JP2007325078A - Remote control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a low-cost remote control system capable of reporting a remaining capacity of the battery of a remote controller to a user with sure and accurately. <P>SOLUTION: In a remote controller 1, a detecting means (CPU16, detection program 17a, or the like) detects a remaining capacity of a battery, and a transmitting means (CPU16, transmission program 17b, or the like), if a detected remaining capacity of the battery is equal to or lower than a preset threshold value, adds a specified code to the remote control signal corresponding to a key operation for transmission to a television receiver 2. In the television receiver 2, a receiving means (CPU291, reception program 293a, or the like) receives remote control signals transmitted from the remote controller 1, and a reporting means (CPU291, reporting program 293b, light emitting part 28, or the like) issues a specified report according to the specified code added to the received remote control signal. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a remote control system that performs remote control of an electronic device using a remote controller.

In a remote control system that performs remote control of an electronic device using a remote controller (hereinafter referred to as a remote controller), if the receiving side does not operate in response to a key operation on the remote controller, the cause is due to the battery running out of the remote controller, or There is a problem that the user cannot easily determine whether or not the device itself is faulty and cannot take appropriate measures.
Therefore, conventionally, a remote control system has been developed which has a function of detecting the remaining battery level of the remote control and notifying the user of the detection result of the remaining battery level on the remote control side.
However, in the system in which the remaining battery level is notified on the remote controller side, a display, a speaker, an LED (Light Emitting Diode) and the like must be provided on the remote controller, and there is a problem that costs increase.

Therefore, for example, in Patent Document 1, when the remaining battery level is estimated from the characteristics of the decrease in the luminance level of the infrared signal on the electronic device side and a decrease in the remaining battery level is detected, the remaining battery level for the user is detected by sound or light. A remote control system for warning is disclosed.
Further, for example, in Patent Document 2, a remote monitoring transmitter is provided with a voltage monitoring unit, and if it is determined that the voltage has dropped by the microcomputer unit, the battery life is received by increasing the transmission data transmission interval to a normal multiple or more. There is disclosed a remote control transmitter that can be notified to the user and can prompt the user to replace the battery by means of a display on the TV screen, LED, voice or the like on the receiver side.
JP 09-163473 A Japanese Patent Laid-Open No. 05-077607

  However, when estimating the remaining battery level from the characteristics of the brightness level reduction of the infrared signal on the electronic device side as in the above-mentioned Patent Document 1, or just changing the transmission interval of transmission data as in Patent Document 2, the remote controller There is a problem that the remaining battery level cannot be accurately notified to the receiving side due to the position of the remote control and the reflection of the remote control signal.

  The subject of this invention is providing the remote control system which can alert | report to a user the battery remaining amount of a remote control reliably and correctly at low cost.

In order to solve the above problems, the invention according to claim 1 is a remote control system for remotely controlling an electronic device by a remote controller.
The remote controller is
Detection means for detecting the remaining battery capacity;
When the remaining battery level detected by the detection means falls within a predetermined category among the categories divided into a plurality of categories according to preset threshold values, a predetermined code is assigned as a key. Transmitting means for transmitting to the electronic device in addition to a remote control signal corresponding to the operation;
Invalidity means for invalidating operation of a specific key in the key operation section when the remaining battery level detected by the detection means is equal to or less than a predetermined threshold;
With
The electronic device is
Receiving means for receiving a remote control signal transmitted from the remote controller by the transmitting means;
Notification means for performing predetermined notification by changing light emission colors in a light emitting unit that emits light of a plurality of colors according to the predetermined code added to the remote control signal received by the reception means;
An amplifier for amplifying the remote control signal received by the receiving means;
Amplification factor changing means for changing the amplification factor of the remote control signal in the amplification unit according to the predetermined code added to the remote control signal received by the receiving unit;
It is characterized by providing.

