KR0128561Y1 - Bit outbreak compensating circuit of free scaler type tuner - Google Patents

Abstract

The present invention relates to a bit generation correction circuit of a PRESCALER TYPE tuner.

The present invention has a special effect such as improving the sensitivity of the baseband by effectively blocking the path of the frequency division frequency generated by dividing the oscillation frequency in the prescaler tuner.

Description

Prescaler tuner's bit generation correction circuit

1 is an internal block diagram of a conventional prescaler tuner.

2 is an internal block diagram of a prescaler tuner according to the present invention.

3 (a) is a band relationship diagram showing a band of a baseband and a frequency division frequency,

(b) is a band relationship diagram showing the frequency band and the cutoff frequency of the high pass filter.

* Explanation of symbols for main parts of the drawings

1: Primary RF Amplifier 2: Variable Filter

3: secondary RF amplifier 4: mixer

5: Primary RF Amplifier 6: SAW Filter

7: 2nd RF amplifier 10: Oscillator

15: high pass filter 30: prescaler

The present invention relates to a bit generation correction circuit of a PRESCALER TYPE tuner. In particular, a frequency band generated by dividing an oscillation frequency in a prescaler tuner blocks a path into which a mixer frequency is introduced into a mixer. BASE-BAND) relates to a bit generation correction circuit of a prescaler tuner.

In general, satellite broadcasting is focused on a parapolar antenna of the ultra high frequency signal of the SHF band (SHF: super 10 frequency band) transmitted from the stationary satellite over the equator. The focused ultra-high frequency is converted into a high frequency signal of a UHF band (UHF: Ultra High Frequency, about 1 GHz) by a low noise block downconverter (LNB) installed in a parapolar antenna and input to a satellite broadcast tuner.

In the satellite broadcast tuner described above, a prescaler is used for the same reason that a programmable counter cannot be used at a high frequency of 100 MHz or higher, or when various frequency values are desired.

An internal block diagram of a conventional satellite broadcast tuner using such a prescaler is shown in FIG. 1. Referring to FIG. 1, a conventional prescaler tuner is a high frequency signal (950 MHz to 2050 MHz) from a satellite antenna (ANT). A primary RF amplifier (1) for amplifying the signal, a variable filter (2) for passing the amplified high frequency signal, and a secondary RF amplifier for amplifying and outputting a signal through the variable filter (2) to a predetermined level ( 3), an oscillator 10 for outputting an oscillation frequency (470MHz to 1570MHz), and a mixer 4 for outputting IF by mixing the output signal of the secondary RF amplifier 3 and the output signal of the oscillator 10. A primary RF amplifier 5 for amplifying the IF output from the mixer 4, an SAW bandpass filter 6 for selecting the IF output from the primary RF amplifier 5, and Secondary RF amplifier 7 which amplifies the output signal of IF SAW filter 6 to a predetermined level and outputs it to the demodulation IC It is configured.

On the other hand, the frequency oscillated by the oscillator 10 is divided in the frequency divider 20 consisting of a prescaler (for example, 1/256 division) is provided as a reference frequency of the PLL block.

However, the frequency division frequency PB generated by the frequency divider 20 affects the baseband BB output from the demodulation IC through the oscillator 10 as shown in FIG. As a function of the bit components, there is a problem of lowering the sensitivity of the audio signal.

The present invention has been made to solve the above-mentioned conventional problems.

Accordingly, an object of the present invention is to provide a bit generation correction circuit of a prescaler-type tuner to improve the sensitivity of the baseband by blocking the path of the frequency division generated by dividing the oscillation frequency in the tuner-type tuner. It is.

As a technical means for achieving the above object, the present invention provides a primary RF amplifier for amplifying a high frequency signal from an antenna, a variable filter for passing the amplified high frequency signal, and amplifying an output signal of the variable filter. A secondary RF amplifier, an oscillator for outputting an oscillation frequency, a mixer for outputting IF by mixing the secondary amplified signal and an oscillation frequency, a primary RF amplifier for amplifying an output signal of the mixer, and the primary A prescaler including a SAW filter for selecting an output signal of the RF amplifier, a secondary RF amplifier for amplifying the output signal of the AW filter and outputting the demodulated IC, and a divider for dividing the oscillation frequency of the oscillator to provide a PLL block In the type tuner, a high pass filter is provided between the oscillator and the divider 20 so as to pass the oscillation frequency of the oscillator and block the frequency division of the divider. Characterized in having.

Hereinafter, with reference to the accompanying drawings of the present invention.

