KR20210097403A - Automatic satellite tracking antenna system and satellite selection method using the same - Google Patents

Abstract

The present invention relates to an automatic satellite tracking antenna system and a satellite selection method using the same. More specifically, the present invention relates to the automatic satellite tracking antenna system, which comprises: an antenna unit (100) including an antenna (110) which receives many satellite signals in an environment with many satellites, a satellite signal conversion unit (120) which converts the satellite signal received by the antenna (110) down to a satellite signal with a middle frequency, a signal detection unit (130) which detects the satellite signal converted down by the satellite signal conversion unit (120), and a memory unit (140) which matches and stores position information of all satellites searched by using the satellite signal detected by the signal detection unit (130) with the strength of the satellite signal in each piece of position information; and a satellite broadcast receiver (200) which transmits the satellite signal transmitted from the antenna unit (100) to an output means (300). The present invention aims to provide the automatic satellite tracking antenna system and satellite selection method according to the same, which can detect a signal from any desired satellite.

Description

Automatic satellite tracking antenna system and satellite selection method using the same}

The present invention relates to an automatic satellite tracking antenna system and a method for selecting a satellite using the same, and more particularly, to an automatic satellite tracking antenna system capable of automatically selecting a desired satellite in a plurality of satellite environments without an antenna controller requiring software update. And it relates to a satellite selection method using the same.

In general, when watching satellite broadcasting using an automatic positioning antenna system with a built-in motor, satellite tracking is performed in the following order to select a satellite.

In detail, after selecting a satellite through a controller separately connected to the antenna system, move the elevation and azimuth of the antenna using a motor to find the position where the signal strength of a specific frequency of the satellite repeater stored in the controller is the maximum. do.

That is, when the antenna is directed in the direction of a specific satellite and the signal strength reaches its maximum value, it is determined whether the currently found satellite (specific satellite) is the desired satellite using the frequency information and satellite ID information of the satellite repeater stored in the controller in advance. do.

According to the determination result, if it is not the desired satellite, that is, if the analysis result using the frequency information and satellite ID information of the satellite repeater stored in the controller in advance is not the desired satellite, the motor is restarted to find another satellite. The position at which the signal strength of the specific frequency of the satellite repeater stored in advance is re-searched while moving the elevation and azimuth angles of the antenna by using them.

Of course, in some cases, it is possible to move directly to the desired satellite by using the satellite that is not the desired satellite but the wrongly found satellite and the frequency information and satellite ID information of the satellite repeater stored in the controller for the desired satellite in advance. time can be shortened.

After that, when the user wants to change the antenna direction to another satellite, the above-described process is repeated or the controller analyzes the DiSEqc signal generated by the satellite broadcasting receiver to change the direction to the desired satellite.

However, the information of the satellites changes every moment, and in Europe, there are many satellites and each satellite has many identical polarizations and repeaters, which causes a lot of interference between satellite signals. There is a problem in that it is frequently necessary to update information (frequency, satellite ID, etc.).

That is, when desired satellite information is changed, it is necessary to update the software of the controller, which leads to financial loss on the side of the antenna manufacturer.

In this regard, in Korean Patent Registration No. 10-1578048 (“Automatic Tracking Antenna System”), based on the location information of the target obtained from the tracking antenna, the beam angle is calculated from the target, and the calculated beam angle to the target is calculated. Disclosed is an automatic tracking antenna system that corrects the directional angle of the tracking antenna by using an auxiliary tracking means when it deviates from the threshold.

Domestic Registered Patent No. 10-1578048 (Registration Date 2015.12.10.)

The present invention has been devised to solve the problems of the prior art as described above, and an automatic satellite tracking antenna system capable of automatically selecting a desired satellite in a plurality of satellite environments without an antenna controller requiring software update, and an automatic satellite tracking antenna system using the same To provide a method for selecting satellites.

The automatic satellite tracking antenna system according to an embodiment of the present invention includes an antenna 110 for receiving a plurality of satellite signals in a multi-satellite environment, and an intermediate frequency satellite for the satellite signal received by the antenna 110 . A satellite signal converter 120 for down-converting a signal, a signal detector 130 for detecting the satellite signal down-converted in frequency by the satellite signal converter 120 , and the detection by the signal detector 130 . An antenna unit 100 and the antenna unit 100 including a memory unit 140 that matches and stores the position information of all satellites searched using the satellite signal and the strength of the satellite signal for each position information It is preferable to include a satellite broadcast receiver 200 for transmitting the satellite signal transmitted from the output means 300 .

