KR20090125974A - Car audio system - Google Patents

Abstract

PURPOSE: A car audio system including an external an amp is provided to transmit data efficiently by transmitting a source and a parameter of each sound source to an external amp from a head unit and tuning various kinds of sound source optimally. CONSTITUTION: In a device, a head unit(300) installed in a vehicle changes audio data into a fixed sampling frequency rate and outputs it with specific information as a set format. The head unit comprises a navigation module, a hand-free module, a main audio processing unit, a sampling speed converting unit, a multiplexer, and a microprocessor. The navigation module(310) outputs audio data for the navigation service in a I2S format. The hand-free module(320) outputs audio data transmitted through a hands-free cellular phone in the I2S format. The main audio processing unit(330) outputs main audio data in the I2S format. The sampling speed converting unit(340) changes a sampling frequency rate of audio data of the navigation module or the hand-free module into a sampling frequency rate of the main audio processing unit.

Description

Car audio system {CAR AUDIO SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle audio system, and more particularly, to a vehicle audio system for performing all processing on audio data in an external amplifier operating in conjunction with a head unit.

There are various types of digital audio interface formats that are commonly used, and the representative ones are inter-IC sound (I2S), normal serial audio format (SDI) , Sony / Philips Digital Interface (SPDIF), and AES / EBU. (audio engineering society / european broadcasting union).

Analog-to-digital converters (ADCs), which are used in the field of digital audio, are an important factor in determining audio quality. ADCs used in digital audio devices support many I2S and SPDIF formats.

I2S is It is a format for transmitting audio signals using three signals such as SCK, LRCK, and DATA. The SPDIF (Sony / Philips Digital Interface) is a bi-phase mark including a sampling clock and a left-right clock in data. ) To send it to one pin.

In addition, the I2S signal is a signal that is difficult to handle because the loss of signal is prone to occur when the length of the wire is synchronously, and multiple lines are used. In the case of the SPDIF signal, data and a clock are transmitted through one line. Because they all transmit, accurate transmission is possible even with slight attenuation during transmission.

Because of these advantages, SPDIF signals are widely used in sound cards, including CDP, MD, Digital Compact Cassette (DDC), Digital Audio Tape (DAT), DAC, and A / V amplifiers.

However, since the conventional technology tunes the output of the head unit 100 through an A / D conversion process in the external amplifier 200 as shown in FIG. 1, a degradation in sound quality may occur. There has been a problem that it is difficult to optimally tune various sound sources (radio, CD, DVD, MP3, DMB, etc.) of the unit 100.

In addition, since navigation audio data and hands-free audio data have a sampling frequency lower than that of main audio data (CD, DVD, MP3, DMB, etc.), there is a problem that coherent tuning is difficult in the external amplifier 200.

In addition, since the head unit 100 and the external amplifier 200 support only one format for transmitting audio signals, there is a problem in that advantages of the mixed use and other formats cannot be used.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object of the present invention is to provide an apparatus for optimal tuning of various sound source sources in an external amplifier by transmitting source values and parameters of each sound source from a head unit. There is this.

Another object of the present invention is to provide consistent tuning by synchronizing the sampling frequencies of navigation audio data and hands-free audio data with the sampling frequency of main audio data.

In addition, another object of the present invention is to provide a device that can support a plurality of formats for transmitting audio signals from the head unit and the external amplifier to take advantage of other formats.

In order to achieve the above object, a first aspect of the present invention provides a head unit, which is provided in a vehicle audio system, converts audio data at a set sampling frequency rate and outputs the set data together with specific information in a set format. It includes an external amplifier that performs the tuning based on specific information of the audio data output from the output.

According to a second aspect of the present invention, in the first aspect, the head unit includes a navigation module for outputting audio data for a navigation service in an I2S format, and a handsfree module for outputting audio data transmitted through a handsfree cellular phone in an I2S format. A main audio processing unit for outputting main audio data in an I2S format, a sampling rate converting unit (SRC) for converting a sampling frequency rate of audio data of the navigation module or hands-free module to a sampling frequency rate of the main audio processing unit; A multiplexer (MUX) for selecting and outputting one of the outputs of the main audio processor or the sampling rate converter, and a main controller (MCU) for outputting specific information of audio data output from the main audio processor to a CAN communication line; It is to include.

