JP3074436U - OSD display superposition device - Google Patents

Abstract

(57) [Summary] [Problem] When the channel is changed by the tuner,
Even if the synchronizing timing of the input composite video signal based on the broadcast signal fluctuates, it is not possible to ensure the follow-up of the synchronizing timing of the composite synchronizing signal extracted from the input composite video signal. It could not be superimposed on the composite video signal. SOLUTION: An input composite video signal based on a broadcast signal is
When superimposing the SD signal, the s provided in the microcomputer 10
Since the OSD signal is generated while synchronizing based on the composite synchronizing signal extracted by the sync separator circuit 10a, even if the synchronizing timing of the input composite video signal is deviated when the channel is changed, the composite synchronizing signal is generated while following the deviation. Can be extracted, and the OSD signal can be superimposed on the composite video signal at regular synchronization timing.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention relates to an OSD display superimposing apparatus that generates an OSD signal based on a synchronization signal extracted from a composite video signal and superimposes the generated OSD signal on the composite video signal.

[0002]

[Prior art]

 Conventionally, in an OSD display superimposing device provided in a video IC mounted on a video device, even when an OSD signal is superimposed on a composite video signal based on a broadcast signal received by a tuner, a video tape is also used. Even when the OSD signal is superimposed on the composite video signal based on the video signal obtained by reproduction, the composite synchronizing signal is extracted by the c-sync pulse circuit provided in the video IC without distinction. An OSD signal was generated while synchronizing based on the extracted composite synchronizing signal, and was superimposed on the composite video signal. As this kind of OSD display superimposing apparatus, there is known an OSD display superimposing apparatus disclosed in Japanese Patent Application Laid-Open No. 6-303542.

[0003]

[Problems to be solved by the invention]

 In the above-described conventional OSD display superposition apparatus, when the channel is changed by the tuner, the signal level of the input composite video signal based on the received broadcast signal changes, and thus the signal level is extracted from the input composite video signal. The synchronization timing of the composite synchronization signal fluctuates. However, as in the case of extracting the composite synchronizing signal from the composite video signal based on the video signal, the composite synchronizing signal is extracted by the c-sync pulse circuit. It was difficult to follow the timing.

[0004] Therefore, there has been a problem that the follow-up of the synchronization timing of the composite synchronization signal cannot be ensured, and the OSD signal cannot be superimposed on the input composite video signal at the regular synchronization timing. The present invention has been made in view of the above-described problem. Even when the synchronization timing of the input composite video signal fluctuates, it is possible to superimpose the OSD signal at a regular synchronization timing that follows the fluctuation. It is intended to provide a simple OSD display superimposing device.

[0005]

[Means for Solving the Problems]

 In order to achieve the above object, the invention according to claim 1 performs processing of an input composite video signal and processing of a reproduced video signal from a recording medium, and outputs a composite video signal after the processing. An OSD circuit for generating an OSD signal superimposed on the output video signal of the video signal processing circuit based on the input synchronization signal, and separating the synchronization signal from the input composite video signal before processing by the video signal processing circuit A first synchronizing signal extracting circuit, a second synchronizing signal extracting circuit for separating a synchronizing signal from the composite video signal processed by the video signal processing circuit, and a composite video based on the reproduced video signal When outputting a signal, the synchronizing signal from the second synchronizing signal extracting circuit is input to the OSD circuit, and the video signal processing circuit performs composite video based on the input composite video signal. When outputting signals Ru configuration entirety in that and a synchronizing signal switching circuit for inputting synchronization signal from the first synchronizing signal extraction circuit to the OSD circuit. In the device according to claim 1 configured as described above, the video signal processing circuit executes processing of the input composite video signal and processing of the reproduced video signal from the recording medium, and outputs the processed composite video signal. At this time, the OSD circuit generates an OSD signal superimposed on the output video signal of the video signal processing circuit based on the input synchronization signal.

At this time, the first synchronizing signal extracting circuit separates a synchronizing signal from the input composite video signal before processing by the video signal processing circuit, and the second synchronizing signal extracting circuit performs the same video signal processing. The synchronization signal is separated from the composite video signal processed by the circuit. Therefore, when the video signal processing circuit outputs a composite video signal based on the reproduced video signal, the synchronization signal switching circuit inputs the synchronization signal from the second synchronization signal extraction circuit to the OSD circuit, When the video signal processing circuit outputs a composite video signal based on the input composite video signal, the synchronization signal from the first synchronization signal extraction circuit is input to the OSD circuit.

