KR200181376Y1 - Device for preventing to occuring sound mute by an influxed noise in ic line - Google Patents

Abstract

Power noise and electrostatic noise flow into the I ² C line (BUS), which delivers video and audio signals from the TV, and is mixed with the audio signal to prevent muting phenomenon that the audio signal output through the speaker is temporarily blocked. An apparatus is disclosed. When the power of the television is switched on, the microcomputer controls the main tuner circuit, the main video signal demodulator, and the audio signal demodulator. In order to output audio through the speaker, the microcomputer applies an operation signal and a data clock signal to the audio signal demodulator, and the audio signal demodulator operates according to a signal applied from the microcomputer to detect the audio signal from the main video signal demodulator. Is demodulated and applied to the audio signal amplifier. The voice signal output from the voice signal demodulator is detected by the voice signal detector and applied to the microcomputer, and the microcomputer resets the operation signal and the data clock signal when the detection signal for detecting the voice signal from the voice signal detector is not applied. It is repeatedly applied to the voice signal demodulation section through the circuit section. At this time, since the data clock signal repeatedly applied by the microcomputer is applied to the voice signal demodulator faster than the period during the normal operation, the voice signal demodulator can execute the normal operation quickly and output the voice signal to the voice signal amplifier.

Description

Device that prevents voice mute caused by noise introduced into I²C line

The present invention relates to a television, and more specifically, a power signal and an electrostatic noise are introduced into an I ² C line (BUS) that transmits a video signal and an audio signal in a television, and the audio signal is output through a speaker by being mixed with the audio signal. The present invention relates to a device capable of preventing a mute phenomenon from being temporarily blocked.

In general, a television receives a broadcast signal transmitted from each broadcasting station through an antenna to display a broadcast corresponding to a screen. The video of an object photographed by a camera at the broadcasting station is converted into a video signal, and the video signal is a constant high frequency signal. It transmits through a transmit antenna. The high frequency signal transmitted through the transmitting antenna is received through a receiving antenna installed in each home and applied to the television. The high frequency signal received by the television is converted to a predetermined intermediate frequency through a tuner circuit unit, and then amplified into a signal having a constant size in the intermediate frequency amplification unit, and the image signal and audio signal detection unit detects the video signal and the audio signal, respectively. After the step, the video signal is applied to the screen of the receiving tube through the demodulation circuit and displayed, and the audio signal is output through the speaker. In this case, when the user selects a broadcast channel to receive through a television using a channel conversion switch, a program of a corresponding broadcasting station is displayed on the screen.

When the multi-screen function is adopted in the television having the above function, the main screen and a plurality of sub-screens (PIP) are displayed on the screen of the television. A separate video signal processing system is installed for the main screen and the sub screen, respectively. That is, a main tuner circuit portion for receiving a main video signal displayed on the main screen is provided, and a sub tuner circuit portion for receiving sub video signals displayed on the sub screen is provided, and the main tuner circuit portion and the plurality of sub tuner circuit portions are broadcasted. It is connected to one antenna for receiving a high frequency signal which is a video signal and simultaneously receives all high frequency signals. Therefore, in order to display the sub-screens overlapped with a part of the main screen, a tuner circuit part for a separate sub-screen is installed so that the main screen is not output in the PIP area where the sub-screen is displayed, and the sub-screen is outputted. do.

1 is a block diagram schematically illustrating an operation of a general television.

Referring to FIG. 1, a main tuner circuit unit which selects a high frequency signal corresponding to a channel to be displayed on a main screen from among high frequency signals received through an antenna 24, converts it into an intermediate frequency, and then amplifies and generates a composite video signal. 10; A main video signal processor (12) for controlling the composite video signal applied from the main tuner circuit unit (10) to be displayed on the water pipe (22); A sub-tuner circuit unit 14 for selecting a high-frequency signal corresponding to a channel to be displayed on a sub-screen among the high-frequency signals received through the antenna 24, amplifying it to an intermediate frequency, and generating a composite video signal through a series of processes; A PIP control unit 18 connected to the sub-tuner circuit unit 14 for selecting and generating a composite video signal applied from the sub-tuner circuit unit 14 by a PIP function; A switching unit 16 connected between the main video signal processing unit 12 and the PIP control unit 18 and controlling a transmission path of signals transmitted between the main video signal processing unit 12 and the PIP control unit 18; And a signal applied from an external button unit (not shown) connected to the main tuner circuit unit 10, the sub tuner circuit unit 14, the main video signal processing unit 12, the PIP control unit 18, and the switching unit 16. According to the microcomputer 20 to control each operation.