According to a second aspect of the present invention, there is provided a remote control system for performing remote control of an electronic device by a remote controller
The remote controller is
Detection means for detecting the remaining battery capacity;
A transmission means for adding a predetermined code to a remote control signal corresponding to a key operation and transmitting it to the electronic device when the remaining battery level detected by the detection means is less than or equal to a preset threshold value;
With
The electronic device is
Receiving means for receiving a remote control signal transmitted from the remote controller by the transmitting means;
Notification means for performing predetermined notification according to the predetermined code added to the remote control signal received by the reception means;
It is characterized by providing.

According to a third aspect of the present invention, in the remote control system according to the second aspect, the remote controller includes:
When the battery remaining amount detected by the detection means is equal to or less than a predetermined threshold value, there is provided invalid means for invalidating operation of a specific key in the key operation unit.

According to a fourth aspect of the present invention, in the remote control system according to the second or third aspect, the electronic device is:
An amplifier for amplifying the remote control signal received by the receiving means;
It further comprises amplification factor changing means for changing the amplification factor of the remote control signal in the amplification unit in accordance with the predetermined code added to the remote control signal received by the receiving means.

According to a fifth aspect of the present invention, in the remote control system according to any one of the second to fourth aspects, the notification means includes:
It has a light emitting part that emits light of multiple colors,
In accordance with the predetermined code added to the remote control signal received by the receiving means, the predetermined notification is performed by changing a light emission color in the light emitting unit.

According to the first aspect of the present invention, the remote controller detects the remaining battery level by the detecting unit, and the remaining battery level detected by the detecting unit by the transmitting unit is set in a plurality of preset threshold values. When it corresponds to a predetermined section among the sections divided into a plurality of sections, the predetermined code is added to the remote control signal corresponding to the key operation and transmitted to the electronic device. In addition, the electronic device receives the remote control signal transmitted from the remote controller by the transmission unit by the reception unit, and receives a plurality of codes according to a predetermined code added to the remote control signal received by the reception unit by the notification unit. Predetermined notification is performed by changing the emission color in the light emitting unit that emits the color light. Therefore, it is possible to provide a remote control system that can reliably and accurately notify the user of the remaining battery level of the remote control without being affected by the position of the remote control or the reflection of the remote control signal. .
Further, in the remote controller, the invalidating unit invalidates the operation of the specific key in the key operation unit when the remaining battery level detected by the detecting unit is equal to or less than a predetermined threshold value. When the number of keys is small, key operations other than the minimum necessary keys are invalidated, and wasteful power consumption can be suppressed.
Further, in the electronic device, the amplification factor changing unit changes the amplification factor of the remote control signal in the amplification unit according to a predetermined code added to the remote control signal received by the receiving unit. When the number is small, the remote control based on the remote control signal is more reliably performed by increasing the amplification factor of the remote control signal.
In addition, since a plurality of threshold values are provided, it is possible to perform notification corresponding to the degree of the remaining amount of the remote control, and the usability can be improved.

  According to the second aspect of the present invention, in the remote controller, the detection unit detects the remaining battery level, and the transmission unit detects that the remaining battery level detected by the detection unit is not more than a preset threshold value. In this case, a predetermined code is added to the remote control signal corresponding to the key operation and transmitted to the electronic device. In the electronic device, the receiving unit receives the remote control signal transmitted from the remote controller, and the notifying unit performs predetermined notification according to the predetermined code added to the remote control signal received by the receiving unit. . Therefore, it is possible to provide a remote control system that can reliably and accurately notify the user of the remaining battery level of the remote control without being affected by the position of the remote control or the reflection of the remote control signal. .

  According to the third aspect of the present invention, it is needless to say that the effect of the second aspect of the invention can be obtained. In the remote controller, the invalid means is such that the remaining battery level detected by the detection means is not predetermined. Since the operation of a specific key in the key operation unit is invalidated when it is below the threshold value, for example, when the remaining battery level is low, key operations other than the minimum necessary keys are invalidated. Power consumption can be reduced.

  According to the invention described in claim 4, it is needless to say that the effect of the invention described in claim 2 or 3 is obtained, and the amplification factor changing means is a predetermined signal added to the remote control signal received by the receiving means. The amplification factor of the remote control signal in the amplifying unit is changed according to the code. Therefore, for example, when the remaining battery level is low, the remote control based on the remote control signal is more reliably performed by increasing the amplification factor of the remote control signal.

