KR20150115308A - Apparatus for playing dsd audio file with external devices and method thereof - Google Patents

Abstract

Disclosed are an apparatus for playing a DSD file by being connected to an external device, and a method thereof. The apparatus according to the present invention comprises: a first processor for setting a first playing route or a second playing route to play a PCM audio file or a DSD audio file in accordance with a command received from a user, and controlling the play of the PCM audio file in accordance with the set first playing route; a second processor for controlling the play of the DSD audio file through the set second playing route; a first switch switched between a communications port connected to the external device, the first processor, and the second processor; a DAC for playing the received PCM audio file or DSD audio file; and a second switch switched between the first processor or the second processor, and the DAC.

Description

[0001] APPARATUS FOR PLAYING DSD AUDIO FILE WITH EXTERNAL DEVICES AND METHOD THEREOF [0002]

The present invention relates to a method for reproducing a DSD audio file and, more particularly, to an apparatus and method for reproducing a DSD audio file by selecting a predetermined processor according to the type of an audio file stored in an external device interlocked with an external device will be.

DSD (Direct Stream Digital) refers to high-quality digital audio recording. When converting the original analog audio signal to digital, the CD is recorded at a sampling rate of 44.1 kHz, whereas the DSD divides data up to 2.8224 MHz, which is 64 times its original data rate.

When the DSD file is reproduced by an audio device, the audio device converts the DSD audio file into a PCM (Pulse Code Modulation) audio file and reproduces the converted PCM audio file.

That is, a central processing unit (CPU) in an audio device transmits a PCM audio file to a DAC through an I2S (inter-interchip sound) transmission method. If a DSD audio file is reproduced in this manner, quality deteriorates.

This is because the DSD audio file is converted into PCM data and played back because the CPU does not support the DSD transmission method for directly transmitting the DSD audio file to the DAC.

Therefore, there is a need for a method for reproducing the original DSM audio file as well as the PCM audio file from the CPU in the audio device without converting the DSM audio file into the PCM audio file.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a system and method for controlling a DSD audio file, And to reproduce an audio file using the processor to which the control right is given, and a method for reproducing the DSD audio file.

However, the objects of the present invention are not limited to those mentioned above, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above objects, an apparatus for reproducing a DSD file according to an aspect of the present invention includes a first reproduction path or a second reproduction path for reproducing a PCM audio file or a DSD audio file according to a command input from a user A first processor for controlling to reproduce the PCM audio file according to the set and set first reproduction path; A second processor for controlling the DSD audio file to be reproduced through the set second reproduction path; A communication port connected to the external device, a first switch which is switched between the first processor and the second processor, A DAC for playing back the received PCM audio file or the DSD audio file; And a second switch that is switched between the first processor or the second processor and the DAC.

Preferably, the first processor controls to switch the second switch to set the first playback path connected to the DAC as a result of switching the second switch when reproducing the PCM audio file according to a command input from the user .

Preferably, when the first reproduction path is set, the first processor converts the PCM audio file to be reproduced according to a control right capable of controlling devices related to reproducing the PCM audio file on the first reproduction path to I2S (Integrated Interchip sound) transmission scheme to the DAC on the first reproduction path.

Preferably, the first processor is connected to the external device as a result of switching the first switch and switching the first switch when reproducing the PCM audio file stored in the external device according to a command input from the user, And to set the first reproduction path connected to the DAC as a result of the switching.

Preferably, when the DSD audio file is reproduced according to a command input from a user, the first processor is connected to the second processor as a result of switching the first switch and switching the second switch, And the second playback path is set by connecting the DAC to the second processor as a result of the switching.

Preferably, when the second reproduction path is set, the first processor transmits a MUTE ON message for setting a MUTE through a predetermined UART channel to the second processor and then applies power to the second processor, And transmits a MUTE OFF message for releasing the MUTE to the second processor after transmitting the control signal.

Preferably, when the second reproduction path is set, the first processor converts the DSD audio file into a DOP (DSD Over PCM) format, generates a DOP packet as a result of the conversion, and transmits the generated DOP packet to a USB (Universal Serial Bus) transmission method to the second processor.

Advantageously, the first processor is operable to transmit to the second processor the DOP packet and to give the second processor control rights to control devices associated with playing the DSD audio file on the second playback path .

Preferably, when the DSD audio file stored in the external device is reproduced according to a command received from a user, the first processor switches the first switch and connects the external device to the second processor as a result of switching the first switch And controls the second playback path to be established by connecting the DAC to the second processor as a result of switching the second switch and switching the second switch.

