JP3878443B2 - 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 playback device 52, a video transmitter 60, a video receiver 70, and an infrared remote control transmitter 54.
[0003]
The video transmitter 60 includes a video transmission circuit unit 61, an antenna 62, a remote control reception circuit unit 63, and a light emitting circuit unit 64. The video playback device 52 is connected to the input of the video transmission circuit unit 61, and the output of the video transmission circuit unit 61 is connected to the antenna 62. The antenna 62 is connected to the input of the remote control receiving circuit unit 63, and the output of the remote control receiving circuit unit 63 is connected to the light emitting circuit unit 64.
[0004]
The video receiver 70 includes an antenna 71, a video receiving circuit unit 72, a light receiving circuit unit 73, and a remote control transmission circuit unit 74. The antenna 71 is connected to the input of the video receiving circuit unit 72, the light receiving circuit unit 73 is connected to the input of the remote control transmission circuit unit 74, and the output of the remote control transmission circuit unit 74 is connected to the antenna 71.
[0005]
Next, the operation of the conventional video wireless communication system 50 in FIG. 7 will be described. The video signal output from the video playback device 52 is converted into a high-frequency video signal RFa by the video transmission circuit unit 61 and transmitted from the antenna 62 to the video receiver 70.
[0006]
The high frequency remote control signal RFb received from the antenna 62 is converted into the original remote control signal by the remote control receiving circuit unit 63. The remote control signal is converted from an electrical signal to an infrared signal by the light emitting circuit unit 64, and this infrared signal is input to a remote control light receiving circuit unit (not shown) of the video reproduction device 52.
[0007]
In the video receiver 70, the high frequency video signal RFa transmitted from the video transmitter 60 is received by the antenna 71. The received high frequency video signal RFa is converted into the original video signal by the video receiving circuit unit 72.
[0008]
The infrared signal from the infrared remote control transmitter 54 is converted into a remote control signal that is an electrical signal by the light receiving circuit unit 73, and the remote control signal is converted into a high frequency remote control signal RFb by the remote control transmission circuit unit 74. It is transmitted to the video transmitter 60.
[0009]
As described above, by connecting, for example, the television receiver 53 to the output side of the video receiving circuit unit 72 of the video receiver 70, the video and audio from the video reproduction device 52 transmitted from the video transmitter 60 are transmitted to the television. It can be viewed with the John receiver 53. Further, an infrared signal from the infrared remote control transmitter 54 is received from a light receiving circuit unit 73 → remote control transmission circuit unit 74 → antenna 71 → antenna 62 → remote control reception circuit unit 63 → light emitting circuit unit 64 → video reproduction device 52 (not shown). It is possible to control the video playback device 52 that is transmitted through the circuit path and is installed at a remote location by the infrared remote control transmitter 54.
[0010]
[Problems to be solved by the invention]
However, the above prior art has the following problems. That is, for example, when the video playback device 52 is changed to a different model / manufacturer, in order to operate the video playback device 52, an infrared remote control transmitter 54 dedicated to each video playback device 52 is required and operated. Each time the video playback device 52 is changed to a different one, it is very inconvenient because the infrared remote control transmitter 54 must also be changed.
[0011]
In addition, since the video transmitter 60 and the video receiver 70 are installed at remote locations, an infrared remote control transmitter 54 dedicated to the video playback device 52 is required, so that the user on the video receiver 70 side. Has the trouble of having to remember the video playback device 52 connected to the video transmitter 60.
[0012]
In addition, when the mutual positional relationship between the light emitting circuit unit 64 of the video transmitter 60 and the remote control light receiving circuit unit (not shown) of the video reproduction device 52 is inappropriate, the ambient environment ( For example, the infrared signal from the light emitting circuit unit 64 may not be reliably transmitted to a remote control light receiving circuit unit (not shown) of the video playback device 52 due to a change in temperature, ambient lighting, sunlight, or the like.
[0013]
Since the video transmitter 60 and the video receiver 70 are installed at a distance from each other, the user on the video receiver 70 side often does not notice the change in the surrounding environment. In this case, a part of the infrared signal is lost. For example, the forward and backward channel selection operations for continuously transmitting the infrared signal from the infrared remote control transmitter 54 do not select the channel continuously. was there.
[0014]
The present invention has been made to solve the above-described problems, and various different video playback devices 52 are connected to the video transmitter 60, and the video playback device 52 is operated by the infrared remote control transmitter 54. An object of the present invention is to provide a video wireless transmission / reception system in which the operability in the case of performing is improved and the above problems associated with the operation are solved.
