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WirelessPro 3GPP AI Simulation Platform
WirelessPro empowers you to model, simulate, and analyze various aspects of 5G networks, 5G Advanced technologies, and future 6G wireless channels with unparalleled ease and accuracy.
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Digital Validation. Faster.
Get faster, clearer insights with our new multicore, 12-bit oscilloscope up to 33 GHz.
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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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Simplify Complexity with Advanced Signal Analyzer Software
Accelerate signal analysis testing with Keysight’s VSA software. Visualize, demodulate, and troubleshoot with over 75+ signal standards with precision.
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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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Stream 120 MHz I/Q Data to Your Laptop in the FieldPinpoint interference with post-processing spectrum management software in the lab.
Now You Can Run Fast, Accurate Tests up to 192 kWOur high-density ATE power supplies end trade-offs between test throughput and precision.
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Accessories
Explore the complete portfolio of Keysight accessories designed to complement and extend your instruments. Use the filters below to quickly find compatible accessories such as modules, cables, adapters, and other system components to configure, expand, and optimize your test system for your specific measurement needs.
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InfiniiMax Ultra Probe Amplifier, 25 GHz
Best probes for measuring signals found in the latest DDR5 and MIPI standards.
Best probes for measuring signals found in the latest DDR5 and MIPI standards.
InfiniiMax Ultra Probe Amplifier, 25 GHz
MX0025A
Best probes for measuring signals found in the latest DDR5 and MIPI standards.
- Test and validate high-speed technologies such as DDR5 / MIPI with the 25 GHz probe amplifier (AP2).
- Experience the highest input impedance in midband frequencies for low-energy probing.
- Boost test margins with the lowest signal degradation.
- Probe small devices with the super-flexible micro probe head or choose from the widest variety of compatible probe heads for your unique application.
- Measure differential, single-ended, and common mode signals with a single probe tip.
- Use with Infiniium UXR-, 90000 X-, Q-, V-, and Z-Series oscilloscopes.
Keysight’s MX0025A InfiniiMax Ultra Series probe amplifier improves usability because you can measure differential, single-ended, and common mode signals with a single probe tip.
When you use a probe to connect your signal to your oscilloscope, it becomes part of the circuit affecting your test. Your probe may be hiding signal details, loading down your signal, or distorting it. InfiniiMax Ultra Series probes have the lowest loading for minimal impact to your circuit. Boost your test margins and gain measurement confidence with their unprecedented accuracy. Ensure your entire measurement system is helping you see the truest representation of your signal.
These probes have the lowest noise and capacitive loading and the lowest loading across more frequencies due to their RC high impedance profile. The InfiniiMax Ultra Series supports InfiniiMode and has a user-defined AC calibration mode, a wider input voltage range, more accuracy with unique S-parameter characterization, lower capacitive loading, a wider input voltage range, micro / socketed probe heads for smaller density probing, and more bandwidths. The InfiniiMax Ultra Series has an RC input impedance architecture with the lowest loading and least signal distortion across the widest frequency range.
InfiniiMax Ultra probes have three attenuation ranges — 1:1, 4:1, and 8:1 — giving you superior noise performance and large voltage ranges, all while maintaining maximum bandwidth. The input range automatically configures depending on the size of the input signal and vertical scale of your oscilloscope.
Choose from the three flexible input dynamic ranges from 600 mVpp at 1:1, 2.5 Vpp at 4:1, and 5 Vpp at 8:1. Clearly see and know when your design is satisfactory, keep up with standards, easily probe small devices, and reduce test complexity with the InfiniiMax Ultra Series probes.
2U Rack Mount Kit
Complete 2U rack mount kit for RP5900 series regenerative power supplies and EL4900 series DC electronic loads.
Complete 2U rack mount kit for RP5900 series regenerative power supplies and EL4900 series DC electronic loads.
2U Rack Mount Kit
RP5905C
Complete 2U rack mount kit for RP5900 series regenerative power supplies and EL4900 series DC electronic loads.
The RP5905C Rack Mount Kit includes everything needed to mount RP5900 series DC regenerative power supplies and EL4900 series DC electronic loads in a standard 2U rack space. It includes rack flanges, support rails, and attachment hardware for secure installation.
1U Rack Mount Kit
Complete 1U rack mount kit for RP5900 series regenerative power supplies and EL4900 series DC electronic loads.
Complete 1U rack mount kit for RP5900 series regenerative power supplies and EL4900 series DC electronic loads.
1U Rack Mount Kit
RP5904C
Complete 1U rack mount kit for RP5900 series regenerative power supplies and EL4900 series DC electronic loads.
The RP5904C Rack Mount Kit includes everything needed to mount RP5900 series DC regenerative power supplies and EL4900 series DC electronic loads in a standard 1U rack space. It includes rack flanges, support rails, and attachment hardware for secure installation.
Parallel Kit
Parallel kit for RP5900 series power supplies and EL4900 series electronic loads, including fiber optic cable and transmitter module.
