KR20030064007A - A satellite antenna with a tracking apparatus - Google Patents

Abstract

PURPOSE: A satellite antenna having a tracking device is provided to perform a position control function without adding a position control unit or adding a tracking function to a set-top box by installing the tracking device into the satellite antenna. CONSTITUTION: A satellite antenna having a tracking device includes a radio wave reception portion(110), a tuning portion(120), an LNB(130), an A/D conversion portion(140), a control portion(150), and a driving portion(160). The radio wave reception portion receives broadcasting signals from a satellite. The tuning portion outputs selectively the broadcasting signals corresponding to a desired frequency from the received broadcasting signals. The LNB detects a reception gain of the output signal of the tuning portion. The A/D conversion portion converts an analog signal of the LNB to a digital signal. The control portion outputs a control signal for controlling a position of the radio wave reception portion by using the intensity of the output signal of the A/D conversion portion. The driving portion controls the position of the radio wave reception portion by using a control signal of the control portion.

Description

A satellite antenna with a tracking apparatus

The present invention relates to a satellite antenna, and more particularly to a satellite antenna with a built-in satellite tracking device.

In general, in order to receive satellite broadcasting, the receiving antenna of the satellite broadcasting receiver must be correctly aligned to the satellite direction in order to receive the broadcasting signal transmitted from the satellite correctly.

Conventionally, by using a positioning device configured separately from the satellite antenna, the satellite antenna is adjusted to the satellite direction, or the satellite antenna is added to a set top box installed in a room separated from the satellite antenna. The method of adjusting the position was used.

However, in case of using a positioning device separate from the satellite antenna, it is inconvenient to adjust the position of the satellite antenna because the user has to look for the receiver set or the instrument when the satellite is first found. There was a problem of poor accuracy because of the adjustment. In addition, the position adjusting device and the receiver set were separated, which was inconvenient to use.

In addition, if the satellite positioning function is added within the set-top box installed indoors, the manufacturing cost of the set-top box increases, and the replacement of the set-top box cannot replace the set-top box because the satellite positioning function built in the conventional set-top box cannot be used. Every time there was a problem that the satellite antenna must be repositioned.

The present invention is to solve such a problem, an object of the present invention is to embed the satellite tracking device in the satellite antenna to transmit the satellite from the satellite to exactly match the direction of the satellite even if there is no separate positioning device It is to provide a satellite antenna with a built-in satellite tracking device that can receive broadcast data.

It is still another object of the present invention to provide a method of accurately matching the satellite antenna with the satellite direction by using the strength of a signal received from the satellite.

1 is a block diagram showing the configuration of a satellite antenna with a built-in satellite tracking device according to an embodiment of the present invention.

2 is a flowchart illustrating a method of controlling a position of a satellite antenna according to an exemplary embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

110: radio wave receiver 120: LNB

130: tuning unit 140: A / D conversion unit

150 control unit 160 drive unit

The satellite antenna incorporating the satellite tracking device of the present invention tunes and outputs a broadcast signal corresponding to a preset frequency among a plurality of broadcast signals received from the radio receiver and the radio receiver which performs a function of receiving a broadcast signal transmitted from a satellite. An LNB performing a function of detecting a received gain of a signal input from the tuning unit, and an analog / digital converting unit performing a function of converting an analog signal input through the LNB into a digital signal. And a controller for generating a signal for controlling the position of the radio wave receiver using the strength of the received signal input from the analog / digital converter, and the position of the radio wave receiver using the control signal input from the controller. It includes a driver for performing a function for controlling.

In a satellite tracking method using a satellite antenna incorporating a satellite tracking device of the present invention, a first step of tuning the preset frequency by the tuning unit and outputting a position control signal to the driving unit so that the control unit rotates the radio wave receiver in a clockwise direction. And a third step of detecting, by the control unit, the strength of the radio wave received by the radio wave receiver; and a fourth step of determining whether the intensity of the radio wave received by the control unit is increasing than before. The fifth step of outputting a position control signal to the drive unit so that the radio wave receiver continues to rotate in a counterclockwise direction when it is determined that the intensity of the radio wave is not increased than before, and the radio wave is positioned at the position where the intensity of the radio wave received by the controller is the highest. And a sixth step of stopping the receiver.

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

1 is a block diagram showing the configuration of a satellite antenna with a built-in satellite tracking device according to an embodiment of the present invention.

As shown in FIG. 1, the satellite antenna of the present invention includes a radio wave receiver 110, a tuner 120, an LNB 130, an A / D converter 140, a controller 150, and a driver 160. do.

