KR20080040554A - Method and device for signal processing in a digital broadcasting of wireless mobile - Google Patents

Abstract

A method and an apparatus for processing signals of a digital broadcasting device of a mobile terminal are provided to simplify the structure of a notch filter of a digital broadcasting device and minimize distortion of signals due to the difference of amplitude of the signals when two frequency bands of two signals are adjacent each other. A saw filter(10) blocks a noise frequency of a received digital broadcast signal. An LNA(Low Noise Amplifier)(20) amplifies the saw-filtered digital broadcast signal. A peak spectrum limiting unit(30) limits the amplitude of an interference signal with respect to the low-noise amplified digital broadcast signal. A notch filter(40B) blocks a noise frequency of the amplitude-limited digital broadcast signal. A BPF(Band Pass Filter)(50) filters a signal corresponding to a frequency band of the notch-filtered digital broadcast signal.

Description

Signal processing method and device of digital broadcasting device of mobile terminal {METHOD AND DEVICE FOR SIGNAL PROCESSING IN A DIGITAL BROADCASTING OF WIRELESS MOBILE}

The present invention relates to the processing of digital broadcast signals, and more particularly, to a signal processing method and apparatus of a digital broadcasting apparatus of a mobile terminal.

As the mobile communication environment develops, the area of use of the mobile terminal, which has stayed only in voice calls, is gradually diversifying. An example may be a case in which a video call is performed in real time using a camera provided in a mobile terminal, or a digital broadcasting device is used to watch a digital broadcast (eg, DMB, DVB-H, media flo). . Recently, the use of digital broadcasting in a mobile terminal has become common, and the representative digital broadcasting includes the DMB method and the DVB-H method. Among them, the broadcast signal (UHF signal) of the DVB-H type digital broadcasting is very close to the communication signals such as GSM and PCS, and the signal strength is relatively small. For example, the frequency band UHF (470 MHz-862 MHz: C21-C69) of the DVB-H signal is adjacent to the 900 MHz frequency band of GSM, while the signal strength is smaller than that of the GSM signal. Difficulties in receiving signals. In order to solve this problem, the conventional DVB-H broadcast apparatus eliminates interference signal components (eg, GSM signals) for the DVB-H broadcast signal through a combination of high-performance notch filters or various filters. However, such a conventional method results in an increase in the cost required for the manufacture of the filter due to a complicated filter configuration and an obstacle to miniaturization of the mobile terminal due to the increase in the size of the filter. There is a need to provide a method for processing digital broadcast signals that can be minimized.

The present invention provides a DVB-H broadcast signal by limiting the peak spectrum of the noise signal to a constant level, instead of suppressing a noise signal (interference signal) adjacent to the broadcast signal and having a large signal strength through a conventional high performance notch filter configuration. A method and apparatus for minimizing components of a GSM signal (noise signal) adjacent to a.

To this end, the present invention provides a process for low noise amplifying a received digital broadcast signal, limiting the peak spectrum of the amplified signal to the amplitude of the spectrum of the digital broadcast signal, and blocking the noise frequency of the restricted signal. And filtering only a signal corresponding to a frequency band of the digital broadcasting.

In addition, the present invention provides a signal processing device for a digital broadcasting device of a mobile terminal, comprising: a SAW filter for blocking a noise frequency of a received digital broadcasting signal; and a low noise amplifier for low noise amplifying the first signal. ), A peak spectrum limiter for limiting the spectral peak of the low noise amplified signal to a predetermined level, a notch filter for blocking the noise frequency of the amplitude limited signal, and the frequency of the digital broadcast signal in the notch filtered signal. And a band pass filter for filtering only a signal corresponding to a band.

In the present invention for processing the interference signal included in the signal of the digital broadcasting device of the portable terminal as described in detail above, the effect obtained by the representative of the disclosed invention is briefly described as follows.

The present invention has the effect of minimizing the distortion of the DVB-H broadcast signal due to interference of the GSM mobile communication signal.

In addition, the present invention has the effect of simplifying the structure of the notch filter of the digital broadcasting apparatus.

In addition, the present invention has the effect of minimizing the distortion of the signal due to the difference in amplitude (signal strength) of the signal when two frequency bands of the two communication signals are adjacent to each other in addition to the digital broadcast signal.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1A is a schematic block diagram of a conventional digital broadcasting apparatus.

