JP3789322B2 - Wireless network terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless network terminal the display section of which can simply be carried anywhere in a home for display and reproduction of a video signal and an audio signal and that is provided with an energy-saving means. SOLUTION: The wireless network terminal consists of a broadcast program reception recorder 200, of the display section 100 provided with a broadcast program reception communication means 500 that wirelessly communicates video, audio and data files, a reproduction output means 501 for video and audio signals, a battery 103 and a battery charging/display section feeding device 104, and of a stand section 300 provided with a power supply circuit 301 and a battery charging/display section feeding device 304. The display section 100 is attachable to/detachable from the stand section 300 and only when wireless connection with an in-home network cannot be established in the case that the display section 100 is removed from the stand section 300 and driven by the battery, the power of the display section 100 is turned off.

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a terminal provided with video signal and audio signal display / playback means connected to a wireless home network system that wirelessly transmits contents (video, audio, and data files) used at home.
[0002]
[Prior art]
A current liquid crystal TV is more portable than a TV using a CRT, but since it is not a wireless network, a power cable or a signal input cable must be connected during actual use.
[0003]
Some portable terminals have a communication function using a contact terminal, but a cover and a shutter are provided to protect the contact terminal during non-communication. It takes time to remove and open / close the shutter.
[0004]
In addition, for devices with built-in power circuits, turning off the main power switch of the main unit can reduce the power consumption of the devices to zero, but general LCD TVs are connected to the outside without having a built-in power circuit. Since the AC adapter is used and power is consumed in the AC adapter even when it is not in use, in order to reduce power consumption to zero, remove the power plug connected to the power wiring outlet. There must be.
[0005]
Further, in a general wireless communication system, a communication channel is created by appropriately dividing a frequency band approved for use for each application according to the amount of data to be handled. If communication is performed simultaneously using the same channel, interference occurs, data is destroyed, and re-transmission is necessary. Therefore, the device that is trying to communicate first starts communication. Previously, an empty channel is detected and communication is performed. However, if there is no empty channel, communication cannot be performed. Therefore, power is wasted until the channel becomes empty.
[0006]
[Problems to be solved by the invention]
Even if the above-mentioned devices are small and light in size so that they can be easily carried anywhere in the home, it is necessary to connect and disconnect communication / power cables when carrying the devices. It is necessary to consider the location and location of power outlets and signal cables at the destination of the equipment, and it is not suitable for carrying around and using it.
In addition, it is difficult for the user and the AC adapter to consume no power without being conscious of the user.
[0007]
The present invention has been made to solve the above-described problems. The display unit can be easily carried anywhere in the home, and can display and reproduce video signals and audio signals. It has the expandability that can be used by connecting options such as devices to the home AVC network. When the display unit is removed, the power consumption of the stand unit is automatically reduced to zero and the display unit removed from the stand unit However, an object of the present invention is to realize a wireless network terminal provided with energy saving means for reducing power consumption by turning off the power of the display unit when a wireless connection with a home network cannot be established.
[0008]
[Means for Solving the Problems]
  In order to solve the above problems, the present invention provides a wireless network comprising a display unit incorporating a battery that operates only when wirelessly connected to a broadcast program receiving and recording device, and a stand unit incorporating a power supply circuit. The display unit includes a first charging and power supply device that charges the battery and supplies power to the entire display unit, and the stand unit performs charging and power supply to the display unit. And the first and second charging and feeding devices are in contact with each other, and the first and second charging and feeding devices are in contact with each other by attaching the display unit to the stand unit. To charge and supply power to the display unitIf the display unit cannot establish a wireless connection with the broadcast program receiving and recording device, the display unit can be directly powered without turning off the power if the display unit is attached to the stand unit. Continue supplying, and when the predetermined no-operation time is detected only when the display unit is not attached to the stand unit, turn off the power switch on the supply line from the battery to the entire display unit, Includes means to reduce battery consumptionIt is a thing.
The present invention also includes a display unit with a built-in battery that is wirelessly connected to a broadcast program receiving and recording device and operates only when video, audio, and data files are being communicated, and a power circuit. A wireless network terminal including a stand unit, wherein the display unit includes a first charging / power supply device that charges the battery and supplies power to the entire display unit, and the stand unit is connected to the display unit. A second charging / power supply device for charging and supplying power, and by attaching the display unit to the stand unit, the first and second charging / power supply devices come into contact with each other from the power supply circuit. When the display unit is charged and supplied with power via the first and second charging / power supply devices, and the display unit cannot establish a wireless connection with the broadcast program receiving and recording device. If the display unit is attached to the stand unit, power supply is continued without turning off the power, and only when the display unit is not installed on the stand unit, When the operation time is detected, the power switch on the supply line from the battery to the entire display unit is turned off, and means for reducing battery consumption is provided.
[0009]
Furthermore, the present invention is such that, in the wireless network terminal, the first and second charging and feeding devices are contacted via a connection terminal.
