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Explore Proteus AWG & Transceivers Series

Experience unmatched flexibility with Proteus platform — integrating high-speed waveform generation, IQ modulation, and signal processing in one scalable system.
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Discover Lucid RF Signal Generator Series

Explore Lucid Series – offering 3, 6, and 12 GHz models with exceptional signal purity, rapid switching, and versatile modulation options.
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High Voltage Amplifiers

High-voltage amplifiers are key in applications such as vehicle ECU susceptibility testing, multi-phase power system testing, and other applications when hundreds of peak-to-peak voltage is required.
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Amplify up to 20GHz

Model A10200 is an ultra-small footprint, ultra wideband, high power amplifier designed for high frequency, high power, signal amplification.
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Software Defined Radio

Advanced wideband Software Defined Radio, based on a high-performance system-in-a-module architecture. With high sample rates, wide frequency coverage, and accelerated FPGA processing.
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Counter-Unmanned Aircraft Systems Validation

Our Primer will show you how Tabor Electronics can accelerate your design, test and evaluation.
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Desktop, carry around chassis

The PXE6410 is a PXIe based 6 based slot Gen 3 x4 chassis, that supports the Tabor Proteus Family of AWG’s and the TE330x family of PXIe RF amplifiers.
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21 Slot, Gen 4 x8

The PXE21100 is the fastest PXIe chassis in the industry, with 21 available usable slots, ideal for high density high speed measurement applications.
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High Voltage Amplifiers

High-voltage amplifiers are key in applications such as vehicle ECU susceptibility testing, multi-phase power system testing, and other applications when hundreds of peak-to-peak voltage is required.
Read more >

Amplify up to 20GHz

Model A10200 is an ultra-small footprint, ultra wideband, high power amplifier designed for high frequency, high power, signal amplification.
Read more >
Solutions
Knowledge Center
About

Solutions

The aerospace and defense (A&D) industry is constantly evolving - new requirements and specifications to counter the next set of adversarial threats drive the need for advanced solutions and architectures.

Quantum & Physics

Quantum physics is one of the fastest growing fields of research. Governments and private organizations are investing substantial resources, in the race for scientific and commercial advances.

Wireless & Communication

Modulated signals are found in many industries such as mobile phones, radars, lasers, Wi-Fi networks, modems, navigation systems (GPS), RFID tags and satellite communications. Same modulation schemes can be found in the wired

Industrial & Power

Many industries make use of motion control systems, electro-optical systems such as lasers, electricity power lines, and power systems.

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Case Studies

Nuclear Magnetic Resonance (NMR) Spectroscopy Case study, UC Berkeley in California, 2020

Nuclear Magnetic Resonance (NMR) Spectroscopy is a technique used for determining the structure of organic compounds. Traditionally an LO, mixer (upconverter), an AWG and an RF receiver or lock-in amplifier would be used to achieve the needed measurement.

Using the Proteus Arbitrary waveform Transceiver allows a simpler, more accurate, and cost-effective instrument.

Solution Notes

Proteus Radar Target Simulator

Tabor’s Proteus AWT serves as a compact Radar Target Simulator by integrating DACs, ADCs, and FPGA processing to receive radar pulses, apply real-time delays, and retransmit accurate echoes. This simplifies traditional DRFM systems while improving agility, SNR, and multi-channel scalability.

Solution Notes

Using an Arbitrary Waveform Generator for Lidar Target Generation

A LiDAR system consists of three main systems – the optical, electrical and processing system. A laser forms the basis for the transmitter. In some systems the laser scans the environment mechanically, by essentially moving the laser from left to right and emitting pulses of light.

Solution Notes

Hard Disk Drives – Solution Note

When a power supply is turned on, its purpose is to deliver, for example, 5 and 12 Volts to its “clients” – electronic components – by raising the voltage from zero to the required level. In reality, however, the voltage amplitude does not rise linearly from 0 to 5V or 12V. Instead, every power supply has its own voltage rise profile

Solution Notes

Motion Control – Solution Note

A motion control system is used to regulate the position or velocity of a mechanical object. The main components of a motion control system include: Application hardware or software, a motion controller, an amplifier, an actuator (such as a motor), a feedback device and the mechanical object.

Solution Notes

Cold Atoms

Cold atoms are atoms that have been super-cooled to a less than one millionth of a degree above absolute zero (zero degrees Kelvin – the temperature at which atoms cease all movement). Under such supercooled conditions, the result is a new form of matter that is governed by quantum mechanics.

Solution Notes

Pion Decay

Particle physics research institutes are trying to simulate and research the behavior of sub-atomic particles. Because Pions consists of a particle and an antiparticle, they are very unstable. They requires precise simulation of complex, ultra-fast particle interactions.

Tutorials

Defense Electronics: Using Next-Gen AWG/T in Aerospace and Defense

Modern A&D systems require advanced tools to emulate complex radar threats and realistic RF environments. Next-generation AWG/T solutions precisely reproduce modeled signals across wide bandwidths, supporting both R&D and mission-critical Test & Evaluation. Their COTS design delivers high performance and flexibility while simplifying system integration.

