JP2733932B2 - Character insertion device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a character insertion device that inserts a character signal into a video signal. [Summary of the Invention] The present invention provides each character signal insertion circuit in each transmission path of a luminance signal and a carrier chrominance signal separated from a color video signal, so that a cross color in a character portion can be reduced. It is designed to be less likely to occur. [Prior Art] A character insertion device is provided in a VTR, a video signal to be recorded on a magnetic tape at the time of EE, such as a channel signal of a television broadcasting station, a time, a character signal such as a timer time and a time in the VTR. To the signal supplied to the monitor receiver or the video signal reproduced from the magnetic tape,
This is supplied to a monitor receiver. First, a conventional character insertion device will be described with reference to FIG. A composite color video signal to be recorded on a magnetic tape is supplied from an input terminal (1) to an AGC circuit (automatic gain control circuit) (2), and the level of the luminance signal is made normal. On the other hand, the reproduced luminance signal PB-Y and the carrier color signal PB-
C is supplied to an adder (15) and added to form a composite color video signal. (5) is a changeover switch for switching each output of the AGC circuit (2) and the adder (15). The composite color video signal obtained from the changeover switch (5) is supplied to the character signal insertion circuit (6). Then, the character signal from the character signal generating circuit (7) is inserted into the composite color video signal. Then, the composite color video signal into which the character signal has been inserted is output to the output terminal (10). The configuration of the character signal insertion circuit (6) will be described with reference to FIG. The composite color video signal (FIG. 5A) from the changeover switch (5) is supplied to a clamp circuit (16), for example, to perform pedestal clamping, thereby generating the clamped composite color video signal and a white level voltage. The voltage from the DC power supply (18) is switched by the character signal from the character signal generating circuit (7) so that the character signal section of the composite color video signal has a white level as shown in FIG. 5B. By the character signal
I try to insert a CP. [Problems to be Solved by the Invention] In a conventional character insertion circuit, a character signal is directly inserted into a composite color video signal. Therefore, a cross generated at the inserted character signal portion (edge portion of the character signal). The color components could not be separated and removed. In order to forcibly reduce the cross color, the switching of the switch (17) in the character signal insertion circuit (6) may be performed slowly, but in such a case, the inserted character becomes unclear. Also, the level of the carrier color signal of the signal supplied to the monitor receiver for the composite color video signal to be recorded on the magnetic tape at the time of EE is not constant, especially when the level of the carrier color signal is low, Since the cross color component due to the insertion is constant, the cross color component becomes relatively high, and the cross color becomes conspicuous. In view of such a point, the present invention intends to propose a character insertion device in which a cross color is hardly generated in a character portion. [Means for Solving the Problems] The character insertion device according to the present invention includes a character signal insertion circuit (6Y), each of which is provided with a separate character signal insertion circuit (6Y) in each transmission path of a luminance signal and a carrier color signal separated from a color video signal. (6C). [Operation] According to the present invention, a color video signal is separated into a luminance signal and a carrier color signal, and a character signal is inserted into each of the separated luminance signal and carrier color signal. Embodiment An embodiment in which the present invention is applied to a high-quality VTR will be described below in detail with reference to FIG. In this VTR, NTSC
In the case of the system, the frequency shift of the frequency modulated luminance signal is 6.8M
The range of Hz to 9.3 MHz is used to broaden the luminance signal. A composite color video signal to be recorded on a magnetic tape is supplied from an input terminal (1) to an AGC circuit (automatic gain control circuit) (2), and the level of the luminance signal is made normal. The composite color video signal from the AGC circuit (2) is supplied to a luminance / chromaticity separation circuit (3) and separated into a luminance signal Y and a carrier chrominance signal C. The separated carrier chrominance signal C is supplied to an ACC circuit (automatic color control circuit) (4) so as to have a prescribed level. (5Y) and (5C) are changeover switches, respectively, which are switched in conjunction with each other. The changeover switch (5Y) is connected to the luminance signal Y from the luminance / chromaticity separation circuit (3) and the terminal (39).