Referring to FIG. 1A, a conventional digital broadcasting apparatus includes a saw filter 10, a low noise amplifier 20, a notch filter 40A, a band pass filter 50, and a tuner 60. The SAW filter 10 is a filter that passes a specific frequency. Such saw filters are often used in portable devices such as mobile terminals because of their sharp skirt characteristics. The low noise amplifier 20 (LNA) is an amplifier that amplifies a signal weakened during a transmission process, and amplifies only the original signal while suppressing noise included in the signal. Notch filter 40A is a filter that cuts a specific frequency and is mainly used to remove unnecessary frequencies. The notch filter 40A has a complex filter configuration for removing interference signals (eg, GSM signals) for DVB-H broadcast signals. Have The bandpass filter 50 filters only the frequency bands required. The tuner 60 obtains only the frequency components needed through tuning in the frequency band of the predetermined signal.

FIG. 1B is an exemplary diagram of a frequency spectrum of a digital broadcast signal processed by a conventional digital broadcasting apparatus. In particular, FIG. 1A illustrates a frequency spectrum of a digital broadcast signal processed by the saw filter 10 and the LNA 20 in FIG. 1A. Doing. FIG. 1B illustrates a broadcast signal of DVB-H among digital broadcast signals. As shown in FIG. 1B, the frequency band of the DVB-H broadcast signal is adjacent to the unwanted signal of GSM. have. As shown in FIG. 1B, the GSM mobile communication signal has a larger signal strength than the DVB-H broadcast signal but has an adjacent frequency band, and thus may be an interference signal for the DVB-H broadcast signal.

FIG. 1C is an exemplary diagram of a waveform of a digital broadcast signal corresponding to FIG. 1B. In particular, FIG. 1C illustrates a frequency waveform of a digital broadcast signal processed by the saw filter 10 and the LNA 20 in FIG. 1A.

The digital broadcasting signal (DVB-H broadcasting signal) processed by the conventional digital broadcasting apparatus as shown in FIG. 1A will be described in detail with reference to FIGS. 1B and 1C. The digital broadcast signal shown in FIG. 1B passes a specific frequency (for example, a frequency including a digital broadcast signal) through a SAW filter 10 and then uses a low noise amplifier 20 (LNA). Through low noise is amplified. Thereafter, the noise signal (for example, GSM signal) is cut off through the notch filter 40A, and only the signal corresponding to the frequency band of the digital broadcast is filtered through the band pass filter 50. 1B and 1C, in the digital broadcasting apparatus of the conventional mobile terminal, the digital image signal of the pre-processing step by the notch filter 40A is relatively large of the interference signal (for example, GSM mobile communication signal). It includes noise components by signal strength. In order to minimize the influence of the interference signal, the conventional digital broadcasting apparatus requires a high performance notch filter 40A or a combination of several filters. However, the high performance notch filter requires very sharp skirt characteristics and high suppression characteristics, and it is very difficult to actually implement such a high performance notch filter. In general, when the suppression characteristic of the notch filter is increased to minimize the noise caused by the interference signal, the suppression degree of the desired signal (for example, the digital broadcasting signal) is raised. The decision is made at a certain level. Therefore, even if the conventional digital broadcasting apparatus uses a high performance notch filter, there is a lack of a method for minimizing the interference caused by the noise when the noise size close to the desired signal is large.

2A is a schematic block diagram of a digital broadcasting apparatus according to an embodiment of the present invention, and FIG. 2B is a detailed block diagram of a digital broadcasting apparatus according to an embodiment of the present invention. 2C and 2D are exemplary diagrams illustrating characteristics of a peak spectrum limiter according to an exemplary embodiment of the present invention. 2E and 2F are exemplary diagrams of a digital broadcast signal processed by a digital broadcast apparatus according to an embodiment of the present invention.

Referring to FIG. 2A, a digital broadcasting apparatus according to an exemplary embodiment of the present invention may include a saw filter 10, a low noise amplifier 20, a peak spectrum limiter 30, a notch filter 40B, and a bandpass filter. 50, a tuner 60 is included. In the digital broadcasting apparatus according to the embodiment of the present invention, the saw filter 10, the low noise amplifier 20, the band pass filter 50, and the tuner 60 are configured in the same manner as the conventional digital broadcasting apparatus. However, the digital broadcasting apparatus according to the embodiment of the present invention distinguishes the peak spectrum limiter 30 and the notch filter 40B from the digital broadcasting apparatus of the conventional mobile terminal shown in FIG. 1A. It is done. In the digital broadcasting apparatus according to the embodiment of the present invention, the peak spectrum limiter 30 may determine the peak value of the signal spectrum at the pre-processing stage of the notch filter 40B, for example, Amplitude) to minimize the impact of GSM signals that are close to the digital broadcast signal and have high signal strength. Therefore, the notch filter 40B according to the embodiment of the present invention does not require a complicated filter configuration in order to minimize the influence of the GSM signal that is close to the digital broadcast signal and has a large signal strength (for example, the order of the filter) Order), and thus can be implemented with a simple filter configuration compared to the conventional notch filter 40A.

