Microwave Engineering Europe - November 2008 - (Page 40) 40 PRODUCTS SignalVu vector signal analysis software for oscilloscopes analyzes RF signals up to 20 GHz bandwidth without down conversion SignalVu™ vector signal analysis software from Tektronix runs on the company’s DPO7000 and DPO/DSA70000 digital oscilloscope series, enabling engineers to easily characterize and validate wideband and microwave spectral events. One of the paramount trends in today’s communications and radar systems is the need for increased information bandwidth and accurate phase and magnitude characterization of wideband signals. SignalVu combines the signal analysis engine of the RSA6100A real-time spectrum analyzer with the powerful triggering capabilities of the wide bandwidth DPO7000 and DPO/DSA70000 digital oscilloscope series, enabling designers to evaluate complex signals up to 20 GHz without a need for an external down converter. The unique combination provides the functionality of a vector signal analyzer, a spectrum analyzer, and the powerful Pinpoint™ trigger system capabilities of a Tektronix oscilloscope — fully integrated within a single RF test package at a lower price than alternative solutions. SignalVu advances productivity for engineers working on wideband RF components and system design, integration and performance verification, or operations engineers working in networks or spectrum management. Both terrestrial and satellite communications systems are driven by demands for greater and greater data rates, which drive bandwidth. Wideband signals have real-time or information bandwidth greater than 500 MHz and cannot be demodulated with traditional spectrum analyzers. Typical The Pinpoint trigger system within the DPO7000 and DPO/DSA70000 oscilloscopes allows selection of virtually all trigger types on both A and B trigger events whether they are transition, state, time or logic qualified triggers. Once triggered, SignalVu processes the acquisition for analysis in multiple domains. Similarly, the Tektronix solution allows multiple measurements without a need to recapture the data. All signals in an acquisition bandwidth are recorded into the oscilloscope’s deep memory. Up to four channels can be captured simultaneously and each can be independently analyzed by SignalVu software. The ability to use all the memory available ensures complete capture of time varying signals and allows up to four channels to be captured simultaneously. It is made possible as the software is fully integrated with the instrument and does not use a VISA (Virtual Instrument Software Architecture), which would otherwise limit performance. Powerful analysis SignalVu vector signal analysis software utilizes the same analysis capabilities found in the RSA6100A series realtime spectrum analyzers. In addition to spectrum analysis, spectrograms display both frequency and amplitude changes over time. Timecorrelated measurements can be made across the frequency, phase, amplitude, and modulation domains. This is ideal for signal analysis that includes frequency hopping, pulse characteristics, modulation switching, settling time, bandwidth changes, and intermittent signals. www.mwee.com/211800535 bandwidths for wideband signals range from 500 MHz to 4 GHz and carrier frequencies that extend well into the microwave region. Tektronix oscilloscopes provide realtime acquisition of signals up to 20 GHz. SignalVu vector signal analysis software shows time variant behavior of these signals, speeding design validation for applications such as wideband radar, high data rate satellite links, or frequency hopping communications. Ease of use — scope GUI Tektronix SignalVu software rapidly displays RF characteristics in the frequency, time, phase, and power domains without the need for manual setups. It works with the oscilloscope user interface to provide the best of both worlds: market-leading realtime bandwidth and triggers from the oscilloscope and a simple user interface for RF measurements. SignalVu running on DPO7000 and DPO/DSA70000 digital oscilloscopes provides engineers with improved time to insight while validating digital RF circuits and systems. Further, SignalVu can make 21 automated measurements on every pulse. This compares favorably to alternatives that offer only manual measurements, forcing users to locate and mark each pulse individually. Making traditional measurements readily available allows the engineer to verify the integrity of the data-set prior to post-processing. Integrated functionality Unlike alternatives, SignalVu software running on the Tektronix DPO7000 or DPO/DSA70000 oscilloscope hardware provides the integration of spectrum analyzer and digital oscilloscope functionality. Alternatives require operation in either oscilloscope mode or vector signal analyzer mode and attempting to mix modes will result in system errors. SignalVu controls all scope acquisition parameters such as record length, vertical scaling and sample rate. SignalVu also makes effective use of memory; an acquisition is only limited by the amount of memory in the oscilloscope. For example, SignalVu software works seamlessly with the oscilloscope allowing users to utilize all of its powerful triggering capabilities. The ability to trigger on time and amplitudevarying events of interest is paramount in wideband system design, debug and validation. Microwave Engineering Europe ● November 2008 ● www.mwee.com http://www.mwee.com/211800535 http://www.mwee.com
For optimal viewing of this digital publication, please enable JavaScript and then refresh the page. If you would like to try to load the digital publication without using Flash Player detection, please click here.