JP2009077352A - Remote control signal receiving apparatus, control method, and electronic device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a remote control signal receiving apparatus which has simplified configuration and outputs a suitable operating signal to the outside without an increase in a processing load. <P>SOLUTION: A control means 32 constituting the remote control signal receiving apparatus 30 comprises: a mode shifting section 321 for shifting to each of modes of a normal mode during which any one of receiving means 31 is selected and an operating signal from the selected receiving means 31 is output to the outside, and a setting mode during which the receiving means 31 are set to be valid or invalid, respectively; a valid/invalid setting section 322 for setting the receiving means 31 to be valid or invalid based on output states of operating signals from the receiving means 31 during the setting mode; and a receiving means selecting section 323 which selects the receiving means set to be valid by the valid/invalid setting section 322 and outputs an operating signal obtained from the selected receiving means 31 to the outside during the normal mode. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a remote control signal receiving apparatus comprising a plurality of receiving means for receiving a remote control signal from a remote controller and outputting an operation signal corresponding to the received remote control signal, and a control means for controlling the plurality of receiving means. The present invention relates to a control method and an electronic device.

2. Description of the Related Art Conventionally, an electronic device such as a projector includes a remote controller (hereinafter referred to as a remote controller) that can be remotely operated as an operation means that enables an input operation by a user, in addition to an operation panel provided in the apparatus body. Are often used. Further, in such an electronic device, as a remote control signal receiving device provided in the apparatus main body, even when a user operates the remote control from various places, so that a remote control signal transmitted from the remote control can be received, A technique provided with a plurality of receiving means has been proposed.
Here, in an electronic device such as a projector, the apparatus main body is often installed in a state where it is suspended from the ceiling or installed at a predetermined height. When installed in this way, the plurality of receiving means provided in the apparatus main body are easily affected by noise such as light and electromagnetic waves output from a lighting fixture (noise source) such as a fluorescent lamp attached to the ceiling. Is. When the receiving means receives the noise from the noise source and the remote control signal at the same time, the remote control signal receiving device makes it difficult to decode the remote control signal and outputs an inappropriate operation signal to the outside. . For this reason, the electronic device may malfunction due to an inappropriate operation signal from the remote control signal receiving device without performing an appropriate operation according to the input operation of the remote control by the user.

Therefore, a remote control signal receiving device that outputs an appropriate operation signal to the outside even when installed near a noise source has been proposed (see, for example, Patent Document 1).
In the technique described in Patent Document 1, a remote control signal receiving device includes a plurality of receiving units that receive a remote control signal, a plurality of decoders connected to each receiving unit, and each decoded signal (operations) output from each decoder. A decoder selection unit that selects any one of the decoded signals. Here, the decoder extracts the identification information from the received remote control signal, and outputs an effective signal indicating the validity of the received remote control signal when the identification information corresponds to the registered identification information registered in advance. Then, the decoder selection unit adopts only the decode signal of the decoder outputting the valid signal. As a result, even if a noise component is input to any one of the plurality of receiving units, a normal remote control signal received by another receiving unit is decoded and a decoded signal is output, thereby causing malfunction of the electronic device. It is avoiding.

JP 2001-177879 A

However, in the technique described in Patent Document 1, it is necessary to include identification information in the remote control signal. That is, it is necessary to change the design of the remote controller.
Further, since it is necessary to extract the identification information from the remote control signal and to collate the identification information with the registered identification information, the circuit configuration of the decoder becomes complicated.
Furthermore, each time a remote control signal is received, the above-described processing such as extraction and collation by the decoder and the above-described selection processing by the decoder selection unit are executed, so that the processing load of the remote control signal receiving device increases.
Therefore, there is a demand for a technique capable of simplifying the configuration of the remote control signal receiving apparatus and outputting an appropriate operation signal to the outside without increasing the processing load.

  An object of the present invention is to provide a remote control signal receiving apparatus, a control method, and an electronic device that can simplify the configuration and output an appropriate operation signal to the outside without increasing the processing load.

  A remote control signal receiving apparatus of the present invention comprises a plurality of receiving means for receiving a remote control signal from a remote controller and outputting an operation signal corresponding to the received remote control signal, and a control means for controlling the plurality of receiving means. A remote control signal receiving apparatus, wherein the control means selects one of the plurality of receiving means, and outputs the operation signal from the selected receiving means to the outside; and Based on the output state of each operation signal from the plurality of receiving means in the setting mode, a mode transition unit that shifts to each mode of the setting mode for setting each of the plurality of receiving means to be valid or invalid Valid / invalid setting part for setting each of the receiving means to be valid or invalid, and valid / invalid setting part in the normal mode. Set selects the reception means, characterized in that it comprises a receiving means selecting unit which outputs the operation signal from said receiving means selected externally.

  Here, the mode transition unit may be configured to transition between the normal mode and the setting mode by inputting mode transition information indicating that the mode is to be transitioned by an input operation of the remote controller by the user. A configuration may be adopted in which a transition from the normal mode to the setting mode is automatically performed when an electronic device in which the remote control signal receiver is mounted is activated.