2B to 2D, FIG. 2B shows the peak spectrum limiter 30 shown in FIG. 2A in a band pass filter 30A, a band pass filter 30B, and a circuit 30C for obtaining a difference between two signals. It can be shown that it can be implemented by. The band pass filter 30A is a frequency band of a desired signal (Wanted Signal BW (eg, digital broadcast signal of UHF band)) and unwanted signal (Noise BW (eg GSM frequency band)), as shown in FIG. 2C. It includes. In addition, the band pass filter 30B includes a frequency band of an unwanted signal (ie, an interference signal), as shown in FIG. 2D. The circuit 30C, which calculates the difference between the two signals, adds two signals inputted from the band pass filter 30A and the band pass filter 30B to obtain a signal (for example, a digital broadcast signal) that differs between the two signals. By acquiring, it restricts unnecessary noise signals (e.g. GSM signals) to a certain level.

2E to 2F, a digital broadcasting apparatus according to an embodiment of the present invention will be described. A digital broadcasting apparatus according to an embodiment of the present invention may include a saw filter 10, a low noise amplifier 20, and a peak spectrum limiter 30. By processing the digital broadcast signal by) has a frequency spectrum and waveforms as shown in Figures 2e and 2f. Accordingly, it can be seen that the digital broadcast signal processed as shown in FIG. 2E has excellent signal characteristics compared to the characteristics (shown in FIGS. 1B and 1C) of the digital broadcast signal processed in the conventional digital broadcasting apparatus. That is, FIGS. 2E and 2F show spectrums and waveforms in which the amplitude (signal strength) of the interference signal (GSM mobile communication signal) is effectively amplitude limited (Clipped unwanted signal) to the amplitude of the digital broadcast signal. Then, the digital broadcasting apparatus according to the embodiment of the present invention obtains a digital broadcast signal (wanted signal) that is suppressed and minimized the influence of the suppressed unwanted signal through the notch filter 40B. Thereafter, the digital broadcast signal processed through the notch filter 40B passes through the band pass filter 50 and the tuner 60.

3 is a flowchart illustrating a signal processing process by the digital broadcasting apparatus according to an embodiment of the present invention. The digital broadcasting apparatus according to the embodiment of the present invention described with reference to FIGS. 2A through 2F will now be described with reference to FIG. 3. In this case, it is assumed that the digital broadcast signal described in the embodiment of the present invention is the UHF (470MHz to 862MHz) band of DVB-H.

Referring to FIG. 3, when viewing of digital broadcasting is requested (S301) and a digital broadcasting signal is received by the digital broadcasting apparatus (S302), the received digital broadcasting signal passes through a saw filter (S303) and is amplified low noise (S304). ).

Steps S301 to S304 are performed by the same process as the conventional digital broadcasting apparatus, and the characteristics of the digital broadcasting signal are as shown in FIGS. 1B and 1C.

Thereafter, the digital broadcast signal limits the amplitude of the interference signal, thereby limiting the peak spectrum of the signal to the level of the digital broadcast signal (S305), and passing the notch filter to block the noise frequency (S306).

As described above, even after the steps S301 to S304, the conventional digital broadcasting apparatus has an interference signal (unwanted signal, GSM mobile communication signal) in addition to the digital broadcast signal (wanted signal) as shown in Figure 1b and 1c . Therefore, in step S305, the peak spectrum limiter 30 or 31 according to the embodiment of the present invention limits the amplitude of the adjacent interference signal, thereby minimizing the influence of the noise signal having such a relatively large signal. The frequency spectrum and waveform of the digital broadcast signal whose amplitude of the interference signal is limited through the step S305 are as shown in FIGS. 2E and 2F. If the influence of the interference signal on the digital broadcast signal is minimized before the processing by the notch filter as shown in Figs. 2E and 2F, the notch filter for processing the interference signal (i.e., the noise frequency) of the digital broadcast signal is simply Can be implemented. Accordingly, it can be seen that the peak spectrum limiter 30 according to the embodiment of the present invention lowers the complexity of the notch filter (which can be implemented in a lower order) and minimizes the interference signal component as compared with the conventional art.

