JPH0824370B2 - Color television receiver - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a color television receiver, a PAL system,
The present invention relates to a color television receiver capable of favorably receiving and reproducing at least one of PAL and SECAM color television broadcasts among SECAM and NTSC color television broadcasts.

Conventional technology NTSC, PAL.SECAM color television broadcasting system,
Each color signal has a different modulation method. In NTSC method, carrier suppression quadrature two-phase modulation is performed, and the color subcarrier frequency is 3.58MHz. Similarly to the NTSC system, the PAL system is also a carrier suppression quadrature two-phase modulation system, but one of two color subcarriers whose phases are orthogonal to each other is inverted for each scanning line. The color subcarrier frequency of this PAL system is 4.43 MHz.

Amplitude modulation is used as a method of modulating the carrier color signal in the NTSC system and the PAL system, but in the case of the SECAM system, frequency modulation that is not easily affected by amplitude distortion and phase distortion is used. In amplitude modulation by quadrature two-phase modulation, two color difference signals can be simultaneously transmitted by one color subcarrier, but in the case of frequency modulation, only one color difference signal can be transmitted at one time. Therefore, SECAM
In the method, a method is used in which two color difference signals are switched for each scanning line and sequentially transmitted. The center frequencies of these two color subcarriers are 4.40625MHz and 4.25MH.
z, and the frequency shift due to frequency modulation is ± 280
kHz and ± 230 kHz.

In the case of amplitude modulation in the NTSC system and PAL system, the carrier wave is suppressed in order to prevent the subcarrier wave from interfering with the image when there is no color difference signal. On the other hand, in the SECAM method, in order to reduce the influence of the carrier color signal on the luminance signal when the color is low in saturation, an inverse bell filter with a center frequency of 4.286MHz is used, In the vicinity, that is, when the frequency modulation degree is shallow, the level of the carrier color signal is lowered, and the level of the carrier color signal is increased as the carrier color signal moves away from its center frequency, and the signal is transmitted. This is shown in FIG.

In the case of the SECAM method, since the frequency modulation is used as described above, the carrier color signal of constant amplitude is always superimposed on the luminance signal, and frequency interleaving may not be performed. Causes more interference to the luminance signal than other methods.

As described above, there is a multi-type color television receiver that can receive broadcasts of a plurality of these systems with respect to the three types of television broadcast systems.
There are many combinations that can be received by this multi-type color television receiver, that is, two systems of PAL and SECAM and three systems of NTSC, PAL and SECAM.

In such a multi-type color television receiver, the following carrier color signal trap circuit has been conventionally used in order to reduce the interference of the carrier color signal on the luminance signal. First of all, in the case of supporting 3 systems of NTSC / PAL / SECAM, a trap circuit of 3.58MHz of NTSC system and 4.43 of PAL system.
The SECAM system has a MHz trap circuit, and the center frequency of the two carrier color signals is 4.43M, which is relatively PAL system.
Since it was close to Hz, the PAL type trap circuit was used instead for the SECAM type. In addition, in the case of PAL / SECAM 2 system support, it has a PAL system 4.43MHz trap circuit and SE
In the CAM system as well, the trap circuit of the PAL system was used for the SECAM system as in the case of supporting the three systems.

Problems to be Solved by the Invention In the SECAM system, since the modulation system is frequency modulation, the interference of the carrier color signal on the luminance signal is larger than that of other systems. Further, in the multi-type color television receiver, since the PAL type color signal trap circuit is shared as the SECAM type color signal top circuit, the interference given to the luminance signal by the carrier color signal is remarkable.

