KR960003879B1 - Teletext signal detecting and control circuit - Google Patents

Abstract

The circuit is for amplifying a teletext signal using a teletext signal processor so that fine teletext is displayed on a frame. The circuit includes a video signal processor(90) for amplifying and filtering a video signal in a radio frequency signal, an A/D converter(60) for converting output signal of the video signal processor into digital signal, a microcomputer(50) for selecting output level of a teletext signal according to the level of a teletext signal, a switch driver(110) for generating switching control signal according output signal of the microcomputer(50) and a teletext signal processor(100) for processing teletext signal according to switching control signal generated by the switch driver(110).

Description

Teletext signal detection and control circuit

1 is a diagram of a teletext character signal detection and control circuit of the present invention.

2 is a flow chart illustrating a process in which a microcomputer, which is part of the present invention, controls a teletext text signal.

* Explanation of symbols for main parts of the drawings

10: tuner 20,21: preamp stage

30,31: Saw filter 40,41: Middle frequency stage

45,47: Video signal detection 50: Microcomputer

60: A / D converter 90: Video signal output unit

100: teletext character signal control unit

110: switch drive unit

FET1-FET3: Switching FET, D1-D2: Diode

Q1: transistors R1-R2: resistors.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a TELETEXT character signal detection circuit, and more particularly, to input of a radio frequency signal including a TELETEXT character signal, at the reception of a television, an audio signal, a video signal and a tele signal. Decoding parts of the text character signal are separately configured, the level of the teletext character signal is detected and compared with the level of the video signal, and then the level is controlled by driving an output unit for the teletext character signal. The present invention relates to a teletext character signal detection and control circuit capable of outputting an accurate teletext character by performing a comparison detection for a level and then driving a teletext character signal exclusive output unit.

In general, in a text signal mode in which teletext characters are input, the receiver of the television sets a preamplifier stage 20, a saw filter 30, and an intermediate frequency stage 40 in order to decode audio and video signals. ) And sequentially outputs the audio signal and the video signal carried on the broadcast signal. Therefore, when the teletext character is included in the broadcast signal and inputted, in the conventional CRT, only the gain of the above audio signal and the video signal is amplified to amplify a frequency band properly compensated to detect the teletext character signal. In this case, an error occurs in the teletext character because the frequency of the teletext character signal cannot be decoded accurately, and thus there is a problem in that it is not possible to provide a quality service to the viewer who views it.

The present invention has been made to solve the above problems, and when the gain of the intermediate frequency video signal is compensated by biasing only the audio signal and the color signal side, the weakness of the teletext character signal level is detected in comparison with the video signal level. Then, the field effect transistor FET1 is operated to amplify the intermediate frequency of the video signal from the tuner to a certain level through the teletext text signal exclusive control unit so that the potential of the text text signal becomes 70% of the video signal potential. It is an object of the present invention to provide a teletext character signal detection and control circuit for filtering and detecting the teletext character signal and applying the same to a text terminal so that an accurate teletext character can be viewed.

The present invention for achieving the above object is a video signal output unit for receiving a broadcast signal from a broadcasting station to amplify, detect and output the video signal, converting the analog video signal output from the video signal output unit to a digital video signal An A / D converter determines whether the above digital video signal is in text mode, and in the text mode, determines whether the level of the teletext character signal included in the video signal is less than or equal to 60% of the level of the video signal. If less than%, the microcomputer outputs a high level signal, the switch driver for outputting the switching control signal in accordance with the output signal of the microcomputer, the teletext character signal input in accordance with the switching control signal that is the output signal of the switch driver Teletext character signal exclusive control unit that amplifies bay to a certain level separately The generated features.

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

First, the teletext signal detection and control circuit of the present invention receives a broadcast signal from a broadcasting station and outputs from the video signal output unit 90 and the video signal output unit 90 that amplifies, detects and outputs a video signal. An A / D converter 60 for converting an analog video signal into a digital video signal, and determining whether the digital video signal is in a text mode, and in the text mode, the level of the teletext text signal included in the video signal It determines whether it is 60% or less of the signal level, and if it is 60% or less, the switch driver that outputs a switching control signal according to the output signal of the microcomputer 50 and the microcomputer 50 that outputs a high level signal. 110, amplifying only the teletext character signal inputted according to the switching control signal which is the output signal of the above switch driver 110 to a predetermined level to filter and detect the output. It consists of a teletext character signal dedicated control section 100.

