WO2019066170A1 - Display device and control method therefor - Google Patents

Abstract

The purpose according to the present invention relates to a display device comprising: a connection unit for connection to an external device; a signal reception unit for receiving an image signal from an external device; a display unit for displaying an image on the basis of an image signal; and a processor for receiving, from an external device, an audio signal output in response to a control signal transmitted to the external device, and determining whether the external device has operated in response to the transmitted control signal, on the basis of whether a time point at which the control signal has been transmitted matches with a silent section included in the audio signal.

Description

Display device and control method thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device and a control method thereof, and more particularly, to a display device for controlling an external device by an IR signal and a control method thereof.

In recent years, technologies for controlling various devices using a single remote controller, rather than a separate remote controller for controlling each device, have been developed in controlling the TV and peripheral devices.

In order to use the existing integrated remote controller, the user has to manually set the IR code set corresponding to the type of the device and the device, and set the operation by performing the operation test.

However, this method has inconvenience that the user has to change the type of the device directly, and a user who is not familiar with this process may experience several failures in the setting process.

In addition, when the device is controlled by using the integrated remote controller after setting the device, it sometimes happens that the actual device can not confirm whether it has been operated by receiving the infrared (infrared) signal.

It is therefore an object of the present invention to provide a display device and a control method thereof for detecting whether an external device is actually operated by an IR signal in controlling an external device using an IR signal.

It is still another object of the present invention to provide a display device and a control method thereof for automatically setting an external device type in controlling an external device using an IR signal.

According to an aspect of the present invention, there is provided a display device, comprising: a connection unit for connecting to an external device; A signal receiving unit for receiving a video signal from an external device; A display unit for displaying an image based on a video signal; A control unit for receiving an audio signal output in response to a control signal transmitted from an external device to an external device and for receiving a control signal transmitted from an external device based on whether a time point at which the control signal is transmitted and a silent interval included in the audio signal, And a display device including a processor for determining whether the display device has been operated in response to the operation of the display device.

According to the embodiment of the present invention, it is possible to easily determine whether the external device is actually operating with respect to the IR control signal transmitted according to the user input. In addition, by automatically setting the type of the external device, it is possible to solve the inconvenience that the user has to manually change the type of the device.

And a signal transmitter for transmitting the control signal to the external device. Accordingly, the external device can be controlled by transmitting the IR signal directly to the external device from the TV, not from the remote controller.

The processor may transmit a dispatch command and the signal transfer unit may transmit the control signal to the external apparatus in accordance with the dispatched dispatch command. Accordingly, since the MCU (Micro contoller unit) of the TV performs both the IR blasting function and the audio signal output operation from the external device, it is possible to prevent an error of the external device corresponding to the IR signal It is possible to more accurately detect whether or not the operation is performed.

Wherein the display device further comprises a second processor for transmitting a dispatch command and the signal transfer section transmits the control signal to the external device in accordance with the transmitted dispatch command, And determine the transmission time point of the control signal. Accordingly, the IR blasting function and the audio signal sensing operation can be distributed to the two processors by performing the IR blasting function in the CPU operating separately from the MCU of the TV.

Wherein the display device further includes a communication unit for communicating with the remote controller, wherein the processor transmits a transmission command for transmitting the control signal to the external device by the remote controller, receives time information from the remote controller, It is possible to determine the transmission time point of the control signal. Accordingly, when a remote controller other than the TV performs the IR blasting function, the MCU of the TV receives the information about the transmission time of the IR signal from the remote controller and can determine the silent interval considering the error due to the time delay.

The processor may determine an identification code corresponding to the transmitted control signal among the plurality of identification codes as an identification code of the external apparatus. Accordingly, it is possible to detect the type of the external device by checking the IR code set when the external device operates by the IR signal among the plurality of IR code sets.

The control signal may include a channel switching command for the received video signal. Accordingly, it is possible to determine whether the external device is operating by transmitting an IR signal corresponding to a channel up or down command.

The processor may determine the matching based on a delay generated in the process of transmitting the control signal. Accordingly, it is possible to determine a silence period corresponding to the transmission time of the IR signal in consideration of the error caused by the temporal delay caused by the inter-device communication and the performance of the external device.

The processor may determine whether the external device has operated in response to the transmitted control signal based further on whether the video signal corresponding to the time point at which the control signal is transmitted includes a specific image. Accordingly, when it is difficult to determine whether the external device operates based on the audio signal output from the external device, it is possible to determine whether the external device is operating by using whether or not the logo corresponding to the specific content provider among the displayed images is included have.