  According to the invention described in claim 5, it is needless to say that the effect of the invention described in any one of claims 2 to 4 can be obtained, and the notification means includes a light emitting unit that emits light of a plurality of colors. And a predetermined notification is made by changing the color of light emitted from the light emitting unit according to a predetermined code added to the remote control signal received by the receiving means. Can be recognized.

As shown in FIG. 1, the remote control system S of this embodiment includes a remote controller (hereinafter referred to as a remote controller) 1 that performs remote control by sending a remote control signal corresponding to an operated key, and the remote controller. And a television receiver 2 as an electronic device that is remotely operated by 1.
The electronic device is not limited to this, and may be, for example, a DVD (Digital Versatile Disc) player or a VCR (Video Cassette Recorder).

(Configuration of remote control)
The remote controller 1 includes a key operation unit 11, an oscillation / modulation unit 12, an infrared LED (Light Emitting Diode) 13, a power supply unit 14, a remaining battery level detection unit 15, a CPU (Central Processing Unit) 16, and a ROM (Read Only Memory) 17. Etc. are provided.

The key operation unit 11 includes a plurality of keys for the user to input various instructions to the television receiver 2, detects a key pressing operation by the user, and corresponds to the pressed key. Data to be output to the CPU 16.
Specifically, for example, as shown in FIG. 2, the key operation unit 11 includes a power key 11a for turning on / off the power of the television receiver 2, a volume key 11b for adjusting the volume, A channel key 11c which is a numeric keypad for directly inputting a channel number, a channel up / down key 11d for toggling and changing the channel number one by one, and a voice mode switching key 11e for switching and selecting a voice mode A clear key 11f for confirming the input, a clear key 11g for erasing the input, a menu key 11h for displaying various menu screens, and the like. A code is assigned and stored in a predetermined storage area (not shown). When any key is pressed in the key operation unit 11, a data code corresponding to the operated key is read, and a remote control signal based on the read data code is generated and transmitted. It becomes.

  The oscillation / modulation unit 12 oscillates according to the key pressed in the key operation unit 11 under the control of the CPU 16, and generates a remote control signal by modulating / amplifying with a code corresponding to the pressed key. The remote control signal generated by the oscillation / modulation unit 12 is output to the infrared LED 13.

The infrared LED 13 outputs a remote control signal output from the oscillation / modulation unit 12 as an infrared ray under the control of the CPU 16.

The power supply unit 14 supplies power to each unit of the remote controller 1 using the battery 14a as a power source.
The remaining battery level detection unit 15 detects the remaining battery level in the power supply unit 14. Specifically, the battery remaining amount detection unit 15 is configured by, for example, a voltage detection circuit, detects the voltage value of the battery 14 a output from the power supply unit 14, and outputs it to the CPU 16. Then, the CPU 16 calculates the battery voltage decrease amount based on the battery voltage value, and estimates the remaining battery level based on the calculated battery voltage decrease amount.

  The CPU 16 executes various programs stored in the ROM 17 in accordance with input signals input from the respective units of the remote controller 1 and outputs output signals based on the execution programs to the respective units, whereby the overall operation of the remote controller 1 is performed. Oversee and control.

  The ROM 17 is, for example, a non-volatile semiconductor memory, and stores various control programs executed by the CPU 16 and data related to processing of each control program. Specifically, the ROM 17 stores control programs such as a detection program 17a, a transmission program 17b, and an invalid program 17c.

The detection program 17a is a program for causing the CPU 16 to realize a function of detecting the remaining battery level, for example.
Specifically, the CPU 16 determines the battery voltage value output from the power supply unit 14 by the battery remaining amount detection unit 15 at a predetermined timing (for example, when a key operation is performed in the key operation unit 11). Let it be detected. Then, the amount of decrease in battery voltage is calculated based on the detected battery voltage value, and the remaining battery level is detected.
The CPU 16 functions as a detection unit by executing the detection program 17a.

