JP2008054213A - Remote control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a remote control system capable of speedily and surely powering ON electronic equipment while suppressing the power consumption of the electronic equipment. <P>SOLUTION: In a remote control system having a TV receiver and a remote control unit 4 for remotely controlling the TV receiver, the remote control unit 4 is configured such that a CPU 451 executing a remote control signal transmission control program 453b1 and a remote control signal transmitter 42 transmit a remote control signal for powering on the TV receiver at a frequency corresponding to a subclock frequency when a power key 41a is operated and power-OFF information is stored in a storage unit 44 and also transmit a remote control signal for powering off the TV receiver at a frequency corresponding to a main clock frequency when the power key 41a is operated and the power-OFF information is not stored in the storage unit 44. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a remote control system.

Conventionally, in order to be able to turn on / off the power of the electronic device by the remote control device for the electronic device, and to reduce the power consumption of the electronic device, when the power of the electronic device is off, the CPU included in the electronic device is A mode in which the electronic device is operated at a clock frequency lower than the clock frequency when the electronic device is in a normal mode (for example, a low power consumption mode) is known.
Specifically, when the power key provided on the electronic device remote control device is operated to power on the electronic device, the electronic device switches from the low power consumption mode to the normal mode, and then the power is turned on. become.

By the way, the frequency of the remote control signal transmitted by the remote control device corresponds to the clock frequency in the normal mode, but does not correspond to the clock frequency in the low power consumption mode. Therefore, when the electronic device receives a remote control signal when the power is turned off (in the low power consumption mode), the electronic device first switches from the low power consumption mode to the normal mode, and then analyzes the remote control signal at the clock frequency in the normal mode. To do. As a result of the analysis, when the remote control signal is a remote control signal for turning on the power, the power is turned on (see, for example, Patent Document 1).
That is, when the remote control signal is received to analyze the remote control signal, the electronic device switches from the low power consumption mode to the normal mode regardless of whether the remote control signal is a remote control signal for turning on the power. It is like that.

  However, if the low power consumption mode is switched to the normal mode every time a remote control signal is received, there is a problem that power is wasted.

Therefore, for example, the electronic device is configured to switch from the low power consumption mode to the normal mode only when a predetermined signal is received, and only when the power key is operated, the predetermined signal is initially set. Has been proposed (see, for example, Patent Document 2).
In addition, for example, the received remote control signal is compared with a preset remote control signal for turning on the power, and as a result of the comparison, the received remote control signal is used for turning on the preset power supply. An electronic device that switches from the low power consumption mode to the normal mode only when it matches the signal has been proposed (see, for example, Patent Document 3).
JP 2000-217173 A JP-A-11-285086 JP 2001-117985 A

However, in the configuration of Patent Document 2, since the electronic device is switched from the low power consumption mode to the normal mode and then the remote control signal is analyzed at the clock frequency of the normal mode and the power is turned on, the power is not quickly turned on. There is a problem.
Further, for example, in the configuration of Patent Document 3, a remote control signal for comparison must be set in the electronic device, and a mechanism for comparing the remote control signal must be provided. There is a problem that the configuration becomes complicated.

  An object of the present invention is to provide a remote control system capable of quickly and surely turning on an electronic device while suppressing power consumption of the electronic device.

In order to solve the above-mentioned problem, the invention described in claim 1
In a remote control system comprising: a predetermined controlled device; a remote control device including a key operation unit including a plurality of keys and a remote control signal transmitting unit that transmits a remote control signal for remotely controlling the predetermined controlled device;
The predetermined controlled device is:
When the power is turned off, it is configured to be in a low power consumption mode that operates at the first clock frequency, and when the power is turned on, it is configured to be in a normal mode that operates at a second clock frequency higher than the first clock frequency.
Power supply information transmitting means for transmitting power OFF information to the remote control device at the time of switching to the power OFF,
The remote controller is
Power information receiving means for receiving power OFF information transmitted by the power information transmitting means;
Storage means for storing power OFF information received by the power information receiving means;
Erasing means for erasing the power OFF information stored in the storage means when a remote control signal for turning on the power of the predetermined controlled device is transmitted by the remote control signal transmitting means,
The key operation unit includes a power key,
The remote control signal transmitting means is configured to control the predetermined controlled signal at a frequency corresponding to the first clock frequency when the power key is operated and when the power OFF information is stored in the storage means. Corresponds to the second clock frequency when a remote control signal for turning on the power of the device is transmitted and the power key is operated and no power OFF information is stored in the storage means A remote control signal for turning off the power supply of the predetermined controlled device is transmitted at the determined frequency.

The invention described in claim 2
In a remote control system comprising: a predetermined controlled device; a remote control device including a key operation unit including a plurality of keys and a remote control signal transmitting unit that transmits a remote control signal for remotely controlling the predetermined controlled device;
The predetermined controlled device is:
When the power is turned off, it is configured to be in a low power consumption mode that operates at the first clock frequency, and when the power is turned on, it is configured to be in a normal mode that operates at a second clock frequency higher than the first clock frequency.
Power supply information transmitting means for transmitting power OFF information to the remote control device at the time of switching to the power OFF,
The remote controller is
Power information receiving means for receiving power OFF information transmitted by the power information transmitting means;
Storage means for storing power OFF information received by the power information receiving means,
The key operation unit includes a power key,
The remote control signal transmitting means is configured to control the predetermined controlled signal at a frequency corresponding to the first clock frequency when the power key is operated and when the power OFF information is stored in the storage means. Corresponds to the second clock frequency when a remote control signal for turning on the power of the device is transmitted and the power key is operated and no power OFF information is stored in the storage means A remote control signal for turning off the power source of the predetermined controlled device is transmitted at the frequency thus determined.

