JP2010262216A - Power source control circuit and electronic equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technology for easily switching power supply to an external device when there is power supply from the external device via a communication cable. <P>SOLUTION: This power source control circuit includes an internal power source, an input/output section for performing data communication between it and the external device and receiving power supply from the external device, an operation control section that operates based on power supply from the internal power source or power supply from the external device and operates at least a part of the function of a display section for displaying an image or information, and a switching section for switching the power supply to the operation control section to the power supply from the external device when the input/output section receives the power supply from the external device. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a power supply control circuit for controlling power supplied from a communication cable and an electronic device.

Conventionally, an external device such as a computer or a printer is connected to an electronic device such as an electronic camera, a mobile phone, or a portable music player using a communication cable based on a standard such as USB ( _{Universal Serial Bus} ) or IEEE 1394. In addition to exchanges, operation of all or part of functions of the electronic device, charging of a battery built in the electronic device, and the like are performed by supplying power from an external device.

  For example, in Patent Document 1, when an electronic video camera is operated with power from an AC adapter or a built-in battery and connected to an external device such as a computer or a printer with a USB cable, the electronic video camera is connected to the external device. In addition to data communication, power supply from an external device causes some circuits such as the USB control unit, liquid crystal display (LCD) control unit, and LCD unit of the electronic video camera to operate and power consumption of the built-in battery A technique for suppressing the above is disclosed.

JP 2006-60497 A

  By the way, the constituent elements of a conventional electronic camera, electronic video camera, and the like operate at various voltages. Therefore, generally, power from an AC adapter or a built-in battery is obtained using a multi-channel DC-DC converter. A plurality of voltages are generated and electric power corresponding to each component is provided. Therefore, as in Patent Document 1 which is a conventional technique, some components of the electronic video camera are operated from power supplied from an AC adapter or a built-in battery with power supplied from an external device via a communication cable. Therefore, there is a problem that the switching control is complicated and the circuit scale increases.

  SUMMARY OF THE INVENTION In view of the above-described problems of the related art, an object of the present invention is to provide a technology that can easily switch to power supply when power is supplied from an external device via a communication cable.

  In order to solve the above problems, the power supply control circuit of the present invention includes an internal power supply, an input / output unit, an operation control unit, and a switching unit. The input / output unit performs data communication with the external device and accepts power supply from the external device. The operation control unit operates based on the power supply from the internal power supply or the power supply from the external device, and operates at least a part of the function of the display unit that displays images and information. The switching unit switches power supply to the operation control unit to power supply from the external device when the input / output unit has power supply from the external device.

  The operation control unit may be a backlight control circuit for the display unit.

  Further, the operation control unit may be a display unit control circuit of the display unit.

  The display unit further includes a control unit that controls the setting of the backlight control circuit of the display unit in accordance with the operation of the switching unit, and the backlight control circuit of the display unit is based on the setting by the control unit. The brightness of the light may be adjusted.

  The display unit further includes a control unit that controls the setting of the backlight control circuit of the display unit in accordance with the operation of the switching unit, and the backlight control circuit of the display unit is based on the setting by the control unit. The light may be temporarily turned off.

  The input / output unit may further include a detection unit that detects that power is supplied from an external device, and the switching unit may perform switching according to the detection unit.

  The switching unit may include a detection unit that detects that power is supplied from an external device to the input / output unit, and may perform switching according to the detection unit.

  The electronic device of the present invention has the power supply control circuit of the present invention.

  According to the present invention, when power is supplied from an external device via a communication cable, switching to the power supply can be easily performed.

1 is a configuration diagram of an electronic camera 100 according to a first embodiment of the present invention. 1 is a configuration diagram of a power supply control circuit 150 according to a first embodiment of the present invention. The flowchart which shows operation | movement of the electronic camera 100 which concerns on 1st Embodiment. A flowchart which shows operation of electronic camera 100 concerning a 2nd embodiment. The block diagram of the power supply control circuit 150 which concerns on the 3rd Embodiment of this invention. The block diagram of the power supply control circuit 150 which concerns on the 4th Embodiment of this invention.

<< First Embodiment >>
FIG. 1 is a configuration diagram of an electronic camera 100 according to the first embodiment of the present invention.

