JP3606378B2 - Video wireless transmission / reception system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless video transmission / reception system including a video transmitter for wirelessly transmitting a video signal and a video receiver for receiving the wirelessly transmitted video signal.
[0002]
[Prior art]
FIG. 7 is a block circuit diagram showing a schematic configuration of a conventional video wireless communication system. The conventional video wireless communication system 50 of FIG. 7 has the following circuit configuration. The video wireless communication system 50 includes a video transmitter 60 and a video receiver 70.
[0003]
The video transmitter 60 includes video playback devices 61, 62, and 63, a video input switching circuit unit 64, a video transmission circuit unit 65, an antenna 66, a remote control reception circuit unit 67, and a light emitting circuit unit 68. The video playback devices 61, 62, and 63 are connected to the input of the video transmission circuit unit 65 via the video input switching circuit unit 64, and the output of the video transmission circuit unit 65 is connected to the antenna 66. The antenna 66 is connected to the input of the remote control receiving circuit unit 67, and the output of the remote control receiving circuit unit 67 is connected to the light emitting circuit unit 68.
[0004]
The video receiver 70 includes an antenna 71, a video receiving circuit unit 72, an audio circuit unit 73, a display circuit unit 74, an infrared remote control transmitter 75, a light receiving circuit unit 76, and a remote control transmission circuit unit 77. The antenna 71 is connected to the input of the video receiving circuit unit 72, the output of the video receiving circuit unit 72 is connected to the audio circuit unit 73 and the display circuit unit 74, and the light receiving circuit unit 76 is connected to the input of the remote control transmission circuit unit 77. The output of the remote control transmission circuit unit 77 is connected to the antenna 71.
[0005]
Next, the operation of the conventional video wireless communication system 50 in FIG. 7 will be described. In the video transmitter 60, one of the video playback devices 61, 62, 63 is selected by switching the video input switching circuit unit 64. In FIG. 7, for example, the video playback device 62 is selected. The video signal output from the video signal generator 62 is converted into a high-frequency video signal by the video transmission circuit unit 65 and transmitted from the antenna 66 to the video receiver 70.
[0006]
The high frequency remote control signal received from the antenna 66 is converted into the original remote control signal by the remote control receiving circuit unit 67. The remote control signal is converted from an electrical signal to an infrared signal IR by the light emitting circuit unit 68, and the infrared signal IR is input to a remote control light receiving unit (not shown) of each of the video reproduction devices 61, 62, and 63.
[0007]
In the video receiver 70, the high frequency video signal transmitted from the video transmitter 60 is received by the antenna 71. The received high-frequency video signal is converted into a video signal and an audio signal by the video receiving circuit unit 72, the video signal is displayed as an image by the display circuit unit 74, and the audio signal is converted into audio by the audio circuit unit 73.
[0008]
The infrared signal IR from the infrared remote control transmitter 75 is converted into a remote control signal which is an electric signal by the light receiving circuit unit 76, and this remote control signal is converted into a high frequency remote control signal by the remote control transmission circuit unit 77, from the antenna 71. It is transmitted to the video transmitter 60.
[0009]
As described above, the infrared signal IR from the infrared remote control transmitter 75 is received from the light receiving circuit section 76 → the remote control transmission circuit section 77 → the antenna 71 → the antenna 66 → the remote control reception circuit section 67 → the light emission circuit section 68 → the video playback device 61. The video playback devices 61, 62, and 63 that are transmitted through the paths of the remote control light receiving units (not shown) of 62 and 63, respectively, and are installed at remote locations by the infrared remote control transmitter 75 can be controlled.
[0010]
[Problems to be solved by the invention]
However, in the above prior art, the video transmitter 60 and the video receiver 70 are installed at remote locations, and thus have the following problems.
[0011]
That is, for example, when the manufacturers of the video playback devices 61, 62, and 63 are different, operating the video playback devices 61, 62, and 63 requires an infrared remote control transmitter dedicated to each video playback device, Every time the video playback device is changed, the infrared remote control transmitter must be operated while being exchanged, which is very inconvenient.
[0012]
When one of the video playback devices 61, 62, and 63 is selected by switching the video input switching circuit unit 64 of the video transmitter 60, the user can select three video input switching circuit units 64. There was the hassle of having to remember the video playback device connected to the input.
[0013]
Further, when the user changes the connection of the video playback device connected to the three inputs of the video input switching circuit unit 64, the user has to bother to remember the changed connection each time. .
[0014]
The present invention has been made to solve the above-described problems, and the operability in the case where each of the plurality of video playback devices 61, 62, 63 of the video transmitter 60 is operated by the infrared remote control transmitter. An object of the present invention is to provide a video wireless transmission / reception system in which the troublesomeness associated with the above operation is eliminated.
[0015]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides a plurality of different video playback devices, a video input switching circuit unit for selecting one of the plurality of video playback devices, and a video from the selected video playback device. A video transmission circuit unit that converts a signal into a high-frequency video signal and transmits it, a remote control reception circuit unit that converts the received high-frequency remote control signal into an original remote control signal, and light emission that converts the remote control signal from an electrical signal to an infrared signal A video transmitter comprising a circuit unit;
A video receiving circuit unit that receives the high-frequency video signal and converts it into a video signal and an audio signal, a display circuit unit that displays the image of the video signal, an audio circuit unit that converts the audio signal into audio, and infrared remote control transmission Receiver having a receiver, a light receiving circuit unit that converts an infrared signal from the infrared remote control transmitter into a remote control signal that is an electrical signal, and a remote control transmission circuit unit that converts the remote control signal into a high frequency remote control signal and transmits the signal. In video wireless transmission and reception system consisting of
An infrared remote control transmitter of the video wireless transmission / reception system operates in common with a video input selection key for generating a selection data signal for selecting one of the video playback devices and the plurality of different video playback devices. A common function key for generating one function data signal,
The video receiver includes data conversion means for converting the first functional data signal into a second functional data signal for operating the selected video playback device based on the selected data signal. It is a feature.
[0016]
According to the present invention, the video input switching circuit unit has a plurality of video input terminals for connecting the plurality of video playback devices, and the video receiver is selected based on the selected data signal. A first memory circuit section in which video input terminals are stored; a second memory circuit section in which video playback devices connected to each of the plurality of video input terminals are stored; and each of the plurality of video playback apparatuses. A third memory circuit section in which the second function data signal is stored,
When the first function data signal is input, the data conversion means reads the selected video playback device from the first and second memory circuit units, and the first video data of the first video playback device is read. The second function data signal corresponding to the function based on the function data signal is read from the third memory circuit unit and output.
[0017]
According to the present invention, the video receiver inputs a video input terminal selected based on the selected data signal to the first memory circuit unit, and a video connected to each of the plurality of video input terminals. Video input setting means for inputting a playback device to the second memory circuit section is provided.
