KR0178318B1 - Multi-auto tunning system for ntsc - Google Patents

Abstract

An MT tuner system of a multi-automatic frequency tuning adjustment system is disclosed that generates a plurality of frequency tuning adjustment signals so as to control frequency tuning range of band filtering of a high frequency input signal so that frequency tuning occurs accurately. The band pass filter bandpasses the high frequency input signal received through the antenna. The outgoing signal generator generates and outputs an oscillation signal, and the mixer generates and outputs an intermediate frequency signal having a frequency difference between the high frequency input signal and the oscillation signal. The auto-tuning signal generation unit generates a plurality of auto-tuning adjustment signals using the intermediate frequency signal according to a signal input from the outside, and then uses the plurality of auto-tuning adjustment signals to frequency the band pass filter. Controlling the range ensures that frequency tuning is accurate. By using a plurality of auto-tuning adjustment signals to pass a high-frequency broadcast signal initially inputted, it is possible to finely control frequency tuning so that reception sensitivity can be relatively increased.

Description

Multi-Auto Tuning NTC Tuner System

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an NTS tuner system of a multi-auto tuning method, and in particular, generates a plurality of frequency adjustment signals to control frequency adjustment range of band filtering of a high frequency input signal so that frequency tuning occurs accurately. A multi-auto tuning NTC tuner system.

Color television broadcasts include NTSC systems used in the United States, Japan, Korea, and the like, PAL systems used in Germany, the UK, and SECAM systems broadcast in France and the Middle East. The NTSC, PAL, and SECAM schemes are the same in principle, but differ in the method of transmitting color signals.

In general, in a tuner system, a filter filters a frequency signal of a specific band from a plurality of high frequency signals received by an antenna and applies the filtered frequency band signal to a tuning circuit. The tuning circuit generates a tuning frequency signal by tuning to a frequency signal corresponding to a broadcast channel selected from a frequency signal of a specific band, and provides the tuned high frequency signal to the high frequency signal amplifying unit again. Then, the high frequency signal amplifier amplifies the high frequency signal from the tuning circuit and provides it to the mixer unit, wherein the mixer unit generates an intermediate frequency signal IF by mixing the high frequency amplified signal from the amplifier unit. . At this time, the video intermediate frequency signal IF required by the NTSC system is 45.75 MHz.

In the NTSC tuner system described above, it is always necessary to accept an RF input signal equal to the difference between the correct oscillation frequency and the intermediate frequency signal to obtain the best picture. An automatic frequency tuning (ART) circuit is always attached to receive a constant input frequency even when the tuning circuit that receives the RF signal changes due to changes in ambient temperature or environment. The automatic frequency tuning circuit described above detects a change in phase by using a PLL. The difference by the change is fed back to the tuning circuit of the input stage to automatically output the correct intermediate frequency at all times.

However, in the conventional NTSC tuner system of the conventional automatic tuning method as described above, since the frequency adjustment is performed using one automatic tuning adjustment signal, the frequency adjustment range for band-passing the initially input high frequency broadcast signal is widened. There is a problem that accurate frequency tuning is not achieved.

Accordingly, the present invention has been made in view of the above circumstances, and an object of the present invention is to finely control frequency tuning by band-passing a high frequency broadcast signal initially input using a plurality of automatic tuning signals. This provides NTSC tuner system with multiple automatic frequency adjustment method to improve reception sensitivity.

1 is a detailed circuit diagram of an NC tuner system of a multi-auto tuning method according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1,2,5,6,10: Bandpass filter 3,4,9: Amplifier

100: tuning unit 200: control unit

300: automatic tuning signal generator 400: mixer

500: oscillation signal generator 11: saw filter

12: Peak Detector 14: Digital / Analog Converter

15: I ² C bus register 16: Band switch

17: low pass filter

NTSC tuner system of the far automatic tuning method according to the present invention for achieving the above object is a tuning unit for detecting a frequency signal of a specific band of the high-frequency input signal from the antenna in accordance with the tuning voltage from the outside; An oscillation mutual generator for generating and outputting an oscillation signal corresponding to the tuning voltage; A mixer unit for generating an intermediate frequency signal by mixing the oscillation signal from the oscillation signal generator and the high frequency input signal from the tuning unit; And an auto-tuning adjustment signal generator for generating a plurality of auto-tuning adjustment signals based on the tuning voltage and the intermediate frequency signal and providing the generated plural auto-tuning adjustment signals to the band pass filter.

According to the present invention having the above-described configuration, frequency tuning can be finely controlled by band-passing a high frequency broadcast signal initially input by using a plurality of auto-tuning adjustment signals, so that the reception sensitivity can be relatively increased.

Hereinafter, the present invention will be described in more detail with reference to Examples.

1 is a circuit diagram of an NTSC tuner system of a multi-automatic frequency adjustment method according to an embodiment of the present invention. Referring to FIG. 1, the NTSC tuner system of the far automatic frequency adjustment method according to the present invention includes a tuning unit 100, a control unit 200, an automatic tuning signal generation unit 300, a mixer unit 400, and oscillation. The signal generator 500 is configured.

