KR19980064717U - Blueback function selection circuit - Google Patents

Abstract

The present invention uses a built-in tuner of VSIAL to automatically determine the automatic switching function to a blue back screen in case of a poor reception due to the input of a weak electric field signal when the television broadcasting channel is fully tuned. It is about.

Features of the present invention circuit include a tuner 11, a PIF 12 for converting a broadcast signal tuned by the tuner into an intermediate frequency signal, and a video IC 13 for processing an output of the PIF and outputting a video signal. And a microcomputer that determines whether the synchronization signal is included in the video signal of the video IC to automatically tune the broadcasting channel, and determines the selection of the blueback function according to the blueback selection signal input through the key input unit 16. 10, an OSD 14 which carries on-screen information determined by the microcomputer to the video output, and a modulator 15 which modulates the video output of the video IC.

Description

Blueback function selection circuit

The present invention uses a built-in tuner of VSIAL to automatically determine the automatic switching function to a blue back screen in case of a poor reception due to the input of a weak electric field signal when the television broadcasting channel is fully tuned. It is about.

In order to receive a broadcast program using VSI or to make a reservation recording using it, a tuner is installed inside VSI.

The tuner mounted on the VSI, like the tuner mounted on the television, selects the desired broadcasting channel from the TV broadcasting RF signal in the 54MHz to 890MHz range received through the antenna and transmits the broadcasting signal to a constant frequency (45.75MHz for video and audio). Is converted into an intermediate frequency signal of 41.25 MHz).

This tuner has a high frequency input circuit for selectively filtering only the RF signal of the television band among the airwaves, and a high frequency amplification circuit for amplifying the weak signal forces through the high frequency input circuit to a certain level.

A high frequency signal output from the high frequency amplification circuit is mixed with a local oscillation signal, and has a mixing circuit for converting a broadcast signal of a desired channel into an image intermediate frequency signal of 45.75 MHz.

And an intermediate frequency amplifying circuit for amplifying the image intermediate frequency signal output from the mixing circuit and a local oscillating circuit for supplying the oscillation signal to be mixed with the input high frequency signal to the mixing circuit.

Here, the magnitude of the oscillation frequency of the local oscillation circuit to be input for mixing the high frequency input signal into the mixing circuit is varied depending on the high frequency frequency band of the desired tuning channel. In other words, in the recently mainstream fully tuned tuner, the broadcasting channel input by the user is tuned by changing the oscillation frequency output from the local oscillation circuit.

Therefore, the local oscillator circuit is designed as a voltage controlled oscillator circuit capable of outputting various oscillation frequencies determined for each broadcast reception channel.

The local oscillation circuit of the voltage control method is controlled by a microcomputer that receives an external channel selection key input signal and generates a variable voltage corresponding to the frequency of the corresponding channel.

The microcomputer performs the tuner channel tuning by monitoring whether the intermediate frequency of the image is accurately converted while increasing or decreasing the control voltage applied to the voltage controlled oscillator in order to accurately tune the channel desired by the user during channel tuning. do.

The intermediate frequency signal for the television broadcast signal tuned by the tuner is processed by the intermediate frequency signal processing circuit inside VSI and output to the TV or monitor through the video and audio circuits, and the operation of V's Decal mechanism is performed. Is sometimes recorded on a videotape.

The tuner of the electronic tuning method is provided with automatic channel search and automatic memo function of the search channel.

The broadcast channel search in the tuner is determined by judging whether there is a synchronization signal level over all channels selected through the PLL (phase lock loop) method in accordance with the control of the microcomputer.

In a general tuning system, a television RF broadcast signal received through an antenna is connected to a tuner circuit that converts and outputs a broadcast signal of a channel selected through electronic tuning into an intermediate frequency signal. The tuner circuit includes a frequency tuning circuit, a mixing circuit for converting an RF signal of a channel tuned by the frequency tuning circuit into an IF signal, a local oscillating circuit for supplying an RF mixing voltage control oscillation signal to the mixing circuit; And a PLL circuit for generating a voltage control signal for channel tuning in the frequency tuning circuit while accurately adjusting the oscillation frequency of the local oscillation circuit for each corresponding channel.

The phase lock loop control signal from the microcomputer is applied to the PLL circuit, and the control signal output from the microcomputer is supplied to the PLL circuit side so that the oscillation frequency is sequentially changed when the auto tuning key is input. It is configured.

The image intermediate frequency signal output from the mixed circuit is connected to be applied to the PIF detection circuit, and the AFT control signal obtained here is connected to be provided to the automatic frequency fine tuning terminal of the microcomputer.

In addition, the synchronous detection output (C.SYNC) of the synchronous detection circuit for connecting the video detection signal output from the PIF detection circuit to the final video output through the video signal processing circuit and detecting the synchronous signal from the output of the video signal processing circuit. Is connected to be applied to the synchronous detection signal input terminal of the microcomputer.