Preferably, the second processor converts the DSD audio file into a DOP (DSD Over PCM) format from the first processor, receives a DOP packet generated as a result of the conversion, And the DOP packet is transmitted to the DAC on the second reproduction path in accordance with the control right given to the device.

According to another aspect of the present invention, there is provided a method for reproducing a DSD file, the method comprising: receiving a first reproduction path or a second reproduction path according to a processor for reproducing a PCM audio file or a DSD audio file according to a command input from a user, ; Transmitting the PCM audio file or the DSD audio file to the DAC according to the first reproduction path or the second reproduction path set by the first processor or the second processor; And reproducing the PCM audio file or the DSD audio file transmitted by the DAC, wherein the first processor is a communication port connected to an external device, a first switch between the first processor and the second processor, And switches the second switch between the first processor or the second processor and the DAC to set the first reproduction path or the second reproduction path.

Preferably, the setting step may include a step of, when the first processor reproduces the PCM audio file according to a command input from the user, switching the second switch and switching the first reproduction path Is set.

Preferably, when the first reproduction path is set, the first processor may transmit the PCM audio file on the first reproduction path, And the PCM audio file is transmitted to the DAC on the first reproduction path using an I2S (Integrated Interchip sound) transmission method.

Preferably, when the first processor reproduces the PCM audio file stored in the external device according to a command input from the user, the first processor switches the first switch and is connected to the external device as a result of switching the first switch And controls the second switch to switch the first reproduction path connected to the DAC as a result of switching the second switch.

Preferably, the setting step comprises: when the first processor reproduces a DSD audio file according to a command input from a user, the first processor is connected to the second processor as a result of switching the first switch and switching the first switch, 2 switch and switches the DAC to the second processor as a result of switching the second switch to set the second reproduction path.

Preferably, when the second reproduction path is set, the first processor transmits a MUTE ON message to the second processor to set a MUTE on a predetermined UART channel, and then applies power to the second processor, And transmits a MUTE OFF message for releasing the MUTE to the second processor after transmitting a control signal through the URAT channel.

Preferably, when the first reproduction path is set, the first processor converts the DSD audio file into a DOP (DSD Over PCM) format, generates a DOP packet as a result of the conversion, And the DOP packet is transmitted to the second processor using a universal serial bus (USB) transmission scheme.

Advantageously, the setting step includes a control authority to control devices associated with playing the DSD audio file on the second playback path while the first processor is transmitting the DOP packet to the second processor, To the processor.

Preferably, the setting step comprises the steps of: when the first processor reproduces a DSD audio file stored in the external device according to a command input from the user, switching the first switch and switching the first switch to the second processor And controls the second playback path by connecting the external device and connecting the DAC to the second processor as a result of switching the second switch and switching the second switch.

Preferably, in the transmitting, the second processor converts the DSD audio file into a DOP (DSD Over PCM) format from the first processor, receives a DOP packet generated as a result of the conversion, And transmits the DOP packet to the DAC on the second reproduction path in accordance with the control right granted to the device to control the devices related to reproduction of the DSD audio file on the path.

Accordingly, a separate processor for reproducing the DSD audio file according to the present invention is provided, and a control right related to reproduction of an audio file is given to a processor selected according to the type of the audio file to be reproduced, So that native DSD playback can be performed in a portable device.

In addition, since the present invention can perform native DSD reproduction even in a portable device, it is possible to improve the satisfaction of a user who desires to reproduce a high-quality audio file.

1 is a block diagram of an apparatus for reproducing a DSD audio file according to an embodiment of the present invention.
2A and 2B are views for explaining a process of reproducing an audio file stored in the internal memory.
3 is a diagram for explaining a standard of a DOP packet according to an embodiment of the present invention.
4A and 4B are views for explaining a process of reproducing an audio file stored in an external device.
5A and 5B are diagrams showing detailed connection relationships between devices in the apparatus for reproducing a DSD file.
6 is a first diagram illustrating a method for reproducing a PCM audio file according to an embodiment of the present invention.
7 is a first diagram illustrating a method for reproducing a DSD audio file according to an embodiment of the present invention.
8 is a second diagram illustrating a method for reproducing a PCM audio file according to an embodiment of the present invention.
9 is a second diagram illustrating a method for reproducing a DSD audio file according to an embodiment of the present invention.

Hereinafter, an apparatus and method for reproducing a DSD audio file according to an embodiment of the present invention will be described with reference to the accompanying drawings. The present invention will be described in detail with reference to the portions necessary for understanding the operation and operation according to the present invention.

