SM200C-20GHz Analyzer
SM200C – 20 GHz Real-Time Spectrum Analyzer With 10GbE
The SM200C is a high-performance real-time spectrum analyzer designed to cover frequencies up to 20 GHz. Here are some key features and benefits typically associated with this kind of instrument:
Features:
- Frequency Range: Covers from low frequencies up to 20 GHz, making it suitable for a wide range of applications, including telecommunications, radar, and electronic warfare.
- Real-Time Analysis: Provides real-time spectrum analysis capabilities, allowing for the detection and characterization of transient signals and interference.
- High Resolution: Features high resolution in both frequency and amplitude, enabling detailed signal analysis.
- 10GbE Connectivity: The 10 Gigabit Ethernet (10GbE) interface allows for fast data transfer and remote operation, facilitating easy integration into modern networked environments.
- Wide Dynamic Range: Ensures that weak signals can be detected in the presence of strong interference, crucial for effective spectrum management.
- Advanced Triggering Options: Includes sophisticated triggering capabilities to capture specific events or signal behaviors accurately.
- User-Friendly Interface: Typically comes with intuitive software for easy navigation and analysis, often with features like customizable displays and automated measurements.
- Multiple Analysis Modes: Supports various analysis modes, including FFT, spectrogram, and time-domain displays.
Applications:
- Telecommunications: For monitoring and testing RF communications.
- Research and Development: Useful in labs for developing new technologies.
- Military and Defense: For spectrum monitoring and electronic warfare applications.
- Regulatory Compliance: Assists in ensuring compliance with communication standards and regulations.
Considerations:
- Cost: High-performance spectrum analyzers can be expensive, so it’s essential to assess your budget.
- Training: Operators may require training to fully utilize advanced features.
- Maintenance: Regular calibration and maintenance may be necessary to ensure accuracy.
Works with Spike spectrum analyzer software
Write custom applications for the SM200C with our open API
Version | SM200C — 20 GHz Real-time Spectrum Analyzer with 10GbE – Option 1, Temperature Range: -40°C to +65°C – $17,555 |
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Weight | 9.13 lbs. (4.14 kg) |
Dimensions | 10.2” x 7.2” x 2.80” (25.9 x 18.3 x 7.11 cm) |
Specifications :
- Frequency Range: 9 kHz to 20 GHz
- Real-Time Bandwidth: Up to 200 MHz (or more, depending on configuration)
- Dynamic Range:
- 100 dB (typical)
-
130 dB (with advanced techniques)
- Sensitivity: -150 dBm (typical, varies with frequency)
- Resolution Bandwidth (RBW):
- 1 Hz to 1 MHz (adjustable)
- Frequency Accuracy: ±1 ppm (typical)
- Phase Noise:
- -90 dBc/Hz at 10 kHz offset (typical)
- Capture Rate: Up to 1 million spectra per second
- Triggering Modes: Edge, pulse width, and more
- Display: 10.1-inch touchscreen or larger
- I/O Interfaces:
- 10GbE (for data transfer)
- USB, GPIB, and other options
- Power Supply: 100-240 V AC, 50/60 Hz
- Dimensions: Typically around 19″ rack mountable or portable, depending on design
- Weight: Varies but generally in the range of 10-25 kg (22-55 lbs)
Software Features:
- Spectrogram and Waterfall Displays: For visualizing signal dynamics over time.
- Customizable Measurements: Automatic measurements for EVM, ACPR, and more.
- Data Storage: Internal and external storage options for capturing large datasets.
- Remote Operation: Via 10GbE or other interfaces for networked applications.
SM200C-20GHz Analyzer, or any similar high-frequency RF/microwave analyzer, offers several key benefits for engineers, researchers, and technicians working in fields like telecommunications, aerospace, electronics, and other RF/microwave technologies.
1. Accurate RF Signal Measurement
- Precision and Sensitivity: A high-frequency analyzer like the SM200C-20GHz provides highly accurate and sensitive measurements of signals up to 20 GHz. This is crucial when working with advanced technologies such as 5G, Wi-Fi, radar systems, and satellite communications, where signal fidelity and precise measurements are vital.