Furthermore, in order to estimate the target satellite requested from the outside, the antenna unit 100 detects all satellites searched by the memory unit 140 using the satellite signal detected by the signal detection unit 130 . It is preferable to sequentially match and store the position information and the strength of the satellite signal for each position information, and to sequentially transmit the satellite signal to determine whether or not the target satellite is a target satellite.

Furthermore, the antenna unit 100 cuts off the operating power to the satellite broadcast receiver 200 or the operating power of the satellite signal converter 120 when it is estimated that the target satellite is the target satellite according to the result of determining whether the antenna unit 100 is a target satellite. and resupply.

Furthermore, it is preferable that the antenna unit 100 stores the determined satellite position information and the satellite signal strength in the memory unit 140 before shutting off the operating power.

Furthermore, when the position information of the satellite finally stored in the memory unit 140 and the strength of the satellite signal exist, the antenna unit 100 compares the strength of the finally stored satellite signal with the strength of the satellite signal received in real time. , when the difference between the intensities is less than a predetermined value, it is preferable to specify the corresponding satellite as the target satellite.

Furthermore, it is preferable that the antenna unit 100 further includes a reception confirmation unit 150 for confirming the reception quality of the satellite signal transmitted from the antenna unit 100 .

In the method for selecting a satellite using an automatic satellite tracking antenna system according to an embodiment of the present invention, the antenna unit in a multiple satellite environment moves from a reference point of a preset antenna to a predetermined position, and searches for the position of the satellite. In the search step (S100), in the antenna unit, the satellite signal strength measurement step (S200) of sequentially measuring and matching the intensity of the satellite signal for each location information of the respective satellites searched for by the satellite location search step (S100) and a target satellite estimation step (S300) in which the antenna unit sequentially transmits the satellite signals while performing the satellite signal strength measurement step (S200) to determine whether a target satellite is present.

Furthermore, in the target satellite estimation step ( S300 ), it is preferable to check the reception quality of the satellite signal or to determine whether the target satellite is a target satellite by using channel information of an image output from an output means by a satellite broadcasting receiver.

Furthermore, according to the determination result of the target satellite estimation step (S300), when the target satellite is estimated, the operation power to the satellite broadcast receiver or the operation power of the satellite signal converter included in the antenna unit is cut off and re-supplied. It is preferable that the target satellite specifying step (S400) is performed.

Furthermore, in the target satellite specifying step (S400), before the operation power is cut off, the determined satellite position information and the strength of the satellite signal are stored, and the strength of the finally stored satellite signal is compared with the strength of the received satellite signal in real time. Therefore, when the difference in intensity is less than a predetermined value, it is preferable to specify the corresponding satellite as the target satellite.

The automatic satellite tracking antenna system and the satellite selection method using the same according to the present invention according to the above configuration have the advantage of automatically selecting a desired satellite in a plurality of satellite environments without an antenna controller requiring software update.

In detail, since there are various satellites to be selected for each country or user, it has the advantage of providing an automatic satellite tracking antenna system with UI and satellite tracking algorithms that can flexibly respond to the various needs of customers around the world. .

Through this, not only one satellite designated by a country or a user can be fixedly selected, but also any desired satellite can be selected, and there is an advantage that it can be applied to any receiver.

That is, since the configuration of the controller is not required, there is no need to update the firmware software of the antenna to update the tracking frequency, polarization, etc. as the satellite environment changes. , it has the advantage of being applicable to any receiver.

1 is a schematic configuration diagram illustrating an automatic satellite tracking antenna system according to an embodiment of the present invention.
2 is a flowchart illustrating a satellite selection method using an automatic satellite tracking antenna system according to an embodiment of the present invention.

Hereinafter, an automatic satellite tracking antenna system of the present invention and a satellite selection method using the same will be described in detail with reference to the accompanying drawings. The drawings introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those skilled in the art. Accordingly, the present invention is not limited to the drawings presented below and may be embodied in other forms. Also, like reference numerals refer to like elements throughout.