In the present invention, the control means constituting the remote control signal receiving apparatus includes a mode transition part, a valid / invalid setting part, and a receiving means selection part. Therefore, as shown below, an appropriate operation signal is sent to the outside. Can output.
First, the mode transition unit recognizes the input of the mode transition information by the user based on the operation signal output from the receiving means, for example, when the mode transition information is input by the input operation of the remote control by the user, Transition from the normal mode to the setting mode (mode transition step).
Here, among the plurality of receiving means, the receiving means positioned in the vicinity of the noise source and receiving the noise continuously outputs the operation signal corresponding to the noise instead of the remote control signal by receiving the noise. Will be.
Therefore, in the setting mode, the valid / invalid setting unit recognizes the output state of each operation signal from each reception unit, sets the reception unit to which the operation signal is continuously output to “invalid”, and continues. The receiving means to which no operation signal is output is set to “valid” (valid / invalid setting step). In other words, the valid / invalid setting unit sets the receiving means affected by the noise to “invalid”, and sets the receiving means not affected by the noise to “valid”.
Then, the reception means selection unit selects the reception means set to “valid” in the normal mode, and outputs an operation signal from the selected reception means to the outside (reception means selection step).

As described above, even if one of the multiple receiving means is affected by noise, select another receiving means that can receive normal remote control signals without being affected by noise. In addition, an appropriate operation signal corresponding to a normal remote control signal from the selected receiving means can be output to the outside. For this reason, the electronic device equipped with the remote control signal receiving device performs an appropriate operation according to the input operation of the remote control by the user by an appropriate operation signal output from the remote control signal receiving device.
Further, as compared with the conventional configuration, it is not necessary to transmit a remote control signal including identification information from the remote controller, and it is not necessary to change the design of the remote controller. Further, it becomes unnecessary to extract identification information from the remote control signal, collate the identification information with the registered identification information, etc., and the circuit configuration of each receiving means can be simplified. Furthermore, once valid / invalid of each reception means is set once in the setting mode, in the normal mode, only the reception means is selected according to the valid / invalid setting state. The processing load on the receiving device does not increase.
Therefore, the configuration can be simplified, and an appropriate operation signal can be output to the outside without increasing the processing load. Therefore, the object of the present invention can be achieved.

  A remote control signal receiving apparatus of the present invention comprises a plurality of receiving means for receiving a remote control signal from a remote controller and outputting an operation signal corresponding to the received remote control signal, and a control means for controlling the plurality of receiving means. In the remote control signal receiving apparatus, the control means selects any one of the plurality of receiving means, and outputs the operation signal from the selected receiving means to the outside, and the plurality of the plurality of receiving means A mode transition unit that shifts to each mode of the setting mode that sets the priority of the receiving means, and the plurality of receiving means based on the output level of each operation signal from the plurality of receiving means in the setting mode; Based on the priority set by the priority setting unit in the normal mode. Select the serial receiving means, characterized in that it comprises a receiving means selecting unit which outputs the operation signal from said receiving means selected externally.

  Here, as described above, the mode transition unit may be configured to shift each mode by inputting mode transition information by a user's remote controller input operation, or an electronic device on which the remote control signal receiver is mounted. It may be configured to automatically shift from the normal mode to the setting mode when the device is activated.

In the present invention, the control means constituting the remote control signal receiving apparatus includes a mode transition section, a priority order setting section, and a receiving means selection section. Therefore, as shown below, an appropriate operation signal is sent to the outside. Can output.
First, the mode transition unit executes a mode transition step as described above.
Here, the output level of each operation signal output from each receiving means varies depending on the degree of influence of noise from the noise source. For example, the receiving means positioned at a position closest to the noise source receives a relatively large noise, so that the output level of the operation signal corresponding to the noise is relatively high. On the other hand, the receiving means positioned at the position farthest from the noise source receives relatively small noise, so that the output level of the operation signal corresponding to the noise is relatively small (including the output level of 0). )
Therefore, the priority order setting unit recognizes and compares the output level of each operation signal from each receiving means in the setting mode, thereby setting the priority order of the receiving means having a large output level to a low level. The priority of the small receiving means is set higher (priority setting step). That is, the priority level setting unit sets the priority level of the receiving unit having a high noise influence level to a low level and sets the priority level of the receiving unit having a low noise level to a high level.
In the normal mode, the reception means selection unit sequentially selects each reception means in order of higher priority until the operation signals are input, and outputs the operation signal from the selected reception means to the outside (Reception) Means selection step).

As described above, even when at least one of a plurality of receiving means is affected by noise, a receiving means having a low noise influence level is selected, and an appropriate operation signal from the selected receiving means is selected. Can be output externally. For this reason, the electronic device equipped with the remote control signal receiving device performs an appropriate operation according to the input operation of the remote control by the user by an appropriate operation signal output from the remote control signal receiving device.
Further, even when all of the plurality of receiving means are affected by noise, it is possible to select a receiving means with a low noise influence level and output an appropriate operation signal from the selected receiving means to the outside. The electronic device can be appropriately operated while avoiding the state where the electronic device does not operate even when the remote controller is input.
Further, as compared with the conventional configuration, it is not necessary to transmit a remote control signal including identification information from the remote controller, and it is not necessary to change the design of the remote controller. Further, it becomes unnecessary to extract identification information from the remote control signal, collate the identification information with the registered identification information, etc., and the circuit configuration of each receiving means can be simplified. Further, once the priority order of each receiving means is set once in the setting mode, only the receiving means is selected according to the priority order in the normal mode. Does not increase.
Therefore, the configuration can be simplified, and an appropriate operation signal can be output to the outside without increasing the processing load. Therefore, the object of the present invention can be achieved.

