RU96110690A - DIAGRAM FOR SYNCHRONIZING THE FREQUENCY OF THE PARAMETRON OF A DIELECTRIC RESONATOR (OPTIONS) - Google Patents

Claims (11)

1. The circuit for synchronizing the frequency of the parameter of the dielectric resonator waves of vertical and horizontal polarization in a digital microwave system for use in a parallel channel, characterized in that it contains the first means of switching the bias to turn on the first power source, the second means of switching the bias to turn on the second power source, the first means for generating a reference signal for generating a first reference signal for synchronism of said frequency of a local oscillator ne the first power source, the second means of generating a reference signal for generating a second reference signal for frequency synchronism of the specified local generator by the specified second power source, the first means of division for primary and secondary separation and output power of the specified first reference signal, the second
dividing means for primary and secondary separation and outputting of the power of the specified second reference signal, first summing means for summing the power of the primary divided first reference signal with the secondly divided second reference signal and outputting the total power to the dielectric resonator parametron for use in a vertical polarization wave, second summing means for summing the power of the initially divided second reference signal with the secondly divided first reference signal and outputting the total power to the dielectric resonator parametron for use in a vertical polarization wave, the first switching control means for switching the second bias switching means to close the second power source in response to the generation of the first reference signal, second separated in the first division means, and the second switching control means for switching the first bias switching means to close the first power source in response to generation torogo reference signal, a second split in the second dividing means.  2. The circuit according to claim 1, characterized in that the first and second bias switching means, respectively, also comprise a priority determining means consisting of a delay element and a switch for putting one switching means into operation earlier than the other switching means when applying the original power source.  3. The circuit according to claim 1, characterized in that the first switching means consists of means for detecting the level of the first reference signal, second divided in the first means of division, and comparison means for comparing the level of the detected first reference signal with a given reference voltage and on / off control second bias switching means.  4. The circuit according to claim 3, characterized in that the comparison means is configured to control the inclusion of the second bias switching means when the specified level is lower than the reference voltage, and turning off the second switching means when the specified level is higher than the reference voltage.  5. The system according to claim 3, characterized in that the circuit also contains amplification means placed between the means of comparison and means for detecting the level and amplifying the level of the first reference signal.  6. The circuit according to claim 1, characterized in that the switching control means comprises level detecting means for detecting the level of the second reference signal, which is secondly divided in the first division means, and comparison means for comparing the level of the detected second reference signal with a given reference voltage and for on / off control of the bias switching means.  7. The circuit according to claim 6, characterized in that the comparison means is configured to control the inclusion of the first bias switching means when the specified level is lower than the reference voltage, and the inclusion of the first switching means when the specified level is higher than the reference voltage.  8. The circuit according to claim 6, characterized in that the circuit also comprises amplification means placed between the comparison means and the level detecting means and amplifying the level of the second reference signal.  9. The circuit for synchronizing the frequency of the parameter of the dielectric resonator waves of vertical and horizontal polarization in a digital microwave system for use in a parallel channel, characterized in that it contains means for generating a reference signal for generating a reference signal for synchronizing the frequency of the local generator after the power source, the means of the first and second equal separation of the power of the reference signal, the application of the specified primary divided reference signal to the specified parametron di an electric resonator for use in a vertical polarization wave and applying a secondly separated reference signal to a dielectric resonator parametron for use in a vertical polarization wave. 10. A circuit that includes first generator frequency synchronization control means for controlling a frequency synchronism of a vertical polarization dielectric resonator wave parameter in a digital microwave system for use in a parallel channel, and second generator frequency synchronization control means for controlling a frequency synchronism of said wave dielectric resonator parameter horizontal polarization in a digital microwave system for use in pairs lllle channel, characterized in that the first generator frequency synchronization control means comprises, the first bias switching means for switching the first power source by this switching control signal, which comes from the second generator frequency synchronization control means, the first reference signal generating means for generating the first reference signal for frequency synchronization of the local generator by the first power source, the first dividing means for the primary and secondary section the power and output power of the specified first reference signal, the first summing means for summing the power of the divided primary first reference signal with the power of the second divided second reference signal and outputting the total power to the dielectric resonator parametron for use in a vertical polarization wave, and the first switching control means for detecting the level the first reference signal, second divided in the first means of division, for comparison
a detected level with a predetermined reference voltage and outputting a switching control signal to a second generator frequency synchronization means, the second generator frequency synchronization control means comprising a second bias switching means for switching a second power source, second reference signal generating means for generating a second reference signal for frequency synchronization a local generator with a second power source, a second division means for primary and secondary separation and outputting the power of the second reference signal, second summing means for summing the power of the initially separated second reference signal with the power of the secondly divided first reference signal generated in the first generator frequency synchronization control means and outputting the total power to the dielectric resonator parametron for use in a vertical polarization wave, and second switching control means for detecting a level of the second reference signal, second divided in the second cp the means of dividing, comparing the detected level with a given reference voltage and outputting the switching control signal to the first generator frequency synchronization means.  11. The circuit of claim 10, wherein the first and second switching control means are configured to control the inclusion of said first and second bias switching means when the indicated level is lower than the reference voltage and turning off the first and second switching means case when the level is higher than the reference voltage.