  The electronic camera 100 includes an imaging lens 1, an imaging device 2, an A / D conversion unit 3, a CPU 4, an image processing unit 5, a buffer memory 6, a flash 7, a flash control unit 8, an operation member 9, a storage unit 10, and a display unit 11. , A USB connection terminal 12, a power supply circuit 13, and a built-in battery 14. The CPU 4, the image processing unit 5, the buffer memory 6, the flash control unit 8, the operation member 9, the storage unit 10, the display unit 11, the USB connection terminal 12, and the power supply circuit 13 are connected via a bus 15 so as to be able to transmit information. Yes. FIG. 1 shows only the main part of the electronic camera 100. For example, in FIG. 1, a timing generator that emits a timing pulse for shooting instructions to the image sensor 2 in accordance with a command from the CPU 4 is omitted. Further, the CPU 4, the display unit 11, the USB connection terminal 12, the power supply circuit 13, and the built-in battery 14 operate as a power supply control circuit 150 of the electronic camera 100 according to the present embodiment as illustrated in FIG. 2 via the bus 15. .

  The imaging lens 1 is composed of a plurality of optical lenses and forms an image of a light beam from a subject on a light receiving surface of the imaging element 2.

  The image sensor 2 operates based on timing pulses generated by a timing generator (not shown) in response to a command from the CPU 4 and acquires an image of a subject formed by the imaging lens 1. As the image sensor 2, a CCD or CMOS semiconductor image sensor or the like can be appropriately selected and used.

  The image signal output from the image sensor 2 is converted into a digital signal by the A / D converter 3 and output. The A / D converter 3 operates together with the image sensor 2 based on timing pulses generated by a timing generator (not shown) in response to a command from the CPU 4. The output result is temporarily recorded in a frame memory (not shown) and then recorded in the buffer memory 6. As the buffer memory 6, an arbitrary nonvolatile memory can be appropriately selected and used.

  When the user presses the power button on the operation member 9 to turn on the electronic camera 100, the CPU 4 reads the control program for the electronic camera 100 and the power control circuit 150 stored in the storage unit 10. 100 and the power supply control circuit 150 are initialized. And when CPU4 receives the instruction | indication from a user via the operation member 9, based on a control program, image pick-up of a subject to the image pick-up element 2, image processing of the image imaged to the image process part 5, Control of recording of the processed image in the storage unit 10 and display on the display unit 11 is performed. Furthermore, in this embodiment, as will be described later, the CPU 4 also controls the power supply control circuit 150 based on power supply from an external device such as a PC connected to the electronic camera 100 via the USB cable 30. .

  The image processing unit 5 is a digital front-end circuit that generates image processing such as interpolation processing, contour enhancement processing, white balance correction, and the like, and a file format such as JPEG format or YUV format for the processed image.

  The flash 7 is instructed by the CPU 4 via the flash control unit 8 according to the member operation of the operation member 9 by the user (for example, selection of a night scene mode or the like by the shooting mode button or setting of flash emission by manual operation). Based on this, the flash is emitted and the subject is imaged.

  The operation member 9 outputs an operation signal corresponding to the content of the member operation by the user to the CPU 4. The operation member 9 includes, for example, operation members such as a power button, a mode setting button such as a shooting mode, and a release button. The operation member 9 may be a touch panel type button provided on the front surface of the display unit 11 such as an LCD panel.

  The storage unit 10 stores a control program for controlling the electronic camera 100 and the power supply control circuit 150 executed by the CPU 4, a captured still image, a moving image, and the like. Programs, images, and the like held in the storage unit 10 can be referred to as appropriate from the CPU 4 via the bus 15. The storage unit 10 can select and use a storage device such as a general hard disk device, a magneto-optical disk device, or a removable memory card.

