JP4395907B2 - Electronics - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic device suitable for application to, for example, a portable audio playback device, and more particularly to an electronic device remotely controlled by a remote control device.
[0002]
[Prior art]
Conventionally, various audio reproducing apparatuses and audio recording / reproducing apparatuses capable of reproducing or recording audio data recorded on a recording medium such as an optical disk, a magneto-optical disk, and a magnetic tape have been developed. In this case, some of them are small in size for portable use, and in the case of such portable models, there are many that can be remotely controlled by a remote control device.
[0003]
That is, for example, in the case of a small portable audio playback device, a headphone device is connected to the playback device so as to listen to the audio played back by the headphone device, and a cable connecting the playback device and the headphone device is used. Some have remote control devices on the way. In this case, communication between the remote control device and the playback device is also performed via a cable, and the playback device can be controlled by operating a key attached to the remote control device, and the display panel disposed on the remote control device can be controlled. The display based on the playback state data supplied from the playback device (for example, display of track number, playback time, disc name, song name, playback state, etc.) can be performed.
[0004]
By providing such a remote control device, the audio device can be remotely controlled by the remote control device, and the operability of the audio device is improved. By the way, in the case of such a wired remote control device (wired remote control device), since it is integrated with the cable of the headphone device, its position is limited to some extent. Therefore, in addition to the wired remote control device, a wireless remote control device can be used for one device, and the device body can be remotely controlled wirelessly from the wireless remote control device. Proposed.
[0005]
FIG. 5 is a diagram showing an example of a configuration on the audio device side when both a wired remote control device and a wireless remote control device can be selectively used with this type of conventional audio device. The system controller 10 of the audio device is a control unit that controls each part of the device. Here, only the configuration related to remote control is shown, and other circuits connected to other system controllers 10 are omitted.
[0006]
The system controller 10 includes a wired communication port 10 a, and the wired communication port 10 a is connected to a wired remote control device terminal 11. The wired remote control device connected to the terminal 11 is configured to perform bidirectional communication with the system controller 10 through a signal line via the terminal 11 in a time-division manner, and the display provided in the remote control device from the system controller 10 side. Data for display on the display unit is supplied, and data for controlling the operation of the device is supplied to the system controller 10 from the remote control device side.
[0007]
The system controller 10 includes a wireless transmission port 10b and a wireless reception port 10c. The wireless transmission port 10b is connected to the transmission processing circuit 12, and performs wireless transmission processing on the output of the system controller 10, The transmission output is supplied to the antenna 13 for wireless transmission. The wireless reception port 10c is connected to the reception processing circuit 14, and the reception processing circuit 14 receives the signal received by the antenna 13, and supplies the reception data to the wireless reception port 10c. Operations in the transmission processing circuit 12 and the reception processing circuit 14 are controlled by data output from the control port 10 d of the system controller 10. That is, when the wireless remote control device is used (hereinafter referred to as wireless mode), data for operating both processing circuits 12 and 14 is output from the port 10d, and the wired remote control device is used (hereinafter referred to as wired mode). The data for not operating the processing circuits 12 and 14 is output from the port 10d. Each port 10a, 10b, 10c is configured to be supplied with a predetermined bias voltage via resistors R11, R12, R13.
[0008]
With this configuration, the wired remote control device can be used by performing bidirectional communication using the port 10a in the wired mode. In the wireless mode, the wireless remote control device can be used by performing bidirectional communication using the ports 10b and 10c.
[0009]
[Problems to be solved by the invention]
However, in the conventional electronic device of this type, when the wired remote control device and the wireless remote control device can be connected, there is a problem that the configuration of the system controller and its surroundings becomes complicated. That is, in the configuration shown in FIG. 5, the system controller requires four ports 10a, 10b, 10c, and 10d for remote control, and the configuration of the system controller and its peripheral circuits becomes complicated.
