KR100215655B1 - Noise reduction method while selecting channel - Google Patents

Abstract

The present invention provides a video device for tuning a broadcast signal,

By switching the weak signal amplifier on / off in synchronization with the vertical synchronization signal during channel switching, it eliminates the horizontal noise generated during channel switching.

The present invention in switching the operation of the weak signal amplifier in the microcomputer at the channel switching,

Check the vertical synchronization signal at the channel switching pulse input of the transmitter to turn off the amplifier during the vertical synchronization period before performing the AFT.

This is achieved by checking the vertical synchronization signal at the time of pulse input by AGC voltage after channel switching to turn on the amplifier during the vertical synchronization period of the vertical synchronization signal.

Description

Noise reduction method while selecting channel}

The present invention provides a video device for tuning a broadcast signal.

When the channel is switched, the weak signal amplifier operates in synchronization with the vertical synchronization signal to eliminate the horizontal noise generated when the channel is switched.

The present invention is to eliminate the horizontal noise generated when switching the channel in the video playback apparatus that receives and tunes the broadcast channel.

The broadcast signal receiving apparatus includes an amplifier 10 for amplifying a weak field signal received by an antenna as shown in FIG. 1, a tuner 20 for selecting a desired channel among the weak field signals amplified by the amplifier 10, and

An IF IC 30 for processing the channel IF signal tuned by the tuner 20 and outputting the composite video signal;

The microcomputer 50 checks the output of the transistor 40 switched by the AGC voltage of the tuner 20 and outputs the amplifier 10 switching signal.

Conventionally, when the channel switching pulse of the transmitter for channel switching is applied as shown in (a) of FIG. 2, the microcomputer 50 recognizes the channel switching pulse and outputs the amplifier 10 off signal as shown in (d) of FIG. 2. If the pulse input applied from the transistor 40 is checked by the AGC voltage of the IF IC 30 when the video muting period of the AFT period as shown in FIG. As shown in FIG. 9, the amplifier 10 outputs an on-signal.

Here, the driving of the amplifier 10 is selected by the on signal of the amplifier 10 shown in (d) of FIG. 2 and the amplifier 10 is turned off when the channel is switched by the on signal of the amplifier 10. Since the operation of turning off and turning on (10) is turned on by the channel switching pulse input generated at the channel switching regardless of the synchronization signal of the video signal displayed on the screen and is turned off at the AGC voltage check of the IF IC 30. It was inevitable to generate horizontal noise during the amplifier 10 off operation and during the amplifier 10 on operation.

The present invention is to eliminate the horizontal noise generated on the screen when switching the channel by operating the timing of turning off and on the amplifier in the vertical synchronization period of the vertical synchronization signal during channel switching.

The present invention in switching the operation of the weak signal amplifier in the microcomputer during channel switching,

Check the vertical synchronization signal at the channel switching pulse input of the transmitter to turn off the amplifier during the vertical synchronization period.

It checks the vertical synchronous signal when the pulse is input by AGC voltage after channel switching to turn on the amplifier during the vertical synchronization period. This eliminates noise generation during channel switching.

1 is a circuit diagram of one embodiment of the present invention.

2 is a waveform diagram when switching channels of the present invention

[Explanation of symbols on the main parts of the drawings]

10: amplifier 20: tuner 30: IF IC

40: transistor 50: micom

1 is a circuit diagram of one embodiment of the present invention.

The broadcast signal received by the antenna is applied to the weak signal amplifier 10 to be amplified, and the amplifier 10 amplifies the weak field signal so that the operation of the amplifier 10 should be turned off during channel switching.

The broadcast signal amplified by the amplifier 10 is applied to the tuner 20 to recognize the user's selection and tune the broadcast channel selected by the user by the tuning data applied by the microcomputer 50.

The IF signal of the broadcast channel tuned in the tuner 20 is applied to the IF IC 30 and signal processed, and then applied to the signal processing block as a composite video signal.

At this time, the automatic gain control (AGC) voltage generated by the IF IC 30 is fed back to the tuner 20 and used to tune the broadcast channel, while controlling the driving of the transistor 40 to recognize the channel switching in the microcomputer 50. Use a pulse.

The pulse applied to the microcomputer 50 in the transistor 40 is applied to the pulse by the AGC voltage 4-5 times during the stabilization period of 200ms after the channel switching.

The microcomputer 50 receives the vertical and horizontal synchronization signals separated from the composite video signal, checks the channel switching pulse input from the transmitter and the pulse input by the AGC voltage after switching the channel, A control signal for turning off the operation is applied to the amplifier 10.

The configuration and operation described above are the same as in the prior art, and description of the description thereof is omitted.

However, in the conventional channel switching, the amplifier 10 is turned off regardless of the vertical synchronization period at the input of the channel switching pulse of the transmitter shown in (a) of FIG. 2 and after the channel switching, the AGC voltage shown in (c) of FIG. By turning on the amplifier 10 irrespective of the vertical synchronization period during pulse input, the operation of the amplifier 10 is stopped during channel switching.

As described above, the horizontal noise appears on the screen during the on / off operation of the amplifier 10 which is turned on / off during channel switching because the amplifier 10 is turned on / off regardless of the vertical synchronization signal.

Therefore, in the present invention, by turning on / off the amplifier 10 in synchronization with the vertical synchronization signal period, the horizontal noise generated during channel switching is eliminated.

To this end, the microcomputer 50 outputs the on / off control signal of the amplifier 10 in synchronization with the vertical synchronization signal. The vertical synchronization signal is used by separating the synchronization signal included in the composite synchronization signal.

In the present invention, the microcomputer 50 first checks the vertical synchronization signal as shown in FIG. 2 (a) when the channel switching pulse of the transmitter as shown in FIG. During the synchronization period, the amplifier 10 is turned off by outputting the amplifier 10 off signal as shown in FIG.

As such, when the amplifier 10 is turned off during the vertical synchronization period by outputting the amplifier 10 off signal in accordance with the vertical synchronization signal period as shown in FIG. 2 (bar), the horizontal noise does not appear on the screen.

In addition, when the microcom 50 has a stabilization time of about 200 ms after the video mute time of the AFT period as shown in FIG. Check the vertical sync signal after inputting pulse by AGC voltage (refer to (C) of Fig. 2) and check the vertical sync signal. To print

When the amplifier 10 is turned on in synchronization with the vertical synchronization signal period as shown in FIG. 2 (bar), horizontal noise does not appear on the screen.

Therefore, it is possible to eliminate the horizontal noise appearing on the screen when the amplifier 10 is turned on / off during channel switching.

According to the present invention, an amplifier for amplifying a weak electric field signal is turned on / off in synchronization with a vertical synchronization signal period during channel switching so that horizontal noise does not appear on a screen during channel switching.

Claims (1)

In switching the operation of the weak signal amplifier in the microcomputer at the channel switching, Check the vertical synchronization signal at the channel switching pulse input of the transmitter to turn off the vertical synchronization amplifier during the vertical synchronization period. A method for removing noise during channel switching, characterized in that the amplifier is turned on during the vertical synchronization period by checking the vertical synchronization signal when a pulse is input by the AGC voltage after the channel switching.