This object is achieved according to the present invention by a computer program product comprising: a memory in which instructions are stored; And a processor that, when executed by the processor, receives an audio signal output in response to a control signal transmitted from an external device to an external device, and when the control signal is transmitted, And determining whether the external device has operated in response to the transmitted control signal based on whether or not the external device is matched.

According to an embodiment of the present invention, an operation for determining whether an external device is actually operated on an IR signal transmitted according to a user input may be implemented by a computer program.

The instruction may include determining an identification code corresponding to the transmitted control signal among a plurality of identification codes as an identification code of the external device. Accordingly, the operation of detecting the type of the external device by checking the IR code set when the external device operates by the IR signal among the plurality of IR code sets can be implemented by a computer program.

According to another aspect of the present invention, there is provided a method of controlling a display device, comprising: receiving a video signal from an external device; Displaying an image based on a video signal; Receiving an audio signal output in response to a control signal transmitted from an external device to an external device; And determining whether the external device has operated in response to the transmitted control signal based on whether the control signal is transmitted and whether or not the audio signal is matched with the silent interval included in the audio signal. have.

According to the embodiment of the present invention, it is possible to easily determine whether the external device is actually operating with respect to the IR control signal transmitted according to the user input. In addition, by automatically setting the type of the external device, it is possible to solve the inconvenience that the user has to manually change the type of the device.

The method may further include transmitting the control signal to the external device by a signal transmitting unit. Accordingly, the external device can be controlled by transmitting the IR signal directly to the external device from the TV, not from the remote controller.

The method comprises: transmitting, by a processor, a dispatch command; And transmitting the control signal to the external device in response to the transmitted transmission command. Accordingly, since the MCU (Micro contoller unit) of the TV performs both the IR blasting function and the audio signal output operation from the external device, it is possible to prevent an error of the external device corresponding to the IR signal It is possible to more accurately detect whether or not the operation is performed.

The method comprises: transmitting, by a second processor, a dispatch command; Transmitting the control signal to the external device in response to the transmitted transmission command; And receiving time information from the second processor and determining a transmission time point of the control signal. Accordingly, the IR blasting function and the audio signal sensing operation can be performed by the two processors by performing the IR blasting function in the CPU operating separately from the MCU of the TV.

The method includes: communicating with a remote controller; Transmitting an outgoing command for transmitting the control signal to the external device by the remote controller; And receiving the time information from the remote controller and determining a transmission time point of the control signal. Accordingly, when a remote controller other than the TV performs the IR blasting function, the MCU of the TV receives the information about the transmission time of the IR signal from the remote controller and can determine the silent interval considering the error due to the time delay.

The method may include determining an identification code corresponding to the transmitted control signal among a plurality of identification codes as an identification code of the external device. Accordingly, it is possible to detect the type of the external device by checking the IR code set when the external device operates by the IR signal among the plurality of IR code sets.

The control signal may include a channel switching command for the received video signal. Accordingly, it is possible to determine whether the external device is operating by transmitting an IR signal corresponding to a channel up or down command.

The method may further include determining whether the matching is based on a delay generated in the process of transmitting the control signal. Accordingly, it is possible to determine a silence period corresponding to the transmission time of the IR signal in consideration of the error caused by the temporal delay caused by the inter-device communication and the performance of the external device.

The method may further include determining whether the external device has operated in response to the transmitted control signal based further on whether the video signal corresponding to the time point at which the control signal is transmitted includes a specific image . Accordingly, when it is difficult to determine whether the external device operates based on the audio signal output from the external device, it is possible to determine whether the external device is operating by using whether or not the logo corresponding to the specific content provider among the displayed images is included have.

As described above, according to the present invention, when an external device is controlled using an IR signal, it is possible to detect whether the external device is actually operated by an IR signal.

In addition, according to the present invention, when controlling an external device using an IR signal, it is possible to automatically set the type of the external device, thereby eliminating the inconvenience that the user has to manually change the type of the device.

1 is a schematic view showing an interface between a display device, a remote controller, and an external device according to an embodiment of the present invention.

2 is a block diagram showing the configuration of a display device according to an embodiment of the present invention.

3 is a diagram illustrating an example of a flow of operation between a first processor, a second processor, and an external device of a TV according to an embodiment of the present invention.

4 is a block diagram showing the configuration of a display device according to an embodiment of the present invention.

5 is a diagram illustrating an example of a flow of operations between a first processor, a second processor, and an external device of a TV according to an embodiment of the present invention.

6 is a block diagram showing the configuration of a display device according to an embodiment of the present invention.

7 is a flowchart illustrating an operation flow between a first processor, a second processor, a remote controller, and an external device of a TV according to an embodiment of the present invention.