An object of the present invention is to provide a color television receiver capable of receiving and reproducing at least the SECAM system and the PAL system, both of which can reduce the interference given to the luminance signal by the carrier color signal and can perform the good reception and reproduction. And

Means for Solving Problems The color television receiver of the present invention is an NTSC system, PAL
At least PAL method and SECA among the methods and SECAM methods
A color television receiver capable of receiving and reproducing M type color television broadcasting by one unit, and a video detection circuit for detecting a video signal in a color television signal and a signal detected by the video detection circuit. A television receiver having a video amplification circuit for amplifying a video signal, comprising: a first trap circuit having a first trap frequency of 4.43 MHz and the first trap centered around a center frequency of 4.286 MHz of a bell filter. The second which makes the trap frequency a frequency that is in a position almost symmetrical to the frequency (4.43MHz)
And a trap device for selectively operating only each trap circuit between the video detection circuit and the video amplification circuit.

When receiving PAL system color television broadcasting, the first trap circuit of 4.43MHz is used as before, and SEC
When receiving AM system color television broadcasting, instead of using only the 4.43MHz first trap circuit for PAL as in the past, instead of the first trap circuit and the center frequency of the bell filter, By using the second trap circuit having a low trap frequency, the carrier color signal can be attenuated over the entire SECAM type carrier color signal frequency having two color subcarriers. Therefore, when PAL system color television broadcasting is selected,
The luminance signal can be extracted from the PAL system color television signal by operating only the trap circuit of
During the system color television broadcasting, both the first trap circuit and the second trap circuit can be operated to extract the luminance signal from the SECAM system color television signal.

Embodiment FIG. 1 shows a simplified block system diagram of an NTSC / PAL / SECAM3 compatible color television receiver according to an embodiment of the present invention. It should be noted that in the same figure, the parts related to the color signal processing circuit are omitted.

The color television signal coming into the antenna 1 is amplified by the high frequency amplifier circuit 2, and after the video signal is detected by the video detection circuit 3, a delay circuit (DL) for correcting the time difference between the luminance signal and the carrier color signal. Pass 4.
The output signal of the delay circuit (DL) 4 is amplified by a video amplifier circuit 6 through a trap circuit 5 for realizing the color television receiver of the present invention, and then a cathode ray tube (CRT).
It is supplied to a cathode ray tube (CRT) drive circuit 7 for displaying an image at 8. Next, the operation of the trap circuit 5 will be described in detail. The delay circuit (DL) 4 and the video amplification circuit 6 are connected by a conductor, and three circuits are branched from between them. In the first circuit, a coil L ₁ , a capacitor C ₁ and a diode D ₁ are connected in series, and the cathode of the diode D ₁ is grounded. Further to the anode of the connection point of the capacitor C ₁ and diode D ₁ is the resistance R ₁ is connected, the other end of R ₁ is connected to the input terminal 9.

The second circuit (first trap circuit) is composed of coil L ₂ , capacitor C ₂ and diode D ₂ connected in series.
The cathode of D ₂ is grounded. A resistor R ₂ is connected to the connection point between the capacitor C ₂ and the anode of the diode D ₂ .
The other end of R ₂ is connected to the input terminal 10.

The third circuit (second trap circuit) has a coil L ₃ , a capacitor C ₃ and a diode D ₃ connected in series,
The cathode of D ₃ is grounded. The anode of the connection point of the capacitor C ₃ and a diode D ₃ resistance R ₃ is connected, the other end of R ₃ is connected to the input terminal 11. Also diode D ₄
Of the diode D ₄ between the resistor R ₃ and the output terminal 11.
The cathodes of are connected between the resistor R ₂ and the output terminal 4, respectively.

When selecting receiving a color television signal of the NTSC system, the input terminal 9, sufficient that voltages V ₁ is applied to turn on the diodes D ₁ through R _1, terminals 10 and 11 are open. The carrier color signal of the NTSC color television signal output from the delay circuit (DL) 4 is trapped with a center frequency of 3.58 MHz determined by L ₁ and C ₁ and flows to the ground. On the other hand, the luminance signal is supplied as it is to the video amplifier circuit 6.

When selecting receiving a color television signal of PAL system, the input terminal 10, a sufficient voltage V ₂ is applied to turn on the diode D ₂ through R _2, terminals 9 and 11 are open. The carrier color signal of the PAL color television signal output from the delay circuit (DL) 4 is trapped with a center frequency of 4.43 MHz determined by L ₂ and C ₂ and flows to the ground. On the other hand, the luminance signal is supplied as it is to the video amplifier circuit 6.

