Total Jitter (TJ) – user adjustable BER probability
Random Jitter (RJ)
Deterministic Jitter (DJ) with additional decomposition into Periodic Jitter (PJ), Data Dependent Jitter (DDJ), Duty Cycle Distortion (DCD), and Intersymbol Interference (ISI)
Periodic Jitter Frequency Identification: Analysis and identification of PJ into Sub-Rate Jitter (SRJ) and Asynchronous PJ frequency components
Quickly and accurately analyze a wide variety of signals and applications:
Optical and Electrical signals
Data rate coverage from 100Mb/s to over 40Gb/s
Analyzes signals from all types of standards including: Fibre Channel, IEEE 802.3 Gigabit Ethernet, SONET/SDH, PCI Express, FBD, SATA, SAS, Infiniband and others
Easy setup and fast results: ONE button touch initiates automated signal detection, precision measurements, and comprehensive results reported in ~7 seconds (example using PRBS7 pattern)
Graphical displays provide deep insight into measurements:
TJ, RJ-PJ, DDJ, and Composite histograms
DDJ vs. Bit graph, including a graphical “zoom” feature displaying detailed DDJ information for every bit in the pattern
Bathtub curve displayed in either logBER or Q-Scale
Frequency Displays: Jitter Spectrum and PJ Waveforms
86100C DCA-J is a sampling scope whose architecture provides the ultimate in accuracy:
Wide bandwidth, ultra-low intrinsic jitter, low noise, and advanced analysis algorithms yield the highest accuracy in jitter measurements.
Wide bandwidth channels with “well behaved” roll-off characteristics deliver very low intrinsic data dependent jitter (DDJ) and allow analysis of jitter on all data rates to 40 Gb/s and beyond
Accurately reproduce your signal by capturing higher order harmonics without the noise found in other jitter analyzers
Pattern Lock triggering technology provides sampling efficiency that make jitter measurements very fast