Products

The Tabor P9484M RF AWG is a powerful RF arbitrary waveform generator module designed for high speed signal generation and advanced RF testing. With a 9GS/s sampling rate, 16-bit resolution, and four independent output channels, it allows engineers to create complex RF waveforms for Electronic Warfare simulation, radar system development, and next generation wireless communication research.

As part of the advanced Proteus platform, the P9484M RF AWG uses a modern SDR architecture that enables the instrument to generate, analyze, and respond to signals in real time. Its integrated FPGA feedback system supports intelligent waveform control and conditional signal generation, giving engineers a responsive and flexible testing environment for complex RF systems.

Key Features

• 9GS/s ultra high sampling rate for advanced RF waveform generation
• 16-bit vertical resolution for superior signal accuracy
• 4 independent RF output channels for synchronized multi channel testing
• 8 programmable markers for precise timing and signal control
• 8GS waveform memory for storing long and complex signal sequences
• High speed PCIe data transfer architecture for fast waveform loading
• Integrated digital IQ modulators and demodulators
• Real time FPGA feedback system for conditional waveform generation
• 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 environments

The Tabor P9488B RF AWG is a premium benchtop RF arbitrary waveform generator built for precision, speed, and real-time responsiveness. With 9GS/s sampling rate, 16-bit resolution, and 8 independent channels, it provides advanced waveform control for Electronic Warfare, quantum computing, and next-generation wireless communication testing.

Key Features

• 9GS/s ultra-fast sampling for precise waveform output
• 16-bit resolution for high-fidelity signal reproduction
• 8 independent channels with 16 programmable markers
• 8GS standard memory, expandable up to 16GS
• FPGA-based real-time feedback for instant waveform adjustment
• Integrated Digital IQ Modulators and Demodulators
• Modular PXI Express architecture for scalable and synchronized setups
• High-speed PCIe data transfer and streaming up to 3GS/s
• Excellent phase noise and spurious performance
• Task Table sequencing for intelligent, non-linear waveform control
• 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
• 8 independent channels for complex multi-signal RF environments
• 8GS waveform memory enabling long duration signal playback
• 16 marker outputs for highly accurate timing and system synchronization
• SDR based Proteus architecture for adaptive real-time waveform control
• Integrated IQ modulation and demodulation for advanced RF processing
• PCIe high-speed data transfer for seamless streaming performance
• Real-time FPGA feedback system for conditional waveform generation
• Ideal for EW simulation, radar systems, and quantum research

Key Features

• Supports wafers up to 200 mm (optional 300 mm upgrade)
• Operates at cryogenic temperatures down to 10 K
• Semi-automated with optional full automation via autoloader
• Compatible with liquid nitrogen, liquid helium, or cryo-cooler
• Ice- and condensation-free probing for stable performance
• Up to eight probe positioners or probe card integration
• Solid vibration-isolated frame for precision measurements
• Velox software with intuitive alignment and automation

PAO Chillers are engineered for precise and reliable cooling in military, aerospace, and industrial applications. Designed for use with polyalphaolefin fluids, these systems ensure consistent performance in demanding environments.

Key Features

• Designed for PAO heat transfer fluid applications
• Ideal for military, aerospace, and industrial cooling
• Portable and stand alone system design
• Advanced touchscreen controller with diagnostics
• Real time monitoring and performance graphing
• Remote communication capabilities
• Optional pressure and flow control features
• High reliability for critical applications
• Built to ISO and ITAR compliance standards

The Aim-TTi PL Series DC Power Supply combines precision, flexibility, and reliability in a compact linear regulated design. Available in single, dual, and triple output configurations, it delivers exceptional control and accuracy for laboratory, R&D, and testing environments.