In the television having the PIP function, the microcomputer 20 recognizes this when the viewer selects a multi screen using the screen selection button of the button while watching a broadcast program using the television having the PIP function. The multi-screen signal is popular, the main video signal processor 12 applies an OSD blanking signal corresponding to the number of multi-screens, and the main video signal applied through the main tuner circuit 10 to the switching unit 16. Is blocked so that only the signal applied from the PIP control unit 18 is applied to the main video signal processing unit 12. The main video signal processor 12 displays an OSD screen on the water pipe 22 by an OSD blanking signal applied from the microcomputer 20, and the switching unit 16 is a multi-screen applied from the PIP controller 18. Since all video signals are applied to the main video signal processor 12, the main video signal processor 12 blocks the main video signal applied from the main tuner circuit 10 and displays the video signal from the PIP controller 18 on the OSD screen. Display on. Therefore, the full screen (CRT) 22 displays the multi-screen selected by the viewer.

In the multi-screen television having the function described above, the microcomputer 20 controls the main tuner circuit unit 10, the sub tuner circuit unit 14, the audio signal demodulator 26, and the main video signal demodulator 12. The microcomputer 20, the main tuner circuit unit 10, the sub tuner circuit unit 14, the audio signal demodulator 26, the main video signal demodulator 12, and the like use I ² C lines to transmit and receive signals. In this case, when static electricity and noise flow into the I ² C line, the microcomputer 20, the main tuner circuit unit 10, the sub tuner circuit unit 14, the audio signal demodulator 26, and the main video signal demodulator 12 Since a voice signal is mixed by signals transmitted and received to each other and the voice signal demodulator 26 is not detected, a mute phenomenon in which the voice signal is not output through the speaker 28 is generated.

The present invention was devised to solve the above problems, and an object of the present invention is to introduce a speaker by mixing power signals and electrostatic noise into the I ² C line, which transmits a video signal and an audio signal from a television. The present invention provides a device for preventing a voice mute from being generated by noise introduced into an I ² C line that detects a voice signal and outputs the voice signal.

1 is a block diagram schematically illustrating an operation of a general television.

2 is a block diagram schematically showing an apparatus for preventing a voice mute according to the present invention.

3 is a flowchart illustrating an operation of preventing a voice mute according to the present invention.

<Explanation of symbols for main parts of drawing>

50: main tuner circuit 52: main video signal demodulator

54: voice signal amplifier 56: voice signal demodulator

58: voice signal detection unit 60: microcomputer

62: speaker 64: antenna

66: water pipe drive 70: reset circuit

C1, C2: capacitor R1, R2: resistor

ZD: Zener Diode

In order to achieve the above object, the present invention includes a main tuner circuit unit for converting and amplifying a video signal of a selected channel to an intermediate frequency which is easy to amplify for display on a main screen among high frequency signals received through an antenna; A main video signal demodulator for demodulating the video signal of the selected channel through the main tuner circuit and outputting the video signal to the water pipe drive; An audio signal demodulator for detecting and demodulating the audio signal from the main video signal demodulator and applying the audio signal to the speaker through the audio signal amplifier; A voice signal detector for detecting whether a voice signal is applied to the voice signal amplifier from the voice signal demodulator; A microcomputer connected to the voice signal detecting unit and applying a data clock signal to the voice signal demodulating unit according to a signal applied from the voice signal detecting unit; The voice mute is prevented from being generated by noise introduced into the I ² C line, which is connected to the microcomputer and comprises a reset circuit unit configured to apply a reset signal to the audio signal demodulator according to a data clock signal applied from the microcomputer. It provides a device to.

According to the present invention, when the power source of the television is switched on, the microcomputer controls the main tuner circuit unit, the main video signal demodulator, and the audio signal demodulator. In order to output audio through the speaker, the microcomputer applies an operation signal and a data clock signal to the audio signal demodulator, and the audio signal demodulator operates according to a signal applied from the microcomputer to detect the audio signal from the main video signal demodulator. Is demodulated and applied to the audio signal amplifier. The voice signal output from the voice signal demodulator is detected by the voice signal detector and applied to the microcomputer, and the microcomputer resets the operation signal and the data clock signal when the detection signal for detecting the voice signal from the voice signal detector is not applied. It is repeatedly applied to the voice signal demodulation section through the circuit section. At this time, since the data clock signal repeatedly applied by the microcomputer is applied to the voice signal demodulator faster than the period during the normal operation, the voice signal demodulator can execute the normal operation quickly and output the voice signal to the voice signal amplifier.

