JP2011071902A - Remote control operation apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a remote control operation apparatus reduced in power consumption during a standby mode in which the apparatus waits for input from a remote control device. <P>SOLUTION: When the remote control operation apparatus is a television apparatus, when the television apparatus is in a standby state, the brightness surrounding the television apparatus is detected by a light detection circuit 8. If the brightness surrounding the television apparatus is higher than a predetermined threshold value, power is supplied to a remote control signal receiving circuit 5 for receiving a signal from the remote control device. If the brightness is lower than the threshold value, supply of power to the remote control signal receiving circuit 5 is blocked by a power supply SW. When the supply of power to the remote control signal receiving circuit is blocked, the supply of power to a control circuit for controlling a display element for displaying the operating condition of the remote control operation apparatus is also blocked. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a remote control operation device, and more particularly to a remote control operation device that reduces power consumption during standby.

In recent years, energy-saving electronic devices and appliances that are environmentally friendly have become widespread. In consideration of the convenience of user operation, a remote control device is attached to various electronic devices and electrical appliances.
In the remote control device operated by such a remote control device, reduction of power consumption during operation and non-operation is required.
For example, in order to improve the power consumption performance of a television device as an example of a remote control device, there are two problems: reduction of power consumption during operation when watching TV and reduction of power consumption during standby when not watching TV There is.

For the former, the presence sensor is used to detect whether there is a person in front of the TV, and when the person leaves the TV, the screen is turned off and when the person returns, the screen is automatically turned on. Power consumption during operation is reduced by returning or adjusting the brightness of the screen according to the surrounding brightness using a brightness sensor.
In order to prevent the main power supply of an electronic device such as a DVD recorder from being forgotten to be turned off, for example, in Patent Document 1, the brightness of a room in which the electronic device is installed is detected by an optical sensor, and the illumination of the room is turned on. When it is detected that the light has been turned off, the switch circuit of the main power supply is turned off, and the standby operation of only specific components can be performed by the power from the standby power supply.

JP 2007-95127 A

  For example, in a conventional television apparatus, as shown in a block diagram of FIG. 7, a power supply circuit 1, a television control microcomputer 2, a video / audio reception output unit 3, a main power supply SW (switch) 4, a remote control signal reception circuit 5, A power LED 6 and an LED control circuit 7 are provided. In addition, a normal operation mode (normal operation state) in which all functions relating to reception and output of television broadcasts operate and a standby mode (standby state) in which only a commercial power source is connected are provided.

In the normal operation mode, power is supplied from the power supply circuit 1 to the TV control microcomputer 2, the video / audio reception / output unit 3, the remote control signal reception circuit 5, the power LED 6, and the LED control circuit 7. In the normal operation mode, the LED 6 disposed on the front surface of the television device is lit in green, for example.
In the standby mode, power is supplied from the power supply circuit 1 only to the TV control microcomputer 2 and its peripheral input / output circuit, that is, the remote control signal receiving circuit 5, the power LED 6, and the LED control circuit 7. In the standby mode, the power LED 6 is lit red, for example.
In the standby mode, when a power-on request is made, for example, by operating the power button of the remote control device, the mode shifts to the normal operation mode in a predetermined processing procedure.

  In FIG. 1, in the standby mode, the power supply circuit 1 is shown to be supplied with power from the standby power supply 1a. In the normal operation mode, the video / audio reception / output unit 3 is added to the standby power supply 1a. Power is supplied from the system power supply 1b. When the main power supply SW4 is turned off, the power supply from the standby power supply 1a and the system power supply 1b is not performed, so the power LED 6 is also turned off, and the power consumption of the television device can be reduced to almost zero. However, in this case, there is a problem that convenience is lost because the television device cannot be turned on / off by the remote control device.

  Therefore, in the conventional television apparatus, the power of the remote control signal receiving circuit 5 is always supplied from the standby power supply 1a during the operation mode and the standby mode, and the control code from the remote control apparatus can always be received. And the power consumption in the standby mode for standby operation such as remote control input has already been reduced to a very small value, and since most parts are not operating, it is difficult to reduce power consumption in this state It is in the situation that is extreme.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a remote control operation device that further reduces power consumption in a standby mode in which it waits for input from a remote control device.

