Description
Rigol RSA3030N-OCXO – 3.0 GHz Real-Time Spectrum Analyzer with Vector Network Analysis and OCXO Option Installed
Real time spectrum analyzer with vector network analysis
Frequency range: 9kHz to 3 GHz
VNA frequency range: 100kHz to 3 GHz
Includes OCXO option factory installed
Includes tracking generator
Ultra-Real technology
Rigol’s new RSA3000N with vector network analysis mode builds upon its well-known and proven Ultra Real platform.
The RSA3000N is a new generation of cost-efficient real-time spectrum analyzer. With excellent specifications and clear user interface, the RSA3000N enables user control through a 10.1” touchscreen, front panel buttons and keyboard/mouse. Remote communication interfaces are also available.
Several models to choose from
There are five RSA models with VNA capability. Part numbers are as follows:
Model Frequency Range VNA Frequency Range
RSA5065N 9 kHz to 6.5 GHz 100 kHz to 6.5 GHz
RSA5032N 9 kHz to 3.2 GHz 100 kHz to 3.2 GHz
RSA3045N 9 kHz to 4.5 GHz 100 kHz to 4.5 GHz
RSA3030N 9 kHz to 3 GHz 100 kHz to 3 GHz
RSA3015N 9 kHz to 1.5 GHz 100 kHz to 1.5 GHz
Vector network analysis
Customers needing to characterize active or passive components, identify signal path errors or tune antennas will benefit from the complete VNA solution.
Vector network analysis mode adds critical analysis capability by enabling complex measurements including distance to fault and S parameters.
Vector network analysis mode complements the other analysis capabilities of Rigol’s Ultra Real spectrum analyzers, including the advanced measurements in Smith mode, real time visualization, EMI pre-compliance analysis and vector signal analysis. VNA mode adds important debugging capabilities making the RSA3000N one of the most complete RF analysis instruments on the market and a powerful instrument for any RF engineer.
S11
S11, or forward reflection co-efficient allows engineers to quickly visualize and measure their component’s response on a Smith chart and polar plane while measuring their component’s magnitude and SWR.
S21
S21, or forward transmission coefficient allows engineers to quickly visualize how their components, including amplifiers, filters and cabling, affect impedance or phase as a function of frequency. View phase or group delay as a function of frequency, as well as magnitude to quickly determine and confirm critical specifications.
Distance to fault
Distance to fault measurements allow engineers to easily debug connectivity issues that cannot be seen from visual inspection, using an inverse for a transform methodology. The spectrum analyzer calculates the distance to the source of the signal’s reflection.
In VNA mode, you can make S11, S21, and DTF measurements for the components and circuit networks. The network characteristics of the components under test can be accurately demonstrated in Smith chart, Polar chart, and other formats.
Integrates four measurement modes for multiple RF test requirements
The RSA3000N provides EMI, RTSA, and VNA modes in addition to the traditional GPSA mode. Engineers may find it convenient to address multiple RF test challenges with just one instrument, effectively reducing their time and costs, greatly improving their working efficiency.
Advanced measurement mode provides test items required for the transmitter test such as multichannel power, ACP, and occupied BW.
Quickly recall the limit line compliant with the CISPR standard (e.g. EN55011, EN55012, etc.) to carry out pre-test and monitor the target point with three different detectors.
With the Density spectrum, you can find out the exceptional signals hidden behind the high-level signals, and capture them accurately with the FMT.
Composite displays
Spectrogram for gap-free display of the spectrum
Density spectrum for you to visualize how frequently signals occur
RSA3000 front panel features
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