Immunity Test for Semiconductor Integrated Circuits Considering Power Transfer Efficiency of the Bulk Current Injection Method

The bulk current injection (BCI) and direct power injection (DPI) method have been established as the standards for the electromagnetic susceptibility (EMS) test. Because the BCI test uses a probe to inject magnetically coupled electromagnetic (EM) noise, there is a significant difference between the power supplied by the radio frequency (RF) generator and that transferred to the integrated circuit (IC). Thus, the immunity estimated by the forward power cannot show the susceptibility of the IC itself. This paper derives the real injected power at the failure point of the IC using the power transfer efficiency of the BCI method. We propose and mathematically derive the power transfer efficiency based on equivalent circuit models representing the BCI test setup. The BCI test is performed on I/O buffers with and without decoupling capacitors, and their immunities are evaluated based on the traditional forward power and the real injected power proposed in this work. The real injected power shows the actual noise power level that the IC can tolerate. Using the real injected power as an indicator for the EMS test, we show that the on-chip decoupling capacitor enhances the EM noise immunity.

[1]  Wansoo Nah,et al.  Electromagnetic Susceptibility Analysis of I/O Buffers Using the Bulk Current Injection Method , 2013 .

[2]  T.H. Hubing,et al.  The Electromagnetic Compatibility of Integrated Circuits—Past, Present, and Future , 2009, IEEE Transactions on Electromagnetic Compatibility.

[3]  R. Perdriau,et al.  Efficiency of Embedded On-Chip EMI Protections to Continuous Harmonic and Fast Transient Pulses with Respect to Substrate Injection , 2007, 2007 IEEE International Symposium on Electromagnetic Compatibility.

[4]  Martin H. Graham,et al.  Book Review: High-Speed Digital Design: A Handbook of Black Magic by Howard W. Johnson and Martin Graham: (Prentice-Hall, 1993) , 1993, CARN.

[5]  F. Grassi,et al.  Circuit Modeling of Injection Probes for Bulk Current Injection , 2007, IEEE Transactions on Electromagnetic Compatibility.

[6]  Wansoo Nah,et al.  Bulk current injection test modeling using an equivalent circuit for 1.8V mobile ICs , 2012, 2012 Asia-Pacific Symposium on Electromagnetic Compatibility.

[7]  I. Chahine,et al.  Characterization and Modeling of the Susceptibility of Integrated Circuits to Conducted Electromagnetic Disturbances Up to 1 GHz , 2008, IEEE Transactions on Electromagnetic Compatibility.

[8]  B. Li,et al.  Prediction of Long-term Immunity of a Phase-Locked Loop , 2011, 2011 12th Latin American Test Workshop (LATW).

[9]  P. T. Vanathi,et al.  An Enhanced Architecture of CMOS Phase Frequency Detector to Increase the Detection Range , 2014 .