Title :
Implementation of full jitter performance test in high-speed serial links with ATE
Author_Institution :
Applic. Dev. Center, Verigy Co. Ltd., Shanghai, China
Abstract :
To quantify the transmission quality of HSIO efficiently and accurately is a big challenge in front of SoC ATE test engineers. The common BIST loopback method is easy to setup and time-saving but can not promise an acceptable confidence level for current faster and faster high-speed devices. On the other hand, to fully measure jitter related specs with industry standard instruments will lead to excessive cost of test (e.g., capital investment, time-to-market, test time). This paper proposes one solution for at-speed jitter performance testing on ATE, which covers jitter histogram, random jitter/deterministic jitter separation and jitter spectrum decomposition (stardust). This solution has been implemented in production of real devices and the result shows its high accuracy and cost effectiveness.
Keywords :
automatic test equipment; design for testability; jitter; system-on-chip; BIST loopback method; HSIO; SoC ATE test; deterministic jitter separation; full jitter performance test; high-speed serial links; jitter spectrum decomposition; random jitter; transmission quality; Bit error rate; Histograms; Instruments; Jitter; Mathematical model; Semiconductor device measurement; DJ; RJ; Spectrum decomposition (stardust); jitter test with ATE;
Conference_Titel :
Electronic Measurement & Instruments (ICEMI), 2011 10th International Conference on
Conference_Location :
Chengdu
Print_ISBN :
978-1-4244-8158-3
DOI :
10.1109/ICEMI.2011.6037759