Therefore, when a composite video signal based on the reproduced video signal is output from the video signal processing circuit, an OSD circuit generated based on the synchronization signal from the second synchronization signal extraction circuit is used. Superimposed. On the other hand, when a composite video signal based on the input composite video signal is output from the video signal processing circuit, the OSD circuit generated based on the synchronization signal from the first synchronization signal extraction circuit is superimposed. Is done. Note that the recording medium mentioned here may be a magnetic recording medium such as a video tape or an optical recording medium such as a DVD, and does not limit the recording form of video data.

[0008] Here, when the synchronization timing fluctuates due to a change in the input situation of the input composite video signal, the first synchronization signal extraction circuit does not pass through the video signal processing circuit but passes through the first synchronization signal extraction circuit. The synchronization signal input to the OSD circuit ensures the tracking of the synchronization timing. For this reason, the OSD signal generated based on the synchronization signal having the regular synchronization timing that follows the synchronization timing of the input composite video signal is independent of the input status of the input composite video signal. Is superimposed on As an example of the input composite video signal, the invention according to claim 2 is the OSD display superposition apparatus according to claim 1, wherein the input composite video signal is transmitted to a tuner by setting a predetermined reception frequency. It is a composite video signal based on the received broadcast signal.

In the invention according to claim 2 configured as described above, by setting a predetermined reception frequency, the present invention does not depend on the input state of the composite video signal based on the broadcast signal received by the tuner, An OSD signal generated based on a synchronization signal having a regular synchronization timing following the synchronization timing fluctuation of the same composite video signal is superimposed on the same composite video signal. Therefore, even if the input state of the broadcast signal changes due to the channel change, the OSD signal is superimposed at regular synchronization timing. When the video signal processing circuit outputs a composite video signal based on the reproduced video signal, the synchronization signal switching circuit inputs a synchronization signal from the second synchronization signal extraction circuit to the OSD circuit. When the video signal processing circuit outputs a composite video signal based on the input composite video signal, the video signal processing circuit only needs to input a synchronization signal from the first synchronization signal extraction circuit to the OSD circuit. It is also possible to switch the synchronization signal based on whether or not to execute the signal processing of the playback video signal.

[0010] As an example of this case, the invention according to claim 3 is based on the OSD display superposition apparatus according to any one of claims 1 and 2, wherein the video signal processing circuit is configured to input the reproduced video signal. The synchronous signal switching circuit is configured to input the synchronous signal to the OSD circuit based on the detection result of the signal input detecting circuit. In the invention according to claim 3 configured as described above, the signal input detection circuit provided in the video signal processing circuit detects whether or not the reproduced video signal has been input.

[0011] Therefore, when the signal input detection circuit detects the input of the reproduced video signal, the synchronous signal switching circuit outputs the composite video signal based on the reproduced video signal. And the synchronization signal from the second synchronization signal extraction circuit is input to the OSD circuit. On the other hand, if the signal input detection circuit does not detect the input of the reproduced video signal, the video signal processing circuit determines that the composite video signal is output based on the input composite video signal, and the first synchronization signal The synchronization signal from the extraction circuit is input to the OSD circuit.

As described above, detecting the presence or absence of the input of the reproduced video signal to the video signal processing circuit is useful in that the control of switching the synchronization signal can be realized with a simple configuration. For example, it is determined whether or not the reproduced video signal has been input to the video signal processing circuit based on the operation of a drive mechanism or a read head that is driven when reproducing the recording medium. It is equally possible. In the third aspect, the switching of the synchronization signal is performed based on whether or not the processing of the reproduced video signal is executed. However, such a configuration is merely an example, and the processing of the input composite video signal is performed. It is also possible to switch the synchronization signal based on whether or not the synchronization is executed, that is, whether or not the input composite video signal is input to the video signal processing circuit.