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

2 is a block diagram schematically showing an apparatus for preventing a voice mute according to the present invention.

Referring to FIG. 2, a device for preventing a voice mute from being generated, the high frequency signal received through the antenna 64 is easy to amplify the high frequency signal of the selected channel displayed on the main screen by the main tuner circuit unit 50. It will convert and amplify to the intermediate frequency. The video signal of the channel selected by the main tuner circuit unit 50 is applied to the main video signal demodulator 52 and demodulated, and then outputs the video signal to a water pipe drive (not shown). The audio signal demodulator 56 connected to the main video signal demodulator 52 detects and demodulates the audio signal from the main video signal demodulator 52 and applies the audio signal to the speaker 62 through the audio signal amplifier 54. . An audio signal detector 58 is connected to an output terminal from which the voice signal is output from the voice signal demodulator 56 to the voice signal amplifier 54, and the voice signal detector 58 is connected to the voice signal demodulator 56. It detects whether a voice signal is applied. The microcomputer 60 is connected to the voice signal detecting unit 58, and the microcomputer 60 applies a data clock signal to the voice signal demodulating unit 56 according to a signal applied from the voice signal detecting unit 58. A reset circuit unit 70 is connected between the microcomputer 60 and the voice signal demodulator 56, and the reset circuit unit 70 generates a reset signal according to a data clock signal applied from the microcomputer 60. Applied to the signal demodulator 56;

In addition, the reset circuit unit 70 includes capacitors C1 and C2, zener diodes ZD, and resistors R1 and R2, and the capacitors C1 and zener diodes ZD are damaged due to overvoltage. The circuit protection function to prevent the, and the capacitor (C2) and the resistor (R2) performs a reset function by the charge and discharge. A bias voltage 5V is applied through the resistor R1.

According to the present invention, when the viewer switches on the television, the high frequency signal, which is a broadcast signal received through the antenna 64, is selected by the main tuner circuit unit 50, is converted into an intermediate frequency, and then amplified to be the main video signal demodulation unit 52. Is applied. The video signal applied to the main video signal demodulator 52 is demodulated and displayed on the screen through the water pipe drive, and the audio signal demodulator 56 connected to the main video signal demodulator 52 is the main video signal demodulator 52. Audio signal is detected and demodulated. The voice signal demodulator 56 operates by an operation signal High applied from the microcomputer 60. In addition, the microcomputer 60 applies an operation signal to the voice signal demodulator 56 through the reset circuit unit 70 and simultaneously applies a data clock signal to the voice signal demodulator 56. The data clock signal generated from the microcomputer 60 is usually generated in a period of 300 ms. The data clock signal is a voice signal demodulator 56 while charging and discharging the capacitor C2 and the resistor R2 of the reset circuit unit 70. Is applied. The voice signal demodulator 56 demodulates a voice signal by an operation signal and a data clock signal applied from the microcomputer 60, and applies the voice signal to the voice signal amplifier 54, and the voice signal amplifier 54 performs voice signal demodulation. The voice signal applied from the grandfather 56 is amplified and output through the speaker 62. The voice signal detector 58 is connected between the voice signal demodulator 56 and the voice signal amplifier 54 to detect a voice signal applied to the voice signal amplifier 54 from the voice signal demodulator 56. do. Since the audio signal demodulator 56, the main video signal demodulator 52, and the microcomputer 60 are connected to each other by an I ² C line which is a bus line, static electricity and various noises generated by a power supply unit (not shown) ( When noise is introduced into the I ² C line, it is mixed with the voice signal, so that normal voice signal is not transmitted. Accordingly, the voice signal detector 58 detects a state in which the voice signal is output from the voice signal demodulator 56 and applies it to the microcomputer 60. That is, the voice signal detector 58 applies a high signal to the microcomputer 60 when a voice signal is detected, and applies a low signal to the microcomputer 60 if a voice signal is not detected.