[0010]
Furthermore, the present invention provides the wireless network terminal, wherein the display unit is attached to the stand unit, and the weight of the display unit is added to the stand unit to turn on the power of the entire stand unit, and the display unit is A power ON / OFF means for turning off the power of the entire stand unit is provided by removing the weight from the stand unit so that the weight of the display unit is not applied to the stand unit.
[0012]
Furthermore, the present invention provides an infrared communication means for performing communication between the display unit and the stand unit in the wireless network terminal at a speed equivalent to or faster than wireless communication between the broadcast program receiving and recording apparatus and the display unit. The memory capacity of the display unit holding data waiting to be transmitted can be reduced by not using the display unit and waiting for transmission of data from the display unit to the stand unit.
[0013]
Furthermore, in the wireless network terminal according to the present invention, the stand unit typically has a hub function for connecting a digital AVC device used in a stand-alone manner, and the display unit is attached to the stand unit. The digital AVC device connected to the stand unit is connected to a home AVC network including the broadcast program receiving and recording device, and is provided with communication means for transmitting and receiving data.
[0014]
Furthermore, the present invention provides the wireless network terminal, wherein the stand unit has a function of connecting a personal computer device main body, and the monitor signal from the personal computer device main body is a second video signal and a second audio signal. And a signal processing unit that converts the first video signal and the first audio signal transmitted from the receiving and recording device of the broadcast program wirelessly, or the second video signal and An input selection switch unit for selecting one of the second audio signals, and when the display unit is not attached to the stand unit, the first video signal and the first audio signal are selected and the display When the display unit is attached to the stand unit, the input selection switch unit controls the input selection switch unit to select the second video signal and the second audio signal. It is obtained by a controller.
[0015]
Further, according to the present invention, the display unit includes a forced selection switch unit for forcibly selecting the first video signal and the first audio signal, and when the forced selection switch unit is turned on, The input selection control unit controls the input switch unit to forcibly select the first video signal and the first audio signal regardless of whether or not the display unit is attached to the stand unit. It is what you do.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram showing the overall system configuration of a wireless network terminal according to the present invention.
The wireless network terminal according to the present invention is roughly divided into a device 200 such as a tuner, STB, PVR, VTR, etc. (hereinafter referred to as “broadcast program receiving / recording device”) for receiving and recording broadcast programs, and wirelessly video. , Wireless communication means 500 for communicating audio and data files, video signal and audio signal reproduction output means 501, battery 103, display unit 100 including first charging / power feeding device 104, power supply circuit 301 and second It comprises the stand part 300 provided with the apparatus 304 for charging / power feeding.
The display unit 100 can be attached and detached in a recess provided in the stand unit 300.
[0017]
2A and 2B are external views of the wireless network terminal according to the present invention with the display unit mounted on the stand unit, FIG. 2A is a front view, and FIG. 2B is a side view.
In a state where the display unit 100 is mounted on the stand unit 300, the contact terminal 1 (114) and the contact terminal 2 (312) are arranged in a positional relationship where they contact each other.
Similarly, the first high-speed infrared communication unit 105 and the second high-speed infrared communication unit 305 are arranged at positions facing each other.
Further, the display unit detection switch 302 is installed at a position where the weight of the display unit 100 in the recess provided in the stand unit 300 is applied.
3A and 3B are external views of the wireless network terminal according to the present invention with the display unit removed from the stand unit, FIG. 3A is a front view, and FIG. 3B is a side view.
[0018]
The DC power generated by the power supply circuit 301 of the stand unit 300 is supplied to the contact terminal 1 (114) of the first charging / power feeding device 104 and the contact terminal 2 (312) of the second charging / power feeding device 304. Charging / power feeding means 502 is provided that is supplied from the stand unit 300 to the display unit 100 by contact energization to charge the battery 103 or to supply power to the entire display unit.
[0019]
In addition, there is provided means for turning on / off the power depending on the mounting state of the display unit 100 to the stand unit 300. The power ON / OFF means 503 includes a display unit detection switch 302, a power circuit control unit 303, a stand unit 300 including a power switch 2 (311), and a display unit 100 to be detected. Reference numeral 302 is provided on the inner surface of a recess that fits with the display unit 100 provided in the stand unit 300.
[0020]
The wireless home network terminal according to the present invention has a battery 103 of the display unit 100 only when the wireless connection with the home network cannot be established and when the display unit 100 is detached from the stand unit 300 and driven by the battery. In order to suppress consumption, a means for turning off the power of the display unit 100 is provided.
Therefore, even when the wireless connection with the home network cannot be established, when the display unit 100 is mounted on the stand unit 300 and driven by the power supplied from the stand unit 300, the power source of the display unit 100 The means to turn off does not work.
Therefore, the power OFF means 506 includes the antenna unit 111, the wireless communication unit 102, the wireless communication control unit 116 in the wireless communication unit, the stand mounting detection unit 507, the charging / power supply control unit 115 that also serves as a power control unit, and Contact terminal 1 (114), power supply circuit 107, power switch 1 (117), signal control unit 109 for controlling the operation of the display unit 100, signal processing unit 110 for indicating a communication state to the user, and display display 101, use It is comprised from the operation panel part 106 which a person operates.
