KR960012693B1 - Ntsc/pal signal discriminating circuit using color signal - Google Patents

Abstract

a peaking circuit(1) for setting its integer value to fit the subcarrier frequency of either a PAL or NTSC signal, and adding/subtracting the amplitude of the signal inputted according to the set value to a certain level; a detector(2) for generating a ripple after detecting the added/subtracted color signal; an inverting unit(4) for generating a control signal to convert PAL/NTSC automatically by converting the output level of the ripple.

Description

NTSC / PAL signal discrimination circuit using color signal

1 is a block diagram of an NTSC / PAL signal discrimination circuit using color signals according to the present invention;

Figure 2 is a circuit diagram showing a preferred embodiment of the NTSC / PAL signal discrimination circuit using the color signal of the present invention.

3 is a waveform diagram of each part of the NTSC / PAL signal discrimination circuit shown in FIG.

* Explanation of symbols for main parts of the drawings

1: Picking circuit part 2: Detection circuit part

3: inverting circuit part Q1, Q2: transistor

R1-R7: Resistor, D1: Diode

C1-C4: Capacitor L1: Reactance

The present invention relates to a NTSC / PAL signal discrimination circuit using a color signal, in particular an NTSC / PAL signal using a color signal that allows the user to automatically detect and switch the signal without manually selecting the signal using a mechanical system It relates to a discrimination circuit.

Conventionally, there has been an inconvenience in that the user has to switch a mechanical switch provided outside the VCR set so that the corresponding signal is input depending on whether the region uses the NTSC signal or the PAL signal.

An object of the present invention is to provide an NTSC / PAL signal discrimination circuit using color signals that can automatically detect and switch NTSC / PAL signals in the VCR set itself.

In order to achieve the above object, the present invention provides a circuit for discriminating a PAL signal and an NTSC signal from a broadcast signal, the time constant of which is set to match the subcarrier frequency of the PAL signal or the subcarrier frequency of the NTSC signal, A peaking circuit unit for increasing or decreasing respective amplitudes of the PAL signal or NTSC signal input according to the set time constant value to a predetermined predetermined level; A detection circuit unit for detecting the increased or decreased color signal output from the picking circuit unit and generating a pulse wave having a high or low level corresponding to the amplitude thereof; And an inverted circuit portion for generating a control signal for PAL / NTSC automatic switching having a low or high level by switching its output level by a high or low level pulse wave provided from the detection circuit portion. Provide a PAL signal discrimination circuit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 shows a block diagram of an NTSC / PAL signal discrimination circuit using color signals according to the present invention. As shown in the figure, the NTSC / PAL signal discrimination circuit of the present invention includes a picking circuit section 1, a detection circuit section 2, and an inverting circuit section 3. 2 shows a specific circuit diagram of the NTSC / PAL signal discrimination circuit shown in FIG.

Referring to FIGS. 1 and 2, the picking circuit unit 1 includes two capacitors C1 and C2, three resistors R1 to R3, a reactance L1, and a transistor Q1. If the amplitude is increased or decreased to a predetermined level, i.e., a PAL signal having a 4.43 MHz subcarrier is input, the amplitude of the input color signal is amplified to a predetermined predetermined level, and an NTSC signal having a 3.58 MHz subcarrier is input. The amplitude of the input color signal is reduced to a predetermined level. Here, the picking circuit section 1

The constant is determined so that.

Therefore, when the input signal is a PAL signal having a subcarrier of 4.43 MHz, since the constant of the peaking circuit is set to f ₀ = 4.43 MHz, the color signal having the 300 mV pp level as shown in FIG. Fig. 3 (B) is shown by the impedance of reactance L1 and capacitor C2 connected in parallel between 5V and the output of transistor Q1 and resistor R3 connected between the emitter of transistor Q1 and ground. The amplitude is amplified to 4V pp level, and the color signal amplified to this predetermined level is connected to the capacitor C3 in the detection circuit section 2. As shown in FIG. At this time, the resistors R1 and R2 are voltage divider resistors.

In addition, when the input signal is an NTSC signal having a subcarrier of 3.58 MHz, since the peaking circuit constant is set to f ₀ = 4.43 MHz, the color signal having the 300 mV pp level as shown in Fig. 3A is PAL. Contrary to the signal input, the amplitude is reduced, i.e., as shown in Fig. 3C, the amplitude is reduced to several tens of mV pp levels, and thus the color signal whose amplitude is reduced to a predetermined level is detected in the detection circuit section 2. It is connected to the capacitor C3.

