Effects of CW interference on phase-locked loop performance

This paper focuses on the modeling and analysis of phase-locked loops in the presence of continuous wave (CW) interference such that the operating vulnerability to CW jamming and interference can be accessed. The loop phase error is characterized, and the conditions under which the loop remains locked in frequency to the desired carrier are presented. Analysis is conducted for arbitrary offsets of carrier and interferer signal frequencies relative to the quiescent voltage-controlled oscillator (VCO) frequency. The results show that loop performance depends not only on the frequency difference between the desired signal and interferer, but also on the frequency offset between the quiescent VCO oscillation and desired carrier. The vulnerability of the loop to the presence of interference increases if interferer and desired signal spectral locations are in opposite sides of quiescent VCO frequency.

[1]  Toshiaki Suzuki,et al.  Influence of an interfering second target on a certain amplitude‐comparison monopulse radar system , 1984 .

[2]  Carl Olenberger Effects of Automatic Gain Control on Phase-Locked Loop Behavior in the Presence of Interference , 1976, IEEE Transactions on Aerospace and Electronic Systems.

[3]  R. E. Ziemer,et al.  RFI in hybrid loops - Simulation and experimental results. , 1972 .

[4]  N. K. Abdulaziz,et al.  Effect of an AGC amplifier on the performance of a generalised PLL in the presence of a large interfering signal , 1989 .

[5]  Isaac Kliger,et al.  Phase-Lock Loop Jump Phenomenon in the Presence of Two Signals , 1976, IEEE Transactions on Aerospace and Electronic Systems.

[6]  B. Levitt Carrier Tracking Loop Performance in the Presence of Strong CW Interference , 1981, IEEE Trans. Commun..

[7]  Charles L. Britt,et al.  Effects of CW Interference on Narrow-Band Second-Order Phase-Lock Loops , 1967, IEEE Transactions on Aerospace and Electronic Systems.

[8]  Peter Jung,et al.  Thermal activation in bistable systems under external periodic forces , 1989 .

[9]  William C. Lindsey,et al.  SYNCHRONIZATION SYSTEMS in Communication and Control , 1972 .

[10]  M. K. Sue DSN RFI susceptibility models development program overview , 1982 .

[11]  W. Lindsey,et al.  Phase-Locked Loop Performance in the Presence of CW Interference and Additive Noise , 1982, IEEE Trans. Commun..

[12]  M.F. Karsi,et al.  Effects of CW interference on carrier tracking , 1994, Proceedings of MILCOM '94.

[13]  A. Blanchard,et al.  Interferences in Phase-Locked Loops , 1974, IEEE Transactions on Aerospace and Electronic Systems.

[14]  B. C. Sarkar Phase error dynamics of a first-order phase locked loop in the presence of cochannel tone interference and additive noise , 1990, IEEE Trans. Commun..

[15]  Carl Olenberger,et al.  Multiple Target Effects on Monopulse Signal Processing , 1975, IEEE Transactions on Aerospace and Electronic Systems.