KR19980059225A - Color carrier frequency discrimination device - Google Patents

Abstract

The present invention relates to an apparatus for discriminating color carrier frequencies, which is to accurately measure and discriminate periods of different color carrier frequencies according to a broadcasting method regardless of external environmental changes.

As described above, the present invention provides filtering means for extracting a specific band from a composite video according to a broadcasting method, and amplifying means for extracting only a signal synchronized with a burst gate pulse at a frequency of a specific band obtained by the filtering means and amplifying it to a set level. A period detecting means for measuring a period of the pulse amplified by the amplifying means, a synchronous separating means for extracting and outputting a synchronous signal from the composite video signal according to the broadcasting method, and a synchronous signal obtained from the synchronous separating means. And a period discrimination means for discriminating the color carrier frequency with the difference of the periods and providing the burst gate pulses to the amplifying means as a synchronization value.

Accordingly, when determining the color carrier frequency according to the broadcasting method, it is possible to measure and discriminate using a general-purpose device without a separate analog chip.

Description

Color carrier frequency discrimination device.

The present invention relates to color carrier frequency discrimination, and more particularly, a simple device using a simple device regardless of the external environment for the period of the color carrier frequency according to a broadcasting method without an analog chip (Chip) for discriminating the color carrier frequency. The present invention relates to a color carrier frequency discrimination apparatus for accurately determining and measuring the color carrier frequency according to broadcasting methods.

In general, in all color television systems, NTSC, PAL, and SECAM systems have different modulation and demodulation methods with Chrominance Sub-Carriers.

In the NTSC system, the color carrier (3.58 MHz) is in principle modulated in amplitude and phase by signals driven from the color difference signals R-Y and B-Y.

In addition, the PAL system is a modification of the NTSC system, and was developed to reduce the influence of fine phase error caused by color carriers in transmission and reception.

The color difference signals R-Y and B-Y in the PAL system use the same bandwidth.

The chrominance signal modulates a 4.43 MHz chrominance carrier in amplitude and phase in a manner similar to that of NTSC, except that the contribution of the chrominance signal (R-Y) to synthesis is reversed in polarity on a successive line.

The color carrier frequency, which is modulated and transmitted differently according to each broadcasting system, is compared with the phase of the color signal as a reference signal at the receiving side, and thus modulated and demodulated according to the broadcasting method.

Accordingly, it is necessary for the receiving side to accurately determine the color carrier frequency modulated according to the broadcast method as described above.

The general color carrier frequency discrimination apparatus for determining the color carrier frequency according to the broadcasting method includes the color carrier carrier frequency (f _SC ) f _SC = 4.43 MHz of the PAL system and the color carrier carrier of the NTSC system. A dedicated analog chip is used to determine the frequency (f _CS ) f _SC = 3.58MHz.

The analog chip has a frequency / voltage converter for converting the color carrier frequency into a voltage.

The frequency / voltage converter converts an input frequency into a voltage according to the broadcasting scheme and determines the color carrier frequency using the converted voltage, that is, the broadcasting scheme.

As a result, when the color carrier frequency inputted according to the broadcasting method is changed to a voltage, the voltage is changed according to the difference of the frequency, thereby determining the broadcasting method using the changed voltage.

However, such a conventional color carrier frequency discrimination apparatus, as described above, must use a dedicated analog chip for discriminating the frequency to sensitively adjust the reference voltage for measuring the frequency, and also changes the external environment. In particular, the reference voltage reacts very sensitively to temperature and the like, and not only an error occurs in discrimination, but also a peripheral circuit is very complicated.

Therefore, in view of the problems of the conventional color carrier frequency discriminating apparatus as described above, the present invention is to accurately measure the color carrier frequency according to the broadcasting method regardless of the external environment conversion, and to determine the color carrier frequency according to the broadcasting method. Its purpose is to provide a subcarrier frequency discrimination apparatus.

Another object of the present invention is to simplify the circuit by using a general-purpose device by excluding a separate dedicated analog chip when determining the color carrier frequency according to the broadcasting method.

Still another object of the present invention is to logically discriminate the color carrier frequency by means of the color carrier discrimination means without separately adjusting the reference voltage for frequency measurement.

1 is a block diagram showing an embodiment of the present invention color carrier frequency determination device.

2A to 2E are timing diagrams of respective parts for explaining FIG. 1.

3A and 3B are diagrams for explaining the NTSC and PAL color carrier carrier cycles of FIG.

* Explanation of symbols for main parts of the drawings

100: band filter unit 101: synchronous separation unit

102: burst amplification unit 103: periodic detection unit

104: main discriminating unit 105: video input terminal

In accordance with an aspect of the present invention, there is provided a color carrier frequency discrimination apparatus, including filtering means for extracting a frequency of a specific band from a composite video signal obtained according to a broadcasting method, and filtering means for an external burst gate pulse period. Amplifying means for extracting only the signal corresponding to the burst gate pulse from the frequency component of the specific band obtained by the amplification to a set level and adjusting the period of the pulse corresponding to the burst gate pulse obtained by the amplifying means with its own time constant A color carrier frequency having a difference between the period detection means and the period obtained by the period detection means by the synchronization signal obtained by separating and outputting the synchronization signal from the composite video signal according to the broadcasting method. To determine the burst gate pearl The yirueojim a period determined by the means for providing a synchronization value to the amplifier means and in that characteristic.

