Keysight PZ2131A 5-ch Precision Source/Measure Unit, 500 kSa/s, 10 pA, 30 V, 500 mA DC/pulse
Key Features
The Keysight PZ2131A is a high-channel density precision source / measure unit (SMU) having 5 channels per module and saving space for a wide range of applications requiring numerous precision power supplies. The narrow-pulse function and fast Digitizer Mode allow the PZ2131A to expand the conventional static DC measurements to emerging dynamic measurements. Its seamless current measurement ranging function eliminates the time it takes to change the range and expands the dynamic range to cover multiple measurement ranges, which reduces test duration. These capabilities make the PZ2131A suitable for applications that require numerous precision power supplies, such as semiconductor reliability tests and integrated circuit (IC) tests. The Keysight PX0107A low noise filter adapter lowers its voltage source noise level, which makes the PZ2131A suitable for noise-sensitive applications such as quantum computing as well.
- Unprecedented high-channel density (20 Ch in 1U rack height, full width at maximum)
- Maximum output at 30 V / 500 mA DC / pulse
- Minimum resolution at 6 μV/100 pA
- Minimum pulse width at 100 μs
- Fast Digitizer Mode with maximum sampling rate at 500 kSa/s
- Low voltage source noise down to 25 μVrms with PX0107A low noise filter
- Wide dynamic range for dynamic measurement with seamless current measurement ranging
Further Documents:
The Keysight PZ2100 Series is the leading automated test equipment (ATE) solution that integrates enormous source / measure unit (SMU) resources into valuable rack space with flexible module options.
The PZ2100 provides flexible scalability with multiple SMU module options covering a wide range of applications, from conventional static DC measurements down to 10 fA to emerging dynamic/pulsed measurements up to 15 MSa/s and down to 10 μs width. The PZ2100 provides an uncompromising high[1]density integration that fully uses available rack space, slots, or SMU module capabilities.
The PZ2100 enables a lower cost per channel and 20x smaller rack space than conventional SMUs, significantly reducing your test costs and saving valuable rack space.
The Keysight PZ2100A is the precision source/measure unit (SMU) mainframe that uncompromisingly and densely integrates 20 SMU channels at maximum into valuable 1U height, full width, rack space with flexible module options at their best performance. It supports a variety of resources such as the Keysight PZ2110A High-Resolution SMU, PZ2120/21A High-Speed SMUs, and PZ2130/31A High-Channel Density SMUs with multiple functions such as pulser and digitizer, as well as precise voltage/current sourcing and measuring to adapt to a wide range of application requirements.
The Keysight PZ2100 Series is the leading automated test equipment (ATE) solution that integrates enormous source / measure unit (SMU) resources into valuable rack space with flexible module options.
The PZ2100 provides flexible scalability with multiple SMU module options covering a wide range of applications, from conventional static DC measurements down to 10 fA to emerging dynamic/pulsed measurements up to 15 MSa/s and down to 10 μs width. The PZ2100 provides an uncompromising high[1]density integration that fully uses available rack space, slots, or SMU module capabilities.
The PZ2100 enables a lower cost per channel and 20x smaller rack space than conventional SMUs, significantly reducing your test costs and saving valuable rack space.
The Keysight PZ2100A is the precision source/measure unit (SMU) mainframe that uncompromisingly and densely integrates 20 SMU channels at maximum into valuable 1U height, full width, rack space with flexible module options at their best performance. It supports a variety of resources such as the Keysight PZ2110A High-Resolution SMU, PZ2120/21A High-Speed SMUs, and PZ2130/31A High-Channel Density SMUs with multiple functions such as pulser and digitizer, as well as precise voltage/current sourcing and measuring to adapt to a wide range of application requirements.