[0013] Even if the input composite video signal and the reproduced video signal are both input to the video signal processing circuit, the synchronization signal switching circuit may be configured such that the video signal processing circuit outputs the reproduced video signal. When a composite video signal based on the composite video signal is output, a synchronization signal from the second synchronization signal extraction circuit is input to the OSD circuit, and the video signal processing circuit outputs a composite video signal based on the input composite video signal. At this time, since the synchronization signal from the first synchronization signal extraction circuit is input to the OSD circuit, the synchronization signal switching circuit converts the synchronization signal corresponding to only the composite video signal output from the video signal processing circuit. Input to OSD circuit. For example, when a composite video signal based on the reproduced video signal is output, only the composite video signal based on the reproduced video signal is output from the video signal processing circuit. Is input to the OSD circuit.

[0014]

[Effect of the invention]

 As described above, the present invention provides an OSD display superimposing device capable of superimposing an OSD signal at a regular synchronization timing that follows the fluctuation even when the synchronization timing of the input composite video signal fluctuates. Can be provided. According to the invention of claim 2, even when the channel is changed at the time of receiving the broadcast signal, the OSD signal can be superimposed on the composite video signal based on the broadcast signal at regular synchronization timing. it can. Further, according to the invention of claim 3, control in the synchronous signal switching circuit can be simplified.

[0015]

[Embodiment of the invention]

 Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a main configuration of a video reproducing apparatus according to an embodiment of the present invention. As shown in FIG. 1, a microcomputer 10 having a predetermined program execution environment is provided, and a tuner 20 and a video IC 30 are connected to the microcomputer 10. The tuner 20 receives a corresponding television broadcast by the antenna 20a based on the reception frequency specified by the microcomputer 10, and outputs a broadcast signal.

The video IC 30 is provided with a video circuit 31 as a video signal processing circuit according to the present invention. The video circuit 31 is provided with an input composite video signal based on a broadcast signal output from the tuner 20 or And performs signal processing based on the input composite video signal input to the external input terminal, and outputs the composite video signal to the output terminal via the EE path. When the microcomputer 10 drives the tape mechanism 11 to drive the video tape, the video circuit 31 performs signal processing on the basis of the video signal read from the video tape by the video head 32, and converts the composite video signal via the PB path. Output to the output terminal. The video IC 30 is also provided with an OSD display superimposition circuit 33, which generates the OSD display superimposition circuit 33 based on a composite video signal or a video signal output to an output terminal via an EE path. Then, an OSD signal such as a channel number and a video playback time generated by the OSD display generation circuit 12 provided in the microcomputer 10 is superimposed on the composite video signal output to the output terminal via the PB path. In this sense, the OSD display generation circuit 12 constitutes the OSD circuit according to the present invention.

FIG. 2 is a block diagram showing main components of the microcomputer 10 and the video IC 30. The video IC 30 includes an external / TUNER switching circuit 30a for switching an input terminal between an input composite video signal based on a broadcast signal output from the tuner 20 and an input composite video signal input to an external input terminal. The input composite video signal selected as an input signal by the switching in the external / TUNER switching circuit 30a is connected to the EE / PB switching circuit 30b side and the sync separator circuit 10a provided in the microcomputer 10. Supplied to

Then, the sync separator circuit 10a provided in the microcomputer 10 extracts a composite synchronizing signal from the input composite video signal output from the external / TUNER switching circuit 30a, and converts the extracted composite synchronizing signal into an E / E / Input to the PB switching circuit 10b. In this sense, the sync separator circuit 10a constitutes the first synchronization signal extraction circuit according to the present invention. The EE / PB switching circuit 30b has a PB side input terminal capable of inputting a composite video signal based on a video signal supplied from a reproduction system circuit, and an input composite video supplied from an external / TUNER switching circuit 30a. An EE side input terminal capable of inputting a composite video signal based on the signal is provided. According to a control instruction from the microcomputer 10, the input signal is selected by switching to one of the input terminals.

Here, the composite video signal output from the EE / PB switching circuit 30 b is supplied to the c-sync pulse circuit 30 c and the OSD display superimposing circuit 33. The c-sync pulse circuit 30c extracts a composite synchronization signal from a composite video signal based on the video signal output from the EE / PB switching circuit 30b, and converts the extracted composite synchronization signal into an EE / PB switching circuit. Input to 10b. In this sense, the c-sync pulse circuit 30c constitutes the second synchronizing signal extraction circuit according to the present invention.