The invention described in claim 3
In a remote control system comprising: a predetermined controlled device; a remote control device including a key operation unit including a plurality of keys and a remote control signal transmitting unit that transmits a remote control signal for remotely controlling the predetermined controlled device;
The predetermined controlled device is:
When the power is turned off, it is configured to be in a low power consumption mode that operates at the first clock frequency, and when the power is turned on, it is configured to be in a normal mode that operates at a second clock frequency higher than the first clock frequency.
Power supply information transmitting means for transmitting power information after switching to the remote control device when switching to the power ON and the power OFF,
The remote controller is
Power supply information receiving means for receiving the power supply information transmitted by the power supply information transmitting means;
Storage means for storing the power supply information received by the power supply information receiving means,
The key operation unit includes a power key,
When the power key is operated and the power supply information stored in the storage means is power OFF information, the remote control signal transmission means has the predetermined frequency at a frequency corresponding to the first clock frequency. A remote control signal for turning on the power of the controlled device is controlled, and when the power key is operated and the power information stored in the storage means is power ON information, A remote control signal for turning off the power of the predetermined controlled device is transmitted at a frequency corresponding to the second clock frequency.

According to the first aspect of the present invention, when the power key is operated by the remote control signal transmission means and the power OFF information is stored in the storage means, the clock frequency in the low power consumption mode is stored. A remote control signal for turning on the power of a predetermined controlled device is transmitted at a frequency corresponding to the first clock frequency, and the power OFF information is stored in the storage means when the power key is operated. When not stored, it is possible to transmit a remote control signal for turning off the power of a predetermined controlled device at a frequency corresponding to the second clock frequency that is the clock frequency in the normal mode.
That is, the predetermined controlled device can analyze the remote control signal for turning on the power in the low power consumption mode without switching from the low power consumption mode to the normal mode.
Therefore, it is not necessary to configure a predetermined controlled device to switch from the low power consumption mode to the normal mode every time the remote control signal is received, and further, from the low power consumption mode to the normal mode for analyzing the remote control signal. Since there is no need for switching time, the power of the electronic device can be turned on quickly and reliably while suppressing the power consumption of the electronic device (predetermined controlled device).

  Further, when the remote control signal for turning on the power of a predetermined controlled device is transmitted by the remote control signal transmission means, the power OFF information stored in the storage means can be deleted by the deletion means. The remote control signal to be transmitted when the power key is operated is a remote control signal for turning on the power of the predetermined controlled device or a remote control signal for turning off the power of the predetermined controlled device. Can be reliably determined.

According to the second aspect of the present invention, when the power key is operated by the remote control signal transmitting means and the power OFF information is stored in the storage means, the clock frequency in the low power consumption mode is stored. A remote control signal for turning on the power of a predetermined controlled device is transmitted at a frequency corresponding to the first clock frequency, and the power OFF information is stored in the storage means when the power key is operated. When not stored, it is possible to transmit a remote control signal for turning off the power of a predetermined controlled device at a frequency corresponding to the second clock frequency that is the clock frequency in the normal mode.
That is, the predetermined controlled device can analyze the remote control signal for turning on the power in the low power consumption mode without switching from the low power consumption mode to the normal mode.
Therefore, it is not necessary to configure a predetermined controlled device to switch from the low power consumption mode to the normal mode every time the remote control signal is received, and further, from the low power consumption mode to the normal mode for analyzing the remote control signal. Since there is no need for switching time, the power of the electronic device can be turned on quickly and reliably while suppressing the power consumption of the electronic device (predetermined controlled device).

According to the third aspect of the present invention, when the power key is operated by the remote control signal transmitting means and the power information stored in the storage means is the power OFF information, the first clock frequency is set. A remote control signal for turning on the power of a predetermined controlled device is transmitted at a corresponding frequency, and when the power key is operated, the power supply information stored in the storage means is the power ON information. In this case, it is possible to transmit a remote control signal for turning off the power of a predetermined controlled device at a frequency corresponding to the second clock frequency.
That is, the predetermined controlled device can analyze the remote control signal for turning on the power in the low power consumption mode without switching from the low power consumption mode to the normal mode.
Therefore, it is not necessary to configure a predetermined controlled device to switch from the low power consumption mode to the normal mode every time the remote control signal is received, and further, from the low power consumption mode to the normal mode for analyzing the remote control signal. Since there is no need for switching time, the power of the electronic device can be turned on quickly and reliably while suppressing the power consumption of the electronic device (predetermined controlled device).

  Further, since the power information after switching is stored in the storage means, whether the remote control signal to be transmitted when the power key is operated is a remote control signal for turning on the power of a predetermined controlled device, Alternatively, it is possible to reliably determine whether the remote control signal is for turning off a predetermined controlled device.

Hereinafter, the best mode of a remote control system according to the present invention will be described in detail with reference to the drawings. The scope of the invention is not limited to the illustrated example.
In the present embodiment, a television receiver (hereinafter referred to as “TV receiver”) will be described as an example of the predetermined controlled device.

[First embodiment]
First, the remote control system 1 in the first embodiment will be described.

<Configuration of remote control system>
First, the configuration of the remote control system 1 will be described with reference to FIGS.
The remote control system 1 includes, for example, a TV receiver 2 and a remote control device 4 for remotely controlling the TV receiver 2 as shown in FIG.

(Configuration of TV receiver (predetermined controlled device))
For example, as shown in FIGS. 1 and 2, the TV receiver 2 includes a tuner 21 having an antenna 21a, a demodulator 22, a decoder 23, a remote control signal receiving unit 26, a power supply information transmitting unit 27, a clock, and the like. A signal supply unit 28, a control unit 29, and the like are provided. Each unit is connected by a bus 20.
Furthermore, the TV receiver 2 includes, for example, an audio output unit 24 and a video display unit 25 connected to the decoder 23.