[0015]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides a video playback device, a video transmitter connected to the video playback device, a video receiver configured to be able to wirelessly transmit to and receive from the video transmitter, and the video reception And an infrared remote control transmitter for operating the video playback device via the video transmitter. The video transmitter converts the video signal output from the video playback device into a high-frequency video signal to convert the video A video transmission circuit unit for transmitting to a receiver, a remote control reception circuit unit for converting a high frequency remote control signal from the video receiver into an original remote control signal, and converting the remote control signal from an electrical signal to an infrared signal A light emitting circuit unit for transmitting to the video reproduction device, and the video receiver receives the high frequency video signal from the video transmitter. A video receiving circuit unit that receives and converts video signals and audio signals to output; 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 In a video wireless transmission / reception system comprising a remote control transmission circuit unit that converts the signal into a signal and transmits it to the video transmitter,
The infrared remote control transmitter generates a first remote control signal including function data related to the video playback device, and the video receiver transmits the function data included in the first remote control signal to the video playback device. A common function code generating circuit for converting to a common function code common to the model; a model code setting circuit for setting a model code assigned to each model of the video playback device; and a model code and a common function code. A second remote control signal generation circuit unit that generates two remote control signals and inputs the remote control signal to the remote control transmission circuit unit, and the video transmitter operates the video playback device corresponding to the model code and the common function code. And a second remote control signal from the remote control receiving circuit unit. A third remote control signal generation circuit unit that reads remote control data corresponding to the model code and common function code from the memory circuit unit, generates a third remote control signal, and inputs the third remote control signal to the light emitting circuit unit; It is what.
[0016]
The present invention is also characterized in that the data length of the common function code included in the second remote control signal is set shorter than the data length of the function data included in the first remote control signal. To do.
[0017]
In the video receiver, when the first remote control signal having the same function data is repeatedly received continuously, the second remote control signal generation circuit unit repeatedly receives on-data. When the second remote control signal is generated by adding to the second remote control signal and the video transmitter receives the second remote control signal repeatedly added with the on-data, the third remote control signal generation circuit unit The third remote control signal corresponding to the model code and the common function code included in the second remote control signal is repeatedly generated at a predetermined time interval.
[0018]
In the video receiver, when the first remote control signal having the same function data is not repeatedly received continuously, the second remote control signal generating circuit unit is repeatedly turned off. When the second remote control signal is generated by adding data to the second remote control signal and the video transmitter receives the second remote control signal repeatedly added with the off data, the third remote control signal generation circuit unit Is characterized in that the operation of repeatedly generating the third remote control signal at a specified time interval is stopped.
[0019]
According to the present invention, when the video receiver does not receive the first remote control signal, the second remote control signal generation circuit unit adds remote control off data to the second remote control signal. The third remote control signal generation circuit unit generates the third remote control signal when the video transmitter receives the second remote control signal with the remote control off data added thereto. The operation is stopped.
[0020]
In the video receiver, when the first remote control signal is not received, the second remote control signal generation circuit unit receives the second remote control signal to which remote control off data is added. It occurs repeatedly at regular time intervals.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block circuit diagram showing a schematic configuration of a video wireless transmission / reception system according to the embodiment of the present invention. FIG. 2 is a model of a video receiver in the video wireless transmission / reception system according to the embodiment of the present invention. FIG. 3 is a circuit diagram showing an example of a code setting circuit unit, and FIG. 3 is an example of a first remote control signal, a common function code, and a second remote control signal of a video wireless transmission / reception system according to an embodiment of the present invention. FIG. 4 is a diagram showing the memory contents of the memory circuit portion of the video transmitter in the video wireless transmission / reception system according to the embodiment of the present invention. FIG. 5 is a diagram showing the embodiment of the present invention. FIG. 6 is a flowchart for explaining the operation of the second remote control signal generation circuit unit of the video receiver in the video wireless transmission / reception system according to FIG. In the video radio transceiver system according a flow chart for explaining the operation of the third remote-control signal generating circuit of the video transmitter. Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 to 6.
[0022]
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 communication system 1 includes a video playback device 2, a video transmitter 10, a video receiver 20, and an infrared remote control transmitter 4.
[0023]
The video transmitter 10 includes a video transmission circuit unit 11, an antenna 12, a remote control reception circuit unit 13, a light emitting circuit unit 14, a third remote control signal generation circuit unit 15, and a memory circuit unit 16. The video playback device 2 is connected to the input of the video transmission circuit unit 11, and the output of the video transmission circuit unit 11 is connected to the antenna 12. The antenna 12 is connected to the input of the remote control receiving circuit unit 13, the output of the remote control receiving circuit unit 13 is connected to the input of the third remote control signal generating circuit unit 15, and the output of the third remote control signal generating circuit unit 15. Are connected to the light emitting circuit section 14. In addition, a memory circuit section 16 is connected to the third remote control signal generation circuit section 15.
[0024]
The video receiver 20 includes an antenna 21, a video reception circuit unit 22, a light receiving circuit unit 23, a remote control transmission circuit unit 24, a common function code generation circuit unit 25, a second remote control signal generation circuit unit 26, and a model code setting circuit unit 30. Consists of. The antenna 21 is connected to the input of the video receiving circuit unit 22, the light receiving circuit unit 23 is connected to the input of the common function code generating circuit unit 25, and the output of the common function code generating circuit unit 25 is the second remote control signal generating circuit unit. 26, the output of the second remote control signal generation circuit unit 26 is connected to the input of the remote control transmission circuit unit 24, and the output of the remote control transmission circuit unit 24 is connected to the antenna 21. A model code setting circuit unit 30 is connected to the second remote control signal generation circuit unit 26.
