JP4992230B2 - Audio system, remote controller, and operation method thereof - Google Patents

Description

  The present invention relates to an audio system, an audio device, and a remote controller.

  In recent years, in addition to portable audio players that reproduce music recorded on music CDs, portable digital audio players that reproduce music files recorded on a hard disk or semiconductor memory have become widespread. An apparatus using such a portable digital audio player has also been developed (see, for example, Patent Document 1).

In addition, a portable audio player can be connected to an audio device (for example, an audio amplifier) with high sound quality and high output by an audio cable, and music reproduced by the portable audio player can be output from a speaker using the audio device. In this way, you can listen to good quality music.
JP 2004-116092 A

However, since the portable audio player and the audio device must be connected by an audio cable, the audio cable may be an obstacle. Also, an input terminal for connecting an audio cable is generally provided on the back surface of the audio device, and it is not easy to connect the audio cable to the audio device. Also, if the audio cable is short, the position where the portable audio player is placed is limited to the surroundings of the audio device, and it is necessary to approach the audio device to operate the portable audio player. It cannot be used.
Accordingly, the present invention has been made to solve the above-described problems, and outputs music / sound reproduced by a portable audio player using the audio device without connecting the portable audio player to the audio device by an audio cable. The purpose is to be able to.

In order to solve the above problems, in the present invention, firstly, the audio system has a remote controller capable of inputting an audio signal output from an audio player through a cable, and an audio device remotely operated by the remote controller. with the door, the remote controller, the operation unit and a code signal generation means for generating a code signal encoded in accordance with a key of the operation unit, the code signal code of the generated code signal by generating means having a key Is inserted into an audio signal input through the cable, a modulation unit that modulates the code signal generated by the code signal generation unit to a frequency different from that of the audio signal input through the cable, and the insertion inserted code by means Comprising a switching means for selectively outputting the code signal modulated by Dio signal and the modulating means, and transmission means for transmitting an output signal by said switching means, said audio apparatus, said transmission Receiving means for receiving a signal transmitted by the means; demultiplexing means for extracting a code signal and an audio signal from the signal received by the receiving means by frequency difference; and inserting into the audio signal extracted by the demultiplexing means Separation means for separating the code signal of the separated code, a function of analyzing the code of the code signal extracted by the branching means , and a function of analyzing the code of the code signal separated by the separation means configuration that includes a computer, and output means for outputting the audio signal obtained by separating encoded by the separating means to the speaker It has adopted.

In the present invention, secondly, a remote controller that remotely operates the audio device includes an operation unit having a key, a code signal generation unit that generates a code signal of a code corresponding to the key of the operation unit, Modulating means for modulating the code signal generated by the code signal generating means to a frequency different from the audio signal input from the audio player through the cable, and inputting the code of the code signal generated by the code signal generating means through the cable and inserting means for inserting into audio signals, and switching means for selectively outputting the code signal modulated by the inserted audio signal and said modulation means the code by the insertion means, output by said switching means And a transmission means for transmitting the transmitted signal.

In the present invention, thirdly, a remote controller having an operation unit having a key and capable of inputting an audio signal output from an audio player through a cable, an audio device remotely operated by the remote controller, When the operation method of the audio system comprising the normal remote control mode, the code signal generation means of the remote controller generates a code signal of a code corresponding to the key of the operation unit, and the modulation means of the remote controller The code signal generated by the signal generation unit is modulated to a frequency different from that of the audio signal input through the cable, and the switching unit of the remote controller selects and outputs the code signal modulated by the modulation unit, Remote controller transmission The stage transmits the code signal output by the switching means to the audio device, the receiving means of the audio device receives the code signal transmitted by the transmitting means, and the demultiplexing means of the audio device is the receiving means. The code signal is extracted according to the frequency of the code signal received by the computer, the computer of the audio device analyzes the code of the code signal extracted by the demultiplexing means, and in the digital audio input mode, the code of the remote controller The signal generation means generates a code signal of a code corresponding to the key of the operation unit, and the remote controller insertion means inputs the code signal code generated by the code signal generation means to the audio signal inputted through the cable. Insert the remote controller into the The switching unit selects and outputs the audio signal into which the code is inserted by the inserting unit, the transmitting unit of the remote controller transmits the audio signal output by the switching unit to the audio device, The receiving unit receives the audio signal transmitted by the transmitting unit, the demultiplexing unit of the audio device extracts the audio signal according to the frequency of the audio signal received by the receiving unit, and the separating unit of the audio device Separates the code signal of the code inserted into the audio signal extracted by the demultiplexing means, the computer of the audio device analyzes the code of the code signal separated by the separation means, and outputs the audio device The code is separated by the separating means. The audio signal is output to the speaker.

In the present invention, fourthly, an operation method of a remote controller having an operation unit having a key, remotely operating an audio device, and inputting an audio signal output from an audio player through a cable is usually a remote control. In the case of the mode, the code signal generation means of the remote controller generates a code signal of the code corresponding to the key of the operation unit, and the modulation means of the remote controller generates the code signal generated by the code signal generation means, The remote controller switching means selects and outputs the code signal modulated by the modulation means, and the remote controller transmission means is output by the switching means. Code signal to the audio device In the digital audio input mode, the code signal generation unit of the remote controller generates a code signal of a code corresponding to the key of the operation unit, and the insertion unit of the remote controller generates the code signal generation unit The code of the coded signal is inserted into the audio signal input through the cable, and the switching means of the remote controller selects and outputs the audio signal into which the code is inserted by the inserting means, and the remote controller The transmission unit is configured to transmit the audio signal output from the switching unit to the audio device.

