JP3529652B2 - Remote control device, receiving device, and television receiver - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote control device having a remote control function, and more particularly to a remote control device suitable for reducing power consumption in a standby state.

[0002]

2. Description of the Related Art Conventionally, remote control devices have been used in various electric devices such as television receivers and video tape recorders. The remote control device is usually composed of a remote control transmitter called a remote control transmitter and a remote control receiver called a remote control receiver that receives a remote control signal sent from this remote control transmitter. . The remote control receiver is built in an electric device such as a television receiver.

Normally, when the power is off, the remote control transmitter is operated by operating the remote control transmitter while power is not being supplied from the power supply circuit to various circuits such as the signal processing circuit, the signal switching circuit, and the deflection circuit. Power is supplied to various circuits including a signal processing circuit, a signal switching circuit, a deflection circuit, etc., and the power is turned on.

Here, even in the power-off state, a remote control light receiving section for receiving and demodulating a remote control signal sent from a remote control transmitter, a decoding section for demodulating the demodulated remote control signal into a remote control code, and a decoded remote control code. The control unit that controls the power on by
Since power is supplied from the remote control standby power supply, power consumption occurs even in a standby state of a television receiver or the like. The decoding unit and the control unit are generally built in the microcomputer.

Therefore, as a method for reducing the power consumption in the standby state, for example, "Nikkei Electronics, 1998-4-20 (no. 714), 1988,"
pp. As described in No. 50, it is known to reduce the power consumption during standby by lowering the drive voltage of the relay switch.

[0006]

However, according to the conventional method of lowering the drive voltage of the relay switch, even if the power is off, the microcomputer having a built-in decoding unit and control unit waits for reception of the remote control signal. Since it is energized, there is still a problem that the power consumption is still large in the power-off state and the standby state for receiving the remote control signal (hereinafter, referred to as “standby state”).

An object of the present invention is to provide a remote control device, a receiving device, a transmitting device, and a television receiver that reduce power consumption in the standby state.

[0008]

(1) In order to achieve the above object, the present invention provides a remote control comprising a receiving device and a transmitting device for transmitting a remote control signal for remotely controlling the receiving device. In the device, the transmitting device is the receiving device.
When switching the communication device from the power-off state to the power-on state,
A predetermined pulse signal and a predetermined time from the predetermined pulse signal
To turn on the receiving device after a certain period
A power-on signal is transmitted as the remote control signal, and the receiving device receives the remote control signal transmitted from the transmitting device, and a predetermined unit based on the remote control signal received by the receiving unit. a performs the process, through
First mode of normal operation and first mode of normal operation
Power consumption is lower than the above, and the above receiving device is in standby mode
A first controller having a second mode in which, the receiving
Detection unit that detects the presence or absence of a remote control signal received by the unit
And the detection result of the detection unit and the operation of the first control unit
The first control unit based on the state.
Or a second control unit that is set to one of the second modes , wherein the second control unit is configured such that the receiving device is powered on.
In the off state, the detection unit outputs the predetermined pulse signal.
When detected, the first control unit is set to the second mode.
From the first mode to the first mode.
The control unit processes the power-on signal after the lapse of the predetermined time.
I tried to make sense . With this configuration, the first
Since the power supply of the control unit is controlled by the second control unit, it is possible to reduce the power consumption in the standby state where the power is off.

(2) In the above (1), preferably,
The first control unit is configured such that the detection unit receives the predetermined pulse signal.
Signal is detected until the above power-on signal is detected
In addition, the preparation for operation is completed.

(3) Further , in order to achieve the above object,
The present invention is directed to a receiving device and remote control of the receiving device.
Remote control consisting of a transmitter for transmitting a remote control signal for
In the operating device, the transmitting device powers the receiving device.
When switching from the off state to the power on state, a predetermined pulse
Signal, and turn on the receiving device.
The power-on signal for
The receiving device is the remote control device transmitted from the transmitting device.
The receiving unit that receives the created signal and the receiving unit that receives this
Performing predetermined processing based on the remote control signal,
The first mode of normal operation and the first mode of normal operation
Power consumption is lower than that of the
A first control unit having a second mode for setting a state,
Detection unit that detects the presence or absence of a remote control signal received by the reception unit
And the detection result of the detection unit and the operation of the first control unit
The first control unit based on the state.
Alternatively, a second control unit that is in one of the second modes
And the second control unit is configured such that the receiving device is powered on.
In the off state, the detection unit outputs the predetermined pulse signal.
When detected, the first control unit is set to the second mode.
From the first mode to the first mode.
The control unit prepares to operate in the first mode,
After that, the power-on signal is processed . With this configuration, the first control unit controls the second control unit.
The power supply is controlled by the unit
The power consumption in the state can be reduced.

