JP2547736B2 - Image quality adjustment circuit - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image quality adjusting circuit for arbitrarily adjusting the contour of a television image, and more particularly to continuous contour control from contour enhancement to attenuation.

[Conventional technology]

Conventionally, an image quality adjustment circuit, as shown in FIG. 8, firstly differentiates a video signal Vi by a first-order differentiation circuit 2 and then adds the differentiated output and the original signal video signal Vi to an addition / subtraction circuit 4. Depending on the control input Vc applied to the control terminal 6, the differential output is added to the video signal Vi or the differential output is subtracted from the video signal Vi to obtain the video signal output Vo subjected to the image quality adjustment processing.

In such an image quality adjusting circuit using the primary differentiating circuit 2, the sharpness of the contour of the image is limited, and in order to obtain a sharper image quality, instead of the primary differentiating circuit 2, as shown in FIG. An image quality adjusting circuit is used which obtains a video signal output Vo which has been subjected to image quality adjustment by adding the secondary differential output using the secondary differentiating circuit 8 and the original video signal Vi to the adder circuit 10.

[Problems to be solved by the invention]

By the way, in the image quality adjusting circuit using such a secondary differentiating circuit 8, the contour enhancement can be performed with a small correction amount and has a characteristic that the influence on the image quality is small, but only the contour enhancement can be performed and the contour is attenuated. Since such control cannot be performed, there are drawbacks such as a narrow range of image quality control.

Therefore, it is an object of the present invention to provide an image quality adjustment circuit that realizes continuous contour control over a wide range from edge enhancement to attenuation of an image.

[Means for solving problems]

As illustrated in FIG. 1, the image quality adjusting circuit of the present invention is a first differentiating circuit (first order differentiating circuit) that obtains a contour attenuation signal V ₁ that first-order differentiates a video signal Vi to attenuate an image contour.
14), a second differentiating circuit (secondary differentiating circuit 16) for secondarily differentiating the video signal to obtain a contour emphasizing signal V ₂ for emphasizing the contour of the image, and the first differentiating circuit. Signal selecting means (switch 18) for selecting the contour attenuation signal and the contour emphasizing signal obtained by the second differentiating circuit according to the control input.
And a specific section in which the contour emphasis signal obtained through the signal selecting means is not added and the contour attenuation signal is not subtracted is set, and the contour emphasis signal or the contour attenuation signal is set according to the control input with this particular section as a starting point. And a level adjusting means (gain variable amplifier 20) for adjusting a signal level to an arbitrary level.

[Action]

With this configuration, the contour attenuation signal V ₁ obtained by the first differentiating circuit (first order differentiating circuit 14) and the contour enhancement signal V ₂ obtained by the second differentiating circuit (second order differentiating circuit 16) signal selection means in response to a control input V _C along with selected by (switch 18), in accordance with the selected level of the contour attenuated signal V ₁ or contour enhancement signal V ₂ to the control input V _C, the level of each signal Is continuously adjusted from a zero level to an arbitrary level centering on a specific section in which both are zero, and the contour of the image is continuously controlled from the attenuation area to the emphasis area to obtain a desired image quality.

〔Example〕

 Embodiments of the present invention will be described below with reference to the drawings.

 FIG. 1 shows an embodiment of the image quality adjusting circuit of the present invention.

The video signal Vi is inverted by the inverter 12 and then subjected to a primary differentiation by a primary differentiation circuit 14 installed as a first differentiation circuit to obtain a contour attenuation signal V ₁ for attenuating (shading) the contour of the image. . This first derivative output is
The second differentiating circuit 16 provided as the second differentiating circuit performs a second derivative to obtain a contour emphasis signal V ₂ that sharpens the contour of the image. For example, when a video signal Vi as shown in A of FIG. 3 is given, a contour attenuation signal V ₁ is obtained by the _first derivative thereof as shown in B of FIG. 3, and C of FIG. As shown in (2), the contour enhancement signal V ₂ is obtained by the second derivative.

The contour attenuation signal V ₁ and the contour emphasis signal V ₂ have an intermediate contact point c that sets a specific section in which one of the contact points a and b of the switch 18 installed as signal selection means does not involve level change, as a middle point. To be selected. Then, the variable gain amplifier in which the selected signal is installed as the level adjusting means
In addition to 20, the desired level adjustment is performed.

