CS201733B1 - System of aerial with osecondary reflector and receiver - Google Patents

Description

The invention relates to a secondary reflector-receiver antenna system having an antenna reflector, a mixer and a mixer irradiator and a local oscillator or calibration source and a local oscillator or calibration source irradiator.

Systems are already known which, for connecting the receiver input mixer to a signal source, use to link a local oscillator signal to a directional coupler, circulator or filter. The mixer with the local oscillator must then be connected to the antenna feed through a power dissipation.

The main disadvantages of these devices are that, as the frequency of the received signal increases, all of the above elements exhibit greater losses and thus necessarily cause a deterioration in the sensitivity of the receiving device.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an integrated antenna array with a secondary reflector and receiver in which the main sources of loss in the path of the received signal, namely directional couplers, power supplies, non-reciprocal elements etc. are excluded. oscillator where they cannot

Eioršovat and art properties of the system.

The object of the present invention is to provide a mixer irradiator directly connected to a mixer, the output of which is connected to an intermediate portion of the receiver, and a local oscillator illuminator connected to the output of a local oscillator. of the secondary reflector and directed towards the mixer feed to provide optimal local oscillator signal transmission to the mixer.

The main advantages of the system according to the invention are that the local oscillator signal is fed to the mixer in the same way as the received signal. The local oscillator output is coupled to a local oscillator, which produces an electromagnetic field near the antenna system in such a way that the mixer is powered by the local oscillator signal at a level necessary for proper operation.

By directly connecting the receiver mixer to the antenna feed, losses in the antenna feeder and couplers for introducing the local oscillator signal to the mixer are completely eliminated. The design of the system is simplified and cheaper by omitting the couplers and the feeder, and the noise parameters of the system are improved by the attenuation value that the elements act differently by placing them in the path of the receiving signal. Said introduction of the local oscillator signal into the mixer can also be used to apply calibration signals to the input of any receiver connected to the antenna.

The invention is explained in more detail below in an exemplary embodiment in conjunction with the drawing.

In the drawing, the system according to the invention is schematically illustrated.

The system according to the invention has an antenna reflector 1 in which Cassegrain or Georgi et al. the focus is placed on the mixer 2 irradiator 3, directly connected to the mixer 2, the output of which is connected to the receiver intermediate part 6, wherein the local oscillator 5 irradiator 4 is located at the top of the secondary reflector 7 or at the edge of the antenna reflector 1 , and directed towards or toward the irradiator of the mixer 3 to ensure optimal transmission of the local oscillator 5 signal to the mixer 2.

The received signal, centered by antenna optics, consisting of an antenna reflector 1 or possibly a secondary reflector 7, into the focus where the irradiator 3 of the mixer 2 is located,

SUBJECT

Claims (2)

SUBJECT An array of secondary reflector and receiver equipment having an antenna reflector, mixer and irradiator mixer and a local oscillator or calibration source, and a local oscillator or calibration source irradiator, characterized in that a mixer irradiator (3) is located in the region of the aerial reflector (1). 2), directly connected to the mixer (2), which is mixed with the mixer 2, is converted to an intermediate frequency signal and further processed by the intermediate frequency part 6 of the receiver, while the local oscillator 5 signal is emitted by the local oscillator 5 to the mixer 2 to ensure proper operation of the mixer 2. The local oscillator 5 signal may be attenuated due to the directional characteristics of the irradiators 3 and 4. In addition to the local oscillator 5 signal, calibration signals may likewise be applied to the receiver input. The present invention can advantageously be used wherever the reception of high sensitivity receiving devices is desired and where the low-level radiation of the local oscillator signal does not matter mainly in the direction from which the received signal comes. Thus, it can be used, for example, for satellite link receiving stations, radio relay receivers, radio astronomy receivers, airborne satellite, aircraft and ship receiving stations, radiometric receivers of all kinds, measuring receiver units of various purposes, doppler systems of all kinds and monopulse radars.