[0025]
Next, the operation of the video wireless transmission / reception system 1 of this embodiment shown in FIG. 1 will be described. The video signal output from the video reproduction device 2 is converted into a high-frequency video signal RFa by the video transmission circuit unit 11 in the video transmitter 10 and transmitted from the antenna 12 to the video receiver 20. Then, the video receiver 20 receives the high frequency video signal RFa transmitted from the video transmitter 10 by the antenna 21. The received high frequency video signal RFa is converted into the original video signal by the video receiving circuit unit 22.
[0026]
Further, the infrared remote control transmitter 4 generates a first remote control signal including functional data related to the video playback device 2. In the video receiver 20, the infrared signal from the infrared remote control transmitter 4 is received by the light receiving circuit unit 23. The first remote control signal is converted into a first remote control signal that is an electrical signal, and the first remote control signal is shared by the common function code generation circuit unit 25 with the function data included in the first remote control signal common to different models of the video playback device 2. Converted to a common function code.
[0027]
The model code setting circuit unit 30 sets a model code assigned to each model of the video playback device 2 and inputs the set model code to the second remote control signal generation circuit unit 26. The second remote control signal generation circuit unit 26 generates a second remote control signal including the model code and the common function code and inputs it to the remote control transmission circuit unit 24. The second remote control signal is converted into a high frequency remote control signal RFb by the remote control transmission circuit unit 24 and transmitted from the antenna 21 to the video transmitter 10.
[0028]
In the video transmitter 10, the high frequency remote control signal RFb received from the antenna 12 is converted into the original second remote control signal by the remote control receiving circuit unit 13 and input to the third remote control signal generating circuit unit 15. The memory circuit unit 16 stores remote control data for operating the video playback device 2 corresponding to the model code and the common function code.
[0029]
The third remote control signal generation circuit unit 15 reads out remote control data corresponding to the model code and the common function code included in the second remote control signal from the memory circuit unit 16, generates a third remote control signal, and generates a light emitting circuit. Input to section 14. Then, the third remote control signal is converted from an electrical signal to an infrared signal by the light emitting circuit unit 14, and this infrared signal is input to a remote control light receiving circuit unit (not shown) of the video reproduction device 2.
[0030]
As described above, by connecting, for example, the television receiver 3 to the output side of the video receiving circuit unit 22 of the video receiver 20, the video and audio from the video reproduction device 2 transmitted from the video transmitter 10 are transmitted to the television. It can be viewed with the John receiver 3.
[0031]
The infrared signal from the infrared remote control transmitter 4 is received by the light receiving circuit unit 23 → the common function code generation circuit unit 25 → the second remote control signal generation circuit unit 26 → the remote control transmission circuit unit 24 → the antenna 21 → the antenna 12 → the remote control reception. The circuit 13 → the third remote control signal generating circuit 15 → the light emitting circuit 14 → video transmitted through the remote control light receiving circuit (not shown) of the video reproducing apparatus 2 and installed at a remote location by the infrared remote control transmitter 4 The playback device 2 can be controlled.
[0032]
In the above path, the first remote control signal including the function data related to the video playback device 2 generated from the infrared remote control transmitter 4 is the first remote control signal → common function code → second remote control signal (common function code). + Model code) → the third remote control signal (remote control data for operating the video playback device 2) is converted into a common infrared remote control transmitter 4 for different video playback devices 2. it can.
[0033]
FIG. 2 is a circuit diagram showing an example of the model code setting circuit unit 30 of the video receiver 20 in the video wireless transmission / reception system 1 according to the embodiment of the present invention. The model code setting circuit unit 30 includes, for example, resistors 31a, 31b, 31c, 31d, 31e, 31f and switch circuits 32a, 32b, 32c, 32d, 32e, 32f. The second remote control signal generating circuit unit 26 is constituted by, for example, a microcomputer, and the model code setting circuit unit 30 is connected to the input ports P0 to P5 of the microcomputer.
[0034]
In the model code setting circuit section 30, the switch circuit 32a is connected between the input port P0 of the microcomputer and the ground, and a resistor 31a is connected between the connection point between the switch circuit 32a and the input port P0 and the power source (+ B). . The switch circuit 32b is connected between the input port P1 of the microcomputer and the ground, and a resistor 31b is connected between the connection point between the switch circuit 32b and the input port P1 and the power source (+ B). The switch circuit 32c is connected between the input port P2 of the microcomputer and the ground, and a resistor 31c is connected between the connection point between the switch circuit 32c and the input port P2 and the power source (+ B).
[0035]
The switch circuit 32d is connected between the input port P3 of the microcomputer and the ground, and a resistor 31d is connected between the connection point between the switch circuit 32d and the input port P3 and the power source (+ B). The switch circuit 32e is connected between the input port P4 of the microcomputer and the ground, and a resistor 31e is connected between a connection point between the switch circuit 32e and the input port P4 and the power source (+ B). The switch circuit 32f is connected between the input port P5 of the microcomputer and the ground, and a resistor 31f is connected between the connection point between the switch circuit 32f and the input port P5 and the power source (+ B).