  According to the present invention, when the audio player is connected to the remote controller via the cable, the audio signal output from the audio player is input to the remote controller, and the audio signal is transmitted to the audio device by the transmission means of the remote controller. Therefore, music / sound reproduced by the audio player can be output using the audio device without connecting the audio player to the audio device by the audio cable. Therefore, the audio player can be placed at a position away from the audio device, the troublesomeness of connecting the audio cable to the audio device is eliminated, and the remote controller can be used effectively.

  In addition, since the frequency of the code signal and the frequency of the audio signal for remotely operating the audio device are different and the code signal and the audio signal are separately extracted by the demultiplexing unit of the audio device, The receiving means of the apparatus can be used both for transmitting and receiving code signals and for transmitting and receiving audio signals. Therefore, the configuration of the remote controller and the audio device is not complicated, and the remote controller and the audio device can be provided at a low cost.

  Further, the code of the code signal generated by the code signal generating means is inserted into the audio signal by the inserting means, and the audio signal with the code inserted is output to the switching means and transmitted by the transmitting means. The code signal is separated from the audio signal by the separating means of the audio device, and the code signal is output to the computer of the audio device. Therefore, even when an audio signal is transmitted from the remote controller to the audio device and music / sound reproduced by the audio player is output using the audio device, the audio device can be remotely operated by the remote controller.

  The best mode for carrying out the present invention will be described below with reference to the drawings. However, although various technically preferable limitations for implementing the present invention are given to the embodiments described below, the scope of the invention is not limited to the following embodiments and illustrated examples.

[First Embodiment]
FIG. 1 is an overall view of an audio system 1 according to the present invention, and FIG. 2 is a block diagram of the audio system 1.

  The audio system 1 includes a digital audio player 100, a remote controller 200, and an audio device 300. Here, the remote controller 200 is an accessory of the audio apparatus 300, and transmits an infrared signal to the audio apparatus 300 to remotely operate the audio apparatus 300. In addition, the digital audio player 100 and the remote controller 200 are connected by a cable 400, and the cable 400 can be detached from either the digital audio player 100 or the remote controller 200.

  The digital audio player 100 includes a microcomputer 101, a DSP (Digital Signal Processor) 103, a digital amplifier 104, an operation unit 105, a display unit 106, a storage unit 107, and a connector 109.

  The storage unit 107 includes a storage medium such as a compact disk, a hard disk, or a semiconductor storage medium, and a drive that reads / writes from / to the storage medium, and stores an audio file compressed in MP3 format, WMA format, AAC format, or ATRAC3 format. Stored in the storage medium of the unit 107. Note that the storage medium of the storage unit 107 may be removable from the digital audio player 100 main body.

  The DSP 103 reads an audio file from the storage unit 107, decompresses the read audio file to generate a digital audio signal, and outputs the generated digital audio signal to the digital amplifier 104.

  The digital amplifier 104 switches and amplifies the digital audio signal input from the DSP 103 using a switching element, extracts an analog audio signal from the amplified signal using a low-pass filter, and outputs the analog audio signal to the speaker and connector 109 of the headphone 111. The analog audio signal extracted by the digital amplifier is input to the remote controller 200 through the connector 109 and the cable 400.

  The headphone 111 has a speaker that converts the analog audio signal input from the digital amplifier 104 into sound.

  The operation unit 105 has various keys such as a play key 105a and a selection key 105b, and outputs an operation signal corresponding to each key to the microcomputer 101 when these keys are pressed.

  The display unit 106 is a display device such as a liquid crystal display or an electroluminescence display, and performs display according to a display control signal input from the microcomputer 101. For example, the name of an audio file selected by the microcomputer 101 and expanded by the DSP 103 is displayed on the display unit 106.

  The microcomputer 101 performs overall control of the digital audio player 100. For example, the microcomputer 101 has a function of selecting one of audio files stored in the storage unit 107 by an operation signal input from the operation unit 105 when the selection key 105b of the operation unit 105 is pressed. A function of transferring a selected audio file or a default audio file from the storage unit 107 to the DSP 103 by an operation signal input from the operation unit 105 when the play key 105a of the operation unit 105 is pressed; The DSP 103 has a function of expanding the transferred audio file, and a function of outputting a display control signal to the display unit 106 and causing the display unit 106 to display.

As will be described in detail later, the voltage V _Play (REM_V signal) output by the DAC (digital-analog converter) 202 of the microcomputer 201 of the remote controller 200 is supplied to the ADC (analog) of the microcomputer 101 via the cable 400. When input to the digital converter 102, the microcomputer 101 transfers the selected audio file or the audio file set by default from the storage unit 107 to the DSP 103, and decompresses the transferred audio file to the DSP 103. .

  The remote controller 200 includes a microcomputer 201, an operation unit 203, a modulation circuit 204, an amplifier 205, an infrared transmission circuit 206, a changeover switch 207, a connector 208, a changeover switch 209, an oscillator 210, and an ADC 211. A data insertion circuit 212 and a DIT (Digital Interface Transmitter) 213.