Here, the operation mode of the TV receiver 2 is different between when the TV receiver 2 is turned off and when the power is turned on.
Specifically, for example, when the power is turned off, the TV receiver 2 is in a low power consumption mode in which a CPU 291 (described later) of the TV receiver 2 is operated at a sub-clock frequency as the first clock frequency. The normal mode in which the CPU 291 of the TV receiver 2 operates at the main clock frequency as the second clock frequency higher than the sub clock frequency is set. That is, the CPU 291 of the TV receiver 2 operates according to a timing signal having a sub-clock frequency when the TV receiver 2 is powered off, for example, and has the main clock frequency when the TV receiver 2 is powered on. Operates according to the timing signal.
Here, the sub clock frequency is, for example, a frequency of several to several tens of kHz, and the main clock frequency is, for example, a frequency of several to several tens of MHz.

  Note that, for example, when the power is turned off (in the low power consumption mode), the TV receiver 2 operates only when the remote control signal transmitted by the remote control device 4 and received by the remote control signal receiving unit 26 can be analyzed. The mode is switched from the low power consumption mode to the normal mode.

The tuner 21 receives, for example, a television broadcast signal (hereinafter referred to as “TV broadcast signal”).
Specifically, the tuner 21 performs a user-desired broadcast program from TV broadcast signals (for example, digital TV broadcast signals) received by the antenna 21a in accordance with a control signal input from the control unit 29, for example. The TV broadcast signal existing in the frequency band corresponding to the channel is received. Then, for example, the TV broadcast signal is modulated and an intermediate frequency signal is output to the demodulator 22.

  The demodulator 22 performs processing such as digital demodulation and error correction on the intermediate frequency signal output from the tuner 21 in accordance with a control signal input from the control unit 29, for example, to generate a stream (for example, a transport stream). Is output to the decoder 23.

  The decoder 23, for example, decodes the transport stream output from the demodulator 22 according to the control signal input from the control unit 29, determines each transport packet constituting the transport stream, and determines the user desired Data related to a transport packet related to a broadcast program is separated into compressed audio data, compressed video data, and the like. Then, for example, the compressed audio data is decoded and the audio data is output to the audio output unit 24, and the compressed video data is decoded and the video data is output to the video display unit 25.

  The audio output unit 24 is, for example, a speaker device and outputs audio based on the audio data output from the decoder 23.

  The video display unit 25 is, for example, a liquid crystal display device or the like, and displays a video based on the video data output from the decoder 23.

  The remote control signal receiving unit 26 receives, for example, a remote control signal transmitted from the remote control device 4 and outputs it to the control unit 29.

Here, the remote control signal includes, for example, a header pulse indicating the start of the remote control signal, a custom code for identifying the manufacturer and model of the TV receiver 2 controlled by the remote control signal, and the TV receiver 2. A data code indicating a command for controlling, and the like are included.
Therefore, for example, a remote control signal for turning on the power of the TV receiver 2 is a remote control signal including a data code indicating a command for turning on the power of the TV receiver 2, and for example, the TV receiver The remote control signal for turning off the power of 2 is a remote control signal including a data code indicating a command for turning off the power of the TV receiver 2.

  The power information transmission unit 27 indicates that the power of the TV receiver 2 is OFF according to the control signal input from the control unit 29, for example, when the TV receiver 2 is switched from power ON to power OFF. Is transmitted to the remote control device 4 by infrared rays or the like.

The clock signal supply unit 28 supplies, for example, a clock signal with a sub clock frequency, a clock signal with a main clock frequency, and the like to the control unit 29.
Specifically, the clock signal supply unit 28 includes, for example, an oscillation circuit 281 and a frequency dividing circuit 282 as shown in FIG.

  The oscillation circuit 281 includes a crystal resonator, for example, and generates an electrical signal having an oscillation frequency determined by the physical dimensions of the crystal resonator.

  The frequency dividing circuit 282 converts the oscillation frequency of the electric signal generated by the oscillation circuit 281 into a predetermined frequency dividing rate (for example, the first frequency dividing rate and the first frequency dividing rate) according to the control signal input from the control unit 29. Frequency division (division) that is lower than the rate), and outputs the resulting clock signal to the control unit 29.

Here, the clock signal divided by the frequency dividing circuit 282 becomes a timing signal for determining the operating speed of a CPU 291 (described later) of the TV receiver 2.
That is, for example, the frequency of the clock signal divided by the first division ratio becomes the sub clock frequency, and for example, the frequency of the clock signal divided by the second division ratio lower than the first division ratio. Is the main clock frequency.

  For example, as shown in FIG. 2, the control unit 29 includes a CPU (Central Processing Unit) 291, a RAM (Random Access Memory) 292, a ROM (Read Only Memory) 293, and the like.

  The CPU 291 executes various control operations according to various processing programs for the TV receiver 2 stored in the ROM 293. When executing the various control operations, the CPU 291 operates while obtaining timing (synchronization) using a timing signal having a sub clock frequency or a main clock frequency, for example.

  The RAM 292 includes a program storage area for expanding a processing program executed by the CPU 291, a data storage area for storing input data, a processing result generated when the processing program is executed, and the like.

  The ROM 293 is a system program that can be executed by the TV receiver 2, various processing programs that can be executed by the system program, data that is used when these various processing programs are executed, data of processing results that are arithmetically processed by the CPU 291, and the like. Remember. Note that the program is stored in the ROM 293 in the form of a computer readable program code.

