Products

The Memory HiCorder MR8870 is a compact, high-speed data acquisition recorder designed for waveform observation and RMS variation recording in maintenance and fault analysis applications.

Key Features

• Dual recording mode for instantaneous waveforms and RMS variations
• Two isolated analog channels with 2 MW internal memory
• Real-time saving of measured values to CF card
• Synchronize two instruments to record four channels at once
• High-speed performance up to 1 MS per second
• Compact handheld design for easy field transport
• Sharp QVGA TFT wide LCD for clear waveform viewing
• Ideal for elevator, motor, inverter, and machine diagnostics

The Memory HiCorder MR8875 is a high-speed, portable data acquisition recorder designed for vehicle testing, performance evaluation, and advanced multichannel measurements.

Key Features

• 1000 V direct input with instantaneous DC and RMS measurement
• Up to 16 to 60 channels with plug-and-play input modules
• High-speed simultaneous logging down to 2 microseconds
• Real-time recording directly to SD card for long-term logging
• 16-bit high-resolution measurement for accurate results
• Direct CAN bus input for onboard vehicle analysis
• Built-in FFT and waveform calculation for advanced analysis
• Intuitive touch screen interface for fast setup and operation
• Designed to withstand vibration and extreme temperatures

The Memory HiCorder MR8880 is a rugged, field-ready waveform recorder designed to capture high- and low-voltage signals safely in industrial and maintenance applications.

Key Features

• Direct 600 V input for three-phase power measurements
• CAT III 600 V isolation for safe high-voltage testing
• Four completely isolated analog channels
• Simultaneous recording of three-phase systems plus one spare channel
• Wide operating temperature range from minus 10 to 50 degrees Celsius
• Shock- and vibration-resistant housing with side protectors
• Built-in trigger and pre-trigger functions for precise event capture
• Presets function for fast and consistent setup

The Tabor P12812B RF AWG is a high-performance 12-channel arbitrary waveform generator designed for RF, Electronic Warfare (EW), and quantum research. With 16-bit resolution and 1GS memory, it delivers precise, adaptive waveform outputs. Its PXI Express modular architecture supports ultra-fast PCIe data transfer, real-time feedback, and scalable multi-channel configurations.

Key Features

• 1.25GS/s sampling rate for accurate waveform generation
• 16-bit vertical resolution for high-fidelity signals
• 12 output channels with 12 programmable markers
• 1GS standard memory, expandable up to 8GS
• Real-time FPGA-controlled feedback for adaptive waveforms
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express architecture for scalable multi-channel systems
• High-speed PCIe transfer for uninterrupted waveform streaming
• Excellent phase noise and spurious performance
• Programmable via Python, MATLAB, C, or LabVIEW

The P1282B RF AWG Module is designed for precision signal generation and advanced RF experimentation. Built on the Proteus SDR architecture, it delivers high performance waveform control for research and communication systems.

Key features:

• 1.25 GS/s sampling rate with 16-bit resolution for high signal accuracy
• 2-channel RF AWG module supporting synchronized waveform output
• 1 GS internal memory for flexible waveform storage and replay
• 4 integrated markers for advanced timing and trigger control
• SDR-based architecture enabling real-time waveform responsiveness
• PCIe high-speed data transfer for ultra-fast system communication
• Integrated IQ modulation and demodulation support
• Low latency feedback system for adaptive waveform generation
• Scalable modular design for multi-channel expansion
• Suitable for EW simulation, wireless testing and quantum control

The Tabor P1282M AWG is a powerful arbitrary waveform generator and transceiver platform designed for advanced signal generation and real time processing. With a 1.25GS/s sampling rate, 16-bit vertical resolution, and two independent output channels, this instrument delivers high fidelity waveform generation for Electronic Warfare simulation, quantum control experiments, and wireless communication research.

Built on an advanced SDR architecture within the Proteus instrument family, the P1282M AWG goes beyond traditional signal generation. It can listen to incoming signals, process them instantly, and react in real time through its integrated FPGA based feedback system. This makes it an excellent solution for laboratories and engineers who need flexible waveform generation with intelligent system response.