Therefore, when the high signal is applied from the voice signal detecting unit 58, the microcomputer 60 determines that the voice signal is normally output to the voice signal demodulating unit 56 through the reset circuit unit 70 at a period of 300 ms. The reset signal is applied to allow the voice signal demodulator 56 to operate normally. On the contrary, when the low signal is applied from the voice signal detecting unit 58, the microcomputer 60 mixes the noise with the voice signal and does not output the voice signal from the voice signal demodulator 56. The reset signal is applied to the voice signal demodulator 56 through 70. When the data clock signal is applied to the voice signal demodulator 56 in a period of 300 ms to 200 ms, the voice signal is quickly demodulated and output, thereby preventing the voice signal from being muted momentarily. When the output signal of the data clock signal output from the microcomputer 60 is shortened to prevent instantaneous muting from occurring, and the audio signal is normally detected from the audio signal demodulator 56, the audio signal detecting unit 58 may be a microcomputer. Since the high signal is applied to the 60, the microcomputer 60 normally applies the data clock to the voice signal demodulator 56 at a period of 300 ms.

3 is a flowchart illustrating an operation of preventing a voice mute according to the present invention. Referring to FIG. 3 in more detail, first, the microcomputer 60 determines whether the main power source (not shown) is switched on (step: S100). If the main power is not switched on in step S100, the step S100 is repeated. If the main power is switched on, the operation signal is output (step S200). After step S200, a data clock signal is generated at a period of 300 ms (step: S300). After step S300, it is determined whether a voice signal is detected (step S400). When the voice signal is detected in the step S300, the step S300 is repeatedly executed. If the voice signal is not detected, the data clock signal is output at a period of 200 ms (step S500). After the step S500, it is determined whether the voice signal is detected (step S600). If the voice signal is not detected, the step S500 is repeated. If the voice signal is detected, the step S300 is repeated.

As can be seen from the above description, when the power source of the television is switched on, the microcomputer controls the main tuner circuit unit, the main video signal demodulator, and the audio signal demodulator. In order to output audio through the speaker, the microcomputer applies an operation signal and a data clock signal to the audio signal demodulator, and the audio signal demodulator operates according to a signal applied from the microcomputer to detect the audio signal from the main video signal demodulator. Is demodulated and applied to the audio signal amplifier. The voice signal output from the voice signal demodulator is detected by the voice signal detector and applied to the microcomputer, and the microcomputer resets the operation signal and the data clock signal when the detection signal for detecting the voice signal from the voice signal detector is not applied. It is repeatedly applied to the voice signal demodulation section through the circuit section. At this time, since the data clock signal repeatedly applied by the microcomputer is applied to the voice signal demodulator faster than the period during the normal operation, the voice signal demodulator can execute the normal operation quickly and output the voice signal to the voice signal amplifier.

Claims (4)

A main tuner circuit unit 50 for converting and amplifying a video signal of a selected channel into an intermediate frequency which is easy to amplify for display on a main screen among high frequency signals received through an antenna 64; A main video signal demodulator 52 for demodulating the video signal of the selected channel through the main tuner circuit unit 50 and then outputting the video signal to the water pipe drive 66; An audio signal demodulator 56 which detects and demodulates an audio signal from the main video signal demodulator 52 and applies it to the speaker 62 through the audio signal amplifier 54; A voice signal detector 58 for detecting whether a voice signal is applied from the voice signal demodulator 56 to the voice signal amplifier; A microcomputer 60 connected to the voice signal detecting unit 58 and applying a data clock signal to the voice signal demodulating unit 56 at regular intervals according to a signal applied from the voice signal detecting unit 58; And Connected to the microcomputer 60, the reset circuit unit 70 for applying a reset signal to the voice signal demodulator 56 according to a data clock signal applied from the microcomputer 60 to the noise introduced into the I ² C line. A device which prevents voice mute from being generated. The method of claim 1, wherein the reset circuit 70 is composed of a capacitor (C1, C2), zener diode (ZD) and resistors (R1, R2), the capacitor (C1) and the zener diode (ZD) is over-voltage a protection circuit to prevent breakage of of the circuit, and a capacitor (C2) and a resistor (R2) is by the noise input to the I ² C line, characterized in that to perform the function of generating the reset signal by the charging and discharging Device that prevents voice mute from occurring. The I ² C line of claim 1, wherein the microcomputer 60 outputs a data clock signal at a faster cycle when a low signal is applied than when a high signal is applied from the voice signal detecting unit 58. Device to prevent the voice mute caused by the introduced noise. The method of claim 1 or 3, wherein the microcomputer 60 outputs a data clock signal at a period of 300 ms when a high signal is applied from the voice signal detector 58, and a low signal from the voice signal detector 58 is applied. Apparatus for preventing a voice mute caused by the noise introduced into the I ² C line, characterized in that for outputting a data clock signal in a period of 200ms when applied.