KR940001444B1 - Apparatus for transforming ntsc-tv signal into pal-tv signal - Google Patents

Abstract

The apparatus converts NTSC type signal to PAL type signal. The apparatus includes a frequency change unit (6) for mixing a 3.58 MHz color signal with a frequency generated by using a horizontal synchronous signal, a switching signal generator (10) for generating a burst gate pulse and a switching signal using a horizontal synchronous signal, a switch (SW1) for dividing the burst signal and the color signal by using the burst gate pulse generated by the switching signal generator (10), a phase converter (15) for inverting and shifting phase of the color signal and the burst signal, switches (SW2,SW3) for outputting 1800 phase converted color signal and 450 phase shifted burst signal, and a mixer (16) for mixing the output signal of switches (SW2,SW3) to generate PAL type signal.

Description

PAL signal converter of NTSC signal

1 is an implementation circuit diagram of the present invention.

2 is a waveform diagram of each part of the circuit diagram of the present invention.

3 is a diagram comparing NTSC and PAL signals.

4 is a circuit diagram of one embodiment of the present invention.

5 is a waveform diagram of each part of the circuit diagram of one embodiment of the present invention.

6 is an exemplary circuit diagram of the frequency shifting unit of the present invention.

* Explanation of symbols for main parts of the drawings

5: balance modulator 6: frequency shifting unit

8 burst gate pulse generator 10 switching signal generator

13,14: + 45 ° phase shifter 15: phase shifter

16: mixer 20: monostable multivibrator

The present invention relates to a PAL signal converting apparatus for NTSC signals in which a PAL system VTR can view NTSC signals in a PAL system VTR.

Conventionally, a PAL type VTR capable of reproducing a tape recorded in an NTSC method has been developed, but an NTSC type broadcast signal and an NTSC type video signal cannot be directly reproduced in a PAL type VTR.

In other words, it could not satisfy the needs of consumers because they could not watch NTSC broadcast signals through PAL TV through PAL VTR.

In view of the above, the present invention converts the NTSC signal itself into a PAL signal so that the NTSC broadcast signal can be viewed by the PAL VTR. Thus, a NTSC color signal of 3.58 MHz is PAL color of 4.43 MHz. It is converted into a signal and then shifted and inverted by ± 45 ° as a switching signal using a burst gate pulse to be output.

Hereinafter, a detailed description of the present invention will be described in detail with reference to the accompanying drawings.

1 is an implementation circuit diagram of the present invention, which is mixed with a specific frequency generated by using a horizontal synchronization signal and a 3.58 MHz color signal passing through a band pass filter 1 and passing through an automatic color control circuit 2. A frequency shifter 6 for frequency shifting, a switching signal generator 10 for generating a burst gate pulse and a switching signal using a horizontal synchronizing signal, and a 4.43 MHz band pass filter output from the frequency shifter 6 The switch SW1 which switches the color signal which passed through (7) to the burst gate pulse of the switching signal generator 10 and separates it into a burst signal and a color signal, and the color signal and the burst signal separated from the switch SW1 Phase conversion and phase shifting unit 15 for phase inversion and shifting, 180 ° phase shifting every 2H with switching signal of switching signal generator 10 connected to the output side of phase shifting unit 15 A switch (SW2) (SW3) for outputting a color signal and a burst signal of ± 45 ° phase-converted every 1H, and a mixer (16) for mixing the output of the switching (SW2) (SW3) to output as a PAL signal do.

In this case, the frequency shifter 6 receives an automatic frequency control circuit 3 for stabilizing the horizontal synchronization signal frequency and a voltage for generating 854 MHz in response to the horizontal synchronization signal stabilized by the automatic frequency control circuit 3. A control signal generator (4) and a balanced modulator (Balance Modulator 5) for mixing the 3.58MHz color signal of the oscillation frequency of the voltage-controlled oscillator (4) to output a sum and a difference signal, the switching signal generator 10 Is a burst gate pulse generator 8 receiving a horizontal synchronizing signal to generate a burst gate pulse, and a T-type flip-flop 9 receiving the output of the burst gate pulse generator 8 to output a switching signal.