[0021]
In addition, the wireless home network terminal according to the present invention has an inner surface of the recessed portion of the stand portion and the inner surface of the stand portion that is less affected by disturbance light and can easily adjust the optical axis of optical communication when the display portion 100 is attached to the stand portion 300. High-speed infrared communication units 105 and 305 are provided on the surfaces of the display units facing each other, and when the display unit 100 is attached to the stand unit 300, a non-contact communication unit 504 is realized between them.
This high-speed infrared communication unit can realize high-speed communication by using a light-emitting element and a light-receiving element that have a faster response speed than a generally used infrared communication IrDA1.0 unit. For example, when the transmission speed of the wireless communication function of the display unit 100 has a communication capability capable of BS digital high-definition signal transmission, the high-speed infrared communication unit has a communication capability of 24 Mbps or more at an effective transmission rate.
[0022]
Further, the wireless home network terminal according to the present invention includes an external interface 307 for connecting the AVC device 410 provided in the stand unit 300, a signal processing unit 306 for converting a signal format, the wireless communication means, Using the contact communication means, the function expanding means 505 via the stand unit 300 is realized in the wireless network system to which the wireless network terminal belongs.
The display unit 100 can be removed while the device as the option 400 or the AVC device 410 is connected to the external interface 307 of the stand unit 300, and the video signal and the audio signal can be displayed and reproduced anywhere in the home. Yes.
[0023]
Here, with reference to FIG. 1, operation | movement of each function means with which the wireless network terminal of this invention is equipped is demonstrated in order.
(Wireless communication means)
When making a request for video and audio signals to be transmitted to the display unit, the signal control unit 109 generates a command signal based on the signal input to the operation panel unit 106 and sends it to the signal processing unit 110.
The signal processing unit 110 converts the received command signal into a format suitable for the wireless communication means, and then sends it to the wireless communication unit 102.
The wireless communication unit 102 detects a signal received by the antenna unit 111 and confirms whether or not a frequency channel used for wireless communication is free as in a general wireless communication unit.
When the channel to be used is not vacant, it operates along the display unit power OFF means described later. When the channel to be used is vacant, the command signal is transmitted to the antenna unit 111 after being modulated for wireless transmission.
The command signal is converted from an electric signal to a radio wave signal by the antenna unit 111 and released into the air.
[0024]
The command signal is converted into an electric signal by the antenna unit 202 of the broadcast program receiving / recording apparatus 200 and transmitted to the wireless communication unit 201 included in the broadcast program receiving / recording apparatus 200. The command signal demodulated by the wireless communication unit 201 is sent to the broadcast program receiving / recording apparatus 200.
The broadcast program receiving / recording apparatus 200 that has received the command signal transmits the digital video / audio signal designated by the command signal to the wireless communication unit 201 provided in the broadcast program receiving / recording apparatus 200. Upon receiving the digital video / audio signal, the wireless communication unit 201 modulates the digital video / audio signal for wireless transmission, and transmits the modulated signal to the antenna unit 202.
The signal is converted from an electric signal to a radio wave signal by the antenna unit 202 and released into the air.
The radio wave signal is converted into an electric signal by the antenna unit 111 of the display unit 100 and input to the wireless communication unit 102. The wireless communication unit 102 demodulates the input signal, returns it to the original digital video / audio signal, and sends it to the signal processing unit 110.
[0025]
(Video / audio signal display / playback means)
Upon receiving the digital video / audio signal, the signal processing unit 110 separates the digital video / audio signal into a video signal and an audio signal, converts the video signal into a data format that can be handled by the display display 101, and The audio signal is converted into a data format that can be handled by the speaker 112 and then transmitted to the speaker 112.
The display 101 displays video based on the data sent from the signal processing unit 110. The speaker 112 outputs sound reproduced based on the data sent from the signal processing unit 110.
[0026]
(Charging / power supply means)
When the display unit 100 is attached to the stand unit 300, the AC power supplied from the power line via the power plug 310 and the power line 313 is converted into DC power by the power circuit 301 of the stand unit 300, and the stand unit 300 components and the second charging / power feeding device 304 are supplied.
The DC power supplied to the second charging / feeding device 304 is contact-energized between the contact terminal 2 (312) and the contact terminal 1 (114), and the first charging / feeding device 104 of the display unit 100 It is supplied to the charging / power feeding control unit 115.
The charging / power supply control unit 115 receives data for determining whether the display unit 100 is operating or not operating from the signal control unit 109 and supplies power to the power supply circuit 107 when the display unit 100 is operating.
[0027]
Further, the charging / power supply control unit 115 receives data indicating the charging status of the battery 103 from the battery fuel gauge 113, and if the display unit 100 is not operating and the battery 103 is not fully charged. Then, power is supplied to the charging circuit 108.