A control method according to the present invention comprises a plurality of receiving means for receiving a remote control signal from a remote controller and outputting an operation signal corresponding to the received remote control signal, and a control means for controlling the plurality of receiving means. A control method of a signal receiving device, wherein the control means selects any one of the plurality of receiving means, and outputs the operation signal from the selected receiving means to the outside, and Based on the output state of each operation signal from the plurality of receiving means in the mode transition step for shifting to each mode of the setting mode for setting the plurality of receiving means to be valid or invalid respectively. A valid / invalid setting step for setting each of the plurality of receiving means to be valid or invalid, and the valid / invalid setting in the normal mode. Select the receiving means which is set enabled in step, and executes the receiving means selecting step of outputting the operation signal from said receiving means selected externally.
Since the control method of the present invention is implemented by the above-described remote control signal receiving apparatus, it can enjoy the same operations and effects as the above-described remote control signal receiving apparatus.

A control method according to the present invention comprises a plurality of receiving means for receiving a remote control signal from a remote controller and outputting an operation signal corresponding to the received remote control signal, and a control means for controlling the plurality of receiving means. A control method of a signal receiving device, wherein the control means selects any one of the plurality of receiving means, and outputs the operation signal from the selected receiving means to the outside, and A mode transition step for shifting to each mode of a setting mode for setting the priority order of the plurality of receiving means, and the plurality of the plurality of receiving means based on output levels of the operation signals from the plurality of receiving means in the setting mode. Priority setting step for setting the priority order of the receiving means, and the priority set in the priority setting step in the normal mode Position to select the reception means based on, and executes the receiving means selecting step of outputting the operation signal from said receiving means selected externally.
Since the control method of the present invention is implemented by the above-described remote control signal receiving apparatus, it can enjoy the same operations and effects as the above-described remote control signal receiving apparatus.

An electronic apparatus according to the present invention includes the above-described remote control signal receiving device and a main control device that performs control according to an input operation of a remote controller based on an operation signal output from the remote control signal receiving device. It is characterized by that.
According to the present invention, since the electronic apparatus includes the above-described remote control signal receiving device, it can enjoy the same operations and effects as the above-described remote control signal receiving device.

In the electronic device of the present invention, the electronic device includes a light source device, a light modulation device that modulates a light beam emitted from the light source device according to image information, and an enlarged projection of the light beam modulated by the light modulation device. It is preferable that the projector includes a projection optical device.
In the present invention, the projector is often used with the apparatus main body suspended from the ceiling or installed at a predetermined height, that is, close to a noise source such as a lighting fixture. Since the electronic device described above is often used by being installed at a position, the above-described effects can be suitably achieved by using the above-described electronic device as a projector.

[First embodiment]
Hereinafter, a first embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram illustrating a configuration of a projector 1 as an electronic apparatus according to the first embodiment.
The projector 1 performs predetermined image processing on the input image information (image signal), and optically processes a light beam emitted from the light source based on the image information subjected to the image processing to form image light. The projected image is enlarged and projected on a screen (not shown). As shown in FIG. 1, the projector 1 is roughly composed of an image projection device 10, a remote controller 20 (hereinafter referred to as a remote controller 20), a remote control signal receiver 30, and a main controller 40.

The image projecting device 10 forms image light and enlarges and projects it on a screen under the control of the main control device 40. As shown in FIG. 1, the image projection apparatus 10 includes a light source device 11, a light modulation device 12, a projection optical device 13, and the like.
The light source device 11 emits a light beam toward the light modulation device 12 under the control of the main control device 40. The light source device 11 is composed of a discharge light emission type ultrahigh pressure mercury lamp. The light source device 11 is not limited to the ultra-high pressure mercury lamp, but may be another discharge light source type light source lamp such as a metal halide lamp or a xenon lamp. Furthermore, the present invention is not limited to a discharge light source lamp, and various solid light emitting elements such as a light emitting diode, a laser diode, an organic EL (Electro Luminescence) element, and a silicon light emitting element may be employed.

The light modulation device 12 modulates the light beam emitted from the light source device 11 into image light in accordance with a drive signal from the main control device 40 and emits it to the projection optical device 13.
The projection optical device 13 enlarges and projects the image light emitted from the light modulation device 12 toward the screen.

  The remote controller 20 generates an electric remote control signal by converting an electrical signal corresponding to the operation performed by the user into infrared light, and transmits the generated remote control signal to the remote control signal receiving device 30. Although not specifically shown, the remote controller 20 has a power button for turning the projector 1 on or off, a volume adjustment button for adjusting the volume, and an image quality adjustment for the projected image. An image quality adjustment button, a help button for displaying a help screen related to the operation explanation of the projector 1, and the like, and an electric signal corresponding to the pressing of each button by the user is converted into infrared light to generate a remote control signal; The remote control signal is transmitted.

Remote control signal receiving device 30 receives the remote control signal transmitted from remote control 20 and outputs an operation signal corresponding to the received remote control signal to main control device 40. As shown in FIG. 1, the remote control signal receiving device 30 is roughly composed of four receiving means 31 and a control means 32.
The four receiving units 31 have the same configuration, and include a light receiving unit 311 and a decoder 312 as shown in FIG.

