KR900008520Y1 - Colour television system - Google Patents

Abstract

No content.

Description

Color stabilization circuit of multimodal TV

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

IC ₁ : video signal processing integrated device Q ₁ , Q ₂ : transistor

D ₁ , D ₂ : Diode R ₁ -R ₅ : Resistance

1: switching circuit 2: matrix circuit

3: SECAM killer circuit 4: 1H delay circuit

5: Trap circuit

The present invention relates to a color stabilization circuit of a multi-modal television that stabilizes a color signal in a multi-modal television that can be viewed regardless of the broadcasting system.

There are various TV transmission methods such as NTSC (National Television System) developed in the Americas, Phase Alternation by Line (PAL) in Germany, and Sequential a Memoire (SECAM) in France. In general, televisions cannot receive broadcast signals for different broadcasting methods, and thus, TVs in different countries using different broadcasting methods are not compatible with each other.

Therefore, in the past, multi-modal televisions that can receive all multi-modality regardless of various types of television broadcasting signals have been developed. However, in conventional multi-modal televisions, noise is generated in PAL and NTSC-type broadcast signal receivers and resolution is reduced. There was a problem.

That is, when receiving a PAL broadcast signal in a multi-mode television, SECAM signal noise is input together with a matrix circuit of a video signal processing integrated device together with a PAL signal to generate a wave-like noise on a color and an NTSC broadcast signal. Since the 1H delayed signal is grounded through the switching transistor, about 0.6V is caught on the collector side of the switching transistor, and the color component of 3.58MHZ is delayed by 1H and input into the matrix circuit of the video signal processing integrated device. Was to be a deteriorating factor.

In view of the above, the present invention operates SECAM color circuits when receiving PAL system in multi-mode TV, SECAM killer circuits when receiving NTSC system, and removes the chroma component of 3.58 MHZ delayed by 1H. When the reception of the noise is generated and the resolution can be eliminated as a cause of deterioration according to the accompanying drawings and the configuration and operation effects in detail as follows.

A video signal processing integrated device (IC ₁ ) having a switching circuit (1) and a matrix circuit (2), a 1H delay circuit (4) for delaying a chroma signal by 1H, and a chroma signal delayed by 1H in the 1H delay circuit (4). In the multi-mode television comprising a transistor (Q ₂ ) is removed by the switching signal of the switching circuit 1, the color component of 3.58MHZ of the output chroma signal of the 1H delay circuit (4) is the transistor (Q ₂ ) The trap circuit 5 is removed at the time of driving, and the switching signal generated by the demodulation circuit is driven by the difference between the switching signal and the demodulation method of the switching circuit 1 to control the driving of the SECAM killer circuit 3. It consists of a transistor Q ₁ .

At this time, the switch circuit 1 outputs a switching signal according to the difference in power frequency and applies it to the base of the transistor Q ₂ through the resistors R ₄ and R ₅ , and at the same time, the resistor R ₃ and the diode D. ₁ ) is applied to the base of the transistor (Q ₁ ) and the switching signal generated in the demodulation circuit according to the difference of the demodulation scheme is applied to the base of the transistor (Q ₁ ) through the resistor (R ₂ ) The SECAM killer circuit 3 is configured to operate when the Q ₁ ) is driven.

In addition, the chroma signal input is applied directly to the matrix circuit 1 and is applied after being delayed by 1H in the 1H delay circuit 4, but at the output side of the 1H delay circuit 4, the resistor R ₁ and the capacitor C _{1 are applied} . The trap circuit 5 is configured to trap the color component of 3.58 MHZ output from the 1H delay circuit 4 when the transistor Q ₂ is driven after the trap circuit 5 is synchronized with the 3.58MHZ. .

In the present invention configured as described above, we first look at the award of PAL broadcasting method.

At this time, the switching circuit ₁ of the video signal processing integrated circuit IC ₁ outputs a low-level switching signal, thereby "turning off" the transistor Q ₂ , thereby performing a matrix circuit of the video signal processing integrated circuit IC ₁ . In (2), the PAL chroma signal is directly applied and is applied after being delayed by 1H from the 1H delay circuit 4, thereby undergoing a normal PAL chroma demodulation process.

