Analytic Extension of Eigenvalues for Fast Frequency Sweep Analysis of RF Circuits

Quantum Field Theory, as the keystone of particle physics, has offered great insights into deciphering the core of Nature. Despite its striking success, by adhering to local interactions, Quantum Field Theory suffers from the appearance of divergent quantities in intermediary steps of the calculation, which encompasses the need for some regularization/renormalization prescription. As an alternative to traditional methods, based on the analytic extension of space–time dimension, frameworks that stay in the physical dimension have emerged; Implicit Regularization is one among them. We briefly review the method, aiming to illustrate how Implicit Regularization complies with the BPHZ theorem, which implies that it respects unitarity and locality to arbitrary loop order. We also pedagogically discuss how the method complies with gauge symmetry using one- and two-loop examples in QED and QCD.

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Analog Gross Fault Identification in RF Circuits Using Neural Models and Constrained Parameter Extraction

IEEE Transactions on Microwave Theory and Techniques ◽

10.1109/tmtt.2019.2914106 ◽

2019 ◽

Vol 67 (6) ◽

pp. 2143-2150 ◽

Cited By ~ 3

Author(s):

Andres Viveros-Wacher ◽

Jose Ernesto Rayas-Sanchez ◽

Zabdiel Brito-Brito

Keyword(s):

Rf Circuits ◽

Parameter Extraction ◽

Fault Identification ◽

Neural Models

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Research on the Piezoelectric Ultrasonic Actuator Applied to SFSS

Volume 4B: Dynamics, Vibration, and Control ◽

10.1115/imece2015-52506 ◽

2015 ◽

Author(s):

Y. J. Tang ◽

Z. Yang ◽

X. J. Wang ◽

J. Wang

Keyword(s):

Natural Vibration ◽

Structural Parameters ◽

Laser Vibrometer ◽

Vibration Modes ◽

Element Analysis ◽

Linear Type ◽

Frequency Sweep ◽

The Finite Element Analysis ◽

Frequency Sweep Test ◽

Overall Performance

This paper presents an investigation of a novel linear-type piezoelectric ultrasonic actuator for application in a Smart Fuze Safety System (SFSS). Based on the requirements of SFSS, the structural parameters of the proposed piezoelectric ultrasonic actuator are determined by fuze arming mode. Moreover, sensitivity analysis of the structural parameters to the frequency consistency is conducted using FEM software, after which the optimal dimensions are obtained with two close natural vibration frequencies. To validate the results of FEM, the frequency sweep tests of the piezoelectric ultrasonic actuator are performed to determine the motor’s actual working mode frequencies with PSV-300-B Doppler laser vibrometer system. Furthermore, the results of frequency sweep test are compared with that of the finite element analysis, and further verified by impedance analyzer. To investigate the overall performance of the piezoelectric ultrasonic actuator, vibration modes of actuator’s stator, output speed and force of the piezoelectric ultrasonic actuator are tested. The experimental results show that the output speed and force of the actuator can reach 88.2 mm/s and 2.3N respectively, which means that piezoelectric ultrasonic actuator designed in this paper can meet the demands of the SFSS.

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