In describing the constituent elements of the present invention, the same reference numerals may be given to constituent elements having the same name, and the same reference numerals may be given thereto even though they are different from each other. However, even in such a case, it does not mean that the corresponding component has different functions according to the embodiment, or does not mean that the different components have the same function. It should be judged based on the description of each component in the example.

In the present invention, a separate processor for reproducing a DSD audio file is provided and a control right related to reproduction of an audio file is given to a processor selected according to the type of the audio file to be reproduced, We propose a new DSD audio file playback method that allows to play files.

Here, DSD (Direct Stream Digital) refers to a digital audio recording method used in a high-quality sound album SACD (Super Audio Compact Disc). In the quantization 1 bit of the DSD, the sampling frequency is 2.8224 MHz which is 64 times the CD sampling frequency 44.1 kHz.

1 is a block diagram illustrating an apparatus for reproducing a DSD file according to an embodiment of the present invention.

As shown in FIG. 1, an apparatus 100 for reproducing a DSD file according to the present invention includes an input unit 110, a first processor 120, a memory 130, a second processor 140, a communication port 150, a first switch 160, a second switch 170, a DAC (Digital Analog Converter) 180, and the like.

The input unit 110 may receive commands related to playing and stopping audio files, such as a PCM audio file, a DSD audio file, etc., according to a user's menu or key operation through the touch screen.

The first processor 120 may reproduce a PCM audio file and a DSD audio file stored in a memory according to a command received from a user, or may play back a PCM audio file and a DSD audio file stored in an external device connected through a communication port, Can be controlled. In particular, the first processor 120 may control to reproduce the PCM audio file through the DAC 180. [

Here, the functions of the first processor 120 will be summarized as follows.

1) When playing PCM audio files (wave, mp3, flac, etc.): When the user selects a PCM file from the UI (User Interface) and plays the selected file, the selected file is read from the storage device into memory and decoded in PCM format I2S transmission method.

2) When playing a DSD audio file: When a user selects a DSD file in the UI, the selected file is read from the storage device into memory, converted into the DOP format, and transmitted to the second processor through the USB communication path.

The first processor 120 is a processor that operates an operating system. The first processor 120 receives an event input from a user and transmits an event to the media player. When a media file in the storage device is requested by the media player, Reads into the memory or reads the media file from the PC, and then transfers the read media file to the DAC.

The second processor 140 may be a dedicated processor for reproducing the DSD audio file.

At this time, the first processor 120 controls most of the operations of the audio device as a general-purpose AP (Application Processor) or performs a function. The reason why the first processor 120 can not directly reproduce the DSD audio file is that most of the first processors do not support the DSD transmission method and can not directly transmit to the DAC supporting the DSD transmission method. For this reason, the present invention transmits a DSD audio file to a DAC supporting a DSD transmission scheme using a separate second processor 140 supporting the DSD transmission scheme.

That is, the DSD audio file reproduction flow will be briefly described as follows.

The first processor 120 loads the DSD audio file into the memory, converts the DOP format into the DOP format, and transmits the DOP format to the second processor 140 using the USB transmission line, and the second processor 140 converts the DOP format into the original DSD Format and transmits it to the DAC by the DSD transmission method.

As described above, the second processor 140 converts the DOP data transmitted from the first processor 120 into the original DSD format and transmits the converted data to the DAC.

That is, the second processor 140 may control the DSD audio file to be reproduced through the DAC 180. [

At this time, the present invention reproduces a PCM audio file and a DSD audio file by using different reproduction paths. The first processor 120 has a first reproduction path for reproducing a PCM audio file according to a command input from a user And a second reproduction path for reproducing the DSD audio file. That is, when the first processor 120 receives an instruction to reproduce a PCM audio file, the first processor 120 sets a first reproduction path, and upon receiving an instruction to reproduce the DSD audio file, sets the second reproduction path.

Also, the first processor 120 has a control right for reproducing the corresponding audio file through the preset reproduction path. When the PCM audio file needs to be reproduced, the PCM audio file is converted into a predetermined first reproduction path On the other hand, if the DSD audio file needs to be played back, the control authority is given to the second processor 140 to set the DSD audio file in accordance with the control authority granted to the second processor 140 And controls reproduction through the second reproduction path.

Having such control authority, the first processor 120 or the second processor 140 can control devices located on the first reproduction path or the second reproduction path.

For example, when the first processor 120 has control, only the first processor 120 can control the devices involved in reproducing the PCM audio file on the first playback path, while the second processor 140 controls Can not.

