The 86100C Infiniium DCA-J combines extremely high accuracy and repeatability with outstanding ease of use to simplify characterizing signals from 50 MHz to 80GHz. Digital designers can combine the mainframe and modules into four key instruments with industry leading signal integrity performance, including:

A full-function oscilloscope with bandwidth in excess of 80 GHz, ensuring the most accurate waveform measurements
 
A digital communications analyzer with automated eye diagram analysis for transmitter compliance testing
 
The industry's most accurate jitter and interference analyzer, measuring subcomponent jitter sources with one-button ease of use
 
A full-function time domain reflectometer (TDR/TDT) for high precision impedance and S-parameter analysis
Advanced Analysis Features:
Advanced Jitter Analysis

Decomposition of jitter into Total Jitter (TJ), Random Jitter (RJ), Deterministic Jitter (DJ), Periodic Jitter (PJ), Data Dependent Jitter (DDJ), Duty Cycle Distortion (DCD), and Jitter induced by Intersymbol Interference (ISI)
Jitter frequency spectrum
Isolation and analysis of Sub-Rate Jitter (SRJ), that is, periodic jitter that is at an integer sub-rate of the bitrate
Jitter spectrum/phase noise for both clock or data signals (requires 83496B Clock Recovery)
Decomposition of interference into Total Interference (TI), Random Noise (RN), Deterministic Interference, Periodic Interference (PI), and Inter-symbol Interference (ISI)
Advanced Amplitude Analysis

Tabular and graphical results for both one and zero levels
Interference frequency spectrum
Q-factor (isolated from deterministic interference)
Relative Intensity Noise (RIN 1 Level, RIN OMA)
Advanced Waveform Analysis

Capture of long single valued waveforms. Pattern Lock triggering and the waveform append capability of Option 201 enable very accurate capture of pulse train data sets up to 223 bits long
Equalization - the DCA-J can take a long single valued waveform and route it through an equalizer algorithm (default or user defined up to 15 taps) and display the resultant equalized waveform in real time. The user can simultaneously view the input (distorted) and output (equalized) waveforms
Interface to MATLAB® analysis capability. Display waveforms processed through virtual functions described with MATLAB® scripts.
Advanced TDR Analysis (Frequency-Domain S-Parameters)

On-board S-parameters for differential or single-ended characterization
One port or two port devices (single-ended or differential)
Measure to current and new standards