, And outputs the output to the character signal insertion circuit (6Y). This character signal insertion circuit (6
Y) has the circuit configuration of FIG. 4 described above. Even if the luminance signal Y 'into which the character signal is inserted has a cross color component, the luminance signal Y' does not become a cross color on the screen of the monitor receiver. The changeover switch (5C) switches between the carrier chrominance signal C from the ACC circuit (4) and the reproduced carrier chrominance signal C from the terminal (40), and supplies the output to the character signal insertion circuit (6C). The character signal insertion circuit (6C) is configured to mute a portion where the character signal of the carrier color signal is inserted. Then, the character signal from the character signal generation circuit (7) is
It is supplied to the character signal insertion circuits (6Y) and (6C). Then, the luminance signal Y 'and the carrier chrominance signal C' with the character signal inserted are output to the output terminals (10Y) and (10C), respectively. The luminance signal Y 'into which the character signal is inserted is supplied to a Y-type comb filter (addition type comb filter) (8) to remove the cross color component while minimizing the deterioration of the character signal. Done. And this Y-shaped comb filter (8)
And the carrier color signal C 'from the character signal insertion circuit (6C) are supplied to an adder (9) to obtain a composite color video signal V' with the character signal inserted. This is output to the output terminal (11). According to the character insertion device of this embodiment, the carrier color signal set to the prescribed level by the ACC circuit (4) at the time of EE is mixed with the luminance signal to obtain a composite color video signal. Even if the level of the carrier color signal is low, the cross color component at the edge of the inserted character signal will not be emphasized. In addition, since the character signal is inserted into the luminance signal and then supplied to the Y-shaped comb filter (8), the filter (8) removes the cross color component generated by the insertion of the character signal. And there is no danger of the characters being blurred. Next, an example of a reproduction system for obtaining a reproduction luminance signal and a reproduction carrier color signal supplied to the terminals (39) and (40) of the character signal insertion device of FIG. 1 will be described with reference to FIG. I do. H
a and Hb are a pair of rotary magnetic heads having a 180-degree angle division, and the respective reproduced video signals whose attenuation is varied by turning on and off the reproducing amplifiers (21) and (22) and the switches (25) and (26), respectively. The variable attenuators (23) and (24) and the regenerative equalizer amplifiers (27) and (28) are successively supplied to a changeover switch (29), and a field changeover signal from a terminal (30) causes It is switched every time. After the reproduced video signal from the changeover switch (29) and the signal obtained by passing the reproduced video signal through the equalizer amplifier (31) are switched by the changeover switch (32), the high-pass filter (35) and the low-pass filter It is supplied to a filter (36). A high-pass filter (35) extracts a frequency-modulated luminance signal from the reproduced video signal, supplies the frequency-modulated luminance signal to a frequency demodulation circuit (37), demodulates the frequency, and outputs a reproduced luminance signal Y to an output terminal (39). . A low-pass filter (36) extracts a low-frequency conversion carrier color signal from the reproduced video signal, and supplies it to a frequency conversion circuit (38) to be frequency-converted. Is output as the carrier color signal (reproduction carrier color signal) C. This VTR uses a metal tape to record high-quality color video signals using magnetic tape (cassette tape).
At the same time, a magnetic tape (cassette tape) that uses an iron oxide tape and records a color video signal that is not as high in quality as the left can be reproduced. Therefore, the mode signal (mode I for high quality recording and mode II for low quality recording) from the terminal (34) is transmitted to the switches (25), (26) of the variable attenuators (23), (24). The control signal is supplied directly to the selector switch (32) through the inverter (33). And mode I
In the case of, both the switches (25) and (26) are turned off, and the changeover switch (32) is switched to the changeover switch (29). In the mode II, the switches (25) and (26)
Are turned on, and the changeover switch (32) is switched to the equalizer circuit (31) side. Then, the mode I is controlled by the equalizer amplifiers (27) and (28).