FIG. 8 illustrates an example of a silent interval of an audio signal according to an embodiment of the present invention. Referring to FIG.

9 is an example of a case where the transmission time of the IR control signal is not matched with the silent interval according to the embodiment of the present invention.

10 is a flowchart illustrating an example of recognizing a type of an external device based on an audio signal according to an embodiment of the present invention.

11 is a flowchart illustrating an example of determining whether an external apparatus is operated based on an audio signal according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

1 is a schematic diagram showing an interface between a display device 10, a remote controller 21 and an external device 20 according to an embodiment of the present invention. 1, the display device 10 of the present invention receives a user input from a remote controller 21 and transmits an IR control signal to the external device 20 based on the received user input. The display device 10 may be implemented as a TV, for example. At this time, the IR control signal may include, for example, a channel up or channel down command.

The external device 20 performs an operation corresponding to the IR control signal received from the display device 10. [ The external device 20 may be implemented as a set-top box, for example, in which the external device 20 is an operation corresponding to an IR control signal such as channel up or down, Can be performed.

When the external device 20 performs the channel tuning operation in response to the IR control signal, the display device 10 receives the video signal and the audio signal output from the external device 20 as a result of performing the channel tuning operation.

As described above, in the process of transmitting the IR control signal to the external device 20, it is necessary for the display device 10 to check whether the external device 20 operates properly according to the user's operation by the remote controller 21 have.

To this end, the display device 10 can confirm whether the normal operation is performed by checking a signal received from the external device 20 in response to a user's operation.

For example, it is possible to determine whether or not the operation time of the user is temporally matched between the time indicated by the operation corresponding part included in the signal received from the external device 20.

In one embodiment of the present invention, the display device 10 detects a mute period as a part corresponding to a user's operation of an audio signal received from the external device 20. [ The silent interval is an interval during which no audio signal is output, and it is determined that the external device 20 normally operates in response to a user's operation time.

Specifically, on the basis of whether or not the transmission time point of the IR control signal corresponding to the operating point of the user is matched with the silent section of the audio signal received from the external device 20, the display device 10 displays the IR It is determined whether or not it has operated normally in response to the control signal.

The display device 10 according to the present invention can easily determine whether the external device 20 is actually operating with respect to the IR control signal transmitted to the external device 20 using an audio signal .

Hereinafter, the configuration of the display device 10 of the present invention and the flow of operation with the external device 20 will be described with reference to Figs. 2 to 7. Fig.

2 is a block diagram showing the configuration of a display device according to an embodiment of the present invention. 2, the display device 10 of the present invention includes a connection unit 11, a signal receiving unit 12, a signal processing unit 13, a display unit 14, an audio output unit 15, The first processor 17, the second processor 16, and the signal transmitter 18, and may further include a storage unit 19. The display device 10 may be implemented as a TV, for example, and is connected to an external device 20 such as a set-top box via a connection 11.

Further, the display apparatus 10 may further include a communication unit (see 181 in FIG. 6) for communicating with the remote controller (see reference numeral 21 in FIG. 6). In this case, the display device 10 can transmit the IR control signal to the external device 20 based on the user input received from the remote controller 21. [ The configuration included in the display device 10 is not limited to the embodiment of the present invention, but may be configured excluding some configurations, or may be implemented including additional other configurations.

The display device 10 of the present invention can determine whether or not the external device 20 actually operates with respect to the IR control signal transmitted to the external device 20 by using the above configuration.

The connection unit 11 is connected to the external device 20 and includes a connection terminal for connection with the external device 20 by wire. The connection unit 11 may be implemented, for example, in the form of an HDMI-CEC. The display device 10 receives the video signal and the audio signal output from the external device 20 through the connection unit 11 and outputs the video signal and the audio signal to the display unit 14 and the audio output unit 15.

The signal receiving unit 12 receives a video signal and an audio signal input from the external device 20 through the connection unit 11. [ The video signal may comprise, for example, a video or graphics signal. The signal receiving unit 12 may be provided in various formats according to the standard of the received video signal and the implementation form of the display device 10. [ For example, the signal receiving unit 12 may be implemented as a tuner that receives an RF (Radio Frequency) broadcast signal or a satellite signal transmitted from a broadcasting station. As another example, the signal receiving unit 12 may receive a video signal from a High Definition Multimedia Interface (HDMI) device such as a DVD player, a game machine, or a PC.

The signal processing unit 13 performs a predetermined signal processing process on the video signal and the audio signal received by the signal receiving unit 12. Examples of the signal processing performed by the signal processing unit 13 include demultiplexing, decoding, de-interlacing, scaling, noise reduction, detail enhancement ), And the kind thereof is not limited. The signal processing unit 13 may be implemented as a system-on-chip (SOC) that integrates various functions or an image processing board equipped with individual components capable of independently performing each process.