Meanwhile, as illustrated in FIG. 2, the detection circuit unit 2 includes two capacitors C3 and C4, a resistor R4, and a diode D1, and a color signal whose amplitude is amplified or reduced to a predetermined level. Detect, i.e. detect the amplified or reduced color signal and generate a pulse wave at its output.

That is, when the input color signal is a PAL signal, as shown in Fig. 3 (B), the color signal amplified with the amplitude of 4V pp level is detected and at its output, at least 2V as shown in Fig. 3 (D). When the above pulse wave is generated and provided to the base of the transistor Q2 in the next inverting circuit section 3, and the input color signal is an NTSC signal, its amplitude is several tens of mV pp levels as shown in Fig. 3C. Detects the signal (a kind of noise component) reduced by the sine wave and generates a pulse wave whose peak voltage is only a few tens of mV at its output as shown in Fig. 3E. To the base of Q2).

Next, the inverting circuit section 3 is composed of a transistor Q2 and three resistors R5-R7, and the switching operation of the transistor biased by the output signal provided from the detection circuit section 2, that is, the pulse wave. A high (0V) or low (5V) level output signal is generated at its collector output, which is provided to a system controller (e.g., microprocessor), not shown. That is, the collector output of the transistor Q2 having a high or low level is used as a switching control signal for NTSC and PAL automatic switching according to the present invention.

That is, when the pulse wave output from the detection circuit part 2 is at least 2 V or more pulse wave which means a PAL signal (FIG. 3 (D)), the inverting circuit part into which the pulse wave from the detection circuit part 2 is input into its base. The transistor Q2 in (3) is turned on. Thus, the collector output of transistor Q2 is at a low level, which is the ground level, that is, at a low level near 0V as shown in Fig. 3F. That is, when a pulse wave of at least 2V or more, which means a PAL signal, is defined at a high level, and a pulse wave of tens of mV, which is an NTSC signal, is defined at a low level, when the input color signal is a PAL signal, the transistor in the inversion circuit section 3 (Q2) At the collector output, an output signal in which the high level is inverted to the low level is generated.

On the other hand, when the pulse wave output from the detection circuit part 2 is a pulse wave of several tens of mV which means NTSC signal (FIG. 3 (E)), the inverting circuit part into which the pulse wave from the detection circuit part 2 is input to its base. The transistor Q2 in (3) is turned off. Therefore, the collector output of transistor Q2 is at a high level, that is, at a high level of 5V as shown in Fig. 3G. That is, when a pulse wave of at least 2V or more, meaning an NTSC signal, is defined at a high level, and a pulse wave of tens of mV, which is an NTSC signal, is defined at a low level, when the input color signal is an NTSC signal, the transistor in the inversion circuit section 3 (Q2) At the collector output, an output signal in which the low level is inverted to the high level is generated.

As described above, according to the present invention, it has a relatively simple circuit configuration, and automatically distinguishes NTSC and PAL using color signals included in an image signal, and automatically switches signals in NTSC and PAL automatic switching systems based on the determination result. By doing so, since the user does not need to manually operate the mechanical switch as in the prior art, there is an effect of increasing convenience in use.

Claims (2)

A circuit for discriminating a PAL signal and an NTSC signal from a broadcast signal, wherein an integer value thereof is set to match a subcarrier frequency of the PAL signal or a subcarrier frequency of the NTSC signal, and the PAL inputted according to the set integer value A peaking circuit unit 1 for increasing or decreasing the amplitude of each signal or NTSC signal to a predetermined predetermined level; A detection circuit section (2) for detecting the increased or decreased color signal output from the picking circuit section (1) and generating a pulse wave having a high or low level corresponding to its amplitude; And an inverting circuit section 3 for generating a control signal for PAL / NTSC automatic switching having a low or high level by switching its output level by a high or low level pulse wave provided from the detection circuit section 2. NTSC / PAL signal discrimination circuit using the formed color signal. 2. The inverting circuit section (3) according to claim 1, characterized in that the inverting circuit section (3) generates a high level control signal when the input color signal is an NTSC signal and a low level control signal when the input color signal is a PAL signal. NTSC / PAL signal discrimination circuit using color signal.