The radio wave receiver 110 performs a function of receiving a broadcast signal transmitted from a satellite and is parabolic or flat.

The tuning unit 120 performs a function of tuning a broadcast signal corresponding to a preset frequency among various broadcast signals received by the radio wave receiver and outputting the broadcast signal to the LNB.

The LNB 130 detects a reception gain of a signal input from the tuning unit.

The A / D converter 140 converts an analog signal received through the LNB 130 into a digital signal.

The controller 150 performs a function of outputting a signal for controlling the position of the radio wave receiver 110 to the driver 160 by using the strength of the received signal input through the A / D converter 140. do.

The driver 160 controls the position of the radio wave receiver 110 by using the position control signal input from the controller 150.

2 is a flowchart illustrating a method of controlling a position of a satellite antenna according to an exemplary embodiment of the present invention.

When power is supplied to the satellite antenna, the controller 150 initializes all operations (step 110).

The tuning unit 120 tunes to a preset frequency (step 120).

The controller 150 outputs a position control signal to the driver 160 to rotate the radio wave receiver 110 in a clockwise direction (step 130).

The controller 150 detects the intensity of the radio wave received by the radio wave receiver 110 (step 140), stores it, and determines whether the intensity of the signal is increased than before (step 150).

When it is determined that the signal strength is increasing, the controller 150 outputs a position control signal to the driver 160 so that the radio wave receiver 110 continues to rotate clockwise.

On the other hand, if it is determined that the strength of the signal does not increase as a result of measuring the intensity of the received radio wave, the controller 150 transmits a position control signal to the driver 160 to rotate the radio wave receiver 110 counterclockwise. Output (step 160).

The controller 150 stops the radio wave receiver 110 at a position where the intensity of the signal being received corresponds to the highest value (step 170).

The controller 150 continuously monitors the intensity of the received signal even when the radio wave receiver 110 is stopped to determine whether there is a change in the intensity of the signal (step 180).

When the intensity of the received signal decreases, the steps 130 to 170 are repeated.

If the intensity of the received signal is unchanged or stronger, the position of the radio wave receiver 110 is fixed to the current position.

As described above, according to the present invention, since the satellite tracking device is embedded in the satellite antenna, a separate positioning device is not required, and the satellite tracking function does not need to be added to the set-top box, thereby reducing the cost of the set-top box. Even if the set-top box is replaced, there is no inconvenience in repositioning the satellite antenna.

Claims (5)

A radio wave receiver which performs a function of receiving a broadcast signal transmitted from a satellite; A tuning unit which performs a function of tuning and outputting a broadcast signal corresponding to a preset frequency among a plurality of broadcast signals received by the radio wave receiver; An LNB performing a function of detecting a reception gain of a signal input from the tuning unit; An analog / digital converter configured to convert an analog signal input through the LNB into a digital signal; A control unit for generating a signal for controlling the position of the radio wave receiver by using the strength of the received signal input from the analog / digital converter; A driver for controlling the position of the radio wave receiver using the control signal input from the controller Satellite antenna with a built-in satellite tracking device comprising a. The method of claim 1, The radio receiver is a satellite antenna with a satellite tracking device, characterized in that the parabolic or flat antenna. In the satellite tracking method of a satellite antenna using a satellite antenna with a built-in satellite tracking device including a radio wave receiver, an LNB, a tuning unit, an analog / digital converter, a controller, and a driver, A first step of tuning the preset frequency by the tuning unit; A second step of outputting a position control signal to the driving unit so that the control unit rotates the radio wave receiver in a clockwise direction; A third step of detecting, by the controller, the intensity of the radio wave received by the radio wave receiver; A fourth step of determining whether the intensity of the radio wave received by the controller increases from the previous time; A fifth step of outputting a position control signal to the driving unit so that the radio wave receiver continues to rotate in a counterclockwise direction when it is determined that the intensity of the radio wave received by the controller does not increase than before; A sixth step of stopping the radio wave receiver at a position where the intensity of the radio wave received by the controller is the highest; Satellite tracking method of a satellite antenna comprising a. The method of claim 3, The satellite tracking method of the satellite antenna The controller further comprises the step of initializing all operations when the power is supplied to the satellite antenna. The method of claim 3, The satellite tracking method of the satellite antenna Continuously monitoring the strength of the signal being received by the controller; Determining, by the controller, whether there is a change in the intensity of the signal being received; Performing the second to sixth steps when the controller determines that there is a change in the intensity of the received signal as a result of determining whether there is a change in the intensity of the received signal; Satellite tracking method of the satellite antenna further comprises.