JP2011234247A - Electronic equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable the control for suppressing noise generation and the control for power-saving in a non-operating state.SOLUTION: An electronic equipment with a speaker includes: a terminal for connecting an external equipment that outputs an audio signal; detection means detecting that a connection member for connecting the external equipment is connected to or disconnected from the terminal; an audio codec provided with a digital circuit for processing audio data in an operating state of the electronic equipment, and an analog circuit that includes an amplifying function for amplifying the audio signal inputted via the terminal and outputting the amplified audio signal to the speaker in a non-operating state of the electronic equipment; a power source circuit that supplies a power; and control means that controls the power supply from the power source circuit to the analog circuit, based on which state of the operating state or the non-operating state the electronic equipment is in and whether or not the connection member is connected to the terminal.

Description

  Embodiments described herein relate generally to an electronic apparatus having a speaker.

  2. Description of the Related Art Conventionally, in an electronic device such as a personal computer having a speaker, volume change and mute setting in an audio output function are performed by controlling an audio codec through an audio control program. When the audio codec has the power saving mode, the power consumption can be reduced by shifting the audio codec to the power saving mode by the mode control according to the use state.

  Conventionally, when the audio codec is set to the power saving mode, there is a case where sound noise is generated when the power supply is switched. Therefore, in the prior art, when the voice output is obviously not required as in the standby state, the voice amplifier is left energized after setting the voice amplifier to the mute state when shifting to the standby state. By shifting to the power saving state, generation of voice noise is suppressed and power saving is achieved.

JP 2006-340282 A

  As described above, in the related art, when the mute setting is enabled, the electronic device is shifted to the mute state when the electronic device is in the operating state, and then shifted to the power saving state. That is, conventionally, control for suppressing the generation of audio noise for the audio output function when the electronic device is in a non-operating state and control for achieving power saving are not considered.

  An object of the present invention is to enable control for suppressing generation of noise and control for power saving when in a non-operating state.

  In order to solve the above-described problem, according to an embodiment, in an electronic device having a speaker, a terminal for connecting an external device that outputs an audio signal and a connection member for connecting the external device are connected to the terminal. Detection means for detecting connection or disconnection, a digital circuit for processing audio data when the electronic device is in an operating state, and audio input through the terminal when the electronic device is in an inactive state An audio codec provided with an analog circuit including an amplifier function for amplifying a signal and outputting the amplified signal to the speaker, a power supply circuit for supplying power, whether in the operating state or the non-operating state, and the terminal Control means for controlling power supply from the power supply circuit to the analog circuit based on whether the connection member is connected or not. And wherein the door.

1 is an external view illustrating a configuration of an electronic device according to an embodiment. The block diagram which shows the system configuration | structure of the personal computer in this embodiment. The block diagram which shows the periphery structure of the audio codec in this embodiment. The figure which shows the internal structure of the audio codec in this embodiment, and the example of a power supply. The figure which shows operation | movement when a plug is inserted / extracted with respect to a line-in terminal after transfering from system state S0 in this embodiment to S3. The figure which shows the operation | movement at the time of transfering from system state S0 to S3 / S4 / S5 with a plug inserted in the line-in terminal in this embodiment. The figure which shows the operation | movement at the time of shifting to S0 from system state S3 / S4 / S5 after a plug is removed from the line-in terminal in this embodiment. The figure which shows the operation | movement at the time of transfering from system state S3 / S4 / S5 to S0, with a plug inserted in the line-in terminal in this embodiment.

Hereinafter, embodiments will be described with reference to the drawings.
FIG. 1 is an external view illustrating a configuration of an electronic device according to the present embodiment. This electronic device is realized as, for example, a notebook portable personal computer 10. When the personal computer 10 according to the present embodiment is in a non-operating state, an analog audio signal output from an external device with a line-out (for example, a portable audio player 25) is input, and the speaker 18 mounted on the housing. Has an audio output function (sleep and music function).

  When the output from the audio player 25 is directly connected to a speaker, the output of the audio player 25 is smaller than the capability of the speaker, so that a sound with a sufficient volume cannot be output. The audio output function provided in the personal computer 10 according to the present embodiment supplies power to an analog circuit (amplifier) for amplifying a built-in audio signal even when the personal computer 10 is not in operation. The audio signal from the player 25 can be amplified and output from the speaker 18.