[0018]
The present invention also provides a plurality of different video playback devices, a video input switching circuit for selecting one of the plurality of video playback devices, and a video signal from the selected video playback device as a high-frequency video signal. A video transmission circuit unit that converts and transmits the received high-frequency remote control signal to a remote control signal, and a light-emitting circuit unit that converts the remote control signal from an electrical signal to an infrared signal A video transmitter,
A video receiving circuit unit that receives the high-frequency video signal and converts it into a video signal and an audio signal, a display circuit unit that displays the image of the video signal, an audio circuit unit that converts the audio signal into audio, and infrared remote control transmission Receiver having a receiver, a light receiving circuit unit that converts an infrared signal from the infrared remote control transmitter into a remote control signal that is an electrical signal, and a remote control transmission circuit unit that converts the remote control signal into a high frequency remote control signal and transmits the signal. In video wireless transmission and reception system consisting of
An infrared remote control transmitter of the video wireless transmission / reception system operates in common with a video input selection key for generating a selection data signal for selecting one of the video playback devices and the plurality of different video playback devices. A common function key for generating one function data signal,
The video transmitter includes data conversion means for converting the first functional data signal into a second functional data signal for operating the selected video playback device based on the selected data signal. It is a feature.
[0019]
According to the present invention, the video input switching circuit unit has a plurality of video input terminals for connecting the plurality of video playback devices, and the video transmitter is selected based on the selected data signal. A first memory circuit section in which video input terminals are stored; a second memory circuit section in which video playback devices connected to each of the plurality of video input terminals are stored; and each of the plurality of video playback apparatuses. A third memory circuit section in which the second function data signal is stored,
When the first function data signal is input, the data conversion means reads the selected video playback device from the first and second memory circuit units, and the first video data of the first video playback device is read. The second function data signal corresponding to the function based on the function data signal is read from the third memory circuit unit and output.
[0020]
According to the present invention, the video transmitter inputs a video input terminal selected on the basis of the selected data signal to the first memory circuit unit, and a video connected to each of the plurality of video input terminals. Video input setting means for inputting a playback device to the second memory circuit section is provided.
[0021]
Further, the present invention is such that the video input setting means can rewrite the second memory circuit section with the device discrimination means for discriminating the video playback device from the remote control signal of the infrared remote control transmitter of the video playback device. A memory rewrite setting means for setting, and when the memory rewrite setting means sets the second memory circuit section in a state where it can be rewritten, the video input of the infrared remote control transmitter of the video wireless transmission / reception system A video input terminal is selected by a selection key, and the video playback device discriminated by the device discriminating means is input to the video input terminal.
[0022]
According to the present invention, the memory rewrite setting means includes a timer for measuring a specified time, and the second input by continuously pressing a video input selection key of an infrared remote control transmitter of the video wireless transmission / reception system for the specified time. The memory circuit unit is set in a state in which rewriting is possible, and the video input terminal can be selected and the memory rewriting can be set by pressing and holding a video input selection key for the specified time. is there.
[0023]
Further, according to the present invention, the display circuit unit and the audio circuit unit of the video receiver are televisions, and the infrared remote control transmitter of the video wireless transmission / reception system is an infrared remote control transmitter for operating the television. It is characterized by.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
[First Embodiment]
FIG. 1 is a block circuit diagram showing a schematic configuration of a video wireless transmission / reception system according to the first embodiment of the present invention, and FIG. 2 is a video wireless transmission / reception system according to the first embodiment of the present invention. FIG. 3 is a diagram showing the memory contents of the first, second, and third memory circuit units of the video wireless transmission / reception system according to the first embodiment of the present invention. FIG. 4 is a flow chart for explaining the operation of the data conversion means of the video wireless transmission / reception system according to the first embodiment of the present invention, and FIG. 5 is the flowchart of the first embodiment of the present invention. It is a flowchart figure explaining operation | movement of the video input setting means of the video wireless transmission / reception system concerning a form. Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
[0025]
FIG. 1 is a block circuit diagram showing a schematic configuration of a video wireless transmission / reception system 1 of the present embodiment. The video wireless transmission / reception system 1 of this embodiment shown in FIG. 1 has the following circuit configuration. The video wireless transmission / reception system 1 includes a video transmitter 10 and a video receiver 30.
[0026]
The video transmitter 10 includes video playback devices 11, 12 and 13, a video input switching circuit unit 14, a video transmission circuit unit 15, an antenna 16, a remote control reception circuit unit 17, and a light emitting circuit unit 18. The video input switching circuit unit 14 has video input terminals 14a, 14b, and 14c.
[0027]
The video playback devices 11, 12, and 13 are connected to video input terminals 14 a, 14 b, and 14 c of the video input switching circuit unit 14, respectively, and the output of the video input switching circuit unit 14 is connected to the input of the video transmission circuit unit 15. The output of the video transmission circuit unit 15 is connected to the antenna 16. The antenna 16 is connected to the input of the remote control receiving circuit unit 17, and the output of the remote control receiving circuit unit 17 is connected to the light emitting circuit unit 18.
[0028]
The video receiver 30 includes an antenna 31, a video receiving circuit unit 32, an audio circuit unit 33, a display circuit unit 34, an infrared remote control transmitter 35, a light receiving circuit unit 36, a remote control transmission circuit unit 37, a data conversion means 40, a first data conversion unit 40, The memory circuit unit 41, the second memory circuit unit 42, the third memory circuit unit 43, and the video input setting unit 44 are included.
[0029]
The antenna 31 is connected to the input of the video receiving circuit unit 32, and the output of the video receiving circuit unit 32 is connected to the audio circuit unit 33 and the display circuit unit 34. The light receiving circuit unit 36 is connected to the inputs of the data conversion unit 40 and the video input setting unit 44, the output of the data conversion unit 40 is connected to the input of the remote control transmission circuit unit 37, and the output of the remote control transmission circuit unit 37 is the antenna 31. It is connected to the.
[0030]
Further, the data conversion means 40 is connected to the first memory circuit unit 41, the second memory circuit unit 42, and the third memory circuit unit 43, and the first memory circuit unit 41 and the second memory circuit unit. Video input setting means 44 is connected to 42.
[0031]
Next, the operation of the video wireless transmission / reception system 1 of this embodiment shown in FIG. 1 will be described. In the video transmitter 10, one of the video playback devices 11, 12, and 13 is selected by switching the video input switching circuit unit 14. In FIG. 1, for example, the video playback device 12 is selected. The video signal output from the video signal generator 12 is converted into a high-frequency video signal by the video transmission circuit unit 15 and transmitted from the antenna 16 to the video receiver 30.
[0032]
The high frequency remote control signal received from the antenna 16 is converted into the original remote control signal by the remote control receiving circuit unit 17. The remote control signal is converted from an electrical signal to an infrared signal IR by the light emitting circuit unit 18, and the infrared signal IR is input to a remote control light receiving unit (not shown) of each of the video reproduction apparatuses 11, 12, and 13.
[0033]
In the video receiver 30, the high frequency video signal transmitted from the video transmitter 10 is received by the antenna 31. The received high-frequency video signal is converted into a video signal and an audio signal by the video receiving circuit unit 32, the video signal is displayed as an image by the display circuit unit 34, and the audio signal is converted into audio by the audio circuit unit 33. Here, the display circuit unit 34 and the audio circuit unit 33 may be a television 38.
[0034]
The infrared remote control transmitter 35 selects the “selection data signal” for selecting one of the plurality of video playback apparatuses 11, 12, and 13 and the “first” for operating the plurality of video playback apparatuses 11, 12, and 13 in common. A "function data signal" is generated as an infrared signal IR.
[0035]
Then, the infrared signal IR from the infrared remote control transmitter 35 is converted into a remote control signal which is an electrical signal by the light receiving circuit 36, that is, a “selection data signal” and a “first function data signal”, and the data conversion means 40. Is input.
