KR200144593Y1 - Cable TV Tuning Equipment - Google Patents

Abstract

According to the present invention, if a user sets a desired channel with a dip switch among a plurality of RF signals in a cable TV tuner, the microprocessor can pass only the RF signal of the channel set by the user according to the control signal of the set channel. The passband of the filter can be changed so that the microprocessor can correct the propagation characteristics such as bandwidth, attenuation ratio, adjacent channel rejection ratio, and signal delay of the RF signal bandpass filter according to the state of the demodulated signal. This is to eliminate the interference caused by the adjacent channel of the signal.

Description

Cable TV Tuning Equipment

1 is a block diagram of an impulse-pay-per-view system of a conventional cable TV tuner.

2 is a schematic diagram of an impulse-pay-per-view system of a cable TV tuner according to the present invention.

* Explanation of symbols for main parts of the drawings

50: first band pass filter 51: amplifier

52: signal mixer 53: voltage controlled oscillator

54 second band pass filter 55 demodulator

56 microprocessor 57 PLL circuit

58: low pass filter 59: DIP switch

10: first band pass filter 11: amplifier

12: signal mixer 13: voltage controlled oscillator

14 second band pass filter 15 demodulation unit

16: microprocessor

The present invention relates to a cable TV tuner, and more specifically, to a signal of a channel to be selected by a user from a plurality of RF (RADIO FREQUENCY) signals, such as in a cable TV broadcasting system, an interference phenomenon caused by an adjacent channel signal occurs. The present invention relates to a cable TV tuner for controlling the characteristics of a band pass filter so as to be adjusted.

Conventionally, in receiving an RF signal, as shown in FIG. 1, the RF signal of an impulse pay per view system, which is a type of pay broadcasting, is input as a single carrier in the cable TV broadcasting system. Pass the RF signal using a fixed first bandpass filter capable of passing only a signal for a single carrier, amplify the RF signal in the amplifier 11, and then generate the oscillation frequency and signal mixer 12 produced by the oscillator 13. ) Produces an intermediate frequency (hereinafter referred to as IF) signal of the difference component. After inputting to the demodulation stage 15 through a second band pass filter that passes only the IF signal, which is the output signal of the signal mixer 12, and demodulates the final signal to the microprocessor 16, the microprocessor analyzes the demodulated signal. And execute according to the result.

When the RF signal of the impulse-pay-per-view system broadcasted through a plurality of RF carriers is input in the signal processing system as described above, a plurality of RF signals that do not pass the first bandpass filter of FIG. 1 cannot be received. A problem occurs. Although the weak carrier signal passed can be demodulated at the demodulation stage through the amplifier, the mixer, and the second band filter stage, the first bandpass filter also passes the weak signal of the adjacent channel. Since a new harmonic component is generated in the process of obtaining the difference component of the signal mixer after being amplified by the amplifier, demodulation of this signal results in new noise, so that the received information cannot be obtained correctly.

The present invention is to solve the above problems, and the object of the present invention is to control the transfer characteristics of the first bandpass filter by controlling in the microprocessor so that the user can pass only the RF carrier of the channel set by the dip (DIP) switch The present invention provides a cable TV tuner capable of receiving a desired RF signal among a plurality of RF signals without interference of adjacent channels.

A feature of the cable TV tuner according to the present invention for achieving the above object is that in an addressable cable TV converter for demodulating a signal by tuning an RF signal in a addressing scheme, according to the RF signal channel to be selected. A control signal by specifying a first bandpass filter for adjusting the transmission characteristics and passing only the tuned RF signal, an amplifier for amplifying the signal and inputting the signal to a signal mixer, and an address for a band of the RF signal to be selected by the user A DIP switch to make a circuit, a PLL control circuit controlling a voltage controlled oscillator to oscillate a constant frequency signal according to a control signal of a dip switch, and converting a signal generated from the PLL control circuit into a DC voltage to a voltage controlled oscillator. The low-pass filter and the low-pass filter output a fixed frequency signal according to the output DC voltage and send it to the signal mixer. A signal mixer that mixes the voltage-controlled oscillator, the output signal of the voltage-controlled oscillator, and the output signal of the amplifier to produce an IF (intermediate frequency) signal, and an agent that passes only the IF (intermediate frequency) signal output from the signal mixer. A two-band pass filter, a demodulator for demodulating the IF signal output from the second band-pass filter, and correcting the transmission characteristics of the first band pass filter according to the state of the demodulated signal and analyzing the demodulated signal as a result It consists of a microprocessor running according to

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a cable TV tuner of the impulse-pay-per-view system which is a pay-broadcast method according to the present invention will be described in detail.