  The non-operating state of the personal computer 10 is referred to as, for example, a power-off state (shutdown) (system state S5), standby / sleep / suspend (system state S3), and hibernation (rest state) (system state S4). It shall include the state to be done. That is, the non-operating state is a state where the processor (CPU 30) is not operating. The power-on state is the system state S0.

  FIG. 1 is a perspective view of the personal computer 10 with the display unit opened. The personal computer 10 includes a computer main body 11 and a display unit 12. The display unit 12 incorporates a display device composed of an LCD (Liquid Crystal Display) 17, and the display screen of the LCD 17 is positioned substantially at the center of the display unit 12.

  The display unit 12 is attached to the computer main body 11 so as to be rotatable by a hinge mechanism 21 between an open position and a closed position. The computer main body 11 has a thin box-shaped housing in which a battery can be removably inserted.

  On the top surface of the computer main body 11, a keyboard 13, a power button switch 14 for power on / off, a general-purpose hardware button 15, a touch pad 16, a speaker 18, and the like are arranged.

  A line-in terminal 19 (jack) for inputting an analog audio signal output from the audio player 25 is provided on the side surface of the computer main body 11. A cable 26 connected to the line-out terminal of the audio player 25 can be connected to the line-in terminal 19 by a plug 27.

  Next, the system configuration of the personal computer 10 in the present embodiment will be described with reference to FIG.

  As shown in FIG. 2, the personal computer 10 includes a CPU 30, an MCH 31 (north bridge), a main memory 32, a display controller 35, an ICH 40 (south bridge), a hard disk drive (HDD) 41, a BIOS-ROM 42, an embedded controller / keyboard controller. An IC (EC / KBC) 45, a power supply circuit 46, and the like are provided.

  The CPU 30 is a processor provided for controlling the operation of the personal computer 10, and includes an operating system (OS), drivers for controlling various hardware, various application programs, and the like loaded from the HDD 41 to the main memory 32. Execute. Further, the CPU 30 also executes a system BIOS (Basic Input Output System) stored in the BIOS-ROM 42. The system BIOS is a program for hardware control.

  The MCH 31 is a bridge device that connects the local bus of the CPU 30 and the ICH 40. The MCH 31 also includes a memory controller that controls access to the main memory 32.

  The display controller 35 controls the LCD 17 that is used as a display monitor of the personal computer 10. The display controller 35 executes display processing (graphics calculation processing) for drawing a frame group in the video memory (VRAM) based on a drawing request transmitted from the CPU 30 via the MCH 31.

  The ICH 40 includes an IDE (Integrated Drive Electronics) controller and a Serial ATA controller for controlling the HDD 41 and an optical disk drive (not shown).

  The embedded controller / keyboard controller IC (EC / KBC) 45 integrates an embedded controller for power management and a keyboard controller for controlling the keyboard (KB) 13, the touch pad 16, and the general-purpose hardware buttons 18. And a one-chip microcomputer.

  The EC / KBC 45 has a function of controlling the power supply circuit 46 in accordance with the operation of the power button switch 14 by the user to power on / off the personal computer 10. The power-on / power-off control of the personal computer 10 is executed by the joint operation of the EC / KBC 45 and the power supply circuit 46. The EC / KBC 45 is a module that is supplied with power from the power supply circuit 46 in any system state including the case where the personal computer 10 is in a non-operating state (power off state), and the personal computer 10 is in a non-operating state. It is used as a controller for controlling the voice output function (sleep and music function) used. In addition to the EC / KBC 45, if a controller operable in the power-off state is mounted, the audio output function may be controlled by this controller.

  The power supply circuit 46 receives power supply from a battery 47 inserted into the computer main body 11 or an external power supply connected via the AC adapter 48 to generate and supply operating power to each component. The power supply circuit 46 is provided with a power supply microcomputer. The power supply microcomputer monitors the power supply (charge / discharge) to each component and the battery and the charge state of the battery.

  The power supply circuit 46 controls on / off of power supply to each module by control according to the system state of the personal computer 10 by the EC / KBC 45. In the present embodiment, the power supply circuit 46 includes modules related to the sound output function in order to operate the sound output function (sleep and music function) when the personal computer 10 is not in operation (system states S3, S4, S5). A power supply system for supplying power to is provided. This power supply system supplies power to the audio codec 50 that processes analog audio signals even when the personal computer 10 is not in operation.

