TH17444A - "Device and antenna alignment method using received signal error conditions" - Google Patents

Abstract

Satellite receiver for receiving digital coded TV signals. There will be a device for aligning the receiving antenna. It responds to a number of errors that exist in such digitally coded TV signals. Error correction is possible if the number of errors is below the shift threshold. And it would be impossible if the number of errors exceeded the threshold. The level of this antenna is set according to the location of the receiving location. After that, the azimus angle of the antenna is coarsely aligned. By rotating the antenna with a small boost volume To find a certain area It is possible to correct the mistake first. During this rough alignment process The tuner of the satellite receiver will attempt to find an image of a specific tuning frequency. It is possible to demodulate the signal and correct errors. If a suitable frequency is not found after a certain range of frequencies has been searched The antenna is then rotated with a small increase in volume. As soon as it is possible to correct the error, the fine alignment process is initiated with the antenna being rotated. To determine the boundary of a part of the azimush arc Throughout this section it is possible to correct continuous glitches, after which this antenna is set so that it is approximately centered between at least the two regions of the arc.

Claims (7)

1. A kind of method for aligning the antenna. Which is used to receive a signal which has one component which is digitally coded Where the received signal is articulated to one receiver Which provides a mechanism for detecting the digital fault conditions of such digital components. And a mechanism for generating a digital fault condition signal. There is one condition when that digital error condition exceeds the threshold that indicates that digital error correction is not possible. And there is one second condition when the aforementioned digital fault condition is below the said threshold. That indicates that digital error correction is possible. Where the above method consists of the following steps. Shifting the antenna from one of the starting positions The first position Where the signal indicates such a digital fault condition. Will change from the first condition to the second condition And indicate the second position one Where the aforementioned digital fault indication changes from that second condition to that one. When the said antenna is shifted To define the area boundary of the antenna position Where digital error correction is possible and the determination of a position which is literally centered between the aforementioned first and second position. From the aforementioned first and second positions within the area where digital fault correction is possible and the said antenna shift to that center position. 2. The method described in claim 1, where the antenna is shifted by hand and the aforementioned procedure for determining the aforementioned first and second positions. There will be a section that is a manual measurement. To measure the antenna alignment response caused by such receivers in response to such digital error indications. And which have the first and second characteristics corresponding to the aforementioned first and second conditions of the said digital fault condition signal. 3. Method as stated in Clause 1, the antenna is a type of satellite antenna. And the receiver is a type of satellite receiver, and the azimus angle position is aligned according to the method described in claim 1. 4. The method specified in claim 3, whereby the elevated position of the aforementioned antenna is set before the azimush angle position is aligned. 5. receiver, which is used to receive a signal Which contains messages containing digitally coded components from the said antenna Where this antenna alignment device consists of A mechanism for detecting the digital error conditions of such digitally coded message components. It produces one signal indicating whether it is possible to correct digital faults and a mechanism that responds to changes in that digital fault condition signal for determining the boundaries of a particular area. Of those antenna positions It is possible to correct digital glitches. 6. Equipment as specified in Clause 5, the mechanism for determining the area of such antenna location It is possible to correct digital glitches. It produces a signal to produce a response to indicate the area to the user. 7. The equipment specified in claim 5, which a tuner / de modulator will be able to derive a component of the said information from the said signal. And gave birth to a signal indicating the completion of its operation. Where the mechanism for defining such areas of the antenna positions It is possible to correct digital glitches. Will have a control unit Which also controls the operation of the aforementioned tuner / demodulator for making such a tuner / demodulator Conducting a search for a specified period of the search frequency To find a suitable frequency a certain frequency For tuning a signal that is received by the said receiver The controller will cause the tuner / demoder to rediscover the aforementioned range of the search frequency. After the search period had been fully raided in the previous search. If a suitable frequency for such a tuned signal has not been found Or if digital errors are impossible For the frequency of such searches Any frequency