JPS6354806A - Antenna adjusting device for satellite broadcast transmission and reception - Google Patents

Abstract

PURPOSE:To decrease the installing time by providing a storage means deciding antenna adjustment information to a reference satellite as a reference value and storing the antenna adjustment information of other satellites as a quantity deviated from the said reference value. CONSTITUTION:For example, a statellite SAT1 is used as a reference satellite, an antenna adjusting signal from a standard indoor unit 20 is sent to an antenna to decide the antenna optimum azimuth. Then the adjusting data in this case are selected as [000], [000] as to the elevating angle and the azimuth angle respectively to clear a memory 20M of the standard indoor unit 20. Similarly, as to a satellite SAT2, the antenna azimuth is adjusted by using the antenna adjustment signal from the standard infoor unit 20. In this case, the antenna adjustment signal is a deviated quantity from the antenna position of the reference satellite SAT1 and the data is stored in an address corresponding to the satellite SAT2 of the memory 20M. Then the antenna azimuth adjusting data as to all receptible satellites are stored in the memory 20M.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to a satellite broadcast receiving antenna adjustment device.

[Summary of the invention]

The present invention is an antenna adjustment device suitable for use when broadcast waves from a plurality of satellites can be received, in which one of the plurality of satellites is defined as a reference, and antenna adjustment information for other satellites is determined based on this reference. When installing or adjusting the antenna, it is only necessary to adjust the antenna direction relative to the reference satellite.

[Conventional technology]

For example, in the United States, a large number of geostationary satellites have been launched, and even in one region, as shown in Figure 5, by directing the receiving parabolic antenna (1) to each of the plurality of satellites 5ATI to 5ATn, You can enjoy various satellite broadcast programs via geostationary satellites.

In this case, the receiving parabolic antenna (1) is driven by a motor to make the elevation angle and azimuth variable, and can be controlled so that the antenna is directed each time to the satellite of the satellite broadcast program that the user wants to receive. .

In other words, Fig. 6 shows a satellite broadcasting receiving system, in which SHF radio waves received by the antenna (11) are converted into UHF band signals of about IGHz by the outdoor unit (2), which are transmitted through the cable (3). Indoor unit (4
), a channel selection operation is performed in this indoor unit (4) to select a desired broadcast channel, and the broadcast signal of that channel is restored to obtain a video signal and an audio signal. This indoor unit (4) also has a memory (4?I) that stores antenna direction information for each v&ri of 5ATI to 5ATn.
The antenna direction information from this memory (4) is read out in response to satellite selection (or satellite selection automatically made in accordance with program selection), and is sent to the antenna direction side i mechanism (IA). The antenna (1) is oriented so that it can receive radio waves from the selected satellite.

By the way, when installing a satellite broadcasting receiving system in each home, the anti-direction information is written in this memory (4M) by the dealer who uses a measuring device to manually write the elevation angle for each satellite of multiple satellites. This was done by adjusting the azimuth and azimuth angle and writing the data individually into memory.

[Problem that the invention seeks to solve]

However, this method of adjusting the elevation and azimuth angles for each satellite during antenna installation and storing the angular data for each satellite in memory has the disadvantage that antenna installation and adjustment takes a very long time. be.

[Means for solving problems]

In this invention, one of the plurality of satellites is used as a reference satellite, antenna adjustment information for this reference satellite is determined as a reference value, and antenna adjustment information for other satellites is determined as the magnitude of deviation from this reference value. A storage means for storing the information is provided.

[Effect]

When installing an antenna, if you prepare an antenna adjustment device equipped with the storage means described above, you can adjust the antenna direction for the reference satellite when installing the antenna, and for other satellites, the deviation from the reference value from the storage means is recorded for that satellite broadcast. By transferring and writing to the storage means of the receiving device, antenna installation and adjustment are completed, and the adjustment time can be significantly shortened.

〔Example〕

FIG. 1 shows an example of the device of the present invention, which is mainly used by dealers as an antenna-side adjustment jig. In the figure, (10) shows this adjustment jig as a whole, which is a microcomputer (11
) and a non-volatile memory (12).

A control signal output terminal, a data input terminal IN, and a data output terminal OUT are connected to the microcomputer (11) via an input/output board, and a memory store key switch (13) and a memory load switch (14) are also connected. . Furthermore, an LED (15) that lights up when the switch (13) is turned on, and an LED (16) that lights up when the switch (14) is turned on are connected to the microcomputer (11).

Then, in the non-volatile memory (12), the dealer writes antenna adjustment information regarding a plurality of satellites in the area in which the dealer owns the dealer, in the following manner.

That is, FIG. 2 is a block diagram when writing to this nonvolatile memory (12).

That is, the dealer is selling a standard indoor unit (20
), which is equipped with a control unit that arbitrarily controls the elevation angle and azimuth angle of the antenna, and the elevation angle and azimuth angle of the antenna can be manually changed by operating adjustment knobs (not shown). . The dealer performs antenna direction adjustment for each of the plurality of satellites using this standard unit.

In this case, one of the plurality of satellites 5ATI to 5ATn
For example, using satellite 5ATI as a reference satellite, first, the antenna direction is adjusted with respect to satellite 5ATI. That is, an antenna adjustment signal from the standard indoor unit (20) is sent to the antenna to determine the optimum direction and position of the antenna. Once determined, use the adjustment data at that time as the elevation angle,
For each azimuth angle, for example, 3 decimal digits BC
Expressed in D code as (000), (000), standard indoor unit (20) memory (20M
) to clear. Therefore, this memory (20M
), the elevation angle and azimuth angle addresses corresponding to I5ATI are (000), (0
00) is stored.

