KR940005271Y1 - Antenna - Google Patents

Abstract

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Description

Automatic polarity adjustment of antenna

1 is a block diagram of a polarity adjusting device of a conventional antenna.

2 is a block diagram of a polarity automatic adjustment device of the present invention antenna.

* Explanation of symbols for main parts of the drawings

1: D / A converter 2, 18: pulse generator

3, 19: current generator 4, 20: probe control motor

5, 21: Probe 6: Micom

11: Tuner 12: Image intermediate frequency amplifier

13: Image detector 14: Image amplifier

15: automatic gain control unit (AGC) 16: automatic frequency tuning unit (AFT)

17: DC / AC converter R / C: remote control

The present invention relates to the polarity adjustment of the antenna, and in particular, it is possible to solve the inconvenience of having to adjust the polarity of the antenna by using a separate remote controller by programming the polarity of the antenna with a conventional remote control and re-adjusting the fine adjustment again. The present invention relates to an antenna auto-adjustment device for preventing an error which may occur in software by constructing a polarity adjustment system and automatically adjusting the polarity of the antenna according to a received broadcast signal.

FIG. 1 is a block diagram of a polarity adjusting device of a conventional antenna, as shown in FIG. 1, by executing its own program under the control of a remote controller R / C, and storing the stored data Data, clock CLK, and enable signal ( A microcomputer 5 that outputs En), a D / A converter 1 that receives the output of the microcomputer 5 and converts it into an analog signal, and an output of the D / A converter 1 that receives the output of the microcomputer 5 A pulse generator 2 for generating an amplitude modulated pulse Pi, a current generator 3 for generating a current Ci according to the output of the D / A converter 1, and It consists of a probe control motor (4) to adjust the probe (5) vertically or horizontally in accordance with the output of the pulse generator (2) and the current generator (3), the operation process of such a conventional device This is as follows.

First, when the user selects a channel to be watched by the remote controller (R / C), the microcomputer 5 executes its own program and reads data according to the polarity of the antenna written in software per channel from the memory to the D / A converter 1. Output

At this time, when the enable signal En is input from the microcomputer 5, the D / A converter 1 converts data, which is a digital signal, into an analog signal according to a clock CLK, and converts the microcomputer according to the LNB characteristics. The converted analog signal is outputted to the pulse generator 2 or the current generator 3 by the command of (5).

As a result, when the output of the D / A converter 1 is output to the pulse generator 2, a pulse Pi modulated by the amplitude modulation PWM method is generated and output to the probe control motor 4. When the output of the D / A converter 1 is output to the current generator 3, a current Ci is generated according to the analog signal value of the converter and output to the probe control motor 4.

Therefore, the probe control motor 4 rotates with the pulse width of the pulse Pi output from the pulse generator 2 according to the LNB characteristic or according to the amount of current Ci output from the current generator 3. Rotate to adjust the polarity of the probe 5 horizontally (H) or vertically (V).

After selecting the polarity of the antenna in this way, execute the Skew Control to receive a clearer signal, and select "0" (UP) or "1" (Down) by using the remote controller (R / C). In the channel selection, the polarity is finely adjusted in the same order as the operation.

However, in order to select the polarity of the antenna and to fine tune the polarity, such a conventional apparatus needs to identify the polarity of each channel in advance and write and input the data according to the software and have at least two keys of the remote controller. In the case of fine tuning, the user has to adjust the polarity repeatedly whenever the channel changes.

In addition, since the polarity is adjusted by software, if an error occurs in the created data, there is a problem in that the polarity of the antenna cannot be adjusted correctly.

In consideration of these problems, the present invention automatically adjusts the tuner according to the received broadcast signal and converts the frequency tuning signal into an analog signal to generate a pulse or a current, and rotates the probe control motor accordingly. By adjusting the polarity of the antenna to automatically adjust the device for automatically adjusting the polarity of the antenna, which will be described in detail with reference to the accompanying drawings as follows.

2 is a block diagram of a device for automatically adjusting the polarity of an antenna of the present invention, as shown therein, a tuner 11 for receiving a broadcast signal through an antenna ANT and converting a tuned signal into an intermediate frequency, and the tuner 11. Video intermediate frequency amplification section 12 for amplifying the video intermediate frequency outputted from the video signal), an image detection section 13 for detecting the video intermediate frequency of the video intermediate frequency amplification section 12, and the video detection section 13 Image amplification section 14 for amplifying the video signal of the < RTI ID = _0.0 >) < / RTI > The frequency tuning section 16, the automatic gain control section 15 that receives the output of the image amplifying section 14 and automatically adjusts the gain, and the DC voltage DC of the automatic frequency tuning section 16 are converted into an AC voltage ( A DC / AC converter 17 for converting to AC and an output of the DC / AC converter 17 are amplitude modulated (PWM) and pulsed (Pi). ) Is output to the pulse generator 16 for outputting the current, the current generator 19 for generating the current Ci according to the output of the DC / AC converter 17, and the output of the automatic gain control unit 15. The probe 21 is rotated according to the polarity of the channel and the probe control motor 20 finely adjusts the polarity according to the output of the pulse generator 18 or the current generator 19. The DC / AC converter 17 outputs the AC voltage AC converted from the output of the automatic frequency tuning unit 16 to the pulse generator 18 or the current generator 19 according to the LNB characteristic.