  The display unit 11 displays a captured image, a mode setting screen, and the like. As shown in FIG. 2, the display unit 11 includes light emitting diodes 23 a to 23 c that operate as a backlight, an LCD control IC 24, and an LCD monitor 25. Then, the brightness of the light emitting diodes 23a to 23c is controlled in accordance with a control signal from the backlight driver 22 based on an instruction from the CPU 4. Specifically, the backlight driver 22 performs ON / OFF control of power supply from an external device such as a PC via the AC adapter, the built-in battery 14 or the VBUS of the USB cable 30, and current control for brightness adjustment. Do. The LCD control IC 24 performs control for causing the LCD panel 25 to display display data such as images and moving images transferred from the CPU 4. In the present embodiment, the LCD control IC 24 operates based on + 3.3V power, which is one channel of a DC-DC converter described later.

  The USB connection terminal 12 is a connection terminal of a USB cable 30 that is a communication cable compliant with the USB standard. The USB connection terminal 12 connects the electronic camera 100 and an external device such as a PC or a printer so that communication is possible. Sends and receives instructions and so on. Further, according to the USB standard, as shown in FIG. 2, the USB connection terminal 12 and the USB cable 30 are composed of four types of terminals or lines, and are mainly used for data communication, a D + line and a D− line. And a VBUS line and a GND line for power supply. Here, the electric power supplied from the external device via the VBUS line is a voltage of 5 V and a current of 100 mA or 500 mA. In the present embodiment, power supplied from the external device is supplied to the backlight of the display unit 11 via the backlight driver 22.

  As shown in FIG. 2, the power supply circuit 13 inputs power from the AC adapter or the built-in battery 14 to a common input terminal VBAT of the DC-DC converter, and receives an Enable signal from the CPU 4. Produces the output of The DC-DC converter in this embodiment can output six voltages +1.2 v, +1.8 V, +3.3 V, +5.0 V, +15.0 V, and −7.0 V, and each configuration of the electronic camera 100. Supply voltage and power according to the elements. A general DC-DC converter can be used for the DC-DC converter of this embodiment. The switching element for switching the AC adapter or the built-in battery 14 in FIG. 2 is switched to power supply from the built-in battery 14 when there is no power input from the AC adapter. Further, when the USB cable 30 is inserted into the USB connection terminal 12 and connected to an external device such as a PC, when there is power supply from the external device, the switching unit 20 including the two diodes 21a-21b is used. , Switching to power supply from an external device. That is, in the present embodiment, for example, a 1-cell lithium battery is used as the built-in battery 14, but the voltage of the AC adapter or the lithium battery is about 4 V, but is supplied from an external device via the USB cable 30. Since the voltage to be applied is 5V, the switching unit 20 can switch to power supply from an external device.

  Next, the operation of the power supply control circuit 150 according to the present embodiment will be described with reference to the flowchart of FIG. In the present embodiment, as shown in FIG. 1, it is assumed that the USB connection terminal 12 of the electronic camera 100 and an external device such as a PC are connected by a USB cable 30 from the beginning.

  When the user presses the power button on the operation member 9, the CPU 4 reads a control program held in the storage unit 10 of the electronic camera 100 and initializes the electronic camera 100. In the initialization of the electronic camera 100, the CPU 4 performs steps S <b> 10 to S <b> 13 for the power supply control circuit 150.

  Step S10: The CPU 4 requests a predetermined power supply to an external device such as a PC via the USB cable 30. For example, the CPU 4 requests a 500 mA power supply to an external device such as a PC. In response to the request, an external device such as a PC, when there is a margin for supplying that much power, notifies the CPU 4 of consent and starts supplying 500 mA of power. On the other hand, when there is not enough room for power supply, an external device such as a PC notifies the CPU 4 of consent to supply 100 mA of power, and starts supplying 100 mA of power. The power from such an external device is supplied to the backlight driver 22 via the VBUS of the USB connection terminal 12 and the switching unit 20.

  Step S11: The CPU 4 sets a predetermined current value in the backlight driver 22 based on a current value agreed with an external device such as a PC.

  Step S12: The CPU 4 transmits a control signal for turning on the light emitting diodes 23a to 23c, which are the backlights of the display unit 11, to the backlight driver 22 at the current value set in step S11. Lights 23a to 23c.

  Step S13: The CPU 4 determines whether or not the power source of the electronic camera 100 has received a signal for turning off the power source by the power button of the operation member 9 by the user. When the power OFF signal is not received (NO side), the CPU 4 stands by until the power OFF signal is received. On the other hand, when the power-off signal is received (YES side), the CPU 4 ends the series of operations.