The EE / PB switching circuit 10b includes an EE-side input terminal capable of receiving a composite synchronization signal supplied from the sync separator circuit 10a, and a composite synchronization signal supplied from the c-sync pulse circuit 30c. And a PB-side input terminal capable of inputting an input signal. According to a control instruction from the microcomputer 10, the input signal is selected by switching to one of the input terminals. In this sense, the EE / PB switching circuit 10b constitutes the synchronous signal switching circuit according to the present invention. Since the composite synchronization signal output from the EE / PB switching circuit 10b is supplied to the OSD display generation circuit 12, the OSD display generation circuit 12 generates a predetermined OSD signal while synchronizing based on the composite synchronization signal. Generate. The generated OSD signal is supplied to the OSD display superimposing circuit 33 provided in the video IC 30, and is superimposed on the composite video signal output from the EE / PB switching circuit 30b.

Conventionally, as shown in FIG. 3, the microcomputer 10 does not include the sync separator circuit 10a, and the input composite video signal input to the EE path is also used as the video signal input to the PB path. In the same manner as in the case of the composite video signal based on the above, the extraction of the composite synchronization signal is performed using the c-sync pulse circuit 30c provided in the video IC 30. However, when the input timing of the input composite video signal input to the external / TUNER switching circuit 30a changes and the synchronization timing fluctuates, the c-sync pulse circuit 30c causes the composite timing while following the fluctuation of the synchronization timing. It was difficult to extract the synchronization signal.

Therefore, as shown in FIG. 4, a deviation occurs between the synchronization timing of the input composite video signal and the synchronization timing of the composite synchronization signal extracted by the c-sync pulse circuit 30c. The OSD signal generated based on the composite video signal cannot be superimposed on the composite video signal based on the input composite video signal at the regular synchronization timing. Therefore, in the present embodiment, as described above, by providing the sync separator circuit 10a in the microcomputer 10, the follow-up of the composite synchronization signal with respect to the change in the synchronization timing of the input composite video signal is ensured. In addition, it is possible to eliminate the deviation of the synchronization timing.

In the above description, switching control of the input terminals in the EE / PB switching circuits 10 b and 30 b is performed by the microcomputer 10. However, such a configuration is merely an example, and the signal input to the video IC 30 is performed. It is also possible to switch according to the presence or absence of. That is, when switching control of the input terminals is performed in accordance with the driving conditions of the tuner 20 and the tape mechanism 11, a control instruction from the microcomputer 10 is required. Can be switched, it can be executed using the internal configuration of the video IC 30.

More specifically, as shown in FIG. 5, a signal input detection circuit 30d is interposed in a signal input path from the reproduction system circuit, and a composite video based on a video signal is supplied to the signal input detection circuit 30d. When a signal input is detected, a predetermined control signal is output to the EE / PB switching circuits 10b and 30b. Then, the EE / PB switching circuits 10b and 30b switch each input terminal to the PB side input terminal only when a control signal is input from the signal input detection circuit 30d. Therefore, when the input composite video signal output from the external / TUNER switching circuit 30a is supplied, each input terminal of the EE / PB switching circuits 10b and 30b is switched to the EE side input terminal to switch the OSD. When the composite video signal based on the video signal is supplied from the playback system circuit, the input terminals of the EE / PB switching circuits 10b and 30b are connected to the PB side input terminals. Switching to a terminal enables superimposition of an OSD signal. Therefore, by applying such a configuration, it is possible to simplify the configuration for controlling the switching of the input terminals in the EE / PB switching circuits 10b and 30b.

Next, an operation when the video IC 30 according to the present embodiment outputs an OSD signal while superimposing the OSD signal on a composite video signal based on the input composite video signal will be described. When the tuner 20 receives a television broadcast, performs predetermined signal processing on the broadcast signal, and outputs an input composite video signal to the video IC 30, the microcomputer 10 connects the input terminal of the external / T UNER switching circuit 30 a to the TUNER input side. And the input terminal of the EE / PB switching circuit 30b and the input terminal of the EE / PB switching circuit 10b are switched to the EE side.

