JP2840362B2 - Contour correction circuit - Google Patents

Description

The present invention relates to a contour correction circuit in a television receiver.

(B) Conventional technology As a method of improving image quality in a television receiver, there is a contour correction circuit using a delay line as described in “Television Technology '88 January”, pp. 35-40.

This contour correction circuit includes a contour correction IC as shown in FIG.
(1) For example, "CXA1387S" manufactured by Sony Corporation is used. Explaining with FIG. 4, the luminance signal (Y _IN ) is an IC
Input to pin 28 of (1) and attenuator (1a) approx. 24.5
The signal is attenuated by dB, output from pin 23 as (a), and input to the first delay line (1b). The output of the first delay line (1b) is output from pin 20 as (b) and further input to the second delay line (1c).
Output from pin 17 as (c). The delay time of the first and second delay lines (1b) and (1c) is set to about 200 ns.

The outputs (a), (b), and (c) are input to pins 24, 21, and 18 via coupling capacitors, respectively. The outputs (a) and (b) are subtracted by a first subtractor (1d), and the subtracted output (d) is supplied as a preshoot to a first adder (1f) via a first gain control circuit (1e). Supplied.

On the other hand, the outputs (b) and (c) are subtracted by a second subtractor (1g), and the subtracted output (e) is used as an overshoot via a second gain control circuit (1h) to a first adder (1f). Supplied to The added output (f) added by the first adder (1f) passes through the third gain control circuit (1i), and is added to the signal (b) by the second adder (1j) as a contour correction signal. As shown in (g), it is output as a luminance signal (Y _OUT ) whose contour has been corrected from the 26th pin.

The pin 27 has a control signal (WGT) for controlling the preshoot / overshoot ratio of the contour correction signal (f).
And the first and second gain control circuits (1e) and (1h)
Are controlled in a complementary manner. That is, the preshoot / overshoot ratio can be controlled in accordance with the characteristics as shown in FIG. 5, and is usually set to 1: 1.

Further, a control signal (SHP) is input to pin 25, and the sharpness level can be controlled by controlling the gain of the third gain control circuit (1i).

(C) Problems to be Solved by the Invention Normally, the luminance signal (Y _IN ) input to the contour correction IC already has an overshoot and a preshoot, and especially in the case of an on-air TV signal, the tuner In addition, since the frequency characteristics and the phase characteristics vary due to variations in the VIF circuit and the like, the ratio between the overshoot and the preshoot may not be constant.

For this reason, the preshoot / overshoot ratio of the luminance signal output (Y _OUT ) of the IC is set to 1 by setting the preshoot / overshoot ratio of the contour correction signal added by the contour correction IC to 1: 1. : 1 in some cases, resulting in image quality degradation.

(D) Means for Solving the Problems The present invention provides a contour correction comprising preshoot and overshoot by calculating an input luminance signal to which preshoot and overshoot are added in a transmission system and a signal obtained by delaying the luminance signal. In a contour correction circuit which generates a signal and superimposes the contour correction signal on the luminance signal, a detection means for detecting a ratio of a preshoot and an overshoot in the input luminance signal is provided.

(E) Function The present invention operates so that the ratio of the preshoot and the overshoot of the output luminance signal becomes constant by controlling the ratio of the preshoot and the overshoot in the contour correction signal by the output of the detecting means.

(F) Example An example of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of a contour correction circuit according to the present embodiment, and FIG. 2 is a waveform diagram of a main part.

The luminance signal (a) with the preshoot and overshoot is input to the contour correction IC (1),
It is also supplied to the horizontal synchronizing extraction circuit (2) and only the horizontal synchronizing pulse (b) is extracted. The extracted horizontal synchronizing pulse (b) is sliced at a predetermined slice level by the slicing circuit (3), and only the lower side (c) of each of the preshoot and the overshoot is extracted. This signal (c) is differentiated by the differentiating circuit (4), and the differentiated output (d) becomes a negative pulse for overshoot and a positive pulse for preshoot.
Here, each pulse is proportional to the magnitude of the overshoot and the magnitude of the preshoot, respectively. Then, by converting this differential output (d) into a direct current by the DC conversion circuit (5), it is possible to detect the ratio between the preshoot and the over-use of the input luminance signal. This detection signal is set to be 0 to 3 V when the overshoot is larger, 3 V when the ratio is 1: 1, and 3 to 6 V when the preshoot is larger.

This detection signal is applied to the control terminal of the contour correction IC (1) via the switch circuit (6). Therefore,
In the contour correction IC (1), the ratio between the preshoot and the overshoot is controlled according to the characteristic diagram of FIG. 5, so that the ratio between the preshoot and the overshoot of the luminance signal output (Y _OUT ) is constant in the input luminance signal. 1: 1 even if not
Is controlled.

Although the video input signals from a VTR and the like vary depending on the signal source, they are not always correlated with the synchronization signal, and there is little circuit variation in the TV set. Need not vary the control signal (WGT) as a uniform video signal. Therefore, when a video signal is input, the switch (6) is controlled by the switching signal from the switching signal generation circuit (7), and the control signal (WGT) is fixed at 3V.

(G) Effects of the Invention As described above, according to the present invention, the ratio of the preshoot / overshoot in the luminance signal after contour correction can be kept constant, so that the image quality is degraded even with an on-air TV signal. There is no.

[Brief description of the drawings]

FIG. 1 is a block diagram of a contour correction circuit according to an embodiment of the present invention, FIG. 2 is a waveform diagram of the essential part, FIG. 3 is a diagram showing a conventional contour correction circuit, and FIG. FIG. 5 is a diagram showing the control characteristics of the preshoot / overshoot ratio. (1)… IC for contour correction, (2)… horizontal synchronization sampling circuit, (3)… slice circuit, (4)… differentiation circuit,
(5) DC conversion circuit.

Claims (2)

(57) [Claims] A contour correction signal comprising a preshoot and an overshoot is generated by calculating an input luminance signal to which a preshoot and an overshoot are added in a transmission system and a signal obtained by delaying the luminance signal. A contour correction circuit that superimposes the preshoot and overshoot in the contour correction signal on the basis of the output of the detection means. A contour correction circuit characterized in that a preshoot and an overshoot ratio of an output luminance signal become constant by controlling a shoot ratio. 2. A contour correction circuit comprising means for invalidating an output of said detecting means when said input signal is a video input signal.