Title :
Calibration of sampling oscilloscopes with high-speed photodiodes
Author :
Clement, Tracy S. ; Hale, Paul D. ; Williams, Dylan F. ; Wang, C.M. ; Dienstfrey, Andrew ; Keenan, Darryl A.
Author_Institution :
Nat. Inst. of Stand. & Technol., Boulder, CO
Abstract :
We calibrate the magnitude and phase response of equivalent-time sampling oscilloscopes to 110 GHz. We use a photodiode that has been calibrated with our electrooptic sampling system as a reference input pulse source to the sampling oscilloscope. We account for the impedance of the oscilloscope and the reference photodiode and correct for electrical reflections and distortions due to impedance mismatch. We also correct for time-base imperfections such as drift, time-base distortion, and jitter. We have performed a rigorous uncertainty analysis, which includes a Monte Carlo simulation of time-domain error sources combined with error sources from the deconvolution of the photodiode pulse, from the mismatch correction, and from the jitter correction
Keywords :
Monte Carlo methods; calibration; deconvolution; electro-optical devices; error correction; impedance matching; oscilloscopes; photodiodes; signal sampling; 110 GHz; Monte Carlo simulation; deconvolution error; electrical distortion; electrical reflections; electrooptic sampling system; high-speed photodiodes; impedance mismatch; impulse response; jitter correction; mismatch correction; oscilloscope calibration; photodiode pulse; reference input pulse source; reference photodiode; sampling oscilloscopes; time-base imperfections; time-domain error sources; uncertainty analysis; Calibration; Error correction; Impedance; Jitter; Oscilloscopes; Performance analysis; Photodiodes; Reflection; Sampling methods; Uncertainty; High-speed photodiode; impulse response; mismatch correction; oscilloscope calibration; sampling oscilloscope; uncertainty;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2006.879135
