JPS63123284A - Television receiver - Google Patents

Abstract

PURPOSE:To display the small picture of a desired size in a large picture by thinning the number video signals for a small picture only by the number corresponding to a displaying size in a television set to project the small picture in the large picture. CONSTITUTION:When the displaying size of a desired small picture is selected by a selecting means 5, a selecting signal is impressed from the selecting means 5 to a second clock generating device 6. The second clock generating device 6 impresses a sampling clock corresponding to the desired displaying size to a second A/D converter 8. The second A/D converter 8 A/D-converts video signals in a small picture with the clock. The digital signal after conversion is outputted to a line memory 7 while the number of lines in the vertical direction corresponding to the desired displaying size is thinned by a first switch 9. The data of the line memory 7 are synchronized and read to the synchronizing signal for a large picture and written to a field memory 10. A second switch 2 changes over and outputs the video signal for the large picture and the video signal for the large picture from the memory 10 corresponding to the displaying size.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field The present invention relates to a television receiver, and more particularly to a picture-in-picture television receiver.

<Prior art> Conventionally, in picture-in-picture television receivers that simultaneously display a small monitor image (small screen) within a standard image (large screen), the display area of the small screen is fixed. The disadvantage was that the display area of the small screen could not be changed depending on the purpose of use by the viewer, resulting in poor flexibility.

<Object of the Invention> The present invention has been made in view of the above-mentioned points, and an object of the present invention is to enable the display area of a small screen to be varied.

<Configuration of the Invention> In order to achieve the above-mentioned object, the present invention provides a television receiver that simultaneously displays a small screen within a large screen.
a selection means for selecting a desired display size from among a plurality of display sizes for the small screen; and a selection signal corresponding to the desired display size outputted from the selection means, for controlling the small screen video signal. a variable means for thinning out the small screen video signal per horizontal scanning line by varying the sampling frequency or the read address of the memory to which the small screen video signal is written/read; and based on the selection signal from the selection means. a first switch circuit that thins out the number of lines in the vertical direction of the small screen video signal to a number corresponding to the desired display size and outputs it to the memory; and the selection signal from the selection means. based on,
A second switch circuit is provided for switching and outputting a large-screen video signal and a small-screen video signal read from the memory.

<Examples> Examples of the present invention will be described in detail below with reference to the drawings. FIG. 1 is a block diagram of essential parts of an embodiment of the present invention. The television receiver of this embodiment is a picture-in-picture television receiver that simultaneously displays a small monitor image (small screen) within a standard image (large screen).

The large screen video signal is converted into a digital video signal by the first A/D conversion circuit 1, and is given to a second switch circuit 2, which will be described later.The second switch circuit 2 converts the large screen video signal and the small screen video signal. The video signal is switched and given to the D/A conversion circuit 3, where it is converted into an analog video signal and output.

The first clock generation circuit 4, which is supplied with a composite synchronization signal synchronized with the large-screen video signal, generates horizontal and vertical synchronization signals and a 14.3 MHz clock, and outputs them to each circuit.

The television receiver of this embodiment includes a selection means 5 for selecting a desired display size from among a plurality of small screen display sizes, and a PLL (described later) as a variable means for thinning out the small screen video signal per horizontal scanning line by varying the sampling frequency of the small screen video signal based on a selection signal corresponding to the desired display size to be displayed. Based on the selection signal, a second clock generation circuit 6 including a circuit thins out the number of vertical lines of the small screen video signal to the number of lines corresponding to the desired display size and stores it in the line memory 7. Based on the first switch circuit 9 to output and the selection signal, the large screen video signal from the first A/D conversion circuit 1 and the small screen video signal read out from the field memory IO as described later are selected. Switch to D
The second switch circuit 2 outputs the output to the /A conversion circuit 3. Note that 8 converts the small screen video signal into an A/D converter in response to the sampling clock from the second clock generation circuit 6.
The second A/D conversion circuits 18 and 19 are used to write and write the line memory 7 and field memory IO, respectively.
First and second memory controllers control reading.