Thereafter, only the frequency band of the digital broadcast signal is filtered in the notch-filtered digital broadcast signal (S307).

The digital broadcast signal minimized the influence of the interference signal is processed through the band pass filter 50 and the tuner 60, so that the user can finally provide a high quality digital broadcast.

In the embodiment of the present invention, DVB-H and GSM are taken as an example, but the present invention is another communication area in which frequency bands are adjacent to each other and signal distortion is caused by a difference in signal amplitude (signal strength) in addition to DVB-H and GSM. Can be applied to

 The present invention has been described in detail so far, but the embodiments mentioned in the process are merely illustrative and are not intended to be limiting, and the present invention is not limited to the technical spirit of the present invention provided by the following claims. Within the scope of not departing from the field, component changes to the extent that can be replaced evenly from the present invention will fall within the scope of the present invention.

1A is a schematic block diagram of a conventional digital broadcasting apparatus.

1B is an exemplary diagram of a frequency spectrum of a digital broadcasting signal processed by a conventional digital broadcasting apparatus.

1C is an exemplary view of a waveform of a digital broadcast signal corresponding to FIG. 1B.

2A is a schematic block diagram of a digital broadcasting apparatus according to an embodiment of the present invention.

2b is a detailed block diagram of a digital broadcasting apparatus according to an embodiment of the present invention;

2C and 2D are diagrams illustrating characteristics of the peak spectrum limiter according to the embodiment of the present invention.

2E and 2F are exemplary diagrams of digital broadcast signals processed by a digital broadcast apparatus according to an embodiment of the present invention.

3 is a flowchart illustrating a signal processing process by a digital broadcasting apparatus according to an embodiment of the present invention.

Claims (9)

In the signal processing device of a digital broadcasting device, Saw filter for blocking the noise frequency of the received digital broadcast signal, A low noise amplifier for low noise amplifying the saw-filtered digital broadcast signal; A peak spectrum limiter for amplitude limiting the amplitude of the interference signal with respect to the digital broadcast signal with respect to the low noise amplified digital broadcast signal; A notch filter for blocking a noise frequency of the digital broadcast signal of which amplitude of the interference signal is amplitude limited; And a band pass filter for filtering a signal corresponding to a frequency band of the digital broadcast signal from the notched filtered digital broadcast signal. The method of claim 1, The digital broadcasting device is a signal processing device of a digital broadcasting device, characterized in that included in the portable terminal. The method of claim 1, The interference signal is a signal processing device of a digital broadcasting device, characterized in that the GSM (Global System for Mobile communication) signal. The method of claim 1, wherein the peak spectrum limiter, A band pass filter 30A for filtering both the digital broadcast signal and the interference signal; A band pass filter 30B for filtering only the interference signal; And a circuit 30C for acquiring a signal difference between two signals input from the band pass filter 30A and the band pass filter 30B and limiting the amplitude of the interference signal to the amplitude of the digital broadcast signal. A signal processing device of a digital broadcasting device of a portable terminal. The method of claim 1, And a tuner (Tuner) for tuning a frequency signal corresponding to the digital broadcast program selected by the user from the bandpass filtered digital broadcast signal. In the signal processing method of a digital broadcasting device, Cutting a noise frequency of the received digital broadcasting signal and amplifying the low noise a digital broadcasting signal from which the noise frequency is cut off; Amplitude-limiting amplitude of the interference signal with respect to the digital broadcast signal with respect to the low noise amplified digital broadcast signal; And blocking a noise frequency of the amplitude limited digital broadcast signal and filtering a signal corresponding to a frequency band corresponding to the digital broadcast signal. The method of claim 1, The interference signal is a signal processing method of a digital broadcasting device, characterized in that the GSM (Global System for Mobile communication) signal. The method of claim 6, wherein the amplitude limiting process, A first filtering process for filtering both the digital broadcasting signal and the interference signal; A second filtering process for filtering only the interference signal; And an amplitude limitation process of acquiring a signal difference between two signals input from the band pass filter 30A and the band pass filter 30B and limiting the amplitude of the interference signal to the amplitude of the digital broadcast signal. A signal processing method of a digital broadcasting device. The method of claim 6, And tuning a frequency signal corresponding to the digital broadcast program selected by the user from the bandpass filtered digital broadcast signal.

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