  The operation unit 203 has various keys such as a play key 203a. When these keys are pressed, an operation signal corresponding to each key is output to the microcomputer 201. The microcomputer 201 stores a remote control code assigned to each key. As shown in FIG. 3, the microcomputer 201 includes a remote control code (consisting of an 8-bit custom code C0, a custom code C1, a data code D, and an inverted data code invD) corresponding to the operation signal input from the operation unit 203. The remote control code functions as a code signal generation means for generating a PPM remote control code signal by a PPM (Pulse Position Modulation) method. Further, as shown in FIG. 4, the microcomputer 201 adds a reader code signal before the generated PPM remote control code signal and a code control signal (with a stop bit signal added after the PPM remote control code signal). REM_I signal) is output to the modulation circuit 204 and the data insertion circuit 212.

  The modulation circuit 204 modulates the code control signal output from the microcomputer 201 with a predetermined carrier frequency (for example, 38 kHz), and the modulated code control signal (the drive signal in FIGS. 3 and 4) via the changeover switch 207. To the amplifier 205.

  The changeover switch 207 selectively outputs the code control signal input from the microcomputer 201 and the interface signal input from the DIT 213 to the amplifier 205. The changeover switch 207 is switched by a switching signal input from the microcomputer 201.

  The changeover switch 209 selectively outputs the analog audio signal (AL_0 signal) input to the connector 208 and the analog audio signal (AL_1 signal) input to the input terminal 214 to the ADC 211. The changeover switch 209 is switched by a switching signal input from the microcomputer 201.

  The oscillator 210 generates a main clock signal (MCLK signal) that is an integral multiple of a predetermined sampling frequency Fs. For example, a signal having a frequency 256 times the sampling frequency Fs is used as the main clock signal. In addition, various frequencies such as 128 times, 512 times, etc. of the sampling frequency Fs are used depending on the IC to be used.

  The ADC 211 converts the input analog audio signal into a digital audio signal (DATA_I signal) by sampling the analog audio signal (AL_0 or AL_1) input from the changeover switch 209 according to the main clock signal input from the oscillator 210. The data is output to the data insertion circuit 212. As shown in FIG. 5, the ADC 211 divides the main clock signal input from the oscillator 210 and outputs a left / right switching clock signal (LRCK signal) having the same frequency as the sampling frequency Fs to the data insertion circuit 212. Further, the ADC 211 divides the main clock signal input from the oscillator 210 and outputs a serial audio clock signal (SCLK signal) that is an integral multiple of the sampling frequency Fs (for example, 64 times the clock signal) to the data insertion circuit 212. Output.

  The data insertion circuit 212 receives the remote control code of the PPM remote control code signal among the code control signals input from the microcomputer 201 in accordance with the left / right switching clock signal and serial audio clock signal input from the ADC 211, and the digital audio input from the ADC 211. It is inserted into the least significant bit (LSB: see FIG. 5) of the signal. Specifically, as shown in FIG. 6, the data insertion circuit 212 samples the PPM remote control code signal of the code control signal input from the microcomputer 201, and holds the PPM remote control code signal. The circuit 221, the timing generation circuit 222 that outputs a signal that becomes high at the timing of the least significant bit of the digital audio signal according to the left / right switching clock signal and serial audio clock signal input from the ADC 211, and the signal input from the timing generation circuit 222 When high, the PPM remote control code signal held by the sample and hold circuit 221 is output, and when the signal input from the timing generation circuit 222 is low, the digital audio input from the ADC 211 And a logic circuit 223 for outputting a degree. 2 and 6, a signal obtained by inserting the PPM remote control code signal output from the microcomputer 201 into the digital audio signal (DATA_I signal) of the ADC 211 is denoted as DATA_O.

  The DIT 213 converts the digital audio signal (DATA_O signal) input from the data insertion circuit 212 into an IEC60958 standard interface signal. The interface signal converted by the DIT 213 is input to the amplifier 205 via the changeover switch 207. Since the interface signal output from the DIT 213 is modulated by the biphase mark signal, when the sampling frequency Fs is 48 kHz, the frequency of the interface signal is 3.07 MHz to 6.14 MHz. Therefore, the frequency of the code control signal modulated by the modulation circuit 204 is different from the frequency of the interface signal.

  When the code control signal of the microcomputer 201 is prioritized by the changeover switch 207, the code control signal input from the microcomputer 201 is amplified by the amplifier 205 and output to the infrared transmission circuit 206, and the digital switch of the DIT 213 is obtained by the changeover switch 207. When the audio signal is prioritized, the digital audio signal of DIT 213 is amplified by the amplifier 205 and output to the infrared transmission circuit 206.

  The infrared transmission circuit 206 causes the infrared light emitting diode to emit light according to the signal input from the amplifier 205, thereby transmitting the signal input from the amplifier 205 to the audio device 300 using infrared light.

  The microcomputer 201 performs overall control of the remote controller 200. For example, as described above, the microcomputer 201 has a function of outputting a code control signal (REM_I signal) to the modulation circuit 204 and the data insertion circuit 212 in accordance with the operation signal input from the operation unit 203.

  The microcomputer 201 has a function of storing an operation flag for determining the operation mode of the remote controller 200. The operation mode of the remote controller 200 includes a normal remote control mode in which the operation flag is “0” and a digital audio player input mode in which the operation flag is “1”.

When the operation flag stored in the microcomputer 201 is “1 (digital audio player input mode)”, the microcomputer 201 gives priority to the digital audio signal of the DIT 213 to the amplifier 205 and outputs the changeover switch 207. And a function of outputting the voltage V _Play to the connector 208 by the DAC 202 when the play key 203a of the operation unit 203 is pressed.