Gain control of switching and variable gain amplifier 20 of the switch 18 is performed by the control input V _C applied to control input terminal 22, the control input V _C is set by the partial pressure of the supply voltage V _CC by the variable resistor 24. That is, the switching of the switch 18 is performed by comparing the control input V _C and the reference voltage Vref by the reference voltage source 26 with the comparator installed as the switching control means of the switch 18.
By comparing by V _C ≤Vr
In the case of ef, the switching output (L) is generated to close the switch 18 to the a side, and in the case of V _C > Vref, the switching output (H) is generated to close the switch 18 to the b side.

Further, as shown in FIG. 2, the gain of the variable gain amplifier 20 is emphasized by increasing the level at a midpoint forming a specific section according to the level of the control input V _C , or by lowering the level. And is controlled in the direction of decay.

Therefore, the contour attenuation signal V ₁ or the contour emphasis signal V ₂ selected via the switch 18 is amplified by the variable gain amplifier 20 and then added by the adder 30 with the video signal Vi to attenuate the contour of the image or An enhanced video signal output Vo is obtained. For example, when a video signal Vi as shown in A of FIG. 5 is given and the contour attenuation signal Vi shown in B of FIG. 3 obtained from this video signal Vi is added to the video signal Vi, The video signal Vo (= Vi shown in FIG.
+ V ₁ ) is obtained, and the contour enhancement signal shown in C of FIG. 3 is obtained.
When V ₂ is added to the video signal Vi, the video signal output Vo (= Vi + V ₂ ) shown in C of FIG. 5 is obtained. When the gain G of the variable gain amplifier 20 is set to zero, the output of the variable gain amplifier 20 becomes zero, so that no signal processing is performed on the video signal Vi. , Vo
= Vi.

By adding the contour attenuation signal V ₁ or the contour emphasis signal V ₂ whose level is adjusted to the video signal Vi,
A region where the contour is attenuated and a region where the contour is sharply emphasized are set continuously across a region where the contour of the image is not adjusted at all, and control input V _C from the contour decay region to the emphasized region
The desired image quality can be easily obtained by continuously adjusting the value.

Further, since a section in which the contour adjustment is zero is set and contour attenuation and contour emphasis are set on both sides of the section, for example, when the remote control is performed by the infrared remote control, the normal mode (through Mode), the attenuation mode (blurring) and the emphasis mode (edge emphasis) can be set to precisely adjust the image quality.

FIG. 6 shows a specific circuit configuration example of the primary differentiating circuit 14 and the secondary differentiating circuit 16 shown in FIG.

The video signal Vi is applied to the base of the transistor 32 that constitutes the emitter follower circuit, and this transistor 32
A constant current source 34 is installed on the emitter side of the.

The first-order differentiating circuit 14 and the second-order differentiating circuit 16 commonly include a transistor 32, a constant current source 34, and a voltage source 35, and the first-order differentiating part of the video signal Vi is a capacitor 36, a transistor 38, and a transistor 38 which are set to a cutoff frequency f _C1. Resistors 40 and 42, and the second derivative is the cutoff frequency f _C2 (f _C2 ＞
capacitors 44 and 46, transistor 48 set to f _C1 ).
And with resistors 50 and 52. The transistors 38 and 48 installed in the output section respectively form an emitter follower circuit as an impedance converter, and the contour attenuation signal V ₁ which is a first-order differential output is inverted by the inverter 54 and then extracted to obtain the contour attenuation signal V 1. ₁ and the contour enhancement signal V ₂ are switched 18
And the contour decay signal obtained through switch 18
The V ₁ or the contour emphasis signal V ₂ is applied to the variable gain amplifier 20 via the buffer circuit 56.

According to such a circuit configuration example, it can be easily configured by an IC, and the contour attenuation signal V ₁ and the contour emphasis signal V ₂ for highly reliable image quality adjustment can be obtained.

FIG. 7 shows a specific circuit configuration example of the variable gain amplifier 20 and the comparator 28 shown in FIG.

