KR20010064309A - First band pass filter for double conversion type tuner - Google Patents

Abstract

PURPOSE: A primary band pass filter for ad double conversion tuner is provided to improve circuit interference characteristics and noise reduction sensitivity by preventing unnecessary signal from flowing in to a second mixer using a penetration condenser with good bypass characteristics. CONSTITUTION: A first resonance circuit(110) comprising a first coil(L10) and a first condenser(C10) in serial passes only an IF(intermediate frequency) signal with a desired band, resonating with the IF signal from a first mixer. A second resonance circuit(120) comprising a second condenser(C20) and a second coil(L20) in serial passes only an IF(intermediate frequency) signal with a desired band, resonating with the IF signal from the output terminal of the first resonance circuit(110).

Description

FIRST BAND PASS FILTER FOR DOUBLE CONVERSION TYPE TUNER}

The present invention relates to a double conversion type tuner, and more particularly, a through condenser is used in the primary band pass filter to remove the interference between the primary oscillation frequency signal and the secondary oscillation frequency signal, and to reduce noise sensitivity. A first-order band pass filter of a double conversion type tuner to improve the

In general, the digital tuner is a reception tuner that can receive digital satellite broadcasting directly on a television without going through a satellite relay station. As a product corresponding to HDTV, it is a key part that enables simultaneous viewing in a wide range of regions. The tuner includes a single conversion type for outputting an intermediate frequency, a double conversion type for amplifying and mixing a primary intermediate frequency signal, and converting the signal into a secondary intermediate frequency for detection. There is this.

Among them, the double conversion type digital tuner generates a primary voltage controlled oscillation which generates a predetermined oscillation frequency according to the control voltage of the PLL IC (not shown) and the tuning voltage of the loop filter (not shown), as shown in FIG. The primary mixer 20 and the primary mixer 20 outputting the primary IF signal by mixing the circuit 10, the oscillation frequency and the RF signal output from the primary voltage controlled oscillation circuit 10 and the primary mixer 20 The primary band pass filter 30 which passes only IF signals of a desired band among the primary IF signals, the IF signal output from the primary band pass filter 30 and the oscillation signal output from the secondary voltage controlled oscillator circuit 40. It includes a secondary mixer 50 to mix and output a secondary IF signal.

Here, as shown in FIG. 2, the primary band pass filter 30 has the coil L1 and the capacitor C ₁ connected in series to be tuned to the primary IF signal output through the primary mixer 20 to adjust the IF of a desired band. The first tuning circuit 31 which passes only a signal and the capacitor C ₂ and the coil L ₂ are connected in series to the output terminal of the first tuning circuit 31 to tune to the IF signal outputted through the first tuning circuit 31. 1 which is connected in parallel between the second tuning circuit 32 and the first tuning circuit 31 and the second tuning circuit 32 to pass only the IF signal of a desired band, and is outputted through the first tuning circuit 31. A chip capacitor C ₃ for bypassing the oscillation frequency signal of the differential voltage controlled oscillation circuit 10 and the output terminal of the second tuning circuit 32 are connected in parallel to generate an oscillation frequency signal of the primary voltage controlled oscillation circuit 10. It consists of a chip capacitor C ₄ to the bypass.

In the conventional first band pass filter 30, when the RF signal and the oscillation frequency signal are mixed in the first mixer 20 and the first IF signal is output, the first and second tuning circuits 31 and 32 have IFs of 920 MHz. The signal is passed, and high frequency signals of 970 MHz or more are bypassed from the chip capacitors C ₃ and C ₄ to output a desired IF signal to the secondary mixer 50.

However, although the chip capacitor is used to bypass the high frequency signal of 970 MHz or more in the first band pass filter of the conventional double conversion type tuner, the signal input to the first band pass filter is not only an IF signal but also an RF signal and an oscillation frequency signal ( 1 GHz to 2 GHz) and harmonic signals (2 GHz to 10 GHz) are input, but the bypass characteristics of the chip capacitors are not good, and these signals are input to the secondary mixer, thereby deteriorating the interference characteristics and noise limiting characteristics of the circuit.

The present invention is to solve the above problems, the object of the use of the pass-through capacitor having excellent bypass characteristics in the first band pass filter unnecessary signals RF signal, oscillation frequency signal, harmonic signal flows into the secondary mixer It is to improve the interference characteristics and noise limiting sensitivity of the circuit by blocking it.

1 is a block diagram schematically illustrating a general double conversion type tuner.

2 is a circuit diagram showing a first-order band pass filter of a general double conversion type tuner.

3 is a block diagram schematically illustrating a double conversion type tuner according to the present invention.

4 is a circuit diagram showing a first-order band pass filter of a double conversion type tuner according to the present invention.

