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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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Analyze your flexible custom OFDM formats, including FDD and TDD, MIMO and multi-user systems with channel, stream, and cross-channel measurements.
Analyze your flexible custom OFDM formats, including FDD and TDD, MIMO and multi-user systems with channel, stream, and cross-channel measurements.
89601BHFC
Analyze your flexible custom OFDM formats, including FDD and TDD, MIMO and multi-user systems with channel, stream, and cross-channel measurements.
Provides nonlinear DUT behavior (EVM, NPR, and ACPR) under modulated stimulus conditions.
Provides nonlinear DUT behavior (EVM, NPR, and ACPR) under modulated stimulus conditions.
S930700B
Provides nonlinear DUT behavior (EVM, NPR, and ACPR) under modulated stimulus conditions.
S930700B enables fast and accurate active-device modulation distortion characterization under modulated stimulus condition up to 8.5 GHz. The wide dynamic range and vector error correction of the PNA-X result in an extremely low residual EVM of the test setup, so you can get a complete picture of your device’s performance without test system interference. S930700B can measure EVM, NPR, ACPR, and can decompose nonlinear signals and linear signals with the spectral correlation between input and output spectrum without doing demodulation. Integration with the PNA-X SCCM provides quick modulation distortion measurements while making other VNA measurements.
A signal generator connected to the PNA-X provides the modulated stimulus. Supported signal generators: VXG (M9383B/84B), M9383A, PSG + M8190A, MXG, or UXG with U3039ACK1.
Learn more about Microwave Signal Generator (VXG) and Network Analyzer Software
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.
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.
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
The S93088B allows users to set calibrated, arbitrary phase differences between two signal sources.
The S93088B allows users to set calibrated, arbitrary phase differences between two signal sources.
S93088B
The S93088B allows users to set calibrated, arbitrary phase differences between two signal sources.
The S93088B allows users to set calibrated, arbitrary phase differences between two signal sources. The sources can be the analyzer’s internal sources or external signal generators routed through the analyzer’s test set. The phase difference can be fixed, or swept between two specified phase values. S93088B also controls the relative power level between the sources using the receiver-leveling feature.
The S93088B is targeted for active-load control, where the analyzer provides a precise, electronically settable impedance to the output port of a device, while gain and output power are measured. This capability can be combined with external load-pull software to create traditional load-pull power contours. Not available with PNA Option 200 and 210.
Learn more about Keysight Network Analyzer Software.
The S93086B gain compression application (GCA) adds the software capabilities to the PNA Series B model network analyzers to evaluate the characteristics of compression point of an amplifier or frequency converter.
The S93086B gain compression application (GCA) adds the software capabilities to the PNA Series B model network analyzers to evaluate the characteristics of compression point of an amplifier or frequency converter.
S93086B
The S93086B gain compression application (GCA) adds the software capabilities to the PNA Series B model network analyzers to evaluate the characteristics of compression point of an amplifier or frequency converter.
The S93086B adds the software capabilities for the gain compression application (GCA). GCA provides fast and accurate input power, output power, gain, and phase at the compression point of an amplifier or frequency converter, over a specified frequency and power range, with a simple setup. GCA eliminates the problems of lengthy test times and inconvenient setups by providing SMART Sweep that is easy-to-use, fast and accurate. GCA also includes a guided calibration that corrects for absolute power levels, frequency response, and mismatch errors. S93086B is equivalent to Option 086 available on PNA/PNA-X A model Series network analyzers.
Learn more about Keysight Network Analyzer Software
The S93084B embedded LO capability tunes the network analyzer’s receivers to the output frequency of the converter under test.
The S93084B embedded LO capability tunes the network analyzer’s receivers to the output frequency of the converter under test.
S93084B
The S93084B embedded LO capability tunes the network analyzer’s receivers to the output frequency of the converter under test.
The S93084B tunes the network analyzer’s receivers to the output frequency of the converter under test without having to access internal LOs or a common reference signals. For converters with embedded LOs, this enables measurements of match-corrected conversion loss/gain and absolute group delay (requires S93082B and S93083B), gain compression versus frequency (requires S93086B), intermodulation distortion (requires S93087B), and noise figure (requires S93029B).
The S93083B provides both fully calibrated vector and scalar measurements of mixers and frequency converters, with intuitive, easy-to-use user interface.
The S93083B provides both fully calibrated vector and scalar measurements of mixers and frequency converters, with intuitive, easy-to-use user interface.
S93083B
The S93083B provides both fully calibrated vector and scalar measurements of mixers and frequency converters, with intuitive, easy-to-use user interface.
The S93083B includes the scalar mixer/converter plus phase (SMC+Phase) measurement class that provides fully calibrated conversion gain/loss, relative phase, and absolute group delay measurements of mixers and converters without the need for reference or calibration mixers. Eliminating the calibration mixer requires a U9391C/F/G comb generator and an external DC power supply. A vector mixer/converter measurement (VMC) class is also included for measuring the phase difference between multiple paths or devices, or for measuring phase shifts within a device. Using VMC or the comb-generator-based calibration for SMC+Phase requires an instrument with a configurable test set (i.e., has front-panel RF loops). For units without front-panel loops, SMC+Phase can be used with an external calibration mixer.
The S93083B provides an intuitive and easy-to-use user interface for setting up mixer and converter measurements, with single or dual conversion stages. It can control the analyzer’s built-in source(s) as well as external signal generators for use as LO signals.
The S93083B is a superset of S93082B. S93083B is compatible with S93084B, which enables measurements of converters with internal LOs.
Learn more about Keysight Network Analyzer Software
The S93082B scalar mixer/converter measurements enables the highest accuracy for scalar conversion–loss/gain measurements with a simple set-up and calibration.