In more detail, the video signal output unit 90 includes a tuner 10 for tuning a broadcast signal transmitted from a broadcasting station to a signal of a constant frequency, and a preamplifier stage for amplifying an input intermediate frequency video signal by 20 dB or more ( 20), the filter is filtered from the saw filter 30, the saw filter 30 to filter the video and audio portions of the video signal of the intermediate frequency amplified and output from the pre-amp stage 20, to reduce the interference An intermediate frequency stage 40 for amplifying the output image signal again, and an image signal detector 45 for detecting and outputting an image signal which is an output signal of the intermediate frequency stage 40 above.

In addition, the above-mentioned teletext character signal dedicated control unit 100 is a pre-amp stage 21 for amplifying the video signal of the intermediate frequency input 20dB or more, the image of the intermediate frequency amplified and output from the pre-amp stage 21 Saw filter 31 for filtering the video and audio parts of the signal to reduce the interference, the intermediate frequency stage 41 for amplifying the video signal output from the filter after the saw filter 31, the intermediate frequency stage above And a video signal detection stage 47 for detecting and outputting a video signal as an output signal of (41).

Hereinafter, the operation and effect of the present invention will be described in detail with reference to FIGS. 1 and 2 attached to the present invention configured as described above.

When the power supply of the television set is "on", since no voltage is output from the output terminal SO of the microcomputer 50, the transistor Q1 of the switch driver 110 operates "off" and the node is disconnected. The potential of B is also maintained at the potential. Accordingly, the switching FETs FET1 and FET2 are switched to the "off" state.

Therefore, the potential of the defect C is maintained at a low potential while the base of the transistor Q1 is kept at a low potential, and a constant voltage is applied from the standby power source B + through the bias resistor R1 to maintain a high potential, and thus the switching FET (FET3). When the drain and source terminals of the transistor are turned on, the broadcast signal collected by the aerial is tuned and output through the tuner 10 at a constant frequency (intermediate frequency of the video signal) (different by region, but in the case of Korea, 45.75MHz) Frequency), the signal output from the tuner 10 passes through a preamplifier stage 920 for amplifying an image signal of an intermediate frequency input of 20 dB or more to prevent loss of the saw filter 30 or other components. Amplified by a constant level signal. The amplified broadcast signal is filtered by the saw filter 30 that filters the broadcast signal in order to reduce the interference between the video signal and the audio signal of the broadcast signal of the intermediate frequency input, and then the intermediate frequency stage 40 and the video signal. After the detection stage 45 is converted into an image composite signal of the intermediate frequency and detected and output, the image composite signal of the intermediate frequency is the main processing stage (MAIN) for outputting the video signal, and detects and outputs only the teletext character signal Applied to TEXT.

The intermediate frequency video signal and the teletext text signal, which are analog signals output to the main processing terminal MAIN and the text terminal TEXT, are digitally passed through the installed A / D converter 60 to facilitate digital processing. It is converted into a signal and then applied to the microcomputer 50. At this time, the microcomputer 50 detects the potential of the teletext character signal and the image signal by the logic and arithmetic processing unit, which are inherent functions of the microcomputer 50, and then the control logic of the microcomputer 50. By comparing the potential of the above two signals by driving the and, according to the result of the comparison, the control unit 100 and the switch driver 110 dedicated to the teletext character signal.

Hereinafter, the control logic of the microcomputer 50 will be described in detail with reference to a flowchart showing a control process of the teletext character signal of FIG. 2.