Tutorials

Real Time Wideband Microwave Measurement Feedback and Control

Real-time wideband measurement and adaptive control are critical in quantum research, advanced communications, automotive sensing, and electronic warfare. By integrating high-fidelity RF generation with wideband ADCs and FPGA processing, an AWT can capture, analyze, and update waveforms instantly. This enables faster, more precise testing in the most demanding high-bandwidth environments.

Tutorials

Using Multi-channel Signal Generators to test Mixers

A mixer is a usually a three port passive device used for frequency translation. In the Frequency Domain it adds and subtracts two frequencies together. In this application note we will use a Quantum Microwave 5.3GHz to 16GHz Image reject mixer. This is a single sideband mixer

Professional tips

How to Define possible waveforms in advance or calculate waveforms in real-time

Achieve deterministic, ultra-low latency timing essential for Quantum Computing by utilizing the Proteus's innovative memory architecture. This unique system combines large DRAM for waveform storage with very fast, on-FPGA static RAM to ensure pulse switching speeds and deterministic timing necessary for real-time pulse duration and timing adjustments.

Case Studies

Quantum Computing Control and Readout complexity reduction, a joint project with Bleximo Corp, Berkeley, California

We’ve some exciting measurement results to share as we continue to reduce cost/complexity in Quantum Computing Control and Readout with the Tabor Proteus Arbitrary Waveform Transceiver.

The results will be presented for the first time at the American Physical Society (APS Physics) March Meeting 2022 in Chicago. Come meet us at booth 108.

Professional tips

How to generate a high-quality RF and uW signal for a Quantum physics experiment with a 9GSa/s AWG?

Streamline your multi-qubit experiments by leveraging Direct-to-RF Waveform Generation with the multi-channel Proteus unit. This approach eliminates the complex calibration and external IQ modulation required by traditional setups, allowing you to easily generate up to 22 channels of phase-coherent, direct-to-microwave control pulses (e.g., 4 GHz pulses).

Professional tips

How to save precious aligning and calibrating time in quantum computing experiments?

Accelerate your quantum control and readout system development with the Tabor Quantum Experiment Starter Pack. This integrated solution combines the Proteus AWG and Lucid RF Signal Generator with a quantum microwave IF mixer, making it easy to create and modulate complex pulses, like Gaussian waveforms, for coherent qubit manipulation.

Solution Notes

Signal Amplifiers - Application Note

There are several considerations one must take into account when deciding to acquire a new signal amplifier. The following tutorial will address the topics which are most related to Tabor’s line of signal amplifiers as well and will provide tips for selecting the most suitable amplifier for your application. It will also explain how each of the topics would influence the amplifier’s performance.

Solution Notes

Radar Signal Simulation using an AWG

RADAR (“Radio Detection And Ranging”) is a system that uses electromagnetic waves to identify the range, altitude, direction, or speed of both moving and fixed objects such as aircraft, ships, motor vehicles, weather formations, and terrain. Radar systems use transmitters that emit electromagnetic waves that are reflected by a target (“echoes”) and detected by a receiver.

Solution Notes

Lasers – Solution Note

A LASER (Light Amplification by Stimulated Emission of Radiation) is an electro-optical device that emits highly coherent light radiation. Lasers have become a multi-billion dollar industry with applications ranging from storage devices to cosmetics.

Solution Notes

Power Line Distortion – Solution Note

Power lines, which are used to supply electricity to many types of electronic devices, are often affected by systems that introduce harmonic distortion into the power grid. Harmonic distortion is a repetitive distortion, in which every cycle of the waveform is distorted identically. A harmonic is a sinusoidal component of a periodic wave having a frequency that is an integral multiple of the fundamental frequency.

Solution Notes

Optical Displacement Meter

Microelectromechanical systems (otherwise known as MEMS) have evolved from their roots in lab research to everyday use, as their adoption in commercial and industrial applications grows. As MEMS technology advances, more advanced testing methods are needed in order to characterize the dynamics – such as vibration and displacement – of miniaturized mechanical and electro-mechanical devices.

Solution Notes

Quantum bits

In quantum computing, a qubit is a unit of quantum information. A qubit is a two-state quantum-mechanical system and is the quantum analog of the classical bit. In a classical system, a bit would have to be in one state or the other. However, quantum mechanics allows the qubit to be in a superposition of both states at the same time.

Tutorials

How to Select an Arbitrary Waveform Generator

Tutorials

Programming the Tabor Proteus Arbitrary Waveform Generator (AWG) and Arbitrary Waveform Transceiver (AWT) using Python

The Tabor Proteus family of Arbitrary Waveform Generators (AWG) and Arbitrary Waveform Transceivers (AWT) are programmed using the industry standard instrument programming language SCPI. In this tutorial we go over how to connect to an instrument, create a waveform and digitize a signal.

Tutorials

Different Types of Signal Generators and Their Applications

A quick look at some of the most common signal generators used to produce waveforms, frequencies, radio frequencies (RF), digital patterns, etc.

Multi-Nyquist Zones Operation-Solution Note

Traditionally, Arbitrary Waveform Generators have analog BW, which is not much higher than the BW of its DAC’s Nyquist criteria, causing the suppression of signals at higher Nyquist zones. The new DAC technology found in Tabor’s Signal Expert series of AWGs, offers exceptionally wide bandwidth reaching up to 7GHz and even beyond. Ideal for research, electronic test, radar & IEEE 802.11ad applications.

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