The selection means 5 is for the viewer to select a desired display size from among a plurality of small screen display sizes, and selects an analog video signal corresponding to the desired display size as a selection signal by the viewer's operation. 3 Output to the A/D conversion circuit 11.

In this embodiment, as shown in FIG. 2, the display size of the small screen B is as follows: 262.5 lines in the vertical direction and 910 dots in the horizontal direction You can change the number of lines from 85 to 127 in increments of 2, and the number of horizontal dots from 300 to 426 in increments of 6 dots, allowing you to select a total of 22 different small screen display sizes. It is possible.

The second clock generation circuit 4 to which a composite synchronization signal synchronized with the small screen video signal is provided includes a synchronization separation circuit and a PLL circuit as a variable means, and generates horizontal and vertical synchronization signals and a sampling clock. This sampling clock is given to the second A/D conversion circuit 8.

As shown in FIG. 3, the PLL circuit 17 as the variable means includes a frequency dividing circuit 12 to which a selection signal corresponding to a desired display size is supplied from the third A/D conversion circuit 11, and a horizontal synchronization separation circuit. A phase comparison circuit 14 is provided with a horizontal synchronization signal from 13 and a clock frequency-divided based on a selection signal by the frequency divider circuit 12, and a filter 15, which outputs a sampling clock corresponding to the phase error voltage from the filter 15. It is equipped with a voltage controlled oscillation circuit (VCO)TE. The frequency division ratio of the frequency dividing circuit 12 is set from 1/300 to 1/42 according to the number of horizontal dots of each display size in FIG. 2 based on the selection signal corresponding to the desired display size.
The frequency division ratio changes continuously between up to 6 and corresponds to the number of dots of the desired display size. The sampling clock from this PLL circuit 17 is given to a second A/D conversion circuit 8, and this second A/D conversion circuit 8 A/D converts the small screen video signal in response to the sampling clock.

Therefore, the number of dots in the horizontal direction changes continuously between 300 and 426 dots according to the sampling clock from the PLL circuit 17, and becomes the number of dots corresponding to the desired display size. In other words, the PLL as this variable means
The circuit 17 thins out the small screen video signal per horizontal scanning line by varying the sampling frequency of the small screen video signal based on the selection signal corresponding to the desired display size so as to obtain the desired display size. There is.

The small screen video signal from the second A/D conversion circuit 8 is transmitted to the first A/D conversion circuit 8.
The signal is applied to the switch circuit 9. This first switch circuit 9
Then, based on the selection signal from the third A/D conversion circuit 11, the number of vertical lines of the small screen video signal is continuously thinned out to correspond to the desired size and output to the line memory 7. This first switch circuit has 262.5
When the display size of the small screen is the smallest, one out of three
When the display size of the small screen is maximum, the number of lines in the vertical direction is thinned out and output at the rate of one in two lines. Therefore, out of 262.5 lines, the lines to be thinned out are from the 5th grain to the 257th grain, the 1st to 4th lines, the 258th to 262nd, and so on.
Five lines are ignored, but this period is a blanking period, so there is no problem.

The small screen video signal from the first switch circuit 9 is applied to the line memory 7. As shown in FIG. 4, this line memory 7 consists of two first and second line memories 7a and 7b, into which the small screen video signal from the first switch circuit 9 is written alternately. At the same time, they are read out alternately in synchronization with the large screen synchronization signal. FIG. 5 is a time chart for writing to and reading from the line memory 7, in which (A) shows the horizontal synchronizing signal for the small screen, and (B) shows the horizontal synchronizing signal for the small screen from the first switch circuit 9. The line number of the video signal, the same figure (C) is the first line memory 7
(D) is the line number of the small screen video signal written to the second line memory 7b, (E) is the horizontal synchronization signal for the large screen, (F) in the figure shows the line number of the small-screen video signal read out from the first line memory 7a, and (G) shows the line number of the small-screen video signal read out from the second line memory 7b. ) respectively indicate the line numbers of the small screen video signals output to the field memory IO.