The display unit 14 displays an image on the basis of the video signal processed by the signal processing unit 13. The display unit 14 may be implemented in various forms such as a PDP (Plasma Display Panel), an LCD (Liquid Crystal Display), an OLED (Organic Light Emitting Diodes), a flexible display, . ≪ / RTI >

The audio output unit 15 outputs the audio signal processed by the signal processing unit 13. [ The audio output unit 15 may be implemented by, for example, a speaker.

The signal transmitting unit 18 transmits the IR control signal to the external device 20 in response to the transmission command. The signal transmission unit 18 may be implemented by, for example, an infrared light emitting diode (IR).

The storage unit 19 stores an IR code set corresponding to a plurality of content providers. The display device 10 can control the external device 20 using the IR control signal by setting an IR code corresponding to the external device 20 among the IR code sets stored in the storage unit 19. [

In the illustrated example, the first processor 17 performs both the transmission of the IR control signal and the detection of the audio signal to determine whether the external device 20 operates.

The first processor 17 is implemented as an MCU (Micro Controller Unit) capable of performing an IR blasting function. The first processor 17 transmits an IR control signal transmission command to the signal transmitter 18 based on the user input received from the remote controller (see reference numeral 21 in FIG. 6). At this time, the signal transmitting unit 18 transmits an IR control signal to the external device 20 in accordance with the transmitted transmission command.

The first processor 17 monitors the audio signal received from the external device 20 and output through the audio output unit 15 in response to the transmitted IR control signal to determine whether the external device 20 operates normally .

In one embodiment, the first processor 17 determines whether there is a portion corresponding to the user operation in the output audio signal and if the time of the portion matches the user operation time. Here, It is determined whether or not a silent section exists as a part corresponding to a user operation of the audio signal. The silent interval is an interval during which the audio signal is not output, and it can be determined that the external device 20 normally operates when the audio signal is generated in response to the user's operation time.

Specifically, the first processor 17 compares the time at which the IR control signal is transmitted to the external device 20 and the silent interval of the audio signal output through the audio output unit 15. For example, when the transmission time point of the IR control signal and the silent interval match, it is determined that the external device 20 operates in response to the IR control signal.

As another example, when the transmission time point of the IR control signal and the silent interval do not match, it is determined that the external device 20 does not operate properly in response to the IR control signal. For example, when transmitting the IR control signal corresponding to the channel up, if the silent interval is not generated in the output audio signal, it is determined that the external device 20 is not controlled.

In this case, the first processor 17 retransmits the transmission command of the IR control signal to the signal transmission unit 18 so as to retry control of the external apparatus 20, And to take measures such as moving.

The operation of the first processor 17 as described above can be illustrated as the flowchart of FIG. As shown in Fig. 11, first, in operation S111, the IR control signal corresponding to the channel up or channel down command is transmitted to the external device 20. [

Next, in operation S112, in response to the transmitted IR control signal, the sound output from the external device 20 is judged as a break phenomenon, that is, a silent section. As a result of the determination, if there is a silent section, it is determined in operation S113 that the external device 20 is operated with respect to the transmitted IR control signal.

If it is determined in operation S112 that the silent interval does not occur in response to the transmitted IR control signal, it is determined that the external device 20 is not operated with respect to the transmitted IR control signal.

According to the flow of the above-described operation, the first processor 17 can judge whether the external device 20 operates properly in response to a user operation.

In one embodiment, the first processor 17 sets the first IR code corresponding to the first content provider among the IR code sets stored in the storage unit 19, and then transmits an IR control signal transmission command Unit 18 as shown in FIG.

If the silent interval of the audio signal is not detected in response to the IR control signal transmitted to the external device 20 according to the dispatch command, the first processor 17 determines that the set first IR code is suitable for the external device 20 . In this case, the first processor 17 changes the predetermined first IR code to a second IR code corresponding to the second content provider among the IR code sets stored in the storage unit 19 and sets the second IR code. At this time, the IR control signal may be retransmitted to determine whether the second IR code is suitable for the external device 20 according to whether the silent interval is detected.

As described above, the first processor 17 sequentially changes a plurality of IR codes included in the IR code set, and automatically sets an appropriate IR code for controlling the external device 20 according to whether the silent interval is detected have. Accordingly, it is possible to obtain information as to which content provider the external device 20 provides the service of the channel corresponding to.