[0010]
In order to avoid the problem of increasing the number of ports, for example, the configuration shown in FIG. 6 can be adopted. That is, the system controller 20 of the device includes a wired communication port 20a, connects the wired communication port 20a to the wired remote control device terminal 21, and communicates with the remote control device connected to the terminal 21 in both directions. It is set as the structure which performs. In addition, a wireless communication port 20b is provided, and this port 20b is connected to the transmission processing circuit 23 via the resistor R23 and the buffer 22, and the transmission signal processed by the transmission processing circuit 23 is transmitted by radio from the antenna 24. In addition, the data received by the reception processing circuit 25 connected to the antenna 24 is supplied to the wireless communication port 20b via the buffer 26 and the resistor R24. The operations in the transmission processing circuit 23 and the reception processing circuit 25 are controlled by data output from the control port 20c of the system controller 20. Each communication port 20a, 20b is configured to be supplied with a predetermined bias voltage via resistors R11, R12, R13.
[0011]
By configuring in this way, the port for the wireless remote control device is also configured to share one port for transmission and reception, thereby reducing the number of ports by one compared to the configuration of FIG. Can do. However, the configuration of FIG. 6 is more complicated than the configuration using only one of the remote control devices.
[0012]
Another configuration may be the configuration shown in FIG. That is, the system controller 30 of the device includes only one communication port 30a as a communication port, and connects this communication port 30a to the movable contact 31m of the changeover switch 31. A predetermined bias voltage is supplied to the communication port 30a via a resistor R31.
[0013]
The first fixed contact 31 a of the changeover switch 31 is connected to the contact portion 32 a of the wired remote control device terminal 32. Further, the second fixed contact 31b of the changeover switch 31 is connected to a wireless circuit. Switching of the movable contact 31m of the changeover switch 31 is controlled by the insertion state of a jack (jack of the remote control device) to the wired remote control device terminal 32. That is, when the jack is inserted into the terminal 32, the contact portion 32a of the terminal 32 comes into contact with the contact 32b, and the movable contact 31m of the changeover switch 31 is connected to the first fixed contact 31a. In a state where is not inserted into the terminal 32, the movable contact 31m of the changeover switch 31 is connected to the second fixed contact 31b.
[0014]
As a wireless circuit connected to the second fixed contact 31b of the changeover switch 31, a transmission system circuit and a reception system circuit will be described in common. That is, the second fixed contact 31b is connected to the transmission processing circuit 34 via the resistor R33 and the buffer 33, and the transmission signal output from the transmission processing circuit 34 is transmitted wirelessly from the antenna 35. The signal received by the antenna 35 is received by the reception processing circuit 36, and the reception data output from the reception processing circuit 36 is supplied to the second fixed contact 31b via the buffer 37 and the resistor R33. The operations in the transmission processing circuit 34 and the reception processing circuit 36 are controlled by data output from the control port 30b of the system controller 30.
[0015]
With this configuration, the change-over switch 31 is connected to the wired side (ie, the first fixed contact 31a side) and the wireless side (ie, the second fixed contact) depending on the insertion state of the jack for the wired remote control device into the terminal 32. 31b side), the system controller 30 only needs two ports 30a and 30b as ports provided for remote control. However, in the case of the configuration shown in FIG. 7, the changeover switch 31 and the terminal 32 that operate mechanically in conjunction with each other are necessary, and there is a problem that the configuration is complicated.
[0016]
In the above description, the audio device has been described as an example. However, when both a wired remote control device and a wireless remote control device can be used for one device, other devices are used. Similar problems exist in the case of various electronic devices.
[0017]
An object of the present invention is to enable both a wired remote control device and a wireless remote control device to be used for one electronic apparatus with a simple configuration.
[0018]
[Means for Solving the Problems]
The present invention relates to a remote control terminal for outputting and inputting data for a remote control device, to which a separate wired remote control device is connected, and a transmission means for performing wireless transmission and reception between the wireless remote control device And an electronic device having a receiving means, and having a port for outputting and inputting the remote control data. Using both the wired remote control device and the wireless remote control device and the port A control unit that performs communication; a voltage applying unit that applies a predetermined voltage to the port; a transmission buffer connected between the port and the transmitting unit; and a connection between the receiving unit and the port Receive buffer and the status of the receive buffer The A selection means capable of selecting an impedance state and an operating state, and connecting the port to the remote control terminal; When the control unit selects an available one of the wired remote control device and the wireless remote control device, The selection means is in the state of the reception buffer The In the impedance state, the control unit detects a voltage level of the port, and the detected level corresponds to a state in which the wired remote control device is not connected to the remote control terminal. When the voltage level is reached, the control unit inputs and outputs data for wireless transmission and reception using the transmission unit and the reception unit using the port, and the detected level is the first level. When the second level, which is lower than the level, corresponding to the state where the wired remote control device is connected to the remote control terminal, the control unit is connected to the remote control terminal using the port. Data output and input for the wired remote control device is performed.