In the apparatus for determining a color carrier frequency according to the present invention, it is preferable that the filtering means extracts only a color carrier frequency from a composite video according to a broadcast method.

In the color carrier frequency discrimination apparatus according to the present invention, it is preferable that the amplifying means extracts and amplifies only the color burst at the frequency of the specific band obtained by the filtering means.

In the color carrier frequency discrimination apparatus according to the present invention, the periodic detection means is preferably a monostable multivibrator retriggered by the color burst obtained by the amplification means.

In the color carrier frequency discrimination apparatus according to the present invention, it is preferable that the monostable multivibrator determines the time constant to a value obtained by averaging the periodic difference between the color carriers of NTS and the color carriers of the arm.

In the color carrier frequency discrimination apparatus according to the present invention, it is preferable that the main discriminating means discriminates the color carrier frequency with a change and sustain state of a pulse input from the periodic detecting means within the burst gate pulse period.

As a result, it can be seen that color bursts having a constant phase relation with respect to the color carrier frequency are extracted from the composite video signal input according to the broadcasting method, and the color carrier frequencies are determined according to the broadcasting method with the period of the extracted color burst. have.

Therefore, when determining the color carrier frequency according to the broadcasting method, there is an advantage that it can be discriminated through a simple device regardless of a separate dedicated analog chip and surrounding environment change.

And, there may be a plurality of embodiments of the present invention, hereinafter will be described in detail for the preferred embodiment. Through this preferred embodiment, it is possible to better understand the objects, features and advantages of the present invention.

Hereinafter, with reference to the accompanying drawings is a block diagram showing an embodiment of the color carrier frequency discrimination apparatus according to the present invention.

According to the present embodiment, the band filter unit 100 extracts only the color unit carrier frequencies of 3.58 MHz and 4.43 MHz from the composite video signal CV through the video input terminal 105 according to a broadcasting method, and a burst gate input from the outside. Burst amplification unit for extracting only the color burst signal (CB) of continuous frequency from the color carrier frequency according to the broadcasting method filtered by the band filter unit 100 during the BGP Burst Gate Pulse period to amplify and output to a predetermined level And a period detector 103 for measuring and adjusting the period of the color burst pulse amplified by the burst amplifier 102 to a predetermined time constant value and a video input terminal 105 according to the broadcast method. It is separated from the sync separator 101 and the sync separator 101 to extract and output the horizontal sync signal HS and the vertical sync signal VS from the input composite video signal CV. In accordance with the horizontal synchronization signal (HS) and vertical synchronization signal (VS) to be measured by the period detection unit 103 has a color burst period inputted to determine the color carrier frequency according to the broadcast method and outputs the resulting signal ( And a period discrimination unit 104 which outputs through 106 and provides the burst gate pulse BGP to the burst amplifier 102 as a synchronization value.

The period detector 103 is configured as a monostable multivibrator that is retriggered whenever the rising pulse of the color burst from the burst amplifier 102 is input.

In the above description, the main judging unit 104 determines whether there is a change in the pulse input from the period detecting unit 103 within the burst gate pulse (BGP) period or whether the pulse remains high. Logically to determine

2A to 2E are timing diagrams of respective parts for explaining FIG. 1, and FIGS. 3A and 3B are diagrams for explaining a color carrier cycle of the NTSC and PAL system of FIG. 1.

Hereinafter, with reference to the accompanying Figures 2 to 3 will be described a preferred embodiment according to the present invention through the following.

First, when a composite video signal (CV) according to the broadcasting method as shown in FIG. 2A is inputted through the video input terminal 105 to the band filter unit 100 and the synchronization separator 101, the band filter unit 100 is applied. In the input composite video signal (CV), if a specific band, for example, the frequency to be determined is 3.58 MHz, which is the color carrier of NTSC system, and 4.43 MHz, which is the color carrier of PAL system, the input complex In the video signal CV, only the frequency band is filtered and provided to the burst amplifier 102, and the horizontal sync signal, the vertical sync signal, and the high frequency part of the other low frequency parts are blocked.

The burst amplification unit 102 has a color of 3.58 MHz and 4.43 MHz filtered by the band filter unit 100 during a burst gate pulse (BGP) period as shown in FIG. 2B input from the main judging unit 104 to be described later. Only the color burst (CB) in the 11 μs section at the subcarrier frequency is extracted and continuously amplified to a 0V-5V pulse level as shown in FIG. 2C.

The level voltage of the color burst amplified by the burst amplifier 102 is provided to the period detector 103.

The periodic detector 103, i.e., the monostable multivibrator, has a color burst period as shown in FIG. 2C which is amplified by the burst amplifier 102 and inputted to the NTSC system (3.58 MHz) and the PAL system (4.43 MHz). It is measured with its own time constant set by averaging the cycle difference.

