PL84992B1 - - Google Patents

Description

The subject of the invention is a controlled system that interfaces microwave sources, generating RF signals. with significantly different power levels.

The known couplers are made in the form of conventional directional couplers or in the form of combined circuits, including directional waveguide couplers, dampers and couplers directional lines on TEM or quasi-TEM lines, with the values of the gears and the attenuation present in such system result from the required Mutual separation of microwave sources, i.e. such separation when the power leaking from a source of high power, it does not have a destructive effect on a source of low power and does not interfere with its work, and the electric circuits of a low-power source practically do not consume the energy produced by the high-power source power.

The main disadvantage of these known coupling systems is the excessive attenuation of the signal from the small source introduced into a common microwave network transmitting simultaneous signals of high power. Them the greater the power provides a microwave source of greater power, the greater the separation of both sources must be provided by the system coupled, thus limiting the level of the low power signal in the common microwave network.

In many applications it is desirable that a signal from a low power source, often referred to as a signal the pilot or the test signal present in the common microwave network had a correspondingly large the level necessary, for example, for the functional control of the receiving systems of a given device. And yes in the case of a radiolocation device with a microwave network common to the transmitter and receiver, transmits considerable power in the form of high frequency pulses from the transmitter to the antenna and there is a need at the same time introducing into this network test signals for checking the receiving circuits or the pilot signal to correcting the gains of individual receiving paths, it is necessary to obtain high dynamics of the signal control catches.

Increase in the dynamics of test signals, with a specific power of the source of these signals and its resistance to leakage power is obtained by introducing into known coupling circuits, instead of resistor dampers irreversible microwave ferrite elements that enable an increase in the dynamics of test signals2 84 992 o the value of the blocking suppression of a given ferrite element, ignoring small losses these elements for the passage direction.

The disadvantage of this known solution is the high cost of the microwave irreversible ferrite elements and their relatively large size, especially in the lower microwave bands.

The aim of the invention is to build a source coupling system, microwave, with significantly different ones levels of power that will effectively protect the low-power source from damage and interference the interaction of a high power source, with a simultaneous increase in the level of the low power signal in common for both sources of the transmission network, while limiting to the necessary minimum the number of microwaves ferrite elements, or when they are completely eliminated from the coupling system.

This goal was achieved by the fact that the microwave source of low power is connected to the input of the quad transmission, which is also the output for a decoupled signal of high power, and the output of this cross, which is also an input for a high power signal, it is connected with the auxiliary circuit of the coupler directional, which introduces a low-power signal from the output of the quad to the network common to both sources transmission. In addition, a transmission cross with switching diodes in the matching structures, which are part of the electric circuit of the polarization of these diodes, depending on the value and polarity value of the polarization voltages introduced to them from a separate control source and depending on impulse power leaking from the common transmission network to the quad - shows as required time periods directional properties.

The advantage of the application of the invention is that it can be eliminated from the system adhering expensive and relatively large ferrite elements, maintaining the dynamics of the test signal within the same limits as in the system with ferrite elements, or when using a combined system to couple containing a ferrite element cooperating with a transmission transformer on PIN diodes, you can significantly increase the dynamics of test signals, introduced into the common microwave network, on for example, for control and measurement purposes, and for the gating of the voltage polarizing the PIN diodes, the signal test can be introduced to the common transmission network in a specific time relation to the appearance of high-frequency power pulses in this network, which is used to automate control measurements device.

The invention is explained in more detail by means of an exemplary embodiment in the attached drawing which it shows connection diagram of the coupling system.

RHW impulse signal generator with high power level 1 is connected to the microwave network 2, including the bond structure 3, made for example in the form of a conventional clutch directional line on the waveguide. RH impulse signals are transmitted in the microwave network to load 4, which may be made, for example, in the form of an antenna of a radar. Pulse high speed signal with a high power level, it triggers an RF signal in the auxiliary arm 5 of the bonding structure 3. with an amplitude dependent on the coupling of the structure 3, which signal penetrates the input 6 of the transmission cross 7, polarizing at the same time its switching diode P, which in polarization conditions with a high frequency signal requests significant attenuation between sockets 6 and 8 of the transmission quad 7, protecting during the pulse duration Low power source 9 against destruction and interference from the transmitter.

In the time periods when there are no high frequency pulses in microwave network 2 high power, cross 7 transmits the signal of the low power source 9 connected to the socket 8 of the quad-7 socket with practically no losses this is introduced into the common f of the microwave network 2 through the bonding structure 3. Dependent on the voltage polarity of the switching diodes with the voltage coming from the control source 10, the low power signal is gated and introduced into the microwave network 2 in a specific time relation to appearance in this network of high frequency pulses high power.

Claims (1)

1. Patent claim A controlled coupling system containing a source of impulse RF signals. with a high power level and a low-power source operating on a common transmission network with a connecting structure included in it and containing a transmission cross-section with a switching diode placed in the matching structure, characterized in that the microwave source (9) is connected to the input (8) constituting at the same time the output for the decoupled impulse signal of the quadruple (7) having directional properties in the required time periods, and the output (61 of this quad, which is also the input for the signal from the source (1), is connected with the auxiliary path (5) of the bonding structure (3). 84992 r "I ++ x 4-H ++ JT« / -U 5 / -r L_ .___ U y "6 r O ~ i ^ t 10 I 8 i H