In the process of inputting the composite image signal to the A / D converter 60 and making the digital signal, the encoded teletext character signal superimposed among the image composite signals is recognized, and the teletext character signal detection unit of the microcomputer 50 is recognized. It is determined whether the current input data is in the teletext character signal mode (A11), and when it is not in the teletext character signal mode, a low level signal is output through the output terminal SO of the microcomputer 50 (A14). ). When the current input data is confirmed in the teletext character signal mode, the potential of the teletext character signal and the potential of the video signal are detected by the detection unit of the microcomputer 50, and built in the microcomputer 50. The potential comparison unit compares the potential of the teletext character signal with the potential of the video signal to determine whether or not the potential of the teletext character signal is input at 60% or less of the potential of the video signal (A12). When the potential of the text signal is weakly inputted to 60% or less of the potential of the video signal, a high level signal is output through the output terminal SO of the microcomputer 50 (A13), and the potential of the teletext text signal is output. Is input to 60% or more of the potential of the video signal, a low level signal is output through the output terminal SO of the microcomputer 50 (A14), and the teletext character signal exclusive control unit ( Whether to drive 100) is determined.

The reason why the set-setting branch point of the teletext character signal detection and control circuit is set to 60% of the video signal potential is that the microtext character is the minimum potential of the teletext character signal that can be output without error. Controllable value.

The teletext text signal is included in the video composite signal, and the A / D converter 60 compares the white level of the video signal with the [1] level (60%) of the teletext text signal. Outputs a high level or low level signal to the output terminal (SO) of the) to switch the switch driver 110 and the control unit 100 for the teletext character signal. Next, when the teletext character signal potential is 60% or less of the video signal potential, the signal outputted to the output terminal SO of the microcomputer 50 is rectified via the constant voltage diodes D1 and D2 to switch. It is applied to the base of the transistor Q1 of the driving unit 110 and the potential of the node C is switched to the low potential, the potential of the node B is switched to the high potential. At this time, the switch FETs (FET1, FET2) is turned on to be switched to operate the teletext character signal dedicated control unit 100, the switch FET (FET3) is switched to "on" by the main processing stage ( The video signal converted to the intermediate frequency outputted from MAIN) and the teletext text signal outputted to the text stage TEXT are appropriately compensated and switched so as not to interfere with each other. Thus, the broadcast signal input through the tuner 10 is a pre-amp stage 21, the saw filter 31, the intermediate frequency stage 41, which raises and outputs only a teletext character signal of a predetermined frequency to a predetermined level. While sequentially passing through the image signal detector 47, only the teletext character signal may be output while being amplified to a predetermined size. In this case, the digital text signal inputted through digital signal is not abnormal when amplified. However, when amplifying the entire video composite signal, the TV video signal is excessively amplified to cause an abnormality on the screen. The text text signal exclusive control unit 100 is switched to amplify only the teletext text signal.

As described above, the present invention detects the image complex signal output to the main processing stage and separates it into a teletext character signal and an image signal, compares the potentials of the signals, and detects whether or not the teletext character signal is detected. By amplifying and compensating only to a certain size and outputting, it is possible to process a large amount of teletext characters by not only transmitting the teletext characters accurately but also outputting the video signals without interruption when outputting them to the main processor and the text terminal. It has an effect.

Claims (2)

Video signal output means 90 for receiving a broadcast signal from a broadcasting station, amplifying, detecting, and outputting a video signal, and an A / D converter for converting an analog video signal output from the video signal output means 90 into a digital video signal. (60) determining whether the digital video signal is in a text mode; and in the text mode, determining whether the level of the teletext character signal included in the video signal is less than or equal to 60% of the level of the video signal, and being less than or equal to 60%. In this case, the microcomputer 50 for outputting a high level signal, the switch driving means 110 for outputting a switching control signal according to the output signal of the microcomputer 50, the switching which is an output signal of the switch driving means 110 Teletext character signal exclusive control means for amplifying and separately outputting the teletext character signal inputted according to the control signal to a predetermined level (100) Teletext signal detection and control circuitry is configured to. According to claim 1, The teletext character signal dedicated control means 100 is a pre-amp stage 21 for amplifying the video signal of the intermediate frequency is 20dB or more, the intermediate amplified from the pre-amp stage 21 and outputted Saw filter 31 for filtering the video and audio portions of the video signal of the frequency in order to reduce mutual interference, the intermediate frequency stage 41 for amplifying the video signal filtered and output from the saw filter 31, the intermediate frequency And a teletext signal detection and control circuit comprising: an image signal detection stage (47) for detecting and outputting an image signal as an output signal of the stage (41).