  In order to solve the above-described problem, a first technical means of the present invention includes a remote control signal receiving circuit that receives a signal from a remote control device, and in a remote control operation device that performs an operation according to the signal from the remote control device. A light detection circuit for detecting ambient brightness, and an output value when the output value from the light detection circuit is darker than an output value at a predetermined brightness during standby; A switch circuit that cuts off power supply is provided.

  According to a second technical means, in the first technical means, a hysteresis characteristic is provided when power is supplied to the remote control signal receiving circuit according to an output value from the photodetection circuit. Is.

  According to a third technical means, in the first or second technical means, a solar cell is used for the photodetection circuit.

  According to a fourth technical means, in any one of the first to third technical means, the remote control signal receiving circuit is an infrared method or an RF wireless method.

  A fifth technical means according to any one of the first to fourth technical means further includes a control circuit for controlling a display element indicating an operating state of the remote control operating device, and supplies power to the remote control signal receiving circuit. When shutting off, power supply to the control circuit is shut off.

  According to a sixth technical means, in any one of the first to fifth technical means, the remote control device further includes a timer, and the timer is set so that the remote control device is in a normal operation state at a predetermined time. It is characterized by being.

  According to a seventh technical means, in any one of the first to sixth technical means, the remote control signal is received when the remote control device is turned off by the remote control device when the brightness is lower than the predetermined brightness. The power supply to the circuit is maintained for a predetermined time and then cut off.

  According to an eighth technical means, in any one of the first to seventh technical means, the remote control device is a television device.

According to the present invention, when the room in which the remote control operating device is installed is dark, the power supply to the remote control signal receiving circuit is cut off to disable the remote control signal receiving circuit, thereby reducing the power consumption of the remote control operating device. In particular, if the remote control device is a television device, the room is dark when sleeping or going out without watching TV, so disabling the remote control signal receiver circuit can reduce TV power consumption and make it an environment. Easy equipment can be provided.
In addition, it is possible to set various threshold values for shutting off the power supply to the remote control signal receiving circuit for the light detection signal that detects the brightness around the remote control operating device. It becomes possible to respond.

Also, fluctuations in ambient brightness can be achieved by adding a hysteresis characteristic to the light detection signal that detects brightness by adding a difference between the threshold values when turning on and off the power supply of the remote control signal receiving circuit. It is possible to realize a stable operation that absorbs water.
In addition, when a solar cell is used as a means for detecting brightness, a power source for the photodetection circuit is not required, so that power consumption can be further reduced.
In addition, the power consumption can be further reduced by disabling the remote control signal receiving circuit and stopping the power supply to the power LED of the television apparatus.

It is a block diagram at the time of applying the remote control operating device which concerns on one Embodiment of this invention to a television apparatus. It is a block diagram at the time of applying the remote control operating device which concerns on other embodiment of this invention to a television apparatus. It is a flowchart in the case of performing determination of a photodetection signal with one threshold value in the television apparatus according to an embodiment of the present invention. It is a flowchart in the case of performing determination of a photodetection signal with two threshold values in the television apparatus according to an embodiment of the present invention. It is a timing chart which shows operation | movement in case the determination of a photon detection signal is performed with one threshold value in the television apparatus which concerns on one Embodiment of this invention. It is a timing chart which shows operation | movement in the case of performing determination of a photon detection signal with two threshold values in the television apparatus which concerns on one Embodiment of this invention. It is a block diagram of the conventional television apparatus.

  The remote control device according to the present invention detects ambient brightness and cuts off the power supply to the remote control signal receiving circuit according to the detection result, thereby reducing the power consumption of the remote control device. Reduction is possible. The remote control device of the present invention can be suitably applied to various electronic devices and household appliances as long as the remote control operation is possible. In the following specific embodiments, a case where a remote control device is applied to a television device will be described as an example.

FIG. 1 is a block diagram when a remote control device according to an embodiment of the present invention is applied to a television apparatus.
The television apparatus includes a power supply circuit 1, a television control microcomputer 2, a video / audio reception output unit 3, a main power supply SW (switch) 4, a remote control signal reception circuit 5, a power LED 6, and an LED control circuit 7. The members are the same as those of the conventional television apparatus shown in FIG.

  Here, the video / audio reception / output unit 3 is a component for realizing a main function for video / audio output of the television device. For example, in the case of a liquid crystal television device, a digital broadcast reception unit, a video signal, A processing circuit, a video output adjustment circuit, a liquid crystal panel, a backlight control circuit, an audio signal processing circuit, a speaker, and the like. The power consumption in the normal operation mode of the television apparatus is determined by the video / audio reception output unit 3 Mostly occupied.

  The television apparatus shown in FIG. 1 further includes a power supply SW (switch) 9 for cutting off the power supply to the light detection circuit 8 and the remote control signal reception circuit 5. Here, the light detection circuit 8 is for detecting the brightness of the surroundings where the television apparatus is installed, and includes a photosensor such as a photodiode or a phototransistor. The output from the light detection circuit 8 is input to the television control microcomputer 2 as a light detection signal. The power supply SW 9 turns on / off the power supply to the remote control signal receiving circuit 5 by a remote control-on signal that is a control signal from the television control microcomputer 2.

  In the normal operation mode in which all functions related to reception and output of television broadcasts are performed by the television device, the power supply circuit 1, the television control microcomputer 2, the video / audio reception / output unit 3, as in the conventional television device, Power is supplied to the remote control signal receiving circuit 5, the power LED 6, and the LED control circuit 7. In this normal operation mode, the power LED 6 which is disposed on the front surface of the television device and is a display element for displaying the operation mode of the television device is lit in green, for example. In the normal operation mode, power may be supplied to the light detection circuit. However, since the light detection signal from the light detection circuit 8 is not used for the operation of the television apparatus, power supply to the light detection circuit 8 is not performed. It is desirable from the point of energy saving to leave it off.

  In this normal operation mode, the remote control signal receiving circuit 5 is always operating, and when a user operates a remote control device (not shown), it receives a control code transmitted from the remote control device and sends it to the television control microcomputer 2 as a remote control signal. I tell you. The television control microcomputer 2 controls various television devices such as changing the viewing channel and adjusting the sound in accordance with the remote control signal from the remote control signal receiving circuit 5. Here, transmission / reception of signals between the remote control device and the remote control signal receiving circuit uses an infrared (IR) method or an RF wireless method.

  Next, for example, when the power of the television device is turned off by operating the remote control device, the television device shifts from the normal operation mode to the standby mode. In the standby mode, the supply of power to the video / audio reception output unit 3 occupying most of the power consumption of the television apparatus is stopped. In the television apparatus of the present invention, power is supplied from the power supply circuit 1 to at least the television control microcomputer 2 and the light detection circuit 8.

And in a television apparatus provided with a remote control device, it is hardly viewed when the room is dark, and the remote control device is hardly operated. Therefore, in the present invention, when the television apparatus is in the standby mode, the television control microcomputer 2 controls the remote control-on signal to the power supply SW9 in accordance with the value of the light detection signal from the light detection circuit 8 to control the power supply. SW9 is turned on / off to control the validity / invalidity of the remote control signal light receiving circuit 5. Specifically, the output value from the light detection circuit 8 is compared with a predetermined threshold value, and when the output value is brighter than the predetermined brightness, power is supplied to the remote control signal receiving circuit 5, and The power supply to the remote control signal receiving circuit 5 is cut off when the output value is darker than the brightness of the remote control signal.
As will be described later, it is possible to provide two threshold values to provide hysteresis characteristics.

  The power LED 6 indicating the operation mode of the television apparatus is lit red, for example, when the television apparatus is in the standby mode and the power is supplied to the remote control signal receiving circuit 5, and the operation by the remote control apparatus is accepted. It shows that it is possible. In this case, power is supplied from the standby power supply 1 a of the power supply circuit 1 to the television control microcomputer 2, the remote control signal receiving circuit 5, the power LED 6, the LED control circuit 7, and the light detection circuit 8.

