KR0121516Y1 - A tuner circuit of multi broadcasting form - Google Patents

Abstract

The present invention relates to a tuner circuit for a multi-broadcasting method of controlling a second local oscillator of a double conversion type tuner by changing the oscillation frequency of the second local oscillator to output the final IF frequency in accordance with each broadcasting method.

In order to solve the problem of various performance degradations, a separate converting circuit must be added to the tuner, so that the second local oscillator of the double conversion type tuner is controlled by the PLL to change the oscillation frequency so that it is suitable for each broadcasting method. The purpose of the present invention is to provide a tuner circuit for a multi-broadcast method that can output the final IF frequency.

The present invention allows the oscillation frequency of the second oscillator to be selectively changed for each broadcasting method by the microcomputer and PLL circuit to receive two broadcasting signals with one tuner, thereby improving the performance of the TV set and simplifying the circuit. Cost reduction by the effect is made.

Description

Tuner Circuit for Multi Broadcasting

1 is a circuit diagram of a conventional tuner circuit for a multi-broadcast method.

2 is a circuit diagram of a tuner circuit for a multi-broadcast method according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Attenuator 2,3: PLL

5: Micom A1: RF amplifier

A2, A3: IF amplifier P1, P4: Low pass filter

P2, P3: Bandpass Filter M1, M2: Mixer

OSC1, OSC2: Oscillators

The present invention relates to a tuner circuit of a TV set that can receive PAL and SECAM broadcasts in common, and in particular, the second local oscillator of the double conversion tuner is controlled by a phase lock loop (PLL) to oscillate the second local oscillator. The present invention relates to a tuner circuit for a multi-broadcasting method which outputs the final IF frequency in accordance with each broadcasting method by changing the frequency.

In general, the color TV broadcast method is determined by a unique standard broadcast method for each country or region, so that one TV set cannot receive different TV broadcasts.

More specifically, in the case of PAL B / G broadcasting, the video IF frequency (fp) is 38.9 MHz, and in the case of SECAM L broadcasting, the video IF frequency (fp) is 32.9 MHz, so the video intermediate frequency of each broadcasting method is used. Are different.

In particular, in the PAL B / G broadcasting system, the voice intermediate frequency fs exists below the video intermediate frequency, that is, fpfs, at an interval of 5.5 MHz with respect to the video intermediate frequency fp. The frequency fs is above the image intermediate frequency, i.e., fpfs.

Therefore, a TV set capable of receiving PAL B / G broadcasting and SECAM L broadcasting in common requires two different tuner circuits and a demodulation device connected to each tuner circuit, or a separate converting circuit shown in FIG. In addition, complex configuration of the demodulator is required.

Referring to FIG. 1, a converting circuit 20 is connected to a rear end of the tuner 10. The converting circuit 20 is a band pass filter 21, the mixer 22 and the band pass filter 23 is sequentially connected to the mixer 22 of the transistor (Q) controlled by the control signal (C) An oscillator (OSC) that outputs an oscillation frequency is connected according to the output.

The operation of the converting circuit configured as described above is as follows.

First, when the control signal C in the low state is applied to the base of the transistor Q through the resistor R ₁ when the PAL B / G broadcast method is received, the emitter is connected to the resistor R ₂ . The grounded transistor Q is turned off so that the oscillator OSC does not generate a separate oscillation frequency. Accordingly, the mixer 22 outputs the PAL B / G broadcast signal of the tuner 10 in the IF form without converting it.

When the control signal C having a high state is applied to the base of the transistor Q through the resistor R ₁ when the SECAM L broadcast method is received, the transistor Q is turned on. Since the power source B ⁺ connected to the collector is transmitted to the oscillator OSC through the transistor Q connected to the emitter Q and the emitter OSC, the oscillator OSC generates a separate oscillation frequency. Accordingly, the mixer 22 converts the PAL B / G broadcast signal of the tuner 10 into a SECAM L broadcast signal and outputs the IF signal. Therefore, in the conventional tuner circuit, since a separate converting circuit must be added, various performance degradations occur.

The present invention aims to provide a multicast tuner circuit capable of outputting the final IF frequency of each broadcasting method by changing the oscillation frequency by controlling the second local oscillator of the double conversion type tuner with a PLL to solve the above problems. The purpose is.

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

Referring to FIG. 2, the RF signal received by the antenna ANT is amplified by the RF amplifier A ₁ via an attenuator 1 controlled by an AGC control signal. The output of the RF amplifier A ₁ is up-converted to the oscillation frequency of the first oscillator OSC ₁ by a first mixer M ₁ via a low pass filter P ₁ and then a band pass filter P ₂ . the via is input to the IF amplifier (a _2), the output of the IF amplifier (a ₂₎ is the oscillation frequency of the second oscillator (OSC ₂₎ by the second mixer (M ₂₎ via the band-pass filter (P ₃₎ Down conversion is performed through the IF amplifier (a ₃ ) and the low pass filter (P ₄ ) sequentially.