Key Features:

• Single, dual, or triple output models
• Voltage range from 6V/8A to 60V/1.5A
• High-performance linear regulation for low noise
• Compact and space-saving design
• True analog controls for smooth operation
• S-Lock function to instantly lock settings
• V-Span feature to customize voltage range
• Low current measurement and meter averaging
• Selectable remote sense terminals
• Independent, Isolated Tracking, and True Parallel modes
• High current, low voltage output on triple models
• Optional interfaces: RS-232, USB, LAN (LXI), and GPIB
• Analog remote control of voltage and current (single output only)

Key Features

• Entry-level manual wafer probing in vacuum < 1×10⁻⁴ mbar
• Supports wafers up to 150 mm or single dies
• Up to six probe positioners for flexible testing
• Optional thermal chuck from -60°C to +300°C
• Probing possible with open chamber lid at atmosphere
• Stable, vibration-isolated frame for precise results
• Ergonomic design with hinged topside lid for easy access
• Independent control of chuck stage and positioners
• Fast, manual step-and-repeat wafer testing

Cascade PM300 – 300 mm Analytical Probe Station

Key Features:

• Industry benchmark for manual wafer probing and failure analysis.
• Superior mechanical stability with granite base for precision and repeatability.
• High-precision probe positioning with independent X-Y coarse and fine adjustments.
• Configurable for DC, RF, mmW, WLR, FA, and 3D IC testing.
• Wide thermal range: -60°C to +200°C (PM300PS) / +15°C to +300°C (PM300).
• Optional electromagnetic shielding (PM300PS) for ultra-low-noise environments.
• Spacious, ergonomic design supporting up to 12 positioners.
• Upgradeable platform to support future testing needs.

The Tabor PM8571A Pulse Generator is a high-performance single-channel pulse and pattern generator designed for demanding laboratory and industrial applications. With a 50MHz pulse output, 300MS/s arbitrary waveform capability, and 16-bit resolution, it provides unmatched versatility for standard, arbitrary, and sequenced waveforms. Its compact 2U ½ rack design combines advanced pulse precision with easy operation, high signal fidelity, and full remote control options.

Key Features

• Single-channel pulse and pattern generator with 50MHz output
• 300MS/s arbitrary waveform and sequence generator
• 16-bit amplitude resolution for precise waveform reproduction
• 10ps pulse resolution with 4ns transition time
• 32Vpp output into open circuit, programmable impedance
• Supports AM, FM, FSK, ASK, PSK, PWM, and sweep modulations
• Stores up to 10 sequence tables for complex waveform control
• High-resolution 3.8” color LCD display for intuitive operation
• Ethernet, USB, and GPIB interfaces for remote control
• Compatible with legacy pulse/function generators via “drop-in” emulation
• ArbConnection software for waveform creation and editing

The Tabor PM8572A Pulse Generator is a high-performance dual-channel pulse and pattern generator designed for advanced laboratory and industrial applications. It provides precise 50MHz pulse output, 300MS/s arbitrary waveform capability, and 16-bit amplitude resolution for unmatched waveform flexibility. Its compact 2U ½ rack design combines high signal integrity, versatile modulation, and user-friendly operation, making it an essential tool for engineers and researchers.

Key Features

• Dual-channel pulse and pattern generator with 50MHz output
• 300MS/s arbitrary waveform and sequence generator
• 16-bit amplitude resolution for precise waveform reproduction
• 10ps pulse resolution with 4ns transition time
• 32Vpp output into open circuit, programmable impedance
• Supports AM, FM, FSK, ASK, PSK, PWM, and sweep modulations
• Stores up to 10 sequence tables per channel for complex waveform control
• High-resolution 3.8” color LCD display for intuitive operation
• Ethernet, USB, and GPIB interfaces for remote control
• Legacy “drop-in” emulation for Fluke, HP, Tabor, Tektronix, and Wavetek devices
• ArbConnection software for waveform design and editing
• Tight inter-channel synchronization with precise phase control

The Polarity Inverters series provides a reliable solution for switching the output polarity of high power converters. Designed to work seamlessly with monopolar power supplies such as NGPS systems, these polarity switching units support current ratings up to 1000 A and voltage up to 250 V. With integrated safety interlocks and enabling signals, the system ensures secure polarity inversion for demanding industrial and scientific applications.

