Vector and RF Suite of Signal Analysis Software for PC SignalVu-PC-SVE Applications Datasheet Node Locked and Floating License available for each SignalVu-PC optional application Analyze Extensive time-correlated, multi-domain displays connect problems in time, frequency, phase, and amplitude for quicker understanding of cause and effect when troubleshooting Power measurements and signal statistics help you characterize components and systems: ACLR, Multicarrier ACLR, Power vs. Time, CCDF, and OBW/EBW EMC/EMI pre-compliance and troubleshooting with RSA signal analyzers - CISPR detectors, predefined standards, limit lines, easy accessory setup, ambient capture, failure analysis, and report generation SignalVu-PC is the foundation of RF and vector signal analysis software WLAN spectrum and modulation transmitter measurements based that helps you easily validate RF designs. It is based on the signal analysis on IEEE 802.11 a/b/g/j/p/n/ac/ad standards engine of the RSA5000 Series real-time signal analyzers and runs on your computer or Windows tablet. You can now move your analysis of Bluetooth Transmitter Measurements based on Bluetooth SIG RF acquisitions off the instrument and anywhere. SignalVu-PC is also the specifications for Basic Rate, Low Energy, and Bluetooth 5. Some companion software that runs the analysis for the Tektronix USB real-time support of Enhanced Data Rate spectrum analyzers. Whether your design validation needs include Settling time measurements, frequency, and phase for wideband radar, high data rate satellite links, wireless LAN or frequency- characterization of wideband frequency-agile oscillators hopping communications, the SignalVu-PC comprehensive suite of tools Advanced Pulse analysis suite - automated pulse measurements and application software can speed your time-to-insight by showing you the provide deep insight into pulse train behavior. Measurement pulse time-variant behavior of these signals. statistics over many acquisitions (millions of pulses). General purpose digital modulation analysis provides modulation Key features analysis of 23 modulation types Analyzes waveforms acquired by Tektronix real-time signal analyzers Flexible OFDM analysis of custom OFDM signals and oscilloscopes, including: Frequency offset control for analyzing baseband signals with near- Tektronix real-time and mixed-domain oscilloscopes (MDO/MSO/ zero intermediate frequencies (IF) DPO3000, MDO/MSO/DPO4000, MSO/DPO5000, DPO7000C, AM/FM/PM modulation and audio measurements for DPO/ DSA/MSO70000 Series) characterization of analog transmitters and audio signals Tektronix real-time signal analyzers (RSA3000, RSA5000, Simple and complete APCO Project 25 transmitter compliance RSA6000, SPECMON Series, RSA500, RSA600, and RSA306 testing and analysis for Phase 1 (C4FM) and Phase 2 (TDMA) Series) Playback of recorded files from the USB spectrum analyzers Turn the MDO4000B/C Series into the industry s only 1 GHz Vector (RSA306, RSA500, and RSA600) Signal Analyzer using Connect (CON-SVPC) LTE FDD and TDD Base Station (eNB) Transmitter RF Analyze without acquisition hardware present measurements Analyze wideband designs Signal Classification and Survey Mapping Free up instruments for further use while analysis occurs offline Enable analysis at multiple sites without purchasing additional Applications hardware Wideband radar and pulsed RF signals Use your Windows tablet or your powerful PC workstation Frequency agile communications Windows 7 (64 bit), Windows 8 (64 bit), and Windows 10 compatible Broadband satellite and microwave backhaul links www.tek.com 1SignalVu-PC-SVE Vector Signal Analysis Software Connect with the MDO4000B/C Series Wireless LAN, Bluetooth, Commercial Wireless With SignalVu-PC Connect (CON-SVPC), SignalVu-PC extends the Land Mobile Radio (LMR), APCO P25 functionality of the Mixed Domain Oscilloscope MDO4000B/C Series and Education turns it into the industry s only 1 GHz Vector Signal Analyzer. SignalVu-PC controls the MDO4000B/C RF section, acquires the vector-calibrated I/Q Long Term Evolution (LTE), Cellular data, and makes wide-band, time-correlated, multi-domain measurements. EMC/EMI pre-compliance and troubleshooting You can analyze, correlate and troubleshoot issues in time, frequency, phase, amplitude, and even modulation, since you can acquire up to 1 GHz of bandwidth in one shot. You can leverage the MDO4000B/C triggering Capture with a variety of tools capability and extend your debugging work into system-level troubleshooting of your embedded RF devices. Capture once - make multiple measurements without recapturing. Using oscilloscopes, up to four channels can be captured simultaneously each of which can be independently analyzed by SignalVu-PC software. Channels Analyze can be RF, I and Q, or differential inputs. You can also apply math functions to the acquisition before analysis by SignalVu-PC. Acquisition SignalVu-PC vector signal analysis software uses the same analysis lengths vary depending upon the selected capture bandwidth: full- capabilities found in the RSA5000 and RSA6000 Series real-time signal bandwidth acquisitions can range from 1 ms to 25 ms depending upon analyzers. model and option selections. Real-time signal analyzer captures range from Time-correlated measurements can be made of frequency, phase, up to 7.15 seconds at maximum acquisition bandwidth to several hours at amplitude, and modulation versus time. This is ideal for signal analysis that reduced bandwidths. includes frequency hopping, pulse characteristics, modulation switching, settling time, bandwidth changes, and intermittent signals. Acquisitions from the USB Spectrum Analyzers and all Tektronix MDO/ MSO/DPO Series oscilloscopes, including the spectrum analyzer in the Mixed Domain Oscilloscope can be analyzed with SignalVu-PC, adding deep analysis capabilities to these broadband acquisition systems. Signals acquired with RSAs and Specmon can also be analyzed with all of the post- acquisition analysis capabilities of those instruments. Once captured into memory, SignalVu-PC provides detailed analysis in multiple domains. The spectrogram display (left panel) shows the frequency of an 800 MHz wide LFM pulse changing over time. By selecting the point in time in the spectrogram during the On time of the pulse, the chirp behavior can be seen as it sweeps from low to high (lower right panel). Time-correlated, multi-domain view provides a new level of insight into design or operational problems not possible with conventional analysis solutions. Here, the hop patterns of a narrowband signal can be observed using Spectrogram (lower left) and its hop characteristics can be precisely measured with Frequency vs Time display (upper left). The time and frequency responses can be observed in the two views on the right as the signal hops from one frequency to the next. All of the analysis shown above is available in the free base version of SignalVu-PC. 2 www.tek.com