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

10: primary voltage controlled oscillator circuit 20: primary mixer

30, 100: 1st band pass filter 31, 110: 1st tuning circuit

32, 120: second tuning circuit 40: secondary voltage controlled oscillation circuit

50: Secondary mixer C ₁ , C ₂ , C ₁₀ , C ₂₀ : Condenser

C ₃ , C ₄ , C ₃₀ : Chip Capacitor C _FT : Through Capacitor

The first band pass filter of the double conversion type tuner of the present invention for achieving the above object,

Outputs IF signal by mixing the primary voltage controlled oscillation circuit that generates a predetermined oscillation frequency according to the control voltage of the PLL IC and the tuning voltage of the loop filter, and the oscillation frequency and RF signal output from the primary voltage controlled oscillator circuit. The first mixer, a first band pass filter for passing only IF signals of a desired band among the IF signals output from the first mixer, and an IF signal output from the first band pass filter and a second voltage controlled oscillator circuit. In the double-conversion type digital tuner including a secondary mixer for mixing the oscillation signal to output an IF signal,

The first band pass filter,

A first tuning circuit in which the first coil and the first capacitor are connected in series and tuned to the IF signal output through the primary mixer to pass only the IF signal of a desired band;

A second tuning circuit connected to a second capacitor and a second coil in series at an output terminal of the first tuning circuit to be tuned to an IF signal output through the first tuning circuit, and passing only an IF signal of a desired band;

A through capacitor provided between the first tuning circuit and the second tuning circuit to bypass the oscillation frequency signal of the primary voltage controlled oscillation circuit output through the first tuning circuit;

And a chip capacitor connected in parallel to the output terminal of the second tuning circuit to bypass the oscillation frequency signal of the primary voltage controlled oscillation circuit.

Hereinafter, the configuration and operation of the first-order band pass filter of the double conversion type tuner according to the present invention will be described in detail with reference to FIGS. 3 and 4. In FIG. 3 and FIG. 4, the same part as the 1st band pass filter of the double conversion type | system | group tuner shown in FIG. 1 and FIG. 2 is attached | subjected with the same code | symbol as FIG.

3 and 4, the primary band pass filter 100 includes a first tuning circuit 110, a second tuning circuit 120, a through capacitor C _FT, and a chip capacitor C ₃₀ .

The first tuning circuit 110 is configured such that the coil L ₁₀ and the capacitor C ₁₀ are connected in series and tuned to the IF signal output through the primary mixer 20 to pass only the IF signal of a desired band.

In the second tuning circuit 120, the capacitor C ₂₀ and the coil L ₂₀ are connected in series to the output terminal of the first tuning circuit 31, and the second tuning circuit 120 is tuned to the IF signal outputted through the first tuning circuit 110 to provide the IF of a desired band. Configured to pass only signals.

The through condenser C _FT is provided between the first tuning circuit 110 and the second tuning circuit 120 so as to receive the oscillation frequency signal of the primary voltage controlled oscillation circuit 10 output through the first tuning circuit 110. Pass and remove unwanted signals such as RF signals, oscillation frequency signals, harmonic signals, and the like.

The chip capacitor C ₃₀ is configured to be connected in parallel to the output terminal of the second tuning circuit 120 to bypass the oscillation frequency signal of the primary voltage controlled oscillation circuit 10.

The first band pass filter passes the 920 MHz IF signal in the first and second tuning circuits 110 and 120 when the RF signal and the oscillation frequency signal are mixed in the first mixer 20 and the first IF signal is output. The high frequency signal of 970 MHz or more is bypassed by the chip capacitor C ₃₀ to output the desired IF signal to the secondary mixer 50.

In addition, the through capacitor C _FT bypasses unnecessary signals among the primary IF signals output through the first tuning circuit, that is, an RF signal, an oscillation frequency signal (1 GHz to 2 GHz), and a harmonic signal (2 GHz to 10 GHz).

Therefore, the through capacitor is used in the first band pass filter to eliminate the interference between the first oscillation frequency signal and the second oscillation frequency signal, and improve the noise limit sensitivity.

As described above, according to the primary band pass filter of the double conversion type tuner according to the present invention, an RF signal, an oscillation frequency signal, and a harmonic signal, which are unnecessary signals, are provided by using a through capacitor having excellent bypass characteristics in the primary band pass filter. By blocking the flow to the secondary mixer, the interference characteristics and noise limit sensitivity of the circuit can be improved.

Claims (1)

Outputs IF signal by mixing the primary voltage controlled oscillation circuit that generates a predetermined oscillation frequency according to the control voltage of the PLL IC and the tuning voltage of the loop filter, and the oscillation frequency and RF signal output from the primary voltage controlled oscillator circuit. The first mixer, a first band pass filter for passing only IF signals of a desired band among the IF signals output from the first mixer, and an IF signal output from the first band pass filter and a second voltage controlled oscillator circuit. In the double-conversion type digital tuner including a secondary mixer for mixing the oscillation signal to output an IF signal, The first band pass filter, A first tuning circuit in which the first coil and the first capacitor are connected in series and tuned to the IF signal output through the primary mixer to pass only the IF signal of a desired band; A second tuning circuit connected to a second capacitor and a second coil in series at an output terminal of the first tuning circuit to be tuned to an IF signal output through the first tuning circuit, and passing only an IF signal of a desired band; A through capacitor provided between the first tuning circuit and the second tuning circuit to bypass the oscillation frequency signal of the primary voltage controlled oscillation circuit output through the first tuning circuit; And a chip capacitor connected in parallel to an output terminal of the second tuning circuit to bypass the oscillation frequency signal of the primary voltage controlled oscillation circuit.