SU768014A1 - Tv character decoder - Google Patents

Description

The invention relates to television, can be used to reproduce characters on a television screen.

A color television decoding device is known, comprising an input amplifier, a bandpass filter and a color signal demodulator connected in series, the output of the input amplifier being connected via a delay line to the first input of the signal matrixing unit, the output amplifier unit. This device allows you to transmit iconic information.

However, for small character sizes, sign information cannot be transmitted while maintaining full clarity and correct color rendering.

The aim of the invention is to reduce color distortion sign ¹⁵ Infor- mation.

To do this, in the well-known television sign decoding device, the outputs of the color-difference signals of the chroma signal demodulator are connected through the inputted first ₂₀ key block to the corresponding inputs of the signal matrixing unit, the outputs of which are connected through the second key block to the inputs of the output amplifier block 2, while the control input of the first the key block is connected to the first output of the entered control unit, the second, third and fourth outputs of which are connected to the corresponding control inputs of the second a block key, and the first control unit input is connected to the output of the identification, the input of which is connected to an additional output of the demodulator chrominance outputs color difference which signals are connected to inputs entered block comparators, three outputs of which are connected to said second, third and fourth inputs of the control unit.

The drawing shows a structural electrical diagram of the proposed device.

The TV sign decoding device contains an input amplifier 1, a delay line 2, a bandpass filter (PF) 3, a color demodulator 4, a signal matricing unit 5, a first 6 and a second 7 key blocks, an output amplifier block 8, a recognition unit 9, a comparator unit 10 , block 11, control.

The device operates as follows. A signal encoded, for example, by the SECAM system and carrying information about a television image, is fed to the input of an input amplifier 1, from the output of which a luminance signal V passes through delay line 2 to block 5. The color signal extracted from the input signal bandpass filter 3, is fed to demodulator 4.

In normal television mode, the color difference signals R. — U, V — Y, and G — U from the output of the demodulator through the closed keys of block 6 are fed to the inputs of block 5, the outputs of which produce signals R, Cf, B of the primary colors. These signals through the closed keys of block 6 are fed to the output amplifiers of block 8 and then to the outputs of the device.

In sign mode, the input of the input amplifier 1 also receives a signal encoded, for example, by the SECAM system. However, the luminance signal carries its own sign information, and color difference signals carry information about the color of the transmitted characters.

The transition to the sign mode is performed by the recognition unit 9, which selects the identification signal of the sign mode and generates a logical level of "zero" in normal television mode and a level of "unit" in sign mode. The last signal causes a change in the state of the control unit 11 so that the keys of the unit 6 open for the entire period of operation in sign mode, and the keys of the unit 7 are turned off until the information about the color of the signs appears on the outputs of the demodulator 4. Therefore, until such information appears at the output of the device signals.

With the simultaneous occurrence of sign information and information about the color of characters, the control unit 11 turns on the keys of block 6 (all together or separately) for a time corresponding to the transmission of a group of characters highlighted in color.

In particular, when transmitting red signs at the output of demodulator 4, a color difference signal K - Y of positive polarity appears, while the other two signals have negative polarity. The signal R - U triggers the corresponding comparator of block 10, and the control block 11 generates a signal that includes the corresponding key of block 6. As a result, the sign brightness signal from block 5 is sent to block 8 and then to the device output (red signs appear on the monitor screen) .

. Similarly, signs of green and blue are formed.

If additional pickup signals are transmitted, which are formed from the main pairs (yellow from R + £?, Cyan from Q + B, magenta from R. + B), then the corresponding pairs of positive color-difference signals are formed at the outputs of demodulator 4, and the third color-difference signal remains negative. In this case, the corresponding pairs of comparators of block 9 are triggered, the control unit 11 generates signals that close the corresponding key pairs of block 7, and the required signal pairs appear on the device output, which form signs of the corresponding additional color on the monitor screen.

Finally, if white characters are transmitted, then no color difference signals appear at the outputs of demodulator 4. As a result, none of the comparators of unit 10 is triggered, and the control unit 11 generates a signal that simultaneously includes three keys of unit 7, three iconic signals R., Q, B appear at the device outputs, and white signs appear on the screen.

The proposed device provides the reproduction of iconic information with high definition, without distortion.