(4) In order to achieve the above object, the present invention provides a receiver and a remote controller for remotely controlling the receiver.
Remote control device including a remote control signal transmission device
In the above, the transmitting device turns off the receiving device.
When the power is turned on from the
The power-on signal for turning on is the above remote control signal.
Repeatedly transmitted as, and the receiving device is the transmitting device
A receiver for receiving the remote control signal transmitted from
Based on the remote control signal received by this receiver,
First mode for performing normal operation
And less power consumption than the first mode of the normal operation,
And a second mode in which the receiving device is in a standby state.
The first control unit and the remote control signal received by the receiving unit.
Detection unit that detects the presence or absence of a signal and the detection result of the above detection unit.
And the first controller based on the operating state of the first controller.
Set the controller to the first mode or the second mode.
A second control unit for shifting the position, and the second control unit.
Is the detection unit when the receiving device is in a power-off state.
Is the first of the power-on signals transmitted repeatedly.
When a power-on signal is detected, the first control unit above
Control to change from the second mode to the first mode
Then, the first control unit processes the second power-on signal.
It is obtained by way. With this configuration, the first
The control unit is controlled in mode by the second control unit.
Therefore, it is possible to reduce the power consumption in the standby state of power off.
Will be things.

(5) In the above item (4), preferably,
The first control unit is configured such that the detection unit receives the predetermined pulse signal.
Signal is detected until the above power-on signal is detected
In addition, the preparation for operation is completed.

(6) In any of the above (1) to (5)
And preferably, the second mode is the first control.
In this mode, power is not supplied to the control section .

(7) In order to achieve the above object, the present invention provides a receiving device for receiving a remote control signal transmitted from a transmitting device, the receiving section receiving the remote control signal transmitted from the transmitting device. If, even performs a predetermined process based on the remote control signal received by the receiving unit
The first mode of normal operation and the first mode of normal operation
It consumes less power than the mode and waits for the above receiving device.
A first control unit having a second mode for setting the machine state ;
The detection unit that detects the presence or absence of a remote control signal received by the receiver.
Of the output part, the detection result of the detection part, and the first control part .
Based on the operating state, the first control unit is set to the first mode.
Mode or a second control section that sets the second mode.
When the power is off, the detector detects the specified pulse signal.
Signal is detected, the first control unit is operated by the second monitor.
Control to change to the first mode from the
The control unit of No. 1 controls the power-on signal after the lapse of the predetermined time.
Is to be processed . With this configuration,
Since the mode of the first control unit is controlled by the second control unit, it is possible to reduce the power consumption in the power-off standby state.

(8) In order to achieve the above-mentioned object, the present invention is a receiving device for receiving a remote control signal transmitted from a transmitting device, and a receiving section for receiving the remote control signal transmitted from the transmitting device. If, even performs a predetermined process based on the remote control signal received by the receiving unit
The first mode of normal operation and the first mode of normal operation
It consumes less power than the mode and waits for the above receiving device.
A first control unit having a second mode for setting the machine state ;
The detection unit that detects the presence or absence of a remote control signal received by the receiver.
A detection section, the detection section detection result and the first control unit
Based on the operating state , the first control unit is set to the first mode.
Mode or a second control section that sets the second mode.
In the power-off state, the detection unit repeatedly transmits the
Detected the first power-on signal of the
The first control unit is moved up from the second mode.
The first control unit is controlled so as to be in the first mode.
Is for processing the second power-on signal . With this configuration, the first control unit controls the power supply by the second control unit, so that it is possible to reduce the power consumption in the power-off standby state.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The configuration of a remote control device according to an embodiment of the present invention will be described below with reference to FIGS. The remote control device according to the present embodiment is applied to a television receiver. First, the system configuration of a television receiver having a remote control function to which the remote control device according to the present embodiment is applied will be described with reference to FIG.

The television receiver 100 comprises a remote control receiver 110, a power supply circuit 120, and various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit and the like. The remote control receiver 110 includes a remote control light receiving section 112, a remote control signal detecting section 114, a control signal creating section 116, and a microcomputer 118. The microcomputer 118 includes a decoding unit 118D and a control unit 118C.

