Assessment of Influence of Impedance Mismatch in ULSI Devices on Electromigration of Copper Interconnection Lines

• Published in: IEEE transactions on device and materials reliability Vol. 13; no. 1; pp. 231 - 235
• Main Authors: Livshits, P., Rysin, A., Sofer, S., Fefer, Y.
• Format: Magazine Article
• Language: English
• Published: IEEE 01.03.2013
• Subjects: CMOS integrated circuits; Electromigration; Electromigration (EM) and Joule heating; Impedance; impedance matching; integrated circuits; Inverters; on-die transmission lines; Power transmission lines; Reliability; Ultra large scale integration
• ISSN: 1530-4388; 1558-2574
• DOI: 10.1109/TDMR.2012.2236556

In this work, the impact of impedance mismatch between on-die CMOS drivers and driven transmission lines on electromigration (EM) and Joule-heating failure mechanisms has been qualitatively studied. Signals corrupted by the impedance mismatch were experimentally measured within a 45-nm CMOS technology ULSI test chip. The signals' current waveforms were obtained using a SPICE simulator. These voltage and current waveforms have been taken as a basis for our calculations. The results reveal that distortions of current shape, which are caused by the mismatched output impedance of a CMOS driver, lead to substantial aggravation of the EM and Joule heating in a driven line. Furthermore, it was found that the impedance mismatch causes serious modifications of current shape of a CMOS inverter connected to the far end of the line. This in turn aggravates both EM and Joule heating in the next-stage line that loads this CMOS inverter.