Description
Proteus P9482M RF AWG
The Proteus P9482M RF AWG Module is engineered for engineers and researchers who demand speed, precision, and intelligent real time waveform control. As part of the advanced Proteus Arbitrary Waveform Transceiver platform from Tabor Electronics, this RF AWG module combines cutting edge DAC technology with FPGA based processing to create a flexible and scalable solution for modern RF testing environments.
Designed with a software defined radio architecture, the Proteus P9482M RF AWG goes beyond traditional waveform generation. It actively listens, processes, and reacts to incoming signals in real time. This capability is essential for applications such as electronic warfare simulation, radar target generation, quantum computing, and advanced wireless communication testing where ultra low latency and responsive signal processing are critical.
High Speed Performance
The Proteus P9482M RF AWG delivers up to 9GS/s waveform generation with 16 bit vertical resolution, providing outstanding signal fidelity and dynamic range. Its integrated PCIe based architecture enables ultra fast data transfer for continuous waveform streaming, real time Pulse Descriptor Word processing, and uninterrupted playback or recording.
With up to 8GS waveform memory and scalable multi channel synchronization, the system supports complex signal environments without the limitations of conventional AWGs. Engineers can generate dense and non repeating RF scenarios required for realistic EW and radar testing while maintaining precise timing and phase coherence.
Real Time Feedback
One of the most advanced capabilities of the Proteus P9482M RF AWG is its real time feedback control system. By integrating the DAC and optional ADC into a single FPGA controlled platform, the module minimizes latency and enables instant waveform adaptation based on received signals.
This feature supports conditional waveform generation and intelligent sequencing for closed loop RF systems. In radar applications, the platform can simulate moving targets through coherent echo generation with Doppler shifted or delayed signals. For quantum applications, it allows rapid waveform updates required for accurate qubit characterization and reset operations.
Modular Design
The modular PXI Express architecture allows the Proteus P9482M RF AWG to scale from small laboratory setups to large synchronized systems with hundreds of channels. Its compact footprint delivers exceptional channel density while reducing rack space and system complexity.
The module also integrates digital IQ modulation and demodulation capabilities, simplifying complex RF signal creation and analysis. Engineers can easily program waveform sequencing and FPGA driven operations using Python, MATLAB, C, or LabVIEW for seamless integration into automated test environments.
Technical Specifications
| Specification | Details |
| Model | P9482M |
| Product Type | RF Arbitrary Waveform Generator Module |
| Sampling Rate | 9GS/s |
| Resolution | 16 Bit |
| Memory | 8GS |
| Channels | 2 Channel |
| Markers | 8 Programmable Markers |
| Architecture | SDR Based PXI Express |
| Data Transfer | High Speed PCIe |
| Waveform Sequencing | Task Driven Non Linear Sequencing |
| Feedback Control | Real Time FPGA Controlled |
| Modulation | Integrated Digital IQ Modulation and Demodulation |
| Programming Support | Python, MATLAB, C, LabVIEW |
| Applications | EW, Radar, Quantum Research, Wireless Communications |
| Scalability | 2 to Hundreds of Channels |
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