FIG. 2 is a diagram schematically showing the arrangement positions of the four light receiving units 311.
As shown in FIG. 2, the four light receiving units 311 are provided to be exposed from the exterior housing 2 of the projector 1, and two light receiving units 311 are provided on each of the front side and the rear side on which image light is projected. . Each light receiving unit 311 can receive a remote control signal of the remote controller 20 from each place in the light receiving areas Ar1 to Ar4 indicated by a one-dot chain line in FIG. 2, and converts the received remote control signal into an electric signal. Each is output to each decoder 312. Although not specifically shown, each light receiving unit 311 includes conversion means for photoelectrically converting the received remote control signal, and amplification means for amplifying the photoelectrically converted electric signal.
In the following, for convenience of explanation, as shown in FIG. 2, the two light receiving portions 311 provided on the front side are referred to as light receiving portions 311A and 311B, respectively, and the two light receiving portions 311 provided on the rear side are respectively light receiving portions 311C. , 311D. Further, as shown in FIG. 2, the receiving means 31 and the decoders 312 are also referred to as receiving means 31A to 31D and decoders 312A to 312D corresponding to the light receiving units 311A to 311D.

  As shown in FIG. 1, the four decoders 312 are connected to the respective light receiving units 311, decode the electric signals (remote control signals) output from the light receiving units 311, and control the decoded signals (operation signals), respectively, to the control unit 32. Output to.

The control unit 32 includes a CPU (Central Processing Unit) and the like, and executes predetermined processing according to a control program stored in the memory 324. As shown in FIG. 1, the control unit 32 includes a mode transition unit 321, a valid / invalid setting unit 322, a reception unit selection unit 323, and the like in addition to the memory 324.
In the remote control signal receiving device 30, the mode transition unit 321 sets each of the four receiving units 31 as valid or invalid, and valid / invalid setting information and priority order information described later stored in the memory 324. One of the receiving means 31 is selected from the receiving means 31, and each mode of the normal mode in which the decoded signal from the selected receiving means 31 is output to the main controller 40 is shifted.
Here, the priority order information is information relating to the priority order when the four receiving means 31 are selected, and is stored in the memory 324 in advance. In the following, the receiving unit 31A is set as “priority level: 1”, the receiving unit 31B is set as “priority level: 2”, the receiving unit 31C is set as “priority level: 3”, and the receiving unit 31D is set as “priority level: 4”. It is assumed that the priority order information thus stored is stored in the memory 324 in advance.

In the present embodiment, the mode transition unit 321 causes the remote control signal receiver 30 to switch to the normal mode when setting mode transition information indicating that the normal mode is shifted to the setting mode is input by the user's input operation on the remote controller 20. To set mode.
For example, a help button on the remote controller 20 is pressed by the user, and a remote control signal corresponding to the pressing of the help button is transmitted from the remote controller 20.
At least one receiving means 31 among the receiving means 31 receives the remote control signal from the remote controller 20 and outputs a decoded signal to the control means 32.
Based on the priority information stored in the memory 324, the mode transition unit 321 sequentially selects each receiving unit 31 until a decode signal is input.

For example, when the remote controller 20 is input at a location in the light receiving area Ar3 (FIG. 2) including a part of the light receiving area Ar4 (FIG. 2), the light receiving parts 311C, 311C, 311D, Only 311D can receive remote control signals.
In the above example, based on the priority order information, the mode transition unit 321 first selects the “priority level 1” receiving unit 31A and recognizes the output state of the decoded signal output from the receiving unit 31A. Since the remote control signal is not received by the receiving means 31A and the decode signal is not output from the receiving means 31A, the mode transition unit 321 determines that the receiving means 31B of “priority level: 2”, which is the next priority, is set. Select and recognize the output state of the decode signal output from the receiving means 31B. Similarly to the above, since the remote control signal is not received by the receiving means 31B, and no decoding signal is output from the receiving means 31B, the mode transition unit 321 receives “priority order: 3” which is the next priority order. The means 31C is selected, and the output state of the decoded signal output from the receiving means 31C is recognized. As described above, since the remote control signal is received by the receiving unit 31C, the mode transition unit 321 inputs the decode signal from the receiving unit 31C.
Then, the mode transition unit 321 recognizes that the help button on the remote controller 20 has been pressed by the user by inputting the decode signal. In addition, the mode transition unit 321 performs the case where the input state of the decode signal continues for a predetermined time (for example, 5 seconds), that is, when the help button of the remote controller 20 is continuously pressed by the user for the predetermined time. Recognizing that the setting mode transition information has been input, the mode is shifted from the normal mode to the setting mode. The mode transition unit 321 also causes the remote control signal receiving device 30 to transition to the setting mode and notifies the valid / invalid setting unit 322 and the main control device 40 that the remote control signal receiving device 30 has transitioned to the setting mode.

  The valid / invalid setting unit 322 sets each receiving unit 31 to be valid or invalid based on the output state of each decoded signal from each receiving unit 31 in the setting mode. The valid / invalid setting unit 322 sets each receiving unit 31 to valid or invalid, and then stores valid / invalid setting information indicating validity or invalidity of each receiving unit 31 in the memory 324. In addition, the valid / invalid setting unit 322 notifies the mode transition unit 321 and the main control device 40 that the setting has been completed. Then, the mode transition unit 321 causes the remote control signal receiving device 30 to transition from the setting mode to the normal mode. Further, the mode transition unit 321 notifies the reception unit selection unit 323 and the main control device 40 that the mode has been shifted to the normal mode.

