JPH03252273A - Outline emphasis signal generating circuit - Google Patents

Abstract

PURPOSE:To generate an outline emphasis signal having a sufficient amplitude by converting a video signal of low through rate to a video signal of high through rate by a first outline emphasizing circuit, a switch control circuit, and a switch circuit and subjecting the video signal to quadratic differential by a second outline emphasizing circuit. CONSTITUTION:An input video signal SV0 before outline emphasis is taken into a delay circuit 12 and a subtracting circuit 14 from an input terminal 11. The circuit 12 delays the signal SV0 by t to output a video signal SV1, and the signal SV1 is taken into a delay circuit 13 and subtracters 14 and 15. The circuit 13 delays the signal SV1 by t furthermore to output a video signal SV2, and the signal SV2 is taken into the subtracter 15. Subtracters 14 and 15 subtract signals SV0 and SV2 from the signal SV1 to output video signals SV3 and SV4, and signals SV3 and SV4 are added by an adder 16 to output an outline emphasis signal SV5 whose waveform is obtained by quadratic differential of the signal SV1. A switch circuit 40 outputs a signal SV6 by a switch control circuit 30. The signal SV6 has the same amplitude as the signal SV0 but has a higher throughput.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides an edge enhancement signal generation circuit that generates an edge enhancement signal that is proportional only to the amplitude of an input video signal, regardless of the magnitude of the slew rate of the input video signal. It is related to.

[Conventional technology] The configuration of a conventional example will be explained with reference to FIG.

FIG. 4 is a circuit diagram showing a conventional edge enhancement signal generation circuit.

In FIG. 4, the conventional edge enhancement signal generation circuit includes an input terminal (1) into which a video signal is input, a delay circuit (2) connected to this input terminal, and a delay circuit (2) connected to this input terminal. a subtracter (4) connected to the input terminal (1) and the delay circuit (2), a subtracter (5> connected to the delay circuits (2) and (3), an adder (6) connected to subtracters (4) and (5);
) is connected to the output terminal (7>).

Next, the operation of the above-mentioned conventional example will be explained with reference to FIGS. 5 and 6.

FIGS. 5(a)-(f) and FIGS. 6(a)-(f) are waveform diagrams showing the operation of a conventional edge enhancement signal generation circuit.

The input video signal S20 before contour enhancement is taken into a delay circuit (2) and a subtracter (4) through an input terminal (1).

As shown in FIG. 5(a), the delay circuit (2) delays the input video signal S0 by a time Δt.
As shown in FIG. 5(b), output the video signal SVI,
This video signal SVI is taken into a delay circuit (3) and subtracters (4) and (5), respectively. Furthermore, the 5th Q? I(
The slew rate of the input video signal S■0 in a) is the 6th
It is assumed that it is much larger than that in Figure (a).

The delay circuit (3) outputs the video signal SV2 by further delaying the video signal S1 by a time Δt, as shown in FIG. 5(c), and this video signal SV2 is sent to the subtracter (5). be taken in.

The subtracters (4> and (5) each subtract the video signal SvO or SV2 from the video signal SV1,
As shown in FIGS. 5(d) and (e), the video signal SV3
and outputs SV4.

Then, the adder (6) adds the video signals SV3 and SV4 to output an edge emphasis signal SV5 having a waveform obtained by second-order differentiating the video signal S1. At this time, as shown in FIG. 5(f), the amplitude of the contour emphasis signal SV5 is 2A.
That is, the amplitude is twice the amplitude A of the input video signal S0.

[Problems to be Solved by the Invention] In the conventional contour enhancement signal generation circuit as described above, the sixth
When a waveform with a small slew rate as shown in FIG. 6(a) is input, a signal Sv1 as shown in FIG. 6(b), which is equal to or smaller than the amplitude of the input signal, is generated as shown in FIG. 6(f). There is a problem in that only an edge-emphasizing signal having a waveform obtained by second-order differentiation of is obtained.

The present invention was made to solve the above-mentioned problems, and an object of the present invention is to provide an edge enhancement signal generation circuit that can generate an edge enhancement signal with sufficient amplitude even with an input video signal having a small slew rate. shall be.

[Means for Solving the Problems] An edge enhancement signal generation circuit according to the present invention includes the following means.

(I>, a first contour emphasizing circuit that second-order differentiates an input video signal and outputs a first contour emphasizing signal;

(ii>, a switch control circuit that generates a control signal based on the first contour enhancement signal;

(iii) A switch circuit that switches and outputs the video signal, a primary delayed video signal obtained by delaying this video signal, and a secondary delayed video signal obtained by delaying this primary delayed video signal, based on the control signal.

(iv) A second contour emphasizing circuit that performs second-order differentiation on the output of the switch circuit and outputs a second contour emphasizing signal.

[Operation 1] In the present invention, a video signal with a low slew rate is once converted into a video signal with a high slew rate by the first contour emphasizing circuit, the switch control circuit, and the switch circuit.

