Passive intermodulation in distributed circuits with cascaded discrete nonlinearities

Passive intermodulation in distributed circuits with cascaded discrete nonlinearities

The principle aspects of passive intermodulation (PIM) characterisation in distributed printed circuits with cascaded lumped nonlinearities are presented. Mechanisms of PIM generations have been investigated experimentally and modelled using the formalism of X-parameters. The devised equivalent circ...

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Bibliographic Details
Published in:2015 9th European Conference on Antennas and Propagation (EuCAP) pp. 1 - 5
Main Authors: Kozlov, Dmitry S., Shitvov, Alexey P., Schuchinsky, Alexander G.
Format: Conference Proceeding
Language:English
Published: EurAAP 01-04-2015
Subjects:
distributed nonlinearity
Frequency measurement
Integrated circuit modeling
Interference
intermodulation distortion
Microstrip
passive intermodulation (PIM)
Pollution measurement
Printed circuits
Transmission line measurements
X-parameters
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Summary:The principle aspects of passive intermodulation (PIM) characterisation in distributed printed circuits with cascaded lumped nonlinearities are presented. Mechanisms of PIM generations have been investigated experimentally and modelled using the formalism of X-parameters. The devised equivalent circuit models are applied to the analysis of microstrip lines with distributed and cascaded lumped sources of nonlinearity. The dynamic measurements have revealed that PIM generation rates in straight and meandered microstrip lines differ and significantly deviate from those expected for the respective discrete sources of nonlinearity. The obtained results indicate that multiple physical sources of nonlinearity contribute to PIM generation in printed circuits. Finally, it is demonstrated that the electrical discontinuities can have significant effect on the overall PIM response of the distributed passive circuits and cause PIM product leakage and parasitic coupling between isolated circuit elements.
ISSN:2164-3342