[0036]
Based on the “selected data signal”, the data conversion means 40 converts the “first function data signal” into a “second function data signal” for operating the selected video playback device. This “second function data signal” is converted into a high frequency remote control signal by the remote control transmission circuit unit 37 and transmitted from the antenna 31 to the video transmitter 10.
[0037]
The first memory circuit section 41 stores a video input terminal selected based on the “selected data signal”, and the second memory circuit section 42 includes a plurality of video input terminals 14a, The video playback devices 11, 12, and 13 connected to 14b and 14c are stored in memory, respectively, and the third memory circuit unit 43 stores the “second function” of each of the video playback devices 11, 12, and 13 in the third memory circuit unit 43. "Data signal" is stored in memory.
[0038]
The video input setting means 44 inputs the video input terminal selected based on the “selected data signal” to the first memory circuit section 41 and connects to each of the plurality of video input terminals 14a, 14b, and 14c. The video playback apparatuses 11, 12, and 13 thus input are input to the second memory circuit unit 42.
[0039]
As described above, the infrared signal IR from the infrared remote control transmitter 35 is received by the light receiving circuit unit 36 → the data conversion means 40 → the remote control transmission circuit unit 37 → the antenna 31 → the antenna 16 → the remote control reception circuit unit 17 → the light emitting circuit unit 18 → “First function data signal” which is transmitted through a path of a remote control light receiving unit (not shown) of each of the video reproduction apparatuses 11, 12 and 13, includes data conversion means 40, and operates the plurality of video reproduction apparatuses 11, 12 and 13 in common. Is converted into a “second function data signal” for operating the selected video playback device, and a plurality of video playback devices installed at remote locations using one infrared remote control transmitter 35. 11, 12, 13 can be controlled.
[0040]
FIG. 2 is an external view of the infrared remote control transmitter 35 of the video wireless transmission / reception system 1 of the present embodiment. The infrared remote control transmitter 35 includes a video input selection key 35 a for generating a “selection data signal” for selecting one of the video playback devices 11, 12, and 13, and a plurality of different video playback devices 11, 12, and 13. And a common function key 35c for generating a “first function data signal” for commonly operating the TV, and the display circuit unit 34 and the audio circuit unit 33 are televisions 38. The television function key 35b for operating 38 is provided.
[0041]
FIG. 3 is a diagram for explaining the state of the memory contents of the first memory circuit unit 41, the second memory circuit unit 42, and the third memory circuit unit 43 of the video wireless transmission / reception system 1 of the present embodiment.
[0042]
FIG. 3A is a diagram for explaining the state of the memory contents of the first memory circuit unit 41. In the first memory circuit section 41, video input terminals N (N = 1, 2, 3) selected based on the “selected data signal” are stored.
[0043]
FIG. 3B is a diagram for explaining the memory contents of the second memory circuit unit 42. The second memory circuit section 42 includes a video playback device 11 (A company VTR) connected to a plurality of video input terminals 14a (video input 1), 14b (video input 2), and 14c (video input 3), respectively. 12 (B company VTR) and 13 (C company VTR) are stored in memory.
[0044]
FIG. 3C is a diagram for explaining the memory contents of the third memory circuit unit 43. The third memory circuit unit 43 stores the “second function data signal” of each of the plurality of video reproduction apparatuses 11 (A company VTR), 12 (B company VTR), and 13 (C company VTR). Yes. Examples of functions include play, stop, fast forward, rewind, and recording.
[0045]
The “second function data signal” includes at least a discrimination code and a data code. The discrimination code is used to discriminate the video playback device 11 (Company A VTR), the video playback device 12 (Company B VTR), and the video playback device 13 (C Company VTR), for example, the Company A, Company B and C Each company has a different code. In FIG. 3C, for example, the video playback device 11 (A company VTR) = “01”, the video playback device 12 (B company VTR) = “10”, and the video playback device 13 (C company VTR) = “11”. Is set to
[0046]
The data code is a code set for each function such as playback, stop, fast forward, rewind, and recording. In FIG. 3C, for example, the video playback device 11 (A company VTR) = “a ** 1 to a ** 5” and the video playback device 12 (B company VTR) = “b ** 1 to b **”. 5 ”and video playback device 13 (C company VTR) =“ c ** 1 to c ** 5 ”.
[0047]
FIG. 4 is a flowchart for explaining the operation of the data conversion means 40 of the video wireless transmission / reception system 1 of the present embodiment. The data conversion means 40 is constituted by a microcomputer, for example. The operation of the data conversion means 40 when the data conversion means 40 is constituted by a microcomputer will be described below with reference to FIG.
[0048]
In step S1, it is checked whether or not a remote control signal is input from the light receiving circuit unit. When the remote control signal is input, the process proceeds to step S2.
[0049]
In step S2, it is checked whether or not the remote control signal is a “first function data signal”. If it is “first function data signal”, “video input N (N = 1, 2, 3)” stored in the first memory circuit section 41 of FIG. Move on to S3.
[0050]
In step S3, it is checked whether or not “video input 1 (N = 1)”. If “video input 1 (N = 1)”, the process proceeds to step S4. If not “video input 1 (N = 1)”, the process proceeds to step S5.
[0051]
In step S4, “video playback device 11 (A company VTR)” corresponding to “video input terminal 14a (video input 1)” is read from the second memory circuit section 42 of FIG. Then, the “second function data signal” of the “video playback device 11 (Company A VTR)” having the function corresponding to the “first function data signal” from the third memory circuit unit 43 of FIG. Is read. For example, if the function corresponding to the “first function data signal” is “reproduction”, “01a ** 1” is read as the “second function data signal”. And after reading, it moves to step S9.
[0052]
In step S5, it is checked whether or not “video input 2 (N = 2)”. If it is “video input 2 (N = 2)”, the process proceeds to step S6, and if it is not “video input 2 (N = 2)”, the process proceeds to step S7.
[0053]
In step S6, “video playback device 12 (Company B VTR)” corresponding to “video input terminal 14b (video input 2)” is read from the second memory circuit section 42 of FIG. Then, the “second function data signal” of the “video playback device 12 (B company VTR)” having the function corresponding to the “first function data signal” from the third memory circuit unit 43 of FIG. Is read. For example, if the function corresponding to the “first function data signal” is “stop”, “10b ** 2” is read as the “second function data signal”. And after reading, it moves to step S9.
[0054]
In step S7, it is checked whether or not “video input 3 (N = 3)”. If “video input 3 (N = 3)”, the process proceeds to step S8.
[0055]
In step S8, the “video playback device 13 (C company VTR)” corresponding to the “video input terminal 14c (video input 3)” is read from the second memory circuit section 42 of FIG. Then, the “second function data signal” of the “video playback device 13 (C company VTR)” having the function corresponding to the “first function data signal” from the third memory circuit unit 43 of FIG. Is read. For example, if the function corresponding to the “first function data signal” is “fast forward”, “11c ** 3” is read as the “second function data signal”. And after reading, it moves to step S9.
[0056]
In step S 9, the “second function data signal” read in steps S 4, S 6, S 8 is output to the remote control transmission circuit unit 37.
[0057]
As described above, when the “first function data signal” is input, the data conversion unit 40 selects the video playback device selected from the first memory circuit unit 41 and the second memory circuit unit 42. Is read out from the third memory circuit unit 43 and output, corresponding to a function based on the “first function data signal” of the video playback device.
