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All Software Catalog
Explore the complete portfolio of Keysight software, from design engineering tools to emulator and instrument software, built to extend and enhance your Keysight instruments. Whether you are configuring measurements, automating tests, analyzing data, or validating compliance, use the filters below to identify the right software to support your workflow — from design and validation through manufacturing and deployment.
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Wideband Active Load Pull Export Control
Active load pull capability for modulation distortion measurements for export controlled countries.
Active load pull capability for modulation distortion measurements for export controlled countries.
Wideband Active Load Pull Export Control
S94573B
Active load pull capability for modulation distortion measurements for export controlled countries.
- Compute vector corrected EVM and ACPR measurements for any user specified gamma while achieving the wide dynamic range and lower residual EVM of the modulation distortion application for vector netrowk analyzers (PNA-X, M983xA PXIe VNA).
- User specified gamma profile, including the ability to import an S1P file, sets how each gamma presented to the amplifier changes across the modulation bandwidth.
- Gamma control at all frequencies in the modulation bandwidth is accomplished using the vector signal generator or arbitrary waveform generator such as M9484C VXG or M5300A PXIe RF AWG.
- Active load control is differentiated from passive load pull where gamma is controlled only at the center frequency and uncontrolled at other frequencies in the modulation bandwidth.
The software enables power amplifier distortion measurements under varying load conditions that are controlled across the entire modulation bandwidth. When design verification and robustness evaluation require testing the device away from the optimum loading condition, this application provides powerful insight into device performance and degradation.
Wideband Active Load Pull
Active load pull capability for modulation distortion measurements.
Active load pull capability for modulation distortion measurements.
Wideband Active Load Pull
S94572B
Active load pull capability for modulation distortion measurements.
- Compute vector corrected EVM and ACPR measurements for any user specified gamma while achieving the wide dynamic range and lower residual EVM of the modulation distortion application for vector network analyzers (PNA-X, M983xA PXIe VNA).
- User specified gamma profile, including the ability to import an S1P file, sets how each gamma presented to the amplifier changes across the modulation bandwidth.
- Gamma control at all frequencies in the modulation bandwidth is accomplished using the vector signal generator or arbitrary waveform generator such as M9484C VXG or M5300A PXIe RF AWG.
- Active load control is differentiated from passive load pull where gamma is controlled only at the center frequency and uncontrolled at other frequencies in the modulation bandwidth.
The software enables power amplifier distortion measurements under varying load conditions that are controlled across the entire modulation bandwidth. When design verification and robustness evaluation require testing the device away from the optimum loading condition, this application provides powerful insight into device performance and degradation.
USB Type-C Interconnects Compliance Test Software
Use the S94USBCB software to test, debug and characterize your USB Type-C cable and connector designs. The PathWave TAP based test sequencer automates the network analyzer (VNA) for each test and generates a comprehensive HTML report. When run with L8990M switch matrix, it enables a 20-ports fully automated test without port re-connection.
Use the S94USBCB software to test, debug and characterize your USB Type-C cable and connector designs. The PathWave TAP based test sequencer automates the network analyzer (VNA) for each test and generates a comprehensive HTML report. When run with L8990M switch matrix, it enables a 20-ports fully automated test without port re-connection.
USB Type-C Interconnects Compliance Test Software
S94USBCB
Use the S94USBCB software to test, debug and characterize your USB Type-C cable and connector designs. The PathWave TAP based test sequencer automates the network analyzer (VNA) for each test and generates a comprehensive HTML report. When run with L8990M switch matrix, it enables a 20-ports fully automated test without port re-connection.
- Covers the latest USB Type-C cable passive and active Linear Re-Driver (LRD) assemblies, connectors, and raw cables on USB4v2, USB4, USB 3.x, and USB 2.0 technologies.
- Support 4-Port VNA on E5080B, P502xA/B Streamline VNA series, and PXI-VNA series.
- Fully automate your multiport measurements with L8990M 4-to-20 ports switch matrix system.
- Quickly set up, calibrate and perform your test with the setup wizard.
- Achieve accurate measurements with test fixture de-embedding and Automatic Fixture Removal (AFR).
- Get deeper insights into your measurements with comprehensive HTML test reports.
- Test plan customization for specific test applications and validation purposes.
- TAP platform compatible to test DisplayPort and DP Alt Mode on USB Type-C cables with the additional software license on S94DPPCB.
Enhanced Time Domain Analysis with TDR
This application enables enhanced time domain analysis for high-speed data applications.
This application enables enhanced time domain analysis for high-speed data applications.
Enhanced Time Domain Analysis with TDR
S96011B
This application enables enhanced time domain analysis for high-speed data applications.
- Offers up to 53 GHz bandwidth with 8.42-psec rise time for measurement using the latest high-speed serial standards
- Runs on the E5081A and E5080B network analyzers with simple and intuitive operation
- Provides wide dynamic range (up to 140 dB) and low noise floor for accurate measurements
- Performs fast measurements for real-time analysis
- Enables state-of-the art calibration techniques to reduce measurement errors
- Removes fixture and probe effects for easy automatic deskew
- Offers eye diagram analysis of high-speed digital interconnects
- Method of Implementation (MOI) for High-Speed Digital Interconnects Applications are available: USB, HDMI, Ethernet, SATA, DisplayPort, MIPI and more.
Use S96011B to perform enhanced time domain analysis for high-speed data applications. Includes all functionality of the S96010B (TDR/TDT mode). In addition, the S96011B enables more detailed measurements and evaluations, such as eye diagram / mask modes, without adding PLTS software. Jitter and emphasis / equalization capabilities enable simulation of real-world signals and environment. The S96011B covers up to 53 GHz bandwidth. Full calibration is available and the automatic deskew ensures easy removal of fixture and probe effects. To get the best accuracy, use mechanical calibration kits or ECal with DC option (i.e. N469xD or N4433D with Option 0DC).
Arbitrary Load Control for Modulation Distortion - Export Control
Provides load pull capability for nonlinear DUT behavior (EVM, NPR, and ACPR) under modulated stimulus conditions. for export controlled countries.
Provides load pull capability for nonlinear DUT behavior (EVM, NPR, and ACPR) under modulated stimulus conditions. for export controlled countries.
Arbitrary Load Control for Modulation Distortion - Export Control
S94571B
Provides load pull capability for nonlinear DUT behavior (EVM, NPR, and ACPR) under modulated stimulus conditions. for export controlled countries.
- Integrated mechanical tuner characterization and control for presenting user-specified loads to DUT
- Frequency coverage up to 67 GHz
- Supports most Maury and Focus passive loadpull tuners, see Modulation Distortion technical overview for details on compatible tuner models
- Display measured EVM, power and gain for user-defined gamma
- Save measurement results in file format compatible for use in external programs such as ADS and MATLAB
Extend the modulation distortion application by computing figure of merits such as EVM and ACPR for any desired load with arbitrary load control (ALC). Modulation distortion with ALC integrates the powerful capabilities of the PNA-X with an electromechanical tuner so a non-50 Ω load can be presented to the DUT and changes in device performance or sensitivity to varying load conditions can be accurately measured.
Embedded LO Capability
Enables accurate measurement of relative phase and absolute group delay of a frequency converter with a built-in LO source, without having to access a common reference signal.
Enables accurate measurement of relative phase and absolute group delay of a frequency converter with a built-in LO source, without having to access a common reference signal.
Embedded LO Capability
S96084B
Enables accurate measurement of relative phase and absolute group delay of a frequency converter with a built-in LO source, without having to access a common reference signal.
- Enables accurate measurement of relative phase and absolute group delay of a frequency converter with a built-in LO source, without having to access a common reference signal
- Quick and simple two-step calibration so you can spend more time measuring your devices
- Optimized testing conditions that maximizes throughput without compromising data quality
This application tunes the analyzer’s receivers to the output frequency of the converter under test without the need for access to internal LOs or a common reference signal. S96084B is intended to work with S96082B and S96083B measurement applications.
Learn more about Keysight Network Analyzer Software
True-Mode Stimulus
The S93460B provides mismatch-corrected true-mode stimulus and enables accurate balanced measurements on 4-port PNA or PNA-X network analyzers.
The S93460B provides mismatch-corrected true-mode stimulus and enables accurate balanced measurements on 4-port PNA or PNA-X network analyzers.
True-Mode Stimulus
S93460B
The S93460B provides mismatch-corrected true-mode stimulus and enables accurate balanced measurements on 4-port PNA or PNA-X network analyzers.
- Fast and fully error-corrected mixed-mode S-parameter measurements with true-mode stimulus
- Accurate differential and common-mode stimulus with VNA/DUT mismatch error correction
- Arbitrary phase and amplitude offsets with normal and in-fixture modes
- Bi-directional, forward-only or reverse-only true-mode stimulus
- Supports balanced input and output, one balanced and one single-ended devices
The S93460B integrated true-mode stimulus application (iTMSA) provides mismatch-corrected true-mode (true differential and true common) stimulus and enables accurate balanced measurements under real operating conditions. iTMSA also provides balanced measurements with forward-only sweep, reverse-only sweep, and frequency or power sweep with arbitrary phase and amplitude offsets. S93460B only works on 4-port PNA or PNA-X models. S93460B is equivalent to Option 460 on the PNA/PNA-X Series A model network analyzers.
Learn more about Keysight Network Analyzer Software
Vector Network Analyzer (VNA) Simulator – Advanced
Simulate VNA applications (S93/S95/S96/S97xxxB/A) on your PC in addition to the basic S-parameter class operations (S94050B).
Simulate VNA applications (S93/S95/S96/S97xxxB/A) on your PC in addition to the basic S-parameter class operations (S94050B).
Vector Network Analyzer (VNA) Simulator – Advanced
S94051B
Simulate VNA applications (S93/S95/S96/S97xxxB/A) on your PC in addition to the basic S-parameter class operations (S94050B).
- Emulate your exact model with support for all of Keysight’s latest VNAs
- Gain deeper insights with VNA application software (S93/95/96/97xxx)
- Perform complex multiport S-parameter analysis by emulating up to 66 ports on PXI VNAs
- Choose the subscription license that best fits the time frame you need
Vector Network Analyzer (VNA) Simulator – Standard
Simulate the basic S-parameter operations of Keysight's latest VNAs on your PC.
Simulate the basic S-parameter operations of Keysight's latest VNAs on your PC.
Vector Network Analyzer (VNA) Simulator – Standard
S94050B
Simulate the basic S-parameter operations of Keysight's latest VNAs on your PC.
Simulate Basic VNA Operations on Your PC
S94050B puts flexible S-parameter analysis into your own computer. Dive deeper into measurements captured on a network analyzer or develop and optimize test programs before deploying them onto an instrument.
- Emulate your exact model with support for all of Keysight’s latest VNAs
- Perform complex multiport S-parameter analysis by emulating up to 66 ports on PXI VNAs
- Choose the subscription license that best fits the time frame you need
Spectrum Analysis up to and beyond 125 GHz
The S93094B has all of the capability of the S93090xA spectrum analyzer application with an upper frequency limit determined solely by the broadband or banded millimeter-wave frequency extenders used in the system.
The S93094B has all of the capability of the S93090xA spectrum analyzer application with an upper frequency limit determined solely by the broadband or banded millimeter-wave frequency extenders used in the system.
Spectrum Analysis up to and beyond 125 GHz
S93094B
The S93094B has all of the capability of the S93090xA spectrum analyzer application with an upper frequency limit determined solely by the broadband or banded millimeter-wave frequency extenders used in the system.
- Frequency coverage greater than 125 GHz, up to the limit determined solely by the broadband or banded millimeter-wave frequency extenders used in the system.
- Supported on all PNA /PNA-X test set controller-based millimeter-wave solutions.
- Supports broadband N5290A/91A with either 2- or 4-port configurations
- Supports banded waveguide VNA configurations.
- Utilize the Cal All feature on the PNA/PNA-X for calibrated spectrum analysis measurements
- DANL for a 500 to 750 GHz WR1.5 is about -106 dBm/Hz (typical)
- Multichannel spectrum analysis at THz frequencies
- Either N5292A millimeter-wave controller is required
The S93094B has all of the capability of the S93090xB spectrum analyzer application, with an upper frequency limit determined solely by the broadband or banded millimeter-wave frequency extenders used in the system. With this configuration, the analyzer’s internal receiver attenuators are not in the receiver paths, so they cannot be used to reduce signal levels. External attenuators may be required to avoid compressing the receivers in the millimeter-wave frequency extenders. When using the S93094B for millimeter-wave spectrum analysis, either N5292A millimeter-wave controller is required. When S93094B is installed on a standalone network analyzer, it will provide spectrum analysis up to the frequency limit of the instrument.
