JP2009159443A - Electronic equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide electronic equipment for reducing power consumption when an internal power supply is used. <P>SOLUTION: The electronic equipment 1 includes: a power supply circuit 14 for detecting the connection of an AC adaptor 3 and outputting a control signal based on a power supply state of power supplied from the AC adaptor 3; an infrared light receiving element 13a and an infrared data processing microcomputer 13b which are driven by power supply from the AC adaptor 3; and a power supply switch circuit 16 for switching between power supply and power supply stop from the power supply circuit 14 to the infrared light receiving element 13a and the infrared data processing microcomputer 13b based on the control signal output from the power supply circuit 14. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an electronic device.

  2. Description of the Related Art As a conventional technique, there is an electronic device that switches power supply to a module based on a power supply source in an electronic device that is supplied with power from an external power supply or an internal battery (see, for example, Patent Document 1).

This electronic device has an external power source such as an AC adapter that detachably supplies power, an internal power source such as a rechargeable battery provided inside the main body, and a module such as a LAN card or a modem card. When power is supplied from an external power source when the electronic device is started up, such as when resuming from a state, and the power is supplied from the external power source, power is supplied to the module and power is supplied from the external power source. If not, do not operate the module without supplying power to the module. This makes it possible to stop power supply to communication modules such as LAN cards and modem cards in situations where an external power supply cannot be used, thereby reducing the power consumption of electronic devices when using internal batteries and extending the usage time. can do.
JP 2000-122756 A

  However, according to the conventional electronic device, since the power supply of the external power source is detected when the electronic device is started, the power supply cannot be stopped even if the power supply state of the external power source changes at a timing other than the time of starting the electronic device. Therefore, there is a problem that power consumption when using the internal power supply cannot be reduced.

  Accordingly, an object of the present invention is to provide an electronic device that can reduce power consumption when using an internal power supply.

(1) In order to achieve the above object, the present invention supplies an internal power source for supplying power and power supplied from the internal power source or the external power source to each unit, and detects connection of the external power source, A power supply circuit that outputs a control signal based on a power supply state of power supplied from the external power supply, and an operation signal receiving unit that receives an operation signal transmitted from the outside by being supplied with power from the power supply circuit And a power switch circuit that switches supply or stop of power supply from the power supply circuit to the operation signal receiving unit based on the control signal output from the power supply circuit.

  According to the configuration described above, standby power is consumed in the operation signal receiving unit when the electronic device is driven by the internal power source because the supply of power to the operation signal control unit is stopped based on the power supply state of the external power source. Therefore, the continuous driving time can be increased.

(2) In order to achieve the above object, the present invention supplies an internal power supply for supplying power and power supplied from the internal power supply or the external power supply to each unit and detects connection of the external power supply. A power supply circuit that outputs a control signal based on a power supply state of power supplied from the external power supply, and a state that teaches the power supply state of the external power supply based on the control signal output from the power supply circuit Based on the control signal output from the teaching unit, the operation signal receiving unit that receives an operation signal transmitted from the outside by being supplied with power from the power source circuit, the power source circuit from the power source circuit There is provided an electronic apparatus having a power switch circuit that switches supply or stop of power supply to an operation signal receiving unit.

  According to the configuration described above, in addition to the effect of (1), the user can be informed of the power supply state of the external power supply and the use of the operation signal receiving unit.

  According to the present invention, power consumption when using an internal power supply can be reduced.

  Embodiments of an electronic apparatus according to the present invention will be described below in detail with reference to the drawings.

(Configuration of electronic equipment)
FIG. 1 is a perspective view showing an electronic apparatus according to an embodiment of the present invention.

