KR100518176B1 - A stereo sound mobile phone and a method for implementing stereo sound in the mobile phone - Google Patents

Abstract

The present invention relates to a stereo sound mobile phone terminal and a method for implementing stereo sound in the portable terminal, the MSM chip of the mobile phone terminal for transmitting the original sound source signal to the digital signal processor; The digital signal processor processing the original sound source signal to generate a time delayed output signal and a time delayed output signal, and input the two output signals to a digital to analog converter; The digital / analog converter converts each of the non-time delayed signal and the time delayed signal into an analog signal and a phase shifted analog signal of an original phase, and multiplexer the signal inputted to the digital / analog converter and the phase shifted signal. And inputting to the multiplexer, wherein the sound signals inputted to the multiplexer are outputted by varying positions of the sound signals input to the multiplexer through path control of the multiplexer.

According to the present invention, when the original sound source provided by the VOD or AOD service is a mono sound source, the user can feel the realism and the stereoscopic feeling by realizing the stereoscopic sound in the portable terminal without using the existing contents.

Description

A stereo sound mobile phone and a method for implementing stereo sound in the mobile phone}

The present invention relates to a stereophonic mobile phone terminal and a method for implementing stereoscopic sound in the portable terminal, and more particularly, to process a stereophonic sound source while providing a multimedia service such as VOD, AOD, or video games The present invention relates to a stereophonic mobile phone terminal and a method of implementing stereoscopic sound in the portable terminal so that the stereoscopic and realism can be reproduced by the terminal.

Recently, with the development of semiconductor technology, mobile phones with cell phone ringtones that produce brilliant chords are being developed. The sound technology currently used in mobile phones is a method of producing chords using a MIDI sound source. According to this method, a MIDI sound source chip, which stores various MIDI sound sources corresponding to a specific instrument, is built into the mobile phone, so that the sound of each MIDI sound source is transmitted through the speaker in the order recorded in the music data file. do. The polyphony is divided into 40 poly (or 40 chord) / 64 poly (or 64 chord) according to the number of MIDI sound sources used. In addition, recently, a mobile terminal having two speakers and providing a stereoscopic sound function has also been developed.

On the other hand, playing a chord using a MIDI sound source in a conventional mobile phone terminal only allows you to view the score (i.e., the music data file for MIDI) and play it on its own instrument (i.e., the MIDI sound source stored in the MIDI sound chip) Because it depends on the performance of the built-in MIDI sound chip, it is suitable for cell phone ringtones and game sound effects, but is not suitable for, for example, playing a file in which a human voice is stored. Therefore, in the existing mobile phone terminal, when a sound source other than the MIDI sound source is to be reproduced, a separate digital signal processor (DSP) is used to listen to the sound source other than the MIDI sound source. Currently, when providing video on demand (VOD) or audio on demand (AOD) service or video game service through a mobile phone terminal, such DSP is used for sound processing.

However, the sound source in the VOD, AOD or video game that is currently provided through a mobile phone is not a stereo sound but a mono sound source, and when receiving a service such as a VOD, AOD service or a video game, the stereo sound is not realized. Therefore, in order to implement three-dimensional sound in the current mobile phone terminal, a separate service provider must provide a content to make a stereo sound source only by processing a sound source intended for mono. However, even in this case, as shown in FIG. 1 (a), since the current mobile phone terminal uses only one or two speakers, there is a limit of sound field formation to realize stereo sound, so that the effect of the realism and stereo sound Very few

Accordingly, the present invention overcomes the above-mentioned problems, and when the sound source provided by the VOD or AOD service is a mono sound source instead of a stereo sound source, the mono sound source is processed in the mobile phone terminal to generate a stereo sound source. The purpose is to enable to implement stereoscopic sound.

In addition, another object of the present invention is to provide a stereo mobile phone terminal that can provide a three-dimensional sound having a wider and realistic sound field to the user by mounting four speakers.

According to an aspect of the present invention, there is provided a method of implementing a stereo sound in a mobile phone terminal, the method comprising: transmitting an original sound source signal to a digital signal processor by an MSM chip of the mobile phone terminal; The digital signal processor processing the original sound source signal to generate a time delayed output signal and a time delayed output signal, and input the two output signals to a digital to analog converter; The digital-to-analog converter converting each of the non-time delayed signal and the time delayed signal into an analog signal of an original phase and an analog signal of 180 ° phase shift, and inputting the converted four signals into a multiplexer; And outputting the four sound signals, which are outputs of the four-channel amplifier, by changing the positions of the speakers by the path control of the digital signal processor.