At this time, if there is no other definition in the technical terms and scientific terms used, it has the meaning commonly understood by those of ordinary skill in the art to which this invention belongs, and in the following description and accompanying drawings, the subject matter of the present invention Descriptions of known functions and configurations that may unnecessarily obscure will be omitted.

In addition, the system refers to a set of components including devices, instruments, and means that are organized and regularly interact to perform necessary functions.

As in Europe, in an environment with multiple satellites, overlapping satellite signals is unavoidable because there are many repeaters and the same polarization for each satellite. (For example, in Europe, satellite signals from ASTRA 1, 2, 3, 4, Hotbird, Eutelsat 9E, Eutelsat 5W, Turksat, Hellasat, Hispasat, etc. often overlap.)

As described above, when there are many satellites and there are many frequency overlaps, conventionally, the desired target satellite is determined using the satellite repeater information (polarization information, frequency information, ID information, etc.) stored in the controller. Since there are many and the frequency overlap is severe, the satellite repeater information is frequently changed, and in order to reflect this, there is a disadvantage in that the software update of the controller is unavoidable.

In addition, such a software update inevitably leads to a financial loss on the antenna manufacturer side.

In order to solve this problem, the automatic satellite tracking antenna system according to an embodiment of the present invention can select and receive a plurality of satellite signals without a controller, that is, automatically select a desired satellite in a plurality of satellite environments. It relates to an automatic satellite tracking antenna system of choice.

The automatic satellite tracking antenna system according to an embodiment of the present invention detects a satellite signal of a desired target satellite using the signals of all satellite repeaters received through the LNB.

1 is a diagram illustrating the configuration of an automatic satellite tracking antenna system according to an embodiment of the present invention, and an automatic satellite tracking antenna system according to an embodiment of the present invention will be described in detail with reference to FIG. 1 .

As shown in FIG. 1 , the automatic satellite tracking antenna system according to an embodiment of the present invention transmits a satellite signal transmitted from an antenna unit 100 and the antenna unit 100 to an output unit 300 for satellite broadcasting. It is preferably configured to include the receiver 200 .

The satellite broadcast receiver 200 is preferably configured to include a set top box, and the output means 300 is preferably configured to include a TV.

In addition, it is preferable that the antenna unit 100 includes an antenna 110 , a satellite signal conversion unit 120 , a signal detection unit 130 , and a memory unit 140 .

At this time, the antenna unit 100 utilizes the power supplied from the satellite broadcast receiver 200 to the satellite signal conversion unit 120 of the antenna unit 100 as it is, or an external power supply in case the power is insufficient. It is preferable to receive power using an auxiliary power source.

To learn more about each configuration,

The antenna 110 may receive a satellite signal from at least one satellite in a plurality of satellite environments, and the satellite signal conversion unit 120 may include the satellite signal received by the antenna 110 . can be down-converted to an intermediate frequency satellite signal.

To this end, the satellite signal converter 120 preferably includes a low noise blockdown converter (LNB), amplifies the satellite signal received through the antenna 110 and converts noise included in the signal. It is down-converted to an intermediate frequency satellite signal.

At this time, the satellite signal conversion unit 120 may have different supported polarizations (HH, HV, LH, LV) according to the configuration of the LNB, and the polarization is determined according to the power input to the LNB. In the present invention, the configuration of the LNB or supportable polarization is not limited thereto.

In addition, the antenna unit 100 is configured to further include a power divider (not shown) for distributing the satellite signal down-converted by the satellite signal conversion unit 120 into two identical frequency satellite signals. desirable.

Here, the satellite broadcast receiver 200 selects the polarization using HIGH/LOW BAND (with or without 22KHz tone) or vertical/horizontal polarization (13V/18V). When receiving power supply, when the user changes TV channels, polarization and local frequency vary depending on the power of the satellite broadcast receiver 200 supplied to the LNB even for the same satellite, resulting in different signal strength of the repeater. do.