[0058]
FIG. 5 is a flowchart for explaining the operation of the video input setting means 44 of the video wireless transmission / reception system 1 of the present embodiment. The video input setting unit 44 is constituted by a microcomputer, for example. The operation of the video input setting means 44 when the video input setting means 44 is constituted by a microcomputer will be described below with reference to FIG.
[0059]
In step S1, it is checked whether or not a remote control signal is input from the light receiving circuit unit. When the remote control signal is input, the process proceeds to step S2.
[0060]
In step S2, the timer is reset (t ← 0), and the process proceeds to step S3.
[0061]
In step S3, it is checked whether or not the remote control signal in step S1 is a “selected data signal”, that is, whether or not the video input selection key 35a of the infrared remote control transmitter 35 is pressed. If the video input selection key 35a is pressed, the timer is incremented (t ← t + 1), and it is checked whether or not the timer has timed the specified time T (t ≧ T). If the timer has timed the specified time T (t ≧ T), the process proceeds to step S4, and if the timer has not timed the specified time T (t <T), the process returns to step S3.
[0062]
Step S3 corresponds to memory rewrite setting means. The memory rewrite setting means includes the timer for measuring a specified time T, and the second memory circuit unit is configured by continuously pressing the video input selection key 35a of the infrared remote control transmitter 35 of the video wireless transmission / reception system 1 for the specified time T. 42 is set in a state where rewriting is possible, and the video input terminals 14a, 14b and 14c can be selected and the memory rewriting of the second memory circuit unit 42 can be set by continuing to press the video input selection key 35a for a predetermined time T. I am doing so.
[0063]
In step S4, it is checked whether or not “video input terminal 14a (video input 1)” has been selected. If “video input terminal 14a (video input 1)” is selected, the register N is set to 1 (N ← 1), and the process proceeds to step S7. If “video input terminal 14a (video input 1)” is not selected, the process proceeds to step S5.
[0064]
In step S5, it is checked whether or not “video input terminal 14b (video input 2)” has been selected. If “video input terminal 14b (video input 2)” is selected, the register N is set to 2 (N ← 2), and the process proceeds to step S7. If “video input terminal 14b (video input 2)” is not selected, the process proceeds to step S6.
[0065]
In step S6, it is checked whether or not “video input terminal 14c (video input 3)” has been selected. If “video input terminal 14c (video input 3)” is selected, the register N is set to 3 (N ← 3), and the process proceeds to step S7.
[0066]
In step S7, the video input N (N = 1, 2, 3) is stored in the first memory circuit unit 41, and then the process proceeds to step S8.
[0067]
In step S8, it is checked whether or not a “second function data signal” that is a remote control signal of an infrared remote control transmitter (not shown) of each of the video reproduction apparatuses 11, 12, and 13 is input from the light receiving circuit unit 36. When the “second function data signal” is input, the process proceeds to step S9.
[0068]
In step S9, it is checked whether or not the discrimination code of the “second function data signal” is “01” = video playback apparatus 11 (A company VTR). If the determination code is “01”, the process proceeds to step S10. If the determination code is not “01”, the process proceeds to step S11.
[0069]
In step S 10, “video input N = video playback device 11 (Company A VTR)” is input to the second memory circuit unit 42.
[0070]
In step S11, it is checked whether or not the discrimination code of the “second function data signal” is “10” = video playback device 12 (B company VTR). If the determination code is “10”, the process proceeds to step S12. If the determination code is not “10”, the process proceeds to step S13.
[0071]
In step S <b> 12, “video input N = video playback device 12 (B company VTR)” is input to the second memory circuit unit 42.
[0072]
In step S13, it is checked whether or not the discrimination code of the “second function data signal” is “11” = video playback device 13 (C company VTR). If the determination code is “11”, the process proceeds to step S14.
[0073]
In step S <b> 14, “video input N = video playback device 13 (C company VTR)” is input to the second memory circuit unit 42.
[0074]
Steps S9, S11, and S13 correspond to device discrimination means for discriminating the video playback devices 11, 12, and 13 from remote control signals of infrared remote control transmitters (not shown) of the video playback devices 11, 12, and 13, respectively.
[0075]
As described above, the video input setting means 44 is a device discriminating means for discriminating the video playback devices 11, 12, 13 from the remote control signals of the infrared remote control transmitters (not shown) of the video playback devices 11, 12, 13 respectively. A memory rewrite setting means for setting the second memory circuit section to a rewritable state, and when the second memory circuit section is set to a rewritable state by the memory rewrite setting means, The video input terminals 14a, 14b, and 14c are selected by the video input selection key 35a of the infrared remote control transmitter 35 of the video wireless transmission / reception system 1, and the video playback device discriminated by the device discriminating means is input to the video input terminal. .
[0076]
[Second Embodiment]
FIG. 6 is a block circuit diagram showing a schematic configuration of a video wireless transmission / reception system according to the second embodiment of the present invention. Compared with the block circuit diagram showing the schematic configuration of the video wireless transmission / reception system 1 according to the first embodiment of the present invention described in FIG. 1, the video receiver 30 of the video wireless transmission / reception system 1 of FIG. In the video wireless transmission / reception system 2 of FIG. 6, the data conversion means 40, the first memory circuit section 41, the second memory circuit section 42, the third memory circuit section 43, and the video input setting means 44 are The transmitter 10 is different in that it is provided as data conversion means 20, first memory circuit section 21, second memory circuit section 22, third memory circuit section 23, and video input setting means 24.
[0077]
Therefore, in the video wireless transmission / reception system 2 of FIG. 6, the external appearance of the remote control transmitter 35 is the same as that of FIG. 2, and the first memory circuit unit 21, the second memory circuit unit 22, and the third memory circuit unit 23 are the same. 3 is the same as FIG. 3, the flowchart explaining the operation of the data conversion means 20 is the same as FIG. 4, and the flowchart explaining the operation of the video input setting means 24 is shown in FIG. Same as 5. The second embodiment of the present invention will be described below with reference to FIGS. 6 and 2 to 5.
[0078]
FIG. 6 is a block circuit diagram showing a schematic configuration of the video wireless transmission / reception system 2 of the present embodiment. The video wireless transmission / reception system 2 of the present embodiment shown in FIG. 6 has the following circuit configuration. The video wireless transmission / reception system 2 includes a video transmitter 10 and a video receiver 30.
[0079]
The video transmitter 10 includes video playback devices 11, 12 and 13, a video input switching circuit unit 14, a video transmission circuit unit 15, an antenna 16, a remote control reception circuit unit 17, a light emitting circuit unit 18, a data conversion unit 20, a first data conversion unit 20. The memory circuit unit 21, the second memory circuit unit 22, the third memory circuit unit 23, and the video input setting unit 24 are included. The video input switching circuit unit 14 has video input terminals 14a, 14b, and 14c.
[0080]
The video playback devices 11, 12, and 13 are connected to video input terminals 14 a, 14 b, and 14 c of the video input switching circuit unit 14, respectively, and the output of the video input switching circuit unit 14 is connected to the input of the video transmission circuit unit 15. The output of the video transmission circuit unit 15 is connected to the antenna 16. The antenna 16 is connected to the input of the remote control receiving circuit unit 17, the output of the remote control receiving circuit unit 17 is connected to the inputs of the data conversion means 20 and the video input setting means 24, and the output of the data conversion means 20 is the light emitting circuit. Connected to the unit 18.