  The audio codec 50 converts the digital audio data input through the ICH 40 into an analog audio signal, and adjusts the volume or sound quality (sound effect) by controlling the OS, device driver, audio reproduction program, and the like to the speaker 18. Output. Similarly, when the personal computer 10 is in an operating state, the audio codec 50 performs signal processing such as volume adjustment of an analog audio signal input from the audio player 25 input via the line-in terminal 19. To the speaker 18. Further, the audio codec 50 amplifies an analog audio signal input via the line-in terminal 19 by an amplifier function when the personal computer 10 is not in operation and the audio output function is operated, and the speaker 18 Output to. The audio codec 50 is provided with a mute module for stopping the audio output. The mute module is controlled by a mute signal (“SNDMUT #” signal) from the EC / KBC 45. The detailed configuration of the audio codec 50 will be described with reference to FIGS.

  The switch 52 (or sensor) is built in the line-in terminal 19. The switch 52 is turned on / off by insertion of a plug 27 (connection member) for connecting the cable 26 to the line-in terminal 19, and a detection signal ("LINE" signal) corresponding to the on / off state is sent to the EC. / Output to KBC45.

  The power switch 53 switches on / off the power supply from the power circuit 46 to the audio codec 50 in response to a power control signal (“AMPON” signal) from the EC / KBC 45.

FIG. 3 is a block diagram showing a peripheral configuration of the audio codec 50 in the present embodiment.
As shown in FIG. 3, the audio codec 50 is connected to the line-in terminal 19, and the audio signal output from the audio player 25 is input by inserting (connecting) the plug 27 into the line-in terminal 19. The audio codec 50 is provided with ports A and B. The port A is a port for inputting an audio signal to an analog circuit 50A (described later) constituting the audio codec 50. The port B is a port for inputting an audio signal to a digital circuit 50B (described later) constituting the audio codec 50. FIG. 3 shows two signal lines for inputting a stereo audio signal (RL). An audio signal can also be input via a signal line different from the signal line connected to the line-in terminal 19.

  The “LINE” signal output from the line-in terminal 19 is input to the EC / KBC 45 and the audio codec 50. The power switch 53 is a switch 53A for turning on / off the power supply to the analog circuit of the audio codec 50 (“Codec AVDD”) and the power supply to the common circuit unit 50C of the audio codec 50 (“Codec PVDD, Codec AVDD ") is included in the switch 53B. The EC / KBC 45 controls switching of the switches 53A and 53B by the “AMPON” signal.

FIG. 4 is a diagram showing an internal configuration and an example of power supply of the audio codec 50 in the present embodiment.
The audio codec 50 is divided into an analog circuit 50A, a digital circuit 50B, and a common circuit 50C. The power supplied to the analog circuit 50A is divided into “Codec AVDD”, the power supplied to the digital circuit 50B is divided into “Codec DVDD”, and the power supplied to the common circuit 50C is divided into “Codec PVDD”. When the personal computer 10 becomes non-operating, the supply of the power “Codec DVDD” to the digital circuit 50B is turned off. When the personal computer 10 is in a non-operating state and the sound output function is operated, the power supplies “Codec AVDD” and “Codec PVDD” are respectively supplied to the analog circuit 50A and the common circuit unit 50C under the control of the EC / KBC 45. Is done.

  The analog circuit 50 </ b> A is a circuit that mainly processes an analog audio signal from an external device such as the audio player 25 connected to the personal computer 10. Further, the analog circuit 50A inputs and processes the analog audio signal processed by the digital circuit 50B and DA-converted via the circuit 50A2. The analog circuit 50A has an amplifier function, and an audio signal directly input to the analog circuit 50A, or an audio signal directly input to the analog circuit 50A and an audio signal processed by the digital circuit 50B are output by the circuit 50A2. The mixed audio signal can be amplified and audio can be output from the speaker 18. The analog circuit 50A is provided with a mute module 50A3. The mute module 50A3 is controlled by the “SNDMUT #” signal from the EC / KBC 45, and can stop the output of the audio signal to the speaker 18.

  The digital circuit 50 </ b> B mainly generates audio data generated by processing of the CPU 30 (based on an audio processing program or the like) input via the ICH 40, and audio generated by AD conversion of an audio signal input from an external device. A circuit for processing data. The digital circuit 50B mixes various sounds generated in the personal computer 10 and controls sound effects such as echoes in the system state S0 (operational state). The audio data processed by the digital circuit 50B is DA converted and output to the analog circuit 50A.

