The wide-band inputs, and fine timing and voltage resolutions, display and accurately measure transitions as fast as 70 ps, clock performance and eye diagram analysis of gigabit signals. Less than 2 ps RMS trigger jitter and 5-GHz internal trigger supports margin analysis and characterization of today’s high-speed serial data systems. Whilst real-time broadband sampling can support simultaneous display of baseband modulation, carrier envelope and envelope track control signals around amplify, route and transmit paths; including major wireless communication frequency bands such as 900MHz and 2.4GHz.
ETS technique to achieve market leading sample rate multiplication of x 2000 to 1 TS/s. Many high bandwidth signals are repetitive so the expensive high sampling rate is not needed.
In contrast to “Sampling Oscilloscopes” the ETS technique supports trigger and pre-trigger capture and the familiarity, convenience and ease of real-time oscilloscope operation. Pico’s SXRTO technology seamlessly transitions to single event waveform capture at sampling rates at and below 500 MS/s into capture memory of 250,000 samples (single channel); particularly valuable for the capture of slower system signals and modulation envelopes for example.
This USB-controlled instrument is supplied with PicoSample 4 software. The touch compatible GUI supports set up of the instrument and presents waveforms, measurements and statistics on the user preferred size and format of display. This includes full support for Hi-resolution monitors and projection, for example 4k. Up to four independent zoomed trace views can be used to examine the waveform details.
A wide range of automated and user-configurable signal integrity measurements, mathematics, statistical views and limits test facilities are included for validation and trending of pulse and timing performance, jitter, RZ & NRZ eye diagrams. Industry-standard communications mask tests such as PCIe, GB Ethernet, and Serial ATA are included as standard.
While most users will use the PicoSample 4 software in their workplace, for OEM and custom applications the PicoScope 9404 can operate under ActiveX remote control. Programming examples are provided in Visual Basic (VB.NET), MATLAB and LabVIEW, but any programming language or standard that supports the Windows COM interface standard, including JavaScript and C, can be used.
PicoConnect 900 Series gigabit and microwave passive test probes are recommended for use with the 9404, offering a range of bandwidths, coupling types, and division ratios for diverse applications. The PicoScope 9404 has an active SMA interface to support future configurations and accessories on this new product architecture.
For pricing and further information, visit www.picotech.com