On the other hand, when the battery 103 is fully charged, the charging / power feeding control unit 115 stops the power supply to the charging circuit 108.
The power supply circuit 107 that has received the power supply supplies power to the entire display unit 100.
Then, the charging circuit 108 that receives the power supply supplies power to the battery 103.
[0028]
(Power ON / OFF means)
When the display unit 100 is attached to the recess of the stand unit 300 as shown in FIG. 2, the weight of the display unit 100 applied to the stand unit 300 is detected by the display unit detection switch 302, and the display unit detection switch 302 supplies power. A signal “with display” is sent to the circuit controller 303.
Receiving the “display portion present” signal, the power supply circuit controller 303 sends the “display portion present” signal to the power switch 2 (311) as it is.
The power switch 2 (311) that has received the “display portion present” signal connects a power supply line for supplying power to the power supply circuit 301, and turns on the power supply to the stand portion 300.
[0029]
As shown in FIG. 3, when the display unit 100 is removed from the stand unit 300, the display unit detection switch 302 detects that the stand unit 300 is no longer subject to its own weight, and the display unit detection switch 302. Transmits a “no display portion” signal to the power supply circuit control unit 303.
The power supply circuit control unit 303 confirms that the communication with the stand unit 300 is not performed or has been completed in the state of the signal processing unit 306, and then sends a signal “no display unit” to the power switch 2 ( 311).
The power switch 2 (311) that has received the “no display” signal cuts off the power supply line that supplies power to the power supply circuit 301 and turns off the power supply to the stand unit 300.
[0030]
(Display unit power-off means)
Although details of the operation will be described later, the operation may be performed as follows.
When the power of the display unit 100 is turned on, first, the communication state detection unit 511 detects a signal received by the antenna unit 111 by the wireless communication unit 102 and performs wireless communication in the same manner as general wireless communication means. Check whether the frequency channel to be used is free.
When the channel to be used is vacant, communication with the broadcast program receiving / recording apparatus 200 is started as described in the operation description of the wireless communication means, but when the channel to be used is not vacant, the wireless communication unit The information indicating that the communication channel is congested is sent from the wireless communication control unit 116 in 102 to the signal control unit 109.
The signal control unit 109 displays the fact that the communication channel is congested on the display 101 via the signal processing unit 110, and waits for a new operation by the user.
If there is a user operation on the operation panel 106, the process shifts to a process corresponding to the operation content. However, if the user does not perform an operation from the operation panel unit 106 for a certain time or longer, the signal control unit 109 performs charging. Sends display unit power OFF information to the power supply control unit 115.
[0031]
The stand attachment detection unit 507 detects whether or not the display unit 100 is attached to the stand unit 300 based on the presence / absence of energization supplied from the contact terminal 1 (114). 507 returns the stand unit mounting information to the signal control unit 109, maintains the user's operation waiting state, and if it is not mounted, the charging / power feeding control unit 115 sets the power switch 1 (117). The power supply from the battery 103 to the entire display unit 100 is stopped to reduce battery consumption.
When restarting, the power switch 1 (117) is manually turned on to restart the power supply from the battery 103, or the display unit 100 is attached to the stand unit 300, and the display unit 100 is switched from the stand unit 300 to the display unit 100. The power supply to is started.
[0032]
(Description of operation of non-contact communication means)
When performing non-contact communication from the display unit 100 to the stand unit 300, the first high-speed infrared communication unit 105 that has received the transmission data sent from the signal processing unit 110 applies modulation for infrared communication to the transmission data. After that, the electrical signal is converted into an infrared signal and transmitted to the second high-speed infrared communication unit 305.
The second high-speed infrared communication unit 305 that has received the infrared signal converts the received signal into an electrical signal, demodulates it, and sends it to the signal processing unit 306.
[0033]
When performing non-contact communication from the stand unit 300 to the display unit 100, the second high-speed infrared communication unit 305 that has received the transmission data transmitted from the signal processing unit 306 applies modulation for infrared communication to the transmission data. Then, the electrical signal is converted into an infrared signal and transmitted to the first high-speed infrared communication unit 105.
The first high-speed infrared communication unit 105 that has received the infrared signal converts the received signal into an electrical signal, demodulates it, and sends it to the signal processing unit 110.
[0034]
(Explanation of operation of function expansion means)
The stand unit 300 includes an optional connection connector 308 for connecting a peripheral device such as a camera 401, a disk drive 402, and a memory card reader 403, a sensor, and an AVC device connection connector 309 for connecting an AVC device 410 to the stand unit 300. The external interface 307 having
As shown in FIG. 2, this wireless network terminal can utilize the above options and AVC devices with the display unit mounted on the stand unit.
[0035]
The case where the video signal transmitted from the broadcast program receiving / recording apparatus 200 is recorded in the portable disk drive apparatus 402 connected as an option will be described.