Here, the microcomputer 118 is a microcomputer having a low power mode and a normal mode. Microcomputer 118
The power is always supplied from the power supply, but in the low power consumption mode, the power consumption is reduced, and when the mode is changed from the low power consumption mode to the normal mode, the power consumption is reduced. Power increases. Normally, when the television receiver 100 is in the standby state with the power off, the microcomputer 118 is also in the low power mode. Further, the remote control light receiving unit 112 and the remote control signal detecting unit 114 are constantly supplied with power from the standby power supply. The standby power supply is a power supply capable of supplying power even when the television receiver 100 is in a power-off state, and mainly supplies power to the remote control light receiving section 112 and the remote control signal detecting section 114. That is, when the television receiver 100 is in the standby state, the remote control light receiving section 112 and the remote control signal detecting section 114 only consume power from the standby power source, and the microcomputer 11
Since 8 operates in the low power mode, it is possible to reduce the power consumption of the entire television receiver 100 in the standby state.

Further, the remote control transmitter 200 includes an on / off operation button 210, a microcomputer 220, and a light emitting section 23.
It has 0 and. The on / off operation button 210 is a button operated when the power of the television receiver 100 is turned on / off. The remote control transmitter 200 includes various operation buttons such as channel switching and volume adjustment in addition to the on / off operation button 210. When the on / off operation button 210 is operated, the microcomputer 220 outputs a control code for turning on or off the power of the television receiver 100 to the light emitting section 230. The light emitting unit 230 blinks according to the input control code and outputs a remote control signal of an optical pulse. The control code for turning on the power of the television receiver 100 and the control code for turning off the power are the same, and the remote control receiver 110 that receives the pulse signal according to this control code is the television receiver. If 100 is in the off state, the power is turned on, and if the television receiver 100 is in the on state, the power is turned off.

When a remote control signal for remotely controlling the television receiver 100 is transmitted from the remote control transmitter 200, the remote control light receiving section 112 receives and demodulates the remote control signal and outputs it as a pulse signal.

When the pulse signal output from the remote control light receiving unit 112 is input, the remote control signal detecting unit 114 outputs an ON signal for mode switching. Remote control signal detector 11
Reference numeral 4 denotes, for example, a one-shot multivibrator, which outputs an ON signal that is at a high level at the rising edge of a pulse signal input from the remote control light receiving unit 112, outputs a high level signal for a certain period, and then outputs a low level signal. Outputs a level off signal.

The control signal generator 116 controls the on / off signal output from the remote controller signal detector 114 and the microcomputer 11
The ON / OFF signal for mode switching is output to the decoding unit 118D and the control unit 118C of the microcomputer 118 in accordance with the input state of the ON / OFF signal output from the control unit 118C of No. 8. For example, when two input signals are both ON signals, or when one is an ON signal, an ON signal is output, and when two input signals are both OFF signals, an OFF signal is output. Output. Control signal generator 11
6 is constituted by, for example, a logical sum (OR) circuit. Upon receiving the ON signal, the decoding unit 118D and the control unit 118C switch from the low power mode until then to the normal mode.

The decoding unit 118D includes a remote control light receiving unit 1
The pulse signal output from 12 is decoded and the remote control code is output to the control unit 118C. Microcomputer 118
Since the power is supplied from the power source even when the television receiver 100 is in the standby state,
When the pulse signal is input from 2, the decoding can be started.

The control unit 118C outputs various control signals according to the remote control code input from the decoding unit 118D, and controls various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit and the like. In addition, the control unit 118C
The control signal is output to the control signal creation unit 116 according to the power state of the television receiver 100 and the remote control code input from the decoding unit 118D. For example, when the television receiver 100 is in the power-on state, it outputs an on signal, and when it is in the power-off state, it outputs an off signal. Further, when the television receiver 100 is in the power-off state, the remote control code for turning on the power is the control unit 11.
When input to 8C, the ON signal is output, and when a remote control code for turning off the power when the television receiver 100 is in the ON state is input to the control unit 118C, the OFF signal is output. Further, when power is not supplied to the control unit 118C, an off signal is output.

The power supply circuit 120 operates to switch the power supply to various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit, etc. according to the state of the control signal output from the control section 118C. . Control unit 1
When the control signal output from 18C is an ON signal, power is supplied to various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit, etc., and the television receiver 10
0 is in the power-on state. When the control signal output from the control unit 118C is an off signal, power supply to various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit, etc. is stopped. As a result, the television receiver 100 is turned off.