  In the normal mode, the reception means selection unit 323 selects one of the reception means 31 based on the valid / invalid setting information and the priority information stored in the memory 324 and decodes the selected reception means 31. The signal is output to the main controller 40.

  The memory 324 stores, in addition to the control program for the remote control signal receiving device 30, valid / invalid setting information processed by the valid / invalid setting unit 322, priority order information necessary for processing by the mode transition unit 321 and the receiving means selection unit 323, and the like. Remember.

  The main control device 40 includes a CPU and the like, and controls the entire projector 1 according to a control program stored in a memory (not shown). For example, main controller 40 performs predetermined image processing on image data (image information) input from an external device or image data stored in a memory (not shown), and responds to the image data subjected to the image processing. The drive signal is output to the light modulation device 12 to form an image (image light). The predetermined image processing includes, for example, resolution conversion processing for adjusting the resolution to the resolution (number of pixels) of the light modulation device 12, image size adjustment processing such as enlargement / reduction, hue, chromaticity, contrast, sharpness, and luminance. Various image processing such as image quality correction processing such as synchronization and tracking, OSD image synthesis processing for combining OSD (on-screen display) images, trapezoidal distortion correction processing, and gamma correction processing can be exemplified.

[Operation of remote control signal receiver (control method)]
FIG. 3 is a flowchart for explaining the operation of the remote control signal receiving device 30.
FIG. 4 is a diagram for explaining the operation of the remote control signal receiving device 30.
Next, the operation of the remote control signal receiving device 30 described above will be described with reference to the drawings.
In the following, it is assumed that the projector 1 is installed in a state suspended from the ceiling. In addition, it is assumed that the fluorescent lamp Ns as a noise source is positioned on the rear side of the projector 1 (near the light receiving unit 311C) with the projector 1 suspended from the ceiling, as shown in FIG.
In the following, it is assumed that the power source of the projector 1 is turned on and the remote control signal receiving device 30 starts processing from the state set in the normal mode.

First, the mode transition unit 321 constantly monitors whether or not the remote controller 20 is input by the user and setting mode transition information is input (step S1).
In step S1, if the mode transition unit 321 determines "Y", the remote control signal receiving device 30 is transitioned from the normal mode to the setting mode (step S2: mode transition step). The mode transition unit 321 notifies the main control device 40 and the valid / invalid setting unit 322 that the mode has been shifted to the setting mode. Then, main controller 40 drives and controls image projection device 10 (light modulation device 12), and displays a warning screen Fg based on image data stored in a memory (not shown) on the screen.
Here, as shown in FIG. 4, the warning screen Fg is a screen on which a message that causes the user to stop the input operation of the remote controller 20 is described. Then, by confirming the warning screen Fg, the user does not perform the input operation of the remote controller 20 while the warning screen Fg is being displayed (in the setting mode).

After step S2, the valid / invalid setting unit 322 recognizes the output state of each decoded signal from each receiving means 31 (step S3: valid / invalid setting step).
Here, since the light receiving unit 311C is positioned in the vicinity of the fluorescent lamp Ns, the light receiving part 311C receives light from the fluorescent lamp Ns, performs photoelectric conversion, and continuously outputs an electric signal. For this reason, the decoder 312C decodes the electric signal from the light receiving unit 311C, and continuously outputs the decode signal corresponding to the light from the fluorescent lamp Ns instead of the remote control signal from the remote controller 20. . In the present embodiment, the other light receiving units 311A, 311B, and 311D are in a state in which the amount of light received from the fluorescent lamp Ns is small or light from the fluorescent lamp Ns is not received, and each receiving unit 31A , 31B, 31D are not output to the control means 32.

In step S3, the valid / invalid setting unit 322 sets “invalid” for the receiving unit 31C that has recognized that the decode signal is continuously output (step S4: valid / invalid setting step).
On the other hand, in step S3, the valid / invalid setting unit 322 sets the receiving means 31A, 31B, 31D recognized as not continuously outputting the decode signal to “valid” (step S5: valid / invalid setting). Step).

After steps S4 and S5, the valid / invalid setting unit 322 indicates that the receiving unit 31A is “valid”, the receiving unit 31B is “valid”, the receiving unit 31C is “invalid”, and the receiving unit 31D is “valid”. Valid / invalid setting information is stored in the memory 324 (step S6: valid / invalid setting step).
After step S <b> 6, the valid / invalid setting unit 322 notifies the mode transition unit 321 and the main control device 40 that the valid / invalid setting of each receiving unit 31 has been completed. Then, the mode transition unit 321 causes the remote control signal receiving device 30 to transition from the setting mode to the normal mode (step S7: mode transition step). Further, the mode transition unit 321 notifies the main control device 40 and the reception means selection unit 323 that the mode has been shifted to the normal mode. Then, the main control device 40 drives and controls the image projection device 10 (light modulation device 12), and stops displaying the warning screen Fg shown in FIG.