  Specifically, the ROM 293 stores, for example, a remote control signal analysis program 293b1, a power ON / OFF switching program 293b2, a power information transmission control program 293b3, and the like.

  The remote control signal analysis program 293b1 causes the CPU 291 to realize a function of analyzing the remote control signal received by the remote control signal receiving unit 26, for example.

Here, for example, among the remote control signals that can be transmitted by the remote control device 4, the remote control device 4 transmits only the remote control signal for turning on the power of the TV receiver 2 at a frequency corresponding to the subclock frequency. Remote control signals other than the remote control signal for turning on the power of the receiver 2 (for example, a remote control signal for turning off the power of the TV receiver 2) are transmitted at a frequency corresponding to the main clock frequency. ing.
Therefore, for example, the CPU 291 operates at the subclock frequency when the power is turned off (in the low power consumption mode), and therefore, among the remote control signals transmitted by the remote control device 4 and received by the remote control signal receiving unit 26, Only the remote control signal for turning on the power of the TV receiver 2 can be analyzed.
On the other hand, since the CPU 291 operates at the main clock frequency when the power is turned on (in the normal mode), for example, among the remote control signals transmitted by the remote control device 4 and received by the remote control signal receiving unit 26, the TV image reception is performed. Remote control signals other than the remote control signal for turning on the power of the machine 2 can be analyzed.

  The power ON / OFF switching program 293b2 is, for example, a remote control signal transmitted by the remote control device 4 and received by the remote control signal receiving unit 26 as a result of analysis by the CPU 291 executing the remote control signal analysis program 293b1. In the case of the remote control signal for turning on the TV, the operation mode is switched from the low power consumption mode to the normal mode, the power of the TV receiver 2 is switched from ON to OFF, and, for example, the remote control signal analysis program 293b1 is executed. As a result of the analysis performed by the CPU 291, when the remote control signal transmitted by the remote control device 4 and received by the remote control signal receiving unit 26 is a remote control signal for turning off the power of the TV receiver 2, the operation mode is set. Switch from normal mode to low power consumption mode Ete, a function of switching ON the power of the TV receiver 2 from the OFF, thereby realizing the CPU 291.

Specifically, the CPU 291 switches the operation mode from the low power consumption mode to the normal mode, for example, by inputting a control signal to the clock signal supply unit 28 and instructing to supply a clock signal having the main clock frequency. .
Further, the CPU 291 switches the operation mode from the normal mode to the low power consumption mode by inputting a control signal to the clock signal supply unit 28 and instructing to supply a clock signal having a sub clock frequency, for example.

The power supply information transmission control program 293b3, for example, inputs a control signal to the power supply information transmission unit 27 when the CPU 291 executing the power supply ON / OFF switching program 293b2 switches the power of the TV receiver 2 from power ON to power OFF. The CPU 291 is made to realize a function of causing the remote control device 4 to transmit power OFF information, which is power information indicating that the TV receiver 2 is OFF.
Here, the power information transmission unit includes, for example, a power information transmission unit 27, a CPU 291 that executes the power information transmission control program 293b3, and the like.

(Configuration of remote control device)
As shown in FIGS. 1 and 3, for example, the remote control device 4 includes a key operation unit 41, a remote control signal transmission unit 42, a power information reception unit 43, a storage unit 44, a control unit 45, and the like. Configured. Each unit is connected by a bus 40.

  Here, for example, among the remote control signals that can be transmitted by the remote control device 4, the remote control device 4 transmits only the remote control signal for turning on the power of the TV receiver 2 at a frequency corresponding to the subclock frequency. A remote control signal other than the remote control signal for turning on the power of the receiver 2 (for example, a remote control signal for turning off the power of the TV receiver 2) is transmitted at a frequency corresponding to the main clock frequency.

The key operation unit 41 includes, for example, a plurality of keys, and outputs, for example, a pressing signal accompanying the user's key operation to the control unit 45.
Here, the key operation unit 41 includes at least a power key 41a.

  The remote control signal transmission unit 42 transmits, for example, a remote control signal for remotely controlling the TV receiver 2 to the remote control signal reception unit 26 of the TV receiver 2 in accordance with the control signal input from the control unit 45.

  The power information receiving unit 43 receives, for example, the power OFF information transmitted from the power information transmitting unit 27 of the TV receiver 2 as a power information receiving unit, and outputs it to the control unit 45.

  The storage unit 44 stores the power OFF information received by the power information receiving unit 43 as, for example, a storage unit in accordance with the control signal input from the control unit 45.

  For example, as shown in FIG. 3, the control unit 45 includes a CPU 451, a RAM 452, a ROM 453, and the like.

  The CPU 451 executes various control operations according to various processing programs for the remote control device 4 stored in the ROM 453.

  The RAM 452 includes a program storage area for expanding a processing program executed by the CPU 451, a data storage area for storing input data, a processing result generated when the processing program is executed, and the like.

  The ROM 453 stores a system program that can be executed by the remote control device 4, various processing programs that can be executed by the system program, data used when executing these various processing programs, data of processing results that are arithmetically processed by the CPU 451, and the like. Remember. The program is stored in the ROM 453 in the form of a program code that can be read by a computer.

  Specifically, the ROM 453 stores, for example, a remote control signal data file 453a1, a remote control signal transmission control program 453b1, a power information deletion program 453b2, and the like.

  For example, the remote control signal data file 453a1 stores a remote control signal for remotely controlling the TV receiver 2 in association with each key included in the key operation unit 41. That is, the remote control signal stored in the remote control signal data file 453a1 becomes a remote control signal that can be transmitted by the remote control device 4.

