JP4055011B2 - Receiver - Google Patents

Description

  The present invention relates to a receiving device having a function of receiving a video signal based on a television broadcast signal or a video signal input from a video signal input terminal such as a video terminal and converting the received video signal into a video signal that can be displayed on a display. is there.

2. Description of the Related Art Conventionally, there are two frame buffers, a first frame buffer and a second frame buffer, and reception is configured to display a video based on a video signal read from the first frame buffer. When the input video signal is switched from the first video signal to the second video signal, the last signal of the first video signal and the first signal of the second video signal are respectively set to the second frame. -Write to the frame buffer, read the video signal from the first frame buffer while sequentially transferring the contents of the second frame buffer to the first frame buffer. There is known a receiving apparatus configured to supply the first video buffer to the first frame buffer (see, for example, Patent Document 1).
In such a receiving apparatus, since switching from the video based on the first video signal to the video based on the second video signal can be continuously performed so that the scene of the picture-story show is switched, It is possible to suppress the occurrence of video disturbance on the display screen when the input video signal is switched.
Japanese Patent Laid-Open No. 3-159384

  However, in the receiving apparatus described in Patent Document 1, after an instruction for switching the input video signal is input, the video signal is written into the second frame buffer, and the first frame buffer starts writing the first video signal. Since the process of transferring the video signal to the frame buffer is sequentially performed, there is a problem that it takes time until the video on the display is switched after the instruction is input. In particular, when configured to display video based on a digital video signal, it takes time to perform processing such as scaling processing that converts the number of horizontal and vertical pixels of the video signal. Since it takes a considerable time (for example, about 0.6 seconds) until the display image is actually switched after the input video signal switching instruction described above is input, the user feels stress. There was a problem.

  In view of such a situation, the present invention can significantly reduce the time from when an instruction to switch an input video signal to when a display video is switched, and to reduce user stress. A receiving apparatus is provided.

In order to achieve the above object, the invention according to claim 2 is directed to a video signal processing unit that performs various processes for displaying an image based on the input video signal on a display. In a receiving device comprising a scaler unit that converts the number of horizontal and vertical pixels of a video signal processed by a signal processing unit,
A plurality of video signal processing units, a plurality of video signal input terminals for inputting the video signal; and
A remote control that accepts input video signal switching instructions;
A switch unit that switches an input source of a video signal input to each of the video signal processing units based on a switching instruction received by the remote control in the video signal input terminal;
The same number of video signal processing units as the video signal processing units are provided in the scaler unit, and the video signal in which the number of pixels is converted in the scaler unit is temporarily held for each video signal processing unit as an input source to the scaler unit. A frame buffer to be
Frame buffer switching means for outputting the video signal of the frame buffer in which the video signal corresponding to the switching instruction received by the remote controller is stored from the scaler unit;
It is set as the structure which comprises.

  The reception apparatus according to claim 2, configured as described above, includes: a video signal processing unit that performs various processes for displaying an image based on the video signal on a display with respect to the input video signal; And a scaler unit that converts the number of horizontal and vertical pixels of the video signal processed by the signal processing unit. The video signal processing unit includes a plurality of video signal processing units, and a switch unit that switches a video signal input to each of the video signal processing units.

  Further, the scaler unit includes the same number of frame buffers as the video signal processing unit for temporarily holding the video signal in which the number of pixels is converted, and one of the frame buffers. The video signal held in the frame buffer is output. That is, the scaler unit performs pixel number conversion (scaling) processing on each of the video signals output from the plurality of video signal processing units, and converts the processed video signal into a plurality of frames. It can be held in each buffer.

Further, frame buffer switching means for switching the frame buffer holding the video signal output from the scaler unit in response to the instruction to switch the input video signal is provided. . Since each of the frame buffers provided in the same number as the video signal processing unit already holds the video signal, an instruction to switch the input video signal is obtained by switching the frame buffer output to the display. After that, the video is switched instantly. As a result, it is possible to greatly reduce the time from when the instruction to switch the input video signal to when the display video is switched, and to reduce the stress on the user.
In addition, since the display video is switched instantaneously, it is not necessary to perform a process of displaying an all-black video during the waiting time until the display video is switched (so-called black mute processing). Can be prevented.