A third aspect of the present invention is the second aspect, wherein the head unit further includes an SPDIF encoder for converting and outputting audio data according to a digital audio interface standard output from the multiplexer into a coded output signal.

A fourth aspect of the invention is the second aspect, wherein the specific information is a sound source value and a parameter, the parameter being a volume value, mute on / off information, output speaker selection value, balance Balance / fader, bass / mid / treble, and vehicle speed.

According to a fifth aspect of the present invention, in the first aspect, the external amplifier performs tuning on the basis of specific information on the audio data transmitted from the head unit, and a tuning control unit for selecting a speaker to output, the tuning control unit It includes a digital to analog converter (DAC) for converting the output of the analog signal to output to the selected speaker.

A sixth aspect of the present invention is the fifth aspect, further comprising an SPDIF decoder for extracting audio data from the encoded SPDIF data transmitted from the head unit.

According to a seventh aspect of the present invention, in a vehicle audio system, audio data for a navigation service installed in a vehicle and transmitted through a hands-free mobile phone are output as analog signals, and the main audio data is stored together with specific information. It includes a head unit for outputting in the set digital format, an external amplifier to perform the tuning based on the preset tuning information or the specific information according to the signal type of the audio data transmitted from the head unit to output.

An eighth aspect of the present invention is the seventh aspect of the present invention, wherein the head unit is a navigation module for outputting audio data for a navigation service as an analog signal, and a handsfree module for outputting audio data transmitted through a handsfree cellular phone as an analog signal. A main audio processor for outputting main audio data in I2S format, an SPDIF encoder for converting audio data according to a digital audio interface standard output from the main audio processor into a coded output signal, and an audio output from the main audio processor It includes a main control unit (MCU) for outputting specific information of the data to the CAN communication line.

A ninth aspect of the present invention is the seventh aspect of the present invention, wherein the external amplifier includes a plurality of analog / digital converters (ADCs) for converting analog data output from the head unit into digital data, and the plurality of DACs. A serial interface unit for providing an interface with an apparatus for performing an operation, an SPDIF decoder for extracting audio data from encoded SPDIF data transmitted from the head unit, and audio data output from the serial interface unit or an SPDIF decoder, respectively. A tuning controller which selects a speaker to be output after performing tuning based on one tuning information or specific information, and a plurality of digital / analog converters (DAC) converting the output of the tuning controller into an analog signal and outputting the selected speaker to the selected speaker It will include.

A tenth aspect of the present invention is the seventh aspect, wherein the specific information is a sound source value and a parameter, and the parameter is a volume value, mute on / off information, an output speaker selection value, and a balance. Balance / fader, bass / mid / treble, and vehicle speed.

As described above, according to the in-vehicle audio system according to the present invention, the head unit transmits the source value and the parameter of each sound source, so that the optimum tuning is possible for various sound source sources in the external amplifier, and navigation audio data and hands-free audio data. The effect of synchronizing the sampling frequency of with the sampling frequency of the main audio data is to provide consistent tuning.

In addition, according to the vehicle audio system according to the present invention, it is possible to support a plurality of formats for transmitting audio signals from the head unit and the external amplifier, so that the advantage of other formats can be used, thereby achieving the effect of efficient data transmission.

Briefly, the present invention comprises a head unit and an external amplifier.

In particular, the head unit transmits audio data to be reproduced in an untuned digital signal for efficient tuning of audio data, controls an external amplifier through specific information of the transmitted audio data, and secures efficient data transmission. To use digital format.

In addition, the external amplifier tunes the corresponding audio data based on the specific information to enable optimal tuning for various sound sources.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. In addition, in describing this invention, the same code | symbol is attached | subjected and the repeated description is abbreviate | omitted.

2 is a block diagram showing the configuration of a vehicle audio system according to a first embodiment of the present invention, Figure 3 is a flow chart showing a tuning process of the audio data according to a first embodiment of the present invention.

As shown in FIG. 2, the head unit 300 is installed in a driver's seat of a vehicle, includes a radio receiver, a deck capable of reproducing various media, etc., and also has a display that displays their operation status. In addition, since the user is a member directly operating in the driver's seat, various keys for operation are provided, and the components are controlled by the key operation.

