KR20100060394A - Sound data communication system for car - Google Patents

Abstract

PURPOSE: A sound data communications system of a vehicle is provided to perform the differentiated signal processing by sound output devices by transferring sound data using a coaxial cable in place of an optical cable in a vehicle. CONSTITUTION: A sound data communications system(100) of a vehicle is composed of a transmit unit(100a), a bandwidth reverse spread unit(120), and a receiver(100b). The transmit unit is composed of a channel switching unit(110) and a bandwidth spread unit. The channel switching unit inserts, the media property bit corresponding to the sound output device, into the sound data. The bandwidth spread unit multiplies each bit of the sound data into which the media property bit is inserted by a spread code to change it to a spread data and transfers the spread data. The bandwidth reverse spread unit divides the bit by the spread code to extract the media property bit and the sound data.

Description

SOUND DATA COMMUNICATION SYSTEM FOR CAR

The present invention relates to a system for transmitting sound data and control signals in a vehicle.

Generally, sound data received from a tape player, a DVD player, a radio receiver, or the like is transmitted to a speaker through a method such as a Sony Philips Digital Interface (SPDIF), which is a data transmission method using an optical cable.

However, the optical cable used for the SPDIF has a characteristic that data can be transmitted only when a diameter of 5 cm or more is secured when the optical cable is bent at a set angle, for example, 90 ° or more. However, the vehicle has a problem that it takes a lot of cost for securing the diameter of the optical cable in the data transmission using the optical cable as many sections that need to be installed when the optical cable is installed.

In addition, the optical cable has a problem in that the signal is disconnected when the junction between the optical cables is not correctly bonded.

On the other hand, when using the coaxial cable or twisted wire when transmitting sound data in a vehicle due to the problem of the optical cable as described above, there is a problem that the inflow of noise occurs more than the optical cable.

An object of the present invention is to provide a sound data communication system of a vehicle that communicates sound data of a vehicle using a direct diffusion method that is resistant to noise inflow.

In the sound data communication system of the present invention, a channel switching unit for inserting media characteristic bits corresponding to the sound output apparatus into sound data received from the sound output apparatus and each bit of the sound data into which the media characteristic bits are inserted are spread codes. A transmission unit including a spreading unit for multiplying and converting the spread data into spreading data, a band despreading unit for extracting media characteristic bits and sound data by dividing bits of spreading data received from the spreading unit by spreading codes, and the sound A characteristic configuration includes a receiver including a signal processor that processes data in accordance with a sound output device having a medium characteristic bit.

The channel switching unit of the present invention inserts a control command signal into the sound data, and the signal processor processes the sound data extracted from the band despreader according to the control command signal.

Meanwhile, the channel switching unit of the present invention further inserts a pilot signal into the sound data, and the band despreading unit obtains a synchronization signal using the pilot signal.

Meanwhile, the present invention further includes first and second spreading code generators providing spreading codes, respectively, for the spread spectrum section and the spread spectrum band spread section.

Meanwhile, the present invention further includes a sound database for storing output equalizer values or available channel specifications for signal processing for each sound output device and providing the output equalizer values or specifications of the available channels to a signal processor.

The sound data communication system of the present invention inserts and spreads media characteristic bits into sound data, transmits the signal, and transmits the received sound data. Therefore, the sound data can be transmitted using a coaxial cable instead of an optical cable in a vehicle, thereby reducing the installation cost according to the optical cable installation and providing an effect of performing differentiated signal processing for each sound output device.

In addition, the sound data communication system of the present invention provides an effect of not having to provide a control wire according to the transmission of a separate control command signal by inserting and transmitting a control command signal instead of the media characteristic bits in the sound data.

Hereinafter, with reference to the accompanying drawings will be described specific details for the practice of the invention.

1 is a block diagram showing the configuration of a sound data communication system 100 of the present invention.

As shown in FIG. 1, the sound data communication system 100 of the present invention includes a channel switching unit 110, a band spreader 120, a first spreading code generator 130, and a band despreader 140. , A second spreading code generator 150, a signal processor 160, a sound database 170, and the like.

Here, the channel switching unit 110, the spread spectrum unit 120, and the first spreading code generation unit 130 become the transmission unit 100a, and the band despreading unit 140 and the second spreading code generation unit 150. The signal processor 160 and the sound database 170 become the receiver 100b.

The channel switching unit 110 inserts the media characteristic bits according to the sound output device 10 into the sound data received from the sound output device 10. The sound output device 10 includes a tape player, a DVD player, a radio receiver, a TV, a DMB, and the like.

2 is a block diagram showing the configuration of media characteristic bits of the sound data communication system 100 of the present invention.

As shown in Fig. 2, the media characteristic bit is a unique code according to the sound output device 10. For example, the tape player is 001, the DVD player is 010, and up to 111, up to seven sound output devices 10. Can be specified. The medium characteristic bit is preferably inserted after the third bit after the pilot bit of the header of the sound data. In other words, the initial 2 bits are inserted in the header as pilot bits, tape player 00001, and DVD player 00010.

As shown in FIG. 1, the channel switching unit 110 inserts a pilot signal for synchronizing data signals into first and second bits of the header of the sound data.

The channel switching unit 110 may insert a promised control command signal into the sound data instead of a media characteristic bit. The control command signal is a signal for instructing to mute the sound and the like when the telephone comes to the hands free during the output of the sound data from the speaker of the vehicle. Preferably, the control command signal is composed of 00111 in the header and is inserted in place of the media characteristic bit in the third bit of the sound data. After that, data is added and sent out.

