RF provider Bird expands its SignalHawk family of rugged, handheld spectrum analyzer products with the addition of the SH-60S-AOA Angle of Arrival spectrum analyzer and the SH-60S-TC, offering frequency range of 6 GHz. The SignalHawk SH-60S-TC and SH-60S-AOA provide test coverage for all major wireless systems in an easy-to-use, fully portable test instrument. The SH-60S-TC, RF Analyzer can view RF signals between 9 kHz and 6 GHz and offers intuitive menus, predefined measurements, higher frequency coverage, and a spectrogram (waterfall) display. Additional built-in functions include: FM demodulation, GNSS Signal Quality Test, Field Strength, and Spectrum masking. The SH-60S-AOA, RF Analyzer enables the SH-60S-TC to triangulate the location of an interferer on a map for signals at 9 kHz and 6 GHz. Triangulation allows the user to locate the source within 3 measurements, forming a triangle in the area of the emitter, with a built-in map to find the exact location of the problem. Bird
Spectrum analyzers add VNA mode
RIGOL Technologies’ RSA3000N and RSA5000N Spectrum Analyzers extend the flexibility and capability of the UltraReal platform with a Vector Network Analyzer measurement mode. Delivering the same performance specifications and feature set as the current RSA models, the RSA5000N and RSA3000N also feature integrated Smith Charts, Polar Charts, Reflection Coefficient, Impedance, Insertion Loss, Frequency Response, and a host of other measurements. The RIGOL UltraReal Spectrum Analyzer family also supports S11, S21, and Distance-to-Fault Analysis. The RSA5000N and RSA3000N are suitable for antenna sets, searches for communication and cable faults, or characterizing active and/or passive RF components. RIGOL Technologies
FSW signal and spectrum analyzer upgraded
With the R&S FSW-B8001 option, the R&S FSW signal and spectrum analyzer now supports an 8.3 GHz internal analysis bandwidth, offering dynamic range and sensitivity. Design engineers developing the latest radar and wireless communications technologies as well as future satellite systems will benefit from the extended bandwidth available in a one-box solution. Covering an input frequency range of up to 90 GHz, the instrument offers dynamic range, sensitivity, precision, and EVM performance. Applications for the R&S FSW include pulse measurements of A&D radar systems, satellite payload testing and amplifier pre-distortion tests. Rohde & Schwarz