Key Features

• Reliable polarity switching for power converters up to 1000 A
• Maximum voltage rating of 250 V for high power applications
• Compatible with monopolar power supplies including NGPS systems
• Available in multiple current ratings including 200 A, 420 A, 630 A and 1000 A
• Auxiliary AC power input from 100 to 240 VAC at 50 or 60 Hz
• Integrated interlock and enabling signals for safe switching operations
• Supports control signals up to 240 V at 16 A and 10 A
• Designed for applications requiring polarity reversal such as magnet degaussing
• Standard rack mounting design with 19 inch enclosure options
• Durable industrial construction for reliable long term operation

The Model P12812D from the Tabor Electronics Proteus family is a high performance Arbitrary Waveform Generator developed for advanced RF testing, electronic warfare simulation, radar target generation, and quantum computing applications. Built on an intelligent SDR architecture, this scalable AWG delivers high speed waveform generation, real time signal responsiveness, and exceptional multi channel synchronization in a compact PXI Express platform.

Key Features

• 1.25GS/s waveform generation with 16 bit resolution
• 1GS onboard waveform memory
• 12 channel AWG with 12 programmable markers
• Advanced SDR architecture for intelligent waveform processing
• High speed PCIe data transfer for uninterrupted waveform streaming
• Modular PXI Express platform scalable to hundreds of synchronized channels
• Integrated digital IQ modulators and demodulators
• Real time FPGA controlled feedback system
• Excellent phase noise and low spurious signal performance
• Task driven non linear waveform sequencing
• Supports Python, MATLAB, C, and LabVIEW programming
• Ideal for EW simulation, radar systems, massive MIMO research, and quantum applications

The Model P1282D from the Tabor Electronics Proteus series is a powerful Arbitrary Waveform Generator built for advanced RF research, electronic warfare simulation, radar applications, and quantum computing environments. Designed with an advanced SDR architecture, this compact and scalable AWG combines high speed waveform generation with intelligent real time feedback control for modern testing applications.

Key Features

• 1.25GS/s waveform generation with 16 bit vertical resolution
• 1GS memory for complex waveform playback
• 2 channel AWG with 4 programmable markers
• Advanced SDR based architecture for intelligent signal processing
• Modular PXI Express platform scalable to hundreds of synchronized channels
• Fast PCIe data transfer for uninterrupted waveform streaming
• Integrated digital IQ modulators and demodulators
• Real time feedback control for conditional waveform generation
• Excellent phase noise and low spurious signal performance
• Task driven non linear waveform sequencing
• Compatible with Python, MATLAB, C, and LabVIEW programming
• Ideal for EW simulation, radar systems, wireless communications, and quantum research

The Model P1284D from the Tabor Electronics Proteus family is a high performance Arbitrary Waveform Generator built for advanced RF testing, electronic warfare simulation, radar systems, and quantum research. Powered by an advanced SDR architecture, this intelligent AWG combines precise waveform generation, real time feedback control, and scalable multi channel performance in a compact PXI Express platform.

Key Features

• 1.25GS/s waveform generation with 16 bit resolution
• 1GS onboard memory for long waveform playback
• 4 channel AWG with 4 programmable markers
• Advanced SDR architecture for intelligent waveform processing
• High speed PCIe data transfer for seamless streaming
• Modular PXI Express design scalable to hundreds of synchronized channels
• Integrated digital IQ modulators and demodulators
• Real time FPGA controlled feedback system
• Excellent phase noise and low spurious performance
• Task driven non linear waveform sequencing
• Supports Python, MATLAB, C, and LabVIEW programming
• Ideal for EW simulation, radar target generation, wireless communication testing, and quantum applications

The Model P1288D from the Tabor Electronics Proteus family is a powerful Arbitrary Waveform Generator engineered for advanced RF signal generation, electronic warfare simulation, radar target testing, and quantum research applications. Built on an advanced SDR architecture, this intelligent AWG delivers precise waveform generation, real time responsiveness, and scalable multi channel synchronization for modern engineering environments.

Key Features

• 1.25GS/s waveform generation with 16 bit resolution
• 1GS onboard waveform memory
• 8 channel AWG with 8 programmable markers
• Advanced SDR architecture for intelligent waveform processing
• Fast PCIe data transfer for high speed waveform streaming
• Modular PXI Express platform scalable to hundreds of synchronized channels
• Integrated digital IQ modulators and demodulators
• Real time FPGA based feedback control system
• Excellent phase noise and low spurious signal performance
• Task driven non linear waveform sequencing
• Supports Python, MATLAB, C, and LabVIEW programming
• Ideal for EW simulation, radar systems, massive MIMO research, and quantum applications