The phase shifter 15 includes a buffer 12 for passing and inverting the color signal and an inverter 11, and a + 45 ° phase shifter 13 and a -45 ° phase shifter for shifting the burst signal by ± 45 °. (14) was provided.

4 is a circuit diagram of an exemplary embodiment of the present invention, in which the inverter 11 and the buffer 12 of the phase shifter 15 are removed, and the color signal is directly switched at the switch SW3 and the driving signal of the switch SW3. Configures the output of the monostable multivibrator 20 triggered by the output of the burst gate pulse generator 8 to be applied.

6 is an exemplary circuit diagram of the frequency shifter 6 of the present invention. The oscillation output (854MHz) of the oscillator 30 using the crystal oscillator X1 may be applied to the balance modulator 5.

Prior to the description of the effect of the present invention with such a configuration, the NTSC and PAL signal according to FIG. 3 will be compared.

That is, as shown in FIG. 3, the PAL signal has a ± 45 ° difference in burst signal phase every 1H (one horizontal period) and the color signal phase has a 180 ° phase difference in every 2H. Therefore, when converting an NTSC signal into a PAL signal, the above requirements must be satisfied, and a circuit embodying the same is shown in FIG.

1, which is an embodiment of the present invention, will be described in detail with reference to the waveform diagram of FIG.

The NTSC color signal at 3.58 MHz passes through the 3.58 MHz band pass filter 1 and is then subjected to automatic color control in the circuit 2 to the balance modulator 5 of the frequency transition section 6.

Since the horizontal synchronizing signal is frequency controlled by the automatic frequency control 3 and then applied to the voltage controlled oscillator 4, the voltage controlled oscillator 4 generates a specific frequency of 854 MHz and applies it to the balance modulator 5.

In the balanced modulator 5, a 3.59 MHz applied from the automatic color control circuit 2 and a 854 MHz applied to the voltage controlled oscillator 4 are mixed to output a sum signal (4.43 MHz) and a difference signal (2.73 MHz). The NTSC 3.58 MHz color signal converted to 4.43 MHz as shown in (A) of FIG. 2 is output to the output side of the band pass filter 7 by being applied to the 4.43MH2 band pass filter 7.

On the other hand, the horizontal synchronizing signal is applied to the burst gate pulse generator 8 to generate a burst gate pulse as shown in (D) of FIG. 2 and to apply it as a control signal of the switch SW1, and at the same time, As an input signal, a switching signal as shown in (E) of FIG. 2 is output to the output side of the flip-flop 9.

At this time, the switch SW1 is connected to the upper terminal of the drawing when the burst gate pulse is applied at the low level, and is connected to the lower terminal of the drawing when the high level is applied, so that the 4.43 MHz color signal passing through the band pass filter 7 According to the switching operation of the switch SW1, color signals and burst signals are separated as shown in (B) and (C) of FIG. 2 and the color signals separated from the switch SWI are applied to the inverter 11 and the buffer 12. The burst signal is separated from the switch SW1 and is applied to the +/- 45 ° phase mover 13, 14.

The color signal passing through the inverter 11 and the buffer 12 is selected by the switch SW2, and the burst signal passing through the ± 45 ° phase mover 13, 14 is output by the switch SW3. Will be selected.

In this case, the switch SW2 is connected to the upper terminal of the drawing when the switching signal of the switching signal generator 10 is low level, and is connected to the lower terminal of the drawing when the switching signal of the switching signal generator 10 is high. If the switching signal is high level, it is connected to the upper terminal of the drawing, and if it is low level, it is connected to the lower terminal of the road surface.

That is, when the switching signal of the switching signal generator 10 is applied to the switch SW2 (SW3) at a high level as in (E) of FIG. 2, the switch SW2 mixes the color signal passing through the buffer 12 in the mixer. And a burst signal passing through the + 45 ° phase shifter 13 to the mixer 16 at the switch SW3, and the switching signal of the switching signal generator 10 is applied at (E) in FIG. It is applied to the switch SW2 (SW3) at a low level as shown in the figure, and in the switching SW2, the color signal passing through the inverter 11 is applied to the mixer 16, and at the switch SW3, the -45 ° phase shifter 14 is applied. The burst signal passing through is applied to the mixer 16.

