RSA-5032N

Engineers integrating WiFi, Bluetooth and other modern RF technologies are confronted with complex challenges like frequency hopping signals, channel conflict, and spectrum interference.  Real-Time Spectrum Analyzers bring the dimension of time to RF Analysis making it easier to monitor and characterize these complex RF systems.  The RSA5000 combines industry leading realtime performance (7.45µs 100% POI), rich data displays, and advanced triggering options allowing the user to quickly capture, identify and analyze these complex events.

RSA5000 Series Real-Time Spectrum Analyser Highlights

• Ultra-Real technology
• Frequency: 9kHz to 3.2 GHz
• Displayed average noise level (DANL):< 165 dBm (typical)
• Phase noise: < 108 dBc/Hz (typical)
• Level measurement uncertainty:
• 3.2GHz tracking generator
• Min. RBW 1 Hz
• EMC filter and quasi-peak detector
• Various measurement functions
• Multiple measurement modes
• Up to 40 MHz real-time analysis bandwidth
• Multiple trigger modes and trigger masks
• Density, Spectrogram, and other display modes
• PC software options
• 10.1'' capacitive multi-touch screen, supporting touch gestures
• USB, LAN, HDMI and other communication and display interfaces

RSA5000N Series Vector Network Analyser Highlights

The RIGOL Vector Network Analysis mode adds significant capability to our RSA family of Spectrum Analyzers. Customers needing to characterize active or passive components, identify signal path errors or tune antennas will benefit from the complete VNA solution.

Supports the following:

• S11 - Reflection Coefficient
• S21 - Forward Transmission
• Distance to Fault

The VNA Mode comes with a rich visualization set to quickly identify and resolve problems with your RF Designs

• Smith Chart
• Return Loss
• Standing Wave Ratio
• Phase Delay
• Insertion Loss
• Group Delay
• Return Loss
• Distance to Fault

Making an S21 Measurement with the RIGOL RSA

A "Forward Transmission” S-Parameter, known as an S21, describes how energy passes through a network. To make the measurement a signal is put into port 1 and measured at port 2. This is important when characterizing the performance of passive components like attenuators, splitters, and filters. See how easy it is to make an S21 measurement using the RIGOL Vector Network Analyzer.

Making a DTF Measurement with the RIGOL RSA

A "Distance to Fault” measurement is a frequency domain reflective test used to identify signal path degradation and faults. It is useful debugging communications system and completing cable test as well as optimize performance and throughput of a network. See how the RIGOL Vector Network Analyzer lets you quickly complete DTF tests and identify root cause failures.

Making an S11 Measurement with the RIGOL RSA

A "Reflection Coefficient" S-Parameter, known as an S11, describes how energy is reflected back to a transmiting port. To make the measurement a signal is put into port 1 and measured at port 1. This is important when characterizing the performance of active components like amplifiers and debugging signal integrity issues. See how easy it is to make an S11 measurement using the RIGOL Vector Network Analyzer.

Calibrating you RSA for Vector Network Analysis

Making accurate VNA measurements requires precise instrument calibration. With the RIGOL calibration kits and a customizable UI it is quick and simple to set up your instrument with our kit or via a user defined calibration setup. See how easy it is to calibrate the RIGOL VNA in order to insure accurate and repeatable results.