The transmission program 17b is, for example, a predetermined category among the categories in which the remaining battery level detected by the execution of the detection program 17a is divided into a plurality of categories by a preset threshold value in a plurality of stages. Is a program for realizing a function of adding a predetermined code to a remote control signal corresponding to a key operation and transmitting the code to the television receiver 2.
Specifically, for example, the CPU 16 has a threshold value of two stages, and the battery remaining amount detected by the execution of the detection program 17a is higher than the first threshold value (first division), and the first Is divided into three stages, that is, the threshold value of the second threshold value (second division) and the second threshold value (third division). That is, when the remaining battery level is detected by executing the detection program 17a, the CPU 16 determines whether the detected remaining battery level is equal to or less than the first threshold value. When the remaining battery level is equal to or lower than the first threshold value, it is further determined whether the detected remaining battery level is equal to or lower than the second threshold value.
Further, the CPU 16 indicates that the remaining battery level is low when the detected remaining battery level falls within a second category that is equal to or lower than the first threshold value and above the second threshold value. The remaining amount code is added to the remote control signal generated based on the key operation and transmitted by the infrared LED 13. In addition, when the detected remaining battery level falls under the third category in which the detected remaining battery level is equal to or lower than the second threshold value, the CPU 16 uses a second remaining level code indicating that the remaining battery level is low as a key operation. It is added to the remote control signal generated based on it and transmitted by the infrared LED 13.
The CPU 16 functions as a transmission unit by executing the transmission program 17b.

FIG. 3A is an example of a data structure of a remote control signal generated based on a key operation in the key operation unit 11 when the remaining battery level corresponds to the first category. FIG. 3B shows an example of the data structure of a remote control signal generated based on a key operation in the key operation unit 11 when the remaining battery level corresponds to the second category, and FIG. These are examples of the data structure of a remote control signal that is generated based on a key operation in the key operation unit 11 when the remaining battery level corresponds to the third category.
As shown in FIGS. 3A to 3C, each remote control signal includes, for example, a reader code for informing the receiving side that the remote control signal is transmitted, and a custom code for identifying the manufacturer / device. And a data code indicating the control content, a trailer indicating the end of transmission of the remote control signal, and the like. Further, as shown in FIG. 3B, a first remaining amount code indicating that the remaining battery level is low is added to the remote control signal generated when the remaining battery level falls within the second category. Yes. Further, as shown in FIG. 3C, a second remaining amount code indicating that the remaining amount of battery is small is added to the remote control signal generated when the remaining amount of battery corresponds to the third category. Has been.

The invalidation program 17c, for example, realizes a function of invalidating the operation of a specific key in the key operation unit 11 when the remaining battery level detected by executing the detection program 17a is equal to or less than a predetermined threshold value. It is a program to make it.
Specifically, when the remaining battery level is detected by executing the detection program 17a, the CPU 16 determines whether the detected remaining battery level is equal to or less than a predetermined threshold value. When the remaining battery level is equal to or less than a predetermined threshold value, the operation of a specific key among the keys provided in the key operation unit 11 is invalidated. The specific key is, for example, a key other than the minimum keys (for example, the power key 11a, the volume key 11b, and the channel key 11c) necessary for viewing a television broadcast program, and specifically, a channel up / down key. 11d, voice mode switching key 11e, confirmation key 11f, clear key 11g, menu key 11h, and the like. That is, even if these specific keys are pressed, a remote control signal is not generated. Further, when the remaining battery level is not equal to or less than the predetermined threshold value, the CPU 16 validates the operation of all keys provided in the key operation unit 11 and generates and transmits a remote control signal.
Here, the predetermined threshold value in the invalid program 17c is set to the same value as the second threshold value in the transmission program 17b. That is, the remote control signal to which the second remaining amount code is added is generated only when a key other than the specific key (for example, the power key 11a, the volume key 11b, and the channel key 11c) is operated. 2 will be transmitted.
The CPU 16 functions as invalid means by executing the invalid program 17c.