The digital video signal is transmitted from the wireless communication unit 500 to the signal processing unit 110. The signal processing unit 110 converts the video signal into a format suitable for infrared communication, and then sends the video signal to the first high-speed infrared communication unit 105. The video signal sent to the first high-speed infrared communication unit 105 is sent to the signal processing unit 306 of the stand unit 300 by the non-contact communication unit 504.
The signal processing unit 306 converts the video signal into a data format that can be handled by the disk drive device 402 connected as an option, and then sends it to the external interface 307. The external interface 307 sends the video signal to the portable disk drive device 402 via the option connection connector 308 in accordance with a communication protocol employed with the portable disk drive device 402.
The portable disk drive device 402 records the received video signal on a disk in the device.
[0036]
Next, a case where a video signal output from the digital video camera 411 connected to the external interface 307 is sent to the broadcast program receiving / recording apparatus 200 will be described.
In accordance with the communication protocol adopted between the external interface 307 and the digital video camera 411, the digital video signal output from the digital video camera 411 is transmitted to the external interface 307 via the AVC device connection connector 309. The
The external interface 307 demodulates the digital video signal from the transmitted data and sends it to the signal processing unit 306. The signal processing unit 306 converts the video signal into a format suitable for infrared communication, and then sends the video signal to the second high-speed infrared communication unit 305. The video signal sent to the second high-speed infrared communication unit 305 is sent to the signal processing unit 110 of the display unit 100 by the non-contact communication unit 504.
The signal processing unit 110 converts the video signal into a format suitable for wireless communication, and sends the video signal to the wireless communication unit 102. The video signal transmitted to the wireless communication unit 102 is transmitted to the broadcast program receiving / recording apparatus 200 by the wireless communication means 500.
[0037]
FIG. 4 is a block diagram showing the configuration of another embodiment of the wireless network terminal according to the present invention. In addition, the same code | symbol is attached | subjected to the same component as the Example shown in FIG. 1, and the description is abbreviate | omitted.
The power supply control unit 508 in FIG. 4 has the same function as the charge / power supply control unit 115 (see FIG. 1).
The wireless network terminal shown in FIG. 4 is roughly divided into a display unit 100 and a stand unit 300. The display unit 100 includes a display unit 510, other power supplies, and control circuits thereof.
[0038]
The display unit 510 includes an antenna unit 111, a wireless communication unit unit 102, a signal processing unit 110, a display display 101, a speaker 112, a communication state detection unit 511, a signal control unit 109, and an operation panel unit 106.
A power supply other than the display unit 510 and its control circuit include a power supply control unit 508, a timer 509, a stand mounting detection unit 507, a charging circuit 108, a battery 103, a switch 1a (117a), a switch 1b (117b), and a power switch. 117c) and contact terminal 1 (114)
[0039]
Next, the operation of the wireless network terminal in FIG. 4 will be described below.
Regardless of whether or not the display unit 100 is attached to the stand unit 300, the power source is always supplied from the power circuit 301 or the battery 103 to the power source control unit 508.
Further, when the display unit 100 is mounted on the stand unit 300, the display unit 510 is connected to the power supply circuit 301, the contact terminal 2 (312), the contact terminal 1 (114), and the switch 1a (117a) via the power source. When the power is supplied from the circuit 301 and the display unit 100 is not attached to the stand unit 300, the power is supplied from the battery 103 through the path of the battery 103, the switch 1b (117b), and the switch 1a (117a). Is done.
[0040]
The communication state detection unit 511 detects whether or not the frequency channel used for wireless communication is free from the wireless communication unit unit 102 and applies the detection result to the power supply control unit 508. Further, the stand attachment detection unit 507 detects whether or not the display unit 100 is attached to the stand unit 300 based on the presence / absence of energization supplied from the contact terminal 1 (114), and the detection result is indicated as a power control unit. Apply to 508.
The power supply control unit 508 includes a timer 509 and operates as follows based on the detection results from the communication state detection unit 511 and the stand attachment detection unit 507.
[0041]
FIG. 5 is a flowchart showing a processing procedure of the power control unit of the wireless network terminal shown in FIG.
The operation of the power supply control unit will be described below with reference to FIG.
First, based on the detection result from the stand attachment detection unit 507, it is determined whether or not the display unit 100 is attached to the stand unit 300 (step S501).
If it is mounted, the process proceeds to step S502, the switch 1a (117a) is switched to the power supply circuit 301 side, and then the process returns to step S501.
[0042]
If not, the process proceeds to step S503, the switch 1a (117a) is switched to the battery 103 side, the switch 1b (117b) is turned on (step S504), and then the process proceeds to step S505.
In step S505, based on the detection result from the communication state detection unit 511, it is determined whether the frequency channel used for wireless communication is free, that is, whether the communication state is good.
If the communication state is good, the process returns to step S501.
[0043]
If the communication state is poor, the communication state failure is notified to the user from the display 101 and the speaker 112 via the signal control unit 109 and the signal processing unit 110 (step S506), and then the process proceeds to step S507.
In step S507, it is determined whether or not the user has operated from the operation panel 106 via the signal control unit 109.