[0081]
The data conversion means 20 is connected to the first memory circuit unit 21, the second memory circuit unit 22, and the third memory circuit unit 23, and the first memory circuit unit 21 and the second memory circuit unit. Video input setting means 24 is connected to 22.
[0082]
The video receiver 30 includes an antenna 31, a video receiving circuit unit 32, an audio circuit unit 33, a display circuit unit 34, an infrared remote control transmitter 35, a light receiving circuit unit 36, and a remote control transmission circuit unit 37.
[0083]
The antenna 31 is connected to the input of the video receiving circuit unit 32, and the output of the video receiving circuit unit 32 is connected to the audio circuit unit 33 and the display circuit unit 34. The light receiving circuit unit 36 is connected to the input of the remote control transmission circuit unit 37, and the output of the remote control transmission circuit unit 37 is connected to the antenna 31.
[0084]
Next, the operation of the video wireless transmission / reception system 2 of this embodiment shown in FIG. 6 will be described. In the video transmitter 10, one of the video playback devices 11, 12, and 13 is selected by switching the video input switching circuit unit 14. In FIG. 6, for example, the video playback device 12 is selected. The video signal output from the video signal generator 12 is converted into a high-frequency video signal by the video transmission circuit unit 15 and transmitted from the antenna 16 to the video receiver 30.
[0085]
In the video receiver 30, the high frequency video signal transmitted from the video transmitter 10 is received by the antenna 31. The received high-frequency video signal is converted into a video signal and an audio signal by the video receiving circuit unit 32, the video signal is displayed as an image by the display circuit unit 34, and the audio signal is converted into audio by the audio circuit unit 33. Here, the display circuit unit 34 and the audio circuit unit 33 may be a television 38.
[0086]
In the video receiver 30, the infrared remote control transmitter 35 includes a “selected data signal” for selecting one of the plurality of video playback devices 11, 12, and 13 and the plurality of video playback devices 11, 12, and 13. A “first function data signal” to be operated in common is generated as an infrared signal IR.
[0087]
The infrared signal IR from the infrared remote control transmitter 35 is converted into a remote control signal that is an electrical signal by the light receiving circuit 36, that is, a “selection data signal” and a “first function data signal”, and further transmitted by remote control. The high frequency remote control signal is converted by the circuit unit 37 and transmitted to the video transmitter 10 from the antenna 31.
[0088]
In the video transmitter 10, the high frequency remote control signal received from the antenna 16 is converted into the original remote control signal by the remote control receiving circuit unit 17, and this remote control signal is input to the data conversion means 20.
[0089]
Based on the “selected data signal”, the data conversion means 20 converts the “first function data signal” into a “second function data signal” for operating the selected video playback device. This “second function data signal” is converted from an electrical signal to an infrared signal IR by the light emitting circuit unit 18, and this infrared signal IR is input to a remote control light receiving unit (not shown) of each of the video reproduction apparatuses 11, 12, and 13. The
[0090]
The first memory circuit section 21 stores a video input terminal selected based on the “selected data signal”, and the second memory circuit section 22 includes a plurality of video input terminals 14a, The video playback devices 11, 12, and 13 connected to the respective 14b and 14c are stored in memory, and the third memory circuit unit 23 stores the “second function” of each of the video playback devices 11, 12, and 13 in the third memory circuit unit 23. "Data signal" is stored in memory.
[0091]
The video input setting means 24 inputs the video input terminal selected based on the “selected data signal” to the first memory circuit unit 21 and connects it to each of the plurality of video input terminals 14a, 14b, and 14c. The video playback devices 11, 12, and 13 thus input are input to the second memory circuit unit 22.
[0092]
As described above, the infrared signal IR from the infrared remote control transmitter 35 is received by the light receiving circuit unit 36 → the remote control transmission circuit unit 37 → the antenna 31 → the antenna 16 → the remote control reception circuit unit 17 → the data conversion means 20 → the light emission circuit unit 18 → “First function data signal” which is transmitted through a path of a remote control light receiving unit (not shown) of each of the video playback apparatuses 11, 12 and 13, includes data conversion means 20, and operates the plurality of video playback apparatuses 11, 12 and 13 in common. Is converted into a “second function data signal” for operating the selected video playback device, and a plurality of video playback devices installed at remote locations using one infrared remote control transmitter 35. 11, 12, 13 can be controlled.
[0093]
2 showing an external view of the infrared remote control transmitter 35, and FIG. 3 for explaining the memory contents of the first memory circuit unit 21, the second memory circuit unit 22, and the third memory circuit unit 23. Since it is the same as that described in the first embodiment and is redundant, the description thereof is omitted.
[0094]
Next, the operation of the data conversion means 20 when the data conversion means 20 is constituted by a microcomputer will be described with reference to FIG.
[0095]
In step S1, it is checked whether or not a remote control signal is input from the remote control receiving circuit unit 17. When the remote control signal is input, the process proceeds to step S2.
[0096]
In step S2, it is checked whether or not the remote control signal is a “first function data signal”. If it is “first function data signal”, “video input N (N = 1, 2, 3)” stored in the first memory circuit section 21 of FIG. Move on to S3.
[0097]
In step S3, it is checked whether or not “video input 1 (N = 1)”. If “video input 1 (N = 1)”, the process proceeds to step S4. If not “video input 1 (N = 1)”, the process proceeds to step S5.
[0098]
In step S4, “video playback device 11 (A company VTR)” corresponding to “video input terminal 14a (video input 1)” is read out from the second memory circuit section 22 in FIG. Then, the “second function data signal” of the “video playback device 11 (Company A VTR)” having the function corresponding to the “first function data signal” from the third memory circuit unit 23 of FIG. Is read. For example, if the function corresponding to the “first function data signal” is “reproduction”, “01a ** 1” is read as the “second function data signal”. And after reading, it moves to step S9.
[0099]
In step S5, it is checked whether or not “video input 2 (N = 2)”. If it is “video input 2 (N = 2)”, the process proceeds to step S6, and if it is not “video input 2 (N = 2)”, the process proceeds to step S7.
[0100]
In step S6, “video playback device 12 (Company B VTR)” corresponding to “video input terminal 14b (video input 2)” is read out from the second memory circuit section 22 in FIG. Then, the “second function data signal” of the “video playback device 12 (B company VTR)” having the function corresponding to the “first function data signal” from the third memory circuit unit 23 of FIG. Is read. For example, if the function corresponding to the “first function data signal” is “stop”, “10b ** 2” is read as the “second function data signal”. And after reading, it moves to step S9.
[0101]
In step S7, it is checked whether or not “video input 3 (N = 3)”. If “video input 3 (N = 3)”, the process proceeds to step S8.
[0102]
In step S8, “video playback device 13 (C company VTR)” corresponding to “video input terminal 14c (video input 3)” is read out from the second memory circuit section 22 in FIG. Then, the “second function data signal” of the “video playback device 13 (C company VTR)” having the function corresponding to the “first function data signal” from the third memory circuit unit 23 of FIG. Is read. For example, if the function corresponding to the “first function data signal” is “fast forward”, “11c ** 3” is read as the “second function data signal”. And after reading, it moves to step S9.
[0103]
In step S 9, the “second function data signal” read in steps S 4, S 6, and S 8 is output to the light emitting circuit unit 18.
[0104]
As described above, when the “first function data signal” is input, the data conversion unit 20 selects the video playback device selected from the first memory circuit unit 21 and the second memory circuit unit 22. Is read out from the third memory circuit unit 23 and output, corresponding to the function based on the “first function data signal” of the video playback device.
[0105]
Next, the operation of the video input setting unit 24 when the video input setting unit 24 is configured by a microcomputer will be described with reference to FIG.
[0106]
In step S1, it is checked whether or not a remote control signal is input from the remote control receiving circuit unit 17. When the remote control signal is input, the process proceeds to step S2.
[0107]
In step S2, the timer is reset (t ← 0), and the process proceeds to step S3.
[0108]
In step S3, it is checked whether or not the remote control signal in step S1 is a “selected data signal”, that is, whether or not the video input selection key 35a of the infrared remote control transmitter 35 is pressed. If the video input selection key 35a is pressed, the timer is incremented (t ← t + 1), and it is checked whether or not the timer has timed the specified time T (t ≧ T). If the timer has timed the specified time T (t ≧ T), the process proceeds to step S4, and if the timer has not timed the specified time T (t <T), the process returns to step S3.
[0109]
Step S3 corresponds to memory rewrite setting means. The memory rewrite setting means includes the timer for measuring a specified time T, and the second memory circuit unit is configured by continuously pressing the video input selection key 35a of the infrared remote control transmitter 35 of the video wireless transmission / reception system 2 for the specified time T. 22 is set in a state where it can be rewritten, and the video input terminals 14a, 14b and 14c can be selected and the memory rewriting of the second memory circuit section 22 can be set by continuing to press the video input selection key 35a for a predetermined time T. Like that.
[0110]
In step S4, it is checked whether or not “video input terminal 14a (video input 1)” has been selected. If “video input terminal 14a (video input 1)” is selected, the register N is set to 1 (N ← 1), and the process proceeds to step S7. If “video input terminal 14a (video input 1)” is not selected, the process proceeds to step S5.
[0111]
In step S5, it is checked whether or not “video input terminal 14b (video input 2)” has been selected. If “video input terminal 14b (video input 2)” is selected, the register N is set to 2 (N ← 2), and the process proceeds to step S7. If “video input terminal 14b (video input 2)” is not selected, the process proceeds to step S6.
[0112]
In step S6, it is checked whether or not “video input terminal 14c (video input 3)” has been selected. If “video input terminal 14c (video input 3)” is selected, the register N is set to 3 (N ← 3), and the process proceeds to step S7.
[0113]
In step S7, the video input N (N = 1, 2, 3) is stored in the first memory circuit unit 21, and then the process proceeds to step S8.
[0114]
In step S8, it is checked whether or not a “second function data signal” that is a remote control signal of an infrared remote control transmitter (not shown) of each of the video playback devices 11, 12, and 13 is input from the remote control receiving circuit unit 17. When the “second function data signal” is input, the process proceeds to step S9.
[0115]
In step S9, it is checked whether or not the discrimination code of the “second function data signal” is “01” = video playback apparatus 11 (A company VTR). If the determination code is “01”, the process proceeds to step S10. If the determination code is not “01”, the process proceeds to step S11.
[0116]
In step S 10, “video input N = video playback device 11 (Company A VTR)” is input to the second memory circuit unit 22.
[0117]
In step S11, it is checked whether or not the discrimination code of the “second function data signal” is “10” = video playback device 12 (B company VTR). If the determination code is “10”, the process proceeds to step S12. If the determination code is not “10”, the process proceeds to step S13.
[0118]
In step S <b> 12, “video input N = video playback device 12 (B company VTR)” is input to the second memory circuit unit 22.
[0119]
In step S13, it is checked whether or not the discrimination code of the “second function data signal” is “11” = video playback device 13 (C company VTR). If the determination code is “11”, the process proceeds to step S14.
[0120]
In step S <b> 14, “video input N = video playback device 13 (C company VTR)” is input to the second memory circuit unit 22.
[0121]
Steps S9, S11, and S13 correspond to device discrimination means for discriminating the video playback devices 11, 12, and 13 from remote control signals of infrared remote control transmitters (not shown) of the video playback devices 11, 12, and 13, respectively.
[0122]
As described above, the video input setting means 24 is a device discriminating means for discriminating the video playback devices 11, 12, 13 from the remote control signals of infrared remote control transmitters (not shown) of the video playback devices 11, 12, 13 respectively. A memory rewrite setting unit that sets the second memory circuit unit 22 in a state where it can be rewritten, and when the second memory circuit unit 22 is set in a state that can be rewritten by the memory rewrite setting unit, The video input terminals 14a, 14b, and 14c are selected by the video input selection key 35a of the infrared remote control transmitter 35 of the video wireless transmission / reception system 2, and the video playback device discriminated by the device discriminating means is input to the video input terminal. .
[0123]
As described above, in the first and second embodiments, the video playback devices 11, 12, and 13 of the video transmitter 10 have been described using the VTR as an example. However, the video playback device is not limited to the VTR, and any device that can play back video can be used. Good. Further, the audio circuit unit 33 and the display circuit unit 34 of the video receiver 30 may be replaced with a television 38. By replacing as described above, the video and audio of the video playback device can be viewed on a television set at a remote location.
[0124]
Moreover, although the case of three video reproducing apparatuses 11, 12, and 13 has been taken as an example, the number is not limited to three and may be two or more.
[0125]
【The invention's effect】
As described above, the present invention provides a plurality of different video playback devices, a video input switching circuit unit for selecting one of the plurality of video playback devices, and a video signal from the selected video playback device. A video transmission circuit unit for converting and transmitting a high-frequency video signal, a remote-control receiving circuit unit for converting the received high-frequency remote control signal to an original remote control signal, and a light-emitting circuit unit for converting the remote control signal from an electrical signal to an infrared signal A video transmitter with
A video receiving circuit unit that receives the high-frequency video signal and converts it into a video signal and an audio signal, a display circuit unit that displays the image of the video signal, an audio circuit unit that converts the audio signal into audio, and infrared remote control transmission Receiver having a receiver, a light receiving circuit unit that converts an infrared signal from the infrared remote control transmitter into a remote control signal that is an electrical signal, and a remote control transmission circuit unit that converts the remote control signal into a high frequency remote control signal and transmits the signal. In video wireless transmission and reception system consisting of
An infrared remote control transmitter of the video wireless transmission / reception system operates in common with a video input selection key for generating a selection data signal for selecting one of the video playback devices and the plurality of different video playback devices. A common function key for generating one function data signal,
The video receiver includes data conversion means for converting the first functional data signal into a second functional data signal for operating the selected video playback device based on the selected data signal. It is a feature.
[0126]
Therefore, according to the present invention, the plurality of different video playback devices on the video transmitter side can be connected from the video receiver side to a single remote control transmitter without any modification to the video transmitter. Can be operated. That is, for example, when the manufacturers of the plurality of video playback devices are different, in order to operate the video playback devices, an infrared remote control transmitter dedicated to each video playback device is required and operated. The inconvenience of having to operate while exchanging the infrared remote control transmitter every time is changed can be solved.
[0127]
According to the present invention, the video input switching circuit unit has a plurality of video input terminals for connecting the plurality of video playback devices, and the video receiver is selected based on the selected data signal. A first memory circuit section in which video input terminals are stored; a second memory circuit section in which video playback devices connected to each of the plurality of video input terminals are stored; and each of the plurality of video playback apparatuses. A third memory circuit section in which the second function data signal is stored,
When the first function data signal is input, the data conversion means reads the selected video playback device from the first and second memory circuit units, and the first video data of the first video playback device is read. The second function data signal corresponding to the function based on the function data signal is read from the third memory circuit unit and output.
[0128]
Therefore, according to the present invention, the video input of the video transmitter can be provided by providing the video receiver with the first, second and third memory circuit units without any modification to the video transmitter. When selecting one of the plurality of video playback devices by switching the switching circuit unit, the user should remember the video playback device connected to each input of the video input switching circuit unit. The troublesomeness of having to be eliminated.
[0129]
According to the present invention, the video receiver inputs a video input terminal selected based on the selected data signal to the first memory circuit unit, and a video connected to each of the plurality of video input terminals. Video input setting means for inputting a playback device to the second memory circuit section is provided.
[0130]
Therefore, according to the present invention, by providing the video receiver with the video input setting means without any modification to the video transmitter, the user can input each input of the video input switching circuit unit. When the connection of the connected video playback device is changed, the troublesomeness of having to remember the changed connection each time can be eliminated.
[0131]
The present invention also provides a plurality of different video playback devices, a video input switching circuit for selecting one of the plurality of video playback devices, and a video signal from the selected video playback device as a high-frequency video signal. A video transmission circuit unit that converts and transmits the received high-frequency remote control signal to a remote control signal, and a light-emitting circuit unit that converts the remote control signal from an electrical signal to an infrared signal A video transmitter,
A video receiving circuit unit that receives the high-frequency video signal and converts it into a video signal and an audio signal, a display circuit unit that displays the image of the video signal, an audio circuit unit that converts the audio signal into audio, and infrared remote control transmission Receiver having a receiver, a light receiving circuit unit that converts an infrared signal from the infrared remote control transmitter into a remote control signal that is an electrical signal, and a remote control transmission circuit unit that converts the remote control signal into a high frequency remote control signal and transmits the signal. In video wireless transmission and reception system consisting of
An infrared remote control transmitter of the video wireless transmission / reception system operates in common with a video input selection key for generating a selection data signal for selecting one of the video playback devices and the plurality of different video playback devices. A common function key for generating one function data signal,
The video transmitter includes data conversion means for converting the first functional data signal into a second functional data signal for operating the selected video playback device based on the selected data signal. It is a feature.
[0132]
Therefore, according to the present invention, the plurality of different video playback devices on the video transmitter side can be connected to the video receiver side from a single remote controller transmitter without any modification to the video receiver. Can be operated. That is, for example, when the manufacturers of the plurality of video playback devices are different, in order to operate the video playback devices, an infrared remote control transmitter dedicated to each video playback device is required and operated. The inconvenience of having to operate while exchanging the infrared remote control transmitter every time is changed can be solved.
[0133]
According to the present invention, the video input switching circuit unit has a plurality of video input terminals for connecting the plurality of video playback devices, and the video transmitter is selected based on the selected data signal. A first memory circuit section in which video input terminals are stored; a second memory circuit section in which video playback devices connected to each of the plurality of video input terminals are stored; and each of the plurality of video playback apparatuses. A third memory circuit section in which the second function data signal is stored,
When the first function data signal is input, the data conversion means reads the selected video playback device from the first and second memory circuit units, and the first video data of the first video playback device is read. The second function data signal corresponding to the function based on the function data signal is read from the third memory circuit unit and output.
[0134]
Therefore, according to the present invention, the video input of the video transmitter can be provided by providing the video transmitter with first, second and third memory circuit units without any modification to the video receiver. When selecting one of the plurality of video playback devices by switching the switching circuit unit, the user should remember the video playback device connected to each input of the video input switching circuit unit. The troublesomeness of having to be solved.
[0135]
According to the present invention, the video transmitter inputs a video input terminal selected on the basis of the selected data signal to the first memory circuit unit, and a video connected to each of the plurality of video input terminals. Video input setting means for inputting a playback device to the second memory circuit section is provided.
[0136]
Therefore, according to the present invention, by providing the video transmitter with the video input setting means without any modification to the video receiver, the user can input each input of the video input switching circuit unit. When the connection of the connected video playback device is changed, the troublesomeness of having to remember the changed connection each time can be eliminated.
[0137]
Further, the present invention is such that the video input setting means can rewrite the second memory circuit section with the device discrimination means for discriminating the video playback device from the remote control signal of the infrared remote control transmitter of the video playback device. A memory rewrite setting means for setting, and when the memory rewrite setting means sets the second memory circuit section in a state where it can be rewritten, the video input of the infrared remote control transmitter of the video wireless transmission / reception system A video input terminal is selected by a selection key, and the video playback device discriminated by the device discriminating means is input to the video input terminal.
[0138]
Therefore, according to the present invention, when the user changes the connection of the video playback device connected to each input of the video input switching circuit unit, the video playback device does not require a special device. The contents of the second memory circuit unit can be rewritten using the infrared remote control transmitter of the above and the infrared remote control transmitter of the video wireless transmission / reception system.
[0139]
According to the present invention, the memory rewrite setting means includes a timer for measuring a specified time, and the second input by continuously pressing a video input selection key of an infrared remote control transmitter of the video wireless transmission / reception system for the specified time. The memory circuit unit is set in a state in which rewriting is possible, and the video input terminal can be selected and the memory rewriting can be set by pressing and holding a video input selection key for the specified time. is there.
[0140]
Therefore, according to the present invention, when the user changes the connection of the video playback device connected to each input of the video input switching circuit unit, the video playback device does not require a special device. The contents of the second memory circuit unit can be rewritten using the infrared remote control transmitter of the above and the infrared remote control transmitter of the video wireless transmission / reception system.
[0141]
Further, it is not necessary to provide a dedicated operation key for rewriting the contents of the second memory circuit unit in the infrared remote control transmitter of the video playback device and the infrared remote control transmitter of the video wireless transmission / reception system. That is, the contents of the second memory circuit unit can be rewritten without any changes to the infrared remote control transmitter of the video playback apparatus and the infrared remote control transmitter of the video wireless transmission / reception system.
[0142]
Further, according to the present invention, the display circuit unit and the audio circuit unit of the video receiver are televisions, and the infrared remote control transmitter of the video wireless transmission / reception system is an infrared remote control transmitter for operating the television. It is characterized by.
[0143]
Therefore, according to the present invention, from the video receiver side, the plurality of different video playback devices on the video transmitter side can be operated by an infrared remote control transmitter that operates one of the televisions. That is, for example, when the manufacturers of the plurality of video playback devices are different, in order to operate the video playback devices, an infrared remote control transmitter dedicated to each video playback device is required and operated. The inconvenience of having to operate while exchanging the infrared remote control transmitter every time is changed can be solved.
[Brief description of the drawings]
FIG. 1 is a block circuit diagram showing a schematic configuration of a video wireless transmission / reception system according to a first embodiment of the present invention.
FIG. 2 is an external view of an infrared remote control transmitter of the video wireless transmission / reception system according to the first embodiment of the present invention.
FIG. 3 is a diagram for explaining the memory contents of the first, second, and third memory circuit units of the video wireless transmission / reception system according to the first embodiment of the present invention;
FIG. 4 is a flowchart explaining the operation of the data conversion means of the video wireless transmission / reception system according to the first embodiment of the present invention.
