DE3507989A1 - Method for checking an Adcock antenna system - Google Patents

Abstract

The method described is used for checking Adcock antenna systems of a radio direction finding system. For this purpose, the dummy masts erected for the purpose of error reduction are used for checking the antenna system. It is suitable to feed the dummy masts individually with a test signal by manual or automatic switch-over, in order to check adjacent receiving masts for symmetry.

Description

Test methods are known in which a test transmitter in a

placed at a short distance from the antenna system and exactly the vertical between adjacent masts is aligned.

The antenna voltages of these two masts are applied to the Bearing detection inputs switched so that a check can be carried out using the bearing image on equality is possible. This procedure takes a lot of time, as the antenna masts can only be tested in pairs in sequence.

Another method is that at a distance of a few Several test transmitters can be set up kilometers away, but this procedure is also applicable very complex and the results can be caused by environmental influences such as reflection be falsified.

Furthermore, a method is known in which a complex individual check the antenna mast is not required (PS DE 2 451 727 C2).

This procedure uses a test signal from the center of the antenna system radiated so that all antenna masts have the same amplitude and phase position of the test signal are excited. A disadvantage of this method is that the DF voltages supplied by the Adcock antenna system deliver a minimum, see above far everything works fine. Another disadvantage is that although the The antenna system can be checked as a whole, but a defective mast cannot.

The invention is based on the object of a simple, reliable working method and a corresponding device for checking radio direction finder systems to create with Adcock antenna systems.

This object is achieved according to the invention in that in antenna systems, which also consists of several concentric Adcock systems for different frequency ranges The dummy masts erected to reduce errors can exist for inspection the reception masts are used.

For this purpose, the dummy masts are fed with a test signal and as a Transmitter antenna used instead of the test transmitter described above.

Reception mast pairs adjacent to the blind mast can then be symmetrical to be checked. About time-consuming and laborious measuring of the neighboring masts Avoiding manual repositioning of the connections is advantageous an automatic, remote-controlled switchover of the test signal to the dummy masts and the respective associated reception mast pairs according to FIG. 1 are provided.

For example, a test signal may be sent to the dummy mast with switch S12- B12 be switched, while the other dummy masts on their terminating resistor R are switched. The signals to be checked from neighboring masts 1 and 2 are then switched to the antenna lines via switches and S2 or SAß and SCD and thus qelanoen to the recipient, on his display screen when working properly Antennas a 450 display without splitting with disconnected auxiliary antennas tHA) signal you can see. A corresponding procedure is used when checking the further antenna pairs.

An additional advantage of this method is that besides the individual test of the antenna masts by switching the test signal to one Blind mast or a review of the entire system on all blind masts at the same time is made possible, so also the function of the coordinate transformation, which is used to reduce the receiving voltages of the single masts to the receiving voltages UAB, UcD and UHA is needed in a known manner. When the test signal is switched on, for example on the blind mast B12 and when the switches S1 to S8 or. SAB 'ScD on position "Bearing" (connection shown in dashed lines) results from an error-free system a line display at an angle of 22.50 on the receiver's display screen, since the HA signal is also checked.

By switching the test signal to the other dummy masts with the switches S12 to S81 result in display angles for the respective position of the connected blind mast, i.e. a multiple of the angle? 2.50: 22.50, 67.50, 112.50, 157.50, 202.50, 247.50, 292.50, 337.50.

Claims (7)

n Procedure for checking an Adcock antenna system ft P a t e n t a n s p r ü c h e 1. Procedure for checking at least one Adcock antenna system a radio direction finder system, which does not indicate that it is used to reduce errors The erected dummy masts (B) were used to check the antenna system will. 2. The method according to claim 1, characterized in that the dummy masts (B) individually fed with a test signal by manual or automatic switching to check neighboring reception masts for symmetry. 3. The method according to claim 1 or 2, characterized in that several concentric Adcock systems for different frequencies for checking are provided. 4. The method according to any one of claims 1 to 3, characterized in that that the Adcock systems are tested as a whole. 5. The method according to any one of claims 1 to 4, characterized in that that the functionality of the antenna masts and that of a circuit that is carried out by Coordinate transformation of the individual antenna voltages to the auxiliary antenna voltage to the Page identifier and reduced to the bearing voltages, is checked. 6. Device for carrying out the test procedure according to one of the Claims 1 to 4, characterized in that for feeding in the test signal in the antenna system the auxiliary antenna cable is used. 7. Device for carrying out the test method according to claim 5, characterized in that for feeding the test signal into the antenna system a separate line is used.