  Thus, in the present embodiment, by providing the switching unit 20 including the two diodes 21a-21b, an external device such as a PC can be connected via the USB cable 30 without increasing the circuit scale of the power supply control circuit 150. It is possible to easily switch to the supplied power.

In addition, the power consumption of the built-in battery 14 such as a lithium battery is provided by switching the power consumption of the backlight in the display unit 11 having a large proportion of the power consumption of the electronic camera 100 to the power supply from an external device such as a PC. Consumption can be suppressed.
<< Second Embodiment >>
The electronic camera and its power control circuit according to the second embodiment of the present invention are the same as the electronic camera 100 and the power control circuit 150 according to the first embodiment shown in FIGS. Therefore, regarding the configuration of the electronic camera and the power supply control circuit in this embodiment, the electronic camera 100 and the power supply control circuit 150 shown in FIGS. 1 and 2 are used, and detailed description of each component is omitted.

  The operation of the power supply control circuit 150 according to this embodiment differs from that of the first embodiment in that the USB cable 30 is not connected to an external device such as a PC from the beginning, or is initially connected to the external device. However, it is the case that it was cut off halfway. Therefore, the operation of the power supply control circuit 150 in the electronic camera 100 of the present embodiment in the above case will be described with reference to the flowchart of FIG.

  When the user presses the power button on the operation member 9, the CPU 4 reads a control program held in the storage unit 10 of the electronic camera 100 and initializes the electronic camera 100. In initialization of the electronic camera 100, the CPU 4 performs steps S <b> 20 to S <b> 31 for the power supply control circuit 150.

  Step S20: The CPU 4 determines whether or not the USB cable 30 is connected to the electronic camera 100 and is communicably connected to an external device such as a PC. When connected, the CPU 4 proceeds to step S21 (YES side), and when not connected, proceeds to step S27 (NO side).

  Step S21: The CPU 4 issues a predetermined power supply request to an external device such as a PC via the USB cable 30. For example, the CPU 4 requests a 500 mA power supply to an external device such as a PC. In response to this request, when there is a margin for supplying 500 mA of power, an external device such as a PC notifies the CPU 4 of consent and starts supplying 500 mA of power. On the other hand, when there is no room for supplying 500 mA of power, an external device such as a PC notifies the CPU 4 of consent to supply 100 mA of power, and starts supplying 100 mA of power. The power from such an external device is supplied to the backlight driver 22 via the VBUS of the USB connection terminal 12 and the switching unit 20.

  Step S22: The CPU 4 sets a predetermined current value in the backlight driver 22 based on a current value agreed with an external device such as a PC.

  Step S23: The CPU 4 transmits a control signal for lighting the light emitting diodes 23a to 23c, which are the backlights of the display unit 11, to the backlight driver 22 at the current value set in step S22. Lights 23a to 23c.

  Step S24: The CPU 4 determines whether or not the USB cable 30 has been disconnected from the electronic camera 100 by detecting that the signal from the VBUS of the USB connection terminal 12 has been disconnected. If it is detected that the USB cable 30 is disconnected, the CPU 4 proceeds to step S26 (YES side). On the other hand, when the signal from the VBUS is continuously detected, the CPU 4 determines that the USB cable 30 is not disconnected, and proceeds to step S25 (NO side).

  Step S25: The CPU 4 determines whether or not the power source of the electronic camera 100 has received a power OFF signal from the power button of the operation member 9 by the user. When the power OFF signal is not received, the CPU 4 proceeds to step S24 (NO side). On the other hand, when the power-off signal is received (YES side), the CPU 4 ends the series of operations.

  Step S26: Since the USB cable 30 is disconnected, the CPU 4 switches to the power supply by the AC adapter or the built-in battery 14 and changes the current control setting of the backlight driver 22 with respect to the backlight driver 22. The light emitting diodes 23a to 23c are once instructed to be turned off or dimmed. Thereby, for example, when the current of the power supplied from the external device is 500 mA and the current value by the power supply by the AC adapter or the built-in battery 14 is 200 mA, the backlight driver 22 is connected to the AC adapter or the built-in battery 14. However, an unnecessary load is applied particularly to the built-in battery 14 because the current of 500 mA is continuously demanded. Therefore, the CPU 4 instructs the backlight driver 22 to temporarily turn off or reduce the light emitting diodes 23a to 23c.