  The common circuit 50C is a circuit that mainly performs processing such as power management. The common circuit unit 50C operates when processing is executed in at least one of the analog circuit 50A and the digital circuit 50B.

  When operating the audio output function (sleep and music function), the audio signal from the audio player 25 input from the line-in terminal 19 is directly input to the analog circuit 50A of the audio codec 50. Since the digital circuit 50B executes processing under the control of the CPU 30 that executes a voice processing program or the like, the digital circuit 50B does not operate when the personal computer 10 is in a non-operating state (system states S3 / S4 / S5). On the other hand, the analog circuit 50A does not need to be controlled by the CPU 30 and amplifies an audio signal directly input via the line-in terminal 19 by supplying power (“Codec AVDD”) necessary for operation. Sound can be output from the speaker 18.

  The personal computer 10 in the present embodiment is in a non-operating state, that is, a power-off state (shutdown) (system state S5), standby / sleep / suspend (system state S3), hibernation (rest state) (system state S4). At this time, when it is detected that the plug 27 is inserted into the line-in terminal 19, the audio output function (sleep and music function) is operated by supplying power to the analog circuit 50A of the audio codec 50. Since the EC / KBC 45 is always supplied with power even when the personal computer 10 is not in operation, the “LINE” signal for notifying the line-in terminal 19 that the plug 27 has been inserted or removed. Is constantly monitored. The EC / KBC 45 controls the function and power supply of the audio codec 50 in accordance with the procedure determined according to the “LINE” signal, thereby suppressing the output of noise generated when the system state is switched or when the plug 27 is inserted or removed. Can do.

Next, the operation of the personal computer 10 in this embodiment will be described.
First, the operation when the plug 27 is inserted / removed from / to the line-in terminal 19 after the transition from the system state S0 to S3 will be described with reference to FIG. 5A to 5H show the following.

  “Event” indicates the timing of insertion / extraction (connection / disconnection) of the plug 27 to / from the line-in terminal 19 (jack).

  “HD Audio Reset” is a signal indicating that the audio circuit (audio codec 50) of the personal computer 10 is being reset.

  “SLP_S3 #” is a signal for the personal computer 10 to notify the EC / KBC 45 that the system state is S3, S4, or S5. “SLP_S3 #” is set by the CPU 30. “SLP_S3 #” is set to “0” (valid) in the system state S3 / S4 / S5, for example, and “1” in the system state S0.

  “Codec AVDD” indicates power supplied to the analog circuit 50A of the audio codec 50, “Codec PVDD” indicates power supplied to the common circuit unit 50C, and “Codec DVDD” is supplied to the digital circuit 50B. Indicates the power to be used. In the state of the system state S0, all the power supplies of “Codec AVDD”, “Codec PVDD”, and “Codec DVDD” are turned on. In the state of the system state S3 / S4 / S5, all the power supplies are turned off when the sleep and music function is not operating. When the sleep and music function is operating in the system states S3 / S4 / S5, the power supply “Codec AVDD” and “Codec PVDD” to the analog circuit 50A and the common circuit unit 50C are turned on, and the audio codec 50 (analog The amplifier function of the circuit 50A) is made operable as a speaker amplifier.

  “LINE” is a signal indicating whether or not the plug 27 is inserted into the line-in terminal 19. “LINE” is, for example, “1” when the plug 27 is inserted into the line-in terminal 19 (connection), and “0” when the plug 27 is not inserted (disconnection). “LINE” is notified to both the audio codec 50 and the EC / KBC 45. When in the system state S3 / S4 / S5, the EC / KBC 45 monitors “LINE”.

  “AMPON” is an on / off operation of the power supply “Codec AVDD” supplied to the analog circuit 50A of the audio codec 50 and the power supply “Codec PVDD” supplied to the common circuit unit 50C during the system states S3 / S4 / S5. This is a signal controlled by / KBC45. The EC / KBC 45 switches the power switch 53 (switches 53A and 53B) so that the power supply is turned on by setting the “AMPON” signal to “1” and the power supply is turned off by setting it to “0”. .