[0019]
With the configuration of the present invention, when the receiving buffer is in a high impedance state, the control unit can detect whether the wired remote control device is connected to the terminal by detecting the state of the port. Based on the determination, a wired mode or a wireless mode can be set.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
[0021]
In this example, the present invention is applied to a disk reproducing apparatus as a portable audio device for reproducing an optical disk or a magneto-optical disk on which digital audio data is recorded. 1 and 2 show the configuration of the disc playback apparatus 100. FIG. Here, the disc reproducing apparatus 100 of this example can use both the wired remote control device 140 and the wireless remote control device 160. FIG. 1 shows an example using the wired remote control device 140, and FIG. This is an example in which a wireless remote control device 160 is used. However, in the case of this example, both the wired remote control device 140 and the wireless remote control device 160 cannot be used at the same time, and only one of them is used during operation.
[0022]
First, a configuration for reproducing a disc by the disc reproducing device 100 will be described. A disc 101 mounted on the disc reproducing device 100 is rotationally driven by a spindle motor 102, and data read from the disc by an optical pickup 103 is reproduced by a reproduction processing circuit. The data is supplied to 104 to demodulate the reproduction data. Processing in the spindle motor 102, the optical pickup 103, and the reproduction processing circuit 104 is executed based on the control of the system controller 110.
[0023]
The reproduction audio data obtained by the reproduction processing circuit 104 is supplied to a digital / analog converter 105 to convert it into an analog audio signal, and the converted analog audio signal is supplied to an analog processing circuit 106 for analog amplification such as amplification. Processing is performed, and the processed analog audio signal is supplied to the audio output terminal 121 of the terminal unit 120. Note that the audio data reproduced by the disc reproducing apparatus 100 of this example is actually stereo audio data of two channels on the left and right, but is shown here as one system for the sake of simplicity.
[0024]
The terminal portion 120 of this example is configured as a jack to which an integrated audio signal plug and remote control plug can be attached. That is, as a plug to be mounted, for example, as shown in FIG. 3, a plug 145 in which a rod-shaped audio plug 146 and a flat remote control plug 147 are integrated can be mounted. As a terminal for remote control of the terminal unit 120 (that is, a terminal connected to the remote control plug 147), there are a terminal 122 for supplying power (here, + 5V power) to the remote control device, and a bidirectional control device. There are four terminals: a data terminal 123 for communication, a terminal 124 for obtaining key information on the remote control device side, and a ground terminal 125. When the wired remote control device 140 is not connected to the disc playback device 100 of this example, the plug of the headphone device can be directly connected to the audio output terminal 121 of the terminal unit 120.
[0025]
The disc playback apparatus 100 of this example is provided with various operation keys 107 for instructing playback and the like, and the operation information of the keys 107 is supplied to the system controller 111 which is a control unit. In addition, a display unit 108 including a liquid crystal display panel is arranged in the disc playback apparatus 100, and display of a playback state and the like (for example, track number, playback time, disc name, song name, playback state) is controlled by the system controller 111. Display) is performed.
[0026]
Next, a configuration in which the system controller 110 communicates with the remote control device will be described. The system controller 110 includes a communication port 111 for communicating with the remote control device, and the communication port 111 is connected to a terminal 123. A predetermined bias voltage is supplied to the communication port 111 via a resistor R1. Further, the communication port 111 is connected to the transmission processing circuit 132 via the resistor R2 and the transmission buffer 131, and the reception processing circuit 134 is further connected to the communication port via the reception buffer 135 and the resistor R3. 111 is connected.