  The electronic device 1 receives a broadcast wave from the outside via an antenna (not shown) and displays a video, or reproduces music data and video data stored in a built-in storage unit and outputs audio and video. It is a media player that can be remotely operated by a remote control 2 that outputs an operation signal using infrared rays, operates by receiving power supply from an AC adapter 3 that converts household AC power into DC power, and is rechargeable It can also be operated by a power source. The electronic device 1 also stores electronic components such as a CPU (Central Processing Unit) and an HDD (Hard Disc Drive) in the main body 10 and switches the power-on state (power on / off) of the electronic device 1 to the front. Output from the power switch 11, an operation unit 11A composed of a plurality of switches capable of menu operation, volume operation, channel switching operation, etc., a display unit 12 composed of a liquid crystal display panel displaying characters, images, etc., and the remote control 2 output It has the receiving part 13 which receives an infrared operation signal, and DC jack 14a in which DC plug 3a of AC adapter 3 is inserted.

  The remote controller 2 includes a power switch 20 that switches a power-on state (power on / off) of the electronic device 1, an operation unit 20A that includes a plurality of switches having the same operation function as the operation unit 11A, a power switch 20, and an operation unit. And a transmission unit 21 that outputs an operation signal of 20A using infrared rays.

  The AC adapter 3 includes a DC jack 14a that is connected to the DC jack 14a of the electronic device 1 and supplies DC power, and an AC plug 3b that is supplied with power from a household AC power source. An AC power source is converted into a DC power source.

  FIG. 2 is a block diagram showing a configuration of the electronic device according to the embodiment of the present invention.

  The electronic device 1 includes a power switch 11 that outputs an operation control signal for switching a power-on state via the operation signal line 110, an operation unit 11A that outputs an operation signal via the operation signal line 111, and a video signal line 172. An infrared light receiving element 13a serving as an operation signal receiving unit that receives a video signal through the infrared signal line 132 and receives an infrared operation signal from the remote controller 2 by receiving an image signal through the infrared signal line 132. And an infrared data processing microcomputer 13b as an operation signal receiving unit that receives an infrared signal from the infrared light receiving element 13a, converts an operation signal of the remote controller 2 into an operation control signal via the communication line 130, and outputs the operation control signal. Further, the infrared data processing microcomputer 13b transmits an operation control signal for switching the power-on state via the status switching line 131 in accordance with the operation of the power switch 20, and activates the electronic device 1 by switching the status of the CPU 17. End the operation.

  In addition, the electronic device 1 includes a power supply circuit 14 having a voltage detection circuit 14A and an LED control circuit 14B, a battery 15 as an internal power supply made of a chargeable / dischargeable lithium ion battery cell, and an AC adapter detection signal line 140. The electronic switch is controlled by the power switch circuit 16 for switching the power supply to the infrared light receiving element 13a and the infrared data processing microcomputer 13b based on the AC adapter detection signal received via the CPU, the CPU 17 for controlling each part, and the power supply circuit 14. LED 18 that teaches one power supply state.

  When power is supplied from the AC adapter 3, the power supply circuit 14 charges the battery 15 and supplies power to each unit in the electronic device 1. The power supply circuit 14 supplies power supplied from the battery 15 to each unit in the electronic device 1 when power is not supplied from the AC adapter 3. The voltage detection circuit 14A also serves as an overvoltage detection circuit, detects the voltage of the power supplied to the power supply circuit 14, and outputs the AC adapter detection signal via the AC adapter detection signal line 140 based on the detected voltage. Output. The LED control circuit 14B supplies power to the LED 18 based on the power supply state of the power supply circuit 14, and controls the LED 18 to be turned on / flashed and turned off.

  The CPU 17 responds to an operation signal of the infrared data processing microcomputer 13b via the communication line 170. Further, a reset signal is transmitted through the reset signal line 171 to reset the infrared data processing microcomputer 13b.

  In addition, the solid line arrow shown in FIG. 2 is a DC power supply line that supplies power at a specified voltage of the power supply destination. The electronic device 1 also includes a storage unit such as an HDD (not shown), a memory that temporarily stores information and assists the operation of the CPU 17, an audio output unit including a speaker, an earphone jack, and the like, a wireless LAN, and Bluetooth (registered trademark). ) Etc., and a wireless communication unit that communicates with the outside.