[0036]
The resistors 31a, 31b, 31c, 31d, 31e, 31f and the switch circuits 32a, 32b, 32c, 32d, 32e, 32f are connected as described above. For example, when the switch circuit 32a is turned on, the input port P0 becomes “ When the switch circuit 32a is turned off, the input port P0 is set to “H”. Similarly, the switch circuits 32b, 32c, 32d, 32e, and 32f are set to “L” or “H” for each of the input ports P1, P2, P3, P4, and P5. That is, by setting two types for each of the six switch circuits 32a, 32b, 32c, 32d, 32e, and 32f, 64 types of model codes can be set.
[0037]
Further, FIG. 2 shows the case where the model code is set in 64 ways using six switch circuits. However, the present invention is not limited to this and may be changed according to the number of model codes set. Alternatively, the switch circuit 32a may be connected between the input port P0 of the microcomputer and the power supply (+ B), and the resistor 31a may be connected between the connection point between the switch circuit 32a and the input port P0 and the ground. The same applies to the resistors 31b, 31c, 31d, 31e, 31f and the switch circuits 32b, 32c, 32d, 32e, 32f.
[0038]
FIG. 3 is a diagram illustrating an example of the first remote control signal, the common function code, and the second remote control signal of the video wireless transmission / reception system 1 according to the embodiment of the present invention.
[0039]
FIG. 3A is a diagram showing an example of the first remote control signal generated from the infrared remote control transmitter 4. The first remote control signal includes, for example, system data, function data, extension data, and determination data.
[0040]
System data (D1 to D5) is determined for each remote control operation target device, and system data assigned to the video transmitter 10 as a remote control operation target device is set in the infrared remote control transmitter 4.
[0041]
The function data (from D6 to D11) is determined for each remote control operation function. The remote control operation functions include stop, rewind, fast forward, playback, channel selection, etc. as shown in FIG. is there.
[0042]
The extension data (D12, D13) is spare data when the remote control operation function is increased and the function data cannot be used.
[0043]
The determination data (D14, D15) is used to enable the reception side to determine whether the signal is a positive signal or a reverse signal when transmitting the system data, the function data, and the extended data as a pair of the positive signal and the reverse signal. Is.
[0044]
FIG. 3B is a diagram illustrating an example of the common function code generated from the common function code generation circuit unit 25 of the video receiver 20. In FIG. 3 (b), among the function data (D6 to D11) described in FIG. 3 (a), 11 functions related to the video playback device 2 are assigned to the common function code (C3, C2.C1, C0). It has been converted.
[0045]
The 11 functions related to the video playback device 2 include, for example, cue “next”, cue “previous”, stop, rewind, fast forward, primary stop, playback, channel selection “reverse”, channel selection “order” ”, Input switching, power supply. In addition to the eleven functions related to the video playback device 2, there is a “remote control off” function described later.
[0046]
FIG. 3C is a diagram illustrating an example of the second remote control signal generated from the second remote control signal generation circuit unit 26 of the video receiver 20. The second remote control signal includes, for example, DATA1 including the model code set by the model code setting circuit unit 30 in FIG. 2 and the common function code generated by the common function code generation circuit unit 25 shown in FIG. It is composed of DATA2 including a function code.
[0047]
The data length (4 bits) of the common function code included in the second remote control signal is set to be shorter than the data length (6 bits) of the function data included in the first remote control signal. .
[0048]
In addition, when the video receiver 20 repeatedly receives the first remote control signal having the same function data repeatedly, the second remote control signal generation circuit unit 26 repeatedly transmits the on-data to the second Generated in addition to the remote control signal. In FIG. 3C, for example, D0 of DATA1 is set to “1” (D0 = 1).
[0049]
In addition, when the video receiver 20 does not continuously receive the first remote control signal having the same function data repeatedly, the second remote control signal generation circuit unit 26 repeatedly outputs the off data to the first remote control signal. It is generated in addition to the remote control signal of 2. In FIG. 3C, for example, D0 of DATA1 is set to “0” (D0 = 0).
[0050]
When the video receiver 20 does not receive the first remote control signal, the second remote control signal generation circuit unit 26 generates the remote control off data by adding the remote control off data to the second remote control signal. In FIG. 3C, for example, the common function code included in DATA2 is set to the common function code of “remote control off” shown in FIG. 3B (all four bits are zero).
[0051]
FIG. 4 is a diagram showing the state of the memory contents of the memory circuit unit 16 of the video transmitter 10 in the video wireless transmission / reception system 1 according to the embodiment of the present invention. The memory circuit unit 16 includes, for example, each of 64 types of video playback apparatuses from the model code (000000) to the model code (111111) set by the model code setting circuit unit 30 in FIG. 11 functions related to the video playback device 2 (for example, cue “next”, cue “previous”, stop, rewind, fast forward, primary stop, playback, channel selection “reverse”, channel selection “order”, input Remote control data (**,... **) corresponding to switching and power supply is stored in memory.