The small screen video signal from the line memory 7 is sequentially written into the field memory 10, read out at the timing of small screen display according to the display size, and output to the second switch circuit 2.

The second switch circuit 2 switches between the large screen video signal from the first A/D conversion circuit 1 and the small screen video signal from the field memory IO based on the selection signal from the third A/D conversion circuit 11. output to the D/A conversion circuit 3,
As a result, a small screen of a desired display size is displayed within the large screen.

In the television receiver having the above configuration, when it is desired to change the display size of the small screen to a desired display size, the selection means 5 selects the desired display size of the small screen. As a result, the selection means 5 outputs a selection signal corresponding to the desired display size, and the frequency of the sampling clock changes continuously to become the sampling clock corresponding to the desired display size. The small screen video signal is A/D converted by the second A/D conversion circuit 8 according to this sampling clock, and further, the number of lines to be thinned out is continuously changed in the first switch circuit 9 to achieve the desired display. The number of lines in the vertical direction corresponding to the size is thinned out and given to the line memory 7, and then read out from this line memory 7 in synchronization with the synchronization signal for large screen and written to the field memory 10. The data is read out from the field memory 10 in accordance with the display size and applied to the second switch circuit 2.

The second switch circuit 2 switches and outputs the large screen video signal and the small screen video signal from the field memory IO in accordance with the display size. As a result, the display size of the small screen can be continuously changed from the above-described unstable display size to the desired display size without changing the resolution, providing a so-called zoom function. Therefore, the viewer can view the small screen in a display size that suits the purpose of use, which is very convenient.

In the embodiment described above, the sampling frequency of the small screen video signal is varied based on the selection signal from the selection means 5, but as another embodiment of the present invention,
Based on the selection signal corresponding to the desired display size without changing the sampling frequency, the field memory 1
The read address of 0 may be varied to thin out the small screen video signal of 1 horizontal scanning line light so as to correspond to a desired display size.

<Effects of the Invention> As described above, according to the present invention, by selecting a desired display size from among the display sizes of a plurality of small screens,
In order to correspond to this desired display size, the sampling frequency of the small-screen video signal or the read address of the memory where the small-screen video signal is written/read is varied to produce a small-screen video signal of one horizontal scanning line. At the same time, the number of lines in the vertical direction of the small screen video signal is thinned out to the number of lines corresponding to the desired display size. Since the video signal for the screen is switched, the viewer can select the desired display size from among multiple small screen display sizes, and the small screen will be displayed at the desired display size. Compared to the conventional example in which the display size of the small screen was fixed, the usability is improved and it is very convenient.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of one embodiment of the present invention, and FIG. 2 is a block diagram of an embodiment of the present invention.
3 is a block diagram of the PLL circuit, FIG. 4 is a block diagram of the line memory, and FIG. 5 is a time chart for explaining the operation. 2... Second switch circuit, 5... Selection means, 9...
・First switch circuit, IO...field memory, 1
7...PLL circuit.

Claims (1)

[Claims] (1) In a television receiver that displays a small screen on a large screen at the same time, a selection means for selecting a desired display size from among a plurality of display sizes of the small screen, and the desired display size outputted from the selection means. The sampling frequency of the small screen video signal or the read address of the memory where the small screen video signal is written/read is varied based on the selection signal corresponding to the display size of the small screen video signal per horizontal scanning line. a variable means for thinning out the number of lines in the vertical direction of the small screen video signal to a number corresponding to the desired display size based on the selection signal from the selection means; and a second switch circuit that switches and outputs a large screen video signal and a small screen video signal read from the memory based on the selection signal from the selection means. A television receiver featuring: