This item is a perpetual license for the D9010JITA software package. Support options for this package are listed in the accessories section of this page.

Types of perpetual licenses

There are five variations of perpetual license listed in the menu above – they are as follows:

• Floating
• Networked instruments/computers can access a license from a server one at a time. Multiple licenses may be purchased for concurrent usage
• Single site: 1-mile radius from the server
• Single region: North, Central, and South America, Canada
• Node locked
• License can be used on one specified instrument/computer
• Transportable
• License can be used on one instrument/computer at a time but may be transferred to another using Keysight Software Manager (internet connection required)
• USB Portable
• License can be used on one instrument/computer at a time but can be transferred to another using a certified USB dongle (available for additional purchase, Keysight part number E8900-D10)

Today's high-speed digital designs require insight into the causes of jitter. Phase noise, one of the most important figures of merit of a signal generating device, can be a limiting factor in mission-critical applications like aerospace and defense communications.

This software helps you perform jitter, vertical, and phase noise analysis with Keysight's Infiniium 9000, S-Series, EXR-Series, MXR-Series oscilloscopes.

Time correlation of jitter to the real-time signal helps you easily trace jitter components to their sources. Additional compliance views and a measurement setup wizard now simplify and automate RJ/DJ separation for testing against industry standards.

This software automatically detects embedded clock frequencies and repetitive patterns of the data on the oscilloscope inputs and calculates the level of data-dependent jitter (DDJ) that is contributed to the total jitter (TJ) PDF by each transition in the pattern. It also comes with both spectral and tail-fit jitter separation algorithm. Since every waveform is different, multiple jitter separation solutions give you better answers for each individual waveform. Use the new tail-fit algorithm to properly identify and measure aperiodic bounded uncorrelated jitter, which is especially useful if the waveform is being influenced by cross-talk.

The Phase Noise analysis feature measures phase noise in a clock source. Get measurement results presented in a log frequency plot where the amplitude units are listed in units of dBc/Hz (decibels relative to the carrier power normalized to a 1 Hz bandwidth).

Jitter Analysis provides

• Automatic setup wizard for creating jitter histograms, trends, and spectrums
• Automatic setup wizard for RJ/DJ separation via multiple algorithms, pattern lengths, BER levels
• Multiple clock recovery methods
• Calibration to remove RJ from oscilloscope
• Composite histograms and graphs of separated RJ, PJ, DJ, DDJ, DCD and ISI jitter subcomponents
• Composite histograms and graphs of separated TI, DDI, PI, ISI noise subcomponents
• Spectral and noise BER bathtubs

Phase Noise Analysis provides

• Single Side Band (SSB) phase noise plots as log frequency vs. dBc/Hz
• Two channels and cross-correlation to reduce broadband measurement noise
• Differential clocks with reduced broadband measurement noise
• Spread-spectrum modulated clocks
• Broadband noise (RJ) reduction in cross-correlated time interval error (TIE) measurements
• Integrated jitter measurements between two frequencies on phase noise plot
• In circuit with InfiniiMax probes