Therefore, in the automatic satellite tracking antenna system according to an embodiment of the present invention, in order to always detect a constant satellite signal strength, that is, even if the user changes the TV channel, a constant local frequency or polarization can always be detected in the LNB. By further including a separate predetermined means (not shown), it is preferable that only a certain repeater is always output from the satellite signal conversion unit 120 .

Preferably, the signal detection unit 130 detects the satellite signal frequency down-converted by the satellite signal conversion unit 120 , and in detail, detects the strength of the satellite signal. That is, it is preferable that the signal detection unit 130 detects the strength of the satellite signal by outputting an automatic gain control (AGC) signal of a set frequency.

At this time, it is preferable to input a control signal for frequency setting from the outside to set the frequency.

The output AGC signal is analog ?? through an AD converter (not shown). After digital conversion, it is preferable to detect the strength of the satellite signal by analyzing it.

In detail, the antenna unit 100 first, by the antenna 110 moved to a preset point (origin), the satellite signal converter for all areas in which the antenna 110 is movable from a preset point. The memory unit 140 detects the satellite signal using 120 and the signal detection unit 130, stores the position information of all detected satellites, and matches the strength of the satellite signal for each position information. It is preferable to store it in

In this case, the automatic satellite tracking antenna system according to an embodiment of the present invention stores the location information of all satellites and stores all location information in order to minimize user inconvenience due to satellite search/estimation/tracking/search/specification. Instead of matching and storing the strength of each satellite signal, first, the position information of all satellites is stored, and the antenna 110 is moved sequentially once again according to the stored positions of the satellites, and the position information of the corresponding satellite is stored. In order to estimate a desired target satellite (a target satellite requested by an external user) while storing the signal strength, it is preferable to transmit the corresponding satellite signal to determine whether the target satellite is a target satellite.

In order to determine whether or not a target satellite is a target satellite using the corresponding satellite signal, the antenna unit 100 transmits the satellite signal to the output unit 300 through the satellite broadcast receiver 200 and transmits the desired target satellite ( It is preferable to check whether the video is of a specific channel) or to use the reception confirmation unit 150 .

The reception confirmation unit 140 is preferably configured as a module for confirming reception quality (signal quality) of the satellite signal transmitted from the antenna unit 100 .

In the automatic satellite tracking antenna system according to an embodiment of the present invention, as described above, in the antenna unit 100, first, the position information of all satellites is stored, and the antenna is sequentially once again according to the stored positions of the satellites. In order to estimate a desired target satellite (a target satellite requested by an external user) while moving 110 while storing the strength of the satellite signal for the position information of the corresponding satellite, the corresponding satellite signal is transmitted to determine whether the satellite is a target satellite or not. However, when the target satellite is estimated according to the determination result, it is preferable to cut off the operating power to the satellite broadcast receiver 200 or the operating power to the satellite signal converter 120 and supply it again.

In other words, when the power supplied to the antenna unit 100 is utilized through the satellite broadcast receiver 200, it is preferable to cut off and re-supply the operating power to the satellite broadcast receiver 200, and external auxiliary power When using , it is preferable to cut off the operating power to the satellite signal converter 120 and re-supply.

Of course, when an external auxiliary power source is used, the operating power of the antenna unit 100 itself may be cut off and re-supplied.

At this time, the antenna unit 100 does not simply cut off the power and then re-supply it when estimating the target satellite, but uses the memory unit 140 to store the position information of the satellite signal estimated as the target satellite and the strength of the satellite signal. It is preferable to save

Through this, after the operation power is re-supplied, in the antenna unit 100, when the position information of the satellite finally stored in the memory unit 140 and the strength of the satellite signal exist, the strength of the finally stored satellite signal and It is preferable to compare the strengths of the satellite signals received in real time and specify the corresponding satellite as the target satellite when the difference is less than a predetermined value.

That is, when the difference between the strength of the last stored satellite signal and the strength of the satellite signal measured in real time is less than a predetermined value, the antenna 110 is stopped without moving any more so that TV can be continuously watched through the corresponding satellite, After that, even when the power is turned on/off, the final stored satellite position information and the strength of the satellite signal do not change, so that TV viewing can be continued.

Of course, when the difference between the strength of the last stored satellite signal and the strength of the satellite signal measured in real time is greater than or equal to a predetermined value, the antenna 110 is moved to a preset point again and the above-described process is repeated to specify the target satellite. there is.