Claims (1)

(54) TELEVISION SIGN DECODING DEVICE The invention relates to television, can be used to play characters on a television screen. A color television decoder is known that contains a serially-connected input amplifier, a band-pass filter and a chrominance demodulator, and the output of the input amplifier is connected via a delay line to the first input of a signal matrixing unit, a block of output amplifiers. This device allows the transmission of sign information. However, with small sign sizes, sign information cannot be transmitted with full-definition preservation and correct color rendering. The aim of the invention is to reduce the color distortion of sign information. To do this, in the well-known television sign decoder, the outputs of the CET of the difference signals of the demodulator of the chromaticity signals are connected through the inputted first b. Key to the corresponding inputs of the signal matrixation unit, the OUTPUT of which is connected to the inputs of the output amplifier unit, while the control input the first block of switches is connected to the first output of the inserted control block, the second, third and fourth outputs of which are connected to the corresponding control inputs of the second the key block, and the first input of the control unit is connected to the output of the identification unit, the input of which is connected to an additional output of a chrominance demodulator, the outputs of the color difference signals of which are connected to the inputs of the inputted comparators unit, three outputs of which are connected to the second, third and fourth control unit. The drawing shows a structural electrical circuit of the proposed device. The TV sign decoding device contains an input amplifier 1, a delay line 2, a band-pass filter (PF) 3, a demodulator of 4 color signals, a signal matrixation unit 5, the first 6 and second 7 key blocks, an amplifier 8 output block, an identification block 9, a block 10 comparator, 11, controls. The device operates as follows. The signal, encoded, for example, by the SECAM system and carrying information about the television image, is fed to the input of the input amplifier 1, from which output the luminance signal V through the delay line 2 goes to unit 5. The chromaticity signal extracted from the input signal band-pass filter 3 arrives at demodulator 4. In normal TV mode, color difference signals R, -U, V-Y and Q-V from the output of the demodulator through closed keys of block 6 are fed to the inputs of block 5, the outputs of which generate signals K, Ci, in primary colors. These signals through the closed keys of block 6 are fed to the output amplifiers of block 8 and then to the outputs of the device. In the sign mode, the input of the input amplifier 1 also receives a signal encoded, for example, by the SECAM system. However, the luminance signal carries its own sign information, and the color difference signals carry information about the color of the transmitted characters. The transition to the sign mode is carried out by the identification block 9, which is allocated; Signal mode recognition signal and generates a logical level of "zero in normal television mode and level of" one in sign mode. The last signal causes a change in the state of control unit 11 so that the keys of unit 6 open for the entire period of operation in sign mode and the keys of the unit 7 is turned off until the occurrence of information about the color of the characters at the outputs of the demodulator 4. Therefore, before the appearance of such information, there are no signals at the output of the device. With the simultaneous appearance of symbolic information and information about the color of the characters, the control unit 11 activates the inclusion of the keys of the block b (all together or separately) for the time corresponding to the transmission of the group of characters highlighted in color. In particular, when transmitting red characters, a color difference signal R - Y of positive polarity appears at the output of demodulator 4, while the other two signals have negative polarity. The signal R - Y triggers the corresponding comparator of block 10, and block 11 of the control generates a signal including the corresponding key of block 6. As a result, the sign luminance signal from block 5 goes to block 8 and then to the output of the device (they appear on the monitor screen). red signs). Likewise, signs of green and blue are formed. If additional signals are transmitted, formed from the main pairs (yellow from R. + Q, cyan from Q + B, pur 768014 from magenta from fi + B), the corresponding pairs of positive color difference signals are formed at the outputs of demodulator 4, and the third color difference signal remains negative . In this case, the corresponding pairs of comparators of block 9 are triggered, the block of control 11 generates signals closing the corresponding pairs of keys of block 7, the required signals appear on the output of the device, which form the signs of the corresponding additional color on the monitor screen. Finally, if white characters are transmitted, then no color difference appears at the outputs of demodulator 4. As a result, none of the comparators of the block 10 is triggered, and the control block 11 generates a signal that simultaneously includes three keys of the block 7, three sign signals appear on the outputs of the device, G, S, and white signs appear on the screen. The proposed device provides the reproduction of sign information with high definition, without distortion. A sign decoding device comprising a serially connected input amplifier, a band-pass filter and a chrominance demodulator, and the output of the input amplifier is connected via a delay line to the first input of the signal matrixing unit, in order to reduce distortion the color rendition of the sign information, the outputs of the color difference signals of the demodulator of the chroma signals are connected via the entered first key block with the corresponding inputs The signal matrixing unit, the outputs of which are connected via the inputted second key block to the inputs of the output amplifier unit, while the control input of the first key block is connected to the first output of the input control unit, the second, third and fourth outputs of which are connected to the corresponding control inputs of the second key block, and the first input of the control unit is connected to the output of the identification unit, the input of which is connected to the additional output of the demodulator of the chrominance signal, the outputs of the color difference signals of which are connected to inputs of comparators inputted block, three outputs, which are connected to said second, third and fourth inputs of the control unit. Sources of information taken into account in the examination 1. Technique of color television. Under the editorship of S. V. Novakovsky. M., “Holy, 1976, p. 356 (prototype). L. J