FIG. 5 is a flowchart for explaining the operation of the video input setting means of the video wireless transmission / reception system according to the first embodiment of the present invention.
FIG. 6 is a block circuit diagram showing a schematic configuration of a video wireless transmission / reception system according to a second embodiment of the present invention.
FIG. 7 is a block circuit diagram showing a schematic configuration of a conventional video wireless transmission / reception system.
[Explanation of symbols]
1, 2 Video wireless transmission / reception system
10 Video transmitter
11, 12, 13 Video playback device
14 Video input switching circuit
14a, 14b, 14c Video input terminal
15 Video transmission circuit
16 Antenna
17 Remote control receiving circuit
18 Light emitting circuit
20 Data conversion means
21 First memory circuit section
22 Second memory circuit section
23 Third memory circuit section
24 Video input setting means
30 Video receiver
31 Antenna
32 Video receiver circuit
33 Audio circuit
34 Display circuit
35 Infrared remote control transmitter
35a Video input selection key
35c Common function key
36 Light receiving circuit
37 Remote control transmission circuit
38 Television
40 Data conversion means
41 First memory circuit section
42 Second memory circuit section
43 Third memory circuit section
44 Video input setting means

Claims (3)

A plurality of different video playback devices, a video input switching circuit for selecting one of the plurality of video playback devices, and a video signal from the selected video playback device is converted into a high-frequency video signal and transmitted. A video transmitter comprising: a video transmission circuit unit; a remote control reception circuit unit that converts a received high-frequency remote control signal into an original remote control signal; and a light emitting circuit unit that converts the remote control signal from an electrical signal to an infrared signal;
A video receiving circuit unit that receives the high-frequency video signal and converts it into a video signal and an audio signal, a display circuit unit that displays the image of the video signal, an audio circuit unit that converts the audio signal into audio, and infrared remote control transmission Receiver having a receiver, a light receiving circuit unit that converts an infrared signal from the infrared remote control transmitter into a remote control signal that is an electrical signal, and a remote control transmission circuit unit that converts the remote control signal into a high frequency remote control signal and transmits the signal. In video wireless transmission and reception system consisting of
An infrared remote control transmitter of the video wireless transmission / reception system operates in common with a video input selection key for generating a selection data signal for selecting one of the video playback devices and the plurality of different video playback devices. A common function key for generating one function data signal,
The video receiver includes data conversion means for converting the first functional data signal into a second functional data signal for operating the selected video playback device based on the selected data signal ,
The video input switching circuit unit has a plurality of video input terminals for connecting the plurality of video playback devices,
The video receiver includes a first memory circuit unit in which a video input terminal selected based on the selected data signal is stored, and a video playback device connected to each of the plurality of video input terminals. 2 memory circuit units, and a third memory circuit unit in which the second function data signal of each of the plurality of video playback devices is stored.
When the first function data signal is input, the data conversion means reads the selected video playback device from the first and second memory circuit units, and the first video data of the first video playback device is read. A second function data signal corresponding to a function based on the function data signal is read from the third memory circuit unit and output;
The video receiver inputs a video input terminal selected on the basis of the selected data signal to the first memory circuit unit, and sets a video playback device connected to each of the plurality of video input terminals to the second memory circuit unit. Video input setting means for input to the memory circuit portion of
The video input setting means includes a device discriminating means for discriminating a video playback device from a remote control signal of an infrared remote control transmitter of the video playback device, and a memory rewrite setting for setting the second memory circuit section in a state where it can be rewritten. And a video input based on a selected data signal from an infrared remote control transmitter of the video wireless transmission / reception system when the memory rewrite setting means sets the second memory circuit unit to a state where it can be rewritten. A terminal is selected and input to the first memory circuit unit, and the video playback device discriminated by the device discriminating unit is input to the video input terminal to the second memory circuit unit,
The memory rewrite setting means includes a timer for measuring a specified time, and when the selection data signal from the infrared remote control transmitter of the video wireless transmission / reception system is continuously input for the specified time, the second memory circuit unit Is set in a rewritable state, the video input terminal selected by the video input setting means is input to the first memory circuit section, and the video playback apparatus determined by the apparatus determination section is the second memory circuit section. A video wireless transmission / reception system characterized by being input into A plurality of different video playback devices, a video input switching circuit for selecting one of the plurality of video playback devices, and a video signal from the selected video playback device is converted into a high-frequency video signal and transmitted. a video transmitting circuit unit, and the remote control receiver circuit for converting the high-frequency remote control signal based on the remote control signal received, a video transmitter and a light emitting circuit section for converting the remote control signal from the electrical signal into an infrared signal ,
A video receiving circuit unit that receives the high-frequency video signal and converts it into a video signal and an audio signal, a display circuit unit that displays the image of the video signal, an audio circuit unit that converts the audio signal into audio, and infrared remote control transmission Receiver having a receiver, a light receiving circuit unit that converts an infrared signal from the infrared remote control transmitter into a remote control signal that is an electrical signal, and a remote control transmission circuit unit that converts the remote control signal into a high frequency remote control signal and transmits the signal. In video wireless transmission and reception system consisting of
An infrared remote control transmitter of the video wireless transmission / reception system operates in common with a video input selection key for generating a selection data signal for selecting one of the video playback devices and the plurality of different video playback devices. A common function key for generating one function data signal, and the video transmitter is configured to operate the first function data signal on the selected video reproduction device based on the selected data signal. Data conversion means for converting into a second functional data signal;
The video input switching circuit unit has a plurality of video input terminals for connecting the plurality of video playback devices,
The video transmitter includes a first memory circuit unit in which a video input terminal selected based on the selected data signal is stored, and a video playback device connected to each of the plurality of video input terminals. 2 memory circuit units, and a third memory circuit unit in which the second function data signal of each of the plurality of video playback devices is stored.
When the first function data signal is input, the data conversion means reads the selected video playback device from the first and second memory circuit units, and the first video data of the first video playback device is read. A second function data signal corresponding to a function based on the function data signal is read from the third memory circuit unit and output;
The video transmitter inputs a video input terminal selected on the basis of the selected data signal to the first memory circuit unit, and sets a video playback device connected to each of the plurality of video input terminals to the second video circuit. Video input setting means for input to the memory circuit portion of
The video input setting means includes a device discriminating means for discriminating a video playback device from a remote control signal of an infrared remote control transmitter of the video playback device, and a memory rewrite setting for setting the second memory circuit section in a state where it can be rewritten. And a video input based on a selected data signal from an infrared remote control transmitter of the video wireless transmission / reception system when the memory rewrite setting means sets the second memory circuit unit to a state where it can be rewritten. A terminal is selected and input to the first memory circuit unit, and the video playback device discriminated by the device discriminating unit is input to the video input terminal to the second memory circuit unit,
The memory rewrite setting means includes a timer for measuring a specified time, and when the selection data signal from the infrared remote control transmitter of the video wireless transmission / reception system is continuously input for the specified time, the second memory circuit unit The video input terminal selected by the video input setting means, which is set to be rewritable, is input to the first memory circuit section, and the video playback apparatus determined by the apparatus determination section is input to the second memory circuit section. A video wireless transmission / reception system characterized by inputting . The display circuit unit and the audio circuit unit of the video receiver are televisions, and the infrared remote control transmitter of the video wireless transmission / reception system is an infrared remote control transmitter for operating the television. 3. The video wireless transmission / reception system according to 1 or 2.

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