(Configuration of television receiver)
The television receiver 2 includes, for example, a remote control signal receiving unit 21 (reception unit) that receives a remote control signal transmitted from the remote controller 1, an antenna 22 that receives a television broadcast signal, and a predetermined input from the antenna 22. A tuner 23 that selects an audio / video signal having a frequency; a demodulator 24 that demodulates the video signal selected by the tuner 23; a decoder unit 25 that decodes the video signal demodulated by the demodulator 24; And a signal processing unit 26 that performs predetermined video processing on the audio signal, and a video based on the video signal input from the signal processing unit 26, and an audio based on the audio signal input from the signal processing unit 26 An output unit 27 for outputting, a light emitting unit 28 as a notification unit, a control unit 29 for controlling the entire television receiver 2, and the like. Configured, each section is connected by a bus 30.

The remote control signal receiving unit 21 includes, for example, a SUBCPU 21a, a photodiode 21b, an amplification unit 21c, a demodulation unit 21d, a decoder 21e, and the like. When the remote control signal transmitted from the remote control 1 is received by the photodiode 21b. Under the control of the SUBCPU 21a, the amplification unit 21c performs amplification at a predetermined amplification factor. Further, the amplified remote control signal is demodulated in the demodulator 21d, subjected to processing such as waveform shaping and error correction by the decoder 21e, and output to the controller 29.
The amplifying unit 21c includes, for example, an amplifying circuit for amplifying a remote control signal received by the photodiode 21b, and the resistance value of the feedback resistor of the amplifying circuit is changed based on the control from the control unit 29. The amplification factor of the remote control signal becomes variable.

The antenna 22 is, for example, arranged outdoors in a predetermined direction, and receives an audio / video signal that is a radio frequency (RF) television broadcast signal transmitted from a television broadcast station (not shown).
The tuner 23 includes, for example, a high-frequency amplifier circuit and a frequency conversion circuit including a local oscillation circuit and a mixing circuit, which are not shown in the figure. The tuner 23 receives a television broadcast signal input from the antenna 22 or the like. Amplifying in the high frequency amplifier circuit, mixing in the mixing circuit with the local oscillation signal output from the local oscillation circuit, and further, depending on the control signal from the control unit 29 for selecting a specific frequency, a specific frequency band The intermediate frequency signal (IF signal) is received, predetermined processing is performed on the intermediate frequency signal, and the result is output to the demodulator 24.
For example, the demodulation unit 24 performs processing such as OFDM (Orthogonal Frequency Division Multiplexing) demodulation and error correction on the intermediate frequency signal output from the tuner 23 in accordance with the control signal from the control unit 29. The transport stream (TS) is generated and output to the decoder unit 25.
For example, the decoder unit 25 converts the transport stream input from the demodulating unit 24 into a video stream, an audio stream, and PSI / SI (Program Specific Information / PSI / SI) under the MPEG decoder (Moving Picture Experts Group 2) standard in a TS decoder (not shown). In addition, the video stream is output to a video decoder (not shown), the audio stream is output to an audio decoder (not shown), and data included in the PSI / SI is supplied to the control unit 29. The video decoder decodes the video stream input from the TS decoder, performs inverse DCT conversion, motion compensation control, and the like, generates video data, and outputs the video data to the signal processing unit 26. The audio decoder also decodes the audio stream input from the TS decoder, generates audio data, and outputs the audio data to the signal processing unit 26.

  The output unit 27 includes, for example, a display such as an LCD (Liquid Crystal Display) and a PDP (Plasma Display Panel) (not shown), displays an image based on the video signal input from the signal processing unit 26, and a speaker (not shown). And outputting sound based on the sound signal input from the signal processing unit 26.

The light emitting unit 28 includes, for example, a plurality of LEDs (Light Emitting Diodes) that emit light in different colors, and emits light in a predetermined color according to a control signal output from the CPU 291 based on a remote control signal from the remote controller 1. To do.
Specifically, the light emitting unit 28 includes a blue LED, a yellow LED, and a red LED (not shown), and a remote control signal to which neither the first remaining amount code nor the second remaining amount code is added from the remote controller 1. When transmitted, the blue LED emits blue light based on a control signal output from the CPU 291 to notify the user that the remaining battery level is sufficient. The light emitting unit 28 emits yellow light by the yellow LED based on the control signal output from the CPU 291 when a remote control signal to which the first remaining amount code is added is transmitted from the remote control 1. The user is notified that the remaining battery level of the remote controller 1 is low. Further, the light emitting unit 28 emits red light from the red LED based on the control signal output from the CPU 291 when a remote control signal to which the second remaining amount code is added is transmitted from the remote control 1. The user is notified that the remaining battery level of the remote controller 1 is small.
In addition to notifying the battery remaining amount, the light emitting unit 28 also plays a role of allowing the user to recognize that a remote control signal has been received by emitting light with any of the lights.