If operated, the process of the operated content (step S508) is performed, and then the process returns to step S501.
[0044]
If not operated, the timer 509 is incremented (t ← t + 1) (step S509), and then the process proceeds to step S510.
In step S510, it is determined whether time T has elapsed (t ≧ T?).
If the time T has not elapsed, the process returns to step S507.
If the time T has elapsed, the switch 1b (117b) is turned off (step S511), and then the process proceeds to step S512.
In step S512, it is determined whether or not the power switch 117c has been pressed.
If the power switch 117c is pressed, the process returns to step S501.
If not, the process proceeds to step S513.
In step S513, based on the detection result from the stand attachment detection unit 507, it is determined again whether or not the display unit 100 is attached to the stand unit 300.
[0045]
If so, the process returns to step S502. If not, the process returns to step S512.
As described above, when the display unit 100 is attached to the stand unit 300, the power supply circuit 301 is always included in the display unit 510 regardless of whether the communication state is good or not on the route of step S501 → step S502 → step S501. More power is supplied.
In addition, when the display unit 100 is not attached to the stand unit 300, power is supplied from the battery 103 to the display unit 510 only when the communication state is good on the route of step S501 → steps S503 to S505 → step S501. When the communication state is poor, the display unit 510 is operated so as not to be supplied with power through the path of step S501 → steps S503 to S512 → step S501 or step S501 → steps S503 to S513 → S502.
[0046]
FIG. 6 is a block diagram showing the configuration of another embodiment of the wireless network terminal according to the present invention.
6, compared with the configuration of the embodiment shown in FIG. 4, an input selection control unit 120, an input selection switch unit 121, a contact terminal 3 (122), and a forced selection switch unit 123 are added to the display unit 100. Furthermore, the personal computer apparatus main body 600 is connected to the stand unit 300, and the stand unit 300 is provided with a signal processing unit 320 and a contact terminal 4 (321) therefor.
In FIG. 6, the same components as those in the embodiment shown in FIG. 4 are denoted by the same reference numerals, and the description thereof is omitted.
[0047]
The personal computer device main body 600 is connected to the input side of the signal processing unit 320 of the stand unit 300, and the output side of the signal processing unit 320 is connected to the display unit via the contact terminal 4 (321) and the contact terminal 3 (122). 100 is connected to one input side 121b, 121d of the input selection switch unit 121 in 100.
In the display unit 100, the output of the signal processing unit 110 is connected to the other input sides 121 a and 121 c of the input selection switch unit 121.
One output side 121 f of the input selection switch unit 121 is connected to the speaker 112, and the other output side 121 e of the input selection switch unit 121 is connected to the display display 101.
Further, a stand attachment detection unit 507 is connected to the input side of the input selection control unit 120, and the output side of the input selection control unit 120 is connected to the input selection switch unit 121.
A forced selection switch unit 123 is connected to the input selection control unit 120.
[0048]
Next, the operation of each block of the wireless network terminal shown in FIG. 6 will be described.
The signal processing unit 320 of the stand unit 300 converts the monitor signal input from the personal computer device main body 600 into the second video signal P2 and the second audio signal S2.
The second video signal P2 is input to the input 121b of the input selection switch unit 121 of the display unit 100 via the contact terminal 4 (321) and the contact terminal 3 (122), and the second audio signal S2 is contacted. The signal is input to the input side 121d of the input selection switch unit 121 of the display unit 100 via the terminal 4 (321) and the contact terminal 3 (122).
In the display unit 100, the first video signal P1 output from the signal processing unit 110 is input to the input side 121a of the input selection switch unit 121, and the first audio signal S1 output from the signal processing unit 110 is The signal is input to the input side 121 c of the input selection switch unit 121.
[0049]
The input selection switch unit 121 is either the first video signal P1 (input side 121a) output from the signal processing unit 110 or the second video signal P2 (input side 121b) output from the signal processing unit 320. One is selected and output (output side 121e), and the first audio signal S1 (input side 121c) output from the signal processing unit 110 or the second audio signal S2 (input side) output from the signal processing unit 320 Any one of the side 121d) is selected and output (output side 121f).
The video signal selected and output by the input selection switch unit 121 is input to the display 101 and displayed as an image, and the audio signal selected by the input selection switch unit 121 is input to the speaker 112 and output as audio.
The stand attachment detection unit 507 detects whether the display unit 100 is attached to the stand unit 300 and outputs the detection result to the input selection control unit 120.
[0050]
Based on the detection result input from the stand attachment detection unit 507, the input selection control unit 120, when the display unit 100 is not attached to the stand unit 300, the first video signal P1 and the first audio signal. When S1 is selected and the display unit 100 is mounted on the stand unit 300, the input selection switch unit 121 is controlled to select the second video signal P2 and the second audio signal S2.
In addition, when the forced selection switch unit 123 is turned on, the input selection control unit 120 forces the first video signal P1 and the first video signal P1 and the first video signal P regardless of whether the display unit 100 is attached to the stand unit 300. The input selection switch unit 121 is controlled to select one audio signal S1.