  When the operation flag stored in the microcomputer 201 is “0 (normal remote control mode)”, the microcomputer 201 gives priority to the code control signal of the modulation circuit 204 to the amplifier 205 and outputs the changeover switch 207. It has a function to perform.

  Further, the operation flag stored in the microcomputer 201 is rewritten by any of the following (1) to (4).

(1) Digital Audio Player Input Mode Key of the Operation Unit 203 The operation unit 203 is provided with a digital audio player input mode key 203b. When the digital audio player input mode key 203b of the operation unit 203 is pressed, the microcomputer 201 rewrites the operation flag from “0” to “1”.

(2) Switch of the operation unit 203 The operation unit 203 is provided with a switch. When the switch is switched, the microcomputer 201 rewrites the operation flag from “0” to “1” or vice versa.

(3) Connection Status of Connector 208 The microcomputer 201 detects whether or not the cable 400 is connected to the connector 208. If the cable 400 is not connected to the connector 208 as a result of the detection, the microcomputer 201 stores the operation flag as “0”, and if the cable 400 is connected to the connector 208, the microcomputer 201 The operation flag is stored as “1”.

(4) Zero Detection Output of ADC 211 The ADC 211 has a function of outputting to the microcomputer 201 a zero detection signal that becomes high when an analog audio signal is not input and becomes low when an analog audio signal is input. The microcomputer 201 has a function of measuring the time when the zero detection signal of the ADC 211 is high, a function of storing the operation flag as “0” when the measured time exceeds a predetermined time, and the measured time Has a function of storing the operation flag as “1” when the predetermined time has not elapsed or the zero detection signal of the ADC 211 becomes low.

  In the case where the microcomputer 201 has all the functions (1) to (4) above, it is particularly important which of the above (1) to (4) should be prioritized to determine the operation flag. It is not limited.

  When the microcomputer 201 rewrites the operation flag from “0” to “1”, the microcomputer 201 receives the code control signal including the PPM remote control code signal in which the remote control code is set to “digital audio player input mode”. Output to. As a result, the code control signal is transmitted to the audio device 300 by the light emission of the infrared light emitting diode of the infrared transmission circuit 206.

  The audio apparatus 300 includes a microcomputer 301, an infrared receiving circuit 302, a duplexer 303, a detection circuit 304, a waveform shaping circuit 305, a waveform shaping circuit 306, a DIR (Digital Interface Receiver) 307, and data separation. A circuit 308, a DAC 309, a changeover switch 310, a volume controller 311, and an amplifier 312 are provided.

  The infrared receiving circuit 302 receives the signal transmitted from the infrared transmitting circuit 206 by receiving the infrared light emitted from the infrared transmitting circuit 206 with a light receiving element and performing photoelectric conversion.

  The demultiplexer 303 has a plurality of bandpass filters that extract a signal having a specific frequency component, and demultiplexes the signal input from the infrared transmission circuit 206 to the detection circuit 304 and the waveform shaping circuit 305. Specifically, the duplexer 303 extracts a code control signal by removing unnecessary signals, noise, and the like included in the signal received by the infrared transmission circuit 206 by a bandpass filter, and detects the extracted code control signal. Output to the circuit 304. Further, the duplexer 303 extracts an interface signal by removing unnecessary signals, noises, and the like included in the signal received by the infrared transmission circuit 206 by another band pass filter, and the extracted interface signal is converted into a waveform shaping circuit 306. Output to.

The detection circuit 304 detects the code control signal output from the duplexer 303, demodulates it to the PPM remote control code signal, and outputs the PPM remote control code signal to the waveform shaping circuit 305.
The waveform shaping circuit 305 shapes the waveform of the PPM remote control code signal output from the detection circuit 304 and outputs it to the microcomputer 301.
The microcomputer 301 analyzes the remote control code of the PPM remote control code signal and operates each part of the audio device 300 according to the obtained remote control code. For example, the microcomputer 301 increases or decreases the output of the volume adjuster 311 according to the remote control code.

  The waveform shaping circuit 306 shapes the waveform of the interface signal output from the duplexer 303 and outputs it to the DIR 307.

The DIR 307 converts the IEC60958 standard interface signal input from the waveform shaping circuit 306 into a digital audio signal (DT_I signal). The digital audio signal converted by the DIT 307 is output to the data separation circuit 308. The DIR 307 generates a left / right switching clock signal (LRCK signal) and a serial audio clock signal (BCK signal) according to the input interface signal, and outputs the generated signal to the data separation circuit 308. The DIR 307 selectively converts the interface signal input to the input terminals 313 and 314 and the interface signal input from the waveform shaping circuit 306 into a digital audio signal, and the input switching of the DIR 307 is input from the microcomputer 301. This is performed by a switching signal.

  The data separation circuit 308 separates the remote control code of the least significant bit of the digital audio signal (DT_I signal) input from the DIR 307 as a PPM remote control code signal in accordance with the left / right switching clock signal and serial audio clock signal input from the DIR 307. Specifically, as shown in FIG. 7, the data separation circuit 308 outputs a signal that goes high at the timing of the least significant bit of the digital audio signal in accordance with the left / right switching clock signal and serial audio clock signal input from the DIR 307. When the signal input from the generation circuit 321 and the timing generation circuit 321 is low, the logic circuit 322 outputs the digital audio signal input from the DIR 307, and from the DIR 307 when the signal input from the timing generation circuit 321 is high. A sample-and-hold circuit 323 for sampling the least significant bit of the input digital audio signal, holding the remote control code of the least significant bit, and outputting the PPM remote control code signal of the held remote control code; That. 2 and 7, the separated PPM remote control code signal is indicated as REM_O, and the digital audio signal obtained by separating the PPM remote control code signal is indicated as DT_O.