Optimization is performed, and an equalizer amplifier (31) is connected to this, so that its frequency characteristic is reduced,
That is, the high range is dropped, and optimization in mode II is performed. This is advantageous in increasing the S / N. According to the present invention described above, a character signal is inserted into each of the luminance signal and the carrier color signal separated from the input composite color video signal, and the luminance signal into which the character signal is inserted is added to the addition type comb. Since it is supplied to the type filter, it is possible to remove the cross color generated by inserting the character signal into the luminance signal, and furthermore, there is no possibility that the character becomes unclear by inserting the addition type comb filter. An insertion device can be obtained. Further, according to the present invention described above, a character signal is inserted into a luminance signal separated from an input composite color video signal, and a separated carrier color signal is supplied to an automatic color control circuit. Since the character signal is inserted into the output carrier color signal, even if the level of the carrier color signal separated from the composite color video signal is low, the level of the carrier color signal is output by the automatic color control circuit. Can be increased, thereby obtaining a character insertion device in which the cross-color component is not likely to be emphasized at the edge of the inserted character signal. Further, according to the present invention described above, a character signal is inserted into a luminance signal separated from an input composite color video signal, a separated carrier color signal is supplied to an automatic color control circuit, and output from the automatic color control circuit. The character signal is inserted into the carrier color signal and the luminance signal with the character signal inserted is supplied to the addition type comb filter, so that the level of the carrier color signal separated from the composite color video signal is low. Even in this case, the level of the carrier color signal can be increased by the automatic color control circuit, so that there is no possibility that the cross color component is emphasized at the edge of the inserted character signal. The cross color generated by the insertion of the character signal can be removed. Te, can be characters get possibility free character insertion device becomes unclear.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is a block diagram showing a reproducing system, FIG. 3 is a block diagram showing a conventional example, and FIG. FIG. 5 is a block diagram showing a character signal insertion circuit, and FIG. 5 is a waveform diagram. (2) is an AGC circuit, (3) is a luminance / chromaticity separation circuit,
(4) is an ACC circuit, (6Y) and (6C) are character signal insertion circuits, (8) is a Y-type comb filter, and (9) is an adder.

Claims (1)

(57) [Claims] A first character signal insertion circuit for supplying a luminance signal separated from the input composite color video signal, a second character signal insertion circuit for supplying a carrier color signal separated from the input composite color video signal, A character signal generation circuit that supplies a character signal to the first and second character signal insertion circuits; and an addition type comb filter to which a luminance signal into which the character signal from the first character signal insertion circuit is inserted is supplied. And a luminance signal into which the character signal is inserted from the addition type comb filter and a carrier color signal into which the character signal is inserted from the second character signal insertion circuit are supplied and added to add the character signal. And an adder for obtaining an output composite color video signal. 2. A first character signal insertion circuit for supplying a luminance signal separated from an input composite color video signal; an automatic color control circuit for supplying a carrier color signal separated from the input composite color video signal; A second character signal insertion circuit to which a carrier color signal is supplied from a control circuit; a character signal generation circuit to supply a character signal to the first and second character signal insertion circuits; The luminance signal into which the character signal from the circuit is inserted and the carrier color signal into which the character signal from the second character signal insertion circuit is inserted are supplied and added,
An adder for obtaining an output composite color video signal into which a character signal has been inserted. 3. A first character signal insertion circuit for supplying a luminance signal separated from an input composite color video signal; an automatic color control circuit for supplying a carrier color signal separated from the input composite color video signal; A second character signal insertion circuit to which a carrier color signal is supplied from a control circuit; a character signal generation circuit to supply a character signal to the first and second character signal insertion circuits; An addition comb filter to which a luminance signal into which a character signal from a circuit is inserted is supplied; a luminance signal into which a character signal from the addition comb filter is inserted; and a character from the second character signal insertion circuit. And an adder for receiving and adding the carrier color signal into which the signal is inserted to obtain an output composite color video signal into which the character signal is inserted. Character insertion device according to claim.