  When the television apparatus is in standby mode and power is not supplied to the remote control signal receiving circuit 5, the power LED 6 is turned off by stopping power supply to the power LED 6 and the LED control circuit 7. The power consumption is further reduced. In this case, power is supplied only from the standby power supply 1 a of the power supply circuit 1 to the television control microcomputer 2 and the photodetection circuit 8.

FIG. 2 is a block diagram when a remote control device according to another embodiment of the present invention is applied to a television apparatus.
In the television apparatus shown in FIG. 2, since a light sensor is used for the light detection circuit 8, the light detection circuit 8 is supplied with the standby power supply 1a and a dark current flows even in a dark state. Will also consume power. In the television apparatus shown in FIG. 3, by using a solar cell as the light detection circuit 8 ′, it is possible to reduce power consumption in the light detection circuit 8 ′. Other configurations and operations are the same as those of the television apparatus shown in FIG.

FIG. 3 is a flowchart when the light detection signal is determined with one threshold value in the television apparatus according to the embodiment of the present invention.
In order to enable the remote control signal receiving circuit 5 when the television apparatus is activated, the television control microcomputer 2 asserts the remote control-on signal, connects the standby power supply 1a to the remote control signal receiving circuit 5 via the power SW9, and the remote control signal. The receiving circuit 5 is enabled (step S1). Next, the process proceeds from step S1 to step S2, and the state of the television apparatus is checked. When the system power supply 1b is on and during normal operation (during video / audio output), the power LED 6 is set to green (step S3), and the remote control signal receiving circuit 5 is kept valid.

  If the television apparatus is not operating in step S2, for example, when the television apparatus is turned off by the operation of the remote control apparatus, the process proceeds to step S4, and the output value of the output signal from the light detection circuit 8 is changed. To check. If the output value from the light detection circuit 3 is greater than or equal to the threshold value indicating the predetermined brightness in step S4, the power LED 6 is turned red to indicate that the operation from the remote control device is accepted in the standby mode (step S5). Migrate to In FIG. 3, the process proceeds from step S3 to step S1, but since the remote control signal receiving circuit 5 is already valid, the process may return to step S2.

  Since the state of step S5 can accept the operation from the remote control device, when the power button is operated from the remote control device, the remote control signal receiving circuit 5 accepts the signal from the remote control device, and the TV control microcomputer 2 receives the remote control signal. The control code from the apparatus is transmitted as a remote control signal, and the television control microcomputer 2 supplies power from the system power supply 1b to the video / audio reception output circuit 3 in a predetermined processing procedure to shift to the normal operation mode.

  If the output value from the photodetection circuit 8 is lower than the threshold value indicating the predetermined brightness in step S4, the process proceeds to step 6 to negate the remote control-on signal to invalidate the remote control signal receiving circuit 5, and The power supply to the remote control signal receiving circuit 5 is cut off by turning off SW9, and the process goes to step S7 to turn off the power LED. Therefore, the power LED 6 is lit only when the remote control operation is effective.

  In the flowchart shown in FIG. 3, the procedure is shifted from step S7 to step S2. This is assumed to be a case where the operation mode is changed to the normal operation mode by the operation on the main body of the television apparatus without using the remote control device. Because.

FIG. 4 is a flowchart when the light detection signal is determined with two thresholds in the television apparatus according to the embodiment of the present invention.
The threshold value 1 is used for determination for enabling the remote control signal receiving circuit 5, and the threshold value 2 is used for determination for disabling the remote control signal receiving circuit 5. Here, when the output value when the output value from the light detection circuit 8 has a predetermined brightness is the threshold value 1, the brightness corresponding to the output value of the threshold value 2 is darker than the brightness corresponding to the output value of the threshold value 1. The hour value. That is, when the output from the light detection circuit 8 takes a larger value as the surrounding is brighter, the threshold value 1 is set to be greater than the threshold value 2.