[0027]
An antenna 133 is connected to the transmission processing circuit 132 and the reception processing circuit 134. The transmission signal output from the transmission processing circuit 132 is transmitted wirelessly from the antenna 133, and the signal received by the antenna 133 is received by the reception processing circuit 134. The reception processing is configured. The transmission operation in the transmission processing circuit 132 and the reception operation in the reception processing circuit 134 are controlled to be in an operating state or an inoperative state by data output from the transmission / reception control port 114 of the system controller 110. The output of the transmission signal from the transmission processing circuit 132 and the output of the reception signal from the reception processing circuit 134 in this example are configured to be performed in a time division manner based on a predetermined format.
[0028]
As the reception buffer 135 in this example, a so-called three-state buffer that can be controlled in three states of an operating state, a non-operating state, and a high impedance state is used. This state is the buffer control port 113 of the system controller 110. It is controlled by the signal obtained.
[0029]
In addition, the system controller 110 of this example includes a key information port 112 and is connected to a terminal 124 of the terminal unit 120. Key operation information from a wired remote control device 140, which will be described later, is transmitted to the key information port 112. Supplied.
[0030]
Next, the configuration of the wired remote control device 140 connected to the playback device 100 will be described with reference to FIG. As shown in FIG. 1, the wired remote control device 140 is used by being connected to the terminal unit 120 of the playback device 100. The remote control device 140 includes a controller 141 that controls the remote control device, a display unit 142 that displays various information under the control of the controller 141, a key 143 for operating the playback device, and a plug for a headphone device. And a jack 144 to be connected.
[0031]
The controller 141 and the display unit 142 are operated by the power supplied from the terminal 122 of the playback device 100. The display unit 142 includes display means such as a liquid crystal display panel, and displays information similar to the display unit 108 on the playback apparatus main body side (for example, display of track number, playback time, disc name, song name, playback status, etc.). Is to be done. The key 143 is connected to, for example, the terminal 121 and the terminal 125 of the terminal unit 120 (that is, between the power supply potential unit and the ground potential unit), and is obtained at the terminal 124 based on the operation state of the key 143. The system controller 110 can detect the operation state by changing the potential (that is, the potential detected by the key information port 112 of the system controller 110 on the playback device side). Headphone device 150 is connected to jack 144, and sound is output from left and right speaker units 151, 152 of headphone device 150.
[0032]
Next, the configuration of the wireless remote control device 160 that performs remote control of the playback device 100 will be described with reference to FIG. The wireless remote control device 160 includes an antenna 161, a reception processing circuit 162 that receives and processes a signal received by the antenna 161, and a transmission processing circuit 166 that processes a signal transmitted by the antenna 161. . Wireless transmission via the antenna 161 is performed with a circuit connected to the antenna 133 of the disk reproducing apparatus 100. As a frequency band used for the wireless transmission here, for example, a 240 MHz band or the like is used, and the transmission output thereof is a relatively weak output, and the distance between the disc playback device 100 and the remote control device 160 is 1 to 1. Wireless transmission is possible within a range of about 2 m.
[0033]
The reception processing circuit 162 and the transmission processing circuit 166 are connected to a system controller 163 that controls the operation in the remote control device. The system controller 163 is connected to a display unit 164 for displaying a reproduction state and a key 165 for instructing a reproduction operation. The display unit 164 uses display means such as a liquid crystal display panel to display the same information as the display unit 108 on the playback apparatus main body side (for example, display of track number, playback time, disc name, song name, playback status, etc.). Is to be done. In addition, a battery for supplying power for operating the wireless remote control device 160 is incorporated.
[0034]
Here, FIG. 3 shows an example of the usage state of the disc playback device 100, the wired remote control device 140, and the wireless remote control device 160. The disc player 100 is connected by inserting the plug 145 of the wired remote control device 140 into the terminal portion 120 as indicated by an arrow a. In this case, the headphone device 150 is connected to the disc playback device 100 via the wired remote control device 140 by connecting the headphone device 150 to the headphone jack 144 of the wired remote control device 140. Here, the key 143 of the wired remote control device 140 is configured to be capable of rotating in both the left and right directions as indicated by the arrow b and pushing down in the direction indicated by the arrow c. Thus, various operation instructions of the playback apparatus 100 can be performed, and various displays are performed on the display unit 142 using characters, graphics, and the like.
