Title :
Techniques for high-frequency integrated test and measurement
Author :
Hafed, Mohamed M. ; Roberts, Gordon W.
Author_Institution :
Microelectron. & Comput. Syst. Lab., McGill Univ., Montreal, Canada
Abstract :
This paper describes techniques for the on-chip measurement of high-frequency and/or high-bandwidth electrical phenomena in ultra large-scale integration environments. The techniques rely on the integration of multiple compact and robust electronic test devices, or cores, at various locations within an integrated circuit. The cores consist primarily of signal generators that approximate the output of a sigma-delta modulator using finite repetitious bit patterns and a small set of highly robust analog components. They are capable of digitizing on-chip signals at gigahertz rates even using low-cost manufacturing processes. Simple communication between the multiple cores enables the migration of many "board-level" type measurements down to the chip level.
Keywords :
ULSI; built-in self test; divide and conquer methods; integrated circuit testing; mixed analogue-digital integrated circuits; sigma-delta modulation; system-on-chip; CMOS process; divide-and-conquer test methodology; embedded test; finite repetitious bit patterns; high-bandwidth electrical phenomena; high-frequency phenomena; mixed-signal; multiple cores; multiple test devices integration; on-chip measurement; on-chip test cores; robust analog components; sequential-registers; sigma-delta modulator; signal generators; system-on-chip; time-domain measurement; ultra large-scale integration; Circuit testing; Delta-sigma modulation; Electric variables measurement; Electronic equipment testing; Integrated circuit measurements; Integrated circuit testing; Large scale integration; Robustness; Signal generators; Signal processing;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2003.820449