  The processing of the flowchart shown in FIG. 4 is different from the processing of the flowchart shown in FIG. 3 in that processing in the case of taking the state of threshold value 1> output> threshold value 2 in step 14 is added, from step S11 to step S13. The process is the same as the process from step S1 to step S3 in the flowchart shown in FIG.

  If the output value of the light detection circuit 8 is equal to or greater than the threshold value 1 in step S14, the process proceeds to step S15, and the power LED 6 accepts the operation from the remote control device in the standby mode, as in the flowchart shown in FIG. The red color shown in FIG. In FIG. 4, the process proceeds from step S15 to step S1, but since the remote control signal receiving circuit 5 is already valid, the process may return to step S12.

  If the output value of the light detection circuit 8 is larger than the threshold value 2 and smaller than the threshold value 1 in step S14, the process returns to step S12 without performing any power supply switching processing for the remote control signal reception circuit 5. Therefore, when the condition of threshold value 1> output> threshold value 2 is satisfied, the remote control signal receiving circuit 5 maintains the previous state.

  In step S14, when the output value from the light detection circuit 8 is equal to or less than the threshold value 2 indicating the predetermined brightness, the process proceeds to step 16 to negate the remote-control-on signal in order to invalidate the remote control signal receiving circuit 5. Then, the power supply SW9 is turned off to cut off the power supply to the remote control signal receiving circuit 5, and the process goes to step S17 to turn off the power LED 6.

  Here, the procedure is shifted from step S14 and step S17 to step S2, but this is because it is assumed that the operation mode is changed to the normal operation mode by the operation on the television device main body without using the remote control device. It is. In this way, by setting two threshold values and providing hysteresis, even if the output value from the photodetection circuit 8 changes across these threshold values, power supply to the remote control signal receiving circuit 5 is achieved. It is possible to make the control circuit resistant to fluctuations such as noise without switching.

  5 and 6 are timing charts showing the operation of the television apparatus according to the embodiment of the present invention, showing the illuminance of the optical sensor and the on / off state of the power switch of the remote control signal receiving circuit. FIG. 5 shows a case where the determination of the light detection signal is performed with one threshold, and FIG. 6 shows a case where the determination of the light detection signal is performed with two thresholds. In FIG. 5 and FIG. 6, these threshold values are shown as illuminance for the sake of explanation, but these threshold values correspond to the threshold values of the output values of the photodetection circuit.

FIG. 5A is a timing chart in the case where the weather is good and the daytime room is brightened by outside light. In FIG. 5, the room lighting is turned on at times t ₁ and t ₃ , and the time t ₂ and It shows a case where off at t _4. In FIG. 5, the remote control signal receiving circuit is enabled by turning on the room illumination in the morning (t ₁ ) while it is still dark in the morning. At time t2 when the room illumination is turned off, the room is brighter than the threshold due to external light. Therefore, it is a remote control signal receiving circuit maintains the enabled state to the point of t ₅ the external light is reduced, and further at night, enabled between time t ₃ when the room lighting is lit t ₄ Is shown.

FIG. 5B is a timing chart when the curtain is closed all day, and the weather is not good. The state where the remote control signal receiving circuit 5 is valid is the time t when the room lighting is turned on. between ₁ and between the time _{t 3} of _{t 2} of _{t 4,} and time period _T a illuminance of the light sensor exceeds a threshold value, is between _{T b.} Here, when the illuminance of the optical sensor changes across the threshold due to the influence of clouds or the shadow of the building, the remote control signal receiving circuit 5 is repeatedly enabled / disabled and becomes unstable.

  On the other hand, FIG. 6 shows a timing chart in the case where the weather is not good with the curtain closed all day as in FIG. 5B, but it has two thresholds and the remote control signal receiving circuit 5 is effective. -Since hysteresis characteristics are provided for invalid switching, the valid / invalid state of the remote control signal receiving circuit 5 is not frequently switched due to the influence of external light.