[0035]
Similarly to the wired remote control device 140, the wireless remote control device 160 includes a display unit 164 and a key 165, and can perform various displays on the display unit 164 and various operation instructions using the key 165. However, in the case of this example, when the wired remote control device 140 is connected to the terminal portion 120 of the disc playback device 100, only this wired remote control device 140 can be used as the remote control device. The wireless remote control device 160 can be used only when the wired remote control device 140 is not connected.
[0036]
In order to realize selective use of the remote control device, in this example, the system controller 110 in the disc playback device 100 determines the state of the terminal 123 of the terminal unit 120 of the disc playback device 100. It is as.
[0037]
Next, processing for realizing selective use of both remote control devices 140 and 160 will be described with reference to the flowchart of FIG. First, the system controller 110 periodically changes the state of the reception buffer 135 to a high impedance (Hi-Z) state by a signal output from the buffer control port 113 (step S11). In this state, the communication port 111 is set as an input port (step S12), and the system controller 110 determines the state of the port 111 (step S13).
[0038]
Here, it is determined whether the state of the port 111 is the low level signal “L” or the high level signal “H”, but if the wired remote control device 140 is connected to the terminal 123, the reception buffer Even if the state of 135 is set to the high impedance state, the circuit on the wired remote control device 140 side is connected, so the state of the port 111 becomes the low level signal “L”. Therefore, if it is detected that the low level signal is “L” in step S13, it is determined that the wired remote control device 140 is connected, and the state of the reception buffer 135 is maintained at high impedance. Then, bi-directional communication in time division with the wired remote control device 140 is started (step S14). Then, the communication is performed until it is determined in step S15 that the wired remote control device 140 is disconnected from the terminal unit 120. When it is determined that the wired remote control device 140 is disconnected in step S15, the process returns to step S11. Note that during the communication with the wired remote control device 140 in step S14, the processing operation in the transmission processing circuit 132 and the reception processing circuit 134 is stopped by a signal from the transmission / reception control port 114.
[0039]
When it is determined in step S13 that the signal is the high level signal “H”, the reception buffer 135 is in a high impedance state and nothing is connected to the terminal 123, so the wired remote control device 140 is connected. The wireless remote control device 160 determines that the reception buffer 135 is in an operating state (active state), and that the transmission processing circuit 132 and the reception processing circuit 134 are also in an operating state by a signal from the transmission / reception control port 114. (Step S16). Then, it is determined whether or not one packet bidirectional communication has been performed (step S17), and the process returns to step S11 every time one packet communication is performed. Note that the communication of one packet here indicates a state in which one unit of transmission and one unit of reception are performed.
[0040]
Therefore, when communicating with the wireless remote control device, every time one packet is communicated, the process of setting the reception buffer in the high impedance state in step S11 is performed, and the wired remote control device is not connected. Is confirmed.
[0041]
It should be noted that in step S14 the data configuration for the system controller 110 to input and output in a time-sharing manner for the wired remote control device via the port 111 in step S14, and the wireless remote control device via the port 111 in step S17 For this reason, the configuration of data to be input and output in a time-sharing manner is different here, and data input / output corresponding to each communication is performed.
[0042]
As described above, according to the disk reproducing apparatus of this example, the wireless signal receiving buffer 135 is controlled to a high impedance state at any time to check whether the wired remote control apparatus 140 is connected or not. Is not connected, it communicates with the wireless remote control device 160 to perform wireless remote control and display various information on the remote control device 160, and the wired remote control device 140 is connected. If the remote control device 140 is in communication with the wired remote control device 140, the remote control by wire and the display of various information on the remote control device 140 are executed. Selectively It can be used for good.
[0043]
In this example, the system controller 110 has only the communication port 111 as a port provided for communication with the remote control device, and has a simple configuration having only one port. Communication with the control device can be performed selectively. Further, in addition to the communication port 111, it is only necessary to add a configuration for controlling the reception buffer 135 by the buffer control port 113. With a simpler configuration than the conventional one, both wireless and wired remote control can be provided. Selective communication with the control device can be performed.