The second processor 16 is implemented as a CPU (Central Processing Unit) separately provided from an MCU (Micro Controller Unit). The second processor 16 executes at least one processor that controls the display device 10 to perform operations of the respective configurations of the display device 10 to perform a plurality of functions.

The second processor 16 processes the video signal and the audio signal received through the connection unit 11 and controls the signal processor 13 to be output to the display unit 14 and the audio output unit 15, respectively. Accordingly, the second processor 16 analyzes the audio signal output from the audio output unit 15 so that the first processor 17 can determine whether there is a silent section.

3 is a diagram illustrating an example of a flow of operation between a first processor, a second processor, and an external device of a TV according to an embodiment of the present invention. The example shown in Fig. 3 corresponds to the configuration of the display device 10 shown in Fig. 2, in which the first processor 17 performs both the transmission of the IR control signal and the monitoring function of the audio signal, 20 to the second processor 16 and the external device 20 in order to determine whether or not the second processor 16 and the external device 20 are operating normally.

First, in operation S31, the first processor 17 transmits an IR control signal transmission command, and in operation S32, transmits the IR control signal to the external device 20 through the signal transmission unit 18. [ At this time, in operation S33, the first processor 17 stores the transmission time point of the IR control signal.

Next, in operation S34, the external device 20 performs an operation based on the transmitted IR control signal. In one embodiment, operation S34 may include an operation of changing the channel to perform the tuning in accordance with the channel conversion command included in the IR control signal. Here, the channel conversion command may include a channel up or channel down command, and the external device 20 performs tuning on the corresponding channel for each command.

Next, in operation S35, the second processor 16 receives the video signal and the audio signal of the tuned channel from the external device 20 in accordance with the IR control signal.

In operation S36, the second processor 16 controls to perform a signal processing process on the received audio signal, and controls operation S37 to output the processed audio signal.

In operation S38, the first processor 17 detects the audio signal output from the audio output unit 15 under the control of the second processor 16. [ At this time, the operation S38 includes an operation of detecting whether or not there is a silent section in which the signal of the entire section of the output audio signal is in the low power state.

Next, in operation S39, the first processor 17 determines whether the transmission time of the IR control signal stored in operation S33 and the silent interval of the audio signal detected in operation S38 are matched. Finally, in operation S391, the first processor 17 determines whether the external device 20 operates normally according to whether the IR control signal determined in operation S39 is matched between the transmission time point and the silent interval. For example, when the transmission time point of the IR control signal coincides with the silent interval, it can be determined that the external device 20 operates properly with respect to the IR control signal.

When it is difficult to determine whether or not the external device 20 operates based on the audio signal output from the external device 20, It may be determined whether the external device 20 is operated using an image corresponding to the content provider, for example, whether or not a logo is included.

4 is a block diagram showing the configuration of a display device according to an embodiment of the present invention. As shown in FIG. 4, the display device 10 includes the same configuration as the display device 10 of FIG. 2, so a detailed description thereof will be omitted and only differences will be described .

In the illustrated example, the second processor 16 controls the transmission of the IR control signal, and the first processor 17 performs the audio signal sensing function to determine whether the external device 20 is operating.

The second processor 16 is implemented as a CPU (Central Processing Unit) separately provided from an MCU (Micro Controller Unit). The second processor 16 transmits an IR control signal transmission command to the signal transmission section 18 based on the user input received from the remote controller (see reference numeral 21 in FIG. 6). At this time, the signal transmitting unit 18 transmits an IR control signal to the external device 20 in accordance with the transmitted transmission command.

The first processor 17 receives an audio signal received from the external device 20 and outputted through the audio output unit 15 in response to the IR control signal transmitted by the second processor 16.

The first processor 17 compares the time at which the IR control signal is transmitted to the external device 20 and the silent interval of the audio signal output through the audio output unit 15. At this time, information on the time when the IR control signal is transmitted is acquired from the second processor 16.

For example, when the transmission time point of the IR control signal matches the silent interval, it is determined that the external device 20 has operated normally in response to the IR control signal.

As another example, when the transmission time point of the IR control signal and the silent interval do not match, it may be determined that a time delay occurs between the transmission time point of the IR control signal and the silent interval. In this case, although the external device 20 actually operates, a silent period may not be detected due to a time delay.

Therefore, in this case, it is possible to determine the possibility of error due to the temporal delay, and to determine whether the time point added by the delayed time from the transmission time of the IR control signal is matched with the silent interval.

According to the embodiment of the present invention as described above, the first processor 17 may control the IR control signal to be transmitted to the external device (or the external device) according to whether the IR control signal acquired from the second processor 16 is matched between the transmission time point and the silent interval 20 have been operated.