According to a third aspect of the present invention, the video signal processing unit performs a process of converting an input video signal into a digital video signal.
In the third aspect configured as described above, since it takes time to convert an analog video signal into a digital video signal, the digital video signal is held in the frame buffer in advance, and the frame buffer is switched. Thus, it is possible to strongly enjoy the effect of shortening the time until the display image is switched.

The invention according to claim 4 includes a first video signal processing unit and a second video signal processing unit as the video playback device,
The scaler unit includes, as the frame buffer, a first frame buffer that temporarily holds a video signal from the first video signal processing unit, and a second frame from the second video signal processing unit. A second frame buffer for temporarily holding a signal is provided.

In the fourth aspect configured as described above, since only two video signal processing units are required to be installed, it is possible to suppress an increase in manufacturing cost.
Also, for example, when the input video signal is switched in the order of VIDEO1, VIDEO2, and VIDEO3 every time the “input switch” button on the remote controller is pressed, such as a television on the market. When the video signal of VIDEO1 is held in the first frame buffer and the video based on the video signal of VIDEO1 is displayed, the video signal of VIDEO2 is held in the second frame buffer. Therefore, when the “input switching” button is pressed, the video is switched to the video based on the video signal of VIDEO 2 in an instant, so the configuration of claim 4 is also practical.

Further comprising a video signal input terminal of the multiple,
The switch unit may be configured to switch a video signal input to each of the plurality of video signals via any one of the plurality of video signal input terminals.
Configuration Then, as described above, for example, a plurality of video signal input terminal, and a video reproducing device, gate - to connect the beam device, when configured to input video signals from these devices, video entwined -It is possible to switch to video in an instant.

Furthermore, the invention according to claim 5 includes a tuner unit that receives a television broadcast signal of a predetermined frequency band, and a video signal from the tuner unit is input to the video signal processing unit. is there.
In the fifth aspect configured as described above, for example, switching from a video image to a television image can be performed in an instant.

Furthermore, the invention according to claim 6 is a configuration in which the receiving apparatus is a television apparatus including a display capable of displaying an image based on an image signal output from the scaler unit.
7. The television device according to claim 6 , configured as described above, capable of displaying a television image based on a television broadcast signal and capable of displaying an image based on a video signal from a video reproduction device or a game device. It becomes possible.

In the invention according to claim 2 of the present invention, it is possible to greatly reduce the time from the instruction to switch the input video signal to the switching of the display video, thereby reducing the stress on the user. It becomes possible.
In the invention according to claim 3, it is possible to strongly enjoy the effect of shortening the time until the display image is switched.
In the invention according to claim 4, it is possible to suppress an increase in manufacturing cost .
In such an invention to 請 Motomeko 5, it is possible to perform in an instant switching to the television image from the video image.
In the invention according to claim 6 , it is possible to display a television image based on a television broadcast signal and to be a television device capable of displaying an image based on a video signal from a video reproduction device or a game device. It becomes.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following embodiments, the receiving device of the present invention receives a plurality of video terminals as video signal input terminals and a television broadcast radio wave in a predetermined frequency band and receives a video signal based on the television broadcast radio wave. A case where the television receiver is provided with a tuner unit that outputs a video signal and a display on which video is displayed will be described.

  FIG. 1 is a block diagram showing a configuration of a television receiver according to the present invention. In the figure, a television receiver 10 includes a tuner unit 11 and two video terminals 12a and 12b. The tuner unit 11 extracts a frequency signal in a desired frequency band from a television frequency signal received by an antenna 13 such as a connected Yagi antenna, thereby selecting one reception channel from among a plurality of reception channels. It is configured to select and output a video signal corresponding to the reception channel. The video terminals 12a and 12b are connected to a video playback device 14 and a game device 15 as external devices, respectively, so that video signals from these devices can be input.

  Further, the tuner section 11 and the video terminals 12a and 12b described above are connected to the switch circuit 20. This switch circuit is also connected to a first video signal processing unit 30a and a second video signal processing unit 30b, which will be described later, and based on a command signal from the CPU 80, the first video signal processing unit 30a and the second video signal processing unit 30b. The two video signal processing units 30b perform an operation of switching the input video signals. With this configuration, of the three video signals output from the tuner unit 11 and the video terminals 12a and 12b, the video input to each of the first video signal processing unit 30a and the second video signal processing unit 30b. It becomes possible to selectively switch signals.

