Spectrum Analyzers RSA6000 Series0 pages
Spectrum Analyzers
RSA6000 Series Data Sheet
Trigger
Trigger on Frequency Edge or Power Level Transients with a
Minimum Event Duration of 3.7 μs in the Frequency Domain, 9.1 ns
in Time Domain
DPX Density™ Trigger Activated Directly from DPX Display
Time-qualied and Runt Triggers Trap Elusive Transients
Frequency Mask Trigger Captures Any Change in Frequency Domain
Capture
Up to 7.15 s Acquisitions at 110 MHz Bandwidth can be Directly
Stored as MATLAB™ Compatible Files
Gap-free DPX Spectrogram Records up to 4444 Days of Spectral
Information for Analysis and Replay
Interfaces with TekConnect® Probes for RF Probing
Features & Benets
RSA6000 Series 6.2, 14, and 20 GHz Real-time Signal Analyzers
High-performance Spectrum Analysis
20 dBm 3rd Order Intercept at 2 GHz, Typical
Displayed Average Noise Level –151 dBm/Hz at 2 GHz
(–167 dBm/Hz, Preamp On, typical) enables Low-level Signal Search
±0.5 dB Absolute Amplitude Accuracy to 3 GHz for High
Measurement Condence
Fully Preselected and Image Free at All Times for Maximum Dynamic
Range at Any Acquisition Bandwidth
Fastest High-resolution Sweep Speed: 1 GHz sweep in 10 kHz RBW
in less than 1 second
Internal Preamp up to 20 GHz
Discover
DPX® Spectrum Processing provides an Intuitive Understanding
of Time-varying RF Signals with Color-graded Displays based on
Frequency of Occurrence
Revolutionary DPX Displays Transients with a Minimum Event
Duration of 3.7 μs
Swept DPX Spectrum enables Unprecedented Signal Discovery over
Full Instrument Span
Analyze
Time-correlated Multidomain Displays for Quicker Understanding of
Cause and Effect when Troubleshooting
Power, Spectrum, and Statistics Measurements help you Characterize
Components and Systems: Channel Power, ACLR, Power vs. Time,
CCDF, OBW/EBW, and Spur Search
AM/FM/PM Modulation and Audio Measurements (Opt. 10)
Phase Noise and Jitter Measurements (Opt. 11)
Settling Time Measurements, Frequency, and Phase (Opt. 12)
Pulse Measurements (Opt. 20) – Over 20 Vector and Scalar
Parameters including Rise Time, Pulse Width, Pulse-to-Pulse Phase
provide Deep Insight into Pulse Train Behavior
General Purpose Digital Modulation Analysis (Opt. 21) provides
Vector Signal Analyzer Functionality for Over 20 Modulation Types
Flexible OFDM analysis of 802.11a/g/j/p and WiMAX 802.16-2004
Applications
Spectrum Management – Find Interference and Unknown Signals
Radar/EW – Full Characterization of Pulsed and Hopping Systems
Characterize Radar and Pulsed RF Signals
RF Debug – Components, Modules, and Systems
Radio/Satellite Communications – Analyze Time-variant Behavior of
Cognitive Radio and Software-dened Radio Systems
EMI Diagnostics – Increase Condence that Designs will Pass
Compliance Testing