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Literature Review – Delay Measurement Techniques Yuta Toriyama [email protected] August 20, 2010 Outline Introduction Problem statement Significance of stated problem Techniques Analog Digital Counter Ring Oscillator Vernier Delay Line Summary 2 Problem Statement Design a circuit that can measure the time difference between the rising edge of one signal to the rising edge of another Factors: Resolution Complexity of circuitry Test time etc… 3 Significance of Delay Measurement ICs In General: Characterization Increased sensitivity/variation in deep sub-micron technologies Higher clock rates, more signal paths critically timed Yield Increasing difficulty of signal access for external test My case: Characterization of STTRAM Read delay measurement 4 Charging A Capacitor Create an analog voltage across the capacitor depending on how long the EN pulse is high Requires ADC; all elements of circuit need to be ideal; etc. 5 Digital Counter Count the number of rising edges of a fast clock Simple to implement Resolution limited by clock frequency 6 Digital Counter Count the number of rising edges of a fast clock Simple to implement Resolution limited by clock frequency 7 Ring Oscillator Count the number of rising edges w/ CUT included High Resolution (limited by mux delay) Signal delay being measured must occur multiple times 8 Vernier Delay Line Two delay lines with slightly different delays in each buffer Detect where in the delay line the edges occur at the same time 9 Vernier Delay Line (cont.) Very fine resolution Sensitive to supply, layout Variation can cause non-linearity / non-monotonicity! 10 Summary Tradeoff Resolution/Accuracy Complexity Test time STTRAM chip Digital Counter implemented for read delay measurement In simulation: ~100ps resolution (Richard) 11 References Farahat, M.A.; Farag, F.A.; Elsimary, H.A.; , "Only digital technology analog-to-digital converter circuit," Micro-NanoMechatronics and Human Science, 2003 IEEE International Symposium on , vol.1, no., pp. 178- 181 Vol. 1, 27-30 Dec. 2003. Jochen Rivoir; , "Fully-Digital Time-To-Digital Converter for ATE with Autonomous Calibration," Test Conference, 2006. ITC '06. IEEE International , vol., no., pp.1-10, Oct. 2006. Sunter, S., “BIST Techniques for Delay and Jitter inNanometer Technology ICs,” Southwest DFT Conference, May 2007. 12