In the drawings referred to in the present invention, components having substantially the same configuration and function have the same reference numerals.

2 is an internal block diagram of a prescaler tuner according to the present invention.

2, a prescaler tuner according to the present invention includes a primary RF amplifier 1 for amplifying a high frequency signal from an antenna ANT, a variable filter 2 for passing the amplified high frequency signal, and A second RF amplifier 3 for amplifying the output signal of the variable filter 2, an oscillator 10 for outputting an oscillation frequency, and a mixer for outputting IF by mixing the second amplified signal and an oscillation frequency (4), a primary RF amplifier (5) for amplifying the output signal of the mixer (4), a SAW filter (6) for selecting an output signal of the primary RF amplifier (5), and the AW filter ( And a secondary RF amplifier 7 for amplifying the output signal of 6) and outputting the demodulated IC, and a divider 20 for dividing the oscillation frequency of the oscillator 10 to provide the PLL block.

In addition, a high pass filter 15 is provided between the oscillator 10 and the frequency divider 20 to allow the oscillation frequency of the oscillator 10 to pass and to block the frequency division of the frequency divider 20.

The low cutoff frequency fc of the high pass filter 15 is set higher than the highest frequency division frequency fh output from the divider 20.

FIG. 3 (a) is a band relationship diagram showing a band of a baseband and a frequency division frequency, and (b) is a band relationship diagram showing a band of a frequency band and a cutoff frequency of a high pass filter.

Hereinafter, the action and effect according to the present invention will be described in detail based on the accompanying drawings.

Referring to FIGS. 2 and 3, a series of operation flows for the prescaler-type tuner according to the present invention are described. A high-frequency signal (950 MHz to 2050 MHz) from a satellite antenna (ANT) is used as a primary RF amplifier (1). Amplified, and the amplified high frequency signal is amplified to a predetermined level in the next secondary RF amplifier 3 through a variable filter 2 whose passband is varied according to channel selection.

On the other hand, when the oscillator 10 outputs oscillation frequencies (470 MHz to 1570 MHz) to the mixer 4 in response to channel selection, the mixer 4 outputs the output signal of the secondary RF amplifier 3 and the oscillator 10. Output IF by mixing output signals.

The output signal of the mixer 4 is first amplified by the primary RF amplifier 5, then the IF band is selected through the SAW filter 6, and subsequently amplified again by the secondary RF amplifier 7 The demodulation IC is then output.

On the other hand, the oscillation frequency oscillated by the oscillator 20 is divided into the frequency required by the PLL block in the frequency divider 20 through the high pass filter 15 and output to the PLL block.

The frequency divided by the divider 20 is provided to the PLL block as above, but not to the oscillator 10, which is divided into a high range between the oscillator 10 and the divider 20. This is because it is blocked by the pass filter 15.

By setting the low pass cutoff frequency fc of the high pass filter 15 higher than the highest dividing frequency fh, as shown in FIG. It is not provided and is blocked stably.

The present invention as described above has a special effect such as improving the sensitivity of the baseband by efficiently blocking the path of the frequency division frequency generated by dividing the oscillation frequency in the prescaler tuner to the mixer.

The above description is only a description of one embodiment of the present invention, the present invention is capable of various changes and modifications within the scope of the configuration.

Claims (2)

A primary RF amplifier 1 for amplifying a high frequency signal from an antenna ANT, a variable filter 2 for passing the amplified high frequency signal, and a second RF for amplifying an output signal of the variable filter 2 An amplifier 3, an oscillator 10 for outputting an oscillation frequency, a mixer 4 for outputting IF by mixing the second amplified signal and an oscillation frequency, and amplifying an output signal of the mixer 4 A primary RF amplifier 5, a SAW filter 6 for selecting the output signal of the primary RF amplifier 5, and a secondary RF for amplifying the output signal of the AW filter 6 to the demodulation IC In the prescaler-type tuner including an amplifier 7 and a divider 20 for dividing the oscillation frequency of the oscillator 10 to provide a PLL block, the oscillator frequency of the oscillator 10 passes and the divider ( The high frequency filter 15 is provided between the oscillator 10 and the frequency divider 20 so as to cut off the frequency of the frequency divider 20. A prescaler type tuner circuit in which the correction bit generation. 2. The bit generation of the prescaler tuner according to claim 1, wherein the low pass cutoff frequency (fc) of the high pass filter (15) is set higher than the highest dividing frequency (fh) output from the divider (20). Correction circuit.