DE3138707A1 - Radar unit - Google Patents

Abstract

Published without abstract.

Description

Radar device

The invention relates to a radar device via an antenna line is connected to a common transmitting and receiving antenna.

To carry out a practical test operation with radar devices To be able to use the radar transmitter at full power, among other things can be. This can seriously affect public radio services lead, if in some areas the radar frequency band, e.g. of television radio links is occupied.

The invention is based on the problem of influencing directional radio links or the like to avoid through radar exercises without the practical exercise to have to give up.

According to the invention, this object is achieved in that in the Transmission / reception path between radar device and antenna (antenna cable) during the Trial and training operation is an attenuator that is only effective during the transmission process is switched on with the specified damping value.

To by a sufficiently fast switching of the attenuator a reliable function after each transmission and reception period of the radar device to ensure the attenuation of the emitted transmission power, is according to a proposed advantageous embodiment of the invention, the connection between Radar device and antenna using two circulators in two parallel directional lines with oppositely directed transmission properties as a transmission and reception path to subdivide, of which the transmission path has a power attenuator.

Should it be ensured despite the reduction of the transmission power, that the range of the radar is essentially maintained, then can the targets to be located during a training session with known Luneberg reflectors be equipped by an apparent enlargement of the target cross-section increase the target's reflectance energy.

The invention and further details of the invention will become apparent with reference to an embodiment shown in the figure explained in more detail.

In the connection between a radar device R with a transmitter and Receiving part and a radar antenna A is for the test and exercise operation a direction-dependent damping arrangement in series with an antenna line AL DA inserted. The damping arrangement is expediently designed so that it is used as a circuit unit for normal operation easily and quickly through a continuous Line piece can be replaced.

The damping arrangement DA has one input and one output each Circulator Z1 or Z2 of known design, which has an input / output 1 or 1 are connected to the radar device R or to the antenna line AL. Above the two circulators Zi, Z2 with their further outputs and inputs 2, 3 and 2 ', 3 ', the transmission line is split into two directional parallel branches ZS, ZE such that the output 2 of the circulator Z1 with the input 3 'of the circulator Z2 (branch ZS) and the output 2i with the input 3 of the circulator Zi (branch ZE) is connected.

The conduction directions of the branch are opposite, where the branch ZS, which exclusively carries the transmission energy, has a power attenuator D has. The branch ZE is permeable to the received energy from the antenna.

The high transmission power coming from the radar transmitter reaches the input 1 of the circulator Z1, is diverted to output 2 and in the power attenuator D by approx.

- 20 dB attenuated. The reduced transmission energy is sent to the input 3 'of the circulator Z2 and via the output 1', the antenna feed line AL to antenna A. The received signal received from the antenna passes over the input 1 of the circulator 2 to its output 2 'and via an undamped line to input 3 of the circulator Z1. If the losses in the circulators are neglected Z1 and Z2 are the received signal at output 1 of the circulator Z1 for amplification and signal processing in the radar receiver R is available undamped.

3 claims 1 figure

Claims (3)

Claims 1. Radar device that has an antenna line with a common transmitting and receiving antenna is connected z e i c h n e t p that in the transmission / reception path between the radar device and antenna (antenna feed line) during the training and training operation, an effective only during the transmission process Attenuator (D) is switched on with the specified attenuation value. 2. Radar device according to claim 1, d a d u r e h g e = k e n n z e i c h n e t that the connection between radar device (R) and antenna (A) is using from two circulators (Z1, Z2) into two parallel directional lines (ZS, ZE) with oppositely directed transmission properties as a transmission and reception path is divided, of which the transmission path has a power attenuator (D). 3. Radar device according to claim 1 or 2, d a d u r c h g e k e n n z E i c h n e t that the circulator arrangement in normal operation by a line piece is replaced.