KR20040009531A - Digital tuner with adjacent channel interference improvement circuit - Google Patents

Abstract

PURPOSE: A digital tuner having a circuit for removing interference between adjacent channels is provided to add a trap circuit to the digital tuner to remove interference between adjacent channels so as to improve the digital broadcasting receiving state. CONSTITUTION: A digital tuner includes an automatic gain control unit(10), an RF amplifier(11), an RF band pass filter(12), a mixer(15) and an RF AGC detecting circuit(19). The digital tuner further includes an LC trap circuit(110) located between the mixer and RF AGC detecting circuit. The LC trap circuit is composed of an inductor(L) and a capacitor(C) and traps an N+1 channel signal higher than the digital broadcasting signal currently being received by one channel.

Description

DIGITAL TUNER WITH ADJACENT CHANNEL INTERFERENCE IMPROVEMENT CIRCUIT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital tuner, and more particularly, to a digital tuner, by adding a trap circuit corresponding to an adjacent channel to a digital tuner. It is about a digital tuner.

In general, the digital tuner is a receiving tuner that can receive digital satellite broadcasting directly through a TV without going through a satellite relay station. It can solve high-definition, high-definition, high fidelity and voice broadcasting, and also supports HDTV, which is called the next generation TV. It is a key component that enables simultaneous viewing of a wide range of regions.

As shown in FIG. 1, the digital tuner includes an AGC 10, an RF amplifier 11, an RF band pass filter 12, a PLL IC 13, a local oscillator 14, and a mixer. 15, the saw filter 16, the IF amplifier 17, the demodulation IC 18, the RF AGC detection circuit 19, and the IF AGC detection circuit 20.

The AGC 10 automatically adjusts the output of the video signal at all times even when the magnitude of the high frequency signal induced through the antenna ANT changes.

The RF amplifier 11 amplifies the high frequency signal passed through the AGC 10.

The RF band pass filter 12 selects a desired high frequency signal from the high frequency signals amplified by the RF amplifier 11.

The phase locked loop (PLL) IC 13 stores channel data therein and outputs a control voltage to the local oscillator 14 according to external control.

The local oscillator 14 is divided into three bands and switches the bands according to the frequency at the time of channel selection, and generates a predetermined oscillation frequency according to the control voltage of the PLL IC 13 to output to the mixer 15.

The mixer 15 mixes the high frequency signal selected by the RF band pass filter 12 and the oscillation frequency generated by the local oscillator 14 to output an intermediate frequency signal.

The saw filter 16 passes only the desired intermediate frequency signal among the intermediate frequency signals output from the mixer 15.

The IF amplifier 17 amplifies the intermediate frequency signal output from the saw filter 16.

The demodulation IC 18 demodulates the input intermediate frequency signal and outputs it as a TS signal.

The RF AGC detection circuit 19 controls the gain of the AGC 10 when a strong electric field signal is input.

The IF AGC detection circuit 20 controls the gain of the IF amplifier 17 when the weak field signal is input.

The operation of the conventional digital tuner by the above configuration will be briefly described as follows.

First, only one broadcast frequency is selected while the high frequency band signal received by the antenna ANT passes through the AGC 10, the RF amplifier 11, and the RF band pass filter 12. The selected high frequency (RF) signal is mixed with the oscillation frequency generated by the local oscillator 14 and by the mixer 15 and output as an intermediate frequency signal.

At this time, the local oscillator 14 outputs the oscillation frequency to the mixer 15 according to the control voltage of the PLL IC 13, and the mixer 15 outputs the high frequency signal and the local oscillator output from the RF band pass filter 12. The oscillation frequency output from 14 is mixed to output an intermediate frequency signal.

When the intermediate frequency signal passing through the mixer 15 is filtered and amplified while passing through the saw filter 16 and the IF amplifier 17 and input to the demodulation IC 18, the demodulation IC demodulates the input intermediate frequency signal to TS. Output as a signal.

When a strong electric field signal is received through the antenna ANT, the RF AGC detection circuit 19 operates to control automatic gain adjustment of the AGC 10, and the voltage output from the demodulation IC 18 when the weak electric field signal is input. Automatic gain adjustment of the IF amplifier 17 is performed.

Currently, digital broadcasting signals always perform lower than analog signals in order to not affect the existing analog channels in the situation of broadcasting simultaneously with analog broadcasting.

Therefore, in the conventional digital tuner configuration, when the N + 1 analog broadcast signal of the signal to be received is input to the RF AGC detection circuit as shown in FIG. Prior to recognizing the signal level, the AGC voltage is abnormally output by recognizing a high level analog disturbance signal. Therefore, when the analog broadcast signal is very high during digital broadcast reception, there is a problem in that the reception state is very poor due to interference of the adjacent channel.