  Step S27: The CPU 4 sets a current value (for example, 200 mA) corresponding to the AC adapter or the built-in battery 14 in the backlight driver 22.

  Step S28: The CPU 4 transmits a control signal for turning on the light emitting diodes 23a to 23c, which are the backlights of the display unit 11, to the backlight driver 22 at the current value set in step S27. Lights 23a to 23c.

  Step S29: The CPU 4 determines whether or not the USB cable 30 is connected to the electronic camera 100 by detecting a signal from the VBUS of the USB connection terminal 12. When the signal from the VBUS is detected, the CPU 4 determines that the USB cable 30 is connected to the USB connection terminal 12, and proceeds to step S30 (YES side). On the other hand, if the signal from the VBUS is not detected, the CPU 4 determines that the USB cable 30 is not connected, and proceeds to step S31 (NO side).

  Step S30: Since it is determined that the power supply from the external device is possible, the CPU 4 switches to the power supply from the external device and changes the current control setting of the backlight driver 22 when the backlight driver 22 is changed. 22 is instructed to turn off or dimm the light emitting diodes 23a to 23c once. Thereby, for example, when the current of the power supplied from the AC adapter or the built-in battery 14 is 200 mA and the current value by the power supply from the external device is 100 mA, the backlight driver 22 uses the power from the external device. Continue to demand 200 mA of current for supply. Therefore, it is possible to avoid the occurrence of any problem in the external device by instructing the backlight driver 22 to turn off or dimm the light emitting diodes 23a to 23c once.

  Step S31: The CPU 4 determines whether or not the power source of the electronic camera 100 has received a power OFF signal from the power button of the operation member 9 by the user. When the power OFF signal is not received, the CPU 4 proceeds to step S29 (NO side). On the other hand, when the power-off signal is received (YES side), the CPU 4 ends the series of operations.

  Thus, in the present embodiment, by providing the switching unit 20 including the two diodes 21a-21b, an external device such as a PC can be connected via the USB cable 30 without increasing the circuit scale of the power supply control circuit 150. It is possible to easily switch to the supplied power.

  In addition, the power consumption of the built-in battery 14 such as a lithium battery is provided by switching the power consumption of the backlight in the display unit 11 having a large proportion of the power consumption of the electronic camera 100 to the power supply from an external device such as a PC. Consumption can be suppressed.

Further, in step S26 or step S30, the CPU 4 changes the power supply from the external device to the power supply by the AC adapter or the built-in battery 14, or changes the power supply from the AC adapter or the built-in battery 14 to the power supply by the external device. When the change is made, the backlight driver 22 is turned off or dimmed once by turning on or off the light emitting diodes 23a to 23c of the display unit 11, so that the built-in battery 14 or the AC adapter malfunctions due to a load exceeding the rating. In addition, it is possible to avoid occurrence of some trouble in the built-in battery 14, the AC adapter, or the external device.
<< Third Embodiment >>
The electronic camera according to the third embodiment of the present invention is the same as the electronic camera 100 according to the first embodiment shown in FIG. Therefore, regarding the configuration of the electronic camera in the present embodiment, the electronic camera 100 shown in FIG. 1 is used, and detailed description of each component is omitted.

  On the other hand, the power supply control circuit 150 in this embodiment shown in FIG. 5 is basically the same as the power supply control circuit 150 according to the first embodiment shown in FIG. Therefore, in the configuration of the power supply control circuit 150 in FIG. 5, the same components as those in the power supply control circuit 150 shown in FIG. However, the power control circuit 150 in the present embodiment is different from that in the first embodiment in that the power supply to the LCD control IC 24 of the display unit 11 is +3. A switching unit 40 that switches between power supply from the 3V channel and power supply from an external device such as a PC via the VBUS of the USB connection terminal 12 is provided. Since the voltage of the power supplied from the external device is + 5V, the switching unit 40 includes a regulator 41 that converts + 5V to + 3.3V. As the regulator 41, a general regulator, for example, a three-terminal regulator, which is a kind of series regulator, can be appropriately selected and used.