Next, the operation of the remote control receiver 110 when the remote control transmitter 200 is operated in the remote control device according to the present embodiment will be described with reference to FIGS. 2 and 3. FIG. 2 illustrates the operation when the power is turned off and the power is turned on, and FIG. 3 illustrates the operation when the power is turned on. FIG. 2 is an operation waveform diagram for explaining the operation of the remote control receiver when the power is turned on in the remote operation device according to the embodiment of the present invention, and FIG. 3 is the power off in the remote operation device according to the embodiment of the present invention. FIG. 7 is an operation waveform diagram illustrating an operation of the remote control receiver at the time.

First, with reference to FIG. 2, the operation when the remote control transmitter 200 is operated from the power-off state to be in the power-on state will be described. When a remote control signal for turning on the power of the television receiver 100 is transmitted from the remote control transmitter 200, the remote control light receiving unit 112.
Receives the remote control signal, demodulates it, and outputs a pulse signal as shown in FIG. The pulse signal is composed of a reader code indicating the start of the remote control signal, a data code indicating the control function, and the like.

When the pulse signal output from the remote control light receiving unit 112 is input, the remote control signal detecting unit 114 receives the pulse signal shown in FIG.
As shown in (B), an ON signal is output at time t1. Further, when the ON signal output from the remote control signal detection unit 114 is input, the control signal creation unit 116 receives the ON signal shown in FIG.
As shown in (D), the ON signal is output to the decoding unit 118D and the control unit 118C. This causes the decoding unit 118D and the control unit 118C to switch from the low power mode to the normal mode.

The decoding unit 118D is the remote control light receiving unit 1
The pulse signal output from 12 is decoded and a remote control code for turning on the power is output. As a result, the control unit 118C outputs an ON signal as a control signal, as shown in FIG. As a result, the power supply circuit 120 supplies power to various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit, etc., and the television receiver 100 is turned on.

The ON signal output by the control unit 118C is also input to the control signal creating unit 116. As a result, in the period from time t2 to time t3 in FIG. 2, the control signal creation unit 116 continuously outputs the ON signal because both of the two input control signals are ON signals.
As a result, the decoding unit 118D and the control unit 118C
Continues to operate in the normal mode, the control unit 118C continues to output an ON signal, and the power supply circuit 120 includes various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit, and the like.
Continuously supplies power to the television receiver 1
00 holds the power-on state.

Next, as shown in FIG. 2A, when there is no pulse signal input to the remote control signal detection unit 114, as shown in FIG. 2B, at time t3, the remote control signal detection unit 114. Although the off signal is output from the television receiver 100, the control signal output from the control unit 118C remains the on signal, and thus the television receiver 100 maintains the power on state.

In the above description, the output period (time t1 to t2) of the remote control code shown in FIG. 2A is, for example, about 100 ms, and the period during which the remote control signal detection unit 114 outputs the ON signal ( Times t1 to t3) are, for example, 1 s to 2 s.

Next, with reference to FIG. 3, the operation when the remote control transmitter 200 is operated from the power-on state to be in the power-off state will be described. When a remote control signal for turning off the power of the television receiver 100 is transmitted from the remote control transmitter 200, the remote control light receiving unit 112.
Receives the remote control signal, demodulates it, and outputs the pulse signal shown in FIG. The pulse signal is composed of a reader code indicating the start of the remote control signal, a data code indicating the control function, and the like. In the present embodiment, the data code for turning on the power supply shown in FIG. 2A and the data code for turning off the power shown in FIG. 3A are the same.

When the pulse signal output from the remote control light receiving unit 112 is input, the remote control signal detecting unit 114 receives the pulse signal shown in FIG.
At time t1 in (B), an ON signal is output. Further, in the control signal generation unit 116, since the control signal input from the remote control signal detection unit 114 is an ON signal,
As shown in FIG. 3D, the ON signal is continuously output as the control signal. As a result, the decoding unit 118D and the control unit 118C continue to operate in the normal mode.

On the other hand, the decoding unit 118D is shown in FIG.
The pulse signal output from the remote control light receiving unit 112 shown in is decoded and a remote control code for turning off is output. As a result, the control unit 118C is controlled by
As shown at time t2 in (C), an off signal is output as a control signal. As a result, the power supply circuit 120 includes various circuits 13 including a signal processing circuit, a signal switching circuit, a deflection circuit, and the like.
0 to stop the power supply to the television receiver 1
00 is in a power-off state.

Further, in the period from time t2 to time t3 in FIG. 3, the ON signal is continuously output as the control signal from the remote control signal detection unit 114 by the pulse signal output from the remote control light receiving unit 112. As a result, the ON signal is continuously output as the control signal from the control signal generation unit 116, and thus the decoding unit 118D and the control unit 118
C continues to operate in the normal mode, and the control unit 118C
The OFF signal is continuously output as the control signal. Therefore,
Power is not supplied from the power supply circuit 120 to the various circuits 130, and the television receiver 100 maintains the power-off state.

Next, at time t3, as shown in FIG. 3B, the remote control signal detection unit 114 outputs an off signal as a control signal. The control signal creation unit 116 outputs the OFF signal as the control signal because both of the two input control signals are OFF signals. As a result, the decoding unit 118D and the control unit 118C are switched to the low power mode. Therefore, the control signal output from the control unit 118C continues to be an off signal, power is not supplied from the power supply circuit 120 to the various circuits 130, and the television receiver 100 maintains the power off state.

As described above, according to this embodiment, when the remote control transmitter 200 is operated from the power-on state to the power-off state, the decoding unit 118D and the control unit 118C operate in the low power mode. It is possible to reduce the power consumption in the power-off state and the standby state for receiving the remote control signal.

Next, the configuration of the remote control device according to the second embodiment of the present invention will be described with reference to FIGS. First, the system configuration of a television receiver having a remote control function to which the remote control device according to the present embodiment is applied will be described with reference to FIG. The same reference numerals as those in FIG. 1 denote the same parts.

In the present embodiment, unlike the microcomputer 118 in the embodiment shown in FIG. 1, the microcomputer 11
8X does not have a low power mode, or does not use even if it has a low power mode. It operates when power is supplied and stops when power is not supplied. Is. Therefore, in the present embodiment, the power supply unit 117 that supplies power to the microcomputer 118X is provided. The power supply unit 117 is
When the control signal output from the control signal generator 116 is an ON signal, power is supplied to the microcomputer 118X,
If the control signal is an off signal, the microcomputer 118X
To stop the power supply to. The operation of the other components is the same as that shown in FIG.

Further, in this embodiment, the remote control transmitter 200X operates as follows when the remote control transmitter 200 is operated to turn on the television receiver 100.
A remote control signal for turning on the power is transmitted from remote control transmitter 200 twice in succession. Therefore, the microcomputer 220X, when the operation button 210 is operated,
It is programmed to output the remote control signal twice in succession.

The operation of the remote control receiver according to this embodiment will be described below with reference to FIG. FIG. 5 is an operation waveform diagram for explaining the operation of the remote control receiver when the power is turned on in the remote control device according to the second embodiment of the present invention.

As described above, in this embodiment,
The remote control transmitter 200X continuously transmits a remote control signal for turning on the power twice. Therefore, the remote control light receiving unit 112 receives and demodulates the remote control signal transmitted by the remote control transmitter 200X, and outputs the pulse signal shown in FIG. That is, the pulse signal output from time t1 corresponds to the first remote control signal,
The pulse signal output from time t4 corresponds to the second remote control signal.

The remote control signal detector 114 is shown in FIG.
As shown in FIG. 5, an ON signal is output as a control signal, and further, the control signal creation unit 116 outputs an ON signal as a control signal, as shown in FIG. As a result, the power supply unit 117 includes the decoding unit 118D and the control unit 1.
Power is supplied to 18C, and the decoding unit 118D and the control unit 118C start operating. Even if power is supplied to the microcomputer 118X, the decoding unit 118D
Also, the operation of the control unit 118C cannot be started immediately, and the initialization process or the like is first executed. Then, at time t4 in FIG. 5, the decoding unit 118D and the control unit 118.
It is assumed that C is ready for operation.

Then, as shown in FIG. 5, at time t4, when the remote control light receiving section 112 outputs a pulse signal corresponding to the second remote control signal, the decoding section 118D.
Outputs a remote control code for decoding the pulse signal output from the remote control light receiving unit 112 to turn on the power supply. Thereby, as shown at time t5 in FIG. 5C, the control unit 118C outputs an ON signal as a control signal. As a result, the power supply circuit 120 includes various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit, and the like.
Power is supplied to the television receiver 100 and the television receiver 100 is turned on.