  The first video signal processing unit 30a and the second video signal processing unit 30b are based on the video signal input from any one of the tuner unit 11 and the video terminals 12a and 12b. Various processes for displaying the video on the display 70 are performed. The first video signal processing unit 30a and the second video signal processing unit 30b have the same configuration, and will be described in detail later with reference to the drawing (FIG. 2).

  The video signals processed by the first video signal processing unit 30 a and the second video signal processing unit 30 b are input to the scaler 50. The scaler 40 is for converting the number of horizontal and vertical pixels of the video signal processed by the first video signal processing unit 30a or the second video signal processing unit 30b. For example, when the number of horizontal and vertical pixels of the display 70 as a display device is 1024 × 768 and the number of pixels of the input video signal is 780 × 480, the scaler 50 uses the pixel of the video signal. A process of converting the number (780 × 480) into the number of pixels of the display 70 (1024 × 768) is performed.

  The scaler 50 includes two frame buffers, ie, a first frame buffer 50a and a second frame buffer 50b as work areas. The first frame buffer 50a temporarily holds the video signal input from the first video signal processing unit 30a and subjected to the pixel number conversion process, and the second frame buffer 50b includes the first frame buffer 50b. The video signal input from the second video signal processing unit 30b and subjected to the pixel number conversion processing is temporarily held.

  The above-described first frame buffer 50a and second frame buffer 50b are connected to a memory controller 60 as frame buffer switching means. This memory controller 60 is for switching the video signal supplied to the display 70, and based on the command signal from the CPU 80, the video signal held in the first frame buffer 50a, and Of the video signals held in the second frame buffer 50b, the video signal supplied to the display 70 is selectively switched. The display 70 displays a video based on the input video signal.

Next, the first video signal processing unit 30a included in the television receiver 10 shown in FIG. 1 will be described. Note that the second video signal processing unit 30b has the same configuration as that of the first video signal processing unit 30a, and a description thereof will be omitted.
FIG. 2 is a block diagram illustrating a configuration of the first video signal processing unit. In the figure, the first video reproduction apparatus 30a includes an A / D converter 31a, a Y / C separation circuit 32a, a chroma decoder 33a, and an image correction circuit 34a. The A / D converter 31a converts an analog video signal input from any one of the tuner 11 and the video terminals 12a and 12b into a digital video signal. The Y / C separation circuit 32a generates a luminance signal and a chroma signal by performing a three-dimensional Y / C separation process on the input video signal. The chroma decoder 33a receives the video signal output from the Y / C separation circuit 32a, and demodulates and generates a color difference signal from the chroma signal.

Further, the image correction circuit 34a performs processing such as sharpness that is correction for contour enhancement and coring that is correction for suppressing a region having a small amplitude, on the video signal processed by the chroma decoder 33a. It should be noted that the contour enhancement can be configured to perform peaking processing, luminance rise improvement processing, chroma signal rise improvement processing, and the like.
The video signal subjected to various processes by the A / D converter 31a, the Y / C separation circuit 32a, the chroma decoder 33a, and the image quality correction circuit 34a is sent to the scaler 50 as shown in FIG. It is supplied. In the present invention, the processing of the video signal performed by the video signal processing unit is not limited to the example shown in FIG.

  Next, the flow of main processing executed in the television receiver 10 shown in FIGS. 1 and 2 will be described based on the flowchart shown in FIG. The main process is a process executed when the power of the television receiver 10 is turned on. First, initial setting is performed in step S100. In this processing, initial settings such as clearing a register in the CPU 80 and RAM (not shown) and reading setting data for white balance adjustment are performed. In step S110, information related to the current input video signal is read out. The current input video signal is an input video signal related to the video displayed on the display 70 before the television receiver 10 is turned off. That is, in the process of step S110, before the main process is started, the input video signal based on which video image displayed by the television receiver 10 is based is specified. . Note that the information related to the current input video signal is stored in, for example, an EEPROM (not shown) included in the television receiver 10 when the power is turned off.