  Specifically, in the present embodiment, the CPU 4 is configured such that when the electronic camera 100 and an external device such as a PC are not connected by the USB cable 30 and a signal from the VBUS of the USB connection terminal 12 is not detected, DC- In order to supply the power from the +3.3 V channel of the DC converter to the LCD control IC 24, the switching unit 40 is switched. On the other hand, when the electronic camera 100 and an external device such as a PC are connected by the USB cable 30 and a signal from the VBUS of the USB connection terminal 12 is detected, the CPU 4 converts the external device converted to + 3.3V by the regulator 41. In order to supply the power from the control unit 24 to the LCD control IC 24, the switching unit 40 is switched.

  As described above, in the present embodiment, by providing the switching unit 40 including the regulator 41, power supply from an external device such as a PC can be performed via the VBUS of the USB connection terminal 12 without increasing the circuit scale. While being able to switch easily, the power consumption of built-in batteries 14, such as a lithium battery, can be suppressed.

  Further, when a memory (not shown) such as a RAM capable of recording data such as an image to be displayed on the LCD panel 25 is built in the LCD control IC 24, once the data is transferred from the CPU 4 and recorded, the data is transferred from an external device. As long as the power is supplied, the display can be continued even if the power of the electronic camera 100 is turned off.

Further, for example, when the built-in battery 14 such as a lithium battery is charged based on the power supply from the external device and it is desired to reduce the power other than the power used for the charging as much as possible, the power supply other than the charging control IC (not shown) However, if the display content data such as “charging” is recorded in a memory (not shown) built in the LCD panel 25 before the CPU 4 is turned off, ", Etc. can continue to be displayed.
<< Fourth Embodiment >>
The electronic camera according to the fourth embodiment of the present invention is the same as the electronic camera 100 according to the first embodiment shown in FIG. Therefore, regarding the configuration of the electronic camera in the present embodiment, the electronic camera 100 shown in FIG. 1 is used, and detailed description of each component is omitted.

  On the other hand, the power supply control circuit 150 in this embodiment shown in FIG. 6 is basically the same as the power supply control circuit 150 according to the third embodiment shown in FIG. Therefore, in the configuration of the power supply control circuit 150 in FIG. 6, the same components as those of the power supply control circuit 150 shown in FIG. However, the power control circuit 150 in the present embodiment is different from that in the third embodiment in that the switching unit 40a is composed of the regulator 41 and the diodes 50a-50b, the field effect transistor 60, and the resistor R, and the CPU 4 The switching operation is performed regardless of the instruction from.

  Specifically, in the present embodiment, when the electronic camera 100 and an external device such as a PC are not connected by the USB cable 30 and cannot receive power supply from the external device, the switching unit 40 a Since the voltage from the external device is not applied to the gate terminal of the transistor 60, the transistor 60 is turned on, switched to the power from the + 3.3V channel of the DC-DC converter, and supplied to the LCD control IC 24. On the other hand, when the electronic camera 100 and an external device such as a PC are connected by the USB cable 30 and the power supply from the external device can be received, the switching unit 40a receives the voltage from the external device at the gate terminal of the field effect transistor 60. Since the power is applied, the power is turned off, and the power is switched to the power from the external device which is set to +3.3 V by the regulator 41 and supplied to the LCD control IC 24.

  As described above, in this embodiment, by providing the switching unit 40a including the diodes 50a-50b, the field effect transistor 60, and the resistor R together with the regulator 41, the instruction from the CPU 4 does not increase the circuit scale. Regardless of whether it is possible to easily switch to power supply from an external device such as a PC via the VBUS of the USB connection terminal 12, and to suppress the power consumption of the built-in battery 14 such as a lithium battery. it can.

  Further, when a memory (not shown) such as a RAM capable of recording data such as an image to be displayed on the LCD panel 25 is built in the LCD control IC 24, once the data is transferred from the CPU 4 and recorded, the data is transferred from an external device. As long as the power is supplied, the display can be continued even if the power of the electronic camera 100 is turned off.