In the channel automatic tuning process of the tuning circuit unit configured as described above, first, when an RF signal received through an antenna is input to a frequency tuning circuit of the tuner circuit, the RF signal is a control signal by a channel search command from the microcomputer in the frequency tuning circuit. As a result, the broadcasting band is determined by the PLL circuit which generates the voltage controlled oscillation signal and transferred to the mixed circuit.

The RF signal input to the mixed circuit is converted into an IF signal by a voltage controlled oscillation frequency signal generated in the local oscillation circuit according to the control supply voltage of the PLL circuit.

The IF signal output from the tuner circuit is detected through the PIF detection circuit and transmitted to the image signal processing circuit. The signal level detected by the PIF detection circuit is provided as an AFT signal to the frequency fine adjustment terminal of the microcomputer. .

In addition, the output of the synchronization detection circuit that receives the output of the video signal processing circuit and detects the presence of synchronization is also applied to the synchronization signal input terminal of the microcomputer.

Accordingly, the microcomputer determines the broadcast channel through the PLL circuit, determines whether there is a synchronization signal on the channel determined through the sync detection circuit, and selects a channel with broadcast, and according to the AFT control amount obtained from the PIF detection circuit. The tuned channel is exactly tuned.

In case of poor reception state due to the weak electric field strength of the selected channel during the channel selection, even though the reception state of the broadcast signal is poor, the microcomputer recognizes this as a noise channel and unconditionally displays a blue back screen. It can work differently than intended.

The purpose of the present invention is a blueback function that allows the automatic switching to the blueback screen in case of poor reception due to weak electric field signal input when the TV broadcast channel is fully tuned by using VSI's built-in tuner. To provide a selection circuit.

The circuit of the present invention has a tuner, a PIF for converting a broadcast signal tuned by the tuner into an intermediate frequency signal, a video IC for processing an output of the PIF and outputting a video signal, and a video signal of the video IC. A microcomputer determines whether a synchronization signal is included and automatically tunes a broadcast channel, and determines a selection of a blueback function according to a blueback selection signal input through a key input unit, and displays on-screen information determined by the microcomputer. A blue back function selection circuit including an OSD mounted on an output and a modulator for modulating the video output of the video IC.

1 is a circuit diagram of the present invention.

2 is a flowchart for explaining the operation of the present invention.

* Description of the symbols for the main parts of the drawings *

10: Micom 11: Tuner

12: PIF 13: Video IC

14: OSD IC 15: Modulator

16: key input unit

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

1 is a block diagram of a circuit of the present invention. As referred to herein, the present blueback function selection circuit includes a tuner 11 for receiving an RF input broadcast signal, a PIF 12 for converting a broadcast signal tuned by the tuner into an intermediate frequency signal, and the PIF. The video IC 13 outputs a video signal by processing the output of the video signal, and determines whether the video signal of the video IC includes a synchronization signal to automatically tune the broadcast channel and is input through the key input unit 16. A microcomputer 10 for determining the selection of the blueback function according to the blueback selection signal, an OSD 14 for loading on-screen information determined by the microcomputer to the video output, and a modulator for modulating the video output of the video IC. And (15).

If described in detail with reference to Figure 2 the operation process of the subject innovation device configured as described above.

First, the RF broadcast signal input to the tuner 11 receives the PLL control from the microcomputer 10 in this tuner and tunes the broadcast signal. The tuned broadcast signal is converted into an intermediate frequency signal and input to the PIF 12. Will be.

This intermediate frequency signal is processed by the PIF 12 to be provided to the video IC 13 as an image signal.

At this time, the microcomputer 10 determines whether the synchronization signal is included in the video signal output of the video IC 13 to control the automatic channel selection of the broadcast channel.

If the weak reception condition of the broadcast field, the microcomputer determines this as a noise inflow channel due to the uncertainty of the synchronization detection, and sends a control output command of the blue back screen through the OSD 14 to control the blue back screen to appear. Even if it is necessary to force reception, the user switches the automatically switched blueback screen to the broadcast reception condition by instructing the microcomputer to cancel the selection of the blueback function through the key input unit 16.

As a result, the reception state is poor, but if the user desires, the specific channel can be received by suppressing the switch to the blue back screen.

As described above, when the channel auto-tuning function is executed using the tuner of VSI, the unique effect of enabling arbitrary reception according to the user's selection is produced even if the broadcasting reception state is unstable.

Claims (1)

A tuner 11 for receiving an RF broadcast signal, a PIF 12 for converting a broadcast signal tuned by the microcomputer's PLL control into an intermediate frequency signal, and outputting a video signal by processing the output of the PIF The video IC 13 determines whether the synchronization signal is included in the video signal of the video IC and automatically tunes the broadcast channel. The blue back function according to the blue back selection signal input through the key input unit 16 is applied. A microcomputer 10 for determining a selection, an OSD 14 for loading on-screen information determined by the microcomputer into a video output signal, and a modulator 15 for modulating the video output of the video IC. Blueback function selection circuit.