The tuning unit 100 includes a first band pass filter 1, a second band pass filter 2, a first amplifier 3, a second amplifier 4, a third band pass filter 5, and a first band pass filter 5. It consists of a four-pass filter (6). The controller 200 is composed of an I ² C bus register 15 and a band switch 16. The automatic tuning signal generator 300 includes a D / A converter 14, a signal generator 13, a peak detector 12, and a low pass filter unit 17.

In addition, the mixer 400 is composed of first to third mixers 401 to 403. The oscillation signal generator 500 includes a voltage controlled oscillator 84, a divider 82, a phase comparator 81, and a low pass filter 83.

According to the above configuration, the high frequency signal RF passing through the antenna is filtered through the VHF and UHF tuning filters 1 and 2 and then amplified by the first and second high frequency amplifiers 3 and 4. The high frequency signal RF amplified by the first and second high frequency amplifiers 3 and 4 is again filtered through the third and fourth band pass filters 5 and 6 for the VHF and UHF signals, and then the mixer. It is output to the unit 400. Then, the mixer 400 mixes the high frequency signals from the third and fourth band pass filters 5 and 6 with the local oscillation signal from the oscillation signal generator 500 to generate an intermediate frequency signal. The intermediate frequency signal is output to the amplifier 9. The intermediate frequency signal amplified by the amplifier 9 is input to the automatic tuning signal generator 300 through a band pass filter 10 and a saw filter 11.

On the other hand, the oscillation signal generator 500 is composed of a phase locked loop (PLL). The voltage controlled oscillator 84 generates a frequency signal corresponding to the voltage control signal from the I ² C bus register 15 of the controller 200. The divider 82 divides the frequency of the outgoing signal from the voltage controlled oscillator 84 at a predetermined ratio and outputs it to the phase comparator 81 under the control of the I ² C bus register 15. The phase comparator 81 compares the phase of the frequency signal from the divider 82 with the phase from the crystal oscillator XTAL and outputs the result to the low pass filter 83. Then, the low pass filter 83 filters the comparison result signal from the phase comparator 81 to generate a phase control signal corresponding to the comparison result signal, and converts the generated phase control signal into the voltage controlled oscillator ( 84, the oscillation signal generated from the voltage controlled oscillator 84 is locked to the reference frequency of the crystal oscillator XTAL.

In addition, the I ² C bus register 15 of the control unit 200 stores a tuning control signal from an external microcomputer (not shown), and stores the stored tuning control signal in the automatic tuning adjustment signal generator 300. To the D / A converter 14 and the band switch 16 of the control unit 200, respectively. The band switch 16 generates a tuning voltage in response to a tuning control signal from the I ² C bus register 15, and outputs the generated tuning voltage to the tuning unit 100.

In addition, the D / A converter 14 of the auto-tuning adjustment signal generator 300 converts the tuning control signal from the I ² C bus register 15 into an analog signal and converts the converted analog signal into an auto-tuning adjustment signal. The generator 13 is provided. Then, the auto-tuning adjustment signal generator 13 compares the peak detection signal from the peak detector 12 with the analog signal to generate an auto-tuning adjustment signal, and transmits the auto-tuning adjustment signal to the low pass filter unit. Provided in 17. Then, the low pass filter 17 filters the auto tune adjustment signal from the auto auto tune adjustment signal generator 13 and provides it to the tuner 100.

Therefore, according to the above configuration, by finely adjusting the tuning frequency of the tuning unit 100, the reception sensitivity of the tuner can be increased.

As described above, the present invention provides an NTC tuner system of a multi-auto tuning method having an effect of precisely generating frequency tuning by generating a plurality of frequency adjusting signals to control a frequency adjusting range of band filtering of a high frequency input signal. to provide.

Although the concept of the present invention has been described in detail with reference to the above embodiments, the technical scope of the present invention is not necessarily limited thereto, and modifications and improvements are possible within the scope of ordinary knowledge of those skilled in the art.

Claims (5)

A tuning unit 100 for detecting a frequency signal of a specific band among the high frequency input signals from the antenna according to the tuning voltage from the outside; An oscillation signal generator 500 generating and outputting an oscillation signal corresponding to the tuning voltage; A mixer 400 for generating an intermediate frequency signal by mixing the oscillation signal from the oscillation signal generator 500 and the high frequency input signal from the tuner 100; And an auto-tuning adjustment signal generator 300 for generating a plurality of auto-tuning adjustment signals based on the tuning voltage and the generated signals and providing the generated plurality of auto-tuning adjustment signals to the band pass filter. NTS tuner system of the multi-automatic tuning method characterized in that. The multi-auto tuning system according to claim 1, wherein the oscillation signal generator (500) is configured using a phase lock loop method. The multi-auto tuning system according to claim 1, wherein the oscillation signal generator (500) is locked with a reference oscillation signal of a crystal oscillator (XTAL). The method of claim 1 wherein the the above-described auto-tune adjustment signal generating unit 300 is input from the outside in which a signal to be stored in the I ² C bus registers via the digital / analog converters are converted into an analog signal signal and the intermediate frequency signal A multi-auto tuning system according to the present invention, characterized in that the automatic tuning adjustment signal is generated using the signal detected using the peak detector after filtering using the saw filter (11). The multi-auto tuning system according to claim 1, wherein the components of the tuner system are integrated in one chip.