Further, for example, when the built-in battery 14 such as a lithium battery is charged based on the power supply from the external device and it is desired to reduce the power other than the power used for the charging as much as possible, the power supply other than the charging control IC (not shown) However, if the display content data such as “charging” is recorded in a memory (not shown) built in the LCD panel 25 before the CPU 4 is turned off, ", Etc. can continue to be displayed.
≪Supplementary items for the embodiment≫
In the first to fourth embodiments, the display unit 11 includes the LCD control IC 24 and the LCD panel 25 together with the light emitting diodes 23a to 23c. However, the present invention is not limited to this. For example, the display unit 11 may include an organic EL (Electro-Luminescence) control IC and an organic EL panel.

  In the first to fourth embodiments, the USB cable 30 is used to connect the electronic camera 100 and an external device such as a PC. However, the present invention is not limited to this. For example, a communication cable that can supply power from an external device such as a PC can be used together with data communication such as IEEE1394.

  In the first to fourth embodiments, a 6-channel DC-DC converter is used. However, the present invention is not limited to this, and one or a plurality of DC-DC converters can be used. However, the power supply from the AC adapter or the built-in battery 14 is preferably a DC-DC converter having a common VBAT.

  In the first to fourth embodiments, power is supplied from an external device such as a PC connected to the electronic camera 100 via the USB cable 30. The light emitting diode of the display unit 11 23a to 23c and / or the LCD control IC 24, but the present invention is not limited to this. For example, when a USB control IC or the like exists independently of the CPU 4, power may be supplied from an external device to them.

  In the first to fourth embodiments, the power control circuit 150 is applied to the electronic camera 100. However, the present invention is not limited to this, and an electronic video camera, a mobile phone, a portable music player, etc. It can be applied to other electronic devices.

  The present invention can be implemented in various other forms without departing from the spirit or main features thereof. For this reason, the above-described embodiment is merely an example in all respects and should not be construed in a limited manner. Further, all modifications and changes belonging to the equivalent scope of the claims are within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Image pickup lens, 2 Image pick-up element, 3, A / D conversion part, 4 CPU, 5 Image processing part, 6 Buffer memory, 7 Flash, 8 Flash control part, 9 Operation member, 10 Storage part, 11 Display part, 12 USB Connection terminal, 13 power supply circuit, 14 built-in battery, 15 bus, 20, 40, 40a switching unit, 21a-21b, 50a-50b diode, 22 backlight driver, 23a-23c light emitting diode, 24 LCD control IC, 25 LCD panel , 41 regulator, 60 field effect transistor, 100 electronic camera, 150 power control circuit

Claims (8)

An internal power supply,
An input / output unit that performs data communication with an external device and receives power supply from the external device;
An operation control unit that operates based on power supply from the internal power supply or power supply from the external device, and operates at least a part of a function of a display unit that displays an image or information; and
When there is power supply from the external device in the input / output unit, a switching unit that switches power supply to the operation control unit to power supply from the external device;
A power supply control circuit comprising: The power supply control circuit according to claim 1,
The power supply control circuit, wherein the operation control unit is a backlight control circuit for the display unit. The power supply control circuit according to claim 1,
The power supply control circuit, wherein the operation control unit is a display unit control circuit of the display unit. The power supply control circuit according to claim 2,
In accordance with the operation of the switching unit, further comprising a control unit for controlling the setting of the backlight control circuit of the display unit,
The backlight control circuit of the display unit adjusts the luminance of the backlight of the display unit based on the setting by the control unit. The power supply control circuit according to claim 2,
In accordance with the operation of the switching unit, further comprising a control unit for controlling the setting of the backlight control circuit of the display unit,
The backlight control circuit of the display unit temporarily turns off the backlight of the display unit based on the setting by the control unit. The power supply control circuit according to claim 3,
A detection unit for detecting that power is supplied from the external device to the input / output unit;
The switching unit performs switching according to the detection unit. The power supply control circuit according to claim 3,
The power supply control circuit, wherein the switching unit includes a detection unit that detects that power is supplied from the external device to the input / output unit, and performs switching according to the detection unit. An electronic apparatus comprising the power supply control circuit according to claim 1.

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