Description
P9482M RF AWG Performance and RF Signal Generation
The Tabor P9482M RF AWG delivers exceptional RF waveform generation for modern engineering and scientific research applications. With a 9GS/s sampling rate and high resolution 16-bit architecture, this module produces extremely accurate signals that replicate complex RF environments used in radar, communication, and Electronic Warfare testing.
The two independent RF output channels allow synchronized signal generation for multi channel testing scenarios. Engineers can create precise waveform patterns, modulated RF signals, and complex signal environments used to evaluate high frequency communication systems and radar platforms.
Modular Architecture and Scalability
The P9482M RF AWG is built on an industry standard PXI Express architecture that provides a compact and modular system design. This architecture allows laboratories and research facilities to scale their setups from a few channels to large multi channel signal generation systems while maintaining precise synchronization.
The modular approach helps reduce equipment footprint while delivering powerful RF waveform generation capabilities. This flexibility makes the system suitable for applications such as large scale radar simulations, massive MIMO research, and complex quantum computing control systems.
Real Time Feedback System
A major advantage of the P9482M RF AWG is its integrated real time feedback control capability. The system combines waveform generation and optional signal digitizing through a high speed FPGA processing platform.
This design allows the instrument to analyze incoming signals and instantly modify the generated waveform without sending data back to a host computer. By removing processing latency, the system supports extremely fast conditional waveform generation. This capability is important for closed loop Electronic Warfare systems, adaptive RF signal testing, and radar target simulation.
Intelligent Waveform Sequencing
The P9482M RF AWG also includes a sophisticated task table sequencing system that enables dynamic waveform control. Instead of running waveforms in a simple linear sequence, the system can switch waveform segments based on triggers or incoming signal conditions.
In radar simulation environments, this allows the instrument to function as a radar target simulator. The system can detect incoming radar pulses and generate delayed echoes or Doppler shifted signals to simulate moving targets. Engineers can easily program these intelligent waveform responses using Python, MATLAB, C, or LabVIEW for automated testing environments.
Technical Specifications
| Parameter | Specification |
| Model | P9482M |
| Instrument Type | RF Arbitrary Waveform Generator Module |
| Sampling Rate | 9GS/s |
| Resolution | 16-bit |
| Output Channels | 2 |
| Markers | 8 |
| Standard Memory | 8GS |
| Optional Memory | Up to 16GS |
| Architecture | Advanced SDR based RF platform |
| Data Interface | High speed PCIe |
| Streaming Capability | Up to 6GS/s optional |
| Digital IQ Modulation | Integrated |
| Feedback System | FPGA based real time feedback |
| Optional Digitizer | 5.4GS/s single channel or 2.7GS/s dual channel |
| Trigger Input | 10 MHz standard, optional 50 MHz |
| Programming Support | Python, MATLAB, C, LabVIEW |
| Warranty | 3 years standard |
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