Therefore, the color signal output from the mixer 16 becomes a PAL signal as shown in FIG. 2F, so that the NTSC signal can be viewed in the PAL VTR.

However, when inverting the color signal phase of the NTSC signal does not match the PAL color phase, the circuit diagram of the present invention should be changed as shown in FIG.

As can be seen from FIG. 4, the output of the burst signal is the same as that of FIG. 1, but only the color signal output is different.

That is, the color signal separated from the switch SWl through the 4.43 MHz band pass filter 7 is picked up every 2H from the switch SW3 and applied to the mixer 16. The control signal of the switch SW3 is a burst gate. To the output of the short safety multivibrator 20 triggered by the burst gate pulse of the pulse generator 8.

At this time, when the burst gate pulse is input, the monostable multivibrator 20 outputs a high level until the next burst gate pulse ends (see FIG. 5E).

Therefore, the output of the final mixer 16 is as shown in (F) of FIG. 5, and this signal is a signal output by mixing the burst signal shifted by ± 45 ° phase every 1H and the color signal picked up every 2H. Although the color saturation ratio is lower than that of the configuration, the NTSC signal can be viewed by the PAL VTR even when the color signal phase of the NTSC signal does not match the PAL color signal phase.

In the present invention, the frequency shifter 6 may have a different configuration, as shown in FIG. 6, by applying the 854 MHz oscillation frequency of the crystal oscillator X1 to the balance modulator 5 in the oscillator 30. Output MHz signal at 4.43MHz and 2.73MH2.

As described above, the present invention can watch NTSC broadcast signals with a PAL VTR, thereby satisfying user's needs and improving product functionality.

Claims (5)

A frequency shifter 6 which passes through the band pass filter 1 and mixes the automatic color control with a specific frequency generated using a 3.58 MHz color signal and a horizontal synchronization signal passed through the circuit 2 to shift the frequency; A switching signal generator for generating a burst gate pulse and a switching signal using a synchronization signal, and a color signal output from the frequency shifter 6 and passing through the 4.43 MHz band pass filter 7. A switch SW1 for switching the burst signal and the color signal by switching to the burst gate pulse of 10, and a phase converter 15 for inverting and shifting the color signal and the burst signal separated from the switch SW1; A color signal 180 ° phase-converted every 2H and a + 45 ° phase-converted burst signal every 1H by being connected to an output side of the phase shifter 15 and a switching signal of the switching signal generator 10. An output switch (SW2) (SW3) and, PAL signal conversion apparatus of the NTSC signal consisting of a mixer 16 of the mixer the output of the switch (SW2) (SW3) to output to a PAL signal to. 2. The frequency shifter (6) according to claim 1, wherein the frequency shifter (6) is an automatic frequency control circuit for stabilizing the horizontal synchronizing signal and a voltage for generating 854 MHz by receiving the stabilized horizontal synchronizing signal from the automatic frequency control circuit (3). A PAL signal conversion device for NTSC signals comprising a control oscillator (4) and a balanced modulator (5) for mixing the oscillation frequency of the voltage controlled oscillator (4) with a 3.58 MHz color signal to add a sum and output a difference signal. 2. The switching signal generator (10) according to claim 1, wherein the switching signal generator (10) is triggered by a burst gate pulse generator (8) for receiving a horizontal synchronizing signal and generating a burst gate pulse, and a burst gate pulse of the burst gate pulse generator (8). (SW2) PAL signal conversion device for NTSC signal composed of T-type flip-flop (9) for applying a switching signal to (SW3). The phase shifter (15) has a buffer (12) and an inverter (11) for passing and inverting the color signal selected by the switch (SW1) and +45 degrees of the burst signal selected by the switch (SW1). An apparatus for converting a PAL signal of an NTSC signal comprising a + 45 ° phase shifter 13 and a -45 ° phase shifter 14 for phase shifting. The method of claim 1, wherein the color signal separated at the switch SW1 is directly connected to the switch SW3, and the switch SW2 is connected to the output of the monostable multivibrator 20 triggered by a burst gate pulse. PAL signal conversion device of NTSC signal configured to be switched by means of.