  The remote controller 2 includes a power switch 20 that switches a power-on state (power on / off) of the electronic device 1, an operation unit 20A composed of a plurality of switches, a transmission unit 21 that converts operation signals into infrared rays, and a power source. And a control unit 22 that generates an infrared operation signal based on the operation of the switch 20 and the operation unit 20A.

(Operation)
Hereinafter, operations of the electronic device according to the embodiment of the present invention will be described with reference to the drawings.

  When receiving the infrared operation signal from the remote controller 2, the infrared light receiving element 13a transmits an infrared signal to the infrared data processing microcomputer 13b via the infrared signal line 132. The infrared data processing microcomputer 13 b transmits an operation control signal to the CPU 17 via the communication line 130 for the operation signal based on the operation of the operation unit 20 </ b> A among the infrared operation signals received from the remote controller 2. In addition, regarding the operation signal based on the operation of the power switch 20 among the infrared operation signals received from the remote controller 2, the operation control signal is transmitted to the CPU 17 via the status switching line 131. When the CPU 17 receives the operation control signal via the status switching line 131, the CPU 17 switches the power-on state of the electronic device 1. When the CPU 17 receives the operation control signal in the power-off state, the CPU 17 activates the OS to operate the electronic device 1. When the operation control signal is received in the power-on state, the OS is terminated and the operation of the electronic device 1 is terminated.

  When the power supply circuit 14 receives an operation control signal from the power switch 11 via the operation signal line 110, the power supply circuit 14 switches the power-on state of the electronic device 1. When the power supply circuit 14 receives the operation control signal from the power switch 11 in the power-off state, the power supply circuit 14 transmits an activation request signal to activate the OS and operate the electronic device 1 to the CPU 17 using the AC adapter detection signal line. To do. When the operation control signal is received in the power-on state, an operation end request signal is transmitted so as to end the OS and end the operation of the electronic device 1. The power supply circuit 14 transmits a request signal to the CPU 17 and switches supply or stop of power to each unit other than the CPU 17.

  The voltage detection circuit 14 </ b> A of the power supply circuit 14 monitors the voltage of power supplied to the power supply circuit 14. When the AC adapter 3 is connected, power is supplied from the AC adapter 3 to the power supply circuit 14 at DC 5.2V. When the AC adapter 3 is not connected, the battery 15 is supplied to the power supply circuit 14 at DC 4.5V. Since power is supplied, the voltage detection circuit 14A monitors the voltage of the power supplied with, for example, 4.8V as a threshold, and determines whether the AC adapter 3 is connected or disconnected, that is, the power supply state from the AC adapter 3. to decide.

  FIG. 3 is a diagram illustrating an operation example of the electronic apparatus according to the embodiment of the invention.

  When the voltage detection circuit 14A of the power supply circuit 14 determines that the AC adapter 3 is connected, the voltage detection circuit 14A transmits a Low voltage signal as the AC adapter detection signal, and determines that the AC adapter 3 is not connected. A high voltage signal is transmitted as the adapter detection signal. The AC adapter detection signal line 140 is input to the CPU 17 and the power switch circuit 16 to notify the CPU 17 and the power switch circuit 16 of the power supply state from the AC adapter 3.

  When the power switch circuit 16 receives the low voltage AC adapter detection signal via the AC adapter detection signal line 140, the power switch circuit 16 supplies the power supplied from the power circuit to the infrared light receiving element 13a and the infrared data processing microcomputer 13b. . In addition, when a high voltage AC adapter detection signal is received via the AC adapter detection signal line 140, the power supplied from the power supply circuit is not supplied to the infrared light receiving element 13a and the infrared data processing microcomputer 13b. Stop the operation.

  That is, when the AC adapter 3 is connected, the electronic device 1 receives and processes the operation signal transmitted from the remote controller 2 by operating the infrared light receiving element 13a and the infrared data processing microcomputer 13b, and the AC adapter. 3 is not connected, the operation signal transmitted from the remote controller 2 is not received by not operating the infrared light receiving element 13a and the infrared data processing microcomputer 13b, and the remote controller 2 cannot be used.