As shown in FIG. 2, a first bandpass filter 50 for passing only the selected RF signal components, an amplifier 51 for amplifying the RF signal, and a dip (DIP) switch 59 for selecting the RF signal. ), A PLL control circuit 57 for controlling the frequency corresponding to the selected channel to oscillate in the voltage controlled oscillator, a low pass filter 58 for converting the PLL control signal into a DC voltage, and oscillating at a constant frequency according to the DC voltage. A voltage-controlled oscillator 53, a signal mixer 52 which mixes the signal oscillated in the voltage-controlled oscillator and the amplified RF signal to produce an IF signal having a differential component, and a second passband filter for passing only the IF signal ( 54, a demodulation section 55 for demodulating the IF signal, and a microprocessor 56 for analyzing and executing the demodulated signal.

In this configuration, as described in FIG. 2, when the RF signal including a plurality of carriers is input to the RF signal input terminal and the user sets a channel to be selected by the dip switch 59, the PLL control circuit At 57, a specific control signal is output to convert the RF carrier of the selected channel into an IF signal, and the low pass filter 58 is converted into a DC voltage and input to the voltage controlled oscillator 53. The voltage controlled oscillator 53 oscillates a specific frequency corresponding to the input DC voltage and sends it to the signal mixer 52. In addition, the voltage controlled oscillator 53 generates a constant frequency by feeding back the oscillation signal of the voltage controlled oscillator 53 to the PLL control circuit 57. The signal produced by the voltage controlled oscillator 53 produces an output signal of the amplifier 51 and an IF (intermediate frequency) signal of the difference component in the signal mixer 52. The IF signal demodulates the IF signal in the demodulation stage by passing only the IF signal component in the second band pass filter. The demodulated signal is analyzed by the microprocessor 56 to execute the result, and the transmission characteristics such as bandwidth, attenuation ratio, adjacent channel rejection ratio, and delay characteristics of the first bandpass filter are corrected according to the state of the demodulated signal. do.

As described above, according to the cable TV tuner according to the present invention, a user can select and receive a desired channel from among a plurality of RF signals, and in the case of a plurality of RF signals, the first band pass according to the state of the demodulated signal. By correcting the transmission characteristics of the filter, there is an effect that can eliminate the interference phenomenon that may be generated by the adjacent channel.

Claims (3)

An addressable cable TV converter for demodulating a signal by tuning a plurality of RF signals, comprising: a first bandpass filter for adjusting only transmission characteristics according to an RF signal channel to be selected and passing only the selected RF signal; An amplifier for amplifying the signal and inputting the signal to a signal mixer; A dip (DIP) switch for generating a control signal for a band of an RF signal to be selected by a user; A PLL control circuit for controlling the oscillator to oscillate a predetermined frequency signal according to a control signal of the dip switch; A low pass filter converting the signal generated in the PLL control circuit into a DC voltage and sending it to a voltage controlled oscillator; A voltage controlled oscillator oscillating a constant frequency signal according to the output DC voltage of the low pass filter and sending it to the signal mixer; A signal mixer for generating an IF (intermediate frequency) signal, which is a difference component mixing the output signal of the voltage controlled oscillator and the output signal of the amplifier; A second band pass filter for passing only an IF (intermediate frequency) signal output from the signal mixer; A demodulator for demodulating the IF signal output from the second band pass filter; A cable TV tuner comprising a microprocessor that corrects the transfer characteristics of the first bandpass filter in accordance with the demodulated signal, analyzes the demodulated signal, and executes the result according to the result. 2. The first bandpass filter of claim 1, wherein the first bandpass filter comprises a first band of the microprocessor according to a channel channel control signal set by a dip switch when tuning one channel among RF signals composed of a plurality of carriers. And a feedback control means for changing the transmission frequency of the first bandpass filter so as to pass only the RF signal of the set channel by changing the center frequency of the pass filter. The first bandpass filter of claim 1, wherein the first bandpass filter determines a state of an output signal demodulated by the tuned RF signal in order to remove interference caused by adjacent channel signals of a plurality of RF signals. A cable TV tuning device, comprising: feedback control means for correcting transmission characteristics such as bandwidth, attenuation ratio, adjacent channel rejection ratio, and signal delay of a filter.