  The control unit 29 includes a CPU 291, a RAM (Random Access Memory) 292, a ROM 293, and the like.

  The CPU 291 executes various programs stored in the ROM 293 in accordance with input signals input from the respective units of the television receiver 2 via the bus 30, and is based on the execution of various programs in the respective units via the bus 30. By outputting the control signal, the overall operation of the television receiver 2 is comprehensively controlled.

  The RAM 292 is, for example, a volatile semiconductor memory, and temporarily stores processing results generated when various programs are executed by the CPU 291 and input data, and functions as a work area of the CPU 291.

The ROM 293 is, for example, a non-volatile semiconductor memory, and stores various control programs executed by the CPU 291 and data related to processing of each control program.
Specifically, the ROM 293 stores control programs such as a reception program 293a and a notification program 293b.

The reception program 293a is a program for causing the CPU 291 to realize a function of receiving a remote control signal transmitted from the remote controller 1, for example.
Specifically, the CPU 291 receives a remote control signal, which is an infrared signal transmitted from the infrared LED 13 of the remote controller 1, by the photodiode 21 b of the remote control signal receiver 21.
The CPU 291 constitutes a receiving unit together with the remote control signal receiving unit 21 by executing the receiving program 293a.

For example, the notification program 293b causes the CPU 291 to change the emission color in the light emitting unit 28 that emits light of a plurality of colors according to a predetermined code added to the remote control signal received by the execution of the reception program 293a. It is a program for realizing a function of performing predetermined notification.
Specifically, the CPU 291 does not add any remaining amount code of the first remaining amount code or the second remaining amount code to the remote control signal received by the remote control signal receiving unit 21 by the execution of the reception program 293a. In this case, a control signal for instructing to emit blue light is output to the light emitting unit 28 to cause the blue LED to emit light and notify the user that the remaining battery level is sufficient. In addition, when the first remaining amount code is added to the remote control signal received by the remote control signal receiving unit 21, the CPU 291 outputs a control signal instructing to emit yellow light to the light emitting unit 28. Then, the yellow LED is emitted to notify the user that the remaining battery level is low. Further, when the second remaining amount code is added to the remote control signal received by the remote control signal receiving unit 21, the CPU 291 outputs a control signal for emitting red light to the light emitting unit 28. The red LED is emitted to notify the user that the remaining battery level is low.
The CPU 291 configures a notification unit together with the light emitting unit 28 by executing the notification program 293b.

  In addition, when the first remaining amount code or the second remaining amount code is added to the remote control signal received by the remote control signal receiving unit 21 by the execution of the reception program 293a, the CPU 291 causes the amplification unit 21c to An instruction signal for changing the amplification factor of the remote control signal is output to increase the amplification factor of the remote control signal in the amplification unit 21c. The CPU 291 functions as an amplification factor changing unit by changing the amplification factor of the remote control signal in the amplification unit 21c.

Next, the battery remaining amount notification process by the CPU 291 will be described with reference to the flowchart of FIG.
This process is performed when the CPU of the remote controller 1 executes the detection program 17a, the transmission program 17b, and the invalidation program 17c, and the CPU 291 of the television receiver 2 executes the reception program 293a and the notification program 293b.