5 is a diagram illustrating an example of a flow of operations between a first processor, a second processor, and an external device of a TV according to an embodiment of the present invention. The example shown in Fig. 5 corresponds to the configuration of the display device 10 shown in Fig. 4, in which the second processor 16 controls the transmission of the IR control signal, and the first processor 17 transmits the audio signal And interfacing with the second processor 16 and the external device 20 in order to determine whether the external device 20 is operating normally.

First, in operation S51, the second processor 16 transmits an IR control signal transmission command, and in operation S52, transmits an IR control signal to the external device 20 through the signal transmission unit 18. [ At this time, in the operation S53, the second processor 16 transfers the transmission time point of the IR control signal to the first processor 17.

Next, in operation S54, the external device 20 performs an operation based on the transmitted IR control signal. In one embodiment, operation S54 may include an operation of changing the channel to perform the tuning in accordance with the channel conversion command included in the IR control signal.

Next, in operation S55, the second processor 16 receives the video signal and the audio signal of the tuned channel from the external device 20 in accordance with the IR control signal.

In operation S56, the second processor 16 controls to perform a signal processing process on the received audio signal, and in operation S57, controls to output the processed audio signal.

In operation S58, the first processor 17 detects the audio signal output from the audio output unit 15 under the control of the second processor 16. [ At this time, the operation S58 includes an operation of detecting whether or not there is a silent section in which the signal is out of the entire section of the output audio signal.

Next, in operation S59, the first processor 17 determines whether the transmission time of the IR control signal transmitted from the second processor 16 in operation S53 matches the silent section of the audio signal detected in operation S58.

For example, if the silent interval of the output audio signal is not detected, it can be determined that the transmission time of the IR control signal does not match the silent interval.

In the illustrated example, when the first processor 17 and the second processor 16 distribute the operation for determining whether the external device 20 is operating, a time delay may occur due to communication between the two processors have. In this case, it is possible to determine whether the external device 20 operates according to whether the delayed time is added to the transmission time point of the IR control signal and whether the silent interval is matched.

Finally, in operation S591, the first processor 17 determines whether the external device 20 operates normally according to whether the IR control signal determined in operation S59 is matched between the transmission time point and the silent interval.

6 is a block diagram showing the configuration of a display device according to an embodiment of the present invention. 6, the display device 10 includes the same configuration as that of the display device 10 of FIG. 2 except for the signal transmitter 18, and includes a communication unit (not shown) for communicating with the remote controller 21 181). Therefore, a detailed description of the same configuration will be omitted, and only differences will be described.

In the illustrated example, the remote controller 21 transmits the IR control signal, and the first processor 17 performs the audio signal sensing function to determine whether the external device 20 operates.

The first processor 17 is implemented as an MCU and transmits an IR control signal transmission command to the remote controller 21 through the communication unit 181. [ Accordingly, the remote controller 21 transmits the IR control signal to the external device 20 in accordance with the dispatch command transmitted from the first processor 17. [

The first processor 17 receives the audio signal received from the external device 20 and outputted through the audio output unit 15 in response to the IR control signal transmitted by the remote controller 21. [

The first processor 17 compares the time at which the remote controller 21 transmits the IR control signal to the external device 20 and the silent interval of the audio signal output through the audio output unit 15 matches. At this time, the information about the time point at which the IR control signal is transmitted is acquired from the remote controller 21 through the communication unit 181. [

For example, when the transmission time point of the IR control signal and the silent interval match, it is determined that the external device 20 operates in response to the IR control signal.

According to the embodiment of the present invention as described above, the first processor 17 controls the external device 20 (20) in response to the IR control signal according to whether the IR control signal acquired from the remote controller 21 is matched between the transmission time point of the IR control signal and the silent interval ) Has been operated.

7 is a flowchart illustrating an operation flow between a first processor, a second processor, a remote controller, and an external device of a TV according to an embodiment of the present invention. The example shown in Fig. 7 corresponds to the configuration of the display device 10 shown in Fig. 6, in which the remote controller 21 performs transmission of the IR control signal, and the first processor 17 An example of a flow of an operation of interfacing with the second processor 16 and the external device 20 in order to determine whether the external device 20 operates normally by performing a monitoring function.

First, in operation S71, the first processor 17 transmits an IR control signal transmission command to the remote controller 21 through the communication unit 181. [ In operation S72, the remote controller 21 transmits the IR control signal to the external device 20 in accordance with the transmission command transmitted from the first processor 17. [ At this time, in the operation S73, the first processor 17 receives the transmission time point of the IR control signal from the remote controller 21 through the communication unit 181. [

Next, in operation S74, the external device 20 performs an operation based on the transmitted IR control signal.