In more detail, the head unit 300 includes a navigation module 310 for outputting audio data for a navigation service in an I2S format, and a handsfree module 320 for outputting audio data transmitted through a handsfree cellular phone in an I2S format. And a sampling frequency of audio data of the main audio processor 330, the navigation module 310, or the hands free module 320, which outputs main audio data (radio, CD, MP3, DMB, etc.) in I2S format. A multiplexer for selecting and outputting one of the outputs of the sampling rate converting unit (SRC, 340), the main audio processing unit 330, or the sampling rate converting unit 340 to convert the sampling rate into the sampling frequency rate of the main audio processing unit 330 ( MUX, 350), and converts the audio data according to the digital audio interface standard output from the multiplexer 350 into a coded output signal for output It consists SPDIF encoder 360 and the main control unit (MCU, 370) for outputting the specific information of the audio data output from the main audio processing part 330 to the can (CAN) communications line.

Meanwhile, the external amplifier 400 operates by connecting an internal line to the deck and the speaker of the driver's seat, and receives the encoded SPDIF data transmitted from the head unit 300 to extract audio data from the encoded SPDIF data. The audio data transmitted from the SPDIF decoder 410 and the head unit 300 is tuned based on the specific information transmitted from the main control unit (MCU) 370, and the speakers 500a to 500n to be output are selected. And a digital / analog converter (DAC) 430 for converting the output of the tuning controller 420 into an analog signal and outputting the analog signal to the selected speakers 500a to 500n.

Referring to FIG. 3 attached to an operation process of the first embodiment configured as described above, when power is applied to the audio system, the external amplifier 400 boots and waits for data transmission from the head unit 300 in a mute state. do.

Thereafter, the head unit 300 transmits audio data to the external amplifier 400. In this case, in the case of audio data or hands-free data for a navigation service, the SRC is configured to enable consistent tuning through synchronization of sampling frequencies. In operation 340, the signal is converted and output at the set sampling frequency rate. At this time, the set sampling frequency uses the sampling frequency of the data output from the main audio processor 330 (Step 100).

In the case of main audio data (radio, CD, MP3, DMB, etc.), the main control unit (MCU) 370 transmits specific information (sound source value and parameter) to the external amplifier 400, which is the main audio. This is to allow for optimal tuning of the data. Here, the parameters include volume value, mute on / off information, output speaker selection value, balance / fader value, bass / mid / treble value, vehicle The speed value is used (Step 200).

Next, when the multiplexer 350 selects and outputs one of the corresponding audio data, the multiplexer 350 converts the audio data into a digital audio format through the SPDIF encoder 360 and transmits the converted digital audio format to the external amplifier 400 (Step 300). The reason why the I2S signal is converted from the I2S format to the SPDIF format is that the I2S signal is difficult to handle because the loss of the signal is prone to occur when the length of the wire is synchronous and the multiple lines are used. Because both the data and the clock are transmitted through the line of, the correct transmission is possible even with slight attenuation during transmission.

Thereafter, the external amplifier 400 receives audio data through the SPDIF decoder 410 and performs tuning by the tuning controller 420 to output the audio data (Step 400 to Step 600).

In this case, in the case of main audio data, tuning is performed based on specific information transmitted from the main control unit (MCU) (Step 500), and the speaker to be output is selected from the speakers 500a to 500n installed in the vehicle. Accordingly, the DAC 430 converts the analog signal into an analog signal and outputs the same to the speaker (Step 600). 4 is a block diagram showing the configuration of an in-vehicle audio system according to a second embodiment of the present invention.

Referring to FIG. 4, an SPDIF encoder 620 is added to the configuration of the conventional head unit 100 shown in FIG. 1 to transmit only data output from the main audio processor 610 in a preset digital format. It is possible to simplify the configuration by adding the SPDIF decoder 710 to the configuration of the conventional external amplifier 200.

That is, the head unit 600 outputs the audio data for the navigation service and the audio data transmitted through the hands-free mobile phone to the external amplifier 700 as analog signals, and outputs the main audio data in the digital format from the SPDIF encoder 620. Output to external amplifier 700. At this time, as in the first embodiment, the main controller (MCU) 630 outputs specific information of the audio data output from the main audio processor 610 to the CAN communication line.