3A and 3B, the color subcarrier frequency f _CS = 3.579545 MHz of the NTSC system in the case of the NTSC system having a color carrier of 3.58 MHz and the PAL system of 4.43 MHz, The color carrier frequency f _CS of the PAL system has a frequency of 4.43361875 MHz.

The period of the color carrier frequency f _CS of the NTSC system is 279.365 nsec, as shown in FIG. 3A, and the period of the color carrier carrier frequency f _CS of the PAL system is 225.549 nsec, as shown in FIG. 3B.

Therefore, when the periodic difference between the color carrier frequencies of the two broadcasting systems is obtained, it has about 54 nsec.

Therefore, when the time constant (τ = RC) of the monostable multivibrator is set to 27 nsec which averages the period difference between the NTSC system and the PAL system, as a result, the monostable multivibrator with respect to the color subcarrier period in the PAL system is The adjustment time Δt is 252nsec with time constant τ 27nsec added to 225nsec, and the adjustment time Δt for color carrier carrier cycle in NTSC system is 252nsec with time constant τ 27nsec subtracted from 279nsec. .

Therefore, assuming that a color burst period (225 nsec) having a constant phase relationship with respect to the color carrier of the PAL system is input from the above-described burst amplifier 102, within the above-described adjustment time (Δt = 252 nsec) of the monostable multivibrator. Again, as the rising pulse of the color burst period (225nsec) as shown in FIG. 3B is input 27nsec earlier, the monostable multivibrator is continuously retriggered, and its output is shown in FIG. 2D during the high (H) period of the burst gate pulse (BGP). , It is provided to the period discrimination unit 104 while keeping the high (H).

However, in the NTSC system, since the period of the color subcarriers is longer than that of the adjustment time (Δt = 252nsec) of the PAL system, as shown in FIG. 3A, the high frequency period of the burst gate pulse (BGP) is different from those of FIGS. 2E and 3A. As described above, a 27 nsec pulse is generated and provided to the main discriminator 104.

On the other hand, the synchronization separating unit 101 is a horizontal synchronous signal (HS) and a vertical synchronous signal (VS) carried in the 11μs section from the composite video signal (CV) as shown in Figure 2A input through the video input terminal 105 The extract is provided to the main judging unit 104.

The period discrimination unit 104 is separated from the period detection unit 103, that is, the monostable multivibrator in synchronization with the horizontal synchronization signal HS and the vertical synchronization signal VS which are separated and input from the synchronization separation unit 104. As shown in Fig. 2E within the burst gate pulse (BGP) period of time, if the pulse is continuously input, it is determined by the color carrier frequency of the NTSC system and outputs a logical high (H) signal to its output terminal 106. When the logical high (H) signal is maintained and input within the best gate pulse (BGP) period from the multivibrator, it is determined as the color carrier frequency of the PAL system and outputs the logical low (L) signal to its output terminal 106. do.

As described above, in the present embodiment, by extracting the color burst having a constant phase relationship with respect to the color carrier frequency input according to the broadcast method, and determining the broadcast method with the period of the extracted color burst, the existing dedicated analog It can be seen that discrimination errors caused by environmental changes caused by using chips are prevented.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the present invention may be variously modified and implemented by those skilled in the art.

Such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments should fall within the appended claims of the present invention.

The present invention can not only accurately determine the color carrier frequency according to the broadcast method, but also design a simple, easy and reliable system regardless of the external environment conversion, and in particular, the system can be applied to an application specific integrated circuit (ASIC). At the same time, the main judging unit can be inserted into the AIZ, and the color judging carrier can be automatically determined without the need to adjust the reference voltage separately.

Claims (6)

Filtering means for extracting a frequency of a specific band from the composite video signal obtained according to the broadcasting method; amplifying means for extracting only a signal synchronized with a burst gate pulse at a frequency of the specific band obtained by the filtering means and amplifying to a set level; Period detecting means for adjusting and measuring the period of the pulse corresponding to the burst gate pulse obtained by the < RTI ID = 0.0 > times < / RTI > and synchronizing separation means for extracting and outputting a synchronization signal from the composite video signal according to the broadcasting method. A color carrier frequency comprising a period discrimination means for discriminating the color carrier frequency with the difference of the periods obtained by the period detecting means and providing the burst gate pulses to the amplifying means as a synchronization value. Discrimination device. The apparatus of claim 1, wherein the filtering unit extracts only a color subcarrier frequency from a composite video according to a broadcasting method. The apparatus of claim 1, wherein the amplifying means extracts and amplifies only the color burst from the frequency of the specific band obtained by the filtering means. 2. The apparatus of claim 1, wherein the period detecting means is a monostable multivibrator retriggered by color burst obtained by the amplifying means. 5. The apparatus of claim 4, wherein the monostable multivibrator determines a time constant from a value obtained by averaging a period difference between a color subcarrier of an NTSC system and a color subcarrier of a PAL system. The color carrier frequency discrimination apparatus according to claim 1, wherein the period discrimination means discriminates different color carrier frequencies with a change and sustain state of a pulse obtained from the period detecting means within the burst gate pulse period.