  “SNDMUT #” is a signal for controlling, by the EC / KBC 45, mute (valid / invalid) by the audio codec 50 (analog circuit 50A). The EC / KBC 45 enables mute by setting the “SNDMUT #” signal to “0” so that no sound is output from the speaker 18, and disables mute by setting the “SNDMUT #” signal to “1” ( To release.

  “Mode” indicates an operation mode of the audio codec 50, and is a normal operation mode “Codec” in an operating state (when the power is turned on (S0)), and a line when the audio output function is operated in a non-operating state. There is an operation mode “Line in” for outputting an audio signal input from the IN terminal 19.

  When the personal computer 10 shifts from the system state S0 to S3 / S4 / S5, the audio codec 50 (analog circuit) is used to prevent the sound caused by noise generated when the audio codec 50 is turned off from being output from the speaker 18. 50A) is muted and then turned off. That is, the EC / KBC 45 sets the “SNDMUT #” signal to “0” (valid) at the timing T1 when the “SLP_S3 #” signal changes from “1” to “0”, and then performs the “AMPON” signal at the timing T2. The power supply selector switch 53 is switched to turn off the supply of the power supplies “Codec AVDD” and “Codec PVDD” to the analog circuit 50A and the common circuit unit 50C. Note that the power supply “Codec DVDD” for the digital circuit 50B is turned off by transition from the system state S0 to S3 / S4 / S5 without being controlled by the EC / KBC 45.

  In this state, when the EC / KBC 45 detects that the plug 27 is inserted (connected) to the line-in terminal 19 based on the “LINE” signal (timing T3), in order to operate the audio output function, at timing T4. The power supply selector switch 53 is switched by the “AMPON” signal to turn on the supply of power “Codec AVDD” and “Codec PVDD” to the analog circuit 50A and the common circuit unit 50C of the audio codec 50. Note that when the audio output function is operated, power is not supplied to the digital circuit 50B, so that power saving can be achieved.

  The EC / KBC 45 releases the mute by setting the “SNDMUT #” signal to “1” at timing T5 after a sufficient time has elapsed after turning on the power supply to the analog circuit 50A and the common circuit unit 50C. To do. The timing T4 to T5 is sufficient if a time of at least about 0.5 seconds is sufficient, but the value differs depending on the system.

  Thus, after a sufficient time has elapsed after the power supply to the analog circuit 50A and the common circuit unit 50C is turned on, the mute of the audio codec 50 is released. Is not output.

  When the EC / KBC 45 detects that the plug 27 has been removed from the line-in terminal 19 by the “LINE” signal during the operation of the audio output function (timing T6), the “SNDMUT #” signal is immediately transmitted (timing T7). By setting “0”, mute is enabled for the audio codec 50. When the plug 27 is removed from the line-in terminal 19, noise is generated due to the contact of the metal part. However, when the EC / KBC 45 detects that the plug 27 is removed from the line-in terminal 19, the mute is activated immediately. By doing so, the output of noise can be reduced.

  Thereafter, the EC / KBC 45 switches the power supply changeover switch 53 by setting the “AMPON” signal to “0” at timing T8 to supply the power supplies “Codec AVDD” and “Codec PVDD” to the analog circuit 50A and the common circuit unit 50C. Turn off. As a result, the operation of the audio output function is stopped and the power consumption by the audio codec 50 is eliminated, so that power saving can be achieved.

  Next, the operation when shifting from the system state S0 to S3 / S4 / S5 with the plug 27 inserted in the line-in terminal 19 will be described with reference to FIG.

  The EC / KBC 45 is plugged into the line-in terminal 19 by the “LINE” signal even after the transition from the system state S0 to S3 / S4 / S5, that is, after the “SLP_S3 #” signal changes from “1” to “0”. 27 continues to be detected. Accordingly, the EC / KBC 45 keeps the “AMPON” signal at “1” and continues to supply power to the analog circuit 50A and the common circuit unit 50C of the audio codec 50. That is, the voice output function is operated as the personal computer 10 shifts to the non-operating state.