After step S7, the receiving means selection unit 323 constantly monitors whether or not a decoding signal is output from each receiving means 31, that is, whether or not the remote controller 20 has been input by the user (step S8).
In step S8, if the reception means selection unit 323 determines “Y”, one of the reception means 31 is selected based on the valid / invalid setting information and priority information stored in the memory 324. 31 is selected, and the decoded signal output from the selected receiving means 31 is output to the main controller 40 (step S9: receiving means selecting step).
Specifically, the receiving means selection unit 323 sets the receiving means 31A, 31B, and 31D that are set to be valid as selection targets and sets the receiving means 31C that is set to be invalid as non-selection targets as valid / invalid setting information. In addition, the reception means selection unit 323 sequentially receives the reception means 31A, 31B, 31D for the reception means 31A, 31B, 31D as selection targets until the decoding signals are input in the order of priority based on the priority order information. Select. Note that the selection method of the reception unit 31 by the reception unit selection unit 323 is the same as the selection method of the reception unit 31 by the mode transition unit 321 described above, and thus the description thereof is omitted.

For example, when the remote controller 20 is input at a location in the light receiving area Ar4 (FIG. 2) including a part of the light receiving area Ar3, only the light receiving sections 311C and 311D among the light receiving sections 311A to 311D are remote controllers. Can receive signals.
In the above example, the receiving means selection unit 323 sequentially receives the receiving means 31A, 31B, 31D as selection targets in order of priority based on the priority order information until the decoding signals are input. By selecting 31B and 31D, the receiving unit 31D is finally selected without selecting the receiving unit 31C affected by the noise. Then, the reception means selection unit 323 outputs the decoded signal from the selected reception means 31D to the main controller 40. Main controller 40 recognizes the input operation of remote controller 20 by the user based on the decoded signal from remote controller signal receiver 30 (receiver 31D), and performs control according to the input operation.

The first embodiment described above has the following effects.
In the present embodiment, the control means 32 configuring the remote control signal receiving device 30 includes a mode transition unit 321, a valid / invalid setting unit 322, and a reception unit selection unit 323. As a result, even if the receiving means 31C of each receiving means 31 is affected by noise from the fluorescent lamp Ns, it is not affected by noise and can receive a normal remote control signal. Any one of the receiving means 31A, 31B, 31D can be selected, and an appropriate decode signal corresponding to a normal remote control signal from the selected receiving means can be output to the main controller 40. For this reason, the projector 1 performs an appropriate operation according to the input operation of the remote controller 20 by the user by an appropriate decode signal output from the remote control signal receiving device 30.

  Further, as compared with the conventional configuration, it is not necessary to transmit a remote control signal including identification information from the remote controller 20, and it is not necessary to change the design of the remote controller 20. Further, it is not necessary to extract identification information from the remote control signal, collate the identification information with the registered identification information, and the circuit configuration of each receiving means 31 can be simplified. Furthermore, once valid / invalid of each receiving means 31 is set in the setting mode, processing for selecting the receiving means 31 according to the valid / invalid setting information and priority information in the normal mode. Therefore, the processing load of the remote control signal receiving device 30 does not increase.

  The projector 1 is often used with the apparatus main body suspended from the ceiling or installed at a predetermined height, that is, close to a noise source such as a fluorescent lamp Ns. Since there are many cases where the remote control signal receiving device 30 is installed at a position and used, the above-described effects can be suitably achieved by mounting the remote control signal receiving device 30 on the projector 1.

[Second Embodiment]
Next, 2nd Embodiment of this invention is described based on drawing.
FIG. 5 is a block diagram showing a configuration of a projector 1A as an electronic apparatus in the second embodiment.
In the first embodiment, the control means 32 constituting the remote control signal receiving device 30 sets the receiving means 31C that is affected by the noise from the fluorescent lamp Ns to “invalid” in the setting mode, and the influence of the noise. Receiving means 31A, 31B, 31D that have not been received are set to “valid”. In the normal mode, the control unit 32 selects one of the receiving units 31A, 31B, 31D set to “valid” based on the valid / invalid setting information and the priority order information. Yes.
On the other hand, in the second embodiment, in the remote control signal receiving device 30A constituting the projector 1A, the control unit 32A sets the priority order of the receiving units 31 based on the degree of influence of noise caused by the fluorescent lamp Ns. The priority order information stored in the memory 324 is updated. Then, the control unit 32A selects one of the receiving units 31 among the receiving units 31 based on the priority order information.
In the present embodiment, only the configuration of the control means 32A is different, and the other configurations are the same as those in the first embodiment.

As shown in FIG. 5, the control unit 32A includes a priority order setting unit 322A in addition to the mode transition unit 321, the reception unit selection unit 323, and the memory 324 described in the first embodiment.
The priority order setting unit 322A sets the priority order of each receiving unit 31 based on the output level of each decoded signal from each receiving unit 31 in the setting mode. Then, the priority order setting unit 322A updates the priority order information stored in the memory 324 to priority order information indicating the set priority order. Further, after setting the priority order of each receiving means 31, the priority order setting unit 322A sets the mode transition unit 321 and the main control device 40 in the same manner as the valid / invalid setting unit 322 described in the first embodiment. Notify completion.

Note that the receiving means selection unit 323 in this embodiment differs from the receiving means selection unit 323 described in the first embodiment only in priority order information stored in the memory 324 without using valid / invalid setting information. Based on this, any one of the receiving means 31 is selected, and the decoded signal from the selected receiving means 31 is output to the main control device 40.
Further, the memory 324 in the present embodiment does not store the valid / invalid setting information because the valid / invalid setting unit 322 described in the first embodiment is omitted.

