On-Chip Test Clock Validation Using A Time-to-Digital Converter in FPGAs

Abstract

While on-chip delay measurement combining logic BIST with a variable test clock is an effective way to secure field reliability of VLSI/FPGAs, validation of the variable test clock generated on the chip is important to guarantee measurement accuracy. This paper addresses a method of on-chip test clock validation using a TDC (Time-to-Digital Converter) for FPGAs. The proposed method has two operation modes, one is a resolution measurement mode and the other is a phase difference measurement mode. The resolution measurement mode is performed first to check the resolution of the TDC circuit. The phase difference measurement mode checks the timing difference between the original clock and the generated test clock. Evaluation experiments using a real FPGA device shows that the resolution of the proposed clock validation method using a TDC is 50.46 ps. For a variable test clock with resolution of 96.15 ps, it was confirmed that INL (Integral Non-Linearity) of the clock is within 10% and it was inconsistent with a result observed by an oscilloscope.