  For example, when a user operates a key included in the key operation unit 41, the remote control signal transmission control program 453b1 acquires a remote control signal corresponding to the operated key from the remote control signal data file 453a1, and the remote control signal A control signal is input to the transmitter 42, and the CPU 291 is caused to realize a function of transmitting the acquired remote control signal to the TV receiver 2 at a predetermined frequency.

Specifically, the CPU 451, for example, when the user operates the power key 41a included in the key operation unit 41 and when the power OFF information is stored in the storage unit 44, the TV receiver 2 A remote control signal for turning on the power of the remote control signal is acquired from the remote control signal data file 453a1, and the remote control signal transmission unit 42 transmits the acquired remote control signal at a frequency corresponding to the subclock frequency. When the power key 41a included in the key operation unit 41 is operated by the user and the power OFF information is not stored in the storage unit 44, the remote controller for turning off the power of the TV receiver 2 is stored. The signal is acquired from the remote control signal data file 453a1, and the main clock frequency is sent to the remote control signal transmitter 42. In the corresponding frequencies, to transmit the acquired remote control signal.
Here, the remote control signal transmission means includes, for example, a remote control signal transmission unit 42 and a CPU 451 that executes the remote control signal transmission control program 453b1.

For example, when the remote control signal for turning on the TV receiver 2 is transmitted by the CPU 451 that executes the remote control signal transmission control program 453b1 and the remote control signal transmission unit 42, the power supply information erasing program 453b2 is stored in the storage unit. The CPU 451 realizes a function of deleting the power-off information stored in the storage 44.
The CPU 451 functions as an erasing unit by executing the power information erasing program 453b2.

<Power ON / OFF switching process>
Next, processing relating to switching of the TV receiver 2 from power ON to power OFF by the remote control system 1 will be described with reference to the flowchart of FIG.

  First, when the user operates the power key 41a included in the key operation unit 41 of the remote control device 4 (step S11), the CPU 451 of the remote control device 4 executes the remote control signal transmission control program 453b1 and stores it in the storage unit 44. It is determined whether power OFF information is stored (step S12).

  If it is determined in step S12 that the power supply OFF information is stored in the storage unit 44 (step S12; Yes), the CPU 451 transmits a remote control signal for turning on the TV receiver 2 from the remote control signal data file 453a1. Then, a control signal is input to the remote control signal transmission unit 42, and the acquired remote control signal is transmitted to the TV receiver 2 at a frequency corresponding to the subclock frequency (step S13). 453b2 is executed, the power OFF information stored in the storage unit 44 is deleted (step S14), and this process is terminated.

  When the remote control signal receiving unit 26 of the TV receiver 2 receives the remote control signal transmitted in step S13 (step S15), the CPU 291 of the TV receiver 2 executes the remote control signal analysis program 293b1 and in step S15. The received remote control signal is analyzed, and the power ON / OFF switching program 293b2 is executed to switch the operation mode from the low power consumption mode to the normal mode, and the power of the TV receiver 2 is switched from OFF to ON. (Step S16), this process is terminated.

  On the other hand, if it is determined in step S12 that the power supply OFF information is not stored in the storage unit 44 (step S12; No), the CPU 451 outputs a remote control signal for turning off the power of the TV receiver 2 as a remote control signal data file. Then, the control signal is input to the remote control signal transmitter 42, and the acquired remote control signal is transmitted to the TV receiver 2 at a frequency corresponding to the main clock frequency (step S17).

  When the remote control signal receiver 26 of the TV receiver 2 receives the remote control signal transmitted in step S17 (step S18), the CPU 291 of the TV receiver 2 executes the remote control signal analysis program 293b1, and in step S18. The received remote control signal is analyzed, and the power ON / OFF switching program 293b2 is executed to switch the operation mode from the normal mode to the low power consumption mode, and to switch the power of the TV receiver 2 from ON to OFF ( Step S19).

  Next, the CPU 291 executes the power information transmission control program 293b3, inputs a control signal to the power information transmission unit 27, and transmits the power OFF information to the TV receiver 2 (step S20).

  When the power supply information receiving unit 43 of the remote control device 4 receives the power supply OFF information transmitted in step S20 (step S21), the CPU 451 of the remote control device 4 stores the power supply OFF information received in step S21 in the storage unit 44. Store this (step S22), and the process is terminated.

According to the remote control system 1 in the first embodiment described above, the TV receiver 2, the key operation unit 41 composed of a plurality of keys, and the remote control signal for transmitting a remote control signal for remotely controlling the TV receiver 2. The remote control device 4 includes a CPU 451 that executes the transmission control program 453 b 1 and a remote control signal transmission unit 42.
The TV receiver 2 is in a low power consumption mode that operates at the sub clock frequency (first clock frequency) when the power is turned off, and the main clock frequency (second clock frequency) that is higher than the sub clock frequency when the power is turned on. The CPU 291 that has executed the power information transmission control program 293b3 and the power information transmission unit 27 transmit power OFF information to the remote control device 4 when switching to power OFF. be able to.
Further, the remote control device 4 can receive the power OFF information transmitted by the CPU 291 that executed the power information transmission control program 293b3 and the power information transmitting unit 27 by the power information receiving unit 43, and the storage unit 44 can receive the power OFF information. The power OFF information received by the power information receiving unit 43 can be stored, and when the power key 41a is operated by the CPU 451 executing the remote control signal transmission control program 453b1 and the remote control signal transmitting unit 42, When power-off information is stored in the storage unit 44, a remote control signal for turning on the power of the TV receiver 2 is transmitted at a frequency corresponding to the sub-clock frequency, and the power key 41a is operated. When the power OFF information is not stored in the storage unit 44, the main clock frequency At a frequency corresponding to the number, it is possible to transmit a remote control signal to turn OFF the power of the TV receiver 2.
That is, the TV receiver 2 can analyze a remote control signal for turning on the power of the TV receiver 2 in the low power consumption mode without switching from the low power consumption mode to the normal mode. .
Therefore, it is not necessary to configure the TV receiver 2 to switch from the low power consumption mode to the normal mode every time a remote control signal is received, and to switch from the low power consumption mode to the normal mode for analysis of the remote control signal. Since no time is required, the power of the TV receiver 2 can be turned on quickly and reliably while suppressing the power consumption of the TV receiver 2.