Spectrum Analysis, up to 90 GHz
The S930909B spectrum analysis adds high-performance microwave spectrum analysis up to 90 GHz to the N5290A/91A broadband network analyzers and other various banded millimeter-wave network analyzer configurations.
The S930909B spectrum analysis adds high-performance microwave spectrum analysis up to 90 GHz to the N5290A/91A broadband network analyzers and other various banded millimeter-wave network analyzer configurations.
Spectrum Analysis, up to 90 GHz
S930909B
The S930909B spectrum analysis adds high-performance microwave spectrum analysis up to 90 GHz to the N5290A/91A broadband network analyzers and other various banded millimeter-wave network analyzer configurations.
- High-performance spectrum analysis up to 90 GHz on N5290A/91A broadband network analyzers and other various banded millimeter-wave network analyzer configurations.
- Fast spurious searches
- A multi-channel SA with internal swept-signal generators
- In-fixture spectrum measurements using VNA calibration
- Fast band-/noise-power measurements
The S930909B spectrum analysis (SA) adds high-performance microwave spectrum analysis up to 90 GHz on N5290A/91A broadband network analyzers and other various banded millimeter-wave network analyzer configurations. With fast stepped-FFT sweeps resulting from optimized data processing, the SA application provides quick spurious searches over broad frequency ranges. Simultaneous spectrum measurements can be done using up to five test and reference receivers. This multi-channel SA can be used with the internal swept-signal generators for efficient measurements of spurious signals emanating from mixers and frequency converters. The SA application employs source-power and receiver-response calibration as well as fixture de-embedding, providing in-fixture and on-wafer spectrum measurements with the highest level of accuracy.
The upper frequency range of the SA application is determined by the installed SA license or the stop frequency of the instrument, whichever is smaller.
Spectrum Analysis, up to 8.5 GHz
The S930900B spectrum analysis adds high-performance microwave spectrum analysis to the N522xB/N523xB/N524xB PNA network analyzer family up to 8.5 GHz.
The S930900B spectrum analysis adds high-performance microwave spectrum analysis to the N522xB/N523xB/N524xB PNA network analyzer family up to 8.5 GHz.
Spectrum Analysis, up to 8.5 GHz
S930900B
The S930900B spectrum analysis adds high-performance microwave spectrum analysis to the N522xB/N523xB/N524xB PNA network analyzer family up to 8.5 GHz.
- High-performance spectrum analysis up to 8.5 GHz on N522xB/N523xB/N524xB PNA series network analyzers
- Fast spurious searches
- A multi-channel SA with internal swept-signal generators
- In-fixture spectrum measurements using VNA calibration
- Fast band-/noise-power measurements
- Fast and accurate Noise Power Ratio (NPR) measurement with low IMD noise floor
The S930900B spectrum analysis adds high-performance microwave spectrum analysis to the PNA family up to 8.5 GHz. With fast stepped-FFT sweeps resulting from optimized data processing, the SA application provides quick spurious searches over broad frequency ranges. Simultaneous spectrum measurements can be done using up to five test and reference receivers. This multi-channel SA can be used with the internal swept-signal generators for efficient measurements of spurious signals emanating from mixers and frequency converters. The SA application employs source-power and receiver-response calibration as well as fixture de-embedding, providing in-fixture and on-wafer spectrum measurements with the highest level of accuracy.
It is recommended to use this option with PNA (N522xB) or PNA-X (N524xB) models with internal receiver attenuators to avoid receiver compression when measuring large signals. For use with PNA-L (N523xB) models, test set Options 216 or 416 is recommended so that external attenuators can be connected via the front-panel jumpers to avoid receiver compression. The upper frequency range of the SA application is determined by the installed SA license or the stop frequency of the instrument, whichever is smaller.
The PNA SA application adds NPR measurement to the PNA family. It provides integrated measurement setup including multitone signal generation with vector signal generator. New coherent-measurement and vector-averaging techniques employed in the PNA SA application allow you to make faster and more accurate NPR and ACPR measurements with better dynamic range than the conventional NPR measurement with spectrum analyzer.
Learn more about Keysight Network Analyzer Software