Then, the second edge enhancement circuit generates an edge enhancement signal with sufficient amplitude from the video signal with a high slew rate.

[Embodiment] The configuration of an embodiment of the present invention will be described with reference to FIG.

FIG. 1 is a circuit diagram showing an embodiment of the present invention.

In FIG. 1, one embodiment of the present invention includes an edge enhancement circuit (10) and an output terminal (1) of this edge enhancement circuit (10).
7) connected to the switch control circuit (30) and the input terminal (11) of the contour enhancement circuit 10) + delay circuit (12)
), delay circuit (13), and switch control circuit (30)
), and an edge enhancement circuit (20) whose input terminal (1) is connected to the switch circuit (40).

Note that the internal configuration of the edge enhancement circuits (10) and (20) is exactly the same as that of the conventional edge enhancement signal generation circuit described above.

Next, the operation of the above embodiment will be explained with reference to FIGS. 2 and 3.

FIGS. 2(a)-(g) and FIGS. 3(a)-(f) are waveform charts showing the operation of an embodiment of the present invention.

The input video signal S0 before contour enhancement is passed through an input terminal (11) to a delay circuit (12) and a subtracter (14).
be taken in.

This delay circuit (12) has five
By delaying the human video signal SVO by a time Δt, a video signal SVI is output as shown in FIG. ) respectively.

The delay circuit (13) further converts the video signal SVI into a time Δt.
By delaying the subtractor (15), the video signal SV2 is output as shown in FIG. 2(c), and this video signal SV2 is taken into the subtracter (15).

The subtracters (14) and <15) each receive the video signal Sv
By subtracting the video signal SVO or SV2 from 1, the video signal SVO or SV2 is obtained as shown in FIG.
Outputs V3 and SV4.

The adder (16) then outputs the video signals SV3 and SV4.
By adding , an edge-emphasizing signal SV5 having a waveform obtained by second-order differentiation of the video signal S1 is output.

The switch control circuit (30) takes in the contour emphasis signal S5, and as shown in FIG.
At the point, the output of the switch circuit (40) becomes SV2 and S, respectively.
A drive pulse, which is a control signal, is generated so that VO and SV1 are achieved.

As described above, the switch circuit (40) outputs the video signal SV6 by the switch control circuit (30) as shown by the solid line in FIG. 2(g). At this time, the video signal S
Is the amplitude of V6 equal to A, the same as that of the input video signal SVO?
The slew rate is higher.

The subsequent operation is completely the same as the conventional one, with the video signal SV6 becoming the input video signal SVO shown in FIG. 3(a), and as shown in FIGS. 3(b) to 3(f).

As described above, an embodiment of the present invention converts the amplitude of a video signal with a small slew rate into a video signal with a high slew rate without changing the amplitude, and further inputs it to the contour enhancement circuit to increase the amplitude of the video signal. It is possible to generate an amplitude contour emphasis signal, and it is possible to generate an contour emphasis signal proportional only to the amplitude without depending on the slew rate of the input video signal.

[Effects of the Invention] As described above, the present invention includes a first edge enhancement circuit that quadratically differentiates an input video signal and outputs a first edge enhancement signal; a switch control circuit that generates a control signal based on the control signal; and a switch control circuit that generates a control signal based on the control signal, and a switch control circuit that generates a control signal based on the control signal. Since it is equipped with a switch circuit that performs switching and outputs, and a second contour enhancement circuit that performs second-order differentiation of the output of the switch circuit and outputs a second contour enhancement signal, even an input video signal with a small slew rate can be used. This has the effect of being able to generate a contour emphasis signal with amplitude.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, FIGS. 2 and 3 are waveform diagrams showing the operation of an embodiment of the invention, and FIG.
The figure is a circuit diagram showing a conventional edge enhancement signal generation circuit, and FIGS. 5 and 6 are waveform diagrams showing the operation of the conventional edge enhancement signal generation circuit. In the figure, (1), (11) ... input terminals, (2), (1
2) ... Delay circuit, (3), <13...
・Delay circuit, (4), (14... Subtractor, (5), (15... Subtractor, (6), (16... Adder, (7), (17... Output) Terminal, (10), (20... Contour enhancement circuit, (30)
... switch control circuit, (40) ... switch circuit. In each figure, the same reference numerals indicate the same or equivalent parts.

Claims (1)

[Claims] a first edge enhancement circuit that second-order differentiates an input video signal and outputs a first edge enhancement signal; a switch control circuit that generates a control signal based on the first edge enhancement signal; and a switch control circuit that generates a control signal based on the first edge enhancement signal; a switch circuit that switches and outputs a primary delayed video signal obtained by delaying the video signal and a secondary delayed video signal obtained by delaying the primary delayed video signal based on the control signal; Differentiate the second
What is claimed is: 1. An edge enhancement signal generation circuit comprising a second edge enhancement circuit that outputs an edge enhancement signal.