[0051]
FIG. 7 is a flowchart showing a processing procedure of the input selection control unit of the wireless network terminal shown in FIG.
The operation of the input selection control unit will be described with reference to FIG.
The input selection control unit 120 is configured by, for example, a microcomputer. Hereinafter, the operation of the input selection control unit 120 when configured by a microcomputer will be described.
First, in step S701, it is checked whether or not the forced selection switch unit 123 is on.
If the forced selection switch unit 123 is turned on, the process proceeds to step S703, and if not, the process proceeds to step S702.
[0052]
In step S702, it is checked whether or not the display unit 100 is attached to the stand unit 300. If the display unit 100 is attached to the stand unit 300, the process proceeds to step S704, and the display unit 100 is attached to the stand unit 300. If not, the process proceeds to step S703.
In step S703, the input selection switch unit 121 is switched to the wireless communication unit 102 side. That is, control is performed so as to select the first video signal P1 and the first audio signal S1 from the signal processing unit 110, and the process returns to step S701.
In step S704, the input selection switch unit 121 is switched to the personal computer device main body 600 side. That is, control is performed to select the second video signal P2 and the second audio signal S2 from the signal processing unit 320, and the process returns to step S701.
[0053]
As described above, when the display unit 100 is attached to the stand unit 300, the display unit 100 performs the function of the monitor of the personal computer apparatus main body 600. If the display unit 100 is detached from the stand unit 300, the display unit 100 Reference numeral 100 denotes a function of, for example, a wireless television that displays an image transmitted wirelessly from the broadcast program receiving and recording device.
[0054]
【The invention's effect】
As described above, according to the wireless network terminal of the present invention, since the physical connection between the display unit and the stand unit is performed only by contact, the display unit can be attached / detached to / from the stand unit. is there.
Therefore, in an environment where a wireless connection between the broadcast program receiving / recording apparatus and the display unit is maintained, services such as broadcasting, viewing of recorded images, and Internet access using the display unit as a wireless network terminal are connected to information / power supply wiring. The effect that it can be used in any place without being caught is obtained.
[0055]
Further, according to the wireless network terminal according to the present invention, in the state in which the display unit is detached from the stand unit, the effect of completely reducing the power consumption in the stand unit and the display unit in which wireless communication cannot be established. It is possible to obtain the effect of completely reducing the power consumption of the battery.
[0056]
Further, according to the wireless network terminal of the present invention, options connected to the external interface of the stand unit without impairing the portability of the display unit, for example, peripheral devices such as cameras, disk drives, memory card readers, sensors, etc. Can be used as an option for wireless network systems.
[0057]
Furthermore, according to the wireless network terminal of the present invention, the personal computer device main body can be connected to the stand unit, and the display unit displays an image transmitted wirelessly from the broadcast program receiving and recording device. Two functions with the monitor device of the computer device main body can be realized.
Furthermore, by switching the two functions automatically depending on whether or not the display unit is attached to the stand unit, the trouble of switching can be saved and the usability can be improved.
[0058]
Further, according to the wireless network terminal according to the present invention, the display unit includes the forcible selection switch unit for forcibly selecting the video signal and the audio signal transmitted wirelessly from the broadcast program receiving / recording apparatus. Thus, in addition to the convenience of the automatic switching, when the display unit is attached to the stand unit and is necessary even during operation of the personal computer device main body, the image transmitted wirelessly from the broadcast program receiving / recording device Can be displayed and the contents can be confirmed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of the overall system configuration of a wireless network terminal according to the present invention.
FIG. 2 is an external view of a wireless network terminal according to the present invention with a display unit mounted on a stand unit.
FIG. 3 is an external view of a wireless network terminal according to the present invention with a display unit removed from a stand unit.
FIG. 4 is a block diagram showing a configuration of another embodiment of a wireless network terminal according to the present invention.
FIG. 5 is a flowchart showing a processing procedure of a power supply control unit of the wireless network terminal shown in FIG. 4;
FIG. 6 is a block diagram showing a configuration of another embodiment of the wireless network terminal according to the present invention.