Conversely, when the second processor 140 has control, only the second processor 140 can control the devices involved in reproducing the DSD audio file on the second playback path, while the first processor 120 controls Can not.

Basically, the control authority is owned by the first processor 120 and is given to the second processor 140 as needed, and the second processor 140 returns the control authority after the operation is completed.

A process of reproducing a PCM audio file or a DSD audio file in the DSD audio file reproducing apparatus according to the present invention will be described in detail with reference to FIG. 2 to FIG.

2A and 2B are views for explaining a process of reproducing an audio file stored in the internal memory.

Referring to FIG. 2A, when a user requests to play a PCM audio file stored in the playback apparatus, the first processor 120 may set a first playback path for playing the PCM audio file.

For example, the first processor 120 switches the PCM audio file stored in the memory through the second switch 170 to I2S (" I ") via the second switch 170 by controlling the second processor 170 to switch to connect to the DAC 180 as a result of switching the second switch 170 Integrated Interchip sound) transmission to the DAC.

Here, I2S means one kind of interface for transmitting an audio signal. In the present invention, a PCM audio file is transmitted using the I2S transmission method.

That is, the first processor 120 has a control right related to reproducing the PCM audio file, sets a first reproduction path for reproducing the PCM audio file according to the control authority, and based on the set first reproduction path, The audio file is transmitted and reproduced.

Referring to FIG. 2B, when a user requests to reproduce a DSD audio file stored in the reproducing apparatus, the first processor 120 may set a second reproducing path for reproducing the DSD audio file.

For example, the first processor 120 controls the first switch 160 to be connected to the second processor 140 as a result of switching the first switch 160, switches the second switch 170, Processor 140 to connect to the DAC 180 and then send the DSD audio file to the second processor 140 so that the second processor 140 transmits the DSD audio file via the second reproduction path and plays .

That is, the first processor 120 gives the control authority related to playing back the DSD audio file to the second processor 140, and the second processor 140 gives the second playback path predetermined according to the control authority The DSD audio file is transmitted and reproduced based on the DSD audio file.

The roles of the first processor and the second processor in the process of reproducing the DSD audio file will be described in detail as follows.

When the user selects a DSD audio file from the reproduction file list and requests reproduction, the first processor 120 sets a switch for setting a reproduction path for reproduction and transmission of the DSD audio file.

The first processor 120 applies power to the second processor. At this time, the first processor transmits the MUTE ON message to the second processor in advance using the UART channel in order to process a pop noise, which is an electric impact sound generated when the power of the audio equipment is turned on / off.

When the second processor is powered on, the second processor loads the program from the boot ROM to boot normally, and notifies the first processor through the UART channel of a BOOTCOMPLETE message indicating that booting is completed.

When the first processor is notified of the BOOTCOMPLETE message from the second processor, the first processor connects the USB channel, which is a path for transferring data between the first processor and the second processor.

The first processor forwards the volume size information to the second processor via the UART channel, and transmits the MUTE OFF message to the second processor via the UART channel to release the MUTE.

The first processor loads the DSD file into the memory, converts the DOP format into a DOP format, and transmits the DOP format to the second processor through the USB transmission line in units of a predetermined size.

The second processor 140 periodically converts the received DOP data into the original native DSD format, and then transmits the DOP data to the DAC using the DSD transmission method.

At this time, when the user controls the volume while reproducing the DSD audio file, the first processor transmits the volume information message to the second processor through the UART channel.

 In addition, if the user selects the next song while playing back the DSD audio file, the first processor sends a MUTE ON message to the second processor before the music switching to prevent the pop noise due to the music switching, To the second processor.

By transmitting the MUTE ON message and the MUTE OFF message, the pop noise is reduced.

That is, when playback of the DSD audio file starts, the first processor 120 processes the UI event of the user, outputs the playback information, and periodically transmits the DSD data to the second processor. Also, the first processor 120 may send a command to the second processor 140 to regulate the playback start, the playback stop, and the volume of the DAC.

Accordingly, the second processor 140 receives the DOP data from the first processor 120 and transmits the DOP data to the DAC, or processes the command received from the first processor 120.

This way of playing a DSD audio file in a DAC is called native DSD playback.

At this time, the first processor 120 may convert the DSD audio file into the DOP (DSD Over PCM) format and provide it to the second processor 140 without providing the DSD audio file to the second processor. Here, DOP refers to a method of packing DSD data into 24-bit PCM data and transmitting the same. That is, DOP is a standard that allows DSD data to be transmitted from a PCM-based device.