  Note that the power supply “Codec DVDD” for the digital circuit 50B is turned off by transition from the system state S0 to S3 / S4 / S5 without being controlled by the EC / KBC 45. Since there is a possibility that noise may be generated when the power supply to the digital circuit 50B is switched on / off, the EC / KBC 45 receives the “SLP_S3 #” signal at a timing T1 when the signal changes from “1” to “0”. At the same time, the “SNDMUT #” signal is set to “0” to enable the mute by the audio codec 50 (analog circuit 50A). Then, after the “SLP_S3 #” signal changes from “1” to “0”, the EC / KBC 45 completely turns off the supply of “Codec DVDD” and eliminates the possibility of noise being output from the digital circuit 50B. After a sufficient time has elapsed, the mute is released by setting the “SNDMUT #” signal to “1” (invalid) at timing T2. Accordingly, the analog circuit 50 </ b> A of the audio codec 50 amplifies the audio signal input from the line-in terminal 19 and outputs the audio from the speaker 18.

  During the operation of the audio output function, when the EC / KBC 45 detects that the plug 27 has been removed from the line-in terminal 19 based on the “LINE” signal (timing T3), the EC / KBC 45 immediately outputs the “SNDMUT #” signal. The audio codec 50 is muted by setting it to “0” (valid). As a result, it is possible to reduce the output of noise generated when the plug 27 is removed from the line-in terminal 19.

  Thereafter, the EC / KBC 45 switches the power switch 53 by setting the “AMPON” signal to “0” at the timing T5, and supplies the power “Codec AVDD” and “Codec PVDD” to the analog circuit 50A and the common circuit unit 50C. Turn off. As a result, the operation of the audio output function is stopped and the power consumption by the audio codec 50 is eliminated, so that power saving can be achieved.

  Next, an operation when the system state S3 / S4 / S5 is shifted to S0 after the plug 27 is disconnected (cut) from the line-in terminal 19 will be described with reference to FIG.

  When the EC / KBC 45 detects that the plug 27 is removed from the line-in terminal 19 by the “LINE” signal in a state where the audio output function is operated (timing T1), immediately (timing T2), “SNDMUT # "Mute" is enabled for the audio codec 50 by setting the signal to "0" (enabled). As a result, the output of noise generated when the plug 27 is removed from the line-in terminal 19 is reduced.

  Thereafter, the EC / KBC 45 switches the power supply changeover switch 53 by setting the “AMPON” signal to “0” at the timing T3, and supplies the power supplies “Codec AVDD” and “Codec PVDD” to the analog circuit 50A and the common circuit unit 50C. Turn off. As a result, the operation of the audio output function is stopped.

  Thereafter, when the system state shifts from S3 / S4 / S5 to S0, that is, when the “SLP_S3 #” signal changes from “0” to “1”, the EC / KBC 45 changes the “SNDMUT #” signal to “0” ( While maintaining the (effective) state, the “AMPON” signal is set to “1” at the timing T4, and the supply of the power supplies “Codec AVDD” and “Codec PVDD” to the analog circuit 50A and the common circuit unit 50C is turned on. The sound caused by noise generated when the power is turned on is not output from the speaker 18. The EC / KBC 45 then releases the mute by setting the “SNDMUT #” signal to “1” (invalid) at a timing T5 after a sufficient time has passed without the possibility of noise being output. The EC / KBC 45 shifts to the operation in the system state S <b> 0 and passes control over the audio codec 50 to the CPU 30.

  Next, the operation when shifting from the system state S3 / S4 / S5 to S0 while the plug 27 is inserted (connected) to the line-in terminal 19 will be described with reference to FIG.

  During operation of the audio output function, when the EC / KBC 45 detects that the plug 27 is inserted into the line-in terminal 19 based on the “LINE” signal (timing T1), the EC / KBC 45 performs timing T2 to operate the audio output function. The power switch 53 is switched by the “AMPON” signal to turn on the power supply “Codec AVDD” and “Codec PVDD” to the analog circuit 50A and the common circuit unit 50C of the audio codec 50. Note that when the audio output function is operated, power is not supplied to the digital circuit 50B, so that power saving can be achieved.

  The EC / KBC 45 releases the mute by setting the “SNDMUT #” signal to “1” (invalid) at timing T3 after a sufficient time has elapsed after turning on the power supply to the audio codec 50.

  Thereafter, when the EC / KBC 45 detects that the “SLP_S3 #” signal has changed from “0” to “1” at timing T4, the EC / KBC 45 sets the “SNDMUT #” signal to “0” (valid) at timing T5. Enable mute. Then, after a sufficient time has passed since the power supply “Codec DVDD” for the digital circuit 50B is turned on and no noise is generated, the “SNDMUT #” signal is set to “0” (valid) again at timing T6. To cancel mute. The EC / KBC 45 shifts to the operation in the system state S <b> 0 and passes control over the audio codec 50 to the CPU 30.