The spreader 120 multiplies the medium characteristic bit or the control command signal with each bit of the sound data into which the pilot signal is inserted by a spreading code, converts the spread data into spread data, and outputs the spread data. That is, when each bit of the media characteristic bit or the control command signal and the sound data into which the pilot signal is inserted is 01010001 and the spreading code is 00101101011, each bit of the sound data (0 즉 00101101011), (1 ㅧ 00101101011), ( 0 ㅧ 00101101011), (1 ㅧ 00101101011) and so on to continue multiplying the diffusion code sequentially. As a result, the sound data is converted into spread data by the spread code.

Here, the transmission line is a coaxial cable or twisted wire. If the wireless transmission and reception apparatus is included in the present invention, the transmission line may be implemented wirelessly.

The first spreading code generator 130 provides the spreading code, for example, 00101101011 to the spreader 120.

The band despreader 140 divides the output bits of the spread data by spreading codes to extract media characteristic bits or control command signals, pilot signals, and sound data. The band despreader 140 divides the bits of the spread data by spreading codes to determine whether validity of the division value is achieved through a peak value generated when each bit of the spreading data is correctly divided by the spreading code. Check and extract the sound data accordingly. In addition, the band despreader 140 obtains a synchronization signal by calculating the pilot signal included in the output spread data by auto-corelation and uses the obtained synchronization signal to spread the sound data. It is synchronized with the sound data of 120. Since the band despreader 140 acquires the synchronization signal of the sound data through the correlation operation of the pilot signal, a detailed description thereof will be omitted.

The second spreading code generating unit 150 is interlocked with the first spreading code generating unit 130 to provide the band despreading unit 140 with 00101101011 which is the same as the spreading code of the first spreading code generating unit 130. to provide.

The signal processor 160 processes the sound data according to a media characteristic bit or a control command signal.

In other words, when the media characteristic bits are included in the sound data, the signal processor 160 processes the sound data according to the characteristics of the media. For example, if the sound output device 10 is a tape player, the signal processor 160 processes sound data in a preset available channel, that is, stereo of two channels. The signal processor 160 processes the sound data according to a preset output equalizer value according to the tape reproducing apparatus, and outputs the sound data processed through the output unit 180, for example, a speaker. For example, if the sound output device 10 is a DVD player, the signal processor 160 processes a signal according to a preset output equalizer value according to the DVD player, processes sound data in five channels, and outputs the sound data to a speaker.

The sound database 170 stores the output equalizer value or the specification of the available channel for each sound output device 10 and provides the signal processor 160 with the specification of the output equalizer value or the available channel.

Hereinafter, the operation of the sound data communication system 100 of the present invention will be described.

3 is a flowchart showing the operation of the sound data communication system 100 of the present invention.

First, the channel switching unit 110 of the sound data communication system 100 receives sound data from the sound output device 10 (S100).

Subsequently, the channel switching unit 110 inserts a media characteristic bit or a control command signal and a pilot signal according to the sound output device 10 into the sound data (S102).

Subsequently, the spreader 120 receives the spreading code from the first spreading code generator 130 and multiplies each bit of the sound data into which the media characteristic bit or the control command signal is inserted by the spreading code and spreads the spreading data. Convert to and transmit to the transmission line (S104).

Subsequently, the band despreader 140 receives spread data from the transmission line, divides the bits of the spread data by the spread code received from the second spread code generator 150, and transmits a medium characteristic bit or a control command signal. And a pilot signal and sound data are extracted (S106).

Subsequently, the band despreader 140 obtains a synchronization signal of the sound data through the pilot signal and synchronizes the sound data with the sound data of the spreader 120 (S108).

Subsequently, the signal processor 160 determines which of the media characteristic bits or the control command signal is included in the sound data (S110).

In S110, when the sound data includes the media characteristic bits, the signal processor 160 refers to the sound database 170 and outputs an equalizer value or an output equalizer value corresponding to the sound output device 10 of the media characteristic bits. Signal processing is performed according to the specifications of the channel (S112).

If the control command signal is included in the sound data in S110, the signal processor 160 processes the sound data according to the control command signal (S111).

Subsequently, the output unit 180 outputs sound data processed by the signal processor 160 (S114).

As mentioned above, although the present invention has been described by means of a limited configuration and drawings, the technical idea of the present invention is not limited to the above, and by those skilled in the art to which the present invention pertains, Various modifications and variations may be made without departing from the scope of the appended claims.

1 is a block diagram showing a configuration of a sound data communication system of the present invention.

2 is a block diagram showing the configuration of media characteristic bits in the sound data communication system of the present invention.

3 is a flow chart showing operation of the sound data communication system of the present invention.

Claims (5)

Sound data communication system, The channel switching unit inserts the media characteristic bits corresponding to the sound output apparatus into the sound data received from the sound output apparatus, and multiplies each bit of the sound data into which the media characteristic bits are inserted by a spreading code to convert and transmit the spread data. A transmission unit including a spread spectrum unit, A band despreader which extracts the media characteristic bits and sound data by dividing the bits of the spread data received from the band spreader by a spread code, and a signal processor which processes the sound data in accordance with the sound output device of the media characteristic bits Sound data communication system comprising a receiving unit including. The method of claim 1, The channel switching unit inserts a control command signal to the sound data, And the signal processor processes the sound data extracted by the band despreader according to a control command signal. The method of claim 1, The channel switching unit further inserts a pilot signal to the sound data, And the band despreader acquires a synchronization signal using the pilot signal. The method of claim 1, And a first and second spreading code generators respectively providing a spreading code to the band spreader and the band reverse band spreader. The method of claim 1, And a sound database for storing the output equalizer value or the available channel specification for signal processing for each sound output device and providing the output equalizer value or the specification of the available channel to a signal processor.

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