At this time, when an input composite video signal based on a broadcast signal is input, the external / TUNER switching circuit 30a converts the input composite video signal into a sync separator circuit 10a and an EE / PB switching circuit 30b. And supply. The sync separator circuit 10a extracts a composite synchronization signal from the input composite video signal supplied from the external / TUNER switching circuit 30a, and the EE / PB switching circuit 10b generates the extracted composite synchronization signal on the OSD display. Output to the circuit 12. Therefore, the OSD display generation circuit 12 generates a predetermined OSD signal while maintaining synchronization based on the composite synchronization signal output from the EE / PB switching circuit 10b, and supplies the generated OSD signal to the OSD display superimposition circuit 33.

On the other hand, the EE / PB switching circuit 30 b supplies the OSD display superimposition circuit 33 with a composite video signal that has been subjected to signal processing based on the input composite video signal supplied from the external / TUNER switching circuit 30 a. I do. Accordingly, the OSD display superimposition circuit 33 superimposes the OSD signal supplied from the OSD display generation circuit 12 on the composite video signal supplied from the EE / PB switching circuit 30b, and this OSD signal is superimposed. The composite video signal is output to an output terminal.

At this time, if there is a channel change, the signal level of the television broadcast received by the tuner 20 changes, so that the synchronization timing of the input composite video signal based on the broadcast signal changes. However, the sync separator circuit 10a can extract the composite synchronizing signal while following the fluctuation of the synchronizing timing, so that a deviation between the synchronizing timing of the input composite video signal and the synchronizing timing of the composite synchronizing signal occurs. Therefore, it is possible to superimpose the OSD signal at regular synchronization timing. As described above, when the OSD signal is superimposed on the input composite video signal based on the broadcast signal, the OSD signal is generated while synchronizing based on the composite synchronization signal extracted by the sync separator circuit 10a provided in the microcomputer 10. Therefore, even if the synchronization timing of the input composite video signal is deviated when the channel is changed, the composite synchronization signal can be extracted while following the deviation, and the OSD signal can be superimposed on the composite video signal at the regular synchronization timing. Becomes possible.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a main configuration of a video playback device according to an embodiment.

FIG. 2 is a block diagram illustrating a main configuration of a microcomputer and a video IC.

FIG. 3 is a block diagram showing a main configuration of a microcomputer and a video IC according to a conventional example.

FIG. 4 is a waveform diagram for explaining a synchronization timing of a composite synchronization signal.

FIG. 5 is a block diagram showing a main configuration of a microcomputer and a video IC according to a modification.

[Explanation of symbols]

 Reference Signs List 10 microcomputer 10a sync separator circuit 10b EE / PB switching circuit 11 tape mechanism 12 OSD display generation circuit 20 tuner 20a antenna 30 video IC 30a external / TUNER switching circuit 30b EE / PB Switching circuit 30c c-sync pulse circuit 30d signal input detection circuit 31 video circuit 32 video head 33 OSD display superimposition circuit

Claims (3)

[Utility model registration claims] A video signal processing circuit that executes processing of an input composite video signal and processing of a reproduced video signal from a recording medium and outputs a processed composite video signal; An OSD circuit for generating an OSD signal superimposed on an output video signal of a processing circuit; a first synchronization signal extraction circuit for separating a synchronization signal from the input composite video signal before being processed by the video signal processing circuit; A second synchronizing signal extracting circuit for separating a synchronizing signal from the composite video signal processed by the signal processing circuit; and the second synchronizing signal when the video signal processing circuit outputs a composite video signal based on the reproduced video signal. When the synchronization signal from the signal extraction circuit is input to the OSD circuit, and the video signal processing circuit outputs a composite video signal based on the input composite video signal, the first synchronization is performed. OSD display superimposing device, characterized in that the synchronizing signal from the No. extracting circuit includes a synchronization signal switching circuit for input to the OSD circuit. 2. The OSD display superposition apparatus according to claim 1, wherein the input composite video signal is a composite video signal based on a broadcast signal received by a tuner by setting a predetermined reception frequency. An OSD display superimposing device characterized by the above-mentioned. 3. The OSD display superimposing apparatus according to claim 1, wherein the video signal processing circuit includes a signal input detection circuit that detects presence or absence of the input of the reproduced video signal. The OSD display superimposing device, wherein the synchronization signal switching circuit inputs the synchronization signal to the OSD circuit based on a detection result of the signal input detection circuit.