Description
Proteus P12812D AWG
The Proteus P12812D AWG Module is designed for engineers and researchers who require advanced waveform generation with intelligent signal processing capabilities. As part of the powerful Proteus series from Tabor Electronics, this Arbitrary Waveform Generator combines precision waveform control, scalable multi channel performance, and real time signal responsiveness for demanding RF and microwave applications.
Unlike conventional waveform generators, the Proteus P12812D AWG is built to react and adapt instantly to incoming signals. Its software defined radio architecture and FPGA based feedback control system allow the instrument to generate responsive waveforms with extremely low latency. This capability makes it an ideal solution for electronic warfare simulation, radar target generation, wireless communication development, and advanced quantum computing environments.
High Performance Proteus
The Proteus P12812D AWG provides up to 1.25GS/s waveform generation with 16 bit vertical resolution, delivering exceptional waveform fidelity and signal accuracy. With 1GS of onboard memory, the system supports long waveform playback and complex signal generation for sophisticated RF testing environments.
Its advanced PCIe architecture enables ultra fast waveform streaming and bidirectional data transfer, eliminating the bandwidth limitations commonly found in traditional AWGs. Engineers can efficiently create dense and non repeating waveform environments for realistic electronic warfare scenarios, communication system validation, and radar simulation applications.
The 12 channel configuration provides exceptional flexibility for synchronized waveform generation and large scale phase coherent applications. This makes the Proteus P12812D AWG particularly effective for massive MIMO research, advanced radar systems, and complex RF signal emulation.
Real Time Processing
One of the most powerful features of the Proteus P12812D AWG is its real time FPGA controlled feedback system. By integrating waveform generation and signal processing into a unified architecture, the platform minimizes latency and enables immediate waveform adaptation based on incoming signals.
This intelligent feedback capability allows conditional waveform generation where the output changes instantly according to received data. In radar simulation applications, the AWG can generate delayed or Doppler shifted echoes to accurately emulate moving targets and dynamic RF environments.
The advanced Task Table sequencing feature also allows logic based waveform transitions instead of traditional linear sequencing. This intelligent waveform management enables faster response times and more flexible signal generation for real world RF applications.
Modular Proteus Design
The modular PXI Express architecture allows the Proteus P12812D AWG to scale from compact laboratory systems to large synchronized installations with hundreds of channels. Its compact footprint reduces rack space requirements while maintaining excellent synchronization accuracy and channel density.
The platform supports Python, MATLAB, C, and LabVIEW programming environments, making integration into automated RF testing systems simple and efficient.
Technical Specifications
| Specification | Details |
| Model | P12812D |
| Product Type | Arbitrary Waveform Generator |
| Sampling Rate | 1.25GS/s |
| Resolution | 16 Bit |
| Memory | 1GS |
| Channels | 12 Channel |
| Markers | 12 Programmable Markers |
| Architecture | SDR Based PXI Express |
| Data Transfer | High Speed PCIe |
| Waveform Sequencing | Task Driven Non Linear Sequencing |
| Feedback System | Real Time FPGA Controlled |
| Modulation | Integrated Digital IQ Modulators and Demodulators |
| Programming Support | Python, MATLAB, C, LabVIEW |
| Applications | EW, Radar, Quantum Computing, Wireless Communications |
| Scalability | Expandable to Hundreds of Channels |
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