After the processing of step S110 is executed, next, in step S120, processing for determining video signals to be held in the first and second frame buffers is performed. This processing is performed based on the information read out in step S110 described above and the table shown in FIG.
FIG. 4 is a diagram showing an example of a table used in the process of step S120 of the flowchart shown in FIG. In the following, the video signal from the tuner unit 11 is referred to as “TV”, the video signal from the video terminal 12a is referred to as “video 1”, and the video signal from the video terminal 12b is referred to as “video 2”. In the figure, for example, when the current input video signal is “TV”, the video signal held in the first frame buffer 50a is determined to be “TV” and the second frame buffer 50b. The video signal held in is determined as “video 1”. Further, for example, when the current input video signal is “video 1”, the video signal held in the first frame buffer 50a is determined to be “video 2”.

  When the process of step S120 is executed, a switch circuit setting process is then performed in step S130. In this process, based on the result of the process in step S120 described above, a process for setting the switch circuit 20 to hold the video signal in each of the first frame buffer 50a and the second frame buffer 50b is performed. . For example, if it is determined in step S120 that the video signal to be held in the first frame buffer 50a is “TV” and the video signal to be held in the second frame buffer 50b is “video 1”, the The video signal from the signal source 11 is input to the first frame buffer 50a through the first video signal processing unit 30a, and the video signal from the video terminal 12a is input through the second video signal processing unit 30b. The switch circuit 20 is set so as to be input to the second frame buffer 50b.

  If the process of step S130 is executed, next, in step S140, the process of switching the memory controller 60 to the first frame buffer 50a is performed. In this process, the memory controller 60 is switched so that the video signal held in the first frame buffer 50 a is supplied to the display 70. Next, in step S150, each part and each circuit which comprise the television receiver 10 are controlled predominantly, and the process which displays an image | video on the display 70 is performed.

  Once the process of step S150 is executed, it is next determined in step S160 whether or not there has been an instruction to switch the input video signal. In this process, it is determined whether or not an instruction for switching the input video signal has been input by operating the TV remote controller or the like. If it is determined in step S160 that an input video signal switching instruction has been issued, the input video signal switching process in step S170 is executed. This process will be described later with reference to the drawing (FIG. 5). On the other hand, if it is determined in step S170 that there is no input video signal switching instruction, it is then determined in step S180 whether there is an instruction to turn off the power of the television receiver 10 or not. If there is no instruction to turn off the power of the television receiver 10, the process returns to step S150. If there is an instruction, the main process is terminated.

  Next, the flow of the input video signal switching process called and executed in step S170 of the flowchart shown in FIG. 3 will be described with reference to FIG. First, in step S200, frame buffer switching processing is performed. In this processing, when the video signal currently held in the first frame buffer 50a is valid and the same video signal is supplied to the display 70, the second frame buffer 50a is changed to the second frame buffer 50a. If the video signal held in the second frame buffer 50a is switched to be supplied to the display 70 while the second frame buffer 50b is currently enabled, the first frame buffer 50a is enabled. The frame buffer 50a is switched so as to be effective.

  After the process of step S200 is executed, next, in step S210, a process of determining a video signal held in an invalid frame buffer is performed. In this process, as a result of switching the frame buffer in step S200 described above, a process of determining a video signal to be newly held in the frame buffer that is no longer supplied (invalidated) to the display 70 I do. The processing in step S210 is performed based on, for example, the table shown in FIG.

  FIG. 6 is a diagram showing an example of a table used when performing the process of step S210 of the flowchart shown in FIG. For example, in step S200 described above, the valid frame buffer is switched from the first frame buffer 50a to the second frame buffer 50b, and the video signal held in the valid frame buffer 50b is changed. In the case of “TV”, the video signal newly held in the invalidated first frame buffer 50a is determined to be “video 1”. Further, for example, the valid frame buffer is switched from the second frame buffer 50b to the first frame buffer 50a, and the video signal held in the valid first frame buffer 50a is “ In the case of “video 1”, the video signal newly held in the invalid second frame buffer 50b is determined to be “video 2”.

  When the process of step S210 is executed, next, in step S220, a process of setting the switch circuit 20 so that the invalid frame buffer holds the video signal determined by the process of step S210 described above is performed. For example, if the video signal to be held in the first frame buffer 50a, which is an invalid frame buffer, is determined to be “TV” as a result of the process in step S210, the video signal from the tuner 11 is determined. Is set to be input to the first frame buffer 50a via the first video signal processing unit 30a. Further, for example, when the video signal to be held in the second frame buffer 50b which has become an invalid frame buffer is determined to be “video 1” as a result of the processing in step S210, the video signal from the video terminal 12a is displayed. The switch circuit 20 is set so that the video signal is input to the second frame buffer 50b via the second video signal processing unit 30b. When the process of step S220 described above is executed, the input video signal switching process is terminated.