The comparator 28 is composed of transistors 58 and 60, resistors 62 and 64, and a constant current source 66, and by the magnitude relationship between the control input V _C applied to the control input terminal 22 and the reference voltage Vref by the reference voltage source 26, The transistors 58 and 60 are selectively turned on, and a voltage is generated in the resistor 62 or the resistor 64 by the conduction.

The switch 18 is composed of two sets of switching circuits 18A and 18B that operate according to the voltage generated in the resistor 62 or the resistor 64. The switching circuit 18A includes a transistor 6
8, 70, 72, 74, diodes 76, 78 and resistors 79, 80, 8
Resistor 62 consisting of 2, 84, 86, 88 applied to terminal 90
The voltage generated at the
The contour attenuation signal V ₁ applied through the variable gain amplifier 20
Add to In addition, the switching circuit 18B includes transistors 94, 96, 98, 100, diodes 102, 104 and a resistor 10.
5, 106, 108, 110, 112, 114, which is activated by the voltage generated in the resistor 64 applied to the terminal 116, and the contour enhancement signal V ₂ applied through the capacitor 118.
Is added to the variable gain amplifier 20.

Then, the variable gain amplifier 20 includes the switching circuit 18
A, 18B includes a differential circuit consisting of transistors 68, 70 and resistor 79 or a differential circuit consisting of transistors 94, 96 and resistor 105, with transistors 120, 122, 124, 126 and resistors 128, 130, 132, 134. It is configured. 136 is a bias voltage source.

Thus, with such a circuit, the contour attenuation signal V ₁ or the contour enhancement signal V ₂ applied through the switch 18
After being amplified according to the control input V _C , the amplified output can be taken out from the output terminals 21a and 21b.

〔The invention's effect〕

As described above, according to the present invention, the contour attenuation signal obtained by the first differentiating circuit and the contour emphasis signal obtained by the second differentiating circuit are selected by the signal selecting means according to the control input. In addition, the level of the selected contour attenuation signal or contour enhancement signal is controlled according to the control input, and a specific section where the contour enhancement signal is not added and the contour attenuation signal is not subtracted is set. To an arbitrary level, the contour of the image can be continuously controlled from the attenuation region to the enhancement region to obtain a desired image quality.

[Brief description of drawings]

1 is a block diagram showing an embodiment of an image quality adjusting circuit of the present invention, FIG. 2 is a diagram showing a variable gain characteristic of a variable gain amplifier of the image quality adjusting circuit shown in FIG. 1, and FIG. 3 is FIG. FIG. 4 is a diagram showing primary and secondary differential outputs of the image quality adjustment circuit shown in FIG. 4, FIG. 4 is a diagram showing response characteristics of the variable gain amplifier of the image quality adjustment circuit shown in FIG. 1, and FIG. 5 is shown in FIG. 6 and 7 are circuit diagrams showing a concrete circuit configuration example of the image quality adjusting circuit shown in FIG. 1, and FIG. 8 shows a primary differentiating circuit. FIG. 9 is a block diagram showing a conventional image quality adjusting circuit, and FIG. 9 is a block diagram showing a conventional image quality adjusting circuit using a quadratic differential circuit. 14 ... First-order differentiating circuit as first differentiating circuit, 16 ... Second-order differentiating circuit as second differentiating circuit, 18 ... Switch as signal selecting means, 20 ... Variable gain amplifier as level adjusting means .

Claims (1)

(57) [Claims] 1. A first differentiating circuit for primary differentiating a video signal to obtain a contour attenuation signal for attenuating a contour of an image, and a second differentiating circuit for secondarily differentiating the video signal to obtain a contour enhancement signal for enhancing a contour of an image. A second differentiating circuit, the contour attenuation signal obtained by the first differentiating circuit, and the second
Signal selecting means for selecting the contour emphasizing signal obtained by the differentiating circuit according to the control input, and addition of the contour emphasizing signal obtained through the signal selecting means and a specific section where the contour attenuation signal is not subtracted are set. An image quality adjusting circuit comprising: a level adjusting unit that adjusts the level of the contour emphasis signal or the contour attenuation signal to an arbitrary level in accordance with the control input with the specific section as a starting point.