The CPU 16 of the remote controller 1 monitors the presence or absence of a key operation in the key operation unit 11 and determines whether or not a key operation has been performed in the key operation unit 11 in step S1. If the CPU 16 determines in step S1 that a key operation has been performed (step S1; Yes), then in step S2, the battery remaining amount detection unit 15 detects the battery voltage value output from the power supply unit 14 and detects it. The remaining battery level is detected from the amount of decrease in battery voltage. In step S3, the CPU 16 determines whether or not the detected remaining battery level is equal to or less than a first threshold value. When the CPU 16 determines in step S3 that the remaining battery level is higher than the first threshold value, the CPU 16 generates a remote control signal to which neither the first remaining code nor the second remaining code is added. Then, it is transmitted to the television receiver 2 by the infrared LED 13 (step S4), and this process is terminated.
On the other hand, when CPU 16 determines in step S3 that the detected remaining battery level is equal to or less than the first threshold value (step S3; Yes), in subsequent step S5, the remaining battery level is equal to or less than the second threshold value. It is determined whether or not. When the CPU 16 determines in step S5 that the remaining battery level is higher than the second threshold value (step S5; No), the CPU 16 generates a remote control signal to which the first remaining amount code is added, and generates the generated remote control signal. Is transmitted to the television receiver 2 by the infrared LED 13 (step S6), and this process is terminated.
On the other hand, when CPU 16 determines in step S5 that the remaining battery level is equal to or lower than the second threshold (step S5; Yes), in step S7, whether or not the key operated in step S1 is a specific key. Determine whether. If the CPU 16 determines in step S7 that the operated key is not a specific key (step S7; No), the CPU 16 generates a remote control signal with the second remaining amount code added thereto, and the generated remote control signal is transmitted by the infrared LED 13. Then, it is transmitted to the television receiver 2 (step S8), and this process is terminated. On the other hand, if the CPU 16 determines in step S7 that the operated key is a specific key (step S7; Yes), the key operation is invalidated (step S9), and the process is terminated.

When the CPU 291 of the television receiver 2 receives the remote control signal transmitted from the remote control 1 by the remote control signal receiving unit 21 in step S10, whether or not the first remaining amount code is added to the remote control signal in step S11. Determine whether. When CPU 291 determines in step S11 that the first remaining amount code is not added to the remote control signal (step S11; No), in step S12, whether the second remaining amount code is added to the remote control signal. Judge whether or not. When determining that the second remaining amount code is not added to the remote control signal in step S12 (step S12; No), the CPU 291 causes the blue LED of the light emitting unit 28 to emit light and executes processing corresponding to the remote control signal. (Step S13), this process is terminated.
On the other hand, when the CPU 291 determines in step S11 that the first remaining amount code is added to the remote control signal (step S11; Yes), the yellow LED of the light emitting unit 28 is caused to emit light and the process corresponding to the remote control signal is performed. Is executed (step S14), and this process is terminated.
If the CPU 291 determines that the second remaining amount code is added to the remote control signal in step S12 (step S12; Yes), the CPU 291 causes the red LED of the light emitting unit 28 to emit light and processes corresponding to the remote control signal. Is executed (step S15), and this process is terminated.

According to the remote control system S in the present embodiment described above, in the remote controller 1, the remaining battery level is detected by the execution of the detection program 17a by the CPU 16, and is detected by the execution of the detection program 17a by the execution of the transmission program 17b. When the remaining battery level is a predetermined segment among a plurality of segments divided by a preset threshold value of a plurality of levels, a predetermined code is used as a remote control signal corresponding to a key operation. It is added and transmitted to the television receiver 2. Then, in the television receiver 2, the remote control signal transmitted from the remote controller 1 is received by the execution of the reception program 293 a by the CPU 291, and the predetermined code added to the received remote control signal by the execution of the notification program 293 b Accordingly, predetermined notification is performed by changing the emission color in the light emitting unit 28 that emits light of a plurality of colors. Therefore, the remote control system S that can notify the user of the remaining battery level of the remote control 1 reliably and accurately without being affected by the position of the remote control 1 or the reflection of the remote control signal is provided at low cost. be able to.
In the remote controller 1, when the remaining battery level detected by the execution of the detection program 17 a is less than or equal to a predetermined threshold due to the execution of the invalid program 17 c by the CPU 16, the operation of the specific key in the key operation unit 11 is performed. Since it is invalidated, it is possible to suppress wasteful power consumption by invalidating key operations other than the minimum necessary keys when the remaining battery level is low.
Furthermore, in the television receiver 2, the amplification factor of the remote control signal in the amplifying unit 21c is changed according to a predetermined code added to the remote control signal received by the execution of the reception program 293a, so that the remaining battery level is low. Even if the number is small, the remote control based on the remote control signal is more reliably performed.