The ON signal output from the control unit 118C as a control signal is input to the control signal creating unit 116. As a result, in the period from time t5 to time t6 in FIG. 5, the control signal creating unit 116 continuously outputs the ON signal as the control signal because both of the two control signals to be input are power-on signals. Therefore, power is continuously supplied from the power supply unit 117 to the decoding unit 118D and the control unit 118C, and the decoding unit 118D
And the control unit 118C continues to operate, and the control unit 118C
Since C continues to output an ON signal as a control signal, the power supply circuit 120 includes a signal processing circuit, a signal switching circuit,
The power is continuously supplied to the various circuits 130 including the deflection circuit and the television receiver 100 maintains the power-on state.

On the other hand, the pulse signal input to the remote control signal detection section 114 disappears, and as shown in FIG.
Even if the control signal output from the remote control signal detection unit 114 becomes an OFF signal, the control signal output from the control unit 118C is an ON signal, and therefore the ON signal is continuously output as the control signal. Therefore, the television receiver 100 Holds the power-on state.

In addition, from the power-on state, the remote control transmitter 2
When the power is turned off by operating 00X, the same operation as that of the above-described embodiment is performed, and the power is not supplied to the decoding unit 118D and the control unit 118C. The power consumption in the reception standby state can be reduced.

As described above, according to the present embodiment, when the television receiver is in the power-off state, the power supply to the microcomputer including the decoding section and the control section is stopped. Furthermore, power consumption in the standby state can be reduced.

Next, the configuration of the remote control device according to the third embodiment of the present invention will be described with reference to FIGS. 4 and 6. The system configuration of the television receiver having a remote control function to which the remote control device according to the present embodiment is applied is as follows.
It is similar to that shown in FIG.

Therefore, in this embodiment, the microcomputer 118X does not have a low power mode, or
Even if it has a low power mode, it is not used, and it operates when power is supplied, and stops when power is not supplied. Microcomputer 118
Power is supplied to X from the power supply unit 117. When the control signal output from the control signal creation unit 116 is an ON signal, the power supply unit 117 uses the microcomputer 118X.
When the power is supplied to the control signal and the control signal is an off signal,
The power supply to the microcomputer 118X is stopped.

Further, in the present embodiment, the remote control transmitter 200X operates as follows when the remote control transmitter 200 is operated to turn on the television receiver 100.
First, a remote control detection pulse is output, and a remote control signal for turning on the power is transmitted after a predetermined time has elapsed. Therefore, the microcomputer 220X is programmed to output a remote control detection pulse and a remote control signal when the operation button 210 is operated.

Here, the operation of the remote control receiver according to the present embodiment will be described with reference to FIG. FIG. 6 is an operation waveform diagram for explaining the operation of the remote control receiver when the power is turned on in the remote control device according to the third embodiment of the present invention.

As described above, in this embodiment,
The remote control transmitter 200X transmits a remote control signal detection pulse and a remote control signal for turning on the power supply. Therefore, the remote control light receiving unit 112 receives and demodulates the remote control signal detection pulse and the remote control signal transmitted by the remote control transmitter 200X, and outputs the pulse signal shown in FIG. That is, the pulse signal output from time t1 corresponds to the remote control signal detection pulse, and the pulse signal output from time t4 corresponds to the remote control signal.

The remote control signal detector 114 is shown in FIG.
6, an ON signal is output as a control signal at time t1, and the control signal generation unit 116 is
As shown in (D), an ON signal is output as a control signal. As a result, the power supply unit 117 causes the decoding unit 11 to
Power is supplied to the 8D and the control unit 118C, and the decoding unit 118D and the control unit 118C start operation preparation. Then, at time t4 in FIG.
18D and the control unit 118C are ready for operation.
Therefore, at time t4, when a pulse signal for turning on the power as shown in FIG. 6A is input to the decoding unit 118D, the decoding unit 118D causes the remote control light receiving unit 112 to operate.
The pulse signal output from is decoded and a remote control code for turning on the power is output. As a result, as shown at time t5 in FIG.
Since C outputs an ON signal as a control signal, the power supply circuit 120 supplies power to various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit, etc., and the television receiver 100 is powered on. It becomes a state.