[0052]
FIG. 5 is a flowchart for explaining the operation of the second remote control signal generation circuit unit 26 of the video receiver 20 in the video wireless transmission / reception system 1 according to the embodiment of the present invention. The second remote control signal generation circuit unit 26 is constituted by, for example, a microcomputer. The operation of the second remote control signal generation circuit unit 26 when the second remote control signal generation circuit unit 26 is constituted by a microcomputer will be described below with reference to FIG.
[0053]
In FIG. 5, a timer t is provided for counting a specified time (T1) when remote control off data is repeatedly generated at a specified time (T1) interval.
[0054]
In step S1, after resetting the timer t (t = 0), it is checked whether or not the first remote control signal has been received, that is, whether or not the common function code has been input from the common function code generation circuit unit 26. . When the first remote control signal is received, that is, when a common function code is input, the input common function code is stored in a register (not shown) in the microcomputer, and the process proceeds to step S2.
[0055]
In step S2, it is checked whether or not the first remote control signal has been received again, that is, whether or not the common function code has been input from the common function code generation circuit unit 26. When the first remote control signal is received, that is, when the common function code is input, the timer t is reset (t = 0) and then the process proceeds to step S3, where the first remote control signal is not received, that is, the common function code is If not, the process proceeds to step S5.
[0056]
In step S3, it is checked whether or not the newly received common function code of the first remote control signal is the same as the previously received common function code stored in the register. If they are the same, the off data is repeatedly added to the second remote control signal. For example, after D0 of DATA1 in FIG. 3C is set to “0” (D0 = 0), the process proceeds to step S4. If they are different, repeat on-data is added to the second remote control signal. For example, after D0 of DATA1 in FIG. 3C is set to “1” (D0 = 1), the contents of the register are updated to the common function code of the first received remote control signal, and the process goes to step S4. Move.
[0057]
In step S4, the common function code is read from the register, and the process proceeds to step S6.
[0058]
In step S5, after the timer t is incremented (t = t + 1), it is checked whether the timer t has counted the specified time (T1) (t ≧ T1). If the timer t has not counted the specified time (T1), the process returns to step S2. If the timer t has counted the specified time (T1), the timer t is reset (t = 0), and then the remote controller Off data is added to the second remote control signal. For example, the common function code included in DATA2 of FIG. 3C is set to the common function code of “remote control off” shown in FIG. 3B (all four bits are zero), and the process proceeds to step S6.
[0059]
In step S6, the model code is read from the model code setting circuit unit 30, and the second remote control signal including the common function code and the model code is generated. Then, the process returns to step S2.
[0060]
As described above, the second remote control signal generation circuit unit 26 of the video receiver 20 includes the model code set by the model code setting circuit unit 30 and the common function code from the common function code generation circuit unit 25. A second remote control signal is generated.
[0061]
Further, the second remote control signal generation circuit unit 26 repeatedly adds ON data to the second remote control signal when the first remote control signal having the same function data is repeatedly received continuously. When the first remote control signal that is generated and repeatedly receives the first remote control signal having the same function data is repeatedly generated by adding repeated off data to the second remote control signal.
[0062]
Further, the second remote control signal generation circuit unit 26 repeatedly generates the second remote control signal to which the remote control off data is added at a predetermined time interval when the first remote control signal is not received.
[0063]
FIG. 6 is a flowchart for explaining the operation of the third remote control signal generation circuit unit 15 of the video transmitter 10 in the video wireless transmission / reception system 1 according to the embodiment of the present invention. The third remote control signal generation circuit unit 15 is constituted by, for example, a microcomputer. The operation of the third remote control signal generation circuit unit 15 when the third remote control signal generation circuit unit 15 is constituted by a microcomputer will be described below with reference to FIG.
[0064]
In FIG. 6, a timer t is provided for counting a specified time (T2) when the third remote control signal is repeatedly generated at a specified time (T2) interval.
[0065]
In step S1, after the timer t is reset (t = 0), it is checked whether or not the second remote control signal is received, that is, whether or not the second remote control signal is input from the remote control receiving circuit unit 13. . When the second remote control signal is received, that is, when the second remote control signal is input, the process proceeds to step S2.
[0066]
In step S2, it is checked whether or not the common function code included in the second remote control signal is “remote control off” (all four bits are zero). If the common function code is “remote control off” (all four bits are zero), the process proceeds to step S7, the operation of generating the third remote control signal is stopped, and the process returns to step S1. If the common function code is not “remote control off” (all four bits are zero), the process proceeds to step S3.
[0067]
In step S3, it is checked whether D0 of DATA1 in FIG. 3C included in the second remote control signal is set to “1” (D0 = 1), that is, whether or not ON data is repeatedly added. To do. If D0 of DATA1 is set to “1” (D0 = 1), that is, if ON data is repeatedly added, the process proceeds to step S4.