3 is a diagram for explaining a standard of a DOP packet according to an embodiment of the present invention.

As shown in FIG. 3, a special separator called a DSD marker (Maker) is inserted into the upper 8 bits of 24 bits of the DOP packet to discriminate that the signal is a DSD, and 1-channel DSD data is inserted into the lower 16 bits .

At this time, the marker of the upper 8 bits may be various kinds according to the version of the DOP standard.

4A and 4B illustrate a process of reproducing a PCM audio file stored in an external device.

Referring to FIG. 4A, when a user requests to play a PMC audio file stored in an external device, the first processor 120 may set a first playback path for playing the PCM audio file.

For example, the first processor 120 controls the first switch 160 to be connected to an external device as a result of switching the first switch 160, and switches the second switch 170 to the DAC 180 as a result of switching The PCM audio file stored in the external device can be transmitted to the DAC through the first switch 170 in the I2S transmission scheme.

That is, the first processor 120 has a control right to reproduce the PCM audio file, and transmits and reproduces the PCM audio file based on the predetermined first reproduction path.

Referring to FIG. 4B, when a user requests to play back a DSD audio file stored in an external device, the first processor 120 may set a second playback path for playing the DSD audio file.

For example, the first processor 120 controls the second processor 140 to be connected to an external device as a result of switching the first switch 160, and switches the second switch 170 to switch the first switch 160 As a result, by controlling the second processor 140 to be connected to the DAC 180, the second processor 140 receives the DSD audio file from the external device and transmits the DSD audio file to the DAC for playback.

That is, the first processor 120 gives the control authority related to playing back the DSD audio file to the second processor 140, and the second processor 140 receives the DSD audio file from the external device according to the control authority The DSD audio file is directly received and transmitted, and the DSD audio file is transmitted and reproduced on the basis of the second reproduction path set in advance.

The role of the first processor in the process of reproducing the DSD audio file will be described in detail as follows.

When the user sets the USB connection mode to the PC-FI mode, the first processor switches the first switch 160 and the second switch 170 as shown in FIG. 4B, USB is connected, and a UI is displayed on the screen indicating that the PC-FI mode is connected.

The external device is connected to the USB of the second processor and the USB DAC operation is performed according to the USB 2.0.0 profile of the second processor. At this time, the role of the first processor is to maintain the standby state until the USB connection between the external device and the second processor is released.

In addition, when the user performs volume control during playback of the DSD audio file, the first processor transfers the volume information message to the second processor via the UART channel to control the volume.

5A and 5B are diagrams showing a detailed connection relationship between devices of a device for playing back a DSD file.

As shown in FIGS. 5A and 5B, the apparatus according to the present invention uses two channels between each component to process an audio signal including an L (Left) signal and an R (Right) .

Particularly, the two switches 170a and 170b are used as the first switch 170 on the reproduction path, and the DAC for reproducing the audio signal also uses the two DACs 180a and 180b.

Also, the first processor 120 and the second processor 140 use two channels. One channel transmits a control command or a control signal, and the other channel transmits audio data or an audio signal. do.

In this case, a UART transmission method is applied to a channel for transmitting a control signal among these two channels, and a USB transmission method is applied to a channel for transmitting audio data.

The UART transmission method is applied only to the channel for transmitting the control signal because the UART transmission method is widely used as a data transmission standard, but it has a short transmission distance and weakness in noise. That is, if the audio data is transmitted through such a UART transmission method in a device for reproducing high-quality audio, the quality may deteriorate.

On the other hand, the USB transmission method is used for the channel for transmitting audio data. This USB transmission method is much faster than serial (serial) port or parallel (parallel) port, so it is suitable for transmitting large audio data Do. In addition, the USB transmission method has two data lines and two power supply lines in the USB cable, which supplies power to itself, so there is no need to supply power to peripheral devices using low power. The line can be extended to overcome the restriction that conventional peripheral devices must be gathered around.

In particular, the channel for transmitting the control signal is a bi-directional channel, in which the second processor transmits the event to the first processor or the first processor transmits the instruction to the second processor.

The data packet used in the UART transmission method is a predetermined value between both ends, and is a command name, a key field indicating an event name, a length field indicating the length of a value field, and a parameter value used for a key. value field.

Such a UART transmission scheme between the first processor and the second processor should be implemented to have a minimal effect on the operation for reproducing the DSD audio file of the second processor.

A brief description of the process of playing a PCM audio file and a DSD audio file will be provided.