  In this manner, in the personal computer 10 according to the present embodiment, in the non-operating state (S3 / S4 / S5), the EC / KBC 45 monitors the insertion / extraction of the plug 27 with respect to the line-in terminal 19, and the plug 27 is inserted and the audio is inserted. When an audio signal from the player 25 is input, the audio output function (sleep and music function) can be operated. In order to operate the audio output function, the EC / KBC 45 turns on the power supply only to a part of the circuits (the analog circuit 50A and the common circuit unit 50C) of the audio codec 50, so that power saving can be achieved. . Further, the EC / KBC 45 performs the mute valid / invalid control and the power supply on / off control for the audio codec 50 in an appropriate order and timing, thereby minimizing noise output from the speaker 18. Can be suppressed.

  In the above-described embodiment, an example in which the personal computer 10 is used as an electronic device is shown. However, an electronic device having another speaker and capable of inputting an audio signal from an external device such as the audio player 25 is used. It is also possible.

  Further, the above-described embodiment is not limited as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. Various embodiments can be formed by appropriately combining a plurality of constituent elements disclosed in the above embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine a component suitably in different embodiment.

  DESCRIPTION OF SYMBOLS 10 ... Personal computer, 11 ... Computer main body, 17 ... LCD, 18 ... Speaker, 19 ... Line-in terminal, 30 ... CPU, 32 ... Main memory, 42 ... BIOS-ROM, 45 ... EC / KBC, 46 ... Power supply circuit, 50 ... audio codec, 50A ... analog circuit, 50B ... digital circuit, 50C ... common circuit, 52 ... switch, 53 ... power switch.

Claims (6)

In an electronic device having a speaker,
A terminal for connecting an external device that outputs audio signals;
Detecting means for detecting that a connection member for connecting the external device is connected to or disconnected from the terminal;
A digital circuit that processes audio data when the electronic device is in an operating state; and an amplifier function that amplifies an audio signal input through the terminal when the electronic device is in an inactive state and outputs the amplified audio signal to the speaker. An audio codec provided with an analog circuit including:
A power supply circuit for supplying power;
Control means for controlling power supply from the power supply circuit to the analog circuit based on whether the terminal is in the operating state or the non-operating state and whether the connection member is connected to the terminal. An electronic device comprising the electronic device. The audio codec has a mute module for stopping the output of the audio signal,
The electronic device according to claim 1, wherein the control unit controls the mute module. The control means includes
When the electronic device is shifted to a non-operating state, the output of the audio signal is stopped by the mute module,
When the detection means detects that the connection member is connected to the terminal in the non-operating state, after the power supply to the analog circuit is turned on, the output of the audio signal by the mute module is stopped. Cancel,
When the detection means detects that the connection member is disconnected from the terminal in the non-operating state, the mute module stops outputting the audio signal and then turns off the power supply to the analog circuit. The electronic device according to claim 2, wherein: The control means includes
When it is detected by the detection means that a connection member is connected to the terminal, the power supply to the analog circuit is turned on,
When the operation state is shifted to the non-operation state, the output of the audio signal is stopped by the mute module,
After a sufficient time has passed for the power supply to the digital circuit to be turned off, cancel the output of the audio signal output by the mute module,
When the detection means detects that the connection member is disconnected from the terminal in the non-operating state, the mute module stops outputting the audio signal and then turns off the power supply to the analog circuit. The electronic device according to claim 2, wherein: The control means includes
The analog circuit after the output of the audio signal is stopped by the mute module when the detecting means detects that the connecting member is disconnected from the terminal when the electronic device is in the non-operating state. Turn off the power supply to
3. The stop of output of the audio signal by the mute module is released after power supply to the analog circuit is turned on when the non-operating state is shifted to the operating state. Electronic equipment. The control means includes
When the electronic device is in the non-operating state and the detection means detects that the connection member is connected to the terminal, the power supply to the analog circuit is turned on, and then the mute module Cancel the stop of audio signal output,
When a transition from the non-operational state to the operational state is made, the output of the audio signal by the mute module is stopped, and after a sufficient time has passed for the power supply to the digital circuit to be turned off, the mute module 3. The electronic apparatus according to claim 2, wherein the stop of the output of the audio signal is canceled.

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