  In addition, when the CPU 451 executing the power supply information erasing program 453b2 transmits a remote control signal for turning on the power of the TV receiver 2 by the CPU 451 executing the remote control signal transmission control program 453b1 and the remote control signal transmitting unit 42. In addition, since the power OFF information stored in the storage unit 44 can be deleted, a remote control signal to be transmitted when the power key 41a is operated is a remote control signal for turning on the TV receiver 2. It is possible to reliably determine whether it is a remote control signal for turning off the power of the TV receiver 2 or not.

[Second Embodiment]
Next, a remote control system 1A according to the second embodiment will be described.

<Configuration of remote control system>
First, the configuration of the remote control system 1A will be described with reference to FIGS.
Note that the remote control system 1A according to the second embodiment is different from the first embodiment only in that the TV receiver 2 transmits power supply information not only when switching to power OFF but also when switching to power ON. This is different from the remote control system 1 of the form. Specifically, a part of the configuration of the power supply information transmission unit 27 in the TV receiver 2 and a part of the configuration of the control unit 29 are different, a part of the configuration of the power supply information reception unit 43 in the remote control device 4, and a storage unit A part of the configuration of 44 and a part of the configuration of the control unit 45 are different. Therefore, only different parts will be described, and other common parts will be described with the same reference numerals.

  For example, as shown in FIG. 5, the remote control system 1A includes a TV receiver 2A and a remote control device 4A for remotely controlling the TV receiver 2A.

(Configuration of TV receiver (predetermined controlled device))
As shown in FIGS. 5 and 6, for example, the TV receiver 2A includes a tuner 21 having an antenna 21a, a demodulator 22, a decoder 23, a remote control signal receiver 26, a power information transmitter 27A, a clock, The signal supply unit 28, the control unit 29A, and the like are provided. Each unit is connected by a bus 20A.
Further, the TV receiver 2A includes, for example, an audio output unit 24 and a video display unit 25 connected to the decoder 23.

  In accordance with the control signal input from the control unit 29A, for example, when the TV receiver 2A is switched to power ON and power OFF, the power information transmission unit 27A sends the switched power information to the remote control device 4A by infrared rays or the like. Send.

  For example, as shown in FIG. 6, the control unit 29A includes a CPU 291, a RAM 292, a ROM 293 </ b> A, and the like.

  The ROM 293A stores, for example, a remote control signal analysis program 293b1, a power ON / OFF switching program 293b2, a power information transmission control program 293b 3A, and the like.

  The power supply information transmission control program 293b3A, for example, inputs a control signal to the power supply information transmission unit 27A when the CPU 291 executing the power supply ON / OFF switching program 293b2 switches the TV receiver 2A to power ON and power OFF. The CPU 291 is caused to realize a function of transmitting the switched power supply information to the remote control device 4A.

Specifically, for example, when the TV receiver 2A is switched from power ON to power OFF, the CPU 291 transmits power OFF information that is power information indicating that the power of the TV receiver 2A is OFF. When the TV receiver 2A is switched from power OFF to power ON, power ON information, which is power information indicating that the TV receiver 2A is ON, is transmitted.
Here, the power information transmission unit includes, for example, a power information transmission unit 27A, a CPU 291 that executes the power information transmission control program 293b3A, and the like.

(Configuration of remote control device)
As shown in FIGS. 5 and 7, for example, the remote control device 4A includes a key operation unit 41, a remote control signal transmission unit 42, a power information reception unit 43A, a storage unit 44A, a control unit 45A, and the like. Configured. Each unit is connected by a bus 40A.

  The power information receiver 43A receives, for example, power information (power OFF information or power ON information) transmitted from the power information transmitter 27A of the TV receiver 2A as power information receiver, and outputs it to the controller 45A. To do.

44 A of memory | storage parts memorize | store the power supply information (power supply OFF information or power ON information) received by the power supply information receiving part 43A as a memory | storage means according to the control signal input from 45 A of control parts, for example.
Specifically, for example, when the power supply information receiving unit 43A receives the power OFF information, the storage unit 44A stores the received power OFF information instead of the stored power ON information. When the power ON information is received by the power information receiving unit 43A, the received power ON information is stored instead of the stored power OFF information.

  For example, as illustrated in FIG. 7, the control unit 45A includes a CPU 451, a RAM 452, a ROM 453A, and the like.

  The ROM 453A stores, for example, a remote control signal data file 453a1, a remote control signal transmission control program 453b1A, and the like.

  For example, when a user operates a key included in the key operation unit 41, the remote control signal transmission control program 453b1A acquires a remote control signal corresponding to the operated key from the remote control signal data file 453a1, and the remote control signal A control signal is input to the transmission unit 42, and the CPU 291 is caused to realize a function of transmitting the acquired remote control signal to the TV receiver 2A at a predetermined frequency.