[0068]
If D1 of DATA1 is not set to “1”, in other words, D0 of DATA1 is set to “0” (D0 = 0), that is, if repeated off data is added, step S8. Then, the remote control data corresponding to the common function code and the model code included in the second remote control signal is read from the memory circuit unit 16 to be generated as a third remote control signal, and the process returns to step S1.
[0069]
In step S4, after the timer t is incremented (t = t + 1), it is checked whether the timer t has counted a specified time (T2) (t ≧ T2). If the timer t has not counted the specified time (T2), the process proceeds to step S5. If the timer t has counted the specified time (T2), the process proceeds to step S6 and the timer t is reset (t = 0). After that, the remote control data corresponding to the common function code and the model code included in the second remote control signal is read from the memory circuit unit 16 to be generated as a third remote control signal, and the process returns to step S4.
[0070]
In step S5, it is checked whether or not the second remote control signal is input from the remote control receiving circuit unit 13. When the second remote control signal is received, that is, when the second remote control signal is input, the timer t is reset (t = 0), and then the process returns to step S2. If the second remote control signal has not been received, that is, if the second remote control signal has not been input, the process returns to step S4.
[0071]
As described above, the third remote control signal generation circuit unit 15 of the video transmitter 10 stores the remote control data corresponding to the model code and the common function code included in the second remote control signal from the remote control reception circuit unit 13. It is read from the circuit unit 16 and generated as a third remote control signal.
[0072]
Further, when the third remote control signal generation circuit unit 15 receives the second remote control signal to which the repeated ON data is added, the third remote control signal generation circuit unit 15 adds the model code and the common function code included in the second remote control signal. The corresponding third remote control signal is repeatedly generated at specified time intervals (step S4 → step S5 → step S4 → step S6 is repeated).
[0073]
Further, the third remote control signal generation circuit unit 15 stops the operation of repeatedly generating the third remote control signal at a specified time interval when the second remote control signal to which the repeated off data is added is received. (Step S5 → Step S2 → Step S3 → Step S8 → Return to Step S1 and stop).
[0074]
Further, when receiving the second remote control signal to which the remote control off data is added, the third remote control signal generation circuit unit 15 stops the operation for generating the third remote control signal (step S2 → Step S7 → Returns to Step S1 and stops).
[0075]
As described above, in the embodiment of the present invention, the video playback device 2 may be a device that outputs a video signal, and examples thereof include a video, a BS tuner, a CS tuner, and a DVD.
[0076]
Further, in the embodiment of the present invention of FIG. 1, the second remote control signal generation circuit unit 26 and the model code setting circuit unit 30 include the common function code generation circuit unit 25 and the remote control transmission circuit unit 24 of the video receiver 20. However, it may be disposed between the remote control receiving circuit unit 13 and the third remote control signal generating circuit unit 15 of the video transmitter 10.
[0077]
Further, in the embodiment of the present invention shown in FIG. 1, the third remote control signal generation circuit unit 15 and the memory circuit unit 16 are disposed between the remote control reception circuit unit 13 and the light emitting circuit unit 14 of the video transmitter 10. However, it may be disposed between the second remote control signal generation circuit unit 26 and the remote control transmission circuit unit 24 of the video receiver 20.
[0078]
【The invention's effect】
As described above, the present invention provides a video playback device, a video transmitter connected to the video playback device, a video receiver configured to be able to wirelessly transmit to and receive from the video transmitter, the video receiver, An infrared remote control transmitter for operating the video playback device via the video transmitter, wherein the video transmitter converts the video signal output from the video playback device into a high-frequency video signal, and the video receiver. A video transmission circuit unit for transmitting to a remote control signal receiving unit for converting a high frequency remote control signal from the video receiver into a remote control signal, and converting the remote control signal from an electrical signal to an infrared signal A light emitting circuit unit for transmitting to a video reproduction device, wherein the video receiver receives the high frequency video signal from the video transmitter and displays the video. A video receiving circuit unit that converts and outputs a signal and an audio signal, 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 signal that is converted into a high frequency remote control signal In a video wireless transmission / reception system comprising a remote control transmission circuit unit for transmitting to the video transmitter
The infrared remote control transmitter generates a first remote control signal including function data related to the video playback device, and the video receiver transmits the function data included in the first remote control signal to the video playback device. A common function code generating circuit for converting to a common function code common to the model; a model code setting circuit for setting a model code assigned to each model of the video playback device; and a model code and a common function code. A second remote control signal generation circuit unit that generates two remote control signals and inputs the remote control signal to the remote control transmission circuit unit, and the video transmitter operates the video playback device corresponding to the model code and the common function code. And a second remote control signal from the remote control receiving circuit unit. A third remote control signal generation circuit unit that reads remote control data corresponding to the model code and common function code from the memory circuit unit, generates a third remote control signal, and inputs the third remote control signal to the light emitting circuit unit; It is what.