Thereafter, the tuning controller 730 of the external amplifier 700 performs tuning based on preset tuning information when the signal type of the audio data transmitted from the head unit 600 is an analog signal. In the case of a digital signal, audio data is extracted from the digital signal transmitted from the SPDIF decoder 710, and then output is performed by tuning based on the specific information.

As mentioned above, although the invention made by this inventor was demonstrated concretely according to the said 1st, 2nd Example, this invention is not limited to the said Example and can be variously changed in the range which does not deviate from the summary. to be.

1 is a block diagram schematically showing the configuration of a conventional vehicle audio system.

2 is a block diagram showing a configuration of a vehicle audio system according to a first embodiment of the present invention.

3 is a flowchart illustrating a tuning process of audio data according to a first embodiment of the present invention.

Figure 4 is a block diagram showing the configuration of a vehicle audio system according to a second embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100, 300, 600: Head unit 110, 310: Navigation module

120, 320: Hands free module 130, 330, 610: Main audio processing unit

200, 400, 700: External amplifier 350: Multiplexer

360, 620: SPDIF encoder Encoder 370, 630: Main control unit (MCU)

410, 710: SPDIF decoder 420, 720: tuning control unit

430, 730: DAC

Claims (10)

In a car audio system, A head unit installed in a vehicle for converting audio data at a set sampling frequency rate and outputting the set data together with specific information in a set format; And an external amplifier configured to output audio data output from the head unit by performing tuning based on specific information. The method of claim 1, wherein the head unit A navigation module for outputting audio data for a navigation service in an I2S format; Hands-free module that outputs audio data transmitted through the hands-free cell phone in I2S format, A main audio processor for outputting main audio data in I2S format; A sampling rate converting unit (SRC) for converting a rate of sampling frequency of audio data of the navigation module or a hands-free module into a sampling frequency rate of the main audio processing unit; A multiplexer (MUX) for selecting and outputting one of the outputs of the main audio processor or the sampling rate converter; And a main control unit (MCU) for outputting specific information of the audio data output from the main audio processor to a CAN communication line. The method of claim 2, wherein the head unit And an SPDIF encoder for converting audio data according to the digital audio interface standard output from the multiplexer into a coded output signal and outputting the converted audio signal. The method of claim 2, The specific information is a sound source source value and a parameter, and the parameter is a volume value, mute on / off information, an output speaker selection value, a balance / fader value, a bass / mid / treble ( a bass / mid / treble) value, and a vehicle speed value. The method of claim 1, wherein the external amplifier A tuning control unit which performs tuning of audio data transmitted from the head unit based on specific information and selects a speaker to be output; And a digital / analog converter converting the output of the tuning controller into an analog signal and outputting the analog signal to a selected speaker. The method of claim 5, And a SPDIF decoder for extracting audio data from the encoded SPDIF data transmitted from the head unit. In a car audio system, A head unit installed in a vehicle to output audio data for navigation service and audio data transmitted through a hands-free mobile phone as an analog signal, and main audio data in a predetermined digital format together with specific information; And an external amplifier configured to perform tuning based on preset tuning information or the specific information according to a signal type of audio data transmitted from the head unit. The method of claim 7, wherein the head unit A navigation module for outputting audio data for a navigation service as an analog signal; Hands-free module that outputs audio data transmitted through hands-free cell phones as analog signals, A main audio processor for outputting main audio data in I2S format; An SPDIF encoder for converting audio data according to the digital audio interface standard output from the main audio processor into a coded output signal and outputting the encoded audio signal; And a main control unit (MCU) for outputting specific information of the audio data output from the main audio processor to a CAN communication line. The method of claim 7, wherein the external amplifier A plurality of analog / digital converters (ADCs) for converting analog data output from the head unit into digital data; A serial interface unit providing an interface with the plurality of DACs and a device performing tuning; SPDIF decoder for extracting audio data from the encoded SPDIF data transmitted from the head unit, A tuning control unit for tuning the audio data output from the serial interface unit or the SPDIF decoder based on preset tuning information or specific information, and then selecting a speaker to be output; And a plurality of digital / analog converters converting the output of the tuning controller into an analog signal and outputting the analog signal to a selected speaker. The method of claim 7, wherein The specific information is a sound source source value and a parameter, and the parameter is a volume value, mute on / off information, an output speaker selection value, a balance / fader value, a bass / mid / treble ( a bass / mid / treble) value, and a vehicle speed value.

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