7 is a flowchart showing a processing procedure of an input selection control unit of the wireless network terminal shown in FIG. 6;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 ... Display part, 101 ... Display display, 102 ... Wireless communication unit, 103 ... Battery, 104 ... 1st apparatus for charge and electric power supply, 105 ... 1st high-speed infrared communication unit, 106 ... Operation panel part, 107 ... Power supply Circuit 108, charging circuit 109 109 signal control unit 110 signal processing unit 111 antenna unit 112 speaker 113 battery level indicator 114 contact terminal 1 115 charge / power supply control unit 116 ... wireless communication control unit, 117 ... power switch 1, 117a ... switch 1a, 117b ... switch 1b, 117c ... power switch, 120 ... input selection control unit, 121 ... input selection switch unit, 122 ... contact terminal 3, 123 ... forced Selection switch unit, 200 ... broadcast program reception and recording device, 201 ... wireless communication unit, 202 ... antenna unit, 300 ... Stand unit 301... Power circuit 302 Display unit detection switch 303 Power circuit control unit 304 Second charging / power supply device 305 Second high-speed infrared communication unit 306 Signal processing unit 307 ... External interface, 308 ... Option connector, 309 ... AVC device connector, 310 ... Power plug, 311 ... Power switch 2,312 ... Contact terminal 2,313 ... Power line, 320 ... Signal processing unit, 321 ... Contact terminal 4 , 400 ... option, 401 ... camera, 402 ... disk drive, 403 ... memory card reader, 410 ... AVC device, 411 ... digital video camera, 500 ... wireless communication means, 501 ... reproduction output means, 502 ... charge / power supply means, 503 ... Power ON / OFF means, 504 ... Non-contact communication means, 505 ... Function expansion Means, 506 ... power OFF means, 507 ... stand attachment detector, 508 ... power supply control unit, 509 ... timer, 510 ... display unit, 511 ... communication state detection unit, 600 ... personal computer apparatus main body.

Claims (8)

A wireless network terminal comprising a display unit with a built-in battery that operates only when wirelessly connected to a broadcast program receiving and recording device, and a stand unit with a built-in power supply circuit, wherein the display unit includes the battery A first charging / power feeding device that charges the display and feeds the entire display unit, and the stand unit includes a second charging / feeding device that charges and feeds the display unit, and the display unit Is attached to the stand unit, the first and second charging / power supply devices come into contact with each other, and the display unit is charged from the power supply circuit via the first and second charging / power supply devices. so as to supply power, the display unit, if the connection by receiving and recording apparatus and a radio of the broadcast program can not be established, the display unit, if the state of being attached to the stand unit, power supply If the predetermined no-operation time is detected only when the display unit is not mounted on the stand unit, the power supply is continued without being turned off. A wireless network terminal comprising means for turning off a power switch to reduce battery consumption . Wirelessly composed of a display unit with a built-in battery that is connected to a broadcast program receiving and recording device wirelessly and operates only when video, audio, and data files are being communicated, and a stand unit with a built-in power circuit In the network terminal, the display unit includes a first charging / power supply device that charges the battery and supplies power to the entire display unit, and the stand unit performs charging and power supply to the display unit. By providing a second charging / power supply device and attaching the display unit to the stand unit, the first and second charging / power supply devices are in contact with each other, and the first and second charging devices are connected from the power supply circuit. When the display unit is charged and supplied with power via a power supply device and the display unit cannot establish a wireless connection with the broadcast program receiving and recording device, the display unit If it is attached to the stand unit, power supply is continued without turning off the power, and a predetermined no-operation time is detected only when the display unit is not attached to the stand unit. Then, a wireless network terminal comprising means for turning off a power switch on a supply line from the battery to the entire display unit to reduce battery consumption. 3. The wireless network terminal according to claim 1, wherein the first and second charging and feeding devices are contacted via a connection terminal. The display unit is attached to the stand unit, and the weight of the display unit is applied to the stand unit to turn on the power of the entire stand unit, the display unit is removed from the stand unit, and the weight of the display unit is by not applied to the stand unit, according to claim 1, 2 or 3 wireless network terminal, wherein the power of the whole stand is equipped with a power oN / oFF means for turning off.   The communication between the display unit and the stand unit is performed using infrared communication means that is at least as fast as the wireless communication between the broadcast program receiving and recording device and the display unit, and the display unit to the stand unit. 5. The wireless network according to claim 1, wherein the memory capacity of the display unit holding the data waiting to be transmitted can be reduced by not causing the data waiting to be transmitted to the wireless network. 6. Terminal.   The stand unit usually has a hub function for connecting a digital AVC device used in a stand-alone manner, and the digital AVC device connected to the stand unit is connected to the stand unit while the display unit is mounted on the stand unit. The wireless network terminal according to any one of claims 1 to 5, further comprising a communication unit connected to a home AVC network including a broadcast program receiving and recording device and transmitting and receiving data.   The stand unit has a function of connecting a personal computer device body, and includes a signal processing unit that converts a monitor signal from the personal computer device body into a second video signal and a second audio signal, and the display The unit selects one of the first video signal and the first audio signal, or the second video signal and the second audio signal transmitted wirelessly from the broadcast program receiving and recording device. When the selection switch unit and the display unit are not mounted on the stand unit, the first video signal and the first audio signal are selected, and the display unit is mounted on the stand unit. 7. An input selection control unit that controls the input selection switch unit so as to select the second video signal and the second audio signal. Wireless network terminal according to claim.   The display unit includes a forcible selection switch unit for forcibly selecting the first video signal and the first audio signal. When the forcible selection switch unit is turned on, the input selection control unit The input switch unit is controlled to forcibly select the first video signal and the first audio signal regardless of whether or not the display unit is attached to the stand unit. The wireless network terminal according to claim 7.

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