  The DAC 309 converts the digital audio signal input from the data separation circuit 308 into an analog audio signal, and outputs the analog audio signal to the volume adjuster 311 via the changeover switch 310.

  The changeover switch 310 selectively outputs the analog audio signal input from the DAC 309 and the analog audio signal input from the input terminals 315 and 316 to the volume adjuster 311. Note that the changeover switch 310 is switched by a switching signal input from the microcomputer 301.

The volume adjuster 311 adjusts the magnitude of the analog audio signal input from the changeover switch 310 according to the volume control signal input from the microcomputer 301.
The amplifier 312 amplifies the analog audio signal input from the volume adjuster 311. The amplifier 312 is output means. The analog audio signal amplified by the amplifier 312 is output to the speaker 500, and the analog audio signal input from the amplifier 312 is converted into sound by the speaker 500.

  The microcomputer 301 performs overall control of the audio device 300. For example, the microcomputer 301 outputs a volume control signal in accordance with the PPM remote control code signal input from the data separation circuit 308 or the waveform shaping circuit 305 to the volume adjuster 311, and sets the magnitude of the analog audio signal to the volume adjuster 311. It has the function to adjust by.

  Further, the microcomputer 301 receives the interface signal of the waveform shaping circuit 306 as the data when the PPM remote control code signal in which the remote control code is in the “digital audio player input mode” is input from the data separation circuit 308 or the waveform shaping circuit 305. A function of outputting the DIR 307 in preference to the separation circuit 308. Further, the microcomputer 301 receives the analog audio signal of the DAC 309 as a volume adjuster when a PPM remote control code signal whose remote control code is in the “digital audio player input mode” is input from the data separation circuit 308 or the waveform shaping circuit 305. 311 has a function of giving priority to the output of the changeover switch 310.

  Next, the operation and usage method of the audio system 1 will be described.

(A) In the case of the normal remote control mode When the operation mode of the remote controller 200 is the normal remote control mode, the microcomputer 201 stores an operation flag of “0”. At this time, the microcomputer 201 outputs a change signal to the changeover switch 207, so that the changeover switch 207 outputs the input from the modulation circuit 204 to the amplifier 205. At this time, when the user presses a key on the operation unit 203, an operation signal corresponding to the key is output from the operation unit 203 to the microcomputer 201, and a PPM remote control code signal corresponding to the operation signal input by the microcomputer 201 is output. The code control signal including this is output to the modulation circuit 204. As a result, the code control signal is modulated by the modulation circuit 204, amplified by the amplifier 205, and transmitted by the infrared transmission circuit 206. The code control signal transmitted by the infrared transmission circuit 206 is received by the infrared reception circuit 302, the code control signal is output from the duplexer 303 to the detection circuit 304, and the PPM remote control code signal is detected from the code control signal by the detection circuit 304. The PPM remote control code signal is shaped by the waveform shaping circuit 305 and input to the microcomputer 301. The microcomputer 301 operates in accordance with the input PPM remote control code signal.

(B) Digital Audio Player Input Mode The user connects both ends of the cable 400 to the connectors 109 and 208, respectively.

  When the user presses the digital audio player input mode key 203b of the operation unit 203, the microcomputer 201 rewrites the operation flag from “0” to “1”, and the remote control code becomes “digital audio player input mode”. A code control signal including the PPM remote control code signal is output to the modulation circuit 204, and the code control signal is transmitted to the audio apparatus 300 by the infrared transmission circuit 206. When the code control signal is received by the infrared receiving circuit 302 and the PPM remote control code signal of the code control signal is input from the waveform shaping circuit 305 to the microcomputer 301, the microcomputer 301 sends a switching signal to the DIR 307 and the changeover switch 310. Then, the changeover switch 310 is in a state of outputting the input from the DAC 309 to the volume adjuster 311, and the DIR 307 is in a state of outputting the input from the waveform shaping circuit 306 to the data separation circuit 308.

  When the user releases the press of the digital audio player input mode key 203b, the microcomputer 201 stops outputting the code control signal. Then, the microcomputer 201 outputs a change signal to the changeover switch 207, and the changeover switch 207 enters a state of outputting the input of the DIT 213 to the amplifier 205. Note that the operations of the microcomputer 201 and the microcomputer 301 from when the user presses and releases the digital audio player input mode key 203b may be performed when the cable 400 is inserted into the connector 208. It may be performed when the switch of the unit 203 is switched, or may be performed when an analog audio signal is continuously input to the ADC 211 for a predetermined time.

When the user presses the play key 203 a of the remote controller 200, the voltage V _Play is output by the microcomputer 201, and the microcomputer 101 that has input the voltage V _Play starts to transfer the audio file in the storage unit 107 to the DSP 103. Alternatively, when the user presses the play key 105 a of the digital audio player 100, an operation signal corresponding thereto is input to the microcomputer 101, and the microcomputer 101 starts to transfer the audio file in the storage unit 107 to the DSP 103. As a result, the audio file is reproduced by the digital audio player 100.

  When the audio file is played back by the digital audio player 100, a digital audio signal is generated by decompression by the DSP 103, an analog audio signal is extracted from the digital audio signal output from the DSP 103, and output by the digital amplifier 104. The analog audio signal is input to the headphone 111 and also input to the remote controller 200 via the cable 400.

