital medium-frequency signal.Then, in step S420, digital medium-frequency signal is demodulated into an audio signal based on a frequency offset compensation signal.Simultaneously, in step S430, audio signal is carried out filtering to obtain the direct current offset level of audio signal.Afterwards, in step S440, according to the anti-phase generation frequency offset compensation signal of the direct current offset level of audio signal.Above-mentioned frequency modulating signal acceptance method, its detailed principle is to be described in the frequency modulating signal receiver 200, so no longer repeat in this.

Disclosed frequency modulating signal receiver of the above embodiment of the present invention and method of reseptance, be that leading that audio signal is had estimated because of the direct current offset level in frequency shift (FS), and utilize DC digital frequency synthesizer in the frequency modulating signal receiver, anti-phase based on the direct current offset level of being estimated, convert compensating frequency again to and audio signal is compensated, to eliminate the carrier shift of frequency modulating signal to produce the frequency offset compensation signal.Thus, can audio signal be compensated in the digital end of frequency modulating signal receiver.So frequency modulating signal receiver of the present invention and method of reseptance more are applicable to popular now Application Specific Integrated Circuit (ASIC) compared to tradition, and the carrier shift of the frequency modulating signal of being eliminated more can reach 150KHz.

In sum, though the present invention with preferred embodiment exposure as above, yet it is not in order to limit the present invention.The persond having ordinary knowledge in the technical field of the present invention, without departing from the spirit and scope of the present invention, when making various changes that are equal to or replacement.Therefore, protection scope of the present invention is when looking accompanying being as the criterion that the application's claim defined.

Claims (9)

1. frequency modulating signal receiver comprises:

One antenna is in order to receive this frequency modulating signal;

One tuner is coupled to this antenna, in order to being an intermediate-freuqncy signal with this frequency modulating signal transformation;

One analog-digital converter is coupled to this tuner, in order to this intermediate-freuqncy signal is converted to a digital medium-frequency signal;

One demodulation module is coupled to this analog-digital converter, in order to based on a frequency offset compensation signal this digital medium-frequency signal is demodulated into an audio signal; And

One frequency deviation estimation module is coupled to this demodulation module, in order to produce this frequency offset compensation signal according to this audio signal.

2. frequency modulating signal receiver according to claim 1 is characterized in that this frequency deviation estimation module comprises:

One direct current deviation estimation unit is in order to obtain the direct current offset level of this audio signal; And

One frequency offset compensation estimation unit is coupled to this direct current offset estimation unit, in order to this frequency offset compensation signal of anti-phase generation according to the direct current offset level of this audio signal.

3. frequency modulating signal receiver according to claim 2 is characterized in that this direct current offset estimation unit is a low pass filter, in order to this audio signal is carried out filtering to obtain the direct current offset level of this audio signal.

4. frequency modulating signal receiver according to claim 1 is characterized in that this demodulation module comprises:

One DC digital frequency synthesizer is coupled to this analog-digital converter, in order to based on this frequency offset compensation signal this digital medium-frequency signal is transformed to a numeral at phase (in-phase) fundamental frequency signal and a digital quadrature fundamental frequency signal;

One first low pass filter is coupled to this DC digital frequency synthesizer, in order to this numeral is carried out filtering at the phase fundamental frequency signal;

One second low pass filter is coupled to this DC digital frequency synthesizer, in order to this digital quadrature fundamental frequency signal is carried out filtering; And

One demodulator is coupled to first low pass filter and second low pass filter, in order to demodulation filtered should numeral at phase fundamental frequency signal and filtered this digital quadrature fundamental frequency signal, to obtain this audio signal.

5. frequency modulating signal receiver according to claim 1 is characterized in that this intermediate-freuqncy signal is a sound if signal.

6. frequency modulating signal acceptance method comprises:

A. receive this frequency modulating signal, and be an intermediate-freuqncy signal this frequency modulating signal transformation;

B. this intermediate-freuqncy signal is converted to a digital medium-frequency signal; And

C. based on a frequency offset compensation signal this digital medium-frequency signal is demodulated into an audio signal;

Wherein, this frequency offset compensation signal is to produce according to this audio signal.

7. frequency modulating signal acceptance method according to claim 6 is characterized in that also comprising:

D. this audio signal is carried out filtering to obtain the direct current offset level of this audio signal; And

E. according to this frequency offset compensation signal of anti-phase generation of the direct current offset level of this audio signal.

8. frequency modulating signal acceptance method according to claim 6 is characterized in that this step c comprises:

C1. based on this frequency offset compensation signal this digital medium-frequency signal is transformed to a numeral at a phase fundamental frequency signal and a digital quadrature fundamental frequency signal;

C2. this numeral is carried out filtering at phase fundamental frequency signal and this digital quadrature fundamental frequency signal; And

C3. demodulation filtered should numeral at phase fundamental frequency signal and filtered this digital quadrature fundamental frequency signal, to obtain this audio signal.

9. frequency modulating signal acceptance method according to claim 6 is characterized in that this intermediate-freuqncy signal is a sound if signal.

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