Referring to the operation and effect of the automatic polarity adjustment device of the present invention configured as described above are as follows.

First, the composite image signal received through the antenna ANT is amplified to a high frequency signal by the tuner 11, and then converted back to an intermediate frequency and output to the image intermediate frequency amplifier 12, and the image intermediate frequency amplifier 12 amplifies the image intermediate frequency tuned and output from the tuner 11 to a predetermined level, detects the image signal through the image detector 13, and amplifies the image to a predetermined level. Output

At this time, the automatic gain control unit (AGG; Auto Gain Control) 15, which detects the image signal of the image amplifier 14, extracts a DC component from the image signal and applies it as a bias voltage to the tuner 11 to adjust the tuning signal. In addition, the tuner 11 is adjusted by increasing the output voltage Vt for rotating the probe control motor 20 until the image signal of the image amplifier 14 reaches a predetermined level. To match the polarity of the tuned channel at, the automatic frequency tuning unit (AFT; Auto Frequency Tuning or Auto Fine Tuning) (16) detects the image intermediate frequency of the image intermediate frequency amplifier 12 to extract the DC component By applying a bias voltage to the tuner 11 so that the image intermediate frequency of the image intermediate frequency amplifier 12 is close to the intermediate frequency (f _c ).

When the polarity of the channel is automatically selected by the automatic gain control unit 15 in this way, that is, when the image signal of the image amplifier 14 reaches a certain level, the automatic frequency tuning unit 20 performs the image intermediate frequency amplifier 12. Detects the image intermediate frequency and compares it with the intermediate frequency (f _c ) through the internal frequency discriminator and converts the difference (ie, the value out of the intermediate frequency (f _c )) into a DC voltage (DC).

Accordingly, the DC / AC converter 17 receiving the DC voltage DC of the automatic frequency tuning unit 16 converts the AC voltage into AC voltage, and then converts the AC voltage according to the LNB characteristic into the pulse generator 18. ) Or to the DC generator 19.

Therefore, when the AC voltage AC of the DC / AC converter 17 outputs to the pulse generator 18, the pulse Pi modulated by the amplitude modulation PWM method is output to the probe control motor 20. When outputting to the current generation unit 19, a current Ci according to the AC voltage AC is generated and output to the probe control motor 20 to fine tune the probe 15.

That is, after the polarity of the channel is selected by the output of the automatic gain control unit 15, the output DC of the automatic frequency tuning unit 16 is generated by the pulse generator 18 or the current through the DC / AC converter 17. By applying to the unit 13 and rotating the probe control motor 20 according to the width of the pulse Pi or the amount of current Ci, the probe 21 is adjusted vertically (V) or horizontal (H). A fine adjustment of the probe 15 is automatically performed so that the difference of the DC voltage DC of the automatic frequency tuning unit 16 maintains a constant difference and thus receives the best signal state.

As described in detail above, the device for automatically adjusting the polarity of the antenna of the present invention is configured by a simple hardware system, so that the software does not need to control the software, so that the number of selection keys of the remote controller can be reduced. When receiving satellite broadcasting, it is simple, and if the automatic gain control circuit (AGC) and automatic frequency tuning circuit (AFC) are added to the tuner with a slight modification, the circuit configuration can be simplified. There is an effect that can be applied to the broadcast receiver and the tuner for satellite broadcasting.

Claims (1)

The tuner 11 tunes the broadcast signal received through the antenna ANT to extract the image intermediate frequency and amplifies the image intermediate frequency to a predetermined level in the image intermediate frequency amplifier 12 and the image signal through the image detector 13. In the TV configured to detect and to amplify the image signal to a predetermined level in the image amplifier 14, the DC component is extracted from the output of the image amplifier 14 to output the bias voltage to the tuner 11 In addition, the automatic gain control unit 15 for raising the output voltage Vt until the output of the image amplifier 14 reaches a predetermined level, and the image intermediate frequency of the image intermediate frequency amplifier 12 are converted into intermediate frequencies ( f _c ) and compares the comparison difference to DC voltage DC when the comparison difference is applied to the tuner 11 as a bias voltage and the output of the automatic gain control unit 15 reaches a predetermined level. Automatic frequency tuning unit 16, a DC / AC converter 17 for converting the DC voltage DC of the automatic frequency tuning unit 16 into an AC voltage, and the output of the DC / AC converter 17 When applied, the pulse generator 18 for amplitude modulation (PWM), the current generator 19 for generating a current when the output of the DC / AC converter 17 is applied, and the automatic gain control unit 15 Adjust the probe 21 according to the output voltage Vt to match the polarity of the channel tuned to the tuner 11 and according to the output of the pulse generator 18 or the current generator 19. A device for automatically adjusting the polarity of an antenna, characterized by comprising a probe control motor 20 for fine tuning 21.