  Note that an OS (Operation System) operating on the CPU 17 switches between an operating state and a non-operating state corresponding to the power-on state of the electronic device 1 regardless of the connection state of the AC adapter 3. Is connected, power is supplied even in a state where the power of the electronic device 1 is not turned on, and the electronic device 1 is in a standby state. The CPU 17 does not supply power to the CPU 17 only when the AC adapter 3 is not connected and the electronic device 1 is not powered on. That is, even if power is supplied to the infrared light receiving element 13a and the infrared data processing microcomputer 13b, the power switch 20 of the remote control 2 is invalid when the AC adapter 3 is not connected, and the power supply to which only power is supplied is provided. Only the power switch 11 directly connected to the circuit 14 is effective.

  FIG. 4 is a diagram illustrating an operation example of the electronic device according to the embodiment of the present invention.

  The LED control circuit 14B of the power supply circuit 14 turns on the LED 18 when it is determined that the AC adapter 3 is connected in the voltage detection circuit 14A and power is supplied from the AC adapter 3. Further, when the battery 15 is charged by the power supplied from the AC adapter 3, the LED 18 is lit in orange, for example, and when the battery 15 is fully charged, the LED 18 is lit in green.

  The LED control circuit 14B of the power supply circuit 14 blinks the LED 18 in green when it is determined that the voltage detection circuit 14A is not connected to the AC adapter 3 and is supplied with power from the battery 15. Note that when the electronic device 1 is not turned on, or when the power is turned on and the backlight of the display unit 12 is operating, the LED 18 is turned off.

  FIGS. 5A and 5B are schematic diagrams showing display examples on the display unit of the electronic apparatus according to the embodiment of the present invention.

  When the AC adapter 3 is connected to the display unit 12 and power is supplied, the display unit 12 indicates that power is supplied from the AC adapter 3 to the electronic device 1 as shown in FIG. An AC adapter icon 120 </ b> A, a remote control reception icon 121 </ b> A indicating that the electronic device 1 is capable of receiving an infrared operation signal transmitted from the remote controller 2, and a battery whose display is changed according to the remaining power of the battery 15. An indicator icon 122 is displayed.

  When the AC adapter 3 is not connected and power is not supplied to the display unit 12, power is not supplied from the AC adapter 3 to the electronic device 1 as illustrated in FIG. 5B. , An AC adapter non-connection icon 120B indicating that the electronic device 1 is in a state in which the electronic device 1 cannot receive an infrared operation signal transmitted from the remote controller 2, and a battery indicator icon 122 are displayed.

(Effect of embodiment)
According to the first embodiment described above, when power is not supplied from the AC adapter 3, the power supply to the infrared light receiving element 13a and the infrared data processing microcomputer 13b is stopped in order to stop the reception function of the remote controller 2. The power consumption when the electronic device 1 is driven by the battery 15 can be reduced.

  In addition, in the voltage detection circuit 14A as the overvoltage detection circuit of the power supply circuit 14, the power supply status from the AC adapter 3 is always detected, so the infrared light receiving element 13a and the infrared data processing microcomputer 13b are not limited in timing. It can be controlled to supply or stop power to When the electronic device 1 is driven by the battery 15, the electronic device 1 is often carried by a user, and the operation unit 11 </ b> A is directly operated in the carried state. Even if the operation is stopped, the situation where the convenience of the electronic device 1 is reduced is rare.

  Further, according to the lighting pattern of the LED 18 shown in FIG. 4, when the LED 18 is lit, the operation signal of the remote controller 2 can be received, and in other cases, the operation signal of the remote controller 2 cannot be received. Can be taught to the user of the electronic device 1. Further, when the backlight of the display unit 12 is operating, the user is informed of the power supply state of the AC adapter 3 and the operation signal reception state of the remote controller 2 by the icon group displayed on the display unit 12 shown in FIG. it can.

