UNI-T announces the release of the UTS3000A Series Signal Analyzers, a spectrum analysis solution designed for complex RF environments. The series includes three models providing frequency coverage from 9 kHz to 8.4 GHz, offering spectrum analysis capabilities for various professional applications.
The UTS3000A Series provides measurement precision suitable for contemporary signal analysis requirements. The analyzers achieve a displayed average noise level (DANL) of -165 dBm (typical) when the preamplifier is enabled, and deliver phase noise performance of -100 dBc/Hz at 10 kHz offset. These specifications enable detection and analysis of low-level signals in dense RF environments.
Three frequency range options are available: the UTS3036A covers 9 kHz to 3.6 GHz, the UTS3060A spans 9 kHz to 6 GHz, and the UTS3084A extends from 9 kHz to 8.4 GHz. The analyzers incorporate real-time spectrum analysis capabilities with optional real-time bandwidth extending to 40 MHz, facilitating capture of transient and intermittent signals. High-resolution scanning capability supports up to 40,001 sweep points for detailed signal characterization.
The series includes built-in tracking generator and vector network analysis (VNA) functionality for S-parameter measurements. Amplitude accuracy specifications indicate performance better than 0.7 dB across the measurement range. The instruments feature a 10.1-inch capacitive touchscreen display with 1280 × 800 resolution, supporting multi-touch gesture controls for navigation and measurement setup.
Connectivity options include USB, LAN, and HDMI interfaces for integration with external systems. WebServer functionality enables remote operation and monitoring from PC and mobile platforms. Optional measurement packages extend capabilities to include EMI testing and vector signal analysis for specialized applications.
The UTS3000A Series addresses measurement requirements in telecommunications, electronics manufacturing, educational institutions, and research and development environments. Applications include interference signal identification through real-time spectrum analysis, RF component characterization using vector network analysis capabilities, pre-compliance EMI testing with appropriate software packages, and modulated signal analysis for communication system development.
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