Next, in operation S75, the second processor 16 receives the video signal and the audio signal of the tuned channel from the external device 20 in accordance with the IR control signal.

In operation S76, the second processor 16 controls to perform the signal processing process on the received audio signal, and in operation S77, controls to output the processed audio signal.

In operation S78, the first processor 17 detects the audio signal output from the audio output unit 15 under the control of the second processor 16. [ At this time, the operation S78 includes an operation of detecting the existence of a silent section in the entire section of the output audio signal.

Next, in operation S79, the first processor 17 determines whether the transmission time of the IR control signal received from the remote controller 21 in operation S73 and the silent section of the audio signal detected in operation S78 are matched.

In the illustrated example, when the first processor 17 and the remote controller 21 distribute the operation for determining whether or not the external device 20 operates, the first processor 17 and the remote controller 21 Time delay may occur due to communication. In this case, it is possible to determine whether the external device 20 operates according to whether the delayed time is added to the transmission time point of the IR control signal and whether the silent interval is matched.

Finally, in operation S791, the first processor 17 determines whether the external device 20 operates normally according to whether the IR control signal determined in operation S79 is matched between the transmission time point and the silent interval. For example, when the transmission time point of the IR control signal coincides with the silent interval, it can be determined that the external device 20 operates normally with respect to the IR control signal.

FIG. 8 illustrates an example of a silent interval of an audio signal according to an embodiment of the present invention. Referring to FIG. 8, the display device 10 according to an embodiment of the present invention transmits a channel operation key command corresponding to an IR control signal to an external device 20 such as a set-top box, It is possible to switch the image 81 of the first channel to the image 82 of the second channel.

At this time, whether or not the set-top box has actually performed the channel switching operation by the channel operation key command can be determined by the audio signal 88 received from the set-top box.

In one embodiment, the first processor 17 of the display device 10 receives the audio signal 88 from the set-top box and outputs the audio signal 88 of the silent section 84 corresponding to the low- It detects whether or not it occurs. If it is determined that the silent interval 84 has occurred, it can be determined that the set-top box actually performs the channel switching operation by the channel operation key command.

In one embodiment, the first processor 17 of the display device 10 determines that the silent interval 84 included in the audio signal 88 received from the set-top box and output via the speaker is equal to the transmission time of the channel operation key command . If it is determined that the two viewpoints coincide with each other, it can be determined that the set-top box has actually performed the channel switching operation by the channel operation key command.

As another example, if the silent interval 84 included in the audio signal 88 is sensed but the silent interval 84 does not match the transmission time of the channel operation key command, It is determined whether a time delay has occurred.

At this time, when a delay occurs due to communication between devices or the performance of a set-top box, the delay time is reflected on the transmission time point of the channel operation key command, and then two points of time are compared again to determine whether the set-

9 is an example of a case where the transmission time of the IR control signal is not matched with the silent interval according to the embodiment of the present invention. 9, in response to the transmitted IR control signal, the display device 10 according to the present invention displays an audio signal received from the external device 20, And determines whether the device 20 is operating.

At this time, when the transmission time point 90 of the IR control signal and the silent interval 93 are matched, it is determined that the external device 20 is operated with respect to the IR control signal.

In the illustrated example, if the transmission time point 90 of the IR control signal and the silent interval 93 do not match, it can be determined that a time delay has occurred between the two points of time. In this case, although the external device 20 operates, an error may occur that the operation of the external device 20 is not recognized due to a time delay.

As an example, a delay may occur in the transmission interval 91 of the IR control signal. When the second processor 16 controls the transmission of the IR control signal and the first processor 17 detects the silent section 93 from the output audio signal as in the example shown in Figure 5, A predetermined time delay may occur in the process of interfacing the first processor 17 and the second processor 16.

7, when the remote controller 21 performs the transmission of the IR control signal and the first processor 17 detects the silent section 93 from the audio signal output from the first processor 17, A time delay may occur between the processor 17 and the remote controller 21 by communication such as Bluetooth. At this time, the first processor 17 and the remote controller 21 may also experience time delays due to differences in the time information themselves set in the respective devices.

As an embodiment, a delay may also occur in the operating section 92 of the external device 20. [ For example, when the external device 20 is a set-top box, it analyzes the IR code set from the IR control signal including the channel switching command, grasps the channel to be switched according to the channel switching command, A time delay may occur. In addition, since the set-top boxes have different performances depending on the type of the set-top box, differences may occur in the delay time.

