A method for the estimation of defect detection probability of analog/RF defect-oriented tests

A method to realistically estimate the defect detection probability achieved by defect-oriented analog/RF integrated circuit tests at the circuit design level is presented in this paper. The proposed method also provides insight to the efficiency of the various available defect-oriented testing techniques, thus allowing the selection of the most suitable for a specific circuit. The effect of structural defects in the presence of process variations and device mismatches is taken into account, by the exploitation of the defect probability distributions and the statistical models of the used technology. Although the proposed methodology is generally applicable to the entire class of analog circuits, its application to simple RF circuits which consist of a few elements seems to be more practical, due to the affordable computational cost implied by circuits with shorter defect dictionaries. In order to obtain results without a reliability compromise, the number of required statistical simulation runs is reduced through regression. The application of the proposed method on a typical RF mixer, designed in a 0.18μm CMOS technology, is also presented.

[1]  K. Arabi,et al.  Design for testability of embedded integrated operational amplifiers , 1998, IEEE J. Solid State Circuits.

[2]  Rosa Rodríguez-Montañés,et al.  Bridging defects resistance measurements in a CMOS process , 1992, Proceedings International Test Conference 1992.

[3]  Sule Ozev,et al.  Defect-Oriented Testing of RF Circuits , 2008, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems.

[4]  Y. Xing Defect-oriented testing of mixed-signal ICs: some industrial experience , 1998, Proceedings International Test Conference 1998 (IEEE Cat. No.98CH36270).

[5]  Edward J. McCluskey,et al.  IDDQ data analysis using current signature , 1998, Proceedings 1998 IEEE International Workshop on IDDQ Testing (Cat. No.98EX232).

[6]  Camelia Hora,et al.  Diagnosis of Local Spot Defects in Analog Circuits , 2012, IEEE Transactions on Instrumentation and Measurement.

[7]  Yiorgos Tsiatouhas,et al.  A test and calibration strategy for adjustable RF circuits , 2013 .

[8]  R. Picos,et al.  Parametrical fault test of CMOS LNA , 2008, 2008 7th International Caribbean Conference on Devices, Circuits and Systems.

[9]  Thomas Olbrich,et al.  Defect-oriented vs schematic-level based fault simulation for mixed-signal ICs , 1996, Proceedings International Test Conference 1996. Test and Design Validity.

[10]  Salvador Mir,et al.  Defect filter for alternate RF test , 2009, 2010 15th IEEE European Test Symposium.

[11]  J. Freidman,et al.  Multivariate adaptive regression splines , 1991 .

[12]  Yiorgos Makris,et al.  Confidence Estimation in Non-RF to RF Correlation-Based Specification Test Compaction , 2008, 2008 13th European Test Symposium.

[13]  R. Kheriji,et al.  Optimising test sets for RF components with a defect-oriented approach , 2004, Proceedings. The 16th International Conference on Microelectronics, 2004. ICM 2004..

[14]  Salvador Mir,et al.  Bayesian Fault Diagnosis of RF Circuits Using Nonparametric Density Estimation , 2010, 2010 19th IEEE Asian Test Symposium.

[15]  Rosa Rodríguez-Montañés,et al.  Resistance characterization for weak open defects , 2002, IEEE Design & Test of Computers.

[16]  Yiorgos Tsiatouhas,et al.  A Built-In-Test Circuit for RF Differential Low Noise Amplifiers , 2010, IEEE Transactions on Circuits and Systems I: Regular Papers.

[17]  Abhijit Chatterjee,et al.  Fault-based alternate test of RF components , 2007, 2007 25th International Conference on Computer Design.

[18]  Salvador Mir,et al.  A General Method to Evaluate RF BIST Techniques Based on Non-parametric Density Estimation , 2008, 2008 Design, Automation and Test in Europe.

[19]  John Paul Shen,et al.  Inductive Fault Analysis of MOS Integrated Circuits , 1985, IEEE Design & Test of Computers.

[20]  Manoj Sachdev,et al.  Defect-Oriented Testing for Nano-Metric CMOS VLSI Circuits , 2007 .