Description
P94812D RF AWG Desktop for Advanced Multi-Channel RF Generation
The P94812D RF AWG Desktop is a high-channel density, software-defined RF waveform generation system designed for advanced research, defense simulation, and next-generation communication testing. Built on Tabor’s Proteus SDR architecture, this instrument is engineered to combine high-speed signal generation, real-time intelligence, and scalable multi-channel performance in a single platform.
Operating at 9GS/s with 16-bit resolution, the P94812D delivers exceptional waveform accuracy and signal purity even in highly demanding RF environments. Its 12-channel architecture enables precise synchronization across multiple outputs, making it ideal for applications such as electronic warfare simulation, large-scale antenna testing, quantum control systems, and advanced radar development.
A key strength of the P94812D RF AWG Desktop is its large 8GS waveform memory, which supports extended and highly complex waveform sequences without performance degradation. Combined with 16 high precision markers, it provides extremely accurate timing control for synchronized multi-event systems and experimental setups requiring deterministic signal behavior.
Unlike traditional waveform generators that rely on static preloaded sequences, the P94812D leverages FPGA-based real-time feedback control. This enables the system to react instantly to incoming signals and modify output behavior dynamically. This conditional waveform generation capability is essential for closed-loop RF systems, adaptive radar simulation, and real-time electronic warfare scenarios.
The integrated SDR architecture includes digital IQ modulation and demodulation, allowing seamless integration into modern RF and communication systems. With high-speed PCIe data transfer, the P94812D ensures continuous streaming, minimal latency, and efficient waveform updates, even under heavy data loads.
Designed with modular PXI Express compatibility, the system can scale from laboratory setups to large multi-channel RF arrays. This flexibility makes it suitable for both research institutions and industrial RF test environments that require high channel density and synchronized signal generation.
The P94812D RF AWG Desktop is built for engineers who require precision, scalability, and intelligent waveform control. It provides a future-ready solution for RF communication development, defense simulation, quantum experimentation, and advanced radar systems where performance and adaptability are critical.
Technical Table
| Specification | Details |
| Model | P94812D |
| Sampling Rate | 9 GS/s |
| Resolution | 16-bit |
| Channels | 12 Channel Output |
| Waveform Memory | 8 GS |
| Markers | 16 |
| Architecture | SDR based Proteus platform |
| Data Transfer | High-speed PCIe bus |
| Modulation | Integrated IQ modulation and demodulation |
| Control System | FPGA-based real-time feedback |
| Programming Support | Python, MATLAB, C, LabVIEW |
| Expansion | Modular PXI Express architecture |
| Key Applications | EW simulation, radar systems, RF testing, quantum research |
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