As described above, due to the time delay that may occur in the transmission interval 91 of the IR control signal and the operation interval 92 of the external device 20, even when the external device 20 actually operates, An error may occur that the transmission time point 90 and the silence period 93 do not match.

Therefore, it is possible to reduce the occurrence of errors in determining whether the external device 20 is operating by comparing a time obtained by adding the delayed time to the transmission time point 90 of the IR control signal with the silent interval 93. [

10 is a flowchart illustrating an example of recognizing a type of an external device based on an audio signal according to an embodiment of the present invention. As shown in Fig. 10, first, in step S101, it is judged whether or not an audio signal, that is, a sound is outputted from the external device 20. As a result of the determination, if a sound is output, in operation S102, the first IR code among the IR code sets capable of identifying the content provider is set, and the IR control signal is transmitted to the external device 20. [ At this time, the IR control signal may include, for example, a channel up command. The IR code set can be stored in advance in the display device 10 or can be received from an external server.

Next, in operation S103, in response to the transmitted IR control signal, it is judged whether there is a break phenomenon, that is, a silent section. As a result of the determination, if there is a silent section, in operation S104, the type of the external device 20 corresponding to the set first IR code can be identified.

If it is determined in operation S103 that there is no silent section, the operation is changed to the second IR code in operation S105, and the IR control signal is transmitted to the external device 20. [ Thereafter, the operation S103 and the operation S105 are repeatedly performed until a silent section occurs in the sound so that the IR code corresponding to the external apparatus 20 is automatically set.

 As described above, according to the embodiment of the present invention, when the external device is controlled using the IR signal, it is possible to detect whether the external device is actually operated by the IR signal. In addition, it is possible to automatically set the type of the external device and to improve the inconvenience that the user has to set manually.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

Claims (15)

1. In the display device,

   A connection unit for connecting to an external device;

   A signal receiving unit for receiving a video signal from the external device;

   A display unit for displaying an image based on the image signal;

   And a control unit that receives an audio signal output in response to a control signal transmitted from the external device to the external device, and based on whether the control signal is transmitted and a silence period included in the audio signal, Wherein the control unit determines whether or not the control unit has operated in response to the transmitted control signal.
2. The method according to claim 1,

   And a signal transmission unit for transmitting the control signal to the external device.
3. 3. The method of claim 2,

   The processor transmits a transmission command,

   And the signal transmission unit transmits the control signal to the external device according to the transmitted transmission command.
4. 3. The method of claim 2,

   And a second processor for transmitting an outgoing command,

   Wherein the signal transmission unit transmits the control signal to the external device according to the transmitted transmission command,

   Wherein the processor receives time information from the second processor and determines a transmission time point of the control signal.
5. The method according to claim 1,

   Further comprising a communication unit for communicating with the remote controller,

   Wherein the processor transmits a transmission command for transmitting the control signal to the external device by the remote controller and receives the time information from the remote controller to determine the transmission time point of the control signal.
6. The method according to claim 1,

   Wherein the processor determines an identification code corresponding to the transmitted control signal among the plurality of identification codes by using the identification code of the external device.
7. The method according to claim 1,

   Wherein the control signal includes a channel switching command for the received video signal.
8. The method according to claim 1,

   Wherein the processor determines whether the matching is based on a delay generated in the course of transmitting the control signal.
9. The method according to claim 1,

   Wherein the processor determines whether the external device has operated in response to the transmitted control signal based further on whether the video signal corresponding to the time point at which the control signal is transmitted includes a specific image.
10. A method of controlling a display device,

    Receiving an image signal from an external device;

    Displaying an image based on the video signal;

    Receiving an audio signal output corresponding to a control signal transmitted from the external device to the external device;

    And determining whether the external device has operated in response to the transmitted control signal based on whether the control signal is transmitted and whether or not the audio signal is matched with the silent interval included in the audio signal.
11. 11. The method of claim 10,

    And transmitting the control signal to the external device by the signal transmitting unit.
12. 12. The method of claim 11,

    Transmitting, by the processor, a dispatch command;

    And transmitting the control signal to the external device in response to the transmitted transmission command.
13. 12. The method of claim 11,

    Transmitting, by the second processor, a dispatch command;

    Transmitting the control signal to the external device in response to the transmitted transmission command;

    And receiving time information from the second processor and determining a transmission time point of the control signal.
14. 11. The method of claim 10,

    Communicating with a remote controller;

    Transmitting an outgoing command for transmitting the control signal to the external device by the remote controller;

    Receiving time information from the remote controller and determining a transmission time point of the control signal.
15. 11. The method of claim 10,

    And determining an identification code corresponding to the transmitted control signal among the plurality of identification codes as an identification code of the external device.

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