Referring to FIG. 5A, when the PCM audio file is reproduced, the first processor 120 switches the transmission line for transmitting the L signal of the PCM audio file as a result of switching the second switch 171, And connects the transmission line for transmitting the R signal of the PCM audio file to the first DAC 181 as a result of switching the second switch 172 and switching it.

Referring to FIG. 5B, when the DSD audio file is reproduced, the second processor 140 switches the L signal of the DSD audio file of the second processor 140 as a result of switching the first switch 161 and switching it And a transmission line for transmitting the R signal of the DSD audio file of the second processor 140 as a result of switching the first switch 162 to the second DAC 182 .

Thus, in order to process an audio signal including an L signal and an R signal, each reproduction path, for example, a first reproduction path and a second reproduction path, must be operated in two channels.

6 is a first diagram illustrating a method for reproducing a PCM audio file according to an embodiment of the present invention.

6, first, the first processor 120 checks whether a command for reproducing a PCM audio file stored in an internal memory has been received (S610). If the command is received as a result of the confirmation, The PCM audio file may be read from the audio file 130 and stored in the internal memory (S620).

At this time, if the user selects a PCM audio file (wave, mp3, flac, etc.) on the UI, the media playback framework of the device performs decoding of each PCM audio file into the PCM format suitable for the I2S transmission method.

Next, the first processor 120 may set the first reproduction path by controlling the first switch 160 to be connected to the DAC 180 as a result of switching the first switch 160 (S630).

At this time, a path for transmitting the PCM audio file is established between the first processor 120 and the DAC 180, and data is transmitted using the I2S transmission method through the set path. In the present invention, it is possible to set a default path so as not to set a path for transmitting data by using the I2S transmission method.

For example, after the DSD file is reproduced according to the control authority granted to the second processor 140, the control authority is returned to the first processor 120, and a predetermined second reproduction path is previously set to the default 1 playback path.

Next, the first processor 120 may transmit the PCM audio file stored in the internal memory to the DAC 180 using the I2S transmission scheme through the first reproduction path (S640).

Next, the DAC 180 can reproduce the transmitted PCM audio file through the output unit (S650). Here, the output device includes a speaker, an earphone, a headset, etc. capable of audio output.

7 is a first diagram illustrating a method for reproducing a DSD audio file according to an embodiment of the present invention.

7, the first processor 120 checks whether a command for reproducing the DSD audio file has been received (S710). If the command is received as a result of the check, the first processor 120 reads the DSD audio file from the memory 130 The audio file can be read and stored in the internal memory (S720).

Next, the first processor 120 converts the DSD audio file stored in the internal memory into the DOP (DSD Over PCM) format and generates a DOP packet as a result of the conversion.

At this time, if the user selects a DSD audio file on the UI, the media playback framework of the device reads the DSD audio file and converts it into the DOP format.

Next, the first processor 120 switches the second switch 170 to transmit the generated DOP packet, and controls the second switch 170 to be connected to the second processor as a result of the switching, and switches the first switch 160 By controlling the second processor 140 to be connected to the DAC 180 as a result of the switching, the second reproduction path can be set (S740). That is, the first processor 120 may control that the second processor 140 for reproducing the DSD audio file is directly connected to the DAC 180. [

At this time, a separate path is set between the first processor 120 and the second processor 140 for transmitting the generated DOP packet by converting the DSD audio file. The USB (Universal Serial Bus) transmission method To transmit the data.

Next, the first processor 120 may transmit the generated DOP packet to the second processor 140 using the USB transmission method through the set second reproduction path (S750).

At this time, the first processor 120 may transmit a control command to the second processor 140 to grant authority to control the devices involved in reproducing the DSD audio file.

At this time, the first processor 120 may transmit a command for controlling the second processor 140 using a UART (Universal Asynchronous Receiver Transmitter). Here, the UART may be a channel for controlling the second processor in the first processor.

Next, when the second processor 140 receives the DOP packet, the second processor 140 extracts the DSD audio file included in the received DOP packet and transmits the extracted DSD audio file to the DAC 180 using the DSD transmission method S760).

Next, the DAC 180 can reproduce the transmitted DSD audio file through the output unit (S770).

8 is a second diagram illustrating a method for reproducing a PCM audio file according to an embodiment of the present invention.

As shown in FIG. 8, the first processor 120 checks whether a command for reproducing a PCM audio file stored in an external device has been received (S810). If the command is received as a result of the confirmation, The second switch 170 is controlled to be connected to the DAC 180 as a result of switching and switching the second switch 170 to control the first switch 160 to be connected to an external device as a result of the switching, (S820).