Next, the antenna direction of the satellite 5AT2 is similarly adjusted using the antenna adjustment signal from the standard indoor unit (20) to match the antenna direction to the satellite 5AT2. At this time, the antenna adjustment signal is the reference satellite 5A.
This is the amount of deviation from the TI antenna position. For example, the azimuth angle is (0113), the elevation angle is (008) [
As shown in Table 1], the memory (20M) of satellite 5AT2
Store to the address corresponding to .

In this way, antenna direction adjustment data for all receivable satellites are stored in the memory (20M).

This standard indoor unit (20) is connected to the adjustment jig (10) as shown in Figure 2, and the antenna direction adjustment data for all satellites has been stored in its memory (20M). After that, use this adjustment jig (
The store switch (13) of 10) is turned on. Then, the LED (15) lights up and a control signal is given to the microcomputer of the standard indoor unit.
The antenna adjustment information for satellites 5ATI to 5ATn is sequentially read out from the memory (20M), and this is stored in the nonvolatile memory (12) of each satellite 5AT of the adjustment jig (10).
It is sequentially written to addresses I to 5ATn.

Using this adjustment jig (lO), the dealer can quickly install the antenna in each home in the area the dealer is in charge of in the following manner.

That is, first, the dealer accurately adjusts the antenna direction toward the reference satellite 5ATI determined at the time of antenna national adjustment for the standard indoor unit. This adjustment may be done by the dealer using a measuring instrument, or the user indoor unit may have an antenna adjustment function (Utility Model Application No. 58-1135).
42), it can also be used.

The antenna adjustment signal is sent to the user indoor unit or
The antenna is supplied from the adjustment jig to the antenna adjustment mechanism, and the antenna direction is adjusted.

In this way, once the antenna direction adjustment for the reference satellite 5ATI is completed, the user indoor unit (30)
The adjustment jig (10) is connected to it as shown in FIG. Then, the antenna adjustment information for the reference satellite 5ATI of the user indoor unit (30) is expressed in a 3-digit BCD code for each of the azimuth angle and elevation angle (
000), (000) and clear the built-in memory (30M) of this indoor unit (30).

Next, the load switch (14) of the adjustment jig (10) is turned on. Then, the LED (16) lights up.

Along with this, satellite 5A is stored from the non-volatile memory (12).
Antenna tl of TI~5ATn? The iI configuration information is read out, and this is stored in the memory of the user indoor unit (30).
At the same time, the control signal is supplied to the memory control circuit of this user indoor unit (30), and the control signal is transferred to the memory (30M).
Antenna adjustment information for satellites 5ATI to 5ATn from 5ATI to 5ATn is written.

Based on the above, satellites 5ATI to 5 shown in [Table 1] above
The adjustment data for ATn is stored in the memory (30M), and the antenna installation and satellite broadcast receiving system installation are completed.

Figure 4 shows the microcomputer (11) of this adjustment jig (IO).
This is a flowchart of the above operation.

Then, when the user selects a satellite, the deviation from the reference value is read out from the memory (30M), and the deviation from the current satellite position is calculated by the microcomputer in (30) and the direction of the selected satellite is determined. An antenna adjustment signal will be provided to the antenna flli adjustment mechanism to orient the antenna.

The contents of the non-volatile memory (12) of the adjustment jig (10) are always valid within the area where the dealer provides service, unless the reference satellite is changed and the settings are made again. The antenna adjustment information (12) may be common to almost all households within the dealer's service area.

Therefore, the dealer always needs to adjust the antenna for one reference satellite and then just load the contents of the memory (12) into the memory (30M) of the user indoor unit (30), which takes the antenna installation time. is significantly shortened.

Furthermore, even if the dealer changes the area in which he or she is in charge, it is very convenient because all that is needed is to change the contents of the memory (12) of the adjustment jig (10) to suit the area in which the dealer is in charge.

Furthermore, even when performing fine tuning, the directions of each antenna are almost correctly aligned, so the d-adjustment time may be short. In this case, it goes without saying that the antenna adjustment information of each satellite is rewritten in the memory (30M) to the value of the deviation from the reference value after fine adjustment.

〔Effect of the invention〕

As described above, according to the present invention, there is no need to perform antenna adjustment for each of a plurality of satellites as in the past, and the antenna installation is completed by performing antenna adjustment only for the reference satellite, which saves installation time. It can be made shorter.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of main parts of the present invention, FIGS. 2 and 3 are diagrams for explaining an example of use of the antenna adjustment device, and FIG.
FIG. 5 is a flowchart explaining the operation, FIG. 5 is a diagram showing a receiving mode, and FIG. 6 is a configuration diagram of the receiving system. (1) is a satellite broadcast receiving antenna, (11) is a microcomputer, (12) is a nonvolatile memory, and (30M) is a memory built in the indoor unit 1-(30).

Claims (1)

[Claims] Using the antenna adjustment information for the reference satellite as the reference value,
An antenna adjustment device for satellite broadcast reception, comprising a storage means for storing antenna adjustment information for each of a plurality of satellites as a deviation from the reference value.