A Novel Prediction Method about Single Components of Analog Circuits Based on Complex Field Modeling

Few researches pay attention to prediction about analog circuits. The few methods lack the correlation with circuit analysis during extracting and calculating features so that FI (fault indicator) calculation often lack rationality, thus affecting prognostic performance. To solve the above problem, this paper proposes a novel prediction method about single components of analog circuits based on complex field modeling. Aiming at the feature that faults of single components hold the largest number in analog circuits, the method starts with circuit structure, analyzes transfer function of circuits, and implements complex field modeling. Then, by an established parameter scanning model related to complex field, it analyzes the relationship between parameter variation and degeneration of single components in the model in order to obtain a more reasonable FI feature set via calculation. According to the obtained FI feature set, it establishes a novel model about degeneration trend of analog circuits' single components. At last, it uses particle filter (PF) to update parameters for the model and predicts remaining useful performance (RUP) of analog circuits' single components. Since calculation about the FI feature set is more reasonable, accuracy of prediction is improved to some extent. Finally, the foregoing conclusions are verified by experiments.

[1]  Kwang-Ting Cheng,et al.  Test generation for linear time-invariant analog circuits , 1999 .

[2]  Shulin Tian,et al.  Diagnostics of Filtered Analog Circuits with Tolerance Based on LS-SVM Using Frequency Features , 2012, J. Electron. Test..

[3]  Houjun Wang,et al.  Test generation algorithm for analog systems based on support vector machine , 2011, Signal Image Video Process..

[4]  Jacob A. Abraham,et al.  Analog Testing with Time Response Parameters , 1996, IEEE Des. Test Comput..

[5]  Bozena Kaminska,et al.  LIMSoft: automated tool for design and test integration of analog circuits , 1996, Proceedings International Test Conference 1996. Test and Design Validity.

[6]  Mani Soma,et al.  Dynamic test signal design for analog ICs , 1995, ICCAD.

[7]  Min Li,et al.  Prognostics of Analog Filters Based on Particle Filters Using Frequency Features , 2013, J. Electron. Test..

[8]  Jing Yang,et al.  Complex Field Fault Modeling-Based Optimal Frequency Selection in Linear Analog Circuit Fault Diagnosis , 2014, IEEE Transactions on Instrumentation and Measurement.

[9]  P. Lall,et al.  Prognostics and health management of electronics , 2006, 2006 11th International Symposium on Advanced Packaging Materials: Processes, Properties and Interface.

[10]  Bing Long,et al.  Diagnostics and Prognostics Method for Analog Electronic Circuits , 2013, IEEE Transactions on Industrial Electronics.