The ON signal output from the control unit 118C as a control signal is input to the control signal creating unit 116. As a result, during the period from time t5 to time t6 in FIG. 6, since the two control signals to be input are both power-on signals in the control signal generator 116, the on-signal is continuously output as the control signal. Supply unit 11
Power is continuously supplied from 7 to the decoding unit 118D and the control unit 118C, and the decoding unit 118D and the control unit 118C continue to operate. As a result, the control unit 118C continues to output an ON signal as a control signal, so that the power supply circuit 120 continuously supplies power to various circuits 130 including a signal processing circuit, a signal switching circuit, a deflection circuit, and the like, and the television The John receiver 100 maintains the power-on state.

On the other hand, when the pulse signal input to the remote control signal detection unit 114 disappears and the off signal is output from the remote control signal detection unit 114 as a control signal at time t6, as shown at time t6 in FIG. 118C
Since the control signal output from is the ON signal, the power ON signal is continuously output as the control signal, so that the television receiver 100 maintains the power ON state.

Further, from the power-on state, the remote control transmitter 2
When the power is turned off by operating 00X, the same operation as that of the above-described embodiment is performed, and the power is not supplied to the decoding unit 118D and the control unit 118C. The power consumption in the reception standby state can be reduced.

As described above, according to the present embodiment, when the television receiver is in the power-off state, the power supply to the microcomputer having the decoding unit and the control unit is stopped. Furthermore, power consumption in the standby state can be reduced.

[0060]

According to the present invention, it is possible to reduce the power consumption of the remote control device in the standby state.

[Brief description of drawings]

FIG. 1 is a block diagram showing a system configuration of a television receiver having a remote control function to which a remote control device according to an embodiment of the present invention is applied.

FIG. 2 is an operation waveform diagram illustrating an operation of the remote control receiver when the power is turned on in the remote control device according to the embodiment of the present invention.

FIG. 3 is an operation waveform diagram illustrating an operation of the remote control receiver when the power is turned off in the remote control device according to the embodiment of the present invention.

FIG. 4 is a block diagram showing a system configuration of a television receiver having a remote control function to which a remote control device according to a second embodiment of the present invention is applied.

FIG. 5 is an operation waveform diagram illustrating an operation of the remote control receiver when the power is turned on in the remote control device according to the second embodiment of the present invention.

FIG. 6 is an operation waveform diagram illustrating an operation of the remote control receiver when the power is turned on in the remote control device according to the third embodiment of the present invention.

[Explanation of symbols]

100 ... Television receiver 110 ... Remote control receiver 112 ... Remote receiver 114 ... Remote control signal detector 116 ... Control signal creation unit 117 ... Power supply unit 118 ... Microcomputer 118D ... Decoding section 118C ... Control unit 120 ... Power supply circuit 130 ... Various circuits 200 ... Remote control transmitter 210 ... On / off operation button 220 ... Microcomputer 230 ... Light emitting unit

─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Tsuguo Itagaki 216 Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Inside the AV division, Hitachi, Ltd. (72) Inventor Kazuhiro Kaizaki 216 Yoshida-cho, Totsuka-ku, Yokohama-shi, Kanagawa Hitachi, Ltd. AV division (56) Reference JP-A-10-28078 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) H04Q 9/00

Claims (9)

