Experimental study of a frequency discriminator with input signal level compensation
heading:
| Mytsenko, IM, Khalameyda, DD |
Organization:
O. Ya. Usikov Institute for Radiophysics and Electronics of the National Academy of Sciences of Ukraine |
| https://doi.org/10.15407/rej2020.04.080 |
| Language: ukranian |
Abstract:
Subject and Purpose. Answering the need for powerful high-frequency signal generation and desired radar range provision, pulsed magnetrons hold the current lead as part of radar transmitters. Yet there are some disadvantages, such as significant noise level and technological difficulties concerning the frequency tuning implementation. In this connection, a direct control of the pulsed magnetron frequency with the use of the Automatic Frequency Control (AFC) causes problems. And in the receiver, the AFC of the heterodyne rather than of the magnetron is more frequently used. The heterodyne frequency is maintained at such a level that the receiver is always tuned to the frequency of signal to receive. For various signal generation arrangements, the existing methods of frequency tuning with a frequency discriminator will be analyzed towards the following development of a principal electrical schematic diagram with gaining the operating characteristics of the frequency discriminator prototype on that diagram basis. Methods and methodology. The electrical schematic diagram is developed in terms of intuitive approach and analyzed by the mathematical modeling method. Results. The functional scheme of a frequency discriminator combining advantages of both single-cycle circuit (design simplicity and ease of tuning) and two-cycle circuit (null output voltage at a given frequency of the input signal and compensation possibilities as to the input voltage amplitude varying and interference) has been developed. The principal electrical schematic diagram of this new frequency discriminator has been reported together with the measured amplitude and frequency characteristics, dynamical figures, etc. Conclusions. The novelty of the proposed concept of a heterodyne AFC system built around a frequency discriminator has been confirmed. Its advantages over the known solutions have been shown. |
| Keywords: automatic frequency control, frequency discriminator, radar |
Manuscript submitted 23.12.2019
Radiofiz. elektron. 2020, 25(4): 80-85
Full text (PDF)
References:
| 1. Sokolov, A.V. ed., 2003. Questions of advanced radar. Moscow: Radiotekhnika Publ. (in Russian). | ||||
| 2. Bychkov, S.I., 1955. Magnetron transmitters. Moscow: Voenizdat Publ. (in Russian). | ||||
| 3. Kaplanov, M.R., Levin, V.A., 1956. Automatic frequency control. 2nd ed., add. Moscow; Leningrad: Gosenergoizdat Publ. (in Russian). | ||||
| 4. Mytsenko, I.M., Khalameida, D.D., 2018. The system of automatic tuning of the local frequency oscillator of the radar receiver with the transmitter. Radiofiz. elektron., 23(2), pp. 48-53 (in Russian). DOI: https://doi.org/10.15407/rej2018.02.048 | ||||
| 5. Dzyuba, V.P., Eremka, V.D., Zykov, A.F., Milinevsky, L.P., Mytsenko, I.M., Prokopenko, O.I., Roenko, A.N., Luxurious, D.V., 2012. Physical basics and electronic means of control of the surface situation and navigation. V.M. Yakovenko, ed. Sevastopol: Weber Publ. (in Russian). | ||||
| 6. Gutkin, L.S., Lebedev, V.L., and Siforov, V.I., 1963. Radio receiving devices. Pt. 2. Moscow: Sovetskoe radio Publ. (in Russian). | ||||
| 7. Meinke, H., Gunulah, F., 1962. Radio Engineering Reference Book. Translated from German. Vol. 2. Moscow: Gosenergoizdat Publ. (in Russian). | ||||
| 8. Eremka, V.D., Kabanov, V.A., Logvinov, Yu.F., Mytsenko, I.M., Razkazovsky, V.B., Roenko, A.N., 2015. Nontraditional methods and means of radar. Kharkov: Polygraphic center "V lavke" (in Russian). | ||||
| 9. Bezgina, I.P., Eremka, V.D., Makulina, T.A., Mytsenko, I.M., 2015. Current-less tuning and control of self-oscillations frequency terahertz range klynotron. Izvestiya VUZ. Applied Nonlinear Dynamics, 23(6), pp. 47-60 (in Russian). DOI: https://doi.org/10.18500/0869-6632-2015-23-6-47-59 | ||||