In addition, in the automatic satellite tracking antenna system according to an embodiment of the present invention, when the antenna unit 110 is arbitrarily moved by the user, or through an external means (not shown), the user changes the target satellite desired by the user. Alternatively, when a request for re-scan of a satellite signal is requested, the antenna 110 may be moved to a preset point at any time and the above-described process may be repeated to specify a new target satellite.

In addition, the antenna unit 100 is preferably configured to further include a motor unit (not shown) and a motor driving unit (not shown), the motor unit can move the antenna 110, the motor driving unit It is preferable to control the driving of the motor unit.

As shown in FIG. 2, the satellite selection method using the automatic satellite tracking antenna system according to an embodiment of the present invention includes a satellite location search step (S100), a satellite signal strength measurement step (S200), and a target satellite estimation step (S300). ) is preferred.

To learn more about each step,

In the satellite position search step (S100), in the antenna unit 100, the antenna 110 is moved to a preset point (origin), and then to a predetermined position, that is, all of the antennas 110 are movable. For the region, the satellite signal is detected using the satellite signal converter 120 and the signal detector 130 to search for the position of the satellite.

Preferably, the searched satellite location information is stored in the memory unit 140 .

In the satellite signal strength measurement step (S200), the antenna unit 100 matches the strength of the satellite signal for each position information of each of the satellites searched for by the satellite position search step (S100).

At this time, in the satellite selection method using the automatic satellite tracking antenna system according to an embodiment of the present invention, in order to minimize user inconvenience due to satellite search/estimation/tracking/search/specification, the location information of all satellites is Rather than storing and matching the strength of the satellite signal for each position information, first, the position information of all satellites is stored by the satellite position search step (S100), and the satellite signal strength measurement step (S200) While the antenna 110 is sequentially moved once again according to the position of the satellite stored by ) by using the channel information of the image output from the output means 300, the target satellite estimation step (S300) of determining whether a target satellite is performed is performed.

That is, in the target satellite estimation step ( S300 ), the antenna unit 100 may determine whether the target satellite is a target satellite by sequentially transmitting the satellite signals while the satellite signal strength measurement step ( S200 ) is performed.

As shown in FIG. 2, the satellite selection method using the automatic satellite tracking antenna system according to an embodiment of the present invention is preferably configured to further include a target satellite specifying step (S400).

In the target satellite specifying step (S400), when the target satellite is estimated according to the determination result of the target satellite estimation step (S300), the operating power to the satellite broadcast receiver 200 or the satellite signal converter 120 is The operating power is cut off and re-supplied.

Through this, the further operation of the target satellite estimation step ( S300 ) is forcibly stopped, and the target satellite can be specified using the comparison information after being re-supplied.

In detail, the target satellite specifying step ( S400 ) does not simply cut off the power and then re-supply it, but just before shutting off the power, the memory unit 140 uses the memory unit 140 to estimate the location information of the satellite signal and the satellite. It is desirable to store the strength of the signal.

Through this, after the operation power is re-supplied, in the antenna unit 100, when the position information of the satellite finally stored in the memory unit 140 and the strength of the satellite signal exist, the strength of the finally stored satellite signal and It is preferable to compare the strengths of the satellite signals received in real time and specify the corresponding satellite as the target satellite when the difference is less than a predetermined value.

That is, when the difference between the strength of the last stored satellite signal and the strength of the satellite signal measured in real time is less than a predetermined value, the antenna 110 is stopped without moving any more so that TV can be continuously watched through the corresponding satellite, After that, even when the power is turned on/off, the final stored satellite position information and the strength of the satellite signal do not change, so that TV viewing can be continued.

Of course, when the difference between the strength of the last stored satellite signal and the strength of the satellite signal measured in real time is greater than or equal to a predetermined value, the antenna 110 may be moved to a preset point again and the above-described steps may be repeated to specify the target satellite. there is.

In addition, in the satellite selection method using the automatic satellite tracking antenna system according to an embodiment of the present invention, when the antenna unit 110 is arbitrarily moved by the user, or through an external means (not shown), the user When a desired target satellite is changed or a satellite signal re-scan is requested, the antenna 110 is moved to a preset point at any time and the above-described steps are repeatedly performed to newly specify the target satellite.