Next, the first processor 120 requests the PCM audio file stored in the external device (S830), and receives the PCM audio file from the external device using the USB transmission method in response thereto (S840).

At this time, data may be transmitted between the first processor 120 and the external device using a USB transmission method, for example, a PCM audio file.

Next, the first processor 120 may transmit the PCM audio file received from the external device through the first reproduction path to the DAC 180 through the second switch 160 in operation S850.

Next, the DAC 180 can reproduce the transmitted PCM audio file through the output unit (S860).

9 is a second diagram illustrating a method for reproducing a DSD audio file according to an embodiment of the present invention.

9, the first processor 120 checks whether a command for playing back the DSD audio file stored in the external device has been received (S910). If the command is received as a result of the check, the DSD audio file To the external device (S920).

At this time, when the external device receives a request for a DSD audio file from the first processor, the external device converts the corresponding DSD audio file into the DOP format and generates a DOP packet as a result of the conversion.

Next, the first processor 120 switches the first switch 160 and controls the second processor 140 to connect the external device 200 as a result of the switching, and switches the second switch 170 By controlling the second processor to be connected to the DAC 180 as a result of the switching, the second reproduction path can be set (S930).

At this time, the first processor 120 may transmit a control command to the second processor 140 to grant authority to control the devices involved in reproducing the DSD audio file.

Next, the second processor 140 can receive the DOP packet from the external device using the USB transmission method (S940).

Next, when the second processor 140 receives the DOP packet, it extracts the DSD audio file included in the received DOP packet, and transmits the extracted DSD audio file to the DAC 180 using the USB transmission method (S950).

Next, the DAC 180 can reproduce the transmitted DSD audio file through the output unit (S960).

It is to be understood that the present invention is not limited to these embodiments, and all of the elements constituting the embodiments of the present invention described above are described as being combined or operated together. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. In addition, although all of the components may be implemented as one independent hardware, some or all of the components may be selectively combined to perform a part or all of the functions in one or a plurality of hardware. As shown in FIG. In addition, such a computer program may be stored in a computer-readable medium such as a USB memory, a CD disk, a flash memory, etc., and read and executed by a computer to implement embodiments of the present invention. As the storage medium of the computer program, a magnetic recording medium, an optical recording medium, a carrier wave medium, or the like may be included.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or essential characteristics thereof. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

110: input unit
120: a first processor
130: memory
140: second processor
150: Communication port
160: first switch
170: second switch
180: DAC

Claims (20)