Specifically, for example, when the user operates the power key 41a included in the key operation unit 41 and the power information stored in the storage unit 44A is the power OFF information, A remote control signal for turning on the power of the TV receiver 2A is acquired from the remote control signal data file 453a1, and the remote control signal transmitter 42 transmits the acquired remote control signal at a frequency corresponding to the subclock frequency. At the same time, when the power key 41a included in the key operation unit 41 is operated by the user and the power information stored in the storage unit 44A is the power ON information, the power of the TV receiver 2A is turned off. A remote control signal for obtaining a remote control signal is obtained from the remote control signal data file 453a1, and the remote control signal transmission unit 42 At a frequency corresponding to the down clock frequency to transmit the acquired remote control signal.
Here, the remote control signal transmission means includes, for example, a remote control signal transmission unit 42 and a CPU 451 that executes the remote control signal transmission control program 453b1A.

<Power ON / OFF switching process>
Next, processing relating to switching of the TV receiver 2A from power ON to power OFF by the remote control system 1A will be described with reference to the flowchart of FIG.

  First, when the user operates the power key 41a included in the key operation unit 41 of the remote control device 4A (step S31), the CPU 451 of the remote control device 4A executes the remote control signal transmission control program 453b1A and stores it in the storage unit 44A. It is determined whether or not power OFF information is stored (step S32).

  If it is determined in step S32 that the power supply OFF information is stored in the storage unit 44A (step S32; Yes), the CPU 451 transmits a remote control signal for turning on the power of the TV receiver 2A from the remote control signal data file 453a1. Then, the control signal is input to the remote control signal transmitter 42, and the acquired remote control signal is transmitted to the TV receiver 2A at a frequency corresponding to the subclock frequency (step S33).

  When the remote control signal reception unit 26 of the TV receiver 2A receives the remote control signal transmitted in step S33 (step S34), the CPU 291 of the TV receiver 2A executes the remote control signal analysis program 293b1, and in step S34. The received remote control signal is analyzed, and the power ON / OFF switching program 293b2 is executed to switch the operation mode from the low power consumption mode to the normal mode, and to switch the power of the TV receiver 2 from OFF to ON ( Step S35).

  Next, the CPU 291 executes the power information transmission control program 293b3A, inputs a control signal to the power information transmission unit 27A, and transmits power ON information to the TV receiver 2A (step S36).

  When the power supply information receiving unit 43A of the remote control device 4A receives the power supply ON information transmitted in step S36 (step S37), the CPU 451 of the remote control device 4A stores the power supply ON information received in step S37 in the storage unit 44A. Store this (step S38), and the process is terminated.

  On the other hand, if it is determined in step S32 that the power OFF information is not stored in the storage unit 44A (step S32; No), that is, if it is determined that the power ON information is stored in the storage unit 44A, the CPU 451 A remote control signal for turning off the power of the receiver 2A is acquired from the remote control signal data file 453a1, and a control signal is input to the remote control signal transmission unit 42 to acquire the remote control signal at a frequency corresponding to the main clock frequency. A remote control signal is transmitted to the TV receiver 2A (step S39).

  When the remote control signal reception unit 26 of the TV receiver 2A receives the remote control signal transmitted in step S39 (step S40), the CPU 291 of the TV receiver 2A executes the remote control signal analysis program 293b1, and in step S40. The received remote control signal is analyzed, and the power ON / OFF switching program 293b2 is executed to switch the operation mode from the normal mode to the low power consumption mode, and to switch the power of the TV receiver 2 from ON to OFF ( Step S41).

  Next, the CPU 291 executes the power information transmission control program 293b3A, inputs a control signal to the power information transmission unit 27A, and transmits power OFF information to the TV receiver 2A (step S42).

  When the power supply information receiving unit 43A of the remote control device 4A receives the power supply OFF information transmitted in step S42 (step S43), the CPU 451 of the remote control device 4A stores the power supply OFF information received in step S43 in the storage unit 44A. Store this (step S44), and the process ends.

According to the remote control system 1A in the second embodiment described above, the TV receiver 2A is switched between power ON and power OFF by the CPU 291 that executes the power information transmission control program 293b3A and the power information transmitter 27A. Sometimes, the switched power supply information can be transmitted to the remote control device 4A, and the remote control device 4A transmits the power supply information receiving unit 43A by the CPU 291 executing the power supply information transmission control program 293b3A and the power supply information transmitting unit 27A. The power supply information received by the power supply information receiving unit 43A can be stored in the storage unit 44A, and the CPU 451 executing the remote control signal transmission control program 453b1A and the remote control signal transmission unit 42 And when the power key 41a is operated. When the power supply information stored in the storage unit 44A is power supply OFF information, a remote control signal for turning on the power of the TV receiver 2A at a frequency corresponding to the sub clock frequency (first clock frequency) is provided. When the power key 41a is operated and the power information stored in the storage unit 44A is power ON information, the TV is transmitted at a frequency corresponding to the main clock frequency (second clock frequency). A remote control signal for turning off the power of the receiver 2A can be transmitted.
Therefore, since the power supply information received by the power supply information receiving unit 43A can be stored in the storage unit 44A, a remote control signal to be transmitted when the power key 41a is operated turns on the TV receiver 2A. It is possible to reliably determine whether the signal is a remote control signal for turning off or a remote control signal for turning off the power of the TV receiver 2A.

  The present invention is not limited to the above-described embodiment, and can be appropriately changed without departing from the gist thereof.

  In the first and second embodiments, the configuration of the clock signal supply unit 28 can be used as long as the clock signal having the sub clock frequency and the clock signal having the main clock frequency can be supplied to the control units 29 and 29A. Is optional.

  In the first and second embodiments, the CPU 451 that executes the remote control signal transmission control programs 453b1 and 453b1A causes the remote control signal to turn on the TV receivers 2 and 2A at a frequency corresponding to the subclock frequency. For example, the remote control signal for turning on the TV receivers 2 and 2A may be stored in the remote control signal data file 453a1 in advance at a frequency corresponding to the sub clock frequency. Good. In this case, the CPU 451 executing the remote control signal transmission control programs 453b1 and 453b1A may transmit the remote control signal stored in the remote control signal data file 453a1 as it is.