Next, the operation of the remote control signal receiving device 30A in the second embodiment will be described with reference to the drawings.
FIG. 6 is a flowchart for explaining the operation of the remote control signal receiving device 30A.
Since the present embodiment is different from the first embodiment only in the process in the setting mode, only the process in the setting mode will be mainly described below, and the other processes will be described. Omitted.
In the following, unlike the first embodiment, each of the light receiving units 311A, 311B, 311D receives the light of the fluorescent lamp Ns in addition to the light receiving unit 311C positioned in the vicinity of the fluorescent lamp Ns. In addition, it is assumed that a decoding signal corresponding to the light from the fluorescent lamp Ns is also output from the receiving means 31A, 31B, 31D to the control means 32A.

After step S2, the priority setting unit 322A recognizes and compares the output level of each decoded signal from each receiving means 31 (step S11: priority setting step).
Here, as the distance from the fluorescent lamp Ns increases, that is, in the example shown in FIG. 2, the amount of light received from the fluorescent lamp Ns decreases in the order of the light receiving unit 311C, the light receiving unit 311A, the light receiving unit 311D, and the light receiving unit 311B. And In such a light receiving state of each light receiving unit 311, the output level of each decode signal output from each receiving unit 31 is in descending order of the amount of light received from the fluorescent lamp Ns (in order of increasing influence of noise by the fluorescent lamp Ns). That is, the receiving unit 31C, the receiving unit 31A, the receiving unit 31D, and the receiving unit 31B become smaller in this order.

  After step S11, the priority order setting unit 322A sets the priority order of the receiving means 31 in order of increasing output level of the decoded signals as a result of comparing the output levels of the decoded signals (step S12: priority order setting). Step). That is, in the priority order setting unit 322A, the receiving unit 31B has “priority level: 1”, the receiving unit 31D has “priority level: 2”, and the receiving unit 31A has “priority level” in ascending order of noise influence by the fluorescent lamp Ns. : 3 ”and the receiving means 31C sets the priority order as“ priority order: 4 ”.

After step S12, the priority order setting unit 322A updates the priority order information stored in the memory 324 to priority order information indicating the priority order set in step S12 (step S13: priority order setting step).
In step S9 in the normal mode, the reception means selection unit 323, based on the priority information stored in the memory 324, in the order of priority based on the priority information, that is, the reception means 31B, the reception means 31D, The receiving means 31 are sequentially selected until the decoding signal is input in the order of the receiving means 31A and the receiving means 31C. For example, when the remote controller 20 is input at a place in the light receiving area Ar4 (FIG. 2) including a part of the light receiving area Ar3, the receiving unit 31C having a high noise influence level is selected. Finally, the receiving means 31D is selected, and the decoded signal from the receiving means 31D is output to the main controller 40.

According to the second embodiment described above, there are the following effects in addition to the same effects as in the first embodiment.
In the present embodiment, the control means 32A constituting the remote control signal receiving device 30A includes a mode transition section 321, a priority setting section 322A, and a reception means selection section 323. Accordingly, even when at least one of the receiving means 31 is affected by noise from the fluorescent lamp Ns, the receiving means 31 having a low noise influence level is selected and the selected receiving means 31 is selected. Can be output to the main controller 40. For this reason, the projector 1A performs an appropriate operation according to an input operation of the remote controller 20 by the user by an appropriate decode signal output from the remote control signal receiving device 30.

  Even when all the receiving means 31 are affected by noise, the receiving means 31 having a low noise influence level is selected, and an appropriate decoded signal from the selected receiving means 31 is sent to the main control unit. Therefore, the projector 1 can be appropriately operated while avoiding a state in which the projector 1 does not operate even when the remote controller 20 is input.

  Further, once the priority order of each receiving means 31 is set once in the setting mode, the process only needs to select the receiving means 31 according to the priority order information in the normal mode. The processing load of 30 does not increase.

It should be noted that the present invention is not limited to the above-described embodiments, and modifications, improvements, and the like within the scope that can achieve the object of the present invention are included in the present invention.
In the above embodiment, the four light receiving units 311 (light receiving means 31) are configured, but the number is not particularly limited, and may be two, three, or four or more. In addition, the arrangement position of the light receiving unit 311 is not limited to the arrangement position described in the embodiment, and may be arranged at other positions.

  In the above-described embodiment, the mode transition unit 321 causes the remote control signal receivers 30 and 30A to transition from the normal mode to the setting mode when the remote controller 20 is input by the user and the setting mode transition information is input. However, it is not limited to this. For example, the projector 1 may be configured to automatically shift from the normal mode to the setting mode when the projector 1 is activated.

  In the first embodiment, the valid / invalid setting unit 322 sets the receiving unit 31 that continuously outputs the decoded signal to “invalid”, and sets the receiving unit 31 that does not continuously output the decoded signal to “ Although set to “valid”, the present invention is not limited to this. For example, the output level of the decoded signal is recognized, the receiving means 31 whose output level is equal to or higher than a predetermined threshold is set to “invalid”, and the receiving means 31 whose output level is lower than the predetermined threshold is set to “valid”. It does not matter as a configuration.

