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3D Interconnect Designer
3D Interconnect Designer provides a flexible modeling and optimization environment for any advanced interconnect structure, including chiplets, stacked die, packages, and PCBs.
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Get faster digital validation for less with a trade-in.
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Discover Keysight AI Data Center Builder
Emulate every part of your data center infrastructure. Emulate Anything. Optimize Everything.
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Accelerate Signal Analysis with X-Series Measurement Applications
Use 25+ X-Series applications to analyze, demodulate, and troubleshoot signals across wireless, aerospace/defense, EMI, and phase noise.
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Introducing AI-Enhanced Packet Brokers
With extra memory and storage, these enhanced NPBs run Keysight's AI security and performance monitoring software and AI stack.
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Precision In-Circuit Testing for Production
Achieve fast, accurate board-level testing with robust inline and offline ICT designed for modern manufacturing.
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Accelerate Your Innovation Engine
Explore curated support plans, prioritized to keep you innovating at speed.
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448 Gb/s Waveform Generation
Achieve 200+ Gbaud multi-level modulated signals with high-speed AWGs for digital and optical standards.
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Stream 120 MHz I/Q Data to Your Laptop in the FieldPinpoint interference with post-processing spectrum management software in the lab.
Find the Right ATE Power SolutionUse this selector tool to quickly identify the best power supply for your aerospace and defense ATE requirements.
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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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Power Device Measurement System for Advanced Modeling
Eliminate design cycles by creating real-world power device models resulting in simulations you can trust.
Eliminate design cycles by creating real-world power device models resulting in simulations you can trust.
Power Device Measurement System for Advanced Modeling
PD1000A
Eliminate design cycles by creating real-world power device models resulting in simulations you can trust.
The hybrid-electric and electric vehicle (HEV / EV) market is growing rapidly. Increasing vehicle electrification in the automotive market brings new challenges in design and manufacturing. Many HEV and EV manufacturers are migrating their power-conversion designs to wide bandgap (WBG) devices, such as silicon-carbide and gallium-nitride, to gain higher efficiency (extended range) and higher power in smaller, lighter, and cooler packages. However, there are significant concerns about making sure these new designs are reliable and safe.
Keysight is partnering with industry leaders in the HEV / EV power-conversion market to help them transition smoothly to using WBG devices in their designs. As a result of these relationships, Keysight has developed a state-of-the-art modeling suite of power circuit simulator tools that allow WBG device designers to easily create models never before possible. The test suite, which consists of curve-tracing, S-parameter, and double-pulse tester hardware, takes measurements from WBG devices and uses advanced software to build sophisticated simulation models that are exclusive to Keysight. These simulation models can be used in Keysight’s Advanced Design System software to simulate and analyze the effects that high-frequency components have on the reliability and electromagnetic interference of the design. Design changes can be made before the first prototype, saving time and cost by eliminating unnecessary design cycles.
- Easily create simulation models you can trust for any wide-bandgap semiconductor device with real measurements, right on your bench
- Control software provides simple access to advanced measurement features to gather modeling parameters from three systems: curve-tracer, s-parameter, and double-pulse tester
- Curve-tracer system measures I-V and C-V curves (static characteristics)
- S-parameter system measures on- and off-state S-parameters (parasitic characteristics)
- Double-pulse tester covers various waveform characterization and parameter extraction, such as switching, reverse recovery, gate charge, and switching locus (dynamic characteristics)
- W8598BP power electronics model generator software inputs gathered measurements to create advanced power device models
- Use simulation models to create accurate simulations in Keysight ADS, EMPro, and Momentum
PEPro
Built for power converter design for power generation and transmission, aerospace-defense, automotive, data center, consumer electronics, and IoT applications.
Built for power converter design for power generation and transmission, aerospace-defense, automotive, data center, consumer electronics, and IoT applications.
PEPro
W3035E
Built for power converter design for power generation and transmission, aerospace-defense, automotive, data center, consumer electronics, and IoT applications.
The W3035E PEPro includes:
- Quickly design the most complete high voltage and high current power electronic designs including the effects of board layout parasitics
- Integrated design technology with advanced technologies for layout-based design engineered to capture parasitically induced faults before hardware prototyping
Keysight’s solution for power electronics includes analysis capabilities such as electromagnetic solvers that enable the simulation of board effects from layout parasitics. New in the Power Electronics Pro (PEPro) design suite is an inner layer near-field visualization, very important to look at the currents and fields for long-term reliability. You can discover areas of current constriction, which may cause heating effects and affect reliability. The analysis of the boards supports both the method of moments (MoM) planar simulation, as well as a finite element method (FEM) for 3D effects.
Note: This element license requires a host bundle to work. For recommended bundle configurations, click here.
ADS Core, EM Design, Layout, PEPro, PE Ckt Sim
The W3631B is designed for power converter design for power generation and transmission, AD, automotive, data center, consumer electronics, and IoT applications.
The W3631B is designed for power converter design for power generation and transmission, AD, automotive, data center, consumer electronics, and IoT applications.
ADS Core, EM Design, Layout, PEPro, PE Ckt Sim
W3631B
The W3631B is designed for power converter design for power generation and transmission, AD, automotive, data center, consumer electronics, and IoT applications.
The W3631B ADS Core, EM Design, Layout, PEPro, PE Ckt Sim includes:
- Quickly design the most complete high-voltage and high-current power electronic designs including the effects of board layout parasitics
- Integrated design technology with advanced technologies for layout-based design engineered to capture parasitically induced faults before hardware prototyping
- Prebuild test benches that quickly reports simulated EMI and EMC compliance to international standards
- EM Design enables the creation and import of parameterized 3D components into ADS
Keysight’s solution for power electronics includes both device modeling and power electronics simulation, and includes Power Electronics Pro (PEPro) analysis capabilities such as harmonic balance for precise analysis of periodic steady state signals and closed loop analysis. It also includes transient design simulation for analysis of the switching characteristics including the open loop analysis. The electromagnetic (EM) solver enables the simulation of board effects from layout parasitics. New in the PEPro design suite is an inner layer near-field visualization, very important to look at the currents and fields for long-term reliability. You can discover areas of current constriction, which may cause heating effects and affect reliability. The analysis of the boards supports both the method of moments (MoM) planar simulation, as well as a finite element method (FEM) for 3D effects.