[0044]
In the above-described embodiment, the present invention is applied to a disk playback device that plays back an optical disk on which audio data is recorded or a magneto-optical disk. However, a recording device having a function of recording on a similar disk, or a recording function Of course, the present invention can also be applied to a recording / reproducing apparatus having a reproducing function. Further, the present invention can be applied to other electronic devices as long as both the wireless remote control device and the wired remote control device are selectively used in addition to the disc playback device and recording device. is there.
[0045]
【The invention's effect】
According to the first aspect of the present invention, the reception buffer can be selectively controlled to the high impedance state and the operation state, so that the state of judging the state of the communication port and the wired mode using the communication port are used. Alternatively, the wireless communication mode can be set, and the wired mode and the wireless mode can be appropriately set with a simple configuration in which one port is used for both wired and wireless.
[0046]
And When the selection means sets the reception buffer to the high impedance state, the control unit detects the voltage level of the port, and when the detected level is the first voltage level, the input / output of data for wireless is performed. When the second voltage level is lower than the first voltage level, by setting to input / output data for wired, each mode setting is based on voltage level detection It can be done reliably.
[0047]
Claim 2 According to the invention described in claim 1 In the invention described above, the control unit is means for controlling recording and / or reproduction of the recording medium, and the data output from the port is data related to recording and / or reproduction of the recording medium, and is stored in the port. The input data is data for controlling recording and / or reproduction of the recording medium. As a remote control device for recording and / or reproducing the recording medium, a wired remote control device and a wireless remote control device are used. Both of these can be selectively used.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an example of a configuration according to an embodiment of the present invention (an example in which a wired remote control device is connected).
FIG. 2 is a block diagram showing an example of a configuration according to an embodiment of the present invention (an example in which a wireless remote control device is connected).
FIG. 3 is a perspective view showing an example of the shape of a device according to an embodiment of the present invention.
FIG. 4 is a flowchart showing an example of communication processing according to an embodiment of the present invention.
FIG. 5 is a configuration diagram showing an example (part 1) of a configuration for communicating with a conventional remote control device;
FIG. 6 is a configuration diagram showing an example (part 2) of a configuration for communicating with a conventional remote control device.
FIG. 7 is a configuration diagram showing an example (part 3) of a configuration for communicating with a conventional remote control device;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 100 ... Disc player, 110 ... System controller, 111 ... Communication port, 112 ... Key information port, 113 ... Buffer control port, 114 ... Transmission / reception control port, 120 ... Terminal part, 131 ... Transmission buffer, 132 ... Transmission processing circuit 134 ... Reception processing circuit 135 ... Reception buffer 140 ... Wired remote control device 150 ... Headphone device 160 ... Wireless remote control device

Claims (2)

A separate wired remote control device is connected, a remote control terminal for outputting and inputting remote control data, and
An electronic device comprising a transmission means and a reception means for performing wireless transmission and reception with a wireless remote control device,
A port for outputting and inputting the remote control data; a control unit for communicating with both the wired remote control device and the wireless remote control device using the port ;
Voltage applying means for applying a predetermined voltage to the port;
A transmission buffer connected between the port and the transmission means;
A receiving buffer connected between the receiving means and the port;
And a selection means for selecting a state of the receiving buffer in the operating state and high impedance state,
Connect the port to the remote control terminal,
When the control unit selects a usable among the wired remote control device and the wireless remote control device, on which the selection means has a state of the reception buffer and high-impedance state, the control Section detects the voltage level of the port,
When the detected level is a first voltage level corresponding to a state where the wired remote control device is not connected to the remote control terminal, the control unit uses the port to transmit the transmitting means and the receiving device. Input and output data for wireless transmission and reception using the means,
When the detected level is lower than the first level and is at a second level corresponding to a state where the wired remote control device is connected to the remote control terminal, the control unit uses the port. Electronic equipment for outputting and inputting data for the wired remote control device connected to the remote control terminal. The electronic device according to claim 1,
The control unit is means for controlling recording and / or reproduction of the recording medium, and data output from the port is data related to recording and / or reproduction of the recording medium and is input to the port. The electronic device is data that controls recording and / or reproduction of the recording medium.

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