In addition, the stereo mobile phone terminal according to the present invention, the MSM chip for providing an original sound source signal to the digital signal processor; A digital signal processor which processes the original sound source signal received from the MSM chip to generate a time delayed output signal and a time delayed output signal; A digital / analog converter for receiving a non-time delayed signal and a time delayed signal from the digital signal processor, and converting each of the two received signals into an analog signal having an original phase and an analog signal having a 180 ° phase shift; A multiplexer for inputting the four converted analog signals received from the digital / analog converter to an amplifier under the control of the digital signal processor; An amplifier for amplifying the four analog signals; And four speakers for respectively outputting the amplified four analog signals.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

The principle of stereophonic sound is almost the same as that of stereoscopic images . In other words, there is a slight difference in the sound reaching the human ear. In general, some sounds generated by the same sound source may reach the human ear directly, while others may be reflected, scattered, and diffracted to other objects. Sound generated by the same sound source reaches the human ear through various paths. Therefore, the sound reaching both ears of the person has a difference in sound intensity and a difference in arrival time. The human brain perceives the direction and distance of the sound source through the difference in the intensity of sound reaching each ear and the difference in arrival time. Using this principle, if a plurality of speakers are provided and the size of the sound generated from each speaker and the time of occurrence of the sound are slightly different, the user can feel a more realistic and three-dimensional sound.

According to this principle, unlike the conventional mobile phone having one to two speakers, four speakers are mounted, and the signals having different time and phase are generated from each of the four speakers. 1 (b) shows a state in which four speakers are arranged in the mobile phone terminal according to the present invention.

Then, with reference to Figure 2 showing the internal configuration of the terminal according to the present invention for generating a three-dimensional sound by processing the original sound source to generate different sounds in each of the four speakers, the configuration for achieving the object of the present invention Look in detail.

First, a mobile station modem (MSM) chip 20 embedded in a user's mobile phone terminal transmits an original sound source signal to a digital signal processor (DSP) 22. The MSM chip 20 is a core chip of a mobile phone terminal having a function of processing a signal received or generated from the mobile phone terminal. The MSM chip 20 includes system software for controlling the operation of the mobile phone and performing various functions. The MSM chip 20 performs, for example, a cellular phone function or a data communication function. In the present invention, the original sound source signal may be a signal provided by receiving a service such as video on demand (VOD), audio on demand (AOD) or video game, or stored in the memory of the mobile terminal It may be a signal provided from an existing music file. As described above, the sound source currently provided in the VOD, AOD, or video game service is a mono signal without stereo sound.

The digital signal processor (DSP) 22 is used to perform spectral analysis, filter manipulation, linear prediction, etc. on the digital signal to remove noise and generate the desired digital signal. These DSPs play a key role in processing video and audio signals in digital format. In the present invention, the sound source signal provided through the VOD or AOD service is also provided in a digital format. The DSP 22 according to the present invention has two output stages unlike a conventional DSP. After normal signal processing on the original sound source signal received from the MSM chip 20, the signal is output as it is to one output terminal, and a signal delayed for a predetermined time is output to the other output terminal. 3 (a) shows waveforms of original data and delayed data output from the DSP 22. FIG. As shown in Fig. 3 (a), the two outputs of the DSP 22 are composed of original data represented by a thick solid line and data delayed for a predetermined time represented by a thin solid line. The delay signal is generated in order to give a stereoscopic effect by allowing signals of the same sound source to be heard at different time intervals in the human ear.

The two signals output from the DSP 22 are now input to a Digital to Analog Converter (DAC) 24. The DAC 24 converts the digital signal processed by the DSP 22 into an analog signal that can be perceived by humans. The DAC 24 according to the present invention has four output stages as shown, and outputs four analog signals. The two output signals are signals obtained by converting two signals output from the DSP 22 into analog signals, respectively, and the remaining two output signals are subjected to phase shift processing of 180 ° with respect to the two analog converted signals. The four signals are shown in Figure 3 (b). 3 (b) shows waveforms of four analog signals output from the DAC 24 of the present invention. As shown in Fig. 3 (b), signals I and II are original signals and delayed signals obtained by converting two outputs of the DSP 22 to analog, and signals III and IV respectively represent the signals I and II, respectively. This is a 180 ° phase-converted signal. When the phase-changed signal and the phase-unchanged signal are output together, the signal output through the speaker causes the stereo sound effect by the same principle as the stereoscopic effect caused by the delay of the signal.