The present invention is not limited to the above embodiment, and various improvements and design changes may be made without departing from the spirit of the present invention.
For example, the notification by the notification program 293b is not limited to the change of the light emission color in the light emitting unit 28, and may be performed by changing the blinking speed or the blinking speed in the light emitting unit 28, for example. Alternatively, notification may be performed by display display or voice announcement.

It is a block diagram which illustrates the principal part structure of the remote control system in this embodiment, a remote controller, and a television receiver. It is a figure which illustrates the top view of the remote controller in this embodiment. FIG. 3 is a diagram illustrating a data structure of a remote control signal transmitted by execution of a transmission program, and FIG. 3A is a data structure of a remote control signal transmitted when the remaining battery level corresponds to the first category, FIG. (B) is a data structure of a remote control signal transmitted when the remaining battery level corresponds to the second category, and FIG. 3 (c) is a remote control signal transmitted when the remaining battery level falls within the third category. This is the data structure. It is a flowchart which shows the battery residual amount alerting | reporting process by CPU.

Explanation of symbols

S Remote control system 1 Remote controller 2 Television receiver (electronic equipment)
11 Key operation unit 16 CPU (detection means, transmission means, invalidation means)
17a Detection program (detection means)
17b Transmission program (transmission means)
17c Invalid program (invalid means)
21 Remote control signal receiver (receiving means)
21c Amplifying unit 28 Light emitting unit (notification means)
291 CPU (receiving means, notifying means, gain changing means)
293a Receiving program (receiving means)
293b Notification program (notification means)

Claims (5)

In a remote control system that remotely controls electronic devices using a remote controller,
The remote controller is
Detection means for detecting the remaining battery capacity;
When the remaining battery level detected by the detection means falls within a predetermined category among the categories divided into a plurality of categories according to preset threshold values, a predetermined code is assigned as a key. Transmitting means for transmitting to the electronic device in addition to a remote control signal corresponding to the operation;
Invalidity means for invalidating operation of a specific key in the key operation section when the remaining battery level detected by the detection means is equal to or less than a predetermined threshold;
With
The electronic device is
Receiving means for receiving a remote control signal transmitted from the remote controller by the transmitting means;
Notification means for performing predetermined notification by changing light emission colors in a light emitting unit that emits light of a plurality of colors according to the predetermined code added to the remote control signal received by the reception means;
An amplifier for amplifying the remote control signal received by the receiving means;
Amplification factor changing means for changing the amplification factor of the remote control signal in the amplification unit according to the predetermined code added to the remote control signal received by the receiving unit;
A remote control system comprising: In a remote control system that remotely controls electronic devices using a remote controller,
The remote controller is
Detection means for detecting the remaining battery capacity;
A transmission means for adding a predetermined code to a remote control signal corresponding to a key operation and transmitting it to the electronic device when the remaining battery level detected by the detection means is less than or equal to a preset threshold value;
With
The electronic device is
Receiving means for receiving a remote control signal transmitted from the remote controller by the transmitting means;
Notification means for performing predetermined notification according to the predetermined code added to the remote control signal received by the reception means;
A remote control system comprising: The remote controller is
The remote according to claim 2, further comprising invalid means for invalidating operation of a specific key in the key operation unit when the remaining battery level detected by the detection means is equal to or less than a predetermined threshold value. Control system. The electronic device is
An amplifier for amplifying the remote control signal received by the receiving means;
4. An amplification factor changing means for changing an amplification factor of the remote control signal in the amplifying unit according to the predetermined code added to the remote control signal received by the receiving means. The remote control system described in. The notification means includes
It has a light emitting part that emits light of multiple colors,
5. The predetermined notification is performed by changing a light emission color in the light emitting unit according to the predetermined code added to the remote control signal received by the receiving means. The remote control system according to claim 1.

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