  A specific example when the processing based on the flowchart shown in FIGS. 3 and 5 is executed will be described below with reference to FIGS. First, when the power of the television receiver 10 is turned on, a process for initial setting is performed (step S100), and the current input video signal is “TV”, “Video 1”, “Video 2”. Information about which one of the two has been obtained is acquired (step S110). Based on the information, video signals to be held in the first frame buffer 50a and the second frame buffer 50b are determined (step S120), and the switch circuit 20 is set based on the determination result (step S120). S130). Then, the memory controller 140 is switched so that the first frame buffer 50a is enabled and the video signal held in the first frame buffer 50a is supplied to the display 70 (step S140). In FIG. 7A, as a result of these processes being performed, the video signal “TV” is held in the first frame buffer 50a, and the video signal “video 1” is stored in the second frame buffer 50b. And the first frame buffer 50a is set to be effective.

  In the state shown in FIG. 7A, the video signal “TV” from the tuner unit 11 is subjected to predetermined processing by the first video signal processing unit 30 a and the first of the scaler 50. The video signal “TV” stored in the frame buffer 50a is supplied to the display 70 to display a television image. At this time, when there is an instruction to switch the input video signal by operating the TV remote controller or the like, a frame buffer switching process (step S210) is performed as shown in FIG. The first frame buffer 50a is switched to the second frame buffer 50b, and the video signal “Video 2” from the video terminal 12a is newly held in the first frame buffer 50a (step S220). .

  In the state shown in FIG. 7B, when there is an instruction to switch the input video signal, the frame buffer switching process (step S210) is performed as shown in FIG. The frame buffer is switched from the second frame buffer 50b to the first frame buffer 50a, and the video signal “TV” from the tuner unit 11 is newly held in the second frame buffer 50b. (Step S220).

As described above, in the television receiver 10 according to the embodiment, every time there is an instruction to switch the input video signal, the video signal supplied to the display 70 is “TV”, “Video 1”, “Video 2”, It will be sequentially switched in the order of “TV”.
In the television receiver 10 according to the embodiment, for example, when a video based on the video signal “TV” held in the first frame buffer 50a is displayed, there is an instruction to switch the input video signal. "Video 1" which is the next video signal at that time is held in advance in the second frame buffer 50b. When there is an instruction to switch the input video signal, the input video signal is simply switched from the first frame buffer 50a to the second frame buffer 50b. Thus, the input video signal can be switched in an instant. As a result, it is possible to significantly reduce the time from when the input video signal is switched to when the display video is switched, and to reduce the stress on the user.

  In the above-described embodiment, the case where the television receiving apparatus includes two video signal processing units and two frame buffers corresponding to each of the video signal processing units has been described. The number of video signal processing units and frame buffers included in the receiving device is not particularly limited. For example, the reception device includes three or four video signal processing units and four frame buffers. It may be. However, if the number of video signal processing units and frame buffers is excessively increased, the manufacturing cost will increase, and as shown in the embodiment, every time there is an instruction to switch the video signal processing unit, "Video 1", "Video 2", "TV", and so on, the television receiver configured so that the input video signals are switched in order is generally used as in the embodiment. It is desirable to have two video signal processing units and two frame buffers.

  In the above-described embodiment, the case has been described in which the receiving device of the present invention is a television receiving device including a plurality of video terminals and a tuner unit that receives a television broadcast radio wave from an antenna. The receiving apparatus of the present invention is not limited to the embodiment as long as it includes a plurality of video signal input terminals. In addition, it is not always necessary to have a display for displaying an image. For example, a television receiving tuner that does not include a display and includes only a plurality of video input terminals and a tuner unit. There may be.