In the above-described embodiment, as the light modulation device 12, a DMD (Digital Micromirror Device) (trademark of Texas Instruments, Inc.) may be employed in addition to a transmissive liquid crystal panel and a reflective liquid crystal panel.
In the above-described embodiment, only the front type projector 1 that performs image projection from the direction of observing the screen is illustrated, but the present invention also applies to a rear type projector that projects image from the side opposite to the direction of observing the screen. Applicable.
In the embodiment, the projector is adopted as the electronic device. However, the present invention is not limited to this, and any electronic device that can be operated by a remote controller and includes a remote control signal receiving device, for example, a personal computer, a liquid crystal television, a plasma television, an organic EL Other electronic devices such as a television receiver equipped with display means such as a display, an HDD (Hard Disk Drive) recorder, and a DVD (Digital Versatile Disk) player may be employed.

  The remote control signal receiving apparatus of the present invention can be used in electronic devices such as projectors used in presentations and home theaters because the configuration can be simplified and an appropriate operation signal can be output to the outside without increasing the processing load. .

FIG. 2 is a block diagram showing a configuration of a projector as an electronic device in the first embodiment. The figure which shows typically the arrangement | positioning position of the four light-receiving parts in the said embodiment. The flowchart explaining operation | movement of the remote control signal receiver in the said embodiment. The figure for demonstrating operation | movement of the remote control signal receiver in the said embodiment. The block diagram which shows the structure of the projector as an electronic device in 2nd Embodiment. The flowchart explaining operation | movement of the remote control signal receiver in the said embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1,1A ... Projector (electronic device), 11 ... Light source device, 12 ... Light modulation device, 13 ... Projection optical device, 20 ... Remote controller, 30, 30A ... Remote control signal Receiving device, 31 ... receiving means, 32, 32A ... control means, 40 ... main control device, 321 ... mode transition unit, 322 ... valid / invalid setting unit, 322A ... priority order Setting unit, 323... Receiving means selecting unit, S2, S7... Mode transition step, S3 to S6... Valid / invalid setting step, S9... Receiving means selecting step, S11 to S13. Setting step.

Claims (6)

A remote control signal receiving device comprising: a plurality of receiving means for receiving a remote control signal from a remote controller and outputting an operation signal corresponding to the received remote control signal; and a control means for controlling the plurality of receiving means,
The control means includes
A normal mode in which any one of the plurality of receiving units is selected and the operation signal from the selected receiving unit is output to the outside, and a setting mode in which the plurality of receiving units are set to be valid or invalid, respectively. A mode transition unit for transition to each mode of
In the setting mode, based on the output state of each operation signal from the plurality of receiving means, an effective / invalid setting unit that sets the plurality of receiving means to be valid or invalid, respectively,
A receiving means selecting section for selecting the receiving means set to be valid by the valid / invalid setting section and outputting the operation signal from the selected receiving means to the outside in the normal mode; A remote control signal receiving device. In a remote control signal receiving device comprising a plurality of receiving means for receiving a remote control signal from a remote controller and outputting an operation signal according to the received remote control signal, and a control means for controlling the plurality of receiving means,
The control means includes
Each of the normal mode for selecting any one of the plurality of receiving means and outputting the operation signal from the selected receiving means to the outside, and the setting mode for setting the priority order of the plurality of receiving means A mode transition part for transitioning to a mode;
A priority order setting unit configured to set a priority order of the plurality of receiving means based on an output level of each of the operation signals from the plurality of receiving means in the setting mode;
A receiving means selecting section for selecting the receiving means based on the priority set by the priority setting section and outputting the operation signal from the selected receiving means to the outside in the normal mode; A remote control signal receiving device. A control method for a remote control signal receiving device comprising: a plurality of receiving means for receiving a remote control signal from a remote controller and outputting an operation signal corresponding to the received remote control signal; and a control means for controlling the plurality of receiving means. There,
The control means is
A normal mode in which any one of the plurality of receiving units is selected and the operation signal from the selected receiving unit is output to the outside, and a setting mode in which the plurality of receiving units are set to be valid or invalid, respectively. A mode transition step for transitioning to each of the modes,
In the setting mode, based on the output state of each operation signal from the plurality of receiving means, an effective / invalid setting step for setting the plurality of receiving means to be valid or invalid, respectively,
In the normal mode, the receiving means selected in the valid / invalid setting step is selected, and the receiving means selection step of outputting the operation signal from the selected receiving means to the outside is executed. Control method. A control method for a remote control signal receiving device comprising: a plurality of receiving means for receiving a remote control signal from a remote controller and outputting an operation signal corresponding to the received remote control signal; and a control means for controlling the plurality of receiving means. There,
The control means is
Each of the normal mode for selecting any one of the plurality of receiving means and outputting the operation signal from the selected receiving means to the outside, and the setting mode for setting the priority order of the plurality of receiving means A mode transition step for transitioning to a mode;
A priority order setting step for setting a priority order of the plurality of receiving means based on an output level of each of the operation signals from the plurality of receiving means in the setting mode;
In the normal mode, the receiving means is selected based on the priority set in the priority setting step, and the receiving means selecting step for outputting the operation signal from the selected receiving means to the outside is executed. A control method characterized by that.   A remote control signal receiving device according to claim 1 or 2, and a main control device that performs control according to an input operation of a remote controller based on an operation signal output from the remote control signal receiving device. An electronic device characterized by The electronic device according to claim 5,
The electronic apparatus includes a light source device, a light modulation device that modulates a light beam emitted from the light source device according to image information, and a projection optical device that enlarges and projects the light beam modulated by the light modulation device. An electronic device characterized by being a projector.

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