  In the present invention, when a remote control operation is basically performed, it is assumed that the surroundings are bright. However, for example, there is a demand for viewing a television device with the remote control device turned on even in a dark room. For example, in FIG. 5A, even when it is desired to turn on the TV in the bedroom when getting up in the morning, the remote control does not work if the room is dark. In this case, the remote controller can be operated by lighting the room. However, in preparation for such a case, it is desirable to provide an on-timer function as an additional function of the remote control device of the present invention. The on-timer function is a function for setting a time and a channel for starting the television device in advance, and for starting the television device with the set channel when the set time comes, so that the television device is in a normal operation state. Since the remote control can be performed once the television apparatus is activated, the operation in the normal operation mode is possible.

Further, in the present invention, when a television device being viewed in a dark room is turned off by remote control operation, the remote control signal receiving circuit 5 is disabled because the room is already dark, and again, the remote control device. Thus, the television device cannot be turned on (viewing state). This state, for example, when the power is turned off the television set by the remote control device at a timing t ₄ of FIG. 5 (A). For this reason, a time-out function that keeps the power of the remote control signal receiving circuit on for a certain period even when the remote control device is turned off by the remote control device may be provided as an additional function. desirable. Then, the time-out period may be adjusted to be changeable by user setting.

  In the embodiment shown in FIGS. 1 and 2, the television control microcomputer 2 sets the threshold value and compares it with the output value from the photodetection circuit 8, but the photodetection circuit 8 side has the threshold value. It is possible to simplify the control on the telephony control microcomputer 2 side by comparing the setting and the output value. In this case, the output of the light detection circuit 2 is an on or off digital signal, and the level detection on the television control microcomputer 2 side is not necessary. That is, the determination processed in step 3 of the flowchart of FIG. 3 is not output ≧ threshold or output <threshold, but may be a logic level determination of output = High or output = Low, so the processing on the telehi control microcomputer 2 side is simplified . However, depending on whether or not the threshold value can be set in the light detection circuit 2, it becomes difficult to deal with various room brightness conditions. Further, in order to enable the threshold setting to the photodetection circuit 2 by software, it is necessary to add hardware, leading to an increase in cost.

  The television apparatus has been described as an example of the remote control operation device of the present invention. However, the remote control operation device of the present invention is not limited to the television device, and various remote controls such as audio / video products, water heaters, and air conditioners. It includes equipment that can be operated.

DESCRIPTION OF SYMBOLS 1 ... Power supply circuit, 2 ... Television control microcomputer, 3 ... Video / audio reception output part, 4 ... Main power supply SW, 5 ... Remote control signal receiving circuit, 6 ... Power LED, 7 ... LED control circuit, 8 ... Photodetection circuit, 9 ... Power supply SW.

Claims (8)

  In a remote control operating device that includes a remote control signal receiving circuit that receives a signal from a remote control device and performs an operation according to the signal from the remote control device, a light detection circuit that detects ambient brightness, and the light detection circuit during standby A remote control operating device comprising a switch circuit that cuts off power supply to the remote control signal receiving circuit when the output value from the remote controller is darker than the output value at a predetermined brightness .   The remote control device according to claim 1, wherein a hysteresis characteristic is provided when power is supplied to the remote control signal receiving circuit in accordance with an output value from the photodetection circuit.   The remote control device according to claim 1, wherein a solar cell is used for the light detection circuit.   The remote control device according to any one of claims 1 to 3, wherein the remote control signal receiving circuit is of an infrared system or an RF wireless system.   It further has a control circuit for controlling a display element indicating an operation state of the remote control operating device, and when the power supply to the remote control signal receiving circuit is cut off, the power supply to the control circuit is cut off. The remote control device according to any one of claims 1 to 4.   6. The remote control device according to claim 1, further comprising a timer, wherein the timer is set to put the remote control device in a normal operation state at a predetermined time. Remote control device.   When the remote control device is turned off by the remote control device when it is darker than the predetermined brightness, the power supply to the remote control signal receiving circuit is maintained for a predetermined time and then cut off. The remote control device according to any one of claims 1 to 6.   The remote control operation device according to claim 1, wherein the remote control operation device is a television device.

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