Tabor Electronics Ltd.

The Tabor P2588D RF AWG is a powerful arbitrary waveform generator designed for multi-channel RF testing, radar simulation, and advanced communications research. With eight independent output channels, 16-bit resolution, and a 2.5GS/s sampling rate, it provides engineers with the precision and flexibility required for complex waveform generation.

Built on Tabor’s Proteus SDR architecture, the P2588D RF AWG features an FPGA-based real-time feedback system, enabling conditional waveform generation for adaptive testing in dynamic environments. It is ideal for Electronic Warfare, massive MIMO, and quantum control applications.

Key Features

• 2.5GS/s sampling rate for accurate waveform reproduction
• 16-bit resolution for high signal fidelity
• 8 independent output channels for synchronized multi-channel testing
• 16 programmable markers for precise timing and control
• 2GS waveform memory, expandable up to 8GS
• PCIe high-speed data transfer for rapid waveform loading
• Integrated Digital IQ modulators and demodulators
• FPGA-based real-time feedback for adaptive waveform generation
• Excellent phase noise and spurious performance
• Task-driven non-linear waveform sequencing for dynamic response
• Optional streaming capability for continuous waveform playback
• Compatible with Python, MATLAB, C, and LabVIEW

The Tabor P9082B RF AWG is a high-speed, 2-channel arbitrary waveform generator designed for advanced RF engineering, quantum computing, and Electronic Warfare simulations. Featuring 9GS/s sampling rate and 8-bit resolution, it delivers precise, real-time waveform generation with integrated adaptive control.

Key Features

• 9GS/s ultra-high-speed sampling for fast signal generation
• 8-bit resolution for reliable waveform accuracy
• 2 independent channels with 8 programmable markers
• 4GS standard memory for long waveform sequences
• FPGA-based real-time feedback for conditional waveform generation
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express design, scalable to multi-channel systems
• High-speed PCIe data transfer for continuous streaming
• Excellent phase noise and spurious-free signal performance
• Task Table sequencing for intelligent waveform control
• Supports Python, MATLAB, C, and LabVIEW programming

The P9082D Proteus 9GS/s AWG is a high-performance arbitrary waveform generator designed for ultra-wideband RF, defense simulation, and advanced research applications. Built on a powerful SDR-based architecture, it combines speed, precision, and real-time intelligence in a compact RF platform.

Key Features

• 2-channel architecture with 9GS/s ultra-high sampling rate
• 14-bit resolution for enhanced signal accuracy
• 4GS waveform memory for complex signal generation
• 8 integrated markers for precise timing control
• Advanced FPGA-based real-time feedback system
• SDR architecture enabling adaptive waveform behavior
• Integrated NCO for direct microwave frequency generation
• PCIe high-speed data streaming interface
• Task-based waveform sequencing for intelligent control
• Optional digitizer support for closed-loop applications

The Tabor P9082D RF AWG is a high-performance arbitrary waveform generator designed for precision multi-channel RF testing, radar simulation, and next-generation communications research. With two independent output channels, 8-bit resolution, and a 9GS/s sampling rate, it delivers fast and accurate waveform generation for complex testing scenarios.

Its FPGA-based real-time feedback system allows adaptive, conditional waveform generation, making it ideal for Electronic Warfare, quantum control, and high-speed wireless testing applications.

Key Features

• 9GS/s sampling rate for ultra-fast waveform generation
• 8-bit resolution for high-speed signal accuracy
• 2 independent output channels for synchronized testing
• 8 programmable markers for precise timing and control
• 4GS waveform memory, expandable up to 16GS
• PCIe high-speed data interface for rapid waveform transfer
• FPGA-based real-time feedback for adaptive waveform response
• Integrated Digital IQ modulation and demodulation
• Excellent phase noise and spurious performance
• Non-linear task-driven waveform sequencing for intelligent response
• Optional streaming for continuous waveform playback
• Supports Python, MATLAB, C, and LabVIEW programming

The Tabor P9082M AWG is a high speed arbitrary waveform generator engineered for demanding RF signal generation and advanced testing applications. With a powerful 9GS/s sampling rate, 8-bit resolution, and two independent output channels, this instrument enables engineers to generate complex waveforms for Electronic Warfare simulation, radar development, and next generation wireless communication research.

Part of the advanced Proteus platform, the P9082M AWG is built on modern SDR architecture that allows the system to generate signals while also analyzing and reacting to incoming data. Its integrated FPGA based feedback system enables real time conditional waveform generation, providing engineers with a responsive and intelligent signal testing solution.

Key Features

• 9GS/s ultra high sampling rate for advanced RF waveform generation
• 8-bit vertical resolution optimized for high speed signal testing
• 2 independent output channels for dual channel signal generation
• 8 programmable markers for precise synchronization and control
• 4GS waveform memory for long and complex waveform storage
• High speed PCIe data transfer architecture for fast waveform loading
• Integrated digital IQ modulators and demodulators
• Real time FPGA feedback system for conditional waveform control
• Excellent phase noise and spurious signal performance
• Task table sequencing for dynamic waveform switching
• Optional high speed streaming capability for extended waveform playback
• Compatible with Python, MATLAB, C, and LabVIEW programming environments

The Tabor P9082M Proteus AWG is a 9GS/s high speed arbitrary waveform generator designed for cutting edge RF, radar, Electronic Warfare, and quantum applications. With dual channels, 4GS memory, 8 markers, and real-time FPGA feedback, it delivers ultra-fast, intelligent waveform generation for the most demanding test environments.

Key Features

• 9GS/s sample rate for ultra-wideband signal generation
• 8-bit vertical resolution optimized for high speed RF output
• 4GS onboard memory standard, expandable up to 16GS
• Dual-channel synchronized outputs
• 8 programmable markers for precise timing control
• PXI Express modular and scalable architecture
• Integrated digital IQ modulators and demodulators
• Optional 5.4GS/s RF ADC for transceiver capability
• Real-time FPGA feedback for conditional waveform generation
• Ultra-fast PCIe data transfer and continuous streaming

The Tabor P9084B RF AWG is a high-performance 4-channel arbitrary waveform generator designed for advanced RF engineering, quantum computing, and Electronic Warfare simulations. With a 9GS/s sampling rate and 8-bit resolution, it delivers precise, real-time waveform generation with adaptive control and high-speed memory.

Key Features

• 9GS/s ultra-fast sampling for accurate signal generation
• 8-bit resolution for high-fidelity waveform output
• 4 independent channels with 16 programmable markers
• 4GS standard memory for extended waveform sequences
• FPGA-based real-time feedback for conditional waveform generation
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express design scalable to multi-channel systems
• High-speed PCIe data transfer for uninterrupted streaming
• Excellent phase noise and spurious-free signal performance
• Task Table sequencing for intelligent, responsive waveform control
• Compatible with Python, MATLAB, C, and LabVIEW

The Tabor Proteus P9084D is a high performance 9GS/s arbitrary waveform generator designed for advanced RF, quantum, and electronic warfare applications. Built on a powerful SDR based architecture, it delivers real time responsiveness and exceptional signal fidelity for demanding research and test environments.

Key Features

• 9GS/s sampling rate with 8-bit resolution for ultra fast waveform generation
• 4 independent output channels for multi signal synchronization
• 4GS waveform memory enabling complex long duration signal playback
• 16 marker outputs for precise timing and system triggering
• Advanced real time feedback control for adaptive waveform generation
• Integrated SDR architecture for responsive signal processing
• High stability design with excellent phase noise and spurious performance
• Task based waveform sequencing for intelligent signal behavior
• PCIe based high speed data transfer for uninterrupted streaming
• Supports RF, EW simulation, quantum control, and wireless testing

The Tabor P9084D RF AWG is a high-performance arbitrary waveform generator designed for complex multi-channel RF testing, radar simulation, and quantum research. With four independent output channels, 8-bit resolution, and a 9GS/s sampling rate, it delivers precise and rapid waveform generation for demanding experimental and industrial scenarios.

Its FPGA-based real-time feedback system enables adaptive waveform generation, making it ideal for Electronic Warfare, qubit control, and next-generation wireless communications testing.

Key Features

• 9GS/s ultra-fast waveform generation
• 8-bit resolution for accurate signal reproduction
• 4 independent output channels for synchronized operations
• 16 programmable markers for precise timing
• 4GS waveform memory, expandable up to 16GS
• High-speed PCIe data interface for rapid waveform transfer
• FPGA-based real-time feedback for conditional waveform response
• Integrated Digital IQ modulation and demodulation
• Excellent phase noise and spurious-free performance
• Task-driven non-linear waveform sequencing for intelligent signal control
• Optional streaming for continuous waveform playback
• Compatible with Python, MATLAB, C, and LabVIEW

The Tabor P9086B RF AWG is a versatile 6-channel arbitrary waveform generator designed for high-speed RF engineering, quantum research, and Electronic Warfare (EW) simulations. With a 9GS/s sampling rate, 8-bit resolution, and real-time adaptive feedback, it provides precise, responsive waveform generation for complex multi-channel experiments.

Key Features

• 9GS/s ultra-fast sampling for accurate waveform generation
• 8-bit vertical resolution for precise signal representation
• 6 independent channels with 24 programmable markers
• 4GS standard memory, expandable up to 16GS
• FPGA-based real-time feedback for conditional waveform control
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express architecture scalable to hundreds of channels
• High-speed PCIe data transfer for uninterrupted streaming
• Excellent phase noise and spurious-free performance
• Task Table sequencing for responsive, logic-driven waveform generation
• Compatible with Python, MATLAB, C, and LabVIEW

The Tabor Proteus P9086D is a high density 9GS/s arbitrary waveform generator designed for advanced RF, radar, and quantum research applications. Built on a powerful SDR based architecture, it delivers real time signal intelligence, adaptive waveform control, and multi channel synchronization for complex engineering environments.

Key Features

• 9GS/s sampling rate with high speed RF waveform generation
• 6 synchronized output channels for complex multi signal setups
• 4GS waveform memory for long duration and high density signal playback
• 24 marker outputs for precise timing control and synchronization
• SDR based architecture for real time adaptive waveform processing
• Integrated feedback system for conditional waveform generation
• Task driven sequencing for intelligent signal behavior control
• PCIe high speed data transfer for continuous waveform streaming
• Low latency FPGA processing for instant response systems
• Suitable for EW simulation, radar testing, and quantum control systems

The Tabor P94812B RF AWG is a high performance benchtop RF arbitrary waveform generator designed for advanced signal generation and real time RF experimentation. With a 9GS/s sampling rate, 16-bit resolution, and 12 independent channels, it enables engineers and researchers to create complex waveform scenarios for Electronic Warfare simulation, quantum computing, radar testing, and next generation wireless communication development.

Built on advanced SDR architecture, this system does more than generate signals. It can listen, process, and react instantly through its integrated real time feedback control system. The result is a responsive RF platform capable of handling demanding applications that require precision, speed, and intelligent waveform sequencing.

Key Features

• 9GS/s high speed sampling for precise RF waveform generation
• 16-bit vertical resolution for high signal accuracy
• 12 independent output channels for complex multi-channel systems
• 24 programmable markers for precise synchronization
• 8GS waveform memory expandable up to 16GS
• High speed PCIe data transfer architecture
• Integrated digital IQ modulators and demodulators
• Real time FPGA feedback for conditional waveform control
• Excellent phase noise and spurious signal performance
• Task table sequencing for intelligent waveform transitions
• Optional streaming capability up to 3GS/s
• Compatible with Python, MATLAB, C, and LabVIEW

Key Features

• 9GS/s ultra-high-speed RF waveform generation for advanced applications
• 16-bit resolution for precise and stable signal output performance
• 12 synchronized channels for complex multi-signal RF environments
• 8GS waveform memory enabling long-duration signal generation
• 16 marker outputs for precise timing and system synchronization
• SDR-based Proteus architecture for adaptive real-time waveform control
• Integrated IQ modulation and demodulation for modern RF workflows
• PCIe high-speed data transfer for low-latency streaming performance
• FPGA-driven real-time feedback for conditional waveform generation
• Ideal for EW simulation, radar systems, and advanced RF research

The Tabor P9482B RF AWG is a high-performance benchtop arbitrary waveform generator designed for precise RF signal generation. With a 9GS/s sampling rate, 16-bit resolution, and 2 independent channels, it delivers advanced waveform control for Electronic Warfare (EW), quantum research, and next-generation wireless communication testing.

Key Features

• 9GS/s ultra-fast sampling for high-fidelity waveform generation
• 16-bit resolution for accurate signal representation
• 2 independent channels with 8 programmable markers
• 8GS standard memory, expandable up to 16GS
• Real-time FPGA-based feedback for conditional waveform generation
• Integrated Digital IQ Modulators and Demodulators
• Modular PXI Express architecture for scalable and synchronized applications
• High-speed PCIe data transfer and streaming capabilities
• Excellent phase noise and spurious performance
• Task Table sequencing for responsive, logic-based waveform control
• Compatible with Python, MATLAB, C, and LabVIEW

Key Features

• 9GS/s high speed RF waveform generation for advanced signal simulation
• 16-bit resolution ensuring high signal accuracy and fidelity
• 6 independent output channels for complex multi-signal environments
• 8GS waveform memory supporting long and dynamic waveform playback
• 24 marker outputs for precise event timing and system synchronization
• SDR based architecture for real-time adaptive waveform generation
• Integrated IQ modulation and demodulation for advanced RF processing
• PCIe high speed data transfer for seamless streaming and control
• Real-time feedback control enabling closed-loop signal response
• Ideal for EW simulation, quantum research, and advanced wireless testing

The Tabor P9482M RF AWG is a high performance RF arbitrary waveform generator module designed for advanced signal generation and demanding RF testing environments. With an ultra fast 9GS/s sampling rate, 16-bit resolution, and dual output channels, it delivers highly accurate waveform generation for Electronic Warfare simulation, radar system development, and next generation wireless communication research.

Built on the powerful Proteus platform and advanced SDR architecture, the P9482M RF AWG provides more than waveform generation. It can listen to incoming signals, process them, and react instantly through its integrated FPGA feedback system. This intelligent design allows engineers to create responsive RF systems that adapt in real time to changing signal conditions.

Key Features

• 9GS/s ultra high sampling rate for advanced RF waveform generation
• 16-bit vertical resolution for exceptional signal fidelity
• 2 independent RF output channels for synchronized signal creation
• 8 programmable markers for precise timing and signal control
• 8GS waveform memory for storing long and complex waveform sequences
• Fast PCIe data transfer architecture for high speed data movement
• Integrated digital IQ modulators and demodulators
• Real time FPGA feedback system for conditional waveform generation
• Excellent phase noise and spurious performance for RF testing
• Task table sequencing for dynamic waveform switching
• Optional streaming capability for long waveform playback
• Compatible with Python, MATLAB, C, and LabVIEW programming environments