Accordingly, an object of the present invention is to solve the above problems and to improve digital broadcast reception by eliminating interference of adjacent channels by adding trap circuits corresponding to adjacent channels to the digital tuner.

1 is a block diagram schematically showing a configuration of a general digital tuner

2 is a waveform diagram illustrating the operation of a general digital tuner.

3 is a block diagram schematically showing the configuration of a digital tuner having an adjacent channel interference reduction circuit according to the present invention.

4 is a waveform diagram illustrating the operation of a digital tuner having an adjacent channel interference reduction circuit according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: AGC11: RF Amplifier

12: RF band pass filter 13: PLL IC

14 Local Oscillator 15 Mixer

16: Saw filter 17: IF amplifier

18: demodulation IC 19: RF AGC detection circuit

20: IF AGC detection circuit 110: LC trap circuit

Features of the present invention for achieving the above object,

A digital tuner comprising an AGC, an RF amplifier, an RF band pass filter, a mixer, and an RF AGC detection circuit,

It consists of an inductor and a capacitor between the mixer and the RF AGC detection circuit, characterized in that it comprises an LC trap circuit for trapping the N + 1 channel signal one channel above the currently received digital broadcast signal.

Hereinafter, a configuration of a digital tuner having an adjacent channel interference improving circuit according to the present invention will be described in detail with reference to FIG. 3. In FIG. 3, the same parts as those of the digital tuner shown in FIG. 1 are given the same reference numerals as in FIG. 1, and description thereof will be omitted.

3 is a block diagram schematically illustrating a configuration of a digital tuner having an adjacent channel interference improving circuit according to the present invention.

The digital tuner 100 having the adjacent channel interference improving circuit according to the present invention comprises an inductor L and a capacitor C between the mixer 15 and the RF AGC detection circuit 19, An LC trap circuit 110 for trapping an N + 1 channel signal one channel above the digital broadcast signal is provided.

Hereinafter, an operation of a digital tuner having an adjacent channel interference improving circuit according to the present invention will be described with reference to FIGS. 3 and 4.

4 is a waveform diagram illustrating an operation of a digital tuner having an adjacent channel interference reduction circuit according to the present invention.

First, only one broadcast frequency is selected while the high frequency band signal received by the antenna ANT passes through the AGC 10, the RF amplifier 11, and the RF band pass filter 12. The selected high frequency (RF) signal is mixed with the oscillation frequency generated by the local oscillator 14 and by the mixer 15 and output as an intermediate frequency signal.

At this time, the local oscillator 14 outputs the oscillation frequency to the mixer 15 according to the control voltage of the PLL IC 13, and the mixer 15 outputs the high frequency signal and the local oscillator output from the RF band pass filter 12. The oscillation frequency output from 14 is mixed to output an intermediate frequency signal.

When the intermediate frequency signal passing through the mixer 15 is filtered and amplified while passing through the saw filter 16 and the IF amplifier 17 and input to the demodulation IC 18, the demodulation IC demodulates the input intermediate frequency signal to TS. Output as a signal.

When a strong electric field signal is received through the antenna ANT, a part of the intermediate frequency signal output from the mixer 15 is trapped in the frequency corresponding to the N + 1 channel through the LC trap circuit 110, and then the RF AGC detection circuit is performed. RF AGC detection circuit 19 is operated to control automatic gain adjustment of AGC 10, and IF amplifier 17 through a voltage output from demodulation IC 18 when a weak field signal is input. Performs automatic gain adjustment.

Therefore, when a high level analog broadcast signal corresponding to the N + 1 channel is input, the frequency signal corresponding to the N + 1 channel input from the LC trap circuit 110 to the RF AGC detection circuit 19 is as shown in FIG. 4. By operating the trap, the RF AGC detection circuit 19 is abnormally operated by the disturbing signal, thereby improving the reception sensitivity of the digital tuner.

As described above, according to the digital tuner having the adjacent channel interference improving circuit according to the present invention, by adding a trap circuit corresponding to an adjacent channel to the digital tuner, the interference of the adjacent channel is removed to improve the digital broadcasting reception state. can do.

Claims (1)

A digital tuner comprising an AGC, an RF amplifier, an RF band pass filter, a mixer, and an RF AGC detection circuit, Adjacent channel disturbance improvement circuit comprising an LC inductor and an capacitor between the mixer and the RF AGC detection circuit and trapping an N + 1 channel signal one channel above the currently received digital broadcast signal. Digital tuner with.