Berkeley Nucleonics 7300 Signal Source Analyzer
The Berkeley Nucleonics 7300 stands as an integrative marvel in the realm of signal source analysis, equipped with a comprehensive suite of measurement functionalities. This device excels in evaluating signal sources across a wide frequency spectrum, from VHF to microwave frequencies, making it ideal for analyzing crystal oscillators, PLL synthesizers, clocks, phase-locked or free-running VCOs, DROs, SAW or YIG oscillators, and more.
Key Features:
- Absolute and Residual Phase Noise Measurements: Obtain precise evaluations for both absolute and residual phase noise.
- Amplitude Noise Measurements: Analyze amplitude noise levels with high accuracy.
- Pulsed Measurements: Perform pulsed absolute and residual phase noise evaluations.
- Two-Channel 100 MHz FFT Analyzer: Incorporate advanced signal processing capabilities with a dual-channel approach.
- Transient Measurements: Capture frequency, phase, and amplitude variations over time for comprehensive analysis.
- Spectrum Analysis: Conduct thorough spectrum analysis for detailed insights into signal characteristics.
- Frequency Counter Function / Power Meter: Leverage built-in frequency counter capabilities and power measurement tools.
Specifications:
The Berkeley Nucleonics 7300 offers an extensive frequency range from 1 MHz to 26 GHz. The two-channel cross-correlation system features two internal tunable reference sources, accommodating measurements with externally fed references as well.
This compact and robust instrument is designed for versatility, featuring LAN (VXI-11), USBTMC, and optional GPIB interfaces, ensuring seamless connectivity. The user-friendly graphical interface is platform-independent, complemented by an API library and a powerful SCPI command language set for enhanced functionality.
For further detailed specifications and technical information, please refer to the product datasheet.