A first processor for setting a first reproduction path or a second reproduction path for reproducing a PCM audio file or a DSD audio file according to a command received from a user and controlling the reproduction of the PCM audio file according to the set reproduction path, ;
A second processor for controlling the DSD audio file to be reproduced through the set second reproduction path;
A communication port connected to the external device, a first switch which is switched between the first processor and the second processor,
A DAC for playing back the received PCM audio file or the DSD audio file; And
A second switch that is switched between the first processor or the second processor and the DAC;
Lt; RTI ID = 0.0 > DSD < / RTI > The method according to claim 1,
Wherein the first processor comprises:
And controls to switch the second switch and set the first reproduction path connected to the DAC as a result of switching when the PCM audio file is reproduced according to a command input from the user. / RTI > 3. The method of claim 2,
Wherein the first processor comprises:
When the first reproduction path is set, the PCM audio file to be reproduced according to a control right capable of controlling devices related to reproducing the PCM audio file on the first reproduction path is subjected to an I2S (Integrated Interchip sound) transmission method To the DAC on the first reproduction path. The method according to claim 1,
Wherein the first processor comprises:
When a PCM audio file stored in the external device is reproduced according to a command received from a user, the first switch is connected to the external device as a result of switching the first switch,
And controls to switch the second switch to set the first reproduction path connected to the DAC as a result of switching the second switch. The method according to claim 1,
Wherein the first processor comprises:
When a DSD audio file is reproduced according to a command received from a user, the first switch is connected to the second processor as a result of switching the first switch,
And controls the second playback path to be established by connecting the DAC to the second processor as a result of switching the second switch and switching the second switch. 6. The method of claim 5,
Wherein the first processor comprises:
When the second reproduction path is set, transmitting a MUTE ON message for setting a MUTE through the predetermined UART channel to the second processor and then applying power to the second processor,
And transmits a MUTE OFF message for releasing the MUTE to the second processor after transmitting a control signal through the URAT channel. 6. The method of claim 5,
Wherein the first processor comprises:
When the second reproduction path is set, the DSD audio file is converted into a DOP (DSD Over PCM) format, a DOP packet is generated as a result of the conversion,
And transmits the generated DOP packet to the second processor using a universal serial bus (USB) transmission method. 8. The method of claim 7,
Wherein the first processor comprises:
To the second processor, a control authority to control devices related to reproducing the DSD audio file on the second reproduction path while transmitting the DOP packet to the second processor. . The method according to claim 1,
Wherein the first processor comprises:
When a DSD audio file stored in the external device is reproduced according to a command received from a user, the external device is connected to the second processor as a result of switching the first switch and switching the first switch,
And controls the second playback path to be established by connecting the DAC to the second processor as a result of switching the second switch and switching the second switch. The method according to claim 1,
Wherein the second processor comprises:
Converting the DSD audio file into a DOP (DSD Over PCM) format from the first processor, receiving a DOP packet generated as a result of the conversion,
And transmits the DOP packet to the DAC on the second reproduction path in accordance with the control right granted with the control authority to control devices related to reproduction of the DSD audio file on the second reproduction path. A device for playing back the DSD file. Setting a first reproduction path or a second reproduction path according to a processor for reproducing a PCM audio file or a DSD audio file according to a command input from a user by the first processor;
Transmitting the PCM audio file or the DSD audio file to the DAC according to the first reproduction path or the second reproduction path set by the first processor or the second processor; And
Reproducing the PCM audio file or the DSD audio file received by the DAC;
Wherein the first processor switches the first switch between the first processor and the second processor and the second switch between the first processor or the second processor and the DAC, And switches the switch to set the first reproduction path or the second reproduction path. 12. The method of claim 11,
Wherein the setting step comprises:
And controls the first processor to set the first reproduction path connected to the DAC as a result of switching the second switch and switching the second switch when reproducing the PCM audio file according to a command input from the user A method for playing back a DSD file. 13. The method of claim 12,
Wherein the transmitting comprises:
The PCM audio file to be reproduced according to a control right capable of controlling devices related to playing back the PCM audio file on the first reproduction path, the I2S (Integrated Interchip sound transmission scheme to the DAC on the first reproduction path. 12. The method of claim 11,
Wherein the setting step comprises:
When the first processor reproduces a PCM audio file stored in the external device according to a command input from a user, the first processor switches the first switch and is connected to the external device as a result of switching the first switch,
And controls to switch the second switch to set the first reproduction path connected to the DAC as a result of switching the second switch. 12. The method of claim 11,
Wherein the setting step comprises:
When the first processor reproduces a DSD audio file according to a command input from a user, the first processor is connected to the second processor as a result of switching the first switch and switching the first switch,
And controls the second playback path to be established by connecting the DAC to the second processor as a result of switching the second switch and switching the second switch. 16. The method of claim 15,
Wherein the transmitting comprises:
Wherein when the second reproduction path is set, the first processor transmits a MUTE ON message for setting a MUTE through the predetermined UART channel to the second processor and then applies power to the second processor,
And transmitting a MUTE OFF message for releasing the MUTE to the second processor after transmitting a control signal through the URAT channel. 16. The method of claim 15,
Wherein the transmitting comprises:
Wherein when the first reproduction path is set by the first processor, the DSD audio file is converted into a DOP (DSD Over PCM) format, a DOP packet is generated as a result of the conversion,
And transmitting the generated DOP packet to the second processor using a universal serial bus (USB) transmission method. 18. The method of claim 17,
Wherein the setting step comprises:
Wherein the first processor gives the second processor control authority to control devices related to reproducing the DSD audio file on the second reproduction path while transmitting the DOP packet to the second processor A method for playing a DSD file. 12. The method of claim 11,
Wherein the setting step comprises:
Wherein the first processor switches the first switch and connects the external device to the second processor as a result of switching the first switch when reproducing the DSD audio file stored in the external device according to a command input from the user,
And controlling the second reproduction path to be established by connecting the DAC to the second processor as a result of switching the second switch and switching the second switch. 12. The method of claim 11,
Wherein the transmitting comprises:
Wherein the second processor converts the DSD audio file into a DOP (DSD Over PCM) format from the first processor, receives the DOP packet generated as a result of the conversion,
And transmits the DOP packet to the DAC on the second reproduction path in accordance with the control right granted with the control authority to control devices related to reproduction of the DSD audio file on the second reproduction path. A method for playing back a DSD file.

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