[0079]
Therefore, according to the present invention, even when the video playback device connected to the video transmitter is changed to one of a different model / manufacturer, the video playback device can be operated in common using one infrared remote control transmitter. . That is, in order to operate a video playback device as in the past, an infrared remote control transmitter dedicated to each video playback device is required, so the video playback device connected to the video transmitter differs in model and manufacturer This eliminates the inconvenience of having to change the infrared remote control transmitter each time it is changed.
[0080]
In addition, since the video transmitter and the video receiver are installed at remote locations, an infrared remote control transmitter dedicated to the video playback device is required. This eliminates the hassle of having to remember the video playback device connected to the.
[0081]
The present invention is also characterized in that the data length of the common function code included in the second remote control signal is set shorter than the data length of the function data included in the first remote control signal. To do.
[0082]
Therefore, according to the present invention, the transmission time is shortened by shortening the data length transmitted from the video receiver to the video transmitter, and the data transmission path from the video receiver to the video transmitter is effectively utilized. Can do.
[0083]
In the video receiver, when the first remote control signal having the same function data is repeatedly received continuously, the second remote control signal generation circuit unit repeatedly receives on-data. When the second remote control signal is generated by adding to the second remote control signal and the video transmitter receives the second remote control signal repeatedly added with the on-data, the third remote control signal generation circuit unit The third remote control signal corresponding to the model code and the common function code included in the second remote control signal is repeatedly generated at a predetermined time interval.
[0084]
Therefore, according to the present invention, when the mutual positional relationship between the light emitting circuit unit of the video transmitter and the remote control light receiving circuit unit of the video reproducing apparatus is inappropriate, the ambient environment is transmitted even if the infrared signal is normally transmitted at the time of installation. When the infrared signal from the light emitting circuit unit is not reliably transmitted to the remote control light receiving circuit unit of the video playback device due to changes in temperature (for example, temperature, ambient lighting, sunlight, etc.), the infrared signal For example, a problem that a channel is not continuously selected by, for example, forward and reverse channel selection operations in which infrared signals are continuously transmitted from an infrared remote control transmitter, can be solved.
[0085]
In the video receiver, when the first remote control signal having the same function data is not repeatedly received continuously, the second remote control signal generating circuit unit is repeatedly turned off. When the second remote control signal is generated by adding data to the second remote control signal and the video transmitter receives the second remote control signal repeatedly added with the off data, the third remote control signal generation circuit unit Is characterized in that the operation of repeatedly generating the third remote control signal at a specified time interval is stopped.
[0086]
Therefore, according to the present invention, when the mutual positional relationship between the light emitting circuit unit of the video transmitter and the remote control light receiving circuit unit of the video reproducing apparatus is inappropriate, the ambient environment is transmitted even if the infrared signal is normally transmitted at the time of installation. When the infrared signal from the light emitting circuit unit is not reliably transmitted to the remote control light receiving circuit unit of the video playback device due to changes in temperature (for example, temperature, ambient lighting, sunlight, etc.), the infrared signal Eliminate malfunctions that do not stop even if the forward and reverse channel selection operations that continuously transmit infrared signals from the above-mentioned infrared remote control transmitter are stopped due to missing parts, etc. Can do.
[0087]
According to the present invention, when the video receiver does not receive the first remote control signal, the second remote control signal generation circuit unit adds remote control off data to the second remote control signal. The third remote control signal generation circuit unit generates the third remote control signal when the video transmitter receives the second remote control signal with the remote control off data added thereto. The operation is stopped.
[0088]
Therefore, according to the present invention, when the mutual positional relationship between the light emitting circuit unit of the video transmitter and the remote control light receiving circuit unit of the video reproducing apparatus is inappropriate, the ambient environment is transmitted even if the infrared signal is normally transmitted at the time of installation. Due to changes in temperature (for example, temperature, ambient lighting, sunlight, etc.), the infrared signal from the light emitting circuit unit may not be reliably transmitted to the remote control light receiving circuit unit of the video playback device, and a part of the infrared signal is generated. Although it may be lost, when the infrared signal is interrupted on the video transmitter side, it is possible to clearly determine whether a part of the infrared signal is lost or whether the transmission of the infrared signal is stopped. It is possible to reliably transmit the infrared signal from the remote control to the remote control light receiving circuit of the video playback device.
[0089]
In the video receiver, when the first remote control signal is not received, the second remote control signal generation circuit unit receives the second remote control signal to which remote control off data is added. It occurs repeatedly at regular time intervals.
[0090]
Therefore, according to the present invention, when the mutual positional relationship between the light emitting circuit unit of the video transmitter and the remote control light receiving circuit unit of the video reproducing apparatus is inappropriate, the ambient environment is transmitted even if the infrared signal is normally transmitted at the time of installation. Due to changes in temperature (for example, temperature, ambient lighting, sunlight, etc.), the infrared signal from the light emitting circuit unit may not be reliably transmitted to the remote control light receiving circuit unit of the video playback device. Some may be missing, but when the infrared signal is interrupted on the video transmitter side, it is possible to more clearly determine whether the infrared signal is partially missing or whether the infrared signal transmission is stopped Infrared signals from the light emitting circuit section can be more reliably transmitted to the remote control light receiving circuit section of the video reproducing apparatus.