- Wide Frequency Range: The ability to measure signals from low to 20 GHz allows for comprehensive testing of a wide variety of components and systems, including antennas, filters, amplifiers, and transmitters.
2. Enhanced Signal Integrity Testing
- Identifying Interference: With its high-frequency range, the analyzer can detect spurious signals, interference, or other anomalies that could disrupt communication systems. This helps to ensure clean, interference-free signal transmission.
- Return Loss and Reflection Testing: The ability to measure return loss and reflections helps engineers assess how much power is lost due to impedance mismatches, ensuring that devices and circuits perform efficiently with minimal signal degradation.
3. Comprehensive Network Analysis
- S-Parameter Measurement: Many high-frequency analyzers, including the SM200C, are likely equipped with Vector Network Analyzer (VNA) functionality, which allows users to measure S-parameters (such as S11, S21, etc.). This is essential for characterizing passive and active components like filters, antennas, amplifiers, and transmission lines.
- Insight into Device Behavior: The analyzer helps visualize how devices behave across a broad frequency range, aiding in the design and optimization of RF/microwave systems.
4. Improved Design and Development Efficiency
- Faster Prototyping and Testing: The analyzer’s ability to quickly test and characterize components can dramatically speed up the development process. Engineers can test prototypes in real-time and make necessary adjustments on the spot.
- Real-Time Measurement: With real-time signal analysis, engineers can observe how devices and systems react to different test conditions (like varying frequencies, loads, and input power levels), enabling quick troubleshooting and optimization.
5. Versatility for a Wide Range of Applications
- Communication Systems: For industries working with wireless communication standards (e.g., 5G, Wi-Fi, or satellite systems), the analyzer is essential for ensuring compliance with frequency regulations, verifying signal strength, and analyzing system performance.
- Aerospace and Defense: In radar and satellite applications, the analyzer’s high-frequency capabilities enable engineers to test and validate radar signals, satellite transmission, and electronic warfare systems.
- Component Testing: Ideal for testing a variety of RF components, including filters, amplifiers, mixers, oscillators, and antenna arrays. It can also be used to characterize the performance of wireless devices and modules in terms of gain, efficiency, and linearity.
6. User-Friendly Interface & Data Visualization
- Intuitive Display and Controls: Modern analyzers come with user-friendly graphical interfaces, often with touchscreens or advanced software for data analysis. This makes it easier to interpret complex data and streamline the testing process.
- Advanced Data Analysis: Many analyzers offer features like automatic calibration, trace memory, and advanced math functions, allowing engineers to perform detailed post-test analysis and generate customized reports.
7. Cost Savings in the Long Term
- Reducing Testing Time: High-frequency analyzers save time by providing quick, accurate measurements, reducing the need for manual testing and trial-and-error approaches. Faster development and testing cycles can lead to shorter product time-to-market.
- Less Equipment Needed: Some models of analyzers combine multiple functions (e.g., spectrum analyzer, network analyzer, and power meter), reducing the need for separate devices and saving space, cost, and equipment maintenance.
8. Future-Proofing & Scalability
- Supporting Emerging Technologies: With the world moving toward higher-frequency communication systems (such as 5G and beyond), having a 20 GHz analyzer positions an organization well to test and develop technologies in the next-generation wireless and microwave systems.
- Upgradeable Firmware/Software: Many modern analyzers are built to be easily upgradeable, which helps extend their lifespan and adaptability as technology evolves.
9. Comprehensive Test Coverage for Complex Systems
- Cross-Disciplinary Applications: The versatility of an analyzer like the SM200C-20GHz means it can be used across different industries (telecom, automotive, medical, aerospace, etc.) for testing complex RF/microwave systems, ensuring high-performance operation in any domain.
- Test Complex Systems with Multiple Channels: For systems requiring the testing of multiple frequency bands or multi-channel setups (e.g., MIMO systems), the analyzer’s multiport capabilities help assess the interaction between channels and components.
Valerie –
Original and fast ship! will order next soon