The S93082B scalar mixer/converter measurements enables the highest accuracy for scalar conversion–loss/gain measurements with a simple set-up and calibration.
S93082B
The S93082B scalar mixer/converter measurements enables the highest accuracy for scalar conversion–loss/gain measurements with a simple set-up and calibration.
With a simple setup and calibration, the S93082B scalar mixer/converter measurements delivers the highest accuracy for scalar conversion-loss/gain measurements by combining on-port and power meter calibrations to remove mismatch errors. The S93082B provides an intuitive and easy-to-use user interface for setting up mixer and converter measurements, with single or dual conversion stages. It can control the analyzer’s built-in source(s) as well as external signal generators for use as LO signals. S93082B is a subset of S93083B so these should not be installed together. S93082B is compatible with S93084B, which enables measurements of converters with internal LOs.
S93082B is equivalent to Option 082 on PNA/PNA-L/PNA-X Series A model Series network analyzers.
Learn more about Keysight Network Analyzer Software
S93025B basic pulsed-RF measurements enables 4 internal pulse generators that can be used to control the internal pulse modulators (N522xB/N524xB Options 021/022), and provides an integrated pulse application that uses the wideband-detection method.
S93025B basic pulsed-RF measurements enables 4 internal pulse generators that can be used to control the internal pulse modulators (N522xB/N524xB Options 021/022), and provides an integrated pulse application that uses the wideband-detection method.
S93025B
S93025B basic pulsed-RF measurements enables 4 internal pulse generators that can be used to control the internal pulse modulators (N522xB/N524xB Options 021/022), and provides an integrated pulse application that uses the wideband-detection method.
The S93025B basic pulsed-RF measurements enables four internal pulse generators that can be used to control the internal pulse modulators (N522xB/N524xB Options 021 and 022), and it provides an integrated pulse application that uses the wideband-detection method. The pulse application provides an easy way to set up point-in-pulse measurements with pulse width as narrow as 200 ns, and pulse-profile measurements with 50 ns minimum timing resolution.
Using the built-in pulse modulators, the PNA and PNA-X are complete pulsed-RF measurement solutions, eliminating the need for external test sets and pulse generators. The S93025B also controls external pulse generators and modulators, and can synchronize to external pulse generators. The N522xB/N524xB Option 021 is recommended for forward-only pulsed-RF measurements, and Options 021 and 022 are recommended for bi-directional pulsed-RF measurements. The N1966A Pulse I/O adapter is recommended if using external pulse generators or external pulse modulators.
S93011B enhanced time domain with TDR is available on all PNA models (N52xxB) and provides a one-box solution for high-speed interconnect analysis, including impedance, S-parameters, and eye-diagrams.
S93011B enhanced time domain with TDR is available on all PNA models (N52xxB) and provides a one-box solution for high-speed interconnect analysis, including impedance, S-parameters, and eye-diagrams.
S93011B
S93011B enhanced time domain with TDR is available on all PNA models (N52xxB) and provides a one-box solution for high-speed interconnect analysis, including impedance, S-parameters, and eye-diagrams.
- Low noise floor for accurate and repeatable measurements
- Wide dynamic range to observe the true performance of your device: > 110 dB
- Fast measurement speed for real-time analysis: 251 msec (1601 points, 2-port cal)
S93011B enhanced time domain analysis with TDR provides a one-box solution for high-speed interconnect analysis, including impedance, S-parameters, and eye diagrams. S93011B is an enhancement of the S93010B time domain analysis software. The software, running on the PNA-X / PNA / PNA-L Series B-model vector network analyzers, brings three breakthroughs for signal integrity design and verification: simple and intuitive operation, fast and accurate measurements, and high ESD robustness.
For more information about Keysight Network Analyzer Software, please visit Network Analyzer Software
The S93010B time domain capability allows you to measure the time domain response of a device. The analyzer can transform frequency domain data to time domain or time domain data to the frequency domain and runs on PNA/PNA-L/PNA-X Series B models.
The S93010B time domain capability allows you to measure the time domain response of a device. The analyzer can transform frequency domain data to time domain or time domain data to the frequency domain and runs on PNA/PNA-L/PNA-X Series B models.
S93010B
The S93010B time domain capability allows you to measure the time domain response of a device. The analyzer can transform frequency domain data to time domain or time domain data to the frequency domain and runs on PNA/PNA-L/PNA-X Series B models.
The time domain capability allows you to measure the time domain response of a device. The analyzer can transform frequency domain data to the time domain or time domain data to the frequency domain.
The transform used by the analyzer resembles time domain reflectometry (TDR) measurements. TDR measurements, however, are made by launching an impulse or step into the test device and observing the response in time with a receiver similar to an oscilloscope. In contrast, the analyzer makes swept frequency response measurements, and mathematically transforms the data into a time domain reflectometer-like display.
S93010B is equivalent to Option 010 on PNA/PNA-L/PNA-X Series A model network analyzers.
The S93007B automatic fixture removal software is the easiest way to remove fixture effects from non-coaxial device measurements and runs on network analyzers.
The S93007B automatic fixture removal software is the easiest way to remove fixture effects from non-coaxial device measurements and runs on network analyzers.
S93007B
The S93007B automatic fixture removal software is the easiest way to remove fixture effects from non-coaxial device measurements and runs on network analyzers.
Many devices do not have coaxial connectors and are put in fixtures in order to measure them in a coaxial environment. Accurately removing the effects of the fixture is required to get a good measurement of the device under test (DUT). This option adds a powerful application wizard to guide you through characterizing a fixture and removing it from the measurement. S93007B is equivalent to Option 007 on PNA/PNA-L/PNA-X Series A model network analyzers.