However, in the related art, when the PAL broadcast is received as described above, the SECAM signal signal is input together with the matrix circuit 2 to generate noise of a wave pattern on the color.

Therefore, according to the present invention, the switching signal generated by the demodulation circuit is applied to the base of the transistor Q ₁ through the resistor R ₂ as the demodulation method is different for each broadcasting method, thereby turning on the transistor Q ₁ . By operating the SECAM killer circuit 3, noise was not generated.

That is, the SECAM killer circuit 4 is operated by "turning on" the transistor Q ₁ with a high level switching signal applied through the resistor R ₂ when receiving the PAL broadcast. By allowing the signal noise to be mixed, it is possible to watch a clean screen without noise.

Next, the NTSC broadcasting system awards will be examined.

In the NTSC broadcast reception, the switching circuit 1 outputs a high level switching signal as opposed to the PAL broadcast reception, and the demodulation circuit outputs a low level switching signal to the resistor R ₂ .

Therefore, a high level switching signal output from the switching circuit 1 when receiving an NTSC broadcast is applied to the base of the transistor Q ₂ through the resistors R ₃ and R ₄ so as to "turn on" the transistor Q ₂ . The trap circuit 5 tuned to 3.58 MHZ is driven.

When the trap circuit 5 is driven, the 1H delay circuit 4 completely traps the chroma signal of 3.58MHZ delayed by 1H, so that only the NTSC chroma signal directly applied to the matrix circuit 2 is applied.

Therefore, as in the prior art, when the transistor Q ₂ is directly connected to the 1H delay circuit 4 to remove the color component of the 1H delay circuit 4 when receiving NTSC broadcast, 0.6V is applied to the collector side of the transistor Q ₂ . The trapped circuit (5) tuned to 3.58MHZ has been configured to solve the problem that the resolution was degraded by not being able to completely remove the 3.58MHZ color component when receiving NTSC broadcast due to the voltage of. By eliminating it, the problem of deterioration of resolution can be solved.

In other words, when the NTSC broadcast is received, the transistor Q ₂ is "turned on" to drive the trap circuit 5 tuned to 3.58MHZ so that the color component of the 3.58MHZ output from the 1H delay circuit 4 can be completely removed. will be.

When the NTSC broadcast is received, the high level switching signal output from the switching circuit 1 is applied to the base of the transistor Q ₁ through the resistor R ₃ and the diode D ₁ , so that the transistor Q ₁ is turned on. By operating the SECAM killer circuit 3, the noise caused by the NTSC broadcast receiver SECAM signal can be removed.

As described above, the present invention operates a PAL receiver SECAM killer circuit in a multi-mode television to eliminate color fringe noise, and when receiving NTSC, a 1H delay circuit (4) is driven by driving a trap circuit tuned to 3.58MHZ. By flowing the color component outputted from the ground to ground, it is possible to prevent the noise and resolution degradation caused by the broadcast reception according to each broadcasting system.

Claims (1)

The video signal processing integrated circuit IC _{1 including the} switching circuit 1 and the matrix circuit 2 and the chroma signal delayed by the 1H delay circuit 4 for delaying the chroma signal by 1H and applying the same to the matrix circuit 2 are described above. In a multi-mode television composed of transistors Q ₂ which are removed by a switching signal of the switching circuit 1, connected to the output side of the 1H delay circuit 4 by a resistor R ₁ and a capacitor C ₁ . A trap circuit 5 tuned to 3.58 MHZ and removing the color component of 3.58 MHZ when the transistor Q ₂ is driven, and a switching signal and a demodulation scheme applied through the diode D ₁ in the switching circuit 1. The transistor Q ₁ generated in the demodulation circuit and controlled by a switching signal applied through the resistor R ₂ due to the difference between the transistor and the SECAM killer circuit for removing the SECAM color component when the transistor Q ₁ is driven. Consists of (3) Expression stabilization circuit of a color television.