Parallel kit for RP5900 series power supplies and EL4900 series electronic loads, including fiber optic cable and transmitter module.
Parallel Kit
RP5903C
Parallel kit for RP5900 series power supplies and EL4900 series electronic loads, including fiber optic cable and transmitter module.
The RP5903C Parallel Kit enables parallel operation of multiple RP5900 series regenerative DC power supplies and EL4900 series DC electronic loads. It includes a fiber optic cable and a transmitter module for reliable communication and synchronization.
Analog / RS232 Interface Board
Interface board enabling analog and RS-232 communication for RP5900 series power supplies and EL4900 series electronic loads.
Interface board enabling analog and RS-232 communication for RP5900 series power supplies and EL4900 series electronic loads.
Analog / RS232 Interface Board
RP5902C
Interface board enabling analog and RS-232 communication for RP5900 series power supplies and EL4900 series electronic loads.
The RP5902C Interface Board enables analog and RS-232 connections for the RP5900 series regenerative DC power supplies and EL4900 series DC electronic loads. It’s suitable for applications requiring flexible control or integration with legacy systems.
GPIB Interface Board
Interface board enabling GPIB communication for RP5900 series power supplies and EL4900 series electronic loads.
Interface board enabling GPIB communication for RP5900 series power supplies and EL4900 series electronic loads.
GPIB Interface Board
RP5901C
Interface board enabling GPIB communication for RP5900 series power supplies and EL4900 series electronic loads.
The RP5901C Interface Board provides GPIB communication for RP5900 series regenerative DC power supplies and EL4900 series DC electronic loads. It enables standardized remote control and monitoring through the GPIB interface.
Soft Carrying Case for 1000 X-Series Oscilloscope
Designed for the 1000 X-series oscilloscope; features padded sides and bottom, and a storage pouch for accessories
Designed for the 1000 X-series oscilloscope; features padded sides and bottom, and a storage pouch for accessories
Soft Carrying Case for 1000 X-Series Oscilloscope
N2738A
Designed for the 1000 X-series oscilloscope; features padded sides and bottom, and a storage pouch for accessories
- Nylon soft black carrying case with shoulder strap
- Also includes a storage pouch to keep your accessories secure
The N2738A Soft carrying case is the perfect way to travel with or store your 1000 X-Series oscilloscope. The case is designed for convenience with padded sides and bottom, as well as a storage pouch for your probes and additional accessories.
Soft Carrying Case
Transport your InfiniiVision series oscilloscope in this padded case with additional storage for probes and accessories.
Transport your InfiniiVision series oscilloscope in this padded case with additional storage for probes and accessories.
Soft Carrying Case
N2733B
Transport your InfiniiVision series oscilloscope in this padded case with additional storage for probes and accessories.
The N2733B Soft carrying case is the perfect way to travel with or store your InfiniiVision Series oscilloscope. The case is designed for convenience with padded sides and bottom, as well as a storage pouch for your probes and additional accessories.
PXIe High Performance Embedded Controller: 6-Core
The M9038A is a 4-slot PXIe embedded controller with Windows 10 and Windows 11 operating system, designed for high-performance and complex, multi-chassis systems.
The M9038A is a 4-slot PXIe embedded controller with Windows 10 and Windows 11 operating system, designed for high-performance and complex, multi-chassis systems.
PXIe High Performance Embedded Controller: 6-Core
M9038A
The M9038A is a 4-slot PXIe embedded controller with Windows 10 and Windows 11 operating system, designed for high-performance and complex, multi-chassis systems.
- Intel CoffeeLake 6-Core i7-9850HE processor
- 4-slot PXIe controller module
- Up to 64 GB RAM memory
- Front-removable 512 GB solid-state drive
- Front panel connections: one Gigabit Ethernet port, one 10 Gigabit Ethernet port, four USB 2.0 ports, two USB 3.0 ports, one GPIB connector, one DisplayPort video port, and two Thunderbolt 3.0 ports
This high-performance, four-slot PXIe embedded controller module offers Gen 3 performance and a Windows 10 operating system. It is designed for high-performance and complex, multi-chassis systems. It is also well-suited for secure environments due to its front panel and removable solid-state drive.
The embedded controller is built upon an Intel 6-Core i7-9850HE processor with 12 threads and is an excellent choice for complex applications requiring high computing power memory options up to a total of 64 GB, DisplayPort, USB, LAN, GPIB, and Thunderbolt connections, and removable SSD on the front panel are a few of the valuable features this controller has to offer.
High Precision Electromagnetic Probe
The DS1203B High Precision Electromagnetic Probe, a highly precise probe used in side channel analysis, picks up electromagnetic emissions from semiconductor circuits.
The DS1203B High Precision Electromagnetic Probe, a highly precise probe used in side channel analysis, picks up electromagnetic emissions from semiconductor circuits.
High Precision Electromagnetic Probe
DS1203B
The DS1203B High Precision Electromagnetic Probe, a highly precise probe used in side channel analysis, picks up electromagnetic emissions from semiconductor circuits.