(57) [Claims] 1. A remote control device comprising a receiving device and a transmitting device for transmitting a remote control signal for remotely controlling the receiving device, wherein the transmitting device supplies power to the receiving device from a power-off state.
When it is turned on, a predetermined pulse signal and the predetermined pulse signal
Turn on the receiving device after a predetermined time has elapsed from the pulse signal.
Remote control of the power-on signal for turning on the power
Transmitted as signal, the receiving apparatus comprising performs a predetermined process based a reception unit for receiving the remote control signal transmitted from the transmitting device, the remote control signal received by the receiving unit , The first mode of normal operation
And less power consumption than the first mode of the normal operation,
And a second mode in which the receiving device is in a standby state.
And the presence or absence of a remote control signal received by the first control unit and the receiving unit.
Detection unit , detection result of the detection unit , and operation state of the first control unit
The first control unit based on the
And a second control unit that is in one of the second modes , wherein the second control unit sets the receiving device to a power-off state.
And the detection unit detects the predetermined pulse signal.
The first control unit from the second mode to the first control unit.
1 mode, the first control unit,
A remote control device , wherein the power-on signal is processed after the predetermined time has elapsed . 2. The remote control device according to claim 1, wherein the first control unit includes the detection unit for the predetermined pulse signal.
Signal is detected until the above power-on signal is detected
The remote control device is characterized by completing the preparation for operation. 3. A receiver and remote control of the receiver.
Remote consisting of a transmitter for transmitting a remote control signal for
In the operating device, the transmitting device supplies power to the receiving device from a power-off state.
Includes a specified pulse signal when turning on, and
Power-on signal for turning on the receiving device
Was transmitted as the remote control signal, the receiving apparatus is to receive the remote control signal transmitted from the transmitting device
And a predetermined unit based on the remote control signal received by the receiver.
First mode for performing normal operation
And less power consumption than the first mode of the normal operation,
And a second mode in which the receiving device is in a standby state.
And the presence or absence of a remote control signal received by the first control unit and the receiving unit.
Detection unit , detection result of the detection unit , and operation state of the first control unit
The first control unit based on the
And a second controller that is in one of the second modes described above.
And the second control unit is configured so that the receiving device is in a power-off state.
And the detection unit detects the predetermined pulse signal.
The first control unit from the second mode to the first control unit.
1 mode, the first control unit,
Prepare the operation to be the first mode, and then
A remote control device characterized by processing a power-on signal . 4. A remote control device comprising a receiving device and a transmitting device for transmitting a remote control signal for remotely operating the receiving device, wherein the transmitting device supplies power to the receiving device from a power-off state.
When turning on the power, turn on the receiving device.
The power-on signal for
The transmitting device returns the signal, and the receiving device performs a predetermined process based on the remote operation signal received by the receiving unit, which receives the remote operation signal transmitted from the transmitting device . First mode for normal operation
And less power consumption than the first mode of the normal operation,
And a second mode in which the receiving device is in a standby state.
And the presence or absence of a remote control signal received by the first control unit and the receiving unit.
Based on the detection unit, the detection result of the detection unit, and the operation state of the first control unit , the first control unit is set to the first mode or
And a second control unit that is in one of the second modes , wherein the second control unit sets the receiving device to a power-off state.
And the above-mentioned detection unit repeatedly transmits the power-on signal.
When the first power-on signal of the
Change the first control unit from the second mode to the first mode
The first control unit controls the
A remote control device that is characterized by processing a power-on signal . 5. The remote control device according to claim 1, wherein the first control unit has the detection unit that receives the predetermined pulse signal.
Signal is detected until the above power-on signal is detected
The remote control device is characterized by completing the preparation for operation. 6. The distance according to any one of claims 1 to 5.
In the remote control device, in the second mode, power is supplied to the first control unit.
Remote control device characterized by being in a non-operation mode . 7. A receiving device for receiving a remote control signal transmitted from a transmitting device, comprising: a receiving unit for receiving the remote control signal transmitted from the transmitting device; and a remote control signal received by the receiving unit. A first mode for performing a predetermined process based on a normal operation
And less power consumption than the first mode of the normal operation,
And a second mode in which the receiving device is in a standby state.
And the presence or absence of a remote control signal received by the first control unit and the receiving unit.
Detection unit , detection result of the detection unit , and operation state of the first control unit
The first control unit based on the
And a second control unit that is in one of the second modes , wherein the second control unit sets the receiving device to a power-off state.
And the detection unit detects the predetermined pulse signal.
The first control unit from the second mode to the first control unit.
1 mode, the first control unit,
The receiving device , wherein the power-on signal is processed after the predetermined time has elapsed . 8. A receiver for receiving a remote control signal transmitted from a transmitter, comprising: a receiver for receiving the remote control signal transmitted from the transmitter; and a remote control signal received by the receiver. A first mode for performing a predetermined process based on a normal operation
And less power consumption than the first mode of the normal operation,
And a second mode in which the receiving device is in a standby state.
And the presence or absence of a remote control signal received by the first control unit and the receiving unit.
Based on the detection unit, the detection result of the detection unit, and the operation state of the first control unit , the first control unit is set to the first mode or
And a second control unit that is in one of the second modes , wherein the second control unit sets the receiving device to a power-off state.
And the above-mentioned detection unit repeatedly transmits the power-on signal.
When the first power-on signal of the
Change the first control unit from the second mode to the first mode
The first control unit controls the
A receiving device characterized by processing a source-on signal . 9. The method according to claim 1, claim 3 or claim 4.
A television receiver comprising the receiving device according to claim 1.