[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 an embodiment of the present invention.
FIG. 2 is a circuit diagram showing an example of a model code setting circuit unit of a video receiver in the video wireless transmission / reception system according to the embodiment of the present invention.
FIG. 3 is a diagram showing an example of a first remote control signal, a common function code, and a second remote control signal in the video wireless transmission / reception system according to the embodiment of the present invention.
FIG. 4 is a diagram showing a state of memory contents of a memory circuit unit of a video transmitter in the video wireless transmission / reception system according to the embodiment of the present invention.
FIG. 5 is a flowchart illustrating an operation of a second remote control signal generation circuit unit of the video receiver in the video wireless transmission / reception system according to the embodiment of the present invention.
FIG. 6 is a flowchart illustrating an operation of a third remote control signal generation circuit unit of the video transmitter in the video wireless transmission / reception system according to the 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 Video wireless transmission / reception system
2 Video playback device
3 Television receiver
4 Infrared remote control transmitter
10 Video transmitter
11 Video transmission circuit
12 Antenna
13 Remote control receiving circuit
14 Light emitting circuit
15 Third remote control signal generation circuit section
16 Memory circuit
20 Video receiver
21 Antenna
22 Video receiver circuit
23 Light receiving circuit
24 Remote control transmission circuit
25 Common function code generator
26 Second remote control signal generation circuit section
30 Model code setting circuit
31 resistance
32 switch circuit

Claims (6)

A video playback device; a video transmitter connected to the video playback device; a video receiver configured to be able to wirelessly transmit to and receive from the video transmitter; and the video via the video receiver and the video transmitter. It consists of an infrared remote control transmitter that controls the playback device.
The video transmitter receives a high-frequency remote control signal from the video receiver and a video transmission circuit unit that converts the video signal output from the video playback device into a high-frequency video signal and transmits the high-frequency video signal to the video receiver. A remote control receiving circuit unit for converting the original remote control signal; and a light emitting circuit unit for converting the remote control signal from an electrical signal to an infrared signal and transmitting the signal to the video reproduction device.
The video receiver receives the high-frequency video signal from the video transmitter, converts it into a video signal and an audio signal, and outputs it, and an infrared signal from the infrared remote control transmitter as an electrical signal. In a video wireless transmission / reception system comprising a light receiving circuit unit for converting to a remote control signal and a remote control transmission circuit unit for converting the remote control signal to a high frequency remote control signal and transmitting it to the video transmitter,
The infrared remote control transmitter generates a first remote control signal including functional data related to the video playback device;
The video receiver includes a common function code generation circuit unit that converts function data included in the first remote control signal into a common function code common to different models of the video playback device, and an allocation for each model of the video playback device. A model code setting circuit unit for setting the model code and a second remote control signal generation circuit unit for generating a second remote control signal including the model code and the common function code and inputting the second remote control signal to the remote control transmission circuit unit. ,
The video transmitter includes a memory circuit portion in which remote control data for operating the video playback device corresponding to the model code and common function code is stored, and a second remote control signal from the remote control reception circuit portion. And a third remote control signal generation circuit unit that reads out remote control data corresponding to the model code and the common function code from the memory circuit unit, generates a third remote control signal, and inputs the third remote control signal to the light emitting circuit unit. A featured video wireless transmission / reception system. The data length of the common function code included in the second remote control signal is set shorter than the data length of the function data included in the first remote control signal. Video wireless transmission / reception system. In the video receiver, when the first remote control signal having the same function data is repeatedly received continuously, the second remote control signal generation circuit unit repeatedly transmits on data to the second remote control signal. Occurs in addition to
In the video transmitter, when the second remote control signal to which the ON data is repeatedly added is received, the third remote control signal generation circuit unit includes the model code and the second remote control signal included in the second remote control signal. The video wireless transmission / reception system according to claim 1 or 2, wherein the third remote control signal corresponding to the common function code is repeatedly generated at a predetermined time interval. In the video receiver, when the first remote control signal having the same function data is repeatedly received continuously, the second remote control signal generation circuit unit repeatedly outputs the off data to the second Generated by adding to the remote control signal,
In the video transmitter, when the second remote control signal to which the repeated off data is added is received, the third remote control signal generation circuit unit repeatedly generates the third remote control signal at a predetermined time interval. 4. The video wireless transmission / reception system according to claim 3, wherein the operation to stop is stopped. In the video receiver, when the first remote control signal is not received, the second remote control signal generation circuit unit generates the remote control off data by adding the remote control off data to the second remote control signal,
In the video transmitter, when the second remote control signal to which the remote control off data is added is received, the third remote control signal generation circuit unit stops the operation of generating the third remote control signal. The video wireless transmission / reception system according to any one of claims 1 to 4, wherein In the video receiver, when the first remote control signal is not received, the second remote control signal generation circuit unit repeats the second remote control signal with the remote control off data added at regular time intervals. 6. The video wireless transmission / reception system according to claim 5, wherein the video wireless transmission / reception system is generated.

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