  In the first and second embodiments, the remote control signal transmitted at a frequency corresponding to the sub clock frequency is not only the remote control signal for turning on the power of the TV receivers 2 and 2A, but also when the power is off (low). Any remote control signal to be reacted by the TV receivers 2 and 2A in the power consumption mode) is arbitrary.

  In the first and second embodiments, the predetermined controlled device is not limited to the TV receivers 2 and 2A, but may be any electronic device.

It is a figure which shows the structure of the remote control system in 1st Embodiment. It is a block diagram which shows the functional structure of TV receiver in 1st Embodiment. It is a block diagram which shows the functional structure of the remote control apparatus in 1st Embodiment. It is a flowchart which shows the process regarding the switching from the power ON of the TV receiver by the remote control system in 1st Embodiment to power OFF. It is a figure which shows the structure of the remote control system in 2nd Embodiment. It is a block diagram which shows the functional structure of TV receiver in 2nd Embodiment. It is a block diagram which shows the functional structure of the remote control apparatus in 2nd Embodiment. It is a flowchart which shows the process regarding the switching from the power ON of the TV receiver by the remote control system in 2nd Embodiment to power OFF.

Explanation of symbols

1 Remote control system 2 TV receiver (predetermined controlled device)
27, 27A Power information transmission unit (power information transmission means)
291 CPU (power information transmission means)
293b3, 293b3A power supply information transmission control program (power supply information transmission means)
4 remote control device 41 key operation unit 41a power key 42 remote control signal transmission unit (remote control signal transmission means)
43, 43A Power information receiving unit (power information receiving means)
44, 44A storage section (storage means)
451 CPU (remote control signal transmission means, erasure means)
453b1, 453b1A Remote control signal transmission control program (remote control signal transmission means)
453b2 Power supply information erasing program (erasing means)

Claims (3)

In a remote control system comprising: a predetermined controlled device; a remote control device including a key operation unit including a plurality of keys and a remote control signal transmitting unit that transmits a remote control signal for remotely controlling the predetermined controlled device;
The predetermined controlled device is:
When the power is turned off, it is configured to be in a low power consumption mode that operates at the first clock frequency, and when the power is turned on, it is configured to be in a normal mode that operates at a second clock frequency higher than the first clock frequency.
Power supply information transmitting means for transmitting power OFF information to the remote control device at the time of switching to the power OFF,
The remote controller is
Power information receiving means for receiving power OFF information transmitted by the power information transmitting means;
Storage means for storing power OFF information received by the power information receiving means;
Erasing means for erasing the power OFF information stored in the storage means when a remote control signal for turning on the power of the predetermined controlled device is transmitted by the remote control signal transmitting means,
The key operation unit includes a power key,
The remote control signal transmitting means is configured to control the predetermined controlled signal at a frequency corresponding to the first clock frequency when the power key is operated and when the power OFF information is stored in the storage means. Corresponds to the second clock frequency when a remote control signal for turning on the power of the device is transmitted and the power key is operated and no power OFF information is stored in the storage means A remote control system for transmitting a remote control signal for turning off the power supply of the predetermined controlled device at a predetermined frequency. In a remote control system comprising: a predetermined controlled device; a remote control device including a key operation unit including a plurality of keys and a remote control signal transmitting unit that transmits a remote control signal for remotely controlling the predetermined controlled device;
The predetermined controlled device is:
When the power is turned off, it is configured to be in a low power consumption mode that operates at the first clock frequency, and when the power is turned on, it is configured to be in a normal mode that operates at a second clock frequency higher than the first clock frequency.
Power supply information transmitting means for transmitting power OFF information to the remote control device at the time of switching to the power OFF,
The remote controller is
Power information receiving means for receiving power OFF information transmitted by the power information transmitting means;
Storage means for storing power OFF information received by the power information receiving means,
The key operation unit includes a power key,
The remote control signal transmitting means is configured to control the predetermined controlled signal at a frequency corresponding to the first clock frequency when the power key is operated and when the power OFF information is stored in the storage means. Corresponds to the second clock frequency when a remote control signal for turning on the power of the device is transmitted and the power key is operated and no power OFF information is stored in the storage means A remote control system for transmitting a remote control signal for turning off the power supply of the predetermined controlled device at a predetermined frequency. In a remote control system comprising: a predetermined controlled device; a remote control device including a key operation unit including a plurality of keys and a remote control signal transmitting unit that transmits a remote control signal for remotely controlling the predetermined controlled device;
The predetermined controlled device is:
When the power is turned off, it is configured to be in a low power consumption mode that operates at the first clock frequency, and when the power is turned on, it is configured to be in a normal mode that operates at a second clock frequency higher than the first clock frequency.
Power supply information transmitting means for transmitting power information after switching to the remote control device when switching to the power ON and the power OFF,
The remote controller is
Power supply information receiving means for receiving the power supply information transmitted by the power supply information transmitting means;
Storage means for storing the power supply information received by the power supply information receiving means,
The key operation unit includes a power key,
When the power key is operated and the power supply information stored in the storage means is power OFF information, the remote control signal transmission means has the predetermined frequency at a frequency corresponding to the first clock frequency. A remote control signal for turning on the power of the controlled device is controlled, and when the power key is operated and the power information stored in the storage means is power ON information, A remote control system for transmitting a remote control signal for turning off the power supply of the predetermined controlled device at a frequency corresponding to a second clock frequency.

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