  Note that the electronic device 1 stops the reception function of the remote controller 2 when power is not supplied from the AC adapter 3, and the lighting pattern of the LED 18 is different from that when power is supplied. The user of the electronic device 1 can be informed of the abnormal state at the time of abnormality such as unexpected disconnection from the DC jack 14a or when power supply to the AC plug 3b stops unexpectedly.

It is a perspective view which shows the electronic device which concerns on embodiment of this invention. It is a block diagram which shows the structure of the electronic device which concerns on embodiment of this invention. It is a figure which shows the operation example of the electronic device which concerns on embodiment of this invention. It is a figure which shows the operation example of the electronic device which concerns on embodiment of this invention. (A) And (b) is the schematic which shows the example of a display in the display part of the electronic device which concerns on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Electronic device, 2 ... Remote control, 3 ... AC adapter, 3a ... DC plug, 3b ... AC plug, 10 ... Main body, 11 ... Power switch, 11A ... Operation part, 12 ... Display part, 13 ... Reception part, 13a ... Infrared light receiving element, 13b ... microcomputer for infrared data processing, 14 ... power supply circuit, 14a ... DC jack, 14A ... voltage detection circuit, 14B ... LED control circuit, 15 ... battery, 16 ... power switch circuit, 17 ... CPU, 18 ... LED, 20 ... power switch, 20A ... operation unit, 21 ... transmission unit, 22 ... control unit, 110 ... operation signal line, 111 ... operation signal line, 120A ... AC adapter icon, 120B ... AC adapter unconnected icon, 121A ... Remote control reception icon, 121B ... Remote control reception disabled icon, 122 ... Battery indicator icon, 130 ... Communication Inn, 131 ... Status switch line, 132 ... infrared signal lines, 140 ... adapter detection signal line, 170 ... communication line, 171 ... reset signal line, 172 ... video signal lines

Claims (8)

An internal power supply to supply power;
A power supply that supplies power supplied from the internal power supply or the external power supply to each unit, detects connection of the external power supply, and outputs a control signal based on a power supply state of the power supplied from the external power supply Circuit,
An operation signal receiving unit that receives an operation signal transmitted from the outside by being supplied with power from the power supply circuit;
An electronic apparatus comprising: a power switch circuit that switches supply or stop of power supply from the power supply circuit to the operation signal receiving unit based on the control signal output from the power supply circuit.   When the power switch circuit determines that power is not supplied from the external power supply, the power switch circuit supplies power to each unit by the internal power supply, and the operation signal from the power supply circuit based on the control signal The electronic apparatus according to claim 1, wherein power supply to the receiving unit is stopped.   The electronic device according to claim 2, wherein the power supply circuit detects a power supply source voltage using an overvoltage detection circuit, and detects the power supply state of the external power supply. An internal power supply to supply power;
A power supply that supplies power supplied from the internal power supply or the external power supply to each unit, detects connection of the external power supply, and outputs a control signal based on a power supply state of the power supplied from the external power supply Circuit,
A state teaching unit for teaching the power supply state of the external power source based on the control signal output from the power circuit;
An operation signal receiving unit that receives an operation signal transmitted from the outside by being supplied with power from the power supply circuit;
An electronic apparatus comprising: a power switch circuit that switches supply or stop of power supply from the power supply circuit to the operation signal receiving unit based on the control signal output from the power supply circuit.   When the power switch circuit determines that power is not supplied from the external power supply, the power switch circuit supplies power to each unit by the internal power supply, and the operation signal from the power supply circuit based on the control signal The electronic apparatus according to claim 4, wherein power supply to the control unit is stopped.   The electronic device according to claim 5, wherein the power supply circuit detects an electric power supply source voltage using an overvoltage detection circuit and detects the power supply state of the external power supply.   The state teaching unit teaches an operation state of the operation signal receiving unit by teaching the power supply state of the external power source based on the control signal output from the power supply circuit. 6. The electronic device according to 6.   The electronic apparatus according to claim 1, wherein the operation signal receiving unit includes an infrared light receiving element and an infrared data processing unit.

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