The High Precision Electromagnetic Probe, a highly sensitive probe used in side channel analysis, picks up electromagnetic emissions from semiconductor circuits. The probe has a mechanism that allows you to swap out three different probe tips of varying sizes: 0.2 mm, 0.5 mm, and 1.25 mm. All tips have a directed coil and a protective Teflon shell. Normally used in combination with an XYZ-motion platform, the probe can pick up electromagnetic fields with frequencies of up to 6 GHz, converting them into an AC signal.
By moving over the surface of a target, the DS1203B can find highly active circuits, or hotspots. The signals picked up on a hotspot comprise the measurements for simple or differential electromagnetic analysis. The High Precision Electromagnetic Probe has a variable gain mechanism, which you can set by hand or through an external device and can vary based on the target’s characteristics.
Now includes New and improved Amplifier Unit
1.5 A Glitch Amplifier
High‑precision 1.5 A glitch amplifier for fault‑injection testing. Delivers sharper glitches, low‑impedance drive, and seamless integration with embedded targets.
High‑precision 1.5 A glitch amplifier for fault‑injection testing. Delivers sharper glitches, low‑impedance drive, and seamless integration with embedded targets.
1.5 A Glitch Amplifier
DS1140B
High‑precision 1.5 A glitch amplifier for fault‑injection testing. Delivers sharper glitches, low‑impedance drive, and seamless integration with embedded targets.
The 1.5 A Glitch Amplifier is designed to make your fault injection tests applicable to a wide range of embedded targets. Easily connect the 1.5 A Glitch Amplifier to the DS1180A and DS1070A/71A to generate sharp and accurate glitches on the target and to an oscilloscope to measure and view the glitches that you generate.
Designed to drive the input pin of an embedded processor, the 1.5 A Glitch Amplifier has virtually 0 Ω output impedance. The DS1140B can operate as a single power supply between 0 and 4 volts (V). This voltage is set in Inspector and controlled via the DS1180A and DS1070A/71A.
The 1.5 A Glitch Amplifier has an amplification factor of two. For example, when setting a continuous voltage level of 2 V and a glitch peak voltage of 3 V, the voltage levels between the DS1180A and DS1070A/71A and the 1.5 A Glitch Amplifier are 1 and 1.5 V, respectively. Consequently, the voltage levels between DS1140B and an embedded processor are respectively 2 and 3 V.
- New and improved Amplifier Unit
- Increased glitch success rate due to sharper glitches
- Integrated current and power monitor
- Amplifies glitches produced by the DS1180A and DS1070A/71A up to 1.5 A peak-to-peak
- Allows glitching embedded devices such as FPGAs and SOCs
- Easy connection to your target via one of the three output connectors that Glitch Amplifier offers
- Easy to position closely above your target
- Includes Glitch Amplifier Needle
- Optional 3D positioner (for Glitch Amplifier Needle)
- Can be used in combination with EM probe station baseplate. Glitch Amplifier II exactly fits the baseplate’s grid.
Semiconductor Teaching Lab Solution: Basic Design and Measurement
The Semiconductor Teaching Lab is a hands-on platform bridging theory and practice in semiconductor engineering, offering both foundational and advanced knowledge.
The Semiconductor Teaching Lab is a hands-on platform bridging theory and practice in semiconductor engineering, offering both foundational and advanced knowledge.
Semiconductor Teaching Lab Solution: Basic Design and Measurement
UU101LAB
The Semiconductor Teaching Lab is a hands-on platform bridging theory and practice in semiconductor engineering, offering both foundational and advanced knowledge.
- Ready-to-teach module with 12 hours of structured, hands-on labs spanning device measurement and RF design.
Prebuilt DLS test plans and lab sheets for SMU-based device characterization, plus ADS projects for mixer and FET amplifier design—mirroring common industry workflows.
Access an industry tool such as the B2902C precision SMU with Digital Learning Suite software and ADS software.
- Industry-aligned outcomes:
- Lab 1— Learn how to characterize basic semiconductor devices and know the differences in features between devices.
- Lab 2— Learn the process to design a mixer by using a transistor in ADS.
- Lab 3— Learn the process to design an amplifier by using FET in ADS and know how to simulate and optimize.
- Lab 1— Learn how to characterize basic semiconductor devices and know the differences in features between devices.
Supports university semiconductor training and Keysight credential initiatives so graduates can demonstrate job-ready skills.
Keysight’s Semiconductor Teaching Lab helps educators accelerate course development or refresh existing programs. Students begin with device-level measurements using a precision SMU and Digital Learning Suite automation. They then progress to RF block-level design in ADS, where they build practical habits of setting objectives, running simulations, validating results, and refining designs—skills valued in today’s engineering teams.
The Module emphasizes fundamentals with professional-grade tools. Students measure LEDs, BJTs, and MOSFETs using the B2902C and DLS. They then design a low-power active mixer and a small-signal FET amplifier in ADS, applying bias network design, Smith chart matching, noise and stability analysis, parametric sweeps, and optimization. These activities mirror the methods used in modern IC and RF design environments.