Four signals converted into analog signals by the DAC 24 are input to a multiplexer (MUX) 26. The MUX 26 receives four signals from the DAC 24 and inputs the output paths for the four input signals to the amplifier AMP 28 under different control of the DSP 22. For example, the DSP 22 sets a path to output the first speaker 25-1 for signal I and a path for output to the second speaker 25-2 for signal II. The signal I may be output to the fourth speaker 25-4 and the signal II may be output to the first speaker 25-1. In this way, the four signals are not always output through the same path, but the output signals can be output while changing the output positions with each other, thereby producing a more three-dimensional sound effect.

Meanwhile, the AMP 28 is a 4-CH AMP capable of amplifying four signals, and the four signals amplified by the AMP 28 are finally delivered to four speakers 25, respectively.

According to the configuration of the present invention as described above, the four speakers 25-1 to 25-4 have original signals and time-delayed signals, and signals that are out of phase with their respective signals, thus generated from the same sound source. Since the four different sound signals are output while changing the output positions, respectively, the user can enjoy the three-dimensional sound generated while the four signals interfere with each other.

As described above, according to the present invention, when the original sound source provided by the VOD or AOD service is a mono sound source, four different signals are processed by appropriately processing the mono sound source signal using hardware built in the mobile phone terminal itself. Can be generated through four speakers. The sound from the four speakers is properly mixed with each other to produce a stereoscopic sound effect. Therefore, according to the present invention, since the stereoscopic sound is realized in the portable terminal itself without using the existing contents that provide the stereoscopic sound function, it is possible to provide the user with a sense of realism and stereoscopic feeling more cheaply and conveniently. have.

Fig. 1 (a) shows a speaker arrangement in a conventional cellular phone terminal.

Figure 1 (b) shows the speaker arrangement in the mobile phone terminal according to the present invention.

2 is a block diagram showing the inside of the terminal according to the present invention for generating a three-dimensional sound by processing the original sound source.

3 (a) shows waveforms of raw data and delayed data output from the digital signal processor of the present invention.

3 (b) shows waveforms of four analog signals output from the digital-to-analog converter of the present invention.

※ Explanation of code about main part of drawing ※

10 ..... Conventional mobile phone terminal 12 ..... Mobile phone terminal according to the present invention

15,25 ..... Speaker 18 ..... LCD panel

20 ..... MSM chip 22 ..... Digital Signal Processor (DSP)

24 ..... D / A Converter (DAC) 26 ..... Multiplexer (MUX)

28 ..... AMP

Claims (6)

delete delete (correction) Transmitting, by the MSM chip of the cellular phone terminal, the original sound source signal to the digital signal processor; The digital signal processor processing the original sound source signal to generate a time delayed output signal and a time delayed output signal, and input the two output signals to a digital to analog converter; The digital-to-analog converter converts each of the non-time-delayed signal and the time-delayed signal into an analog signal and a phase- shifted analog signal of an original phase, and multiplexer the signal input to the digital / analog converter and the phase-shifted signal. Inputting to; And outputting the sound signals inputted to the multiplexer by varying the positions of the sound signals inputted through the speaker by the path control of the multiplexer . An MSM chip for providing an original sound source signal to a digital signal processor; A digital signal processor which processes the original sound source signal received from the MSM chip to generate a time delayed output signal and a time delayed output signal; A digital / analog converter for receiving a non-time delayed signal and a time delayed signal from the digital signal processor, and converting each of the two received signals into an analog signal having an original phase and an analog signal having a 180 ° phase shift; A multiplexer for inputting the four converted analog signals received from the digital / analog converter to an amplifier under path control of the digital signal processor; An amplifier for amplifying the four analog signals; And And four speakers for respectively outputting the amplified four analog signals. The method of claim 4, wherein And the four sound signals are outputted by changing the positions at which the four sound signals are output through the speaker by the path control of the digital signal processor. The method according to claim 4 or 5, And the amplifier is a four-channel amplifier.