When selecting receiving a color television signal of the SECAM system, as well as the diode D ₃ ON through resistor R ₃ to the input terminal 11, the diode D _4, sufficient to the diode D ₂ is turned on through the resistor R ₂ a voltage V ₃ is applied such, the input terminal 9, 10 is open. Therefore, in this case, the second and third circuits are connected in cascade. The carrier color signal of the SECAM type color television signal output from the delay circuit (DL) is L ₃ , C ₃
4.142MHz (This value is 4,286MHz−
(4.43MHz−4.286MHz) = 4.142MHz,
That is, 4.142MHz is the center frequency of the bell filter 4.286MHz
Centered on the center of the trap frequency (4.43MHz) when receiving the PAL signal, and 4.43MHz determined by L ₂ and C ₂ above. Trapped and flows to the ground.

The operating characteristics of the above color signal trap circuit are shown in FIG. In the figure, the solid line is the NTSC system, the chain line is the SECAM system, the broken line is the PAL system, and the frequency vs. gain characteristics. As is clear from the figure, the SECAM frequency vs. gain characteristic curve has two minimum gains at 4.142 MHz and 4.43 MHz. In this way, when SECAM system color television broadcasting is received, SECAM
By widening the frequency band for trapping the carrier color signal of the system, the SECAM carrier color signal having two kinds of color subcarriers can be effectively attenuated.

As described above, according to the present invention, as the carrier color signal trap circuit for extracting the luminance signal from the SECAM color television signal, the trap circuit for the PAL system (trap frequency 4.43 MHz) and the center of the bell filter are used. Frequency 4.286
A cascade connection circuit is used which is composed of trap circuits having a trap frequency that is substantially symmetrical to 4.43 MHz with respect to MHz. Therefore, this color television receiver
Since the interval between the two trap frequencies is widened, the frequency band in which the SECAM system carrier color signal can be traversed is widened, and the SECAM system carrier color signal having two types of color subcarrier frequencies is effective over the entire carrier color signal band. It is possible to trap the signal on the luminance signal, and it is possible to remarkably reduce the interference given to the luminance signal by the carrier color signal as compared with the conventional one, and it is possible to improve the image quality.

Furthermore, when receiving PAL system, the trap frequency is 4.43M.
Since it is set to Hz, the PAL system carrier color signal can be effectively trapped, and it is suitable for a device shared by the PAL system and the SECAM system.

[Brief description of drawings]

FIG. 1 is a block system diagram of an embodiment of the present invention, FIG. 2 is a frequency vs. gain characteristic diagram of a trap circuit of the present invention, and FIG.
It is a schematic diagram showing the relationship between the carrier color signal of the SECAM system and the bell filter. 5 ...... trap circuit, 9, 10, 11 ...... input terminal, L ₁ ~L ₃ ...
… Coil, C _{1 to} C ₃ …… Capacitor, D _{1 to} D ₄ …… Diode, R _{1 to} R ₃ …… Resistor.

Claims (1)

[Claims] 1. A television receiver capable of receiving at least one color television broadcast of PAL system and SECAM system, and a video detection circuit for detecting a video signal in a color television signal, and the video. In a television receiver having a video amplification circuit for amplifying a video signal detected by a detection circuit, a first trap circuit having a first trap frequency of 4.43MHz and a center frequency of 4.286MHz of a bell filter As a second, the trap frequency is a frequency having a substantially symmetrical positional relationship with the first trap frequency (4.43 MHz).
A trap circuit for selectively operating only each trap circuit is connected between the video detection circuit and the video amplification circuit, and the first trap is selected when PAL system color television broadcasting is selected. The luminance signal is extracted from the PAL system color television signal by operating only the circuit, and during SECAM system color television broadcasting, the first trap circuit and the second trap circuit are operated to produce the luminance from the SECAM system color television signal. A color television receiver characterized by taking out signals.