Title :
A mixed-signal framework and standard for high-frequency timing measurements
Author_Institution :
Washington Univ., Seattle, WA, USA
Abstract :
Timing measurements in computer and communication systems operating at gigahertz frequencies demand accuracy and repeatability not currently available from automatic test equipment. This paper describes a framework to model resources of existing tester, test instrument, on-chip mixed-signal measurement circuits, and the device-under-test (DUT). Standardized test methods, together with these test models, permit the inter-operability of various test systems in accurate timing measurements while reducing test cost, enhancing correlation between different test methods, and leading to a better understanding of the high-frequency effects of the entire test set-up from the automatic test equipment to the test interface to the DUT itself
Keywords :
automatic test equipment; built-in self test; clocks; integrated circuit testing; mixed analogue-digital integrated circuits; phase noise; signal sampling; timing; timing jitter; ATE interface; built-in test; communication systems data jitter; computing system jitter; high-frequency test; interoperability; mixed-signal measurement circuits; on-chip test circuits; phase noise; test models; timing test requirements; Automatic test equipment; Automatic testing; Circuit testing; Clocks; Frequency measurement; Home computing; Measurement standards; System performance; System testing; Timing jitter;
Conference_Titel :
AUTOTESTCON Proceedings, 2001. IEEE Systems Readiness Technology Conference
Conference_Location :
Valley Forge, PA
Print_ISBN :
0-7803-7094-5
DOI :
10.1109/AUTEST.2001.949424