  As described above, in the television receiver 10 according to the embodiment, when an image based on the video signal “TV” held in the first frame buffer 50a is displayed, the input video signal is switched. “Video 1”, which is the next video signal at the time of the instruction, is held in the second frame buffer 50b in advance, and when the input video signal is switched, the video signal is sent to the display 70. Since the input video signal is switched simply by switching the supplied frame buffer from the first frame buffer 50a to the second frame buffer 50b, the input video signal can be switched instantaneously. As a result, it is possible to significantly reduce the time from when the input video signal is switched to when the display video is switched, and to reduce the stress on the user.

It is a block diagram which shows the structure of the television receiver concerning embodiment. It is a block diagram which shows the structure of a 1st video signal process part. It is a flowchart showing the flow of main processing. It is a figure which shows an example of the table used by the process of step S120 of the flowchart shown in FIG. FIG. 3 is a flowchart showing the flow of the input video signal switching process which is called and executed in step S170 of the rained flowchart. It is a figure which shows an example of the table used when performing the process of step S210 of the flowchart shown in FIG. (A)-(c) is explanatory drawing which shows the video signal memorize | stored in a frame buffer, when the process concerning the flowchart shown in FIG. 3, FIG. 5 is performed.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Television receiver 11 ... Tuner part 12a, 12b ... Video terminal 13 ... Antenna 14 ... Video reproduction apparatus 15 ... Game apparatus 20 ... Switch circuit 30a ... 1st video signal processing part 30b ... 2nd Video signal processing unit 50 ... scaler 50a ... first frame buffer 50b ... second frame buffer 60 ... memory controller 70 ... display 80 ... CPU

Claims (6)

A video signal processing unit that performs various processes for displaying an image based on the video signal on the display with respect to the input video signal, and a horizontal and vertical direction of the video signal processed by the video signal processing unit In a television receiver including a scaler unit that converts the number of pixels,
With comprising two of the first video signal processing unit and the second image signal processing unit as the video signal processing unit,
A plurality of video signal input terminals and a tuner unit for receiving a television broadcast signal of a predetermined frequency band;
A switch unit for switching a video signal input to each of the first video signal processing unit and the second video signal processing unit ;
A first frame buffer provided in the scaler unit and temporarily holding a video signal input from the first video signal processing unit and converted in the number of horizontal and vertical pixels in the scaler unit ; ,
A second frame buffer provided in the scaler unit and temporarily holding a video signal input from the second video signal processing unit and converted in the number of horizontal and vertical pixels in the scaler unit ;
A remote control that accepts input video signal switching instructions;
Frame buffer switching means for outputting the video signal of the frame buffer in which the video signal corresponding to the switching instruction received by the remote control is stored from the scaler unit;
A television receiver characterized by comprising: A video signal processing unit that performs various processes for displaying an image based on the video signal on the display with respect to the input video signal, and a horizontal and vertical direction of the video signal processed by the video signal processing unit In a receiving device comprising a scaler unit for converting the number of pixels,
Together with the video signal processing unit is a plurality, and provided with plurality of video signal input terminal for receiving the video signal,
A remote control that accepts input video signal switching instructions;
A switch unit that switches an input source of a video signal input to each of the video signal processing units based on a switching instruction received by the remote control in the video signal input terminal ;
The same number of video signal processing units as the video signal processing units are provided in the scaler unit, and the video signal in which the number of pixels is converted in the scaler unit is temporarily held for each video signal processing unit as an input source to the scaler unit. A frame buffer to be
Frame buffer switching means for outputting the video signal of the frame buffer in which the video signal corresponding to the switching instruction received by the remote controller is stored from the scaler unit;
A receiving apparatus comprising:   The receiving apparatus according to claim 2, wherein the video signal processing unit performs processing for converting an input video signal into a digital video signal. As the video signal processing unit, comprising a first video signal processing unit and a second video signal processing unit,
The scaler unit includes, as the frame buffer, a first frame buffer that temporarily holds a video signal from the first video signal processing unit, and a second frame from the second video signal processing unit. 4. A receiving apparatus according to claim 2, further comprising a second frame buffer for temporarily holding a signal. A tuner unit that receives a television broadcast signal of a predetermined frequency band is provided, and a video signal from the tuner unit is input to the video signal processing unit. Item 5. The receiving device according to any one of Items 2 to 4 . The receiving apparatus according to claim 5 , wherein the receiving apparatus is a television apparatus including a display capable of displaying an image based on an image signal output from the scaler unit.

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