  When the cable 400 is connected to the connector 208, the input of the changeover switch 209 is switched to the connector 208 side, so that the analog audio signal input from the cable 400 is input to the ADC 211. The analog audio signal is converted into a digital audio signal (DATA_I signal) by the ADC 211, the digital audio signal output from the ADC 211 is input from the data insertion circuit 212 to the DIT 213, and the digital audio signal is converted into an IEC60958 standard interface signal by the DIT 213. The Here, since the input of the changeover switch 207 is switched to the DIT 213 side, the interface signal output from the DIT 213 is input to the amplifier 205 and amplified, and the amplified interface signal is transmitted as an infrared signal by the infrared transmission circuit 206. The

  In the audio apparatus 300, the interface signal is received by the infrared receiving circuit 302, and the interface signal is output to the waveform shaping circuit 306 by extraction of the duplexer 303 and then shaped by the waveform shaping circuit 306. Here, since the input of the DIR 307 is switched to the waveform shaping circuit 306 side, the interface signal output by the waveform shaping circuit 306 is converted into a digital audio signal by the DIR 307, and the digital audio signal output by the DIR 307 is converted into the data separation circuit. The digital audio signal is input from 308 to the DAC 309 and converted into an analog audio signal by the DAC 309. Here, since the input of the changeover switch 310 is switched to the DAC 309 side, the size of the analog audio signal output by the DAC 309 is adjusted by the volume adjuster 311 and the analog audio signal output by the volume adjuster 311 is amplified. Amplified by 312 and output to the speaker 500. As a result, sound is output from the speaker 500.

  When the audio file is played back by the digital audio player 100 and sound is output from the speaker 500, when the user presses a key on the operation unit 203, an operation signal is output by the operation unit 203 and input to the microcomputer 201. . The microcomputer 201 outputs a code control signal including the PPM remote control code signal of the remote control code according to the input operation signal to the data insertion circuit 212. Here, since the input of the changeover switch 207 is switched to the DIT 213 side, the code control signal output from the microcomputer 201 is not input to the amplifier 205.

  The data insertion circuit 212 has the remote control code (value) of the PPM remote control code signal of the code control signal output by the microcomputer 201 at the edge (rising or falling) timing of the left / right switching clock signal output by the ADC 211. Is sampled and held by the sample and hold circuit 221. The held value of the PPM remote control code signal is inserted by the logic circuit 223 at the designated position of the digital audio signal output by the ADC 211 at the timing generated by the timing generation circuit 222. Here, the value of the PPM remote control code signal is inserted into the least significant bit of the digital audio signal.

  The digital audio signal in which the PPM remote control code signal is inserted is converted into an interface signal by the DIT 213 and transmitted to the audio apparatus 300 by the infrared transmission circuit 206. The interface signal received by the infrared receiving circuit 302 is converted into a digital audio signal by the DIR 307. The data separation circuit 308 separates the PPM remote control code signal from the digital audio signal output from the DIR 307 by the sample and hold circuit 323 at the timing created by the timing generation circuit 321. On the other hand, the data separation circuit 308 separates components other than the components of the PPM remote control code signal from the digital audio signal output from the DIR 307 by the logic circuit 322 at the timing created by the timing generation circuit 321.

  A digital audio signal obtained by separating the PPM remote control code signal is input to the DAC 309, and sound is output from the speaker 500. On the other hand, the PPM remote control code signal (REM_O signal) separated by the data separation circuit 308 is input to the microcomputer 301, and the microcomputer 301 operates according to the PPM remote control code signal. Therefore, even when an audio file is reproduced by the digital audio player 100 and sound is output from the speaker 500 by the remote controller 200 and the audio device 300, remote operation by the remote controller 200 is effective, and the user can If the key of the operation unit 203 is pressed, the audio apparatus 300 can be remotely operated accordingly. For example, even if music / sound of an audio file being played back by the digital audio player 100 is output from the speaker 500, if the user presses the volume adjustment key of the operation unit 203, the volume adjuster 311 is activated by the microcomputer 301. Since it is controlled, the volume output from the speaker 500 is adjusted.

  When the operation mode of the remote controller 200 is the digital audio player input mode, that is, when the microcomputer 201 stores the operation flag “1”, the user performs the digital audio player input mode key 203b of the operation unit 203. When the button is pressed, the microcomputer 201 rewrites the operation flag from “1” to “0”, and further, a PPM remote control code signal in which the remote control code is set to “normal remote control mode” is output to the data insertion circuit 212, and the PPM remote control is output. The remote control code of the code signal is inserted into the digital audio signal, and the microcomputer passes through the DIT 213, the changeover switch 207, the infrared transmission circuit 206, the infrared reception circuit 302, the duplexer 303, the waveform shaping circuit 306, and the DIR307. 01 is input to. The microcomputer 301 to which the PPM remote control code signal in which the remote control code is set to the “normal remote control mode” inputs it to the DIR 307 and the changeover switch 310, so that the DIR 307 receives the input from the input terminal 313 or the input terminal 314 as a data separation circuit. In this state, the changeover switch 310 outputs the input from the input terminal 315 or the input terminal 316 to the volume adjuster 311.