In other words, in the automatic satellite tracking antenna system and the satellite selection method using the same according to an embodiment of the present invention, without a separate software update, the user freely searches and selects satellites in all regions where the user is located, and selects the corresponding satellites. It has the advantage of being able to receive broadcasts.

As described above, in the present invention, specific matters such as specific components and the like and limited embodiment drawings have been described, but these are only provided to help a more general understanding of the present invention, and the present invention is not limited to the above one embodiment. No, various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims described below, but also all those with equivalent or equivalent modifications to the claims will be said to belong to the scope of the spirit of the present invention. .

100: antenna unit
110: antenna 120: satellite signal conversion unit
130: signal detection unit 140: memory unit
150: acknowledgment unit
200: satellite broadcast receiver
300: output means

Claims (9)

An antenna 110 for receiving a plurality of satellite signals in a multi-satellite environment;
a satellite signal converter 120 for down-converting the satellite signal received by the antenna 110 into a satellite signal of an intermediate frequency;
a signal detection unit 130 for detecting the satellite signal frequency down-converted by the satellite signal conversion unit 120;
An antenna unit ( 100); and
a satellite broadcasting receiver 200 for transmitting the satellite signal transmitted from the antenna unit 100 to an output unit 300;
Automatic satellite tracking antenna system comprising a.
The method of claim 1,
The antenna unit 100 is
In order to estimate the target satellite requested from the outside,
By the memory unit 140, the position information of all satellites searched using the satellite signal detected by the signal detection unit 130 and the strength of the satellite signal for each position information are sequentially matched and stored. , The automatic satellite tracking antenna system, characterized in that by sequentially transmitting the satellite signal to determine whether the target satellite.
3. The method of claim 2,
The antenna unit 100 is
Automatic satellite, characterized in that when it is estimated as a target satellite according to a result of determining whether the target satellite is a target satellite, the operating power to the satellite broadcast receiver 200 or the operating power of the satellite signal converter 120 is cut off and re-supplied tracking antenna system.
4. The method of claim 3,
The antenna unit 100 is
The automatic satellite tracking antenna system, characterized in that before shutting off the operating power, the determined satellite position information and the satellite signal strength are stored in the memory unit (140).
5. The method of claim 4,
The antenna unit 100 is
When the position information of the satellite finally stored in the memory unit 140 and the strength of the satellite signal exist,
An automatic satellite tracking antenna system, characterized in that by comparing the strength of the last stored satellite signal and the strength of the satellite signal received in real time, and specifying the corresponding satellite as the target satellite when the difference in strength is less than a predetermined value.
The method of claim 1,
The antenna unit 100 is
a reception confirmation unit 150 for confirming reception quality of the satellite signal transmitted from the antenna unit 100;
Automatic satellite tracking antenna system, characterized in that it further comprises.
a satellite position search step (S100) of moving from a preset reference point of an antenna to a predetermined position in the antenna unit in a multi-satellite environment, and searching for a position of a satellite;
a satellite signal strength measurement step (S200) of sequentially measuring and matching the strength of a satellite signal for each position information of each of the satellites searched for by the satellite position search step (S100) in the antenna unit; and
In the antenna unit, while the satellite signal strength measuring step (S200), by sequentially transmitting the satellite signal, the target satellite estimating step (S300) to determine whether the target satellite;
Satellite selection method using an automatic satellite tracking antenna system, characterized in that consisting of.
8. The method of claim 7,
The target satellite estimation step (S300) is
A method for selecting a satellite using an automatic satellite tracking antenna system, characterized in that it is determined whether a target satellite is present by checking the reception quality of the satellite signal or by using channel information of an image output from an output means by a satellite broadcasting receiver.
8. The method of claim 7,
According to the determination result of the target satellite estimation step (S300), when the target satellite is estimated,
a target satellite specifying step (S400) of cutting off and re-supplying operating power to the satellite broadcasting receiver or the operating power of the satellite signal converter included in the antenna unit;
Satellite selection method using an automatic satellite tracking antenna system, characterized in that consisting of.

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