Meanwhile, the first oscillator OSC ₁ and the second oscillator OSC ₂ respectively output different oscillation frequencies by the PLL units 2 and 3 controlled to the output information of the microcomputer 5.

The operation of the tuner circuit for a multi-broadcast method configured as described above is as follows.

The attenuator 1 inputs an RF signal received at the antenna ANT to attenuate according to the AGC control signal. At this time, the attenuator 1 does not attenuate the strength of the input RF signal when the strength of the input RF signal is weak, but attenuates the strength of the input RF signal when the strength of the input RF signal is strong.

The RF amplifier A ₁ amplifies the RF signal output from the attenuator 1 to a predetermined size. Subsequently, the low pass filter P ₁ inputs an amplified RF signal and passes a low frequency of 800 MHz or less.

Thereafter, the first mixer M ₁ mixes the low pass RF signal with the oscillation frequency of the first oscillator OSC ₁ to generate a first IF signal. In this case, the primary IF signal has a higher frequency than the RF input signal of 50 to 800 MHz.

On the other hand, the first oscillator (OSC ₁ ) has a constant oscillation frequency by the information input from the microcomputer unit 5 and the microcomputer unit 5 for generating information suitable for each broadcasting method by a remote control or a keyboard (key board) Oscillates at a constant frequency by using the PLL section 2 which can oscillate and maintain.

For example, when the frequency of the primary IF signal for each broadcasting scheme is upconverted to 996.25 MHz in the first mixer M ₁ , the frequency of the primary IF signal is a band pass filter P ₂ and the primary IF amplifier ( A ₂ ) and a band pass filter P ₃ are sequentially input to the second mixer M ₂ and mixed with the oscillation frequency of the second oscillator OSC ₂ to generate a second IF signal.

Here, in the PAL B / G broadcasting scheme, since the image intermediate frequency (fp) is 38.9 MHz, the oscillation frequency of the second oscillator OSC2 should be fixed to 957.35 MHz. In other words, the second IF frequency is obtained at 38.9 MHz by the difference between 996,25 MHz and 957.35 MHz.

When the SECAM L low channel is received, the oscillation frequency of the second oscillator OSC2 should be fixed to 1028.95MHz since the image intermediate frequency fp is 32.7MHz. That is, a second IF frequency is obtained at 32.7 MHz by the difference between 996.25 MHz and 1028.95 MHz. In this case, the audio intermediate frequency Fs is placed below and above the image intermediate frequency at regular frequency intervals (5.5MHz and 6.5MHz).

On the other hand, the second oscillator (OSC ₂ ) by the remote control or the keyboard (key board) by the microcomputer unit 5 for generating information suitable for each broadcasting system and the information input from the microcomputer unit 5 to each broadcasting system The PLL section 3, which makes it possible to oscillate and maintain an appropriate oscillation frequency, generates 957.35 MHz when the PAL B / G broadcast signal is received, and the PLL section 3 and the microcomputer section receive the SECAM L broadcast signal. 5) to generate 1028.95MHz, the second mixer M2 generates two different final IF signals of 38.9MHz and 32.7MHz, respectively.

Thereafter, the final IF signal of the second mixer M ₂ passes through the 40 MHz low pass filter P ₄ through the second IF amplifier A ₃ .

Therefore, the present invention improves the performance and circuit of the TV set by selectively changing the oscillation frequency of the second oscillator according to each broadcasting method by the microcomputer and the PLL circuit so as to receive two broadcasting signals with one tuner. Cost reduction is achieved by the simplification.

Claims (1)

An attenuator 1 for attenuating the input IF signal according to an AGC signal, an RF amplifier A ₁ for amplifying the output of the attenuator 1, and an output of the RF amplifier A ₁ . passing the low-pass filter for (P ₁₎ and a first mixer (M ₁₎ of the first mixing up-conversion to the oscillation frequency of the output of the first oscillator (OSC ₁₎ of the low-pass filter (P _1), the and a first mixer the band-pass filter (P _2), and a first IF amplifier (a ₂₎ for amplifying an output of the band-pass filter (P ₂₎ of the band-pass output of the first IF signal (M _1), It said first band notification filter (P ₃₎ of the band-pass output of the IF amplifier (a ₂₎ and, the second and third oscillation frequency of the output of the second oscillator (OSC ₂₎ of the band-pass filter (P ₃₎ A second mixer (M ₂ ) for mixing and down-converting, a second IF amplifier (A ₃ ) for amplifying a second IF signal that is an output of the second mixer (M ₂ ), and the second IF amplifier (A ₃₎ Output of And a low pass filter for low-pass (P ₄₎ and the first and second oscillator (OSC _1), the first and second PLL unit (2) for each of the control (OSC _2), (3), the first, 2. A tuner circuit for a multi-broadcast method, characterized in that the PAL method and the SECAM method can be received in common, including the microcomputer (5) controlling the PLL units (2) and (3).