  When the user releases the press of the digital audio player input mode key 203b, the microcomputer 201 stops outputting the code control signal. Then, the microcomputer 201 outputs a change signal to the changeover switch 207, and the changeover switch 207 outputs the input of the modulation circuit 204 to the amplifier 205. As a result, the remote controller 200 operates in the normal remote control mode. As described above, the operations of the microcomputer 201 and the microcomputer 301 from when the user presses the digital audio player input mode key 203 b to when it is released are performed even when the cable 400 is disconnected from the connector 208. It may be performed when the switch of the operation unit 203 is switched, or may be performed when an analog audio signal is not continuously input to the ADC 211 for a predetermined time.

  As described above, according to the present embodiment, music / sound reproduced by the digital audio player 100 is output from the speaker 500 using the audio device 300 without connecting the digital audio player 100 to the audio device 300 with an audio cable. be able to. Therefore, the digital audio player 100 can be placed at a position away from the audio device 300, and the troublesomeness of connecting a cable to the back surface of the audio device 300 is eliminated, and the remote controller 200 of the audio device 300 can be used effectively. .

  Further, by modulating the code control signal by the modulation circuit 204, digitizing the audio signal by the ADC 211, or converting the audio signal by the DIT 213, the signal transmitted from the infrared transmission circuit 206 is the same as the code control signal. Since the frequency of the audio signal (interface signal) is different and the signal transmitted from the infrared transmission circuit 206 is demultiplexed into a code control signal and an audio signal (interface signal) by the demultiplexer 303, the infrared transmission of the remote controller 200 is performed. The circuit 206 and the infrared receiving circuit 302 of the audio device 300 can be used both for transmitting / receiving the code control signal and for transmitting / receiving the audio signal. Therefore, the configuration of the remote controller 200 and the audio device 300 is not complicated, and the remote controller 200 and the audio device 300 can be provided at a low cost.

  Further, the code of the PPM remote control code signal generated by the microcomputer 201 of the remote controller 200 is inserted into the digital audio signal by the data insertion circuit 212, and the digital audio signal into which the code is inserted is converted into the interface signal Is transmitted from the remote controller 200 to the audio apparatus 300. In the audio apparatus 300, the PPM remote control code signal is separated from the received digital audio signal (interface signal) by the data separation circuit, and the separated PPM remote control code signal is output to the microcomputer 301. Therefore, even when a digital audio signal is transmitted from the remote controller 200 to the audio device 300 and music / sound reproduced by the digital audio player 100 is output by the audio device 300, the audio device 300 is remotely operated by the remote controller 200. can do.

  In this embodiment, the connector 109 and the connector 208 are connected by the cable 400, but the output terminal 110 and the input terminal 214 for outputting an analog audio signal to the headphones 111 may be connected by a cable. In this case, when a cable is connected to the input terminal 214, the input of the changeover switch 209 is switched to the input terminal 214 side by the microcomputer 201, so that the output terminal 110, the cable, and the input terminal from the digital audio player 100 are switched. The analog audio signal input to the changeover switch 209 through 214 is output to the ADC 211.

[Second Embodiment]
FIG. 8 is a block diagram of an audio system 1A in the second embodiment. In FIG. 8, the same parts as those of the audio system 1 of FIG. 2 are denoted by the same reference numerals, detailed description of the same parts as those of the first embodiment will be omitted, and different parts from the first embodiment will be described.

  In the first embodiment, the audio signal output from the digital audio player 100 is an analog signal. In the second embodiment, the audio signal output from the digital audio player 100 is a digital signal.

  Specifically, the digital audio player 100 further includes a DIT 112, the input of the DIT 112 is connected to the output of the DSP 103, and the connector 109 is not connected to the output of the digital amplifier 104, but is connected to the output of the DIT 112. In addition, the digital audio signal generated by the DSP 103 expanding the audio file in the storage unit 107 is output to the DIT 112 in addition to the digital amplifier 104. The digital audio signal input by the DIT 112 is converted into an interface signal of the IEC60958 standard and output to the connector 109, and the interface signal is input to the connector 208 through the cable 400.

  On the other hand, the remote controller 200 further includes a DIR 215, and the input of the DIR 215 is connected to the connector 208. The input of the ADC 211 is connected to the input terminal 214, not the output of the changeover switch 209, one input of the changeover switch 209 is connected to the output of the ADC 211, and the other input of the changeover switch 209 is connected to the output of the DIR215. The output of the switch 209 is connected to the input of the data insertion circuit 212. Therefore, the interface signal input from the digital audio player 100 to the DIR 215 is converted into a digital audio signal by the DIR 215 and output to the changeover switch 215. When the cable 400 is connected to the connector 208, the input of the changeover switch 209 is switched to the DIR 215 side by the microcomputer 201, so that the digital audio signal (DATA_I signal) output from the DIR 215 and the left / right switching clock signal ( LRCK signal) and serial audio clock signal (SCLK signal) are input to the data insertion circuit 212. The data insertion circuit 212 functions in the same manner as in the first embodiment.

  Also in the present embodiment, music / sound reproduced by the digital audio player 100 can be output from the speaker 500 using the audio device 300 without connecting the digital audio player 100 to the audio device 300 via a cable.

  In each of the above embodiments, the audio player connected to the remote controller 200 is not limited to the digital audio player 100, and may be a disc playback type audio player capable of playing music recorded on a disc. When the disc playback type audio player outputs an analog audio signal, the output of the disc playback type audio player may be connected to the input terminal 214 of FIG. 1 or FIG. 2 or the connector 208 of FIG. When the type audio player outputs a digital audio signal, the output of the disk reproduction type audio player and the connector 208 in FIG. 2 may be connected with a cable.

1 is an overall view of an audio system according to a first embodiment of the present invention. 1 is a block diagram of an audio system according to a first embodiment of the present invention. It is drawing for demonstrating the signal of the remote control code | cord | chord produced | generated by the microcomputer of a remote controller. It is a figure for demonstrating the code control signal produced | generated by the microcomputer of a remote controller. 5 is a diagram for explaining a digital audio signal (DATA_I), a serial audio clock signal (SCLK), and a left / right switching clock signal (LRCK). It is a circuit diagram of a data insertion circuit. It is a circuit diagram of a data separation circuit. It is a block diagram of the audio system in 2nd Embodiment of this invention.

Explanation of symbols

1, 1A audio system 100 digital audio player 200 remote controller 201 microcomputer 203 operation unit 204 modulation circuit 206 infrared transmission circuit 207 changeover switch 208 connector 211 ADC
212 Data insertion circuit 213 DIT
300 Audio Device 301 Microcomputer 302 Infrared Receiving Circuit 303 Demultiplexer 307 DIR
308 Data separation circuit 309 DAC
312 Amplifier 400 Cable 500 Speaker

Claims (4)

A remote controller capable of inputting an audio signal output from an audio player through a cable;
An audio device remotely operated by the remote controller,
The remote controller is
An operation unit having a key;
Code signal generating means for generating a code signal of a code corresponding to a key of the operation unit;
Inserting means for inserting the code of the code signal generated by the code signal generating means into the audio signal input through the cable;
Modulation means for modulating the code signal generated by the code signal generation means to a frequency different from that of the audio signal input through the cable;
And switching means for selectively outputting the code signal modulated by the inserted audio signal and the modulating means the code by the insertion means,
Transmitting means for transmitting the signal output by the switching means ;
With
The audio device is
Receiving means for receiving the signal transmitted by the transmitting means;
A demultiplexing unit for extracting a code signal and an audio signal from a signal received by the receiving unit according to a frequency difference;
Separating means for separating the code signal of the code inserted into the audio signal extracted by the branching means;
A computer having a function of analyzing the code of the code signal extracted by the demultiplexing means , and a function of analyzing the code of the code signal separated by the separating means ;
An audio system comprising: an output unit that outputs an audio signal obtained by separating the code by the separating unit to a speaker. In a remote controller that remotely controls an audio device,
An operation unit having a key;
Code signal generating means for generating a code signal of a code corresponding to a key of the operation unit;
Modulation means for modulating the code signal generated by the code signal generation means to a frequency different from that of an audio signal input from an audio player through a cable;
Inserting means for inserting the code of the code signal generated by the code signal generating means into the audio signal input through the cable;
And switching means for selectively outputting the code signal modulated by the inserted audio signal and said modulation means the code by the insertion means,
A remote controller comprising: transmission means for transmitting a signal output by the switching means. A remote controller having an operation unit having a key and capable of inputting an audio signal output by an audio player through a cable;
An audio device remotely operated by the remote controller, and an operating method of an audio system comprising:
In the normal remote control mode, the code signal generation means of the remote controller generates a code signal of a code corresponding to the key of the operation unit, and the modulation means of the remote controller converts the code signal generated by the code signal generation means. The remote controller switching means selects and outputs the code signal modulated by the modulation means, and the remote controller transmission means is controlled by the switching means. The output code signal is transmitted to the audio device, the receiving unit of the audio device receives the code signal transmitted by the transmitting unit, and the demultiplexing unit of the audio device receives the code signal received by the receiving unit. Extract the code signal by frequency, and Computer analyzes the code of the code signal extracted by said demultiplexing means Dio device,
In the digital audio input mode, the code signal generation means of the remote controller generates a code signal of a code corresponding to the key of the operation unit, and the insertion means of the remote controller generates a code generated by the code signal generation means A signal code is inserted into an audio signal input through the cable, and the switching unit of the remote controller selects and outputs the audio signal into which the code is inserted by the insertion unit, and the transmission unit of the remote controller. Transmits the audio signal output by the switching unit to the audio device, the reception unit of the audio device receives the audio signal transmitted by the transmission unit, and the demultiplexing unit of the audio device receives the reception Audio signal received by means The audio signal is extracted according to the frequency of the audio signal, the separation means of the audio device separates the code signal of the code inserted into the audio signal extracted by the demultiplexing means, and the computer of the audio device uses the separation means. A method for operating an audio system, wherein the code of the separated code signal is analyzed, and the output means of the audio device outputs the audio signal from which the code is separated by the separation means to a speaker. An operation method of a remote controller having an operation unit having a key, remotely operating an audio device, and capable of inputting an audio signal output by an audio player through a cable,
In the normal remote control mode, the code signal generation means of the remote controller generates a code signal of a code corresponding to the key of the operation unit, and the modulation means of the remote controller converts the code signal generated by the code signal generation means. The remote controller switching means selects and outputs the code signal modulated by the modulation means, and the remote controller transmission means is controlled by the switching means. Sending the output code signal to the audio device;
  In the digital audio input mode, the code signal generation means of the remote controller generates a code signal of a code corresponding to the key of the operation unit, and the insertion means of the remote controller generates a code generated by the code signal generation means A signal code is inserted into an audio signal input through the cable, and the switching unit of the remote controller selects and outputs the audio signal into which the code is inserted by the insertion unit, and the transmission unit of the remote controller. Transmitting the audio signal output by the switching means to the audio device.

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