Key Features

• 1.25GS/s sampling rate for accurate waveform generation
• 16-bit vertical resolution for high signal precision
• 2 independent output channels for dual channel waveform control
• 4 programmable markers for precise signal synchronization
• 1GS waveform memory for storing complex signal sequences
• High speed PCIe data transfer architecture
• Real time FPGA feedback for conditional waveform generation
• Integrated digital IQ modulation and demodulation support
• Excellent phase noise and spurious signal performance
• Task table sequencing for dynamic waveform transitions
• Optional streaming capability for long waveform playback
• Compatible with Python, MATLAB, C, and LabVIEW programming

The Tabor P1282M Proteus AWG is a powerful 1.25GS/s, 16-bit arbitrary waveform generator and transceiver platform built for engineers who demand precision, scalability, and real-time responsiveness. Designed on advanced SDR architecture, it delivers intelligent waveform generation for Electronic Warfare, quantum research, radar simulation, and next-generation wireless testing.

Key Features

• 1.25GS/s sample rate with 16-bit vertical resolution
• 1GS memory standard, expandable up to 16GS
• Dual-channel output with 4 markers
• Advanced PXI Express modular architecture
• Integrated digital IQ modulators and demodulators
• Optional 5.4GS/s RF ADC digitizer for transceiver capability
• Real-time feedback control for conditional waveform generation
• Ultra-fast PCIe data transfer and streaming
• Task-driven non-linear waveform sequencing
• Excellent phase noise and spurious performance

The Tabor P1284B RF AWG is a high-performance arbitrary waveform generator designed for advanced RF, Electronic Warfare (EW), and quantum control applications. With 4 output channels, 16-bit resolution, and 1GS memory, it provides precise waveform generation and rapid response through FPGA-controlled real-time feedback. Its modular PXI Express design supports expansion, high-speed PCIe data transfer, and uninterrupted signal streaming.

Key Features

• 1.25GS/s sampling rate for fast and accurate waveform generation
• 16-bit vertical resolution for precise signal output
• 4 output channels with 4 programmable markers
• 1GS standard memory, expandable up to 8GS
• FPGA-controlled real-time feedback for adaptive waveform responses
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express architecture, scalable for multi-channel systems
• Ultra-fast PCIe data transfer for uninterrupted streaming
• Excellent phase noise and spurious performance
• Programmable via Python, MATLAB, C, or LabVIEW

The Tabor P1284M AWG is a high precision arbitrary waveform generator designed for demanding signal generation and RF testing applications. With a sampling rate of 1.25GS/s, 16-bit vertical resolution, and four independent output channels, it provides accurate waveform generation for Electronic Warfare simulation, quantum research, radar development, and next generation wireless communication testing.

Part of the advanced Proteus instrument family, the P1284M AWG is built on a modern SDR architecture that allows the system to not only generate signals but also analyze and respond to them in real time. Its integrated FPGA based feedback system enables conditional waveform generation, making it a powerful solution for engineers and researchers working with complex RF environments.

Key Features

• 1.25GS/s sampling rate for accurate waveform generation
• 16-bit resolution for high signal fidelity
• 4 independent output channels for multi channel testing
• 4 programmable markers for precise signal timing
• 1GS waveform memory for storing complex sequences
• High speed PCIe data transfer architecture
• Integrated digital IQ modulators and demodulators
• Real time FPGA feedback for conditional waveform generation
• Excellent phase noise and spurious signal performance
• Task table sequencing for dynamic waveform control
• Optional streaming capability for long waveform playback
• Compatible with Python, MATLAB, C, and LabVIEW

The Tabor P1284M Proteus AWG is a high performance 1.25GS/s, 16-bit arbitrary waveform generator built for advanced RF, Electronic Warfare, radar, and quantum applications. With four synchronized channels, deep memory, and real-time FPGA feedback, it delivers intelligent waveform generation that responds instantly to changing conditions.

Key Features

• 1.25GS/s sample rate with 16-bit vertical resolution
• 1GS memory standard, expandable up to 16GS
• Four fully synchronized output channels
• Four standard markers with expansion options
• Advanced PXI Express modular 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 streaming
• Excellent phase noise and spurious performance

The Tabor P1288B RF AWG is a high-performance arbitrary waveform generator built for demanding RF, Electronic Warfare (EW), and quantum control applications. It features 8 output channels, 16-bit resolution, and 1GS memory, combined with FPGA-controlled real-time feedback for adaptive waveform generation. Its modular PXI Express design supports high-speed PCIe data transfer, uninterrupted signal streaming, and scalability for multi-channel systems.

Key Features

• 1.25GS/s sampling rate for precise waveform generation
• 16-bit vertical resolution for high-fidelity signals
• 8 output channels with 8 programmable markers
• 1GS standard memory, expandable up to 8GS
• FPGA-controlled real-time feedback for adaptive output
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express architecture for scalable multi-channel setups
• High-speed PCIe transfer for uninterrupted waveform streaming
• Excellent phase noise and spurious performance
• Programmable via Python, MATLAB, C, or LabVIEW

The Tabor P25812B RF AWG is a 12-channel high-performance arbitrary waveform generator engineered for advanced RF, Electronic Warfare, and quantum research. With 16-bit resolution and 2GS memory, it provides precise waveform generation, ultra-fast data handling, and adaptive real-time feedback control.

Key Features

• 2.5GS/s sampling rate for high-speed signal generation
• 16-bit vertical resolution for accurate waveform reproduction
• 12 independent output channels with 24 programmable markers
• 2GS standard memory, expandable up to 8GS
• Real-time FPGA feedback for conditional waveform generation
• Integrated Digital IQ modulators and demodulators
• Modular PXI Express architecture, scalable for multi-channel systems
• Ultra-fast PCIe data transfer for continuous waveform streaming
• Excellent phase noise and spurious-free performance
• Task Table sequencing for intelligent, low-latency waveform control
• Programmable via Python, MATLAB, C, or LabVIEW

The P25812D Proteus 12CH is a next-generation 2.5GS/s, 16-bit arbitrary waveform generator designed for advanced RF, defense, and quantum research applications. Built on a powerful SDR-based architecture, it goes beyond traditional waveform generation by enabling real-time interaction, feedback, and adaptive signal control.

Key Features

• 12 synchronized channels with 2.5GS/s sampling rate
• 16-bit vertical resolution for ultra-precise signal accuracy
• 2GS waveform memory supporting long and complex scenarios
• 24 integrated markers for advanced timing and control
• Real-time FPGA-based feedback control system
• Integrated transmit, receive, and digital signal processing engine
• Task-based waveform sequencing for intelligent signal flow
• PCIe-based high-speed data streaming architecture
• Supports up to 8GHz bandwidth with digitizer option
• NCO integrated for direct microwave frequency upconversion

The Tabor P2582B RF AWG is a high-performance 2-channel arbitrary waveform generator designed for RF, Electronic Warfare (EW), and quantum applications. It offers precise waveform generation with 16-bit resolution and 2GS memory. Its PXI Express modular design supports real-time feedback, ultra-fast PCIe data transfer, and adaptive waveform control.

Key Features

• 2.5GS/s sampling rate for high-speed waveform generation
• 16-bit resolution for accurate signal representation
• 2 output channels with 8 programmable markers
• 2GS standard memory, expandable up to 8GS
• Real-time FPGA-controlled feedback for adaptive waveform generation
• Integrated Digital IQ modulation and demodulation
• Modular PXI Express design for scalable multi-channel systems
• Ultra-fast PCIe data transfer for uninterrupted waveform streaming
• Excellent phase noise and spurious performance
• Supports programming in Python, MATLAB, C, or LabVIEW

Key Features

• 2.5 GS/s sampling rate with 16-bit resolution for high precision waveform generation
• 2-channel architecture designed for synchronized RF and signal testing
• 2 GS waveform memory enabling extended and complex signal playback
• 8 integrated markers for precise timing and control applications
• Advanced SDR-based Proteus architecture for real time signal intelligence
• PCIe high speed data transfer for seamless streaming and processing
• Integrated IQ modulation and demodulation for advanced RF experiments
• FPGA driven real time feedback system for adaptive waveform generation
• Supports electronic warfare simulation, quantum control, and RF research
• PXI Express modular platform for scalable multi-channel expansion

The Tabor P2582M AWG is a high performance arbitrary waveform generator designed for advanced signal generation, RF research, and complex testing environments. With a 2.5GS/s sampling rate, 16-bit vertical resolution, and two independent output channels, it provides accurate waveform creation for Electronic Warfare simulations, radar development, and next generation wireless communication testing.

As part of the advanced Proteus instrument family, the P2582M AWG is built on modern SDR architecture that allows the system to generate signals and react to incoming data in real time. Its integrated FPGA feedback system enables conditional waveform generation, making it ideal for engineers who require dynamic and intelligent signal testing capabilities.

Key Features

• 2.5GS/s high speed sampling rate for precise waveform generation
• 16-bit vertical resolution for superior signal fidelity
• 2 independent output channels for flexible signal testing
• 8 programmable markers for accurate event synchronization
• 1GS waveform memory for complex signal storage
• High speed PCIe data transfer architecture